阅读说明：本技术 一种大幅面隔膜洗涤生产线及其洗涤方法 (Large-breadth diaphragm washing production line and washing method thereof ) 是由 李惠强 黄风格 于 2021-06-23 设计创作，主要内容包括：本发明公开了一种大幅面隔膜洗涤生产线及其洗涤方法,包括依次设置的入口浮动辊组、密封槽、多个洗涤槽、除液槽及干燥槽,入口浮动辊组包括入口传动座,入口传动座内滑动设有浮动辊及与浮动辊连接的配重辊,隔膜绕设于浮动辊下方,密封槽的顶端设有第一端口及第二端口,密封槽内设有密封隔板及洗涤液,密封隔板的底端浸泡于洗涤液内且与密封槽间隔设置,密封隔板将密封槽分隔为左密封腔及右密封腔,位于左密封腔内的洗涤液上设有密封液。本发明取得的有益效果：浮动辊可调整隔膜的张力,避免隔膜出现褶皱、折叠甚至断裂的情况,避免浪费原料,提高生产效率,降低生产成本,利于生产大幅面隔膜,密封槽对洗涤液进行密封处理,提高了安全性。(The invention discloses a large-width diaphragm washing production line and a washing method thereof, and the large-width diaphragm washing production line comprises an inlet floating roller set, a sealing groove, a plurality of washing grooves, a liquid removing groove and a drying groove which are sequentially arranged, wherein the inlet floating roller set comprises an inlet transmission seat, a floating roller and a counterweight roller connected with the floating roller are arranged in the inlet transmission seat in a sliding manner, a diaphragm is wound below the floating roller, a first port and a second port are arranged at the top end of the sealing groove, a sealing partition plate and washing liquid are arranged in the sealing groove, the bottom end of the sealing partition plate is soaked in the washing liquid and is arranged at an interval with the sealing groove, the sealing groove is divided into a left sealing cavity and a right sealing cavity by the sealing partition plate, and the washing liquid in the left sealing cavity is provided with sealing liquid. The invention has the following beneficial effects: the tension of the adjustable diaphragm of floating roll avoids the diaphragm fold, folding or even cracked condition to appear, avoids extravagant raw materials, improves production efficiency, reduction in production cost does benefit to the production by a wide margin diaphragm, and the seal groove carries out sealing treatment to the washing liquid, has improved the security.)

1. The large-breadth diaphragm washing production line is characterized by comprising an inlet floating roller set (100), a sealing groove (200), a plurality of washing grooves (300), a liquid removing groove (400) and a drying groove (500), wherein the inlet floating roller set, the sealing groove (200), the washing grooves (300), the liquid removing groove (400) and the drying groove (500) are sequentially arranged;

the inlet floating roller group (100) comprises an inlet transmission seat (101), a floating roller (120), a counterweight roller (130) and a plurality of inlet transmission rollers (110) are arranged in the inlet transmission seat (101), the axes of the floating roller (120), the counterweight roller (130) and the inlet transmission rollers (110) are arranged in parallel, the floating roller (120) and the counterweight roller (130) are both connected with the inlet transmission seat (101) in a sliding manner, the floating roller (120) is connected with the counterweight roller (130), diaphragms (1000) are wound outside the floating roller (120) and the inlet transmission rollers (110), the diaphragms (1000) are wound below the floating roller (120), an inlet driving piece (150) is further arranged on the inlet transmission seat (101), and the inlet driving piece (150) is connected with the inlet transmission rollers (110);

the top end of the sealing groove (200) is provided with a first port (201) and a second port (202), the first port (201) and the second port (202) are located on two opposite sides of the sealing groove (200), the first port (201) can be penetrated by a diaphragm (1000), the second port (202) is connected with an inlet of the adjacent washing groove (300), a sealing partition plate (210) and a washing liquid (220) are further arranged in the sealing groove (200), the bottom end of the sealing partition plate (210) is soaked in the washing liquid (220) and is arranged at intervals with the bottom end of the sealing groove (200) to be passed by the diaphragm (1000), the sealing partition plate (210) divides the sealing groove (200) into a left sealing cavity (203) and a right sealing cavity (204), the left sealing cavity (203) is communicated with the first port (201), and the right sealing cavity (204) is communicated with the second port (202), and a sealing liquid (230) is arranged above the washing liquid (220) in the left sealing cavity (203), and the sealing groove (200) is also provided with a sealing transmission assembly (240) for transmitting a diaphragm (1000).

2. The large-format diaphragm washing production line according to claim 1, wherein the washing tank (300) is provided with a washing transmission assembly, the washing transmission assembly comprises a plurality of washing upper transmission rollers (310) and a plurality of washing lower transmission rollers (320) which are arranged in the washing tank (300), the washing upper transmission rollers (310) are arranged above the washing tank (300), the washing lower transmission rollers (320) are arranged below the washing tank (300), the washing lower transmission rollers (320) are arranged between two adjacent washing upper transmission rollers (310), the washing transmission assembly further comprises a plurality of washing driving pieces (330) which are in one-to-one correspondence with the washing lower transmission rollers (320), the washing driving pieces (330) are connected with one corresponding washing lower transmission roller (320), one washing driving piece (330) is connected with two adjacent washing upper transmission rollers (310), the rest of the washing driving members (330) are connected to an adjacent one of the washing upper driving rollers (310).

3. The large-format membrane washing production line according to claim 1, wherein transition grooves are respectively arranged between the sealing groove (200) and the adjacent washing grooves (300), between the adjacent two washing grooves (300), between the liquid removing groove (400) and the adjacent washing groove (300) and between the liquid removing groove (400) and the drying groove (500), a membrane tension adjusting mechanism (600) is arranged in the transition grooves, the membrane tension adjusting mechanism (600) comprises a supporting shaft (610) connected with the transition grooves, clamping assemblies (620) used for clamping membranes (1000) to adjust tension are respectively arranged on two sides of the supporting shaft (610), each clamping assembly (620) comprises a fixing seat (621), the fixing seats (621) are connected with the supporting shaft (610), and a fixing wheel (622) and a movable wheel (623) are arranged on the fixing seats (621), and the fixed wheel (622) and the movable wheel (623) are arranged in parallel, the fixed wheel (622) is fixedly connected with the fixed seat (621), and the movable wheel (623) is movably connected with the fixed seat (621).

4. The large-format diaphragm washing production line according to claim 1, wherein a washing partition plate (350) is further arranged in the washing tank (300), a plurality of overflowing holes (351) are formed in the washing partition plate (350), the washing partition plate (350) divides the washing tank (300) into a left washing cavity (303) and a right washing cavity (304) which are communicated with each other, a liquid outlet (301) is further formed in the bottom end of the washing tank (300), a liquid inlet (302) is further formed in the washing tank (300), and the liquid outlet (301) and the liquid inlet (302) are both connected with a liquid storage tank.

5. The large-breadth membrane washing production line according to claim 1, wherein a liquid removing mechanism is disposed in the liquid removing tank (400), the liquid removing mechanism includes a liquid removing tank (400) connected to the washing tank (300), a left liquid scraping assembly (410) and a right liquid scraping assembly (420) are disposed in the liquid removing tank (400), the left liquid scraping assembly (410) and the right liquid scraping assembly (420) are both adjustably connected to the liquid removing tank (400), and the left liquid scraping assembly (410) and the right liquid scraping assembly (420) respectively abut against two surfaces of the membrane (1000).

6. The large-breadth membrane washing production line according to claim 1, wherein the drying tank (500) comprises a primary drying tank (510), the primary drying tank (510) is connected with the liquid removing tank (400), a first drying partition plate (511) is arranged in the primary drying tank (510), the bottom end of the first drying partition plate (511) and the bottom end of the primary drying tank (510) are arranged at intervals, the primary drying tank (510) is divided into a primary left drying cavity (515) and a primary right drying cavity (516) by the first drying partition plate (511), a plurality of primary drying rollers (512) and first air suction ports (513) corresponding to the primary drying rollers (512) in one-to-one correspondence are arranged in the primary left drying cavity (515) and the primary right drying cavity (516), the membrane (1000) is continuously S-shaped and is wound outside the primary drying rollers (512), the membrane (1000) and the first drying partition (511) or the drying tub (500) form a labyrinth structure around the corresponding first suction port (513).

7. The large-breadth membrane washing production line according to claim 6, wherein the drying tank (500) further comprises a secondary drying tank (520), the secondary drying tank (520) is connected with the primary drying tank (510), an air return opening (514) is arranged between the secondary drying tank (520) and the primary drying tank (510), a second drying partition plate (521) is arranged in the secondary drying tank (520), the bottom end of the second drying partition plate (521) and the bottom end of the secondary drying tank (520) are arranged at intervals, the second drying partition plate (521) divides the secondary drying tank (520) into a secondary left drying cavity (525) and a secondary right drying cavity (526), a plurality of secondary drying rollers (522) are arranged in the secondary left drying cavity (525), and the membrane (1000) is continuously wound outside the secondary drying rollers (522), and the second-stage right drying cavity (526) is provided with a plurality of outlet guide rollers (524), and a second air suction opening (523) is arranged between the bottom end of the second drying partition plate (521) and the second-stage drying groove (520).

8. The large-format membrane washing line according to any one of claims 1 to 7, further comprising a membrane threading mechanism (700) disposed in the sealing tank (200), the washing tank (300), the liquid removal tank (400), and the drying tank (500), the film penetrating mechanism (700) comprises a film penetrating driving part (710) and a film penetrating driving part (720), a transition component (740) is further arranged in the sealing groove (200), the film penetrating transmission part (720) is arranged on the transition component (740), the sealing groove (200), the washing groove (300), the liquid removing groove (400) and the diaphragm transmission rollers of the drying groove (500), the film penetrating driving piece (710) is connected with the film penetrating transmission piece (720) and drives the film penetrating transmission piece (720) to transmit, part of the transmission path of the film penetrating transmission member (720) is overlapped with the transmission path of the diaphragm (1000).

9. The large-format membrane washing production line according to claim 8, wherein the membrane passing driving member (720) comprises a membrane passing sprocket (721) and a membrane passing chain (722), the membrane passing sprocket (721) is disposed on the membrane driving roller, the membrane passing sprocket (721) is rotationally connected with the membrane driving roller, the transition assembly (740) comprises a transition wheel, the membrane passing chain (722) is wound outside the membrane passing sprocket (721) and the transition wheel, the membrane passing chain (722) is engaged with the membrane passing sprocket (721), and the membrane passing driving member (710) is connected with the membrane passing chain (722).

10. A method for washing a large-format membrane, characterized in that the large-format membrane washing line of any one of claims 1 to 9 is used for washing, and the washing method comprises the following steps:

step 1: -a diaphragm (1000) enters the seal groove (200) through the inlet floating roll set (100);

step 2: the diaphragm (1000) is pre-washed by the washing liquid (220) in the sealing groove (200);

and step 3: the diaphragm (1000) is washed by sequentially passing through the washing liquid (220) in the plurality of washing grooves (300);

and 4, step 4: the membrane (1000) enters the liquid removing groove (400) to scrape off the cleaning liquid (220) attached to the surface of the membrane (1000);

and 5: the diaphragm (1000) enters the drying tank (500) for drying treatment.

Technical Field

The invention relates to the technical field of battery diaphragms, in particular to a large-breadth diaphragm washing production line and a washing method thereof.

Background

The battery diaphragm is a layer of diaphragm material between the positive electrode and the negative electrode of the battery, is a very critical part in the battery, has direct influence on the safety and the cost of the battery, and has the main functions of: the positive electrode and the negative electrode are isolated, electrons in the battery cannot freely pass through the battery, and ions in the electrolyte freely pass through the battery.

The production process of the diaphragm 1000 comprises the steps of washing the diaphragm 1000 by using a dichloromethane washing solution 220, the currently adopted diaphragm washing production line is shown in fig. 1 and comprises an inlet roller set, a plurality of washing tanks 300, a liquid removing tank 400 and a drying tank 500, the diaphragm 1000 is transited into the washing tanks 300 through the inlet roller set, washed by dichloromethane in the washing tanks 300, then enters the liquid removing tank 400 to remove potassium dichloride attached to the surface of the diaphragm 1000, and finally enters the drying tank 500 to be dried, but the current washing production line has the following disadvantages:

1. the driving rollers of the inlet roller set are fixedly arranged, the tension of the diaphragm 1000 cannot be adjusted, the diaphragm 1000 can be wrinkled and folded, particularly when the width of the diaphragm 1000 is large, the diaphragm 1000 is easy to be folded, so that the production line needs to be stopped, the position of the diaphragm 1000 needs to be readjusted, the production efficiency is reduced, even when the diaphragm 1000 is broken, the diaphragm 1000 needs to be replaced, raw materials are wasted, and the production cost is increased;

2. dichloromethane is an organic substance, is a colorless transparent liquid, is insoluble in water, has a higher density than water, is volatile, has certain toxicity and pungent odor similar to ether, is open at the inlet of the current diaphragm 1000 entering the washing tank 300, is lack of sealing treatment, and can produce anesthesia effect on workers even poisoning danger and poor safety if the dichloromethane volatilizes to the working environment and is inhaled by the workers;

3. the washing tank 300 is internally provided with a washing transmission assembly for transmission, the washing transmission assembly comprises a plurality of first driving members 373 and first transmission rollers 371 arranged above the washing tank 300, the first driving members 373 are connected with the first transmission rollers 371, the washing tank further comprises a plurality of second driving members 374 and second transmission rollers 372 arranged below the washing tank 300, the second driving members 374 are connected with the second transmission rollers 372, a diaphragm 1000 is sequentially wound outside the first transmission rollers 371 and the second transmission rollers 372, such as the washing tank 300 shown in the following figure 3, the washing transmission assembly comprises two first driving members 373 and five first transmission rollers 371 arranged above the washing tank 300, one first driving member 373 is connected with the front three first transmission rollers 371, the other first driving member 373 is connected with the rear two first transmission rollers 371, the washing transmission assembly further comprises two second driving members 374 and four second transmission rollers 372 arranged below the washing tank 300, one of the second driving members 374 is connected with the two front second driving rollers 372, and the other second driving member 374 is connected with the two rear second driving rollers 372, which has the disadvantage that the rotation speed between the adjacent first driving rollers 371 and second driving rollers 372 cannot be adjusted, so that the tension of the diaphragm 1000 cannot be ensured to be sufficient, and particularly, when the diaphragm 1000 has a large breadth, the diaphragm 1000 is easy to wrinkle or fold;

4. at present, the diaphragm 1000 directly enters the next tank body from one tank body through a transmission device, and there is no structure for adjusting the tension of the diaphragm 1000 between two adjacent tank bodies, as shown in fig. 1 below, which may cause insufficient tension of the diaphragm 1000, even the diaphragm 1000 sags in the middle, especially for the diaphragm 1000 with a large breadth, for example, the diaphragm 1000 with a width dimension greater than 4 meters, thereby affecting the production quality of the diaphragm 1000.

