阅读说明：本技术 金属丝绳制作用磷化装置 (Phosphorization device for manufacturing metal wire rope ) 是由 梁超 于 2021-07-12 设计创作，主要内容包括：本发明公开了金属丝绳制作用磷化装置,包括机体、浸液机构、风干机构、集料机构和回流机构,所述机体包括磷化池以及固装于磷化池内两侧的加热管,所述磷化池内置有腔体,所述浸液机构包括固装于腔体内的第一电机、固接于第一电机输出端的驱动齿轮、可转动安装于腔体内的传动轴、套装于传动轴上并与驱动齿轮啮合传动的传动齿轮、固接于传动轴顶端的壳体、固装于壳体内的第二电机、固接于连接绳端部的吊盘以及固接于吊盘底部的多个卡钩,所述风干机构位于磷化池的一侧,用于风干丝绳上的磷化液,所述集料机构位于磷化池上,用于承接丝绳磷化反应产生的杂质,所述回流机构位于磷化池外侧,用于承接丝绳调换位置时滴落的磷化液。(The invention discloses a phosphating device for manufacturing a metal wire rope, which comprises a machine body, an immersion mechanism, an air drying mechanism, an aggregate mechanism and a backflow mechanism, wherein the machine body comprises a phosphating pool and heating pipes fixedly arranged on two sides in the phosphating pool, a cavity is arranged in the phosphating pool, the immersion mechanism comprises a first motor fixedly arranged in the cavity, a driving gear fixedly connected to the output end of the first motor, a transmission shaft rotatably arranged in the cavity, a transmission gear sleeved on the transmission shaft and in meshed transmission with the driving gear, a shell fixedly connected to the top end of the transmission shaft, a second motor fixedly arranged in the shell, a hanging disc fixedly connected to the end part of a connecting rope and a plurality of hooks fixedly connected to the bottom of the hanging disc, the air drying mechanism is positioned on one side of the phosphating pool and used for drying phosphating liquid on the wire rope, the aggregate mechanism is positioned on the phosphating pool and used for bearing impurities generated by phosphating reaction of the wire rope, the backflow mechanism is positioned outside the phosphating pool and used for receiving phosphating solution dripping when the position of the wire rope is changed.)

1. Bonderizing device is used in wire rope preparation, its characterized in that includes:

the device comprises a machine body (100), wherein the machine body (100) comprises a phosphating pool (101) and heating pipes (102) fixedly arranged on two sides in the phosphating pool (101), and a cavity is arranged in the phosphating pool (101);

the immersion mechanism (200) comprises a first motor (201) fixedly arranged in the cavity, a driving gear (202) fixedly connected to the output end of the first motor (201), a transmission shaft (204) rotatably arranged in the cavity, a transmission gear (203) sleeved on the transmission shaft (204) and in meshed transmission with the driving gear (202), a shell (205) fixedly connected to the top end of the transmission shaft (204), a second motor (206) fixedly arranged in the shell (205), and a connecting shaft fixedly connected to the output end of the second motor (206), the worm (207) sleeved on two sides of the connecting shaft, the rotating shaft rotatably arranged on two sides in the shell (205), a worm wheel (208) sleeved on the rotating shaft and in meshed transmission with the worm (207), winding rollers (209) sleeved on two sides of the rotating shaft, a connecting rope sleeved on the winding rollers (209), a hanging scaffold (210) fixedly connected to the end part of the connecting rope and a plurality of clamping hooks (211) fixedly connected to the bottom of the hanging scaffold (210);

the air drying mechanism (300) is positioned on one side of the phosphating pool (101) and is used for air drying phosphating solution on the wire rope;

the collecting mechanism (400) is positioned on the phosphating pool (101) and is used for receiving impurities generated by the phosphating reaction of the wire ropes;

the backflow mechanism (500) is located on the outer side of the phosphating pool (101) and used for receiving the phosphating solution which drips when the position of the wire rope is changed.

2. The phosphating device for manufacturing the metal wire rope according to claim 1, wherein the air drying mechanism (300) comprises a third motor (301) fixedly mounted on one side of the phosphating tank (101), a screw (302) fixedly connected to the output end of the third motor (301), a slide bar fixedly connected to one side of the phosphating tank (101), a connecting plate (303) suitable for sliding relative to the screw (302) and the slide bar, flow guide rings (304) fixedly connected to the two connecting plates (303), a flow guide cover fixedly connected to the inner side of the flow guide rings (304), and a fan (305) fixedly mounted on one side of the phosphating tank (101), wherein an output pipe on the fan (305) is connected with the flow guide rings (304).

