阅读说明：本技术 用于玻璃生产制造的除泡耐热输送设备 (Bubble-removing heat-resisting conveying equipment for glass production and manufacturing ) 是由 葛祖根 陆晔 宋庆 于 2021-10-26 设计创作，主要内容包括：本发明提供一种用于玻璃生产制造的除泡耐热输送设备,涉及玻璃生产技术领域,解决了对玻璃进行退火冷却时,但现有的承载装置长时间使用后,会产生热量积攒,无法有效释放,导致承载装置耐热效果差的问题,包括底座结构,所述底座结构放置在地面上,底座结构上端设置有承载装置,承载装置的内部安装有散热结构；所述散热结构包括有：散热架,所述散热架为片状结构,散热架呈阵列方式排布,底端开有弧形槽,散热架的弧形槽与承载架处弧形槽相互吻合,散热架固定在承载架内,承载架的散热架,有利于散热架与承载架之间的热量传递,通过设置为片状阵列排布的散热架,增加了散热架的散热效果。(The invention provides bubble-removing heat-resistant conveying equipment for glass production and manufacturing, relates to the technical field of glass production, and solves the problem that when glass is annealed and cooled, heat generated by an existing bearing device is accumulated and cannot be effectively released after the existing bearing device is used for a long time, so that the heat-resistant effect of the bearing device is poor; the heat radiation structure comprises: the heat dissipation frame, the heat dissipation frame is the lamellar structure, and the heat dissipation frame is the array mode and arranges, and open the bottom has the arc wall, and the arc wall of heat dissipation frame is identical each other with the arc wall of bearing frame department, and the heat dissipation frame is fixed in bearing the frame, bears the heat dissipation frame of frame, is favorable to the heat dissipation frame and bears the heat transfer between the frame, through setting up the heat dissipation frame of arranging for the lamellar array, has increased the radiating effect of heat dissipation frame.)

1. A bubble-removing heat-resistant conveying equipment for glass production and manufacturing is characterized in that: comprising a base structure (1); the heat dissipation device comprises a base structure (1), wherein the base structure (1) is placed on the ground, a bearing device (2) is arranged at the upper end of the base structure (1), and a heat dissipation structure (3) is arranged inside the bearing device (2); the heat dissipation structure (3) comprises: the heat dissipation frame (301) is of a sheet structure, the heat dissipation frames (301) are arranged in an array mode, an arc-shaped groove is formed in the bottom end of each heat dissipation frame (301), the arc-shaped grooves of the heat dissipation frames (301) are matched with the arc-shaped grooves at the bearing frame (201), and the heat dissipation frames (301) are fixed in the bearing frame (201); heat dissipation fan (302), position about heat dissipation frame (301) is installed in heat dissipation fan (302), and three groups heat dissipation fan (302) are all installed to each end of heat dissipation frame (301), are provided with six groups heat dissipation fan (302) altogether.

2. The mounting structure (4) is slidably mounted on the bearing device (2), and a cleaning structure (5) is fixed at the bottom of the mounting structure (4); the cleaning device comprises a transmission assembly (6), wherein the transmission assembly (6) is arranged on the outer walls of the front end and the rear end of the cleaning structure (5), and a sliding structure (7) is arranged at the position of the transmission assembly (6) at the same time.

3. The de-bubbling heat-resistant conveying apparatus for glass production manufacturing of claim 1, wherein: the base structure (1) comprises: bottom plate (101), bottom plate (101) are the rectangular plate structure, and bottom plate (101) left and right sides position sets up to protruding structure, and protruding structure is the array mode and arranges.

4. The de-bubbling heat-resistant conveying apparatus for glass production manufacturing of claim 2, wherein: the carrying device (2) comprises: the cross section of the bearing frame (201) is of an arch structure, and arc-shaped grooves are formed in the bottoms of the front end and the rear end of the bearing frame (201); the bearing plate (202), terminal downward chamfer processing is all done to bearing plate (202) left and right sides, and bearing plate (202) are fixed in the top surface of bearing frame (201), and side spout (203) have been seted up to the front and back end position of bearing frame (201), and side spout (203) are horizontal bilayer structure.