5. The washing transmission assembly transmits the diaphragm 1000 to the next washing tank 300, only the diaphragm 1000 in the washing tank 300 moves in a transmission manner, the flowability of the washing liquid 220 in the washing tank 300 is poor, the contact area between the washing liquid 220 and the diaphragm 1000 is small, the washing effect of the washing liquid 220 and the diaphragm 1000 is reduced, and the production quality of the diaphragm 1000 is reduced;

6. the liquid removing tank 400 is as shown in an outlet liquid removing tank 400 of a membrane washing system disclosed in the applicant's prior application CN210688946U, a pressing roller mechanism is arranged in the liquid removing tank 400 to press the membrane 1000, so as to extrude the washing liquid 220 attached to the surface of the membrane 1000, but because the membrane 1000 is thin, the effect of pressing the membrane 1000 by the pressing roller mechanism is poor, and the membrane 1000 is washed by dichloromethane to form a plurality of through holes, the washing liquid 220 in the through holes cannot be removed, so that the liquid removing effect on the outer surface of the membrane 1000 is not ideal;

7. before diaphragm 1000 gets into the washing production line, need with diaphragm 1000 around locating the washing tank 300, except that the driving roller in cistern 400 and the drying bath 500, if around locating the driving roller with diaphragm 1000 in proper order through the staff outside, because the required length of establishing is long, work load is big, need consume a large amount of physical power of staff, and the pad pasting inefficiency, production efficiency hangs down.

Disclosure of Invention

In order to solve the above technical problems, an object of the present invention is to provide a large-width membrane washing production line, which includes an inlet floating roller set, a sealing groove, a plurality of washing grooves, a liquid removing groove and a drying groove, wherein the inlet floating roller set includes a floating roller and a counterweight roller, the sealing groove includes a sealing partition plate and a sealing liquid, and the large-width membrane washing production line has the advantages of adjusting the tension of a membrane, preventing the membrane from wrinkling, folding or even breaking, improving production efficiency, avoiding raw material waste, reducing production cost, facilitating the production of a large-width membrane, performing sealing treatment on a washing liquid, preventing the washing liquid from volatilizing into a working environment, improving safety, and ensuring the life health of workers.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

a large-breadth diaphragm washing production line comprises an inlet floating roller set, a sealing groove, a plurality of washing grooves, a liquid removing groove and a drying groove which are sequentially arranged, wherein the sealing groove, the washing grooves, the liquid removing groove and the drying groove are sequentially connected;

the inlet floating roller group comprises an inlet transmission seat, a floating roller, a counterweight roller and a plurality of inlet transmission rollers are arranged in the inlet transmission seat, the axes of the floating roller, the counterweight roller and the inlet transmission rollers are arranged in parallel, the floating roller and the counterweight roller are both in sliding connection with the inlet transmission seat, the floating roller is connected with the counterweight roller, diaphragms are wound outside the floating roller and the inlet transmission rollers, the diaphragms are wound below the floating roller, the inlet transmission seat is further provided with an inlet driving piece, and the inlet driving piece is connected with the inlet transmission rollers;

the top of seal groove is equipped with first port and second port, just first port reaches the second port is located the relative both sides of seal groove, first port can supply the diaphragm to penetrate, the second port with adjacent the entry linkage of wash bowl, still be equipped with sealed baffle and washing liquid in the seal groove, the bottom of sealed baffle soak in the washing liquid and with the bottom interval setting of seal groove is in order to supply the diaphragm to pass through, sealed baffle will the seal groove separates for left sealed chamber and right sealed chamber, left sealed chamber with first port intercommunication, right sealed chamber with the second port intercommunication is located in the left sealed intracavity the top of washing liquid is equipped with sealing liquid, the seal groove still is equipped with the sealed transmission assembly who is used for transmitting the diaphragm.

Preferably, the washing tank is provided with a washing transmission assembly, the washing transmission assembly comprises a plurality of washing upper transmission rollers and a plurality of washing lower transmission rollers which are arranged in the washing tank, the washing upper transmission rollers are arranged above the washing tank, the washing lower transmission rollers are arranged below the washing tank, the washing lower transmission rollers are arranged between two adjacent washing upper transmission rollers, the washing transmission assembly further comprises a plurality of washing driving pieces which are in one-to-one correspondence with the washing lower transmission rollers, the washing driving pieces are connected with one corresponding washing lower transmission roller, one of the washing driving pieces is connected with two adjacent washing upper transmission rollers, the rest of the washing driving pieces are connected with one adjacent washing upper transmission roller, and by the arrangement, the washing transmission assembly except one washing driving piece, all the other the washing driving piece is equallyd divide do not with one driving roller and one under the washing the driving roller is connected under the washing, and is different the washing driving piece is connected the washing is gone up the driving roller and the rotational speed of driving roller is adjustable to be different under the washing, and with same the washing driving piece is connected the washing is gone up the driving roller with rotational speed between the driving roller is also adjusted to be different under the washing, can adjust the rotational speed between two adjacent driving rollers, can make the rotational speed of the driving roller that is located diaphragm transmission the place ahead great, produces certain pulling force to the diaphragm to the tension of adjustment diaphragm guarantees that diaphragm tension is enough, guarantees the production quality of diaphragm, further does benefit to the production of big breadth diaphragm.

Preferably, transition grooves are respectively arranged between the sealing groove and the adjacent washing grooves, between the adjacent two washing grooves, between the liquid removing groove and the adjacent washing groove and between the liquid removing groove and the drying groove, a diaphragm tension adjusting mechanism is arranged in the transition grooves, the diaphragm tension adjusting mechanism comprises a supporting shaft connected with the transition grooves, clamping components used for clamping diaphragms to adjust tension are respectively arranged on two sides of the supporting shaft, each clamping component comprises a fixing seat, the fixing seats are connected with the supporting shaft, a fixing wheel and a movable wheel are arranged on the fixing seats, the fixing wheels and the movable wheels are arranged in parallel, the fixing wheels are fixedly connected with the fixing seats, the movable wheels are movably connected with the fixing seats, and due to the arrangement, in the diaphragm production process, the diaphragm tension adjusting mechanisms are respectively arranged between the adjacent groove bodies, the diaphragm is from the in-process of a cell body transmission to next cell body, clamping component, promptly the movable pulley reaches the diaphragm can be pressed from both sides tightly to the fixed pulley, produces certain pulling force to the diaphragm to the tension of adjustment diaphragm, and clamping component presss from both sides tight both sides of diaphragm, makes the diaphragm stretch out, avoids the diaphragm the flagging condition to appear, thereby guarantees the production quality of diaphragm, and does benefit to the production of big breadth diaphragm.

Preferably, a washing partition plate is further arranged in the washing tank, a plurality of overflowing holes are formed in the washing partition plate, the washing partition plate divides the washing tank into a left washing cavity and a right washing cavity which are communicated with each other, a liquid outlet is further formed in the bottom end of the washing tank, a liquid inlet is further formed in the washing tank, the liquid outlet and the liquid inlet are both connected with a liquid storage tank, through the arrangement, in the process of washing the diaphragm, washing liquid in the liquid storage tank enters the washing tank from the liquid inlet, the washing liquid flows from one washing cavity to the other washing cavity through the overflowing holes of the washing partition plate and is finally discharged from the liquid outlet, the circulation flowing process of the washing liquid is formed, the flowability of the washing liquid is uniformly improved, so that the washing liquid is in full contact with the diaphragm, the contact area of the washing liquid and the diaphragm is increased, and the washing effect of the diaphragm is improved, the production efficiency of the diaphragm is ensured.

As preferred, it is equipped with except that liquid mechanism to remove the cistern, it includes the cistern that removes that is connected with the wash tank to remove liquid mechanism, it scrapes the liquid subassembly and scrapes the liquid subassembly on the right side to remove the cistern, scrape the liquid subassembly on the left side and reach the liquid subassembly is scraped on the right side and contradicts with two surfaces of diaphragm respectively to scrape the liquid subassembly on the right side, through setting up like this, scrape the liquid subassembly on the left side and reach the liquid subassembly is scraped on the right side and contradicts with two surfaces of diaphragm respectively, and scrape the liquid subassembly on the left side and reach the liquid subassembly is scraped on the right side with except that cistern adjustable connection, thereby the adjustment scrape the liquid subassembly on the left side and reach the conflict pressure of scraping liquid subassembly and diaphragm on the right side, guarantee to have sufficient conflict pressure in order to scrape most washing liquid on the diaphragm surface, it is effectual to remove liquid.

Preferably, the drying tank comprises a primary drying tank, the primary drying tank is connected with the liquid removing tank, a first drying partition plate is arranged in the primary drying tank, the bottom end of the first drying partition plate and the bottom end of the primary drying tank are arranged at intervals, the primary drying tank is divided into a primary left drying cavity and a primary right drying cavity by the first drying partition plate, a plurality of primary drying rollers and first air suction ports corresponding to the primary drying rollers one to one are arranged in the primary left drying cavity and the primary right drying cavity, the diaphragm is continuously S-shaped and wound outside the primary drying rollers, the diaphragm and the first drying partition plate or the drying tank form a labyrinth structure around the corresponding first air suction ports, and through the arrangement, the primary drying rollers dry the diaphragm to volatilize residual washing liquid on the surface of the diaphragm, and the diaphragm and the first drying partition plate or the drying tank form a labyrinth structure around the corresponding first air suction ports The cleaning solution volatilized from the surface of the diaphragm can only be sucked away by the corresponding first air suction opening or moves forwards along with the diaphragm, namely, the cleaning solution volatilized has a certain guiding effect.

Preferably, the drying tank further comprises a second-stage drying tank, the second-stage drying tank is connected with the first-stage drying tank, an air return opening is formed between the second-stage drying tank and the first-stage drying tank, a second drying partition plate is arranged in the second-stage drying tank, the bottom end of the second drying partition plate and the bottom end of the second-stage drying tank are arranged at intervals, the second drying partition plate divides the second-stage drying tank into a second-stage left drying cavity and a second-stage right drying cavity, a plurality of second-stage drying rollers are arranged in the second-stage left drying cavity, the diaphragm is continuously wound outside the second-stage drying rollers in an S shape, a plurality of outlet guide rollers are arranged in the second-stage right drying cavity, a second air suction opening is formed between the bottom end of the second drying partition plate and the second-stage drying tank, and through the arrangement, the second-stage drying rollers perform secondary drying treatment on the diaphragm, so as to ensure that no cleaning solution adheres to the surface of the diaphragm, reach the environmental protection standard, the diaphragm after the secondary drying process conveys to the export under the transmission effect of export guide roller, the second inlet scoop can suck away the trace washing liquid that the secondary drying process volatilizees out, and the second inlet scoop makes the second grade drying chamber is in a little negative pressure state, avoids the trace washing liquid in the second grade drying chamber reveals to operational environment, environmental protection safety from the export.

As preferred, still including set up in the seal groove the wash bowl except that the cistern reaches the penetrating membrane mechanism in the dry tank, penetrating membrane mechanism is including penetrating the membrane driving piece and penetrating the membrane driving medium, still be equipped with transition subassembly in the seal groove, penetrate the membrane driving medium set up in transition subassembly reaches the seal groove the wash bowl except that the cistern reaches on the diaphragm driving roller of dry tank, penetrate the membrane driving piece with it connects and drives to penetrate the membrane driving medium transmission, the partial transmission path of penetrating the membrane driving medium coincides with the transmission path of diaphragm, through setting up like this, under the prerequisite that does not influence the sealed effect of seal groove, penetrating membrane mechanism is convenient for the diaphragm around locating the diaphragm driving roller outside, reduces staff's work load, improves the penetrating membrane efficiency of diaphragm, improves production efficiency.

Preferably, the film penetrating driving part comprises a film penetrating chain wheel and a film penetrating chain, the film penetrating chain wheel is arranged on the diaphragm driving roller and is rotationally connected with the diaphragm driving roller, the transition component comprises a transition wheel, the film penetrating chain is wound outside the film penetrating chain wheel and the transition wheel, the film penetrating chain is meshed with the film penetrating chain wheel, the film penetrating driving part is connected with the film penetrating chain, through the arrangement, the film penetrating driving part drives the film penetrating chain to drive, part of the transmission path of the film penetrating chain is superposed with the transmission path of the diaphragm, so that the diaphragm is driven to be sequentially wound outside the diaphragm driving roller, in addition, the chain and the chain wheel are adopted as the film penetrating driving part to be used in a high-load environment, the transmission power is large, and the force acting on the diaphragm driving roller is small, high transmission efficiency and long service life.

The invention also aims to provide a method for washing the large-width diaphragm, which adopts the large-width diaphragm washing production line for washing and comprises the following steps:

step 1: the diaphragm enters the sealing groove through the inlet floating roller group;

step 2: the diaphragm is pre-washed by the washing liquid in the sealing groove;

and step 3: the diaphragm is washed by the washing liquid in the washing grooves in sequence;

and 4, step 4: the diaphragm enters the liquid removing groove to scrape off the washing liquid attached to the surface of the diaphragm;

and 5: and the diaphragm enters the drying tank for drying treatment.