3. The phosphating device for manufacturing the metal wire rope according to claim 1, wherein the aggregate mechanism (400) comprises filter plates (401) fixedly connected to two side walls inside the phosphating tank (101), a collection box (402) arranged in the middle of the bottom wall inside the phosphating tank (101), a plurality of filter holes formed in the bottom of the collection box (402), and handles fixedly connected to two sides of the collection box (402), wherein the filter plates (401) on two sides are obliquely arranged, and the two filter plates (401) are respectively positioned on two sides of the collection box (402).

4. The metal wire rope manufacturing phosphating device according to claim 3, wherein the aggregate mechanism (400) further comprises a fourth motor (403) fixedly mounted on the phosphating tank (101), a first driving shaft fixedly connected to the output end of the fourth motor (403), a driving wheel (404) sleeved on the first driving shaft, a second driving shaft rotatably mounted on one side inside the phosphating tank (101), a driven wheel (405) sleeved on the second driving shaft and in transmission connection with the driving wheel (404) through a belt, a plurality of connecting sleeves (406) fixedly connected to the first driving shaft and the second driving shaft, a spring (407) fixedly connected inside the connecting sleeve (406) and a push rod (408) fixedly connected to the end part of the spring (407).

5. The phosphating device for manufacturing the metal wire rope according to claim 1, wherein the backflow mechanism (500) comprises a pump body (501) fixedly arranged on the phosphating tank (101), a receiving groove (504) arranged on one side of the phosphating tank (101), a recovery box (503) fixedly connected to the outer side wall of the phosphating tank (101) and a shunt pipe (502) fixedly connected to the output end of the pump body (501), the end parts of the shunt pipe (502) respectively extend to the interior of the recovery box (503) and the receiving groove (504), and the output pipe on the other side of the pump body (501) extends to the interior of the phosphating tank (101).

6. The phosphating device for manufacturing the metal wire rope according to claim 5, wherein two hanging scaffold (210) are provided, and the two hanging scaffold (210) are respectively positioned above the phosphating tank (101) and the receiving groove (504).

7. Phosphating device for wire rope manufacture according to claim 1, characterised in that the number of teeth of the driving gear (202) is smaller than the number of teeth of the transmission gear (203) for reducing the rotational speed of the transmission shaft (204).

8. The metal wire rope production phosphating device according to claim 2, wherein the diameter size of the diversion ring (304) is larger than that of the hanging scaffold (210), the number of the diversion covers is provided in plurality, and the diversion covers are arranged in an annular array.

9. The phosphating device for manufacturing the metal wire rope according to claim 1, wherein the machine body (100) further comprises a liquid outlet pipe fixedly connected to the phosphating tank (101) and a valve fixedly connected to the liquid outlet pipe, and the end part of the liquid outlet pipe extends to the inside of the phosphating tank (101).

Technical Field

The invention relates to the technical field of wire ropes, in particular to a phosphating device for manufacturing metal wire ropes.

Background

The metal wire rope is a tool which is frequently used in daily life, and is good in overall toughness, so that the metal wire rope is frequently used for carrying or hanging objects, and users can select the thickness specification of the metal wire rope according to conditions; the existing metal wire rope has certain disadvantages when in use, and most of the metal wire ropes are cylindrical.

In the process of processing the metal wire rope, the metal wire rope needs to be phosphorized, and the purpose of phosphorization is mainly to provide protection for base metal and prevent the metal from being corroded to a certain degree; the primer is used for priming before painting, and the adhesive force and the corrosion resistance of a paint film layer are improved; play antifriction lubrication in metal cold working technology and use, the step of bonderizing needs to dip into the bonderizing liquid with the silk rope, relies on chemical reaction to realize the bonderizing, uses extensively, and current bonderizing device needs the manual work to put into the bonderizing pond with the silk rope, wastes time and energy, and the neutral period of bonderizing in-process, can't carry out further processing, when having wasted a large amount, has reduced work efficiency.

Disclosure of Invention

The present invention is directed to solving one of the technical problems of the prior art or the related art.