5. A de-bubbling heat-resistant conveyor apparatus for glass production manufacturing according to claim 3, wherein: the mounting structure (4) comprises: the mounting plate (401) is of a vertical plate structure, two groups of inner sliding plates are arranged on the inner side face of the lower end of the mounting plate (401), the mounting plate (401) is slidably mounted on the side sliding groove (203) through the inner sliding plates, two groups of inclined mounting grooves are formed in the top of the mounting plate (401), and the mounting plate (401) is arranged into two groups which are symmetrical front and back; the cross section of the guide plate (402) is of a triangular structure, and the mounting plates (401) are connected between the two groups of mounting plates (401); the pressing wheels (403), two groups of pressing wheels (403) are arranged, and the pressing wheels (403) are rotatably arranged on the mounting plate (401).

6. The de-bubbling heat-resistant conveying apparatus for glass production manufacturing according to claim 4, wherein: the cleaning structure (5) comprises: the bottom sliding frame (501) is of a frame structure, the bottom sliding frame (501) is arranged in an array structure, the bottom sliding frame (501) arranged in an array structure is fixedly connected with the bottom, the distance between every two bottom sliding frames (501) is matched with the heat dissipation frame (301), and the bottom sliding frame (501) is fixed on the mounting plate (401).

7. The de-bubbling heat-resistant conveying apparatus for glass production manufacturing according to claim 5, wherein: the cleaning structure (5) further comprises: the brush rod (502), there are brush hairs on the brush rod (502), the brush rod (502) is installed in left and right end position of the carriage (501) of the bottom rotatably, there are gears at the bottom of the brush rod (502), the brush rod (502) bottom on the adjacent carriage (501) of the bottom is connected and transmitted each other through the drive belt (504); the transmission bar (503) is of a long-strip structure, the transmission bar (503) is fixed on the bottom plate (101), a tooth row is arranged on the transmission bar (503), and the tooth row of the transmission bar (503) is meshed with the gear at the bottom of the first group of brush rods (502).

8. The de-bubbling heat-resistant conveying apparatus for glass production manufacturing according to claim 6, wherein: the transmission assembly (6) comprises: the sliding plate (604), the sliding plate (604) is a waist-round structure, the sliding plate (604) is installed on the mounting plate (401) in a sliding manner; the outer gear (601), the outer gear (601) is provided with two groups altogether, two groups of outer gears (601) are rotatably installed at the outermost end of the sliding plate (604), the outer wall of the outer gear (601) is provided with gear teeth, and the two groups of outer gears (601) are in a mutual meshing structure; driven wheels (603), the driven wheels (603) are of a grooved wheel structure, four groups of driven wheels (603) are arranged, two groups of driven wheels (603) are arranged on the pressure wheel (403), and the other two groups of driven wheels (603) are arranged on the inner side of the external gear (601).

9. The de-bubbling heat-resistant conveying apparatus for glass production manufacturing of claim 7, wherein: the sliding structure (7) comprises: the connecting plates (701) are of a oval plate structure, the connecting plates (701) are arranged into two groups, the roots of the connecting plates (701) are hinged to the sliding plate (604), the outer wall of the root of the connecting plate (701) is of a gear tooth structure, the two groups of connecting plates (701) are meshed with each other through the gear tooth structure, and the tail ends of the connecting plates (701) are provided with oval structure openings; the fixing plate (702), the fixing plate (702) is T-shaped structure, the fixing plate (702) is installed on the outer end of two sets of connecting plates (701), two sets of chutes are clamped on the extension rod of the fixing plate (702), and the extension rod is provided with an auxiliary block; connecting rod (703), connecting rod (703) are articulated to be installed in connecting plate (701) intermediate position, and the terminal slidable mounting of connecting rod (703) is in the spout of extension rod, and two sets of connecting rod (703) ends are provided with the teeth of a cogwheel of intermeshing, and two sets of connecting plate (701) ends are provided with the sliding shaft towards the outer end.