Compared with the prior art, the invention has the beneficial technical effects that:

1. the inlet floating roller set drives the inlet driving roller to rotate through the inlet driving piece so as to transmit the diaphragm, and the weight of the floating roller can be adjusted through the balance weight roller, so that the acting force of the floating roller pressing to the diaphragm is different, the tension of the diaphragm is adjusted, the diaphragm is prevented from being folded, folded or even broken, continuous production can be realized, the production efficiency is improved, the waste of raw materials is avoided, the production cost is reduced, and the production of the large-width diaphragm is facilitated.

2. The seal groove carries out sealing treatment to the washing liquid, because sealing partition plate will the seal groove is separated do not left side seal chamber reaches right side seal chamber, sealing partition plate will right side seal chamber reaches the wash bowl with first port is kept apart, right side seal chamber reaches washing liquid in the wash bowl can't follow first port volatilizees to operational environment in, left side seal chamber the washing liquid quilt the sealing liquid is kept apart, washing liquid in the left side seal chamber can't follow first port volatilizees to operational environment in, has improved the security, guarantees staff's life health.

3. The washing liquid that is equipped with in the seal groove can carry out prewashing to the diaphragm, improves the washing effect and the efficiency of diaphragm.

4. Because the sealing liquid is arranged above the washing liquid only in the left sealing cavity, the diaphragm sequentially passes through the sealing liquid and the washing liquid and then enters the washing tank, the sealing liquid cannot be brought into the washing tank, and the washing liquid in the washing tank is prevented from being polluted.

Drawings

FIG. 1 is a schematic diagram of a background art membrane washing line;

FIG. 2 is a schematic view of a prior art inlet roll set in FIG. 1;

FIG. 3 is a schematic view of a related art wash tank of FIG. 1;

FIG. 4 is a schematic front view of a large-format membrane washing line according to an embodiment of the invention;

FIG. 5 is a schematic front view of a large-format membrane washing line according to an embodiment of the invention;

FIG. 6 is a schematic view of the inlet floating roll stack of FIG. 4 in accordance with an embodiment of the present invention;

FIG. 7 is an enlarged partial view of section C of FIG. 6 illustrating an embodiment of the present invention;

FIG. 8 is an enlarged partial view of section D of FIG. 6 illustrating an embodiment of the present invention;

FIG. 9 is a schematic top view of a portion of the structure of FIG. 6 according to an embodiment of the present invention;

FIG. 10 is a schematic view of a seal slot of an embodiment of the present invention connected to an adjacent sink;

FIG. 11 is a schematic view of a seal slot according to an embodiment of the present invention;

FIG. 12 is an enlarged partial view of section E of FIG. 10 illustrating an embodiment of the present invention;

FIG. 13 is a schematic view of the rightmost sink of FIG. 4 in accordance with an embodiment of the present invention;

FIG. 14 is a schematic view of a part of a washing partition plate according to an embodiment of the present invention;

FIG. 15 is an enlarged partial schematic view of section F of FIG. 13 in accordance with an embodiment of the present invention;

FIG. 16 is an enlarged partial view of portion A of FIG. 4 illustrating an embodiment of the present invention;

FIG. 17 is an enlarged partial view of portion B of FIG. 5 illustrating an embodiment of the present invention;

FIG. 18 is a schematic view of one embodiment of a clamping assembly in accordance with the present invention;

FIG. 19 is a schematic view of another embodiment of a clamping assembly in accordance with an embodiment of the present invention;

FIG. 20 is a schematic view of a liquid removing bath according to an embodiment of the present invention;

FIG. 21 is an enlarged partial view of section G of FIG. 20 illustrating an embodiment of the present invention;

FIG. 22 is a schematic front view of a mounting flange according to an embodiment of the invention;

FIG. 23 is a cross-sectional schematic view of a mounting flange according to an embodiment of the invention;

FIG. 24 is a schematic view of a doctor bar according to an embodiment of the invention;

FIG. 25 is a schematic view of a mounting flange coupled to a conditioning member in accordance with an embodiment of the present invention;

FIG. 26 is a schematic view of a drying tunnel according to an embodiment of the present invention;

FIG. 27 is an enlarged partial view of section H of FIG. 26 illustrating an embodiment of the present invention;

fig. 28 is a partially enlarged view of portion I of fig. 26 according to the embodiment of the present invention.

Wherein, the technical characteristics that each reference numeral refers to are as follows:

100. an inlet floating roll set; 101. an inlet drive mount; 102. a first chute; 103. a second chute; 110. an inlet drive roller; 111. a first inlet drive roller; 112. a second entrance drive roller; 113. a third entrance driving roller; 114. a fourth entrance driving roller; 120. a floating roll; 121. a first connecting lug; 130. a counterweight roller; 131. a counterweight; 132. a second engaging lug; 140. a cable; 141. a first pulley; 142. a second pulley; 150. an inlet drive member; 151. an inlet drive motor; 152. an inlet reducer; 200. a sealing groove; 201. a first port; 202. a second port; 203. a left sealed cavity; 204. a right sealed cavity; 205. an exhaust port; 206. a filling port; 207. a discharge port; 210. sealing the partition plate; 220. washing liquid; 230. sealing liquid; 240. a sealed transmission assembly; 241. sealing the driving roller; 242. a sealed drive motor; 243. sealing the speed reducer; 250. a tension assembly; 251. an articulation member; 252. a sliding groove; 253. a roller; 300. a washing tank; 301. a liquid discharge port; 302. a liquid inlet; 303. a left washing chamber; 304. a right washing chamber; 310. washing the upper driving roller; 311. a first wash upper drive roller; 312. a second wash upper drive roller; 313. a third wash upper drive roller; 314. a fourth wash upper drive roller; 315. a fifth wash upper drive roller; 320. washing the lower driving roller; 321. a first washing lower driving roller; 322. a second washing lower driving roller; 323. a third washing lower driving roller; 324. a fourth washing lower driving roller; 330. washing the driving piece; 331. washing the transmission motor; 332. washing a speed reducer; 333. a direction adjusting piece; 340. a transmission member; 350. washing the partition plate; 351. an overflowing hole; 352. a cross beam; 360. a baffle plate; 371. a first drive roller; 372. a second driving roller; 373. a first driving member; 374. a second driving member; 400. a liquid removing tank; 401. a left fluid removal chamber; 402. a right fluid removal chamber; 403. an overflow port; 410. a left wiping assembly; 411. installing a flange; 412. a liquid scraping rod; 413. a scraper; 414. an adjustment member; 420. a right wiper assembly; 430. a liquid removal partition plate; 440. a baffle; 451. a first liquid removal transmission roller; 452. a second liquid removing transmission roller; 453. a third liquid removing transmission roller; 454. a fourth liquid removing transmission roller; 455. rotating the press roller; 461. a first liquid removal driving part; 462. a second liquid removal driving part; 463. a third liquid removal driving part; 464. a fourth liquid removal driving part; 465. a first press roller driving member; 471. a movable press roller; 472. a second press roller driving member; 500. a drying tank; 510. a primary drying tank; 511. a first dry separator; 512. a primary drying roller; 513. a first air suction port; 514. an air return opening; 515. a primary left drying chamber; 516. a first-stage right drying cavity; 520. a secondary drying tank; 521. a second dry separator; 522. a secondary drying roller; 523. a second air inlet; 524. an outlet guide roller; 525. a secondary left drying chamber; 526. a secondary right drying chamber; 600. a diaphragm tension adjustment mechanism; 610. a support shaft; 620. a clamping assembly; 621. a fixed seat; 622. a fixed wheel; 623. a movable wheel; 624. a fixed shaft; 625. a movable shaft; 626. fixing a bracket; 627. a movable post; 628. a reset member; 700. a film penetrating mechanism; 710. a film-threading driving member; 711. a film penetrating motor; 712. a speed reducer for penetrating a film; 713. a drive sprocket; 720. penetrating a film transmission part; 721. a film-penetrating chain wheel; 722. a film threading chain; 730. a tension sprocket; 740. a transition component; 741. a first transition wheel; 742. a second transition wheel; 743. a third transition wheel; 1000. a diaphragm; 1311. installing a shaft; 1312. a weight plate; 2411. a first seal driving roller; 2412. a second seal driving roller; 2413. a third seal driving roller; 4121. a tool holder; 4122. rotating the rod; 4141. a handle; 4142. an adjusting plate; 4143. an arc-shaped slot; 6211. positioning holes; 6281. a balancing weight; 6282. a spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments, but the scope of the present invention is not limited to the following embodiments.

Referring to fig. 1 to 28, the present embodiment discloses a large-format membrane washing production line, which includes an inlet floating roller set 100, a sealing groove 200, a plurality of washing tanks 300, a liquid removal tank 400, and a drying tank 500, which are sequentially disposed, and the sealing groove 200, the plurality of washing tanks 300, the liquid removal tank 400, and the drying tank 500 are sequentially connected, in the present embodiment, the large-format membrane washing production line includes 7 washing tanks 300;

referring to fig. 6-9, the inlet floating roller set 100 includes an inlet driving seat 101, the shape of the inlet driving seat 101 is substantially rectangular, and the inlet driving seat is hollow, a floating roller 120 is disposed in the inlet driving seat 101, a counterweight roller 130 and a plurality of inlet driving rollers 110, the floating roller 120, the axes of the counterweight roller 130 and the inlet driving rollers 110 are parallel to each other, the floating roller 120 and the counterweight roller 130 are slidably connected with the inlet driving seat 101, the floating roller 120 is connected with the counterweight roller 130, the inlet driving rollers 110 are staggered, a diaphragm 1000 is disposed around the outer of the floating roller 120 and the inlet driving rollers 110, the diaphragm 1000 is disposed below the floating roller 120, the inlet driving seat 101 is further provided with an inlet driving member 150, and the inlet driving member 150 is connected with the inlet driving rollers 110.

Entry floating roller set 100 passes through entry driving piece 150 drive entry driving roller 110 and rotates, thereby transmit diaphragm 1000, and the weight through the adjustable floating roller 120 of counter weight roller 130, make floating roller 120 press to diaphragm 1000's effort different, thereby adjust diaphragm 1000's tension, avoid diaphragm 1000 to appear the fold, folding or even cracked condition, can produce without intermission, improve production efficiency, avoid the waste of raw materials, and the reduction in production cost, and do benefit to production large breadth diaphragm 1000, entry floating roller set 100 can be used to transmit large breadth diaphragm 1000 of width size more than 4 meters.

The entrance transmission seat 101 is provided with a first pulley 141 and a second pulley 142 at two sides along the axial direction of the floating roller 120, the first pulley 141 and the second pulley 142 are arranged at intervals along the horizontal direction, the axial lines of the first pulley 141 and the second pulley 142 are positioned on the same horizontal plane, the first pulley 141 and the second pulley 142 are arranged outside the side walls at two sides of the entrance transmission seat 101, and the first pulley 141 and the second pulley 142 are rotatably connected with the entrance transmission seat 101, concretely, the side walls at two sides of the entrance transmission seat 101 are provided with bearing seats, a fixing shaft 624 is arranged in each bearing seat, the first pulley 141 and the second pulley 142 are sleeved outside the corresponding fixing shaft 624, a bearing is arranged between the first pulley 141 and the second pulley 142 and the fixing shaft 624, the floating roller 120 is connected with the counterweight roller 130 through the cable 140, the end of the floating roller 120 at one end of the cable 140 is connected, the other end of the cable 140 is sequentially wound above the first pulley 141 and the second pulley 142 and then connected with the end of the counterweight roller 130, the first pulley 141 and the second pulley 142 are fixed pulleys, the counterweight roller 130 generates a downward action on the cable 140, the acting force direction of the cable 140 is changed through the first pulley 141 and the second pulley 142, the cable 140 generates an upward acting force on the floating roller 120, the weight of the floating roller 120 is adjusted, the counterweight rollers 130 with different weights are configured according to different tension forces required for producing the diaphragms 1000 with different specifications, the weight of the floating roller 120 is adjusted, the pressure of the floating roller 120 on the diaphragms 1000 is adjusted, and finally the tension force of the diaphragms 1000 is adjusted.

Both sides of dancing roll 120 along axis direction all are equipped with first engaging lug 121, hawser 140's one end is connected with first engaging lug 121, counter weight roller 130 all is equipped with second engaging lug 132 along axis direction's both sides, hawser 140's the other end is connected with second engaging lug 132 around locating behind the top of first pulley 141 and second pulley 142 in proper order, through be equipped with first engaging lug 121 on dancing roll 120, be equipped with second engaging lug 132 on counter weight roller 130, dancing roll 120 and counter weight roller 130 of being convenient for are connected with hawser 140.

The first connecting lug 121 and the second connecting lug 132 are provided with hook holes, the two ends of the cable 140 are respectively provided with a first hook and a second hook, the first hook is hooked with the first connecting lug 121, and the second hook is hooked with the second connecting lug 132, so that the convenience of connecting the cable 140 with the floating roller 120 and the counterweight roller 130 is further improved, and the detachment is also convenient.

Specifically, first engaging lug 121 and second engaging lug 132 all include connection piece and double-screw bolt, floating roll 120 and counter weight roller 130 all are equipped with the screw hole along the both sides of axis direction, and the axis of screw hole sets up with the axis direction of floating roll 120 and counter weight roller 130 is perpendicular, the bottom and the floating roll 120 and the counter weight roller 130 threaded connection of double-screw bolt, and the double-screw bolt is vertical up, the connection piece sets up on the top of double-screw bolt, the connection piece can rivet or weld with the double-screw bolt, the hook hole sets up on the connection piece.

The inlet transmission seat 101 is provided with a first sliding chute 102 and a second sliding chute 103 along both sides of the axis direction of the floating roller 120, the first sliding chute 102 and the second sliding chute 103 are arranged in parallel at intervals, and the first chute 102 and the second chute 103 are disposed at two sides of the first pulley 141 and the second pulley 142, as seen from the lower fig. 6, the first chute 102 is located at the left side of the first pulley 141, the second chute 103 is located at the right side of the second pulley 142, two sides of the floating roller 120 along the axis direction respectively penetrate through the corresponding first chute 102, two sides of the counterweight roller 130 along the axis direction respectively penetrate through the corresponding second chute 103, the floating roller 120 can float along the length direction of the first chute 102 in the first chute 102, the first chute 102 plays a guiding role for the floating of the floating roller 120, and similarly, the counterweight roller 130 can slide along the length direction of the second chute 103 in the second chute 103, and the second chute 103 plays a guiding role for the sliding of the counterweight roller 130.