Therefore, the technical scheme adopted by the invention is as follows:

the phosphating device for manufacturing the metal wire rope comprises a machine body, an immersion mechanism, an air drying mechanism, an aggregate mechanism and a backflow mechanism, wherein the machine body comprises a phosphating pool and heating pipes fixedly arranged on two sides in the phosphating pool, a cavity is arranged in the phosphating pool, the immersion mechanism comprises a first motor fixedly arranged in the cavity, a driving gear fixedly connected to the output end of the first motor, a transmission shaft rotatably arranged in the cavity, a transmission gear sleeved on the transmission shaft and in meshing transmission with the driving gear, a shell fixedly connected to the top end of the transmission shaft, a second motor fixedly arranged in the shell, a connecting shaft fixedly connected to the output end of the second motor, worms sleeved on two sides of the connecting shaft, rotating shafts rotatably arranged on two sides in the shell, worm wheels sleeved on the rotating shafts and in meshing transmission with the worms, winding rollers sleeved on two sides of the rotating shafts, connecting ropes sleeved on the winding rollers, hanging discs fixedly connected to the end parts of the connecting ropes and a plurality of clamping hooks fixedly connected to the bottoms of the hanging discs, air-dry the mechanism and be located one side in bonderizing pond for air-dry the phosphating solution on the wire rope, the mechanism that gathers materials is located the bonderizing pond for accept the impurity that wire rope bonderizing reaction produced, the backward flow mechanism is located the bonderizing pond outside, is used for accepting the phosphating solution that drips when changing the position of wire rope.

Through adopting above-mentioned technical scheme, with the silk rope transposition position of casing both sides, the second motor drives the transmission shaft reversal afterwards, dip into the phosphating solution in the phosphating pool with one side silk rope, the silk rope of opposite side descends equally simultaneously, the staff can handle the silk rope after the reaction, take off afterwards, then hang untreated silk rope again, can incessant silk rope processing then, be favorable to saving time, work efficiency is greatly improved, and need not the manual work and dip the silk rope in the phosphating pool or take out from the phosphating pool, time saving and labor saving, and labor intensity is reduced.

The present invention in a preferred example may be further configured to: the air drying mechanism comprises a third motor fixedly arranged on one side of the phosphating pool, a screw fixedly connected to the output end of the third motor, a slide bar fixedly connected to one side of the phosphating pool, connecting plates suitable for sliding relative to the screw and the slide bar, flow guide rings fixedly connected to the two connecting plates, a flow guide cover fixedly connected to the inner side of the flow guide rings and a fan fixedly arranged on one side of the phosphating pool, wherein an output pipe on the fan is connected with the flow guide rings.

Through adopting above-mentioned technical scheme, the third motor starts to drive the screw rod and rotates for the connecting plate rises or descends, and the water conservancy diversion ring moves along with the connecting plate, and the fan passes through the pipeline with outside wind and carries in the water conservancy diversion ring, air-dries the silk rope after the immersion fluid through the kuppe afterwards, can accelerate phosphating solution conjunctiva speed on the silk rope then, thereby can improve the treatment effeciency.

The present invention in a preferred example may be further configured to: the mechanism of gathering materials includes the filter plate of rigid coupling on bonderizing pond inside both sides wall, arranges the collection box at bonderizing pond diapire middle part in, sets up in a plurality of filtration pores of collecting the bottom of the case portion and the handle of rigid coupling both sides on collecting the box, both sides the filter plate is the slope setting, two the filter plate is located the both sides of collecting the box respectively.

Through adopting above-mentioned technical scheme, after the phosphating solution after using was discharged, the impurity in the filter plate will be liquid was filtered, and impurity on the filter plate slides in collecting the box, can collect impurity, then need not the manual work and clears up labour saving and time saving.

The present invention in a preferred example may be further configured to: the material collecting mechanism further comprises a fourth motor fixedly arranged on the phosphating tank, a first driving shaft fixedly connected to the output end of the fourth motor, a driving wheel sleeved on the first driving shaft, a second driving shaft rotatably arranged on one side in the phosphating tank, a driven wheel sleeved on the second driving shaft and in transmission connection with the driving wheel through a belt, a plurality of connecting sleeves fixedly connected to the first driving shaft and the second driving shaft, springs fixedly connected in the connecting sleeves and ejector rods fixedly connected to the end parts of the springs.