10. The de-bubbling heat-resistant conveying apparatus for glass production manufacturing of claim 8, wherein: the sliding structure (7) further comprises: the connecting device comprises connecting blocks (704), the connecting blocks (704) are installed on sliding shafts of two groups of connecting rods (703), adjusting shafts (705) are installed at the left ends of the connecting blocks (704) in a rotating mode, and the adjusting shafts (705) are installed on auxiliary blocks of a fixing plate (702) in a screwing mode.

Technical Field

The invention belongs to the technical field of glass production, and particularly relates to a bubble-removing heat-resistant conveying device for glass production and manufacturing.

Background

Glass is a modern widely-used material, is an amorphous inorganic non-metallic material, is generally a transparent object which takes various inorganic minerals as main raw materials and has hard and brittle glass texture, and is generally prepared by mixing quartz sand, limestone, sodium carbonate and the like, melting at high temperature, molding and cooling.

Based on the above, the production of the glass needs to finish the pressurization of the melted liquid glass, and the annealing and cooling of the glass are needed, but after the existing bearing device is used for a long time, heat is generated and accumulated, and the heat cannot be effectively released, so that the problem that the heat-resistant effect of the bearing device is poor is caused.

In view of the above, the present invention provides a defoaming heat-resistant conveying apparatus for glass production, which is developed and improved in view of the existing structure and defects, so as to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides a bubble-removing heat-resistant conveying device for glass production and manufacturing, which aims to solve the problems that molten liquid glass needs to be pressurized in the glass production process, the glass needs to be annealed and cooled, but after the existing bearing device is used for a long time, heat is accumulated and cannot be effectively released, and the heat-resistant effect of the bearing device is poor.

The invention is used for the purpose and the effect of the bubble-removing heat-resisting conveying equipment for producing and manufacturing glass, and is achieved by the following specific technical means: a de-bubbling heat-resistant conveying equipment for glass production and manufacture comprises a base structure; the base structure is placed on the ground, a bearing device is arranged at the upper end of the base structure, and a heat dissipation structure is arranged in the bearing device; the heat radiation structure comprises: the heat dissipation frame is of a sheet structure, the heat dissipation frames are arranged in an array mode, an arc-shaped groove is formed in the bottom end of each heat dissipation frame, the arc-shaped grooves of the heat dissipation frames are matched with the arc-shaped grooves at the bearing frame, and the heat dissipation frames are fixed in the bearing frame; the heat dissipation fan is arranged at the left end position and the right end position of the heat dissipation frame, three groups of heat dissipation fans are arranged at each end of the heat dissipation frame, and six groups of heat dissipation fans are arranged; the mounting structure is slidably mounted on the bearing device, and a cleaning structure is fixed at the bottom of the mounting structure; the transmission assembly is arranged on the outer walls of the front end and the rear end of the cleaning structure, and the position of the transmission assembly is simultaneously provided with a sliding structure.

Further, the base structure includes: the bottom plate, bottom plate are the rectangular plate structure, and the position sets up to protruding structure about the bottom plate, and protruding structure is the array mode and arranges.

Further, the carrying device comprises: the cross section of the bearing frame is of an arch structure, and the bottoms of the front end and the rear end of the bearing frame are provided with arc grooves; the bearing plate, terminal downward chamfer processing all is done to the loading plate about, and the top surface at bearing frame is fixed to the loading plate, and the side spout has been seted up to the front and back end position of bearing frame, and the side spout is horizontal bilayer structure.

Further, the mounting structure includes: the mounting plate is of a vertical plate structure, two groups of inner sliding plates are arranged on the inner side surface of the lower end of the mounting plate, the mounting plate is slidably mounted on the side sliding groove through the inner sliding plates, two groups of inclined mounting grooves are formed in the top of the mounting plate, and the mounting plate is arranged in two groups which are symmetrical front and back; the cross section of the guide plate is in a triangular structure, and the mounting plates are connected between the two groups of mounting plates; the pinch rollers are arranged in two groups, and the pinch rollers are rotatably arranged on the mounting plate.