The diameter of the floating roller 120 in the entrance transmission seat 101 is larger than that of the floating roller 120 penetrating the first sliding chute 102, and the diameter of the counterweight roller 130 in the entrance transmission seat 101 is larger than that of the counterweight roller 130 penetrating the second sliding chute 103, so that the situation that the floating roller 120 and the counterweight roller 130 swing along the axial direction is avoided.

The length directions of the first chute 102 and the second chute 103 are arranged in parallel to the vertical direction, the gravity direction of the floating roller 120 is parallel to the length direction of the first chute 102, the gravity direction of the counterweight roller 130 is parallel to the length direction of the second chute 103, and the weight of the floating roller 120 can be fully utilized to press the diaphragm 1000.

The first tangent plane of the axis of the floating roller 120 extending along the length direction of the first chute 102 is tangent to the first pulley 141, the second tangent plane of the axis of the counterweight roller 130 extending along the length direction of the second chute 103 is tangent to the second pulley 142, so that the acting force directions of the cable 140 on the floating roller 120 and the counterweight roller 130 are respectively parallel to the gravity directions of the floating roller 120 and the counterweight roller 130, the friction between the floating roller 120 and the first chute 102 and between the counterweight roller 130 and the second chute 103 is reduced, the floating of the floating roller 120 is facilitated, and under the condition that the friction force of the first pulley 141 and the second pulley 142 is neglected, the first pulley 141 and the second pulley 142 only change the acting force direction of the cable 140, the acting force magnitude of the cable 140 is not changed, the weight of the floating roller 120 is equal to the weight of the original floating roller 120 minus the weight of the counterweight roller 130, and the weight of the floating roller 120 is convenient to calculate and adjust.

The weight member 131 is disposed at both ends of the weight roller 130 in the axial direction, and the weight member 131 is located at the outer side of the second engaging lug 132, so that the weight roller 130 does not need to be replaced, and the weight member 131 with different weights is mounted on the weight roller 130 to adjust the weight of the weight roller 130, thereby adjusting the weight of the floating roller 120, and finally facilitating the adjustment of the tension of the diaphragm 1000.

Further, the weight member 131 includes a weight plate 1312 and a mounting shaft 1311, the mounting shaft 1311 penetrates through both ends of the weight roller 130 along the axial direction, through holes are formed in both ends of the weight roller 130 along the axial direction, the axial direction of the through holes is perpendicular to the axial direction of the weight roller 130, the axial direction of the through holes is parallel to the horizontal direction, a limiting post is arranged at one end of the mounting shaft 1311, the diameter of the limiting post is larger than that of the mounting shaft 1311, the other end of the mounting shaft 1311 penetrates through the weight roller 130, an external thread is arranged at the other end of the mounting shaft 1311, the weight plate 1312 is sleeved outside the mounting shaft 1311, the mounting shaft 1311 is detachably connected with the weight roller 130, a detachable nut is arranged at the other end of the mounting shaft 1311, the nut is in threaded connection with the mounting shaft 1311, the detachable connection between the mounting shaft 1311 and the weight roller 130 is realized, when the weight of the weight roller 130 needs to be adjusted, the mounting shaft 1311 is detached from the weight roller 130, the weight plates 1312 of different weights are replaced outside the mounting shaft 1311, and the weight adjustment of the weight rollers 130 is completed.

Not shown in the figure, be equipped with tension sensor on the entry driving roller 110, tension sensor's structure and detection principle are prior art, and it is no longer repeated here, and tension sensor detectable diaphragm 1000's tension can in time detect out the not enough or too big condition of diaphragm 1000 tension to can in time adjust floating roller 120's weight, the weight of adjustment counterweight roller 130 promptly, avoid diaphragm 1000 the condition of fold, folding or even fracture to appear.

Further, because the height of the inlet transmission seat 101 is small, in order to facilitate the matching with the subsequent processes, a base is disposed at the bottom end of the inlet transmission seat 101, the height of the inlet transmission seat 101 is increased, bearing seats are disposed outside the side walls of the inlet transmission seat 101 along the axial direction of the inlet transmission roller 110, and two ends of the inlet transmission roller 110 penetrate through the corresponding bearing seats, in this embodiment, four inlet transmission rollers 110 are disposed in the inlet transmission seat 101, as shown in fig. 6, the four inlet transmission rollers 110 are a first inlet transmission roller 111, a second inlet transmission roller 112, a third inlet transmission roller 113 and a fourth inlet transmission roller 114 from left to right in sequence, the first inlet transmission roller 111 and the second inlet transmission roller 112 are located on the left side of the floating roller 120, the third inlet transmission roller 113 and the fourth inlet transmission roller 114 are located on the right side of the floating roller 120, the first inlet transmission roller 111 and the second inlet transmission roller 112 are disposed at intervals in the height direction, third entry driving roller 113 and fourth entry driving roller 114 set up along the direction of height interval, it is specific, second entry driving roller 112 is located the top of first entry driving roller 111, third entry driving roller 113 is located the top of fourth entry driving roller 114, the axis of second entry driving roller 112 and the axis of third entry driving roller 113 are located same horizontal plane, diaphragm 1000 winds in proper order in the below of first entry driving roller 111, the top of second entry driving roller 112, the below of floating roller 120, the top of third entry driving roller 113 and the below of fourth entry driving roller 114, tension sensor sets up on second sensor and the third sensor.

The inlet driving member 150 includes an inlet driving motor 151, the inlet driving motor 151 is disposed on the base, an output end of the inlet driving motor 151 is connected to the inlet driving roller 110, in this embodiment, an output end of the inlet driving motor 151 is connected to the fourth inlet driving roller 114, that is, the fourth inlet driving roller 114 is a power roller, and the first inlet driving roller 111, the second inlet driving roller 112 and the third inlet driving roller 113 are driven rollers.

The inlet driving member 150 further includes an inlet speed reducer 152, an output shaft of the inlet driving motor 151 is coaxially and fixedly connected with an input end of the inlet speed reducer 152, an output end of the inlet speed reducer 152 is connected with the fourth inlet driving roller 114, an output end of the inlet speed reducer 152 can be directly and coaxially and fixedly connected with one end of the fourth inlet driving roller 114 through a key, an output end of the inlet speed reducer 152 can also pass through a chain assembly, the belt assembly is connected with the fourth inlet driving roller 114, the chain assembly and the belt assembly are conventional means, and are not described herein any more, and the inlet speed reducer 152 is provided to improve torque of the inlet driving motor 151 driving the inlet driving roller 110.

Referring to fig. 10 to 12, a first port 201 and a second port 202 are disposed at a top end of a sealing groove 200, the first port 201 and the second port 202 are disposed at opposite sides of the sealing groove 200, the first port 201 is for a diaphragm 1000 to penetrate, the second port 202 is connected to an inlet of an adjacent washing tank 300, a sealing partition 210 and a washing liquid 220 are further disposed in the sealing groove 200, a bottom end of the sealing partition 210 is immersed in the washing liquid 220 and is spaced from a bottom end of the sealing groove 200 for the diaphragm 1000 to pass through, the sealing partition 210 divides the sealing groove 200 into a left sealing cavity 203 and a right sealing cavity 204, the left sealing cavity 203 is communicated with the first port 201, the right sealing cavity 204 is communicated with the second port 202, a sealing liquid 230 is disposed above the washing liquid 220 located in the left sealing cavity 203, and the sealing groove 200 is further provided with a sealing transmission assembly 240 for transmitting the diaphragm 1000.

The cleaning solution 220 is sealed in the sealing groove 200, the sealing partition plate 210 separates the sealing groove 200 into the left sealing cavity 203 and the right sealing cavity 204, the sealing partition plate 210 separates the right sealing cavity 204 and the washing tank 300 from the first port 201, the cleaning solution 220 in the right sealing cavity 204 and the washing tank 300 cannot volatilize into a working environment from the first port 201, the cleaning solution 220 in the left sealing cavity 203 is separated by the sealing solution 230, and the cleaning solution 220 in the left sealing cavity 203 cannot volatilize into the working environment from the first port 201, so that the safety is improved, and the life health of workers is ensured; the cleaning solution 220 arranged in the sealing groove 200 can pre-clean the diaphragm 1000, so that the cleaning effect and efficiency of the diaphragm 1000 are improved; because the sealing liquid 230 is only arranged above the cleaning liquid 220 in the left sealing cavity 203, the diaphragm 1000 sequentially passes through the sealing liquid 230 and the cleaning liquid 220 and then enters the cleaning tank 300, the sealing liquid 230 is not brought into the cleaning tank 300, and the cleaning liquid 220 in the cleaning tank 300 is prevented from being polluted.

Further, the outline of the sealing groove 200 is roughly a cuboid, the overall height of the sealing groove 200 reaches 3 meters, the sealing groove 200 is composed of a front sealing plate, a rear sealing plate, a left sealing plate, a right sealing plate, a hollow groove body composed of an upper sealing plate and a lower sealing plate, the front sealing plate and the rear sealing plate are arranged at a parallel interval, the left sealing plate and the right sealing plate are arranged at a parallel interval, the upper sealing plate and the lower sealing plate are arranged at a parallel interval, the top end of the front sealing plate and the upper sealing plate are arranged at an interval to form a first port 201, the top end of the rear sealing plate and the upper sealing plate are arranged at an interval to form a second port 202, and the height of the first port 201 is smaller than that of the second port 202.

Further, the sealing liquid 230 includes an aqueous solution, and the present embodiment ingeniously utilizes the physical characteristics of the washing liquid 220, that is, dichloromethane is insoluble in water and has a large density ratio, so that the aqueous solution can be layered with the washing liquid 220, and the aqueous solution can float above the washing liquid 220 to form a sealing layer with a water-sealed structure, thereby preventing the washing liquid 220 from volatilizing into a working environment from the first port 201, and the aqueous solution is easy to obtain, low in material cost, and capable of reducing the production cost.

Still be equipped with gas vent 205 on the seal groove 200, gas vent 205 sets up on the left sealing plate, gas vent 205 and left seal chamber 203 intercommunication, and gas vent 205 is located the top of sealing liquid 230, in the in-process of filling sealing liquid 230 or washing liquid 220 into seal groove 200, atmospheric pressure in the seal groove 200 can increase, gas in the left seal chamber 203 can follow first port 201 pressure release, because first port 201 is less, when the liquid volume of filling is great, the pressure release speed of first port 201 is slower than the pressure boost speed, then can follow gas vent 205 and discharge with the pressure release, accelerate the pressure release efficiency of seal groove 200, guarantee that the inside and outside atmospheric pressure of left seal chamber 203 is balanced, also improve the smoothness nature of filling liquid simultaneously.

A plurality of filling ports 206 for filling liquid are further arranged on the sealing groove 200, a cleaning solution 220 or a sealing solution 230 can be filled into the sealing groove 200 through the filling ports 206, in an embodiment, two filling ports 206 are arranged on the sealing groove 200, the two filling ports 206 are arranged on the rear sealing plate, one filling port 206 is communicated with the left sealing cavity 203, the other filling port 206 is communicated with the right sealing cavity 204, one filling port 206 is used for filling the sealing solution 230, the other filling port 206 is used for filling the cleaning solution 220, or both the two filling ports 206 are used for filling the sealing solution 230, and the cleaning solution 220 in the sealing groove 200 can be filled from a filling system of the washing groove 300.

The sealing groove 200 is further provided with a plurality of discharge ports 207 for discharging liquid, the discharge ports 207 are all positioned below the filling port 206, the discharge ports 207 are connected with a waste liquid treatment system, after production is completed, cleaning liquid 220 and sealing liquid 230 in the sealing groove 200 can be discharged into the waste liquid treatment system through the discharge ports 207, and when the sealing groove 200 is filled with the cleaning liquid 220 or the sealing liquid 230, the cleaning liquid 220 or the sealing liquid 230 can be reversely filled into the sealing groove 200 through the discharge ports 207, so that the liquid filling efficiency is improved, in one embodiment, the sealing groove 200 is provided with three discharge ports 207, the three discharge ports 207 are arranged on the rear sealing plate, one discharge port 207 of the rear sealing plate is communicated with the left sealing cavity 203, the other discharge port 207 of the rear sealing plate is communicated with the right sealing cavity 204, and the last discharge port 207 is arranged at the bottom end of the sealing groove, the sealing groove 200 is provided with a plurality of discharge ports 207 to improve the discharge efficiency of the liquid in the sealing groove 200 and to ensure the complete discharge.

Seal drive assembly 240 includes a plurality of seal driving roller 241 and sealed driving piece, a plurality of seal driving roller 241 stagger and set up in seal groove 200, seal groove 200 all is equipped with the bearing axle along the both sides lateral wall of seal driving roller 241 axis direction outward, the bearing frame that corresponds is worn to locate respectively at the both ends of seal driving roller 241, and a plurality of seal driving roller 241 parallel interval sets up, seal driving roller 241 winds outward and is equipped with diaphragm 1000, sealed driving piece sets up and is connected with seal driving roller 241 outside seal groove 200, sealed driving piece drive seal driving roller 241 rotates, seal driving roller 241 drives diaphragm 1000 and removes, thereby in conveying into wash bowl 300 with diaphragm 1000.

The sealing driving piece comprises a sealing driving motor 242, the sealing driving motor 242 is connected with a sealing driving roller 241, the sealing driving motor 242 drives the sealing driving roller 241 to rotate, the using technology of the motor is mature, and the using stability of the sealing driving assembly 240 is guaranteed.

Sealed driving piece still includes sealed speed reducer 243, sealed speed reducer 243 and seal groove 200 fixed connection, the output shaft of sealed transmission motor 242 and the coaxial fixed connection of input of sealed speed reducer 243, the output of sealed speed reducer 243 passes through chain subassembly or belt subassembly with sealed driving roller 241 and is connected, chain subassembly or belt subassembly are prior art, it is no longer repeated here, the work of sealed transmission motor 242's output shaft rotation drive sealed speed reducer 243, the output of sealed speed reducer 243 passes through the work of chain subassembly or belt subassembly drive sealed driving roller 241, it can improve sealed transmission motor 242 drive sealed driving roller 241 pivoted moment of torsion to be equipped with sealed speed reducer 243.