Through adopting above-mentioned technical scheme, the fourth motor starts to drive first drive shaft and rotates, the drive wheel rotates along with first drive shaft, the drive wheel passes through the belt and drives from the driving wheel rotation, the second drive shaft rotates along with from the driving wheel, the ejector pin rotates along with first drive shaft and second drive shaft, ejector pin striking filter plate on the adapter sleeve, ejector pin extrusion spring makes the spring shrink afterwards, the ejector pin rotates the opposite side ejector pin and resets, then can incessant strike the filter plate, then can be with remaining impurity landing on the filter plate in the collection box, then can improve the cleaning performance.

The present invention in a preferred example may be further configured to: the backflow mechanism comprises a pump body fixedly arranged on the phosphating tank, a collecting groove arranged on one side of the phosphating tank, a recovery box fixedly connected to the outer side wall of the phosphating tank and a shunt pipe fixedly connected to the output end of the pump body, wherein the end part of the shunt pipe extends to the interior of the recovery box and the collecting groove respectively, and the output pipe on the other side of the pump body extends to the interior of the phosphating tank.

Through adopting above-mentioned technical scheme, the silk rope after the immersion fluid is crossed rotates and accepts groove top in-process, and the liquid that drips is dripped and is retrieved the box and accept the inslot, and the pump body starts to carry the liquid that drips once more in the bonderizing pond through the shunt tubes to can carry out recycle with the liquid that drips, can practice thrift the cost, avoid the wasting of resources.

The present invention in a preferred example may be further configured to: the number of the hanging scaffold is two, and the two hanging scaffolds are respectively positioned above the phosphating pool and the bearing groove.

By adopting the technical scheme, the hanging scaffold on the two sides has the same structure, so that the hanging scaffold is convenient for workers to use.

The present invention in a preferred example may be further configured to: the number of teeth of the driving gear is less than that of the transmission gear, and the driving gear is used for reducing the rotating speed of the transmission shaft.

Through adopting above-mentioned technical scheme, can avoid the transmission shaft slew velocity too fast for the silk rope that immerses the phosphating solution splashes other positions with the liquid that it smears, can avoid causing the influence to the staff.

The present invention in a preferred example may be further configured to: the diameter size of the guide ring is larger than that of the hanging scaffold, a plurality of guide hoods are arranged, and the guide hoods form an annular array.

Through adopting above-mentioned technical scheme, the setting of a plurality of kuppes for air-dry more evenly and comprehensive, be favorable to improving air-dried quality.

The present invention in a preferred example may be further configured to: the organism still includes drain pipe of rigid coupling on the bonderizing pond and the valve of rigid coupling on the drain pipe, the tip of drain pipe extends to inside the bonderizing pond.

Through adopting above-mentioned technical scheme, when phosphating solution can't continue to use, can open the valve, be convenient for discharge liquid through the drain pipe.

By adopting the technical scheme, the invention has the beneficial effects that:

1. according to the invention, the positions of the wire ropes on two sides of the shell are changed by arranging the immersion mechanism, then the second motor drives the transmission shaft to rotate reversely, the wire rope on one side is immersed into the phosphating solution in the phosphating tank, meanwhile, the wire rope on the other side descends as well, a worker can treat the reacted wire rope, then take the reacted wire rope down, and then hang the untreated wire rope, so that the wire rope can be uninterruptedly processed, the time is saved, the working efficiency is greatly improved, the wire rope is not required to be immersed into or taken out of the phosphating tank manually, the time and the labor are saved, and the labor intensity is reduced.

2. According to the invention, the air drying mechanism is arranged, the third motor is started to drive the screw rod to rotate, so that the connecting plate rises or falls, the guide ring moves along with the connecting plate, the fan conveys external air into the guide ring through the pipeline, and then the immersed silk rope is air-dried through the guide cover, so that the speed of forming a film by phosphating solution on the silk rope can be increased, and the treatment efficiency can be improved.

3. According to the invention, by arranging the collecting mechanism, after the used phosphating solution is discharged, impurities in the liquid are filtered by the filter plate, the impurities on the filter plate slide into the collecting box, the ejector rod can continuously impact the filter plate, and then the residual impurities on the filter plate can slide into the collecting box, so that the cleaning effect can be improved, the impurities can be collected, manual cleaning is not needed, and time and labor are saved.