Further, the clearance structure includes: the bottom sliding frames are of a frame structure and are arranged in an array structure, the bottom sliding frames arranged in the array structure are fixedly connected through the bottoms, the interval between every two groups of bottom sliding frames is matched with the heat dissipation frame, and the bottom sliding frames are fixed on the mounting plate; the brush rod is provided with brush bristles and is rotatably arranged at the left end position and the right end position of the bottom carriage, the bottom of the brush rod is provided with a gear, and the bottoms of the brush rods on the adjacent bottom carriages are mutually connected and driven through a driving belt; the transmission strip is of a long strip structure and is fixed on the bottom plate, a tooth row is arranged on the transmission strip, and the tooth row of the transmission strip is meshed with the gear at the bottom of the first group of brush rods.

Further, the transmission assembly comprises: the sliding plate is of a waist-round structure and is arranged on the mounting plate in a sliding manner; the outer gears are provided with two groups of outer gears, the two groups of outer gears are rotatably arranged at the outermost end of the sliding plate, gear teeth are arranged on the outer walls of the outer gears, and the two groups of outer gears are of a mutual meshing structure; driven wheels are of a grooved wheel structure, four groups of driven wheels are arranged, two groups of driven wheels are arranged on the pressing wheel, and the other two groups of driven wheels are arranged on the inner side of the outer gear.

Further, the sliding structure includes: the connecting plates are of a kidney-shaped plate structure, the connecting plates are arranged into two groups, the root parts of the connecting plates are hinged to the sliding plate, the outer walls of the root parts of the connecting plates are of gear tooth structures, the two groups of connecting plates are mutually meshed through the gear tooth structures, and the tail ends of the connecting plates are provided with kidney-shaped structure openings; the fixing plate is of a T-shaped structure and is arranged at the outer ends of the two groups of connecting plates, two groups of chutes are clamped on the extension rod of the fixing plate, and the extension rod is provided with an auxiliary block; the connecting rods are hinged to the middle positions of the connecting plates, the tail ends of the connecting rods are slidably mounted in the sliding grooves of the extension rods, the tail ends of the two groups of connecting rods are provided with mutually meshed gear teeth, and the tail ends of the two groups of connecting plates are provided with sliding shafts facing outwards; the connecting block, the connecting block is installed on the sliding shaft of two sets of connecting rods, and the connecting block left end is rotated and is installed the regulating spindle, and the regulating spindle is twisted and is connect and install on the supplementary piece of fixed plate.

Compared with the prior art, the invention has the following beneficial effects: in the heat dissipation structure, the bearing frame with the arched cross section is favorable for clamping the heat dissipation structure, the bottoms of the front end and the rear end of the bearing frame are arranged into the arc-shaped grooves, so that the installation of the cleaning structure is convenient, the bearing plate is fixed on the top surface of the bearing frame, the bearing plate is favorable for directly transferring the received heat to the bearing frame, the heat resistance and heat dissipation effects are achieved, the heat dissipation frame of the bearing frame is favorable for transferring the heat between the heat dissipation frame and the bearing frame, the heat dissipation effect of the heat dissipation frame is improved by arranging the heat dissipation frame in a sheet array arrangement, and the auxiliary air flow effect of the heat dissipation frame by the heat dissipation fans is improved by arranging six groups of heat dissipation fans at the left end position and the right end position of the heat dissipation frame.

According to the cleaning structure, the frame body of the bottom sliding frame can slide at the bottom of the heat dissipation frame through the bottom sliding frame matched with the heat dissipation frame, the bottom sliding frame is fixed on the mounting plate, the bottom sliding frame is driven to slide when the mounting plate moves through the bottom sliding frame fixed on the mounting plate, so that the auxiliary cleaning of dust in the heat dissipation frame is achieved, the brush rods mounted are rotated through the symmetrical structure, the cleaning of the heat dissipation frame by the brush rods at intervals is increased, the common movement of the adjacent transmission belts is achieved by connecting the bottoms of the adjacent brush rods with the transmission belts, the transmission bars are mounted at the gear positions at the bottoms of the brush rods, the meshing transmission between the transmission bars and the gears is facilitated, the rotation of the brush rods in the movement is achieved, and the better cleaning effect of the interior of the heat dissipation frame is achieved.