The sealing groove 200 is further provided with a tensioning assembly 250 for adjusting the tensioning degree of the chain assembly or the belt assembly, and the tensioning assembly 250 can adjust the tensioning degree of the chain assembly or the belt assembly to ensure the stability of the transmission diaphragm 1000 of the sealing transmission assembly 240.

Specifically, the tension assembly 250 includes a hinge 251, the hinge 251 has a substantially fan-shaped outline, one end of the hinge 251 opposite to the arc section of the fan-shaped outline is a circle center end, the circle center end of the hinge 251 is hinged to the sealing groove 200, the hinge 251 is provided with a sliding groove 252, the sliding groove 252 is arc-shaped, the sealing groove 200 is provided with a threaded hole corresponding to the sliding groove 252, the threaded hole is arranged on the front sealing plate and the rear sealing plate, and a screw is threaded through the sliding groove 252 and the sealing groove 200, thereby fixing the hinge member 251 to the sealing groove 200, the hinge member 251 is provided with a roller 253 for abutting against the chain assembly or the belt assembly, and the roller 253 is rotatably connected with the hinge member 251, when the screw is unscrewed, the hinge member 251 can rotate relative to the sealing groove 200, the tension degree of the roller 253 pressing to the chain assembly or the belt assembly is adjusted, and after the adjustment is completed, the screw is screwed down to fix the hinge member 251 and the sealing groove 200.

In this embodiment, the sealing driving roller 241 includes a first sealing driving roller 2411, a second sealing driving roller 2412 and a third sealing driving roller 2413, the first sealing driving roller 2411 is disposed at the first port 201, the second sealing driving roller 2412 is disposed between the bottom end of the sealing partition 210 and the sealing groove 200, the third sealing driving roller 2413 is disposed at the second port 202, the sealing driving member is connected to the first sealing driving roller 2411, the second sealing driving roller 2412 and the third sealing driving roller 2413, specifically, the output end of the sealing speed reducer 243 is connected to the first sealing driving roller 2411 and the third sealing driving roller 2413 through a same chain assembly or belt assembly, the tensioning assembly 250 is disposed on the chain assembly or belt assembly where the sealing speed reducer 243 is connected to the first sealing driving roller and the third sealing driving roller 2413, the output end of the sealing speed reducer 243 is connected to the third sealing driving roller 2413 through another chain assembly or belt assembly, the rotation direction of the first sealing driving roller 2411 and the third sealing driving roller 2413 can be opposite to the rotation direction of the second sealing driving roller 2412 by providing a reverse rotation assembly, for example, the output end of the sealing speed reducer 243 is connected with a sprocket or a belt pulley, and then is connected with the second sealing driving roller 2412 through the sprocket or the belt pulley, the sealing driving member drives the first sealing driving roller 2411, the second sealing driving roller 2412 and the third sealing driving roller 2413 to rotate, so as to drive the diaphragm 1000 to enter the left sealing cavity 203 from the first port 201, and then sequentially pass through the upper part of the first sealing driving roller 2411, the sealing liquid 230, the washing liquid 220, the lower part of the second sealing driving roller 2412 and the upper part of the third sealing driving roller 2413, and then enter the washing tank 300 from the second port 202 for washing.

Referring to fig. 10, 13 and 15, the washing tank 300 is provided with a washing transmission assembly, the washing transmission assembly includes a plurality of washing upper transmission rollers 310 and a plurality of washing lower transmission rollers 320 which are arranged in the washing tank 300, and the washing upper transmission rollers 310 and the washing lower transmission rollers 320 are arranged in parallel, that is, the axes of the washing upper transmission rollers 310 and the axes of the washing lower transmission rollers 320 are arranged in parallel, bearing seats are arranged on both sides of the washing tank 300 along the axial direction of the washing upper transmission rollers 310, the washing upper transmission rollers 310 are arranged above the washing tank 300, the washing lower transmission rollers 320 are arranged below the washing tank 300, the washing lower transmission rollers 320 are arranged between two adjacent washing upper transmission rollers 310, the two sides of the washing upper transmission rollers 310 and the washing lower transmission rollers 320 along the axial direction are respectively inserted into the corresponding bearing seats, the washing transmission assembly further includes a plurality of washing driving members 330 which are in one-to-one correspondence with the washing lower transmission rollers 320, the washing driving member 330 is connected to a corresponding one of the washing lower driving rollers 320, one of the washing driving members 330 is connected to two adjacent washing upper driving rollers 310, and the remaining washing driving members 330 are connected to one adjacent washing upper driving roller 310.

Except one washing driving component 330, the other washing driving components 330 are respectively connected with one washing upper driving roller 310 and one washing lower driving roller 320, the rotating speeds of the washing upper driving roller 310 and the washing lower driving roller 320 connected with different washing driving components 330 can be adjusted to be different, and the rotating speeds between the washing upper driving roller 310 and the washing lower driving roller 320 connected with the same washing driving component 330 can also be adjusted to be different, namely the rotating speed between two adjacent driving rollers can be adjusted, so that the rotating speed of the driving roller positioned in front of the transmission of the diaphragm 1000 is larger, a certain pulling force is generated on the diaphragm 1000, the tension of the diaphragm 1000 is adjusted, the sufficient tension of the diaphragm 1000 is ensured, the production quality of the diaphragm 1000 is ensured, and the production of the large-format diaphragm 1000 is further facilitated.

The washing driving part 330 includes a washing driving motor 331, the washing driving motor 331 is disposed outside the washing tub 300, an output shaft of the washing driving motor 331 is connected to the washing upper driving roller 310 and the washing lower driving roller 320, respectively, and the output shaft of the washing driving motor 331 rotates to drive the washing upper driving roller 310 and the washing lower driving roller 320 to rotate, thereby transmitting the diaphragm 1000.

The washing driving part 330 further comprises a washing speed reducer 332, an output shaft of the washing driving motor 331 is coaxially and fixedly connected with an input end of the washing speed reducer 332, an output end of the washing speed reducer 332 is respectively connected with the washing upper driving roller 310 and the washing lower driving roller 320, power of the output shaft of the washing driving motor 331 passes through the washing speed reducer 332 and then drives the washing upper driving roller 310 and the washing lower driving roller 320 to rotate, and the washing speed reducer 332 is arranged to improve torque and stability of the washing driving motor 331 for driving the washing upper driving roller 310 and the washing lower driving roller 320 to rotate.

In one embodiment, the transmission member 340 comprises a belt assembly including a first driving pulley, a first driven pulley, a first belt, a second driving pulley, a second driven pulley, and a second belt;

the first driving pulley is connected with the output end of the washing speed reducer 332, the first driven pulley is sleeved outside the washing upper transmission roller 310, and the first belt is sleeved outside the first driving pulley and the first driven pulley;

the second driving pulley is connected with the output end of the washing speed reducer 332, the second driven pulley is sleeved outside the washing lower driving roller 320, the second belt is sleeved outside the second driving pulley and the second driven pulley, the output end of the washing speed reducer 332 drives the first driving pulley and the second driving pulley to rotate, the washing upper driving roller 310 is driven to rotate through the matching of the first driving pulley, the first driven pulley and the first belt, and similarly, the washing lower driving roller 320 is driven to rotate through the matching of the second driving pulley, the second driven pulley and the second belt; the belt component has low transmission noise, low transmission resistance and low transmission inertia, can improve the dynamic property and the acceleration performance of the washing transmission motor 331, and is easy to make; through the diameter of rationally selecting first drive pulley, first passive pulley, second drive pulley and the passive pulley of second, can adjust washing speed reducer 332's transmission velocity ratio different for the rotational speed between driving roller 310 and the washing lower driving roller 320 is different on the washing of being connected with same washing speed reducer 332, and it is enough to further guarantee that 1000 tensions of diaphragm, and concrete adjustment mode is: for example, when the diameters of the first and second driven pulleys are equal, and the diameter of the first driving pulley is greater than that of the second driving pulley, because the rotational speeds of the first and second driving pulleys are equal, the linear speed of the first belt is equal to the product of the radius and the rotational speed of the first driving pulley, i.e. the linear speed of the first belt is greater than that of the second belt, and the diameters of the first and second driven pulleys are equal, the rotational speed of the first driven pulley is equal to the linear speed of the first driven pulley divided by the radius of the first driven pulley, and the rotational speed of the second driven pulley is equal to the linear speed of the second driven pulley divided by the radius of the second driven pulley, it can be seen that the rotational speed of the first driven pulley is greater than that of the second driven pulley, i.e. the rotational speed of the upper washing driving roller 310 connected to the same washing reducer 332 is greater than that of the lower washing driving roller 320, and vice versa.

In one embodiment, the transmission 340 comprises a chain assembly comprising a first driving sprocket 713, a first driven sprocket, a first chain, a second driving sprocket 713, a second driven sprocket, and a second chain;

the first driving sprocket 713 is connected with the output end of the washing speed reducer 332, the first driven sprocket is sleeved outside the washing upper driving roller 310, and the first chain is sleeved outside the first driving sprocket 713 and the first driven sprocket;

the second driving sprocket 713 is connected with the output end of the washing speed reducer 332, the second driven sprocket is sleeved outside the washing lower driving roller 320, the second chain is sleeved outside the second driving sprocket 713 and the second driven sprocket, the output end of the washing speed reducer 332 drives the first driving sprocket 713 and the second driving sprocket 713 to rotate, the washing upper driving roller 310 is driven to rotate through the matching of the first driving sprocket 713, the first driven sprocket and the first chain, and similarly, the washing lower driving roller 320 is driven to rotate through the matching of the second driving sprocket 713, the second driven sprocket and the second chain; the chain assembly has long service life and low failure rate, and is not easy to have transmission failure; by reasonably selecting the diameters of the first driving sprocket 713, the first driven sprocket 713, the second driving sprocket 713 and the second driven sprocket, the transmission speed ratios of the washing speed reducers 332 can be adjusted to be different, so that the rotating speeds of the washing upper driving roller 310 and the washing lower driving roller 320 connected with the same washing speed reducer 332 are different, and the tension of the diaphragm 1000 is further ensured to be sufficient.

The washing speed reducer 332 includes a double-output speed reducer, that is, the washing speed reducer 332 includes a first output end and a second output end, which facilitates the assembly between the washing speed reducer 332 and the washing upper driving roller 310 and the washing lower driving roller 320.

In an embodiment, the first output end and the second output end of the washing speed reducer 332 are both located at the same end of the washing speed reducer 332, and the first output end and the second output end of the washing speed reducer 332 are turned in different directions, the first output end of the washing speed reducer 332 is connected to the first driving pulley or the first driving sprocket 713, and the second output end of the washing speed reducer 332 is connected to the second driving pulley or the second driving sprocket 713.

In this embodiment, the first output end and the second output end of the washing speed reducer 332 are respectively located at two opposite ends of the washing speed reducer 332, and the axis of the first output end of the washing speed reducer 332 and the axis of the second output end are overlapped, that is, the first output end and the second output end of the washing speed reducer 332 rotate in the same direction, and considering the reasonability of the rotation direction of the transmission roller, the driving speed reducer further includes a direction adjusting member 333, in one embodiment, the direction adjusting member 333 includes a direction adjusting belt pulley, the direction adjusting belt pulley is disposed on the washing tank 300 and is rotatably connected with the washing tank 300, a direction adjusting belt is disposed between the first driving belt pulley and the direction adjusting belt pulley, the first belt is sleeved outside the direction adjusting belt pulley and the first driven belt pulley, in one embodiment, the direction adjusting member 333 includes a direction adjusting sprocket, the direction adjusting sprocket is disposed on the washing tank 300 and is rotatably connected with the washing tank 300, a direction adjusting chain is disposed between the first driving sprocket 713 and the direction adjusting sprocket, the first chain is sleeved outside the direction-adjusting sprocket and the first driven sprocket, so that the rotation of the upper washing driving roller 310 is opposite to that of the lower washing driving roller 320.

Not shown in the figures, the washing transmission assembly further includes a tensioning assembly 250 for adjusting the tensioning degree, the tensioning assembly 250 is the same as the above structure, and the details are not repeated herein, and the tensioning degree of the tensioning assembly 250 can be adjusted, so as to ensure the stability of the transmission.

In this embodiment, the washing transmission assembly includes five washing upper transmission rollers 310 and four washing lower transmission rollers 320, two opposite sides of the top end of the washing tank 300 are respectively provided with an inlet and an outlet, the five washing upper transmission rollers 310 are arranged in parallel at intervals from the inlet to the outlet of the washing tank 300, and the axes of the five washing upper transmission rollers 310 are all located on the same horizontal plane, as seen from the lower drawing 10, the five washing upper transmission rollers 310 are sequentially a first washing upper transmission roller 311, a second washing upper transmission roller 312, a third washing upper transmission roller 313, a fourth washing transmission roller and a fifth washing transmission roller from left to right, the four washing lower transmission rollers 320 are arranged in parallel at intervals, and the axes of the five washing lower transmission rollers 320 are all located on the same horizontal plane, the four washing lower transmission rollers 320 are sequentially a first washing lower transmission roller 321, a second washing lower transmission roller 322, a third washing lower transmission roller 323 and a fourth washing lower transmission roller 324 from left to right, the washing transmission assembly further comprises four washing driving parts 330, the four washing driving parts 330 are a first washing driving part, a second washing driving part, a third washing driving part and a fourth washing driving part in sequence, the diaphragm 1000 is sequentially wound above the first washing upper driving roller 311, below the first washing lower driving roller 321, above the second washing upper driving roller 312, below the second washing lower driving roller 322, above the third washing upper driving roller 313, below the third washing lower driving roller 323, above the fourth washing upper driving roller 314, below the fourth washing lower driving roller 324 and above the fifth washing upper driving roller 315;

the first washing driving part is respectively connected with the first washing lower driving roller 321, the first washing upper driving roller 311 and the second washing upper driving roller 312;

the second washing driving member is respectively connected with the second washing lower driving roller 322 and the third washing upper driving roller 313;

the third washing driving member is respectively connected with the third washing lower driving roller 323 and the fourth washing upper driving roller 314;

the fourth washing driving member is respectively connected to the fourth washing lower driving roller 324 and the fifth washing upper driving roller 315, and the manners of the washing driving member 330 and the washing upper driving roller 310 and the washing lower driving roller 320 are described above, and are not described herein again, so that the rotation speeds of the first washing lower driving roller 321, the third washing upper driving roller 313, the second washing lower driving roller 322, the fourth washing upper driving roller 314, the fourth washing lower driving roller 324 and the fifth washing upper driving roller 315 can be adjusted, specifically, the rotation speeds of the first washing lower driving roller 321, the third washing upper driving roller 313, the second washing lower driving roller 322, the fourth washing upper driving roller 314, the fourth washing lower driving roller 324 and the fifth washing upper driving roller 315 can be adjusted to be increased sequentially, so that the diaphragm 1000 is always pulled by the driving roller located in front of the diaphragm 1000 during the transmission process of the diaphragm 1000, a pulling force is applied to the membrane 1000, so that the membrane 1000 maintains a certain tension, and the membrane 1000 is prevented from being wrinkled or folded.