4. According to the invention, by arranging the backflow mechanism, in the process that the immersed wire rope rotates to the upper part of the receiving groove, the dripped liquid drips into the recovery box and the receiving groove, and the pump body is started to convey the dripped liquid into the phosphating tank again through the shunt pipe, so that the dripped liquid can be recovered and utilized, the cost can be saved, and the resource waste can be avoided.

Drawings

FIG. 1 is an overall schematic view of one embodiment of the present invention;

FIG. 2 is a schematic view of an immersion mechanism according to one embodiment of the present invention;

FIG. 3 is a schematic view of the external connections of the platform according to one embodiment of the present invention;

FIG. 4 is a side view of one embodiment of the present invention;

FIG. 5 is a schematic view of an airing mechanism according to one embodiment of the invention;

FIG. 6 is a schematic view of the interior of a phosphating tank according to one embodiment of the invention;

FIG. 7 is a schematic view of a collection mechanism according to one embodiment of the present invention;

FIG. 8 is a schematic view of the external connection of the stem lifter according to one embodiment of the present invention;

FIG. 9 is a bottom view of a collection mechanism according to one embodiment of the present invention;

FIG. 10 is a schematic view of a reflow mechanism in accordance with one embodiment of the present invention.

Reference numerals:

100. a body; 101. a phosphating pool; 102. heating a tube;

200. an immersion mechanism; 201. a first motor; 202. a drive gear; 203. a transmission gear; 204. a drive shaft; 205. a housing; 206. a second motor; 207. a worm; 208. a worm gear; 209. a wind-up roll; 210. a hanging scaffold; 211. a hook;

300. an air drying mechanism; 301. a third motor; 302. a screw; 303. a connecting plate; 304. a flow guide ring; 305. a fan;

400. a material collecting mechanism; 401. filtering the plate; 402. a collection box; 403. a fourth motor; 404. a drive wheel; 405. a driven wheel; 406. connecting sleeves; 407. a spring; 408. a top rod;

500. a reflux mechanism; 501. a pump body; 502. a shunt tube; 503. a recovery box; 504. a receiving groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be noted that the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

It is to be understood that this description is made only by way of example and not as a limitation on the scope of the invention.

The following describes a phosphating apparatus for wire rope manufacturing according to some embodiments of the invention with reference to the accompanying drawings.

The first embodiment is as follows:

referring to fig. 1, 2 and 3, the phosphating apparatus for manufacturing a metal wire rope provided by the invention comprises a machine body 100, an air drying mechanism 300 of an immersion liquid mechanism 200, an aggregate mechanism 400 and a backflow mechanism 500, wherein the machine body 100 comprises a phosphating tank 101 and heating pipes 102 fixedly arranged at two sides in the phosphating tank 101, a cavity is arranged in the phosphating tank 101, the immersion liquid mechanism 200 comprises a first motor 201 fixedly arranged in the cavity, a driving gear 202 fixedly connected to the output end of the first motor 201, a transmission shaft 204 rotatably arranged in the cavity, a transmission gear 203 sleeved on the transmission shaft 204 and in meshing transmission with the driving gear 202, a shell 205 fixedly connected to the top end of the transmission shaft 204, a second motor 206 fixedly arranged in the shell 205, a connecting shaft fixedly connected to the output end of the second motor 206, worms 207 sleeved at two sides of the connecting shaft, rotating shafts rotatably arranged at two sides in the shell 205, worm gears 208 sleeved on the rotating shafts and in meshing transmission with the worms 207, a water pump 208, The winding roller 209 sleeved on two sides of the rotating shaft, the connecting rope sleeved on the winding roller 209, the hanging plate 210 fixedly connected to the end part of the connecting rope and a plurality of hooks 211 fixedly connected to the bottom of the hanging plate 210, a worker hangs the wire rope on the hooks 211, the second motor 206 is started to drive the connecting shaft to rotate, the worm 207 rotates along with the connecting shaft, the worm 207 is in meshing transmission with the worm wheel 208, the worm 207 drives the rotating shaft to rotate through the worm wheel 208, the winding roller 209 rotates along with the rotating shaft to wind the connecting rope, then the wire rope hung on the hooks 211 below the hanging plate 210 is pulled to ascend, then the first motor 201 is started to drive the driving gear 202 to rotate, the driving gear 202 is in meshing transmission with the transmission gear 203, the driving gear 202 drives the transmission shaft 204 to rotate through the transmission gear 203, the shell 205 rotates along with the transmission shaft 204, then the position of the wire rope on two sides of the shell 205 can be changed, then the second motor 206 drives the transmission shaft to rotate, dip into the phosphating solution in phosphating pool 101 with one side wire rope, the wire rope of opposite side descends equally simultaneously, the staff can handle the wire rope after the reaction, take off afterwards, then hang untreated wire rope again, then can be incessant carry out wire rope processing, be favorable to saving time, work efficiency is greatly improved, and need not the manual work and dip into the phosphating pool 101 with the wire rope or take out from phosphating pool 101, time saving and labor saving, labor intensity is reduced, air-dry mechanism 300 is located one side of phosphating pool 101, a phosphating solution for air-drying on the wire rope, mechanism 400 that gathers materials is located phosphating pool 101, an impurity for accepting wire rope phosphating reaction production, return mechanism 500 is located the phosphating pool 101 outside, a phosphating solution that drips when being used for accepting wire rope change position.