According to the transmission assembly, the outer gear is arranged at the outermost end of the sliding plate, the sliding structure is favorably arranged at the interval position between the sliding plate and the outer gear, the outer gears are in meshed transmission, the effect that the outer gears synchronously and symmetrically move is achieved, the driven wheel with the groove structure is convenient to install a belt, and the belt mainly plays a role in transmission between the outer gear and the pressing wheel.

In the sliding structure, the synchronous effect of the connecting plates during swinging is realized through the connecting plates with mutually meshed roots, the tail ends of the connecting plates are provided with the openings with the oval structures, the opening of the oval structures at the tail ends of the connecting plates is favorable for the connecting plates to assist in controlling the opening and closing motion and adjustment of the pinch rollers, the connecting plates and the fixing plate form a supporting structure through the connecting rods, the connecting plates and the fixing plate, the sliding connecting rods support the connecting plates outwards to achieve the position adjustment effect of the connecting plates on the pinch rollers, the connecting blocks are installed on the connecting rods to control the connecting rods in the same way, the left ends of the connecting blocks are rotatably provided with the adjusting shafts, the adjusting shafts are screwed on the auxiliary blocks of the fixing plate, and the adjusting shafts installed on the auxiliary blocks are screwed to facilitate the adjustment of the connecting rods by the too expensive adjusting shafts and achieve the adjustment of the spacing between the pinch rollers by the sliding structure.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic cross-sectional view of the heat dissipation frame of the present invention.

Fig. 3 is a schematic view of the bottom carriage configuration of the present invention.

Fig. 4 is a schematic structural diagram of a base plate and a heat dissipation fan of the present invention.

FIG. 5 is a schematic view of the mounting plate and the pressing wheel structure of the present invention.

Fig. 6 is a schematic view of the sliding structure of the present invention.

Fig. 7 is a schematic view of the sliding plate and the sliding structure of the present invention.

Fig. 8 is a schematic view of the adjusting shaft and connecting rod structure of the present invention.

Fig. 9 is a schematic view of the present invention at a part enlarged in fig. 2.

Fig. 10 is a partial enlarged structural view of the invention at B in fig. 4.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows: 1. a base structure; 101. a base plate; 2. a carrying device; 201. a carrier; 202. a carrier plate; 203. a side chute; 3. a heat dissipation structure; 301. a heat dissipation frame; 302. a heat dissipation fan; 4. a mounting structure; 401. mounting a plate; 402. a guide plate; 403. a pinch roller; 5. cleaning the structure; 501. a bottom carriage; 502. a brush bar; 503. a drive bar; 504. a transmission belt; 6. a transmission assembly; 601. an outer gear; 602. a belt; 603. a driven wheel; 604. a sliding plate; 7. a sliding structure; 701. a connecting plate; 702. a fixing plate; 703. a connecting rod; 704. connecting blocks; 705. an adjustment shaft.

Detailed Description

Example (b): as shown in figures 1 to 10: the invention provides a defoaming heat-resistant conveying device for glass production and manufacturing, which comprises a base structure 1; the device comprises a base structure 1, wherein the base structure 1 is placed on the ground, a bearing device 2 is arranged at the upper end of the base structure 1, and a heat dissipation structure 3 is arranged in the bearing device 2; the heat dissipation structure 3 includes: the heat dissipation frame 301 is of a sheet structure, the heat dissipation frames 301 are arranged in an array mode, the bottom ends of the heat dissipation frames 301 are provided with arc-shaped grooves, the arc-shaped grooves of the heat dissipation frames 301 are matched with the arc-shaped grooves at the position of the bearing frame 201, the heat dissipation frames 301 are fixed in the bearing frame 201, the heat dissipation frames 301 of the bearing frame 201 are beneficial to heat transfer between the heat dissipation frames 301 and the bearing frame 201, and the heat dissipation effect of the heat dissipation