Referring to fig. 4, 5 and 16-19, transition grooves are respectively arranged between the sealing groove 200 and the adjacent washing tank 300, between the adjacent two washing tanks 300, between the liquid removing tank 400 and the adjacent washing tank 300 and between the liquid removing tank 400 and the drying tank 500, each transition groove is a rectangular groove body consisting of a front transition plate, a rear transition plate, an upper transition plate and a lower transition plate, two ends of each transition groove are respectively connected with the corresponding groove body, a diaphragm tension adjusting mechanism 600 is arranged in each transition groove, each diaphragm tension adjusting mechanism 600 comprises a supporting shaft 610 connected with the transition groove, clamping assemblies 620 for clamping the diaphragm 1000 to adjust the tension are respectively arranged on two sides of the supporting shaft 610 along the axial direction, the clamping assemblies 620 positioned on two sides of the supporting shaft 610 are symmetrically arranged by a perpendicular bisector of the supporting shaft 610, each clamping assembly 620 comprises a fixed seat 621, the fixed seats 621 are connected with the supporting shaft 610, fixed wheels 622 and movable wheels 623 are arranged on the fixed seats, fixed wheel 622 and activity wheel 623 set up in the top of fixing base 621, and fixed wheel 622 and activity wheel 623 parallel arrangement, and the axis of fixed wheel 622 and activity wheel 623 is parallel to each other promptly, and supreme setting gradually is followed from down to fixed wheel 622 and activity wheel 623 along the direction of height, fixed wheel 622 and fixing base 621 fixed connection, activity wheel 623 and fixing base 621 swing joint.

In the production process of the diaphragm 1000, because the diaphragm tension adjusting mechanisms 600 are arranged between the adjacent groove bodies, in the process that the diaphragm 1000 is transmitted from one groove body to the next groove body, the clamping assemblies 620, namely the movable wheels 623 and the fixed wheels 622 can clamp the diaphragm 1000 to generate certain pulling force on the diaphragm 1000, so that the tension of the diaphragm 1000 is adjusted, and the clamping assemblies 620 clamp two sides of the diaphragm 1000 to straighten the diaphragm 1000 and avoid the diaphragm 1000 from sagging, so that the production quality of the diaphragm 1000 is ensured, and the production of the large-width diaphragm 1000 is facilitated.

Furthermore, a through hole matched with the support shaft 610 is formed in the fixing seat 621, the fixing seat 621 is sleeved outside the support shaft 610, the fixing seat 621 is provided with a positioning hole 6211, the axis of the positioning hole 6211 is perpendicular to the axis of the support shaft 610, the positioning hole 6211 penetrates into the through hole from the outer wall of the fixing seat 621, the fixing seat 621 is fixedly connected with the support shaft 610 through a screw, and on one hand, the fixing seat 621 and the support shaft 610 are fixedly connected through the screw; on the other hand, be convenient for adjust the position of fixing base 621 for the support shaft 610, after loosening the screw, the axial direction adjustment position that the relative support shaft 610 of fixing base 621 can follow the support shaft 610 to the adjustment is located the interval between the fixing base 621 of support shaft 610 both sides, is applicable to the diaphragm 1000 of multiple specification, and extensive applicability screws up after the adjustment is accomplished, alright fix fixing base 621 and support shaft 610.

The fixing seat 621 is provided with a fixing support 626, the fixing support 626 is arranged above the fixing seat 621, and the fixing support 626 is fixedly connected with the fixing seat 621, the fixing connection mode of the fixing support 626 and the fixing seat 621 can be integrated into one piece or welded connection, the fixing support 626 comprises a fixing plate and a guide block, the fixing plate is fixedly connected with the fixing seat 621, the guide block is arranged on the fixing plate, the fixing support 626 is provided with a fixing shaft 624, specifically, the fixing shaft 624 penetrates through the fixing plate, the fixing shaft 624 and the fixing plate are integrated into one piece, in interference fit or welded connection, the axis of the fixing shaft 624 is parallel to the axis of the supporting shaft 610, the fixing wheel 622 is sleeved outside the fixing shaft 624, the fixing seat 621 is further provided with a movable column 627, one end of the movable column 627 penetrates through the fixing support 626, a guide hole matched with the movable column 627 is arranged in the guide block, the movable column 627 penetrates through the guide hole of the guide block, and one end of the movable column 627 is provided with a movable shaft 625, the movable shaft 625 and the movable column 627 are integrally formed, in interference fit or welded connection, the axis of the movable shaft 625 is parallel to the axis of the fixed shaft 624, the axis of the movable shaft 625 is perpendicular to the axis of the movable column 627, the other end of the movable column 627 is provided with a reset piece 628, the movable wheel 623 is sleeved outside the movable shaft 625, in the process of membrane penetration, the movable wheel 623 is pulled upwards by an operator, the fixed support 626 is matched with the movable column 627 to play a role in guiding and limiting the movement of the movable wheel 623, a gap through which the membrane 1000 can pass is formed between the movable wheel 623 and the fixed wheel 622, after the membrane penetration is finished, the operator releases the movable wheel 623, and under the action of the reset piece 628, the movable wheel 623 resets, so that the movable wheel 623 and the fixed wheel 622 clamp the membrane 1000, and the tension of the membrane 1000 is ensured.

In one embodiment, the reset member 628 includes a balancing weight 6281, the balancing weight 6281 is fixedly connected to the movable column 627, the balancing weight 6281 has a simple structure and is convenient to assemble, after the membrane penetrating operation is completed, the worker loosens the movable wheel 623, the balancing weight 6281 generates a vertically downward acting force for the movable wheel 623 through gravity, so that the movable wheel 623 resets the movable wheel 623, so that the movable wheel 623 and the fixed wheel 622 clamp the membrane 1000, and the larger the gravity of the balancing weight 6281 is, the tighter the movable wheel 623 and the fixed wheel 622 are pressed, the reasonable weight balancing weight 6281 can be selected according to the specification of the membrane 1000 to be produced, so that the movable wheel 623 and the fixed wheel 622 can clamp the membrane 1000 with a proper clamping force, thereby ensuring the tension of the membrane 1000, the flexibility is high, the situation that the membrane 1000 cannot be clamped due to insufficient clamping force of the movable wheel 623 and the fixed wheel 622, and the too large tension of the membrane 1000 due to excessive clamping force of the movable wheel 623 and the fixed wheel 622 is avoided, thereby resulting in a situation where the diaphragm 1000 breaks.

In order to facilitate the change of the balancing weight 6281, the balancing weight 6281 is detachably connected with the movable column 627, specifically, the other end of the movable column 627 is provided with a threaded hole, the axis of the threaded hole is coincident with the axis of the movable column 627, the balancing weight 6281 is provided with a counter bore matched with the threaded hole, and a screw is adopted to pass through the counter bore of the balancing weight 6281 and then is in threaded connection with the threaded hole of the movable column 627, so that the detachable connection of the balancing weight 6281 and the movable column 627 is realized.

A first bearing is arranged between the movable wheel 623 and the movable shaft 625, bearing holes are formed in two sides of the movable wheel 623 along the axis direction, the first bearing is arranged in the bearing holes in the two sides of the movable wheel 623, the outer ring of the first bearing is in interference fit with the movable wheel 623, and the inner ring of the first bearing is in interference fit with the movable shaft 625;

be equipped with the second bearing between tight pulley 622 and the fixed axle 624, the both sides of tight pulley 622 along the axis direction all are equipped with the dead eye, all be equipped with the second bearing in the dead eye of tight pulley 622 both sides, the outer lane and the tight pulley 622 interference fit of second bearing, the inner circle and the fixed axle 624 interference fit of second bearing, can reduce the frictional force between loose pulley 623 and loose axle 625 and tight pulley 622 and the fixed axle 624 respectively through first bearing and second bearing, make loose pulley 623 and tight pulley 622 pivoted more smooth and easy, avoid loose pulley 623 or/and tight pulley 622 to block and tear diaphragm 1000 apart.

The movable wheel 623 and the fixed wheel 622 are sleeved with silica gel sleeves, and the silica gel sleeves can increase the friction force between the movable wheel 623 and the fixed wheel 622 and the diaphragm 1000, so that the movable wheel 623 and the fixed wheel 622 can better clamp the diaphragm 1000, and the pulling force on the diaphragm 1000 is improved.

In an embodiment, the reset member 628 includes a spring 6282, two ends of the spring 6282 are respectively fixedly connected to the movable column 627 and the fixed seat 621, the fixed connection manner of the spring 6282 is the prior art, and no further description is provided herein, the spring 6282 can enable the movable wheel 623 to quickly reset, during a film threading process, a worker pulls the movable wheel 623 upwards, the spring 6282 is in an extended state at this time, after the film threading is finished, the worker releases the movable wheel 623, and the movable wheel 623 quickly resets under the elastic force of the spring 6282, so that the movable wheel 623 and the fixed wheel 622 clamp the diaphragm 1000.

In an embodiment, in order to improve the automation degree of the diaphragm tension adjusting mechanism 600, a fixed support 626 is disposed on the fixed base 621, a fixed shaft 624 is disposed on the fixed support 626, a movable wheel 623 is sleeved outside the fixed shaft 624, an adjusting driving member is further disposed on the fixed base 621, a movable shaft 625 is disposed at an output end of the adjusting driving member, the movable wheel 623 is sleeved outside the movable shaft 625, in the process of membrane penetration, the output end of the adjusting driving member drives the movable wheel 623 to move away from the fixed wheel 622, so that a gap through which the diaphragm 1000 can pass is formed between the movable wheel 623 and the fixed wheel 622, after the membrane penetration structure, the output end of the adjusting driving member drives the movable wheel 623 to move towards the fixed wheel 622, so that the movable wheel 623 and the fixed wheel 622 clamp the diaphragm 1000, the adjusting driving member can intelligently drive the movable wheel 623 to move, the automation degree and the intelligence degree are high, and the production efficiency is improved.

Further, the adjustment driving piece includes the cylinder, the cylinder sets up on fixing base 621 and with fixing base 621 fixed connection, the piston rod of cylinder is vertical up, the axis of the piston rod of cylinder sets up with the axis of back shaft 610 is perpendicular promptly, the piston rod and the loose axle 625 fixed connection of cylinder, for example, the one end of loose axle 625 is equipped with the screw hole, the axis of screw hole and the axis coincidence setting of loose axle 625, be equipped with the connecting piece on the piston rod of cylinder, the connecting piece is equipped with the external screw thread with the screw hole looks adaptation of loose axle 625, loose axle 625 and connecting piece threaded connection, realize the piston rod and the loose axle 625 fixed connection of cylinder, the use technology of cylinder is mature, guarantee the stability of transmembrane process.

Referring to fig. 13-14, a washing partition plate 350 is further disposed in the washing tank 300, a plurality of overflowing holes 351 are disposed on the washing partition plate 350, the washing tank 300 is divided into a left washing cavity 303 and a right washing cavity 304 which are communicated with each other by the washing partition plate 350, a liquid outlet 301 is further disposed at the bottom end of the washing tank 300, a liquid inlet 302 is further disposed on the washing tank 300, the liquid outlet 301 and the liquid inlet 302 are both connected with a liquid storage tank, a hydraulic pump is disposed in the liquid storage tank, and an outlet of the hydraulic pump is connected with the liquid inlet 302.

In the process of washing the diaphragm 1000, the washing liquid 220 in the liquid storage tank enters the washing tank 300 from the liquid inlet 302, the washing liquid 220 flows from one washing cavity to the other washing cavity through the overflowing hole 351 of the washing partition plate 350 and is finally discharged from the liquid outlet 301, the capacity of the washing liquid 220 entering the washing tank 300 from the liquid inlet 302 is equal to the capacity of the washing liquid 220 discharged from the liquid outlet 301, the washing liquid 220 forms a circulating flow process, the flowability of the washing liquid 220 is uniformly improved, so that the washing liquid 220 is in full contact with the diaphragm 1000, the contact area between the washing liquid 220 and the diaphragm 1000 is increased, the washing effect of the diaphragm 1000 is improved, and the production efficiency of the diaphragm 1000 is ensured.

The opposite two sides of the top end of each washing tank 300 are respectively provided with an inlet and an outlet, the inlets and the outlets of two adjacent washing tanks 300 are connected, that is, seven washing tanks 300 are communicated with each other, and as seen from the directions of fig. 4 and 13 below, a liquid inlet 302 is arranged at the outlet of the rightmost washing tank 300, so as to avoid the overflow of the washing liquid 220 from the outlet of the rightmost washing tank 300, in an embodiment, the outlet of the rightmost washing tank 300 is higher than the inlet, and the inlets and the outlets of the other washing tanks 300 are level; in one embodiment, a baffle 360 is provided at the outlet of the rightmost washing tank 300; the bottom end of each washing tank 300 is provided with a liquid outlet 301, when the washing liquid 220 enters from the liquid inlet 302, the washing liquid 220 flows to the leftmost washing tank 300 from the rightmost washing tank 300 in sequence, in the washing process of the diaphragm 1000, only the leftmost liquid outlet 301 is opened, the washing liquid 220 enters from the liquid inlet 302 of the rightmost washing tank 300 and flows out from the liquid outlet 301 of the leftmost washing tank 300.