Specifically, the number of the hanging scaffold 210 is two, the two hanging scaffolds 210 are respectively positioned above the phosphating pool 101 and the receiving groove 504, and the hanging scaffolds 210 on the two sides have the same structure, so that the hanging scaffold is convenient for workers to use.

Further, the number of teeth of the driving gear 202 is less than that of the transmission gear 203, so that the rotating speed of the transmission shaft 204 is reduced, the rotating speed of the transmission shaft 204 can be prevented from being too high, the wire rope immersed in the phosphating solution splashes the liquid applied by the wire rope to other positions, and the influence on workers can be avoided.

Further, organism 100 still includes drain pipe of rigid coupling on bonderizing pond 101 and the valve of rigid coupling on the drain pipe, and inside the tip of drain pipe extended to bonderizing pond 101, when the bonderizing liquid can't continue to use, can open the valve, is convenient for pass through the drain pipe with liquid and discharges.

Example two:

with reference to fig. 4 and 5, on the basis of the first embodiment, the air drying mechanism 300 includes a third motor 301 fixedly installed at one side of the phosphating pool 101, a screw 302 fixedly connected to an output end of the third motor 301, a slide rod fixedly connected to one side of the phosphating pool 101, a connecting plate 303 adapted to slide relative to the screw 302 and the slide rod, a diversion ring 304 fixedly connected to the two connecting plates 303, a diversion cover fixedly connected to an inner side of the diversion ring 304, and a fan 305 fixedly installed at one side of the phosphating pool 101, an output pipe of the fan 305 is connected to the diversion ring 304, the third motor 301 is started to drive the screw 302 to rotate, make connecting plate 303 rise or descend, water conservancy diversion ring 304 moves along with connecting plate 303, and fan 305 passes through the pipeline with outside wind and carries the water conservancy diversion ring 304 in, air-dries the silk rope after the immersion fluid through the kuppe afterwards, can accelerate phosphating solution conjunctiva speed on the silk rope then to can improve treatment effeciency.

Specifically, the diameter size of the guide ring 304 is larger than that of the hanging scaffold 210, the number of the guide covers is multiple, the guide covers are arranged into a ring array, and the guide covers are arranged so that air drying is more uniform and comprehensive, and the air drying quality is improved.

Example three:

with reference to fig. 4, 6, 7, 8 and 9, in the above embodiment, the aggregate mechanism 400 includes filter plates 401 fixed to two inner side walls of the phosphating tank 101, a collection box 402 disposed at the middle of the inner bottom wall of the phosphating tank 101, a plurality of filter holes arranged at the bottom of the collection box 402, and handles fixed to two sides of the collection box 402, the filter plates 401 on two sides are all arranged in an inclined manner, the two filter plates 401 are respectively located at two sides of the collection box 402, after used phosphating solution is discharged, the filter plates 401 filter impurities in the liquid, the impurities on the filter plates 401 slide into the collection box 402, and can collect the impurities, and then the impurities are not required to be manually cleaned, which is time-saving and labor-saving.

Specifically, the material collecting mechanism 400 further includes a fourth motor 403 fixedly mounted on the phosphating tank 101, a first driving shaft fixedly connected to an output end of the fourth motor 403, a driving wheel 404 sleeved on the first driving shaft, a second driving shaft rotatably mounted on one side in the phosphating tank 101, a driven wheel 405 sleeved on the second driving shaft and in transmission connection with the driving wheel 404 through a belt, a plurality of connecting sleeves 406 fixedly connected to the first driving shaft and the second driving shaft, a spring 407 fixedly connected in the connecting sleeve 406, and a push rod 408 fixedly connected to an end of the spring 407, the fourth motor 403 is started to drive the first driving shaft to rotate, the driving wheel 404 rotates along with the first driving shaft, the driving wheel 404 drives the driven wheel 405 to rotate through the belt, the second driving shaft rotates along with the driven wheel 405, the push rod 408 rotates along with the first driving shaft and the second driving shaft, the push rod 408 on the connecting sleeve 406 impacts the filter plate 401, subsequently, the ejector rod 408 extrudes the spring 407 to enable the spring 407 to contract, the ejector rod 408 rotates to the other side, the ejector rod 408 resets, the filter plate 401 can be continuously impacted, impurities remained on the filter plate 401 can slide into the collection box 402, and accordingly the cleaning effect can be improved.

Example four:

referring to fig. 1 and 10, in the above embodiment, the backflow mechanism 500 includes a pump body 501 fixedly mounted on the phosphating tank 101, a receiving groove 504 provided on one side of the phosphating tank 101, a recovery box 503 fixedly connected to the outer side wall of the phosphating tank 101, and a shunt tube 502 fixedly connected to the output end of the pump body 501, ends of the shunt tube 502 respectively extend into the recovery box 503 and the receiving groove 504, an output tube on the other side of the pump body 501 extends into the phosphating tank 101, the immersed rope rotates above the receiving groove 504, the dripped liquid drips into the recovery box 503 and the receiving groove 504, and the pump body 501 starts to deliver the dripped liquid into the phosphating tank 101 again through the shunt tube 502, so that the dripped liquid can be recovered and utilized, thereby saving the cost and avoiding the waste of resources.

The working principle and the using process of the invention are as follows: firstly, a worker hangs a wire rope on a hook 211, a second motor 206 is started to drive a connecting shaft to rotate, a worm 207 rotates along with the connecting shaft, the worm 207 is meshed with a worm gear 208 for transmission, the worm 207 drives a rotating shaft to rotate through the worm gear 208, a winding roller 209 rotates along with the rotating shaft to wind the connecting rope, then the wire rope hung on the hook 211 below a hanging plate 210 is pulled to ascend, then a first motor 201 is started to drive a driving gear 202 to rotate, the driving gear 202 is meshed with a transmission gear 203 for transmission, the driving gear 202 drives a transmission shaft 204 to rotate through the transmission gear 203, a shell 205 rotates along with the transmission shaft 204, then the positions of the wire ropes on two sides of the shell 205 can be changed, then the second motor 206 drives the transmission shaft to rotate reversely, the wire rope on one side is immersed into phosphating solution in a phosphating tank 101, meanwhile, the wire rope on the other side also descends, and the worker can treat the reacted wire rope, then taking down the cable, and then hanging the untreated silk rope;

in the process that the immersed wire rope rotates to the position above the receiving groove 504, the dropped liquid drops into the recovery box 503 and the receiving groove 504, the pump body 501 is started to convey the dropped liquid into the phosphating tank 101 again through the shunt pipe 502, the third motor 301 is started to drive the screw 302 to rotate, so that the connecting plate 303 rises or falls, the guide ring 304 moves along with the connecting plate 303, the fan 305 conveys external wind into the guide ring 304 through a pipeline, and then the immersed wire rope is dried through the guide cover;

after the used phosphating solution is discharged, the filter plate 401 filters impurities in the solution, the impurities on the filter plate 401 slide into the collection box 402, the fourth motor 403 is started to drive the first driving shaft to rotate, the driving wheel 404 rotates along with the first driving shaft, the driving wheel 404 drives the driven wheel 405 to rotate through a belt, the second driving shaft rotates along with the driven wheel 405, the ejector rod 408 rotates along with the first driving shaft and the second driving shaft, the ejector rod 408 on the connecting sleeve 406 impacts the filter plate 401, the ejector rod 408 extrudes the spring 407 to enable the spring 407 to shrink, the ejector rod 408 rotates to the other side to reset the ejector rod 408, the filter plate 401 can be impacted uninterruptedly, the impurities remained on the filter plate 401 can slide into the collection box 402, and then the collection box 402 can be taken out by a worker.

In the present invention, the term "plurality" means two or more unless explicitly defined otherwise. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

It will be understood that when an element is referred to as being "mounted to," "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.