The overflowing holes 351 comprise tapered holes, the aperture of the overflowing holes 351 is gradually reduced along the flowing direction of the washing liquid 220, in the process that the washing liquid 220 enters into another washing cavity from one washing cavity through the overflowing holes 351, the aperture of the overflowing holes 351 is gradually reduced along the flowing direction of the washing liquid 220, namely, the volume in the overflowing holes 351 is gradually reduced, the flowing pressure and the flowing speed of the liquid are in inverse proportion, the pressure and the flowing speed of the washing liquid 220 are increased, the flowing speed is reduced, when the washing liquid 220 enters into the washing cavity from the overflowing holes 351, the pressure and the flowing speed of the washing liquid 220 are reduced due to the sudden increase of the volume, the flowing speed is increased, the flowability of the washing liquid 220 is further improved, the washing liquid 220 is fully contacted with the diaphragm 1000, the contact area of the washing liquid 220 and the diaphragm 1000 is further increased, and the washing effect of the diaphragm 1000 is further improved.

The washing tank 300 is internally provided with an installation groove matched with the washing partition plate 350, the washing partition plate 350 is embedded in the installation groove, the washing partition plate 350 is directly embedded in the installation groove to complete the assembly, and the convenience of the assembly of the washing partition plate 350 and the washing tank 300 is improved.

The washing partition 350 is disposed in the middle of the washing tub 300, and the washing partition 350 is located between the second washing driving roller and the third washing driving roller, so that the size of the left washing chamber 303 in the direction perpendicular to the washing partition 350 is equal to the size of the right washing chamber 304 in the direction perpendicular to the washing partition 350.

Specifically, the washing tank 300 is composed of a front washing plate, a rear washing plate, a left washing plate, a right washing plate, an upper washing plate and a lower washing plate, the front washing plate and the rear washing plate are arranged in parallel at intervals, the left washing plate and the right washing plate are arranged in parallel at intervals, the upper washing plate and the lower washing plate are arranged in parallel at intervals, the top end of the left washing plate and the upper washing plate are arranged at intervals to form an inlet of the washing tank 300, the top end of the right washing tank 300 and the upper washing plate are arranged at intervals to form an outlet of the washing tank 300, mounting grooves are formed in the front washing plate, the rear washing plate and the lower washing plate, the washing partition plate 350 is embedded in the mounting groove, in order to facilitate the arrangement of the washing transmission device, a space for the mounting of the washing transmission device is formed between the top end of the washing partition plate 350 and the upper washing plate, the washing partition plate 350, the front washing plate, the rear washing plate, the lower washing plate and the left washing plate enclose a left washing cavity 303, the washing partition plate 350, the front washing plate, the rear washing plate, the lower washing plate and the right washing plate are enclosed to form a right washing cavity 304, the top end of the washing partition plate 350 is higher than the top ends of the left washing plate and the right washing plate, when the washing liquid 220 enters each washing tank 300 from the liquid inlet 302, the washing liquid firstly enters the right washing cavity 304 to enable the liquid level of the right washing cavity 304 to be higher than the left washing cavity 303 instantaneously, as the left washing cavity 303 is communicated with the right washing cavity 304, the washing liquid 220 enters the left washing cavity 303 through the overflowing hole 351 of the washing partition plate 350 under the action of hydraulic pressure difference, when the liquid level of the washing liquid 220 is higher than the inlet of the washing tank 300, the washing liquid 220 flows to the left washing tank 300, and by analogy, the washing liquid 220 forms circular flow, and the fluidity of the washing liquid 220 is improved.

A sealing member is arranged between the washing partition plate 350 and the washing tank 300, the sealing member comprises a silica gel strip, the sealing member can improve the sealing property between the washing partition plate 350 and the washing tank 300, and the washing liquid 220 can only enter from one washing cavity to the other washing cavity through the overflowing holes 351.

The washing partition 350 has a cross member 352 at the top end thereof, and the cross member 352 is provided to facilitate grasping the washing partition 350 for assembly with the washing tub 300 during assembly and to facilitate removal of the washing partition 350 during disassembly.

Referring to fig. 20 to 25, a liquid removing mechanism is disposed in the liquid removing tank 400, an inlet and an outlet are disposed on two opposite sides of the top end of the liquid removing tank 400, the inlet of the liquid removing tank 400 is connected to the outlet of the adjacent washing tank 300, a left liquid scraping assembly 410 and a right liquid scraping assembly 420 are disposed in the liquid removing tank 400, the left liquid scraping assembly 410 and the right liquid scraping assembly 420 are both adjustably connected to the liquid removing tank 400, and the left liquid scraping assembly 410 and the right liquid scraping assembly 420 respectively abut against two surfaces of the diaphragm 1000.

Scrape liquid subassembly 410 and the right side and scrape liquid subassembly 420 and contradict with two surfaces of diaphragm 1000 respectively to scrape liquid subassembly 410 and the right side on a left side and scrape liquid subassembly 420 and remove cistern 400 adjustable connection, thereby scrape liquid subassembly 410 and the right side in the adjustment and scrape the conflict pressure of liquid subassembly 420 and diaphragm 1000, can effectually strike off the washing liquid 220 of the most part in diaphragm 1000 surface, remove liquid effectual.

The liquid removing groove 400 is composed of a front liquid removing plate, a rear liquid removing plate, a left liquid removing plate, a right liquid removing plate, an upper liquid removing plate and a rectangular groove formed by the lower liquid removing plate, the front liquid removing plate and the rear liquid removing plate are arranged at a parallel interval, the left liquid removing plate and the right liquid removing plate are arranged at a parallel interval, the upper liquid removing plate and the lower liquid removing plate are arranged at a parallel interval, the top end of the left liquid removing plate and the upper liquid removing plate are arranged at an interval to form an inlet of the liquid removing groove 400, and the top end of the right liquid removing plate and the upper liquid removing plate are arranged at an interval to form an outlet of the liquid removing groove 400.

The left liquid scraping assembly 410 and the right liquid scraping assembly 420 both comprise a mounting flange 411, a liquid scraping rod 412, a scraper 413 and an adjusting piece 414, wherein the mounting flange 411 is arranged on both opposite sides of the liquid removing groove 400, namely, the mounting flange 411 is arranged on both sides of the liquid removing groove 400 along the length direction of the liquid scraping assembly, the mounting flange 411 is fixedly connected with the liquid removing groove 400 through screws, the liquid scraping rod 412 is arranged in the mounting flange 411 in a penetrating manner and is rotatably connected with the mounting flange 411, the scraper 413 is arranged on the liquid scraping rod 412, the scraper 413 is abutted against the diaphragm 1000, the length dimension of the scraper 413 is matched with the width dimension of the diaphragm 1000, so that the scraper 413 can completely cover the surface of the diaphragm 1000, the adjusting piece 414 is connected with the liquid scraping rod 412, the adjusting piece 414 is adjustably connected with the mounting flange 411, the positions of the adjusting piece 414 and the mounting flange are adjusted according to the transmission position of the diaphragm 1000 in the liquid removing groove 400, thereby adjusting the position of the liquid scraping rod 412, finally, the angle position of the scraper 413 is adjusted to adjust the contact pressure between the scraper 413 and the membrane 1000, so that the scraper 413 and the membrane 1000 can maximally scrape the cleaning solution 220 attached to the surface of the membrane 1000, and the membrane 1000 is prevented from being broken due to a poor scraping effect caused by a small contact pressure between the scraper and the membrane 1000 or an excessive contact pressure between the scraper and the membrane 1000.

The liquid scraping rod 412 comprises a knife rest 4121 and rotating rods 4122 arranged on two opposite sides of the knife rest 4121, the knife rest 4121 is a rectangular frame, the rotating rods 4122 are arranged on two sides of the knife rest 4121 in the length direction, the scraper 413 is arranged on the knife rest 4121, and the scraper 413 is fixedly connected with the knife rest 4121 through screws, so that on one hand, the assembly of the scraper 413 is facilitated; on the other hand, the weight of the wiping rod 412 can be reduced.

The liquid scraping rod 412 and the mounting flange 411 are arranged eccentrically, the adjusting part 414 comprises a handle 4141 and an adjusting plate 4142 connected with the handle 4141, both ends of the liquid scraping rod 412 are provided with threaded holes, the handle 4141 is provided with a countersunk hole matched with the threaded hole of the liquid scraping rod 412, the handle 4141 and the hydraulic rod are fixedly connected through screws, the adjusting plate 4142 is provided with an arc groove 4143, the mounting flange 411 is provided with a threaded hole matched with the arc groove 4143, the adjusting plate 4142 and the mounting flange 411 are connected through screws in an adjusting way, when the adjustment plate 4142 is screwed to the mounting flange 411, as can be seen from the connection, thereby fixing the scrapers 413, and when the adjusting plate 4142 is unscrewed from the mounting flange 411, the handle 4141 may be rotated to adjust the angular position of the scrapers 413, namely, the abutting pressure of the scraper 413 and the diaphragm 1000 is adjusted, the screws of the adjusting plate 4142 and the mounting flange 411 are screwed after the adjustment is completed, and the arc-shaped groove 4143 is matched with the screws to play a role in adjusting and limiting.

Except that liquid tank 400 is also provided with a liquid removing transmission component for transmitting diaphragm 1000, the liquid removing transmission component comprises a rotating compression roller 455 arranged at the outlet of liquid removing tank 400 and a first compression roller driving part 465 connected with rotating compression roller 455, the first compression roller driving part 465 drives rotating compression roller 455 to rotate, the first compression roller driving part 465 comprises a compression roller motor and a compression roller speed reducer, both sides of liquid removing tank 400 along the axial direction of rotating compression roller 455 are provided with bearing shafts, both sides of rotating compression roller 455 penetrate through the bearing shafts, the compression roller motor and the compression roller speed reducer are both arranged except liquid tank 400, the output shaft of the compression roller motor is coaxially and fixedly connected with the input end of the compression roller speed reducer, the output end of the compression roller speed reducer is coaxially and fixedly connected with rotating compression roller 455, the compression roller motor drives rotating compression roller 455 to rotate after passing through the compression roller speed reducer, torque and stability for driving rotating compression roller 455 are improved, except that liquid tank 400 is also provided with a movable compression roller 471 and a second compression roller driving part 472, rotating compression roller 455 and movable compression roller 471 are arranged in parallel, second compression roller driver 472 is connected with movable compression roller 471, second compression roller driver 472 drives movable compression roller 471 to move towards or away from rotating compression roller 455, in the process of passing through the film, second compression roller driver 472 drives movable compression roller 471 to move away from rotating compression roller 455, so that a gap is formed between rotating compression roller 455 and movable compression roller 471 to allow diaphragm 1000 to pass through, after the film passing is completed, second compression roller driver 472 drives movable compression roller 471 to move towards rotating compression roller 455 to compress diaphragm 1000, after liquid assembly 410 is scraped to the left and liquid assembly 420 scrapes most 220 of cleaning solution on the surface of diaphragm 1000, diaphragm 1000 is extruded through the cooperation of rotating compression roller 455 and movable compression roller 471, secondary liquid removal is performed on diaphragm 1000, and the liquid removal effect of diaphragm 1000 is further improved.

The second pressure roller driving member 472 includes a pressure roller cylinder and a connecting rod assembly disposed at two sides of the movable pressure roller 471, and a specific connecting structure is described in the outlet liquid removing tank 400 of a diaphragm washing system of chinese patent CN210688946U previously applied by the applicant, and is not described herein any more.

The overflow port 403 is further disposed at the lower portion of the liquid removing tank 400, and since a large amount of the cleaning liquid 220 adheres to the surface of the diaphragm 1000, the cleaning liquid 220 on the surface of the diaphragm 1000 is scraped by the left liquid scraping assembly 410 and the right liquid scraping assembly 420 and accumulated in the liquid removing tank 400, so as to prevent the cleaning liquid 220 in the liquid removing tank 400 from overflowing, when the liquid level of the cleaning liquid 220 in the liquid removing tank 400 is higher than the overflow port 403, the cleaning liquid 220 in the liquid removing tank 400 flows out from the overflow port 403.

The liquid removing groove 400 is also internally provided with a liquid removing partition plate 430, the bottom end of the liquid removing partition plate 430 is lower than the overflow port 403, the bottom end of the liquid removing partition plate 430 and the bottom end of the liquid removing groove 400 are arranged at intervals for the diaphragm 1000 to pass through and an installation space is reserved for a liquid removing transmission component, when the bottom end of the liquid removing partition plate 430 is soaked in the cleaning liquid 220 in the liquid removing groove 400, the liquid removing partition plate 430 divides the liquid removing groove 400 into a left liquid removing cavity 401 and a right liquid removing cavity 402 which are not communicated with each other, the left liquid removing cavity 401 is communicated with an inlet of the liquid removing groove 400, the right liquid removing cavity 402 is communicated with an outlet of the liquid removing groove 400, the bottom end of the liquid removing partition plate 430 and the cleaning liquid 220 in the liquid removing groove 400 form a sealing structure, the cleaning liquid 220 in the cleaning groove 300 is sealed in the left liquid removing cavity 401 after being volatilized, and the cleaning liquid 220 in the cleaning groove 300 is prevented from being leaked through the liquid removing groove 400 after being volatilized.

Except that hydraulic drive assembly still includes a plurality ofly except that liquid driving roller and a plurality ofly and except that the liquid driving piece of liquid driving roller one-to-one, except that liquid driving roller and the parallel interval setting of rotation compression roller 455, and except that the setting of staggering of liquid driving roller, except that liquid driving piece and the corresponding except that liquid driving roller is connected, except that liquid driving piece and except that the connected mode of liquid driving roller is the same with the connected mode of above-mentioned first compression roller driving piece 465 with rotation compression roller 455, no longer give details here, diaphragm 1000 is around locating except that liquid driving roller and rotate compression roller 455, thereby except that liquid driving piece drive except that liquid driving roller rotates transmission diaphragm 1000.

In this embodiment, the fluid-removing driving roller includes a first fluid-removing driving roller 451, a second fluid-removing driving roller 452, a third fluid-removing driving roller 453 and a fourth fluid-removing driving roller 454, the fluid-removing driving member includes a first fluid-removing driving member 461, a second fluid-removing driving member 462, a third fluid-removing driving member 463 and a fourth fluid-removing driving member 464, the first fluid-removing driving roller 451 is disposed at an inlet of the fluid-removing tank 400, the first fluid-removing driving member 461 is connected to the first fluid-removing driving roller 451, the second fluid-removing driving roller 452 is disposed between a bottom end of the fluid-removing partition 430 and the fluid-removing tank 400, the second fluid-removing driving member 462 is connected to the second fluid-removing driving roller 452, the third fluid-removing driving roller 453 and the fourth fluid-removing driving roller 454 are disposed in the right fluid-removing chamber 402, the third fluid-removing driving member 463 is connected to the third fluid-removing driving roller 453, the fourth fluid-removing driving member 464 is connected to the fourth fluid-removing roller 454, and the diaphragm 1000 is sequentially wound on the upper portion of the first fluid-removing driving roller 451, The second removes the below of liquid driving roller 452, the third removes the left of liquid driving roller 453, the fourth removes the right-hand side of liquid driving roller 454 and rotates the top of compression roller 455, scrape liquid subassembly 410 and the right side and scrape the section of rising of liquid subassembly 420 and diaphragm 1000 and contradict on a left side, it is specific, scrape liquid subassembly 410 and the right side and scrape liquid subassembly 420 and all set up in the liquid chamber 402 is removed on the right side, and scrape liquid subassembly 410 and the right side and scrape liquid subassembly 420 and be located the second and remove between liquid driving roller 452 and the third drive roller 453, it scrapes the washing liquid 220 that liquid subassembly 420 scraped the diaphragm 1000 surface and falls into except that cistern 400 bottom under the effect of gravity to be convenient for scrape liquid subassembly 410 and the right side on a left side.

The bottom end of the liquid removing tank 400 is provided with a liquid outlet 301, and after the production of the diaphragm 1000 is completed, the washing liquid 220 in the liquid removing tank 400 can be discharged through the liquid outlet 301.

The bottom of degerming liquid groove 400 still is equipped with the guide plate 440 that is the V type, and the bottom of guide plate 440 links up with leakage fluid dram 301, and guide plate 440 plays the guide effect to the washing liquid 220 in the degerming liquid groove 400, guarantees that the washing liquid 220 in the degerming liquid groove 400 can be followed and completely discharged in the leakage fluid dram 301.

Referring to fig. 26, the drying tank 500 includes a primary drying tank 510, the primary drying tank 510 is connected to the liquid removing tank 400, a first drying partition 511 is disposed in the primary drying tank 510, the bottom end of the first drying partition 511 is spaced from the bottom end of the primary drying tank 510, the first drying partition 511 partitions the primary drying tank 510 into a primary left drying chamber 515 and a primary right drying chamber 516, a plurality of primary drying rollers 512 and first air suction ports 513 corresponding to the primary drying rollers 512 are disposed in the primary left drying chamber 515 and the primary right drying chamber 516, the diaphragm 1000 is continuously wound around the primary drying rollers 512 in an S shape, the diaphragm 1000 and the first drying partition 511 or the drying tank 500 form a labyrinth structure around the corresponding first air suction ports 513, the primary drying rollers 512 perform drying processing on the diaphragm 1000, so that the remaining washing liquid 220 on the surface of the diaphragm 1000 is volatilized, and the diaphragm 1000 and the first drying partition 511 or the drying tank 500 form a labyrinth structure around the corresponding first air suction ports 513, the cleaning solution 220 volatilized from the surface of the membrane 1000 can only be sucked by the corresponding first air suction port 513 or can move forward along with the membrane 1000, i.e. the volatilized cleaning solution 220 has a certain guiding function.

The drying tank 500 further comprises a secondary drying tank 520, the secondary drying tank 520 is connected with the primary drying tank 510, an air return opening 514 is arranged between the secondary drying tank 520 and the primary drying tank 510, a second drying partition plate 521 is arranged in the secondary drying tank 520, the bottom end of the second drying partition plate 521 is arranged at an interval with the bottom end of the secondary drying tank 520, the secondary drying tank 520 is divided into a secondary left drying cavity 525 and a secondary right drying cavity 526 by the second drying partition plate 521, a plurality of secondary drying rollers 522 are arranged in the secondary left drying cavity 525, the diaphragm 1000 is continuously wound outside the secondary drying rollers 522 in an S shape, the secondary right drying cavity 526 is provided with a plurality of outlet guide rollers 524, a second air suction opening 523 is arranged between the bottom end of the second drying partition plate 521 and the secondary drying tank 520, the secondary drying rollers 522 perform secondary drying treatment on the diaphragm 1000 to ensure that no cleaning solution 220 adheres to the surface of the diaphragm 1000 to reach the environmental standard, the diaphragm 1000 after the secondary drying treatment is conveyed to an outlet under the transmission action of the outlet guide rollers 524, the second air suction opening 523 can suck away the trace washing liquid 220 volatilized by the secondary drying treatment, and the second air suction opening 523 enables the secondary drying groove 520 to be in a micro negative pressure state, so that the trace washing liquid 220 in the secondary drying groove 520 is prevented from leaking to the working environment from the outlet, and the secondary drying groove is environment-friendly and safe.

An air return opening 514 is further arranged between the secondary drying groove 520 and the primary drying groove 510, and the air return opening 514 can prevent the air pressure in the primary drying groove 510 from being too small.

The remaining technical features of the drying tank 500 are the same as those of a diaphragm 1000 disclosed in the patent CN112856995A previously filed by the applicant for facilitating cleaning and recovering of the distributed drying device, and the detailed description thereof is omitted.

Referring to fig. 4, 10, 11, 13, 20 and 26-28, the large-format membrane washing production line further includes a membrane penetrating mechanism 700 disposed in the sealing groove 200, the washing groove 300, the liquid removing groove 400 and the drying groove 500, the membrane penetrating mechanism 700 includes a membrane penetrating driving member 710 and a membrane penetrating driving member 720, a transition component 740 is further disposed in the sealing groove 200, the membrane penetrating driving member 720 is disposed on and above the membrane driving rollers of the sealing groove 200, the washing groove 300, the liquid removing groove 400 and the drying groove 500, the membrane driving rollers include a sealing driving roller 241, a washing driving roller, a liquid removing driving roller, a primary drying roller 512 and a secondary drying roller 522, the membrane penetrating driving member 710 is connected with the membrane penetrating driving member 720 and drives the membrane penetrating driving member 720 to transmit, a part of the transmission path of the membrane penetrating driving member 720 coincides with the transmission path of the membrane 1000, that is, a part of the transmission path of the membrane penetrating driving member 720 coincides with the transmission path of the membrane 1000 in the normal production process, under the prerequisite that does not influence the sealed effect of seal groove 200, the membrane mechanism 700 of wearing is convenient for outside diaphragm 1000 around locating the diaphragm driving roller, reduces staff's work load, improves diaphragm 1000's membrane efficiency of wearing, improves production efficiency.

The working process of the film penetrating mechanism 700 is as follows: firstly, one end of a film threading rope is tied on a film threading transmission member 720 from an entrance through a worker, the film threading transmission member 720 is driven by a film threading driving member 710 to carry out transmission, the film threading transmission member 720 drives the film threading rope to carry out transmission along a transmission path of a diaphragm 1000, namely, the film threading rope is wound outside a diaphragm transmission roller along the transmission path of the diaphragm 1000, when one end of the film threading rope is transmitted to an exit of a drying groove 500, the worker unbunds one end of the film threading rope and the film threading transmission member 720 and adjusts the film threading rope to the middle of the diaphragm transmission roller, then the other end of the film threading rope is bound with one end of the diaphragm 1000, one end of the film threading rope is pulled to drive the diaphragm 1000 to be sequentially wound outside the diaphragm transmission roller along the transmission direction, one end of the film threading rope can be pulled by the worker or one end of the film threading rope is tied on a winder, the film threading rope is wound by the winder, so as to drive the diaphragm 1000 to be sequentially wound outside the diaphragm roller along the transmission direction, diaphragm 1000 of being convenient for is around locating outside the diaphragm driving roller, reduce staff's work load, improve diaphragm 1000's the membrane efficiency of wearing, improve production efficiency.

The film penetrating driving part 720 comprises a film penetrating chain wheel 721 and a film penetrating chain 722, the film penetrating chain wheel 721 is arranged outside the film driving roller, in order to avoid influencing the transmission of the film 1000, one side of the film driving roller in the groove body along the axial direction is sleeved with the film penetrating chain wheel 721, the film penetrating chain wheel 721 is rotationally connected with the film driving roller, the transition component 740 comprises a transition wheel, the film penetrating chain 722 is wound outside the film penetrating chain wheel 721 and the transition wheel, the film penetrating chain 722 is meshed with the film penetrating chain wheel 721, the film penetrating driving part 710 is connected with the film penetrating chain 722, concretely, one end of the film penetrating chain 722 is sequentially wound around the film penetrating chain wheel 721, the film penetrating driving part 710 and the transition wheel and then is connected with the other end of the film penetrating chain 722 in a closed loop manner along the transmission path of the film 1000, the film penetrating chain 722 is driven to transmit the film penetrating chain 722, and part of the transmission path of the film penetrating chain 722 is superposed with the transmission path of 1000, specifically, the transmission path of the penetrating film chain 722 from the inlet to the outlet coincides with the transmission path of the diaphragm 1000 in the normal production process, so that the diaphragm 1000 is driven to sequentially wind the outside of the diaphragm transmission roller, the chain and the chain wheel are adopted as the penetrating film transmission member 720 to be used in a high-load environment, the transmission power is high, the force acting on the diaphragm transmission roller is small, the transmission efficiency is high, and the service life is long.

The penetrating film driving part 710 is arranged at the outlet of the top end of the drying tank 500, the washing tank 300, the liquid removing tank 400 and the top end of the drying tank 500 are respectively provided with a plurality of tensioning sprockets 730, the tensioning sprockets 730 are rotatably connected with the tank body, the penetrating film chain 722 is wound outside the tensioning sprockets 730 and meshed with the tensioning sprockets 730, the washing tank 300, the liquid removing tank 400 and the top end of the drying tank 500 are provided with more installation spaces, the structure is reasonable in arrangement, the penetrating film chain 722 is convenient to assemble, the tensioning degree of the penetrating film chain 722 can be improved by the tensioning sprockets 730, the transmission stability of the penetrating film chain 722 is ensured, and particularly, one end of the penetrating film chain 722 is sequentially wound around the penetrating film sprocket 721 arranged on the diaphragm transmission roller, the driving sprocket 713, the tensioning sprockets 730 and then is in closed connection with the other end of the penetrating film chain 722 along the transmission direction of the diaphragm 1000.

The film penetrating driving part 710 comprises a film penetrating motor 711, the film penetrating motor 711 is connected with a film penetrating chain 722, the film penetrating motor 711 drives the film penetrating chain 722 to transmit, the use technology of the motor is mature, and the stability of the transmission of the film penetrating chain 722 is ensured.

The film penetrating driving piece 710 further comprises a film penetrating speed reducer 712, the film penetrating speed reducer 712 is fixedly connected with the drying tank 500, an output shaft of the film penetrating motor 711 is coaxially and fixedly connected with an input end of the film penetrating speed reducer 712, an output end of the film penetrating speed reducer 712 is provided with a driving sprocket 713, the driving sprocket 713 is coaxially and fixedly connected with an output end of the film penetrating speed reducer 712, a film penetrating chain 722 is wound outside the driving sprocket 713 and meshed with the driving sprocket 713, the output shaft of the film penetrating motor 711 drives the film penetrating speed reducer 712 to work, the output end of the film penetrating speed reducer 712 is meshed with the film penetrating chain 722 through the driving sprocket 713, the film penetrating chain 722 is finally driven to transmit, and after the speed reduction of the film penetrating speed reducer 712, the torque and the stability of the film penetrating chain 722 driven by the film penetrating motor 711 are improved.

In this embodiment, the transition assembly 740 includes a first transition wheel 741, a second transition wheel 742 and a third transition wheel 743, the first transition wheel 741 is disposed at the top end of the left seal cavity 203, the second transition wheel 742 is disposed between the seal partition 210 and the seal groove 200, the third transition wheel 743 is disposed at the top end of the right seal cavity 204, specifically, one end of the film passing chain 722 is sequentially wound around the first seal driving roller 2411, the second seal driving roller 2412, the third seal driving roller 2413, the film passing chain wheel 721 of the film driving roller, the driving chain wheel 713, the tension chain wheel 730, the third transition wheel 743, the second transition wheel 742 and the first transition wheel 741 along the transmission path of the film 1000, and then is connected to the other end of the film passing chain 722 in a closed manner, on the premise of not damaging the sealing performance of the sealing groove 200, the film threading mechanism 700 can thread the film outside the first sealing driving roller 2411, the second sealing driving roller 2412 and the third driving roller.

The embodiment of the invention also discloses a washing method of the large-breadth diaphragm, which adopts the large-breadth diaphragm washing production line for washing, and the washing method comprises the following steps:

step 1: a diaphragm 1000 enters the seal groove 200 through the inlet floating roller group 100;

step 2: the diaphragm 1000 is pre-washed by the washing liquid 220 in the sealing groove 200;

and step 3: the diaphragm 1000 is washed by passing through the washing liquid 220 in the plurality of washing tanks 300 in sequence;

and 4, step 4: the membrane 1000 enters the liquid removing groove 400 to scrape off the washing liquid 220 attached to the surface of the membrane 1000;

and 5: the diaphragm 1000 enters the drying tank 500 to be dried.

The specific washing method is described above, and will not be described herein.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, which fall within the scope and spirit of the above description. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and variations of the present invention should fall within the scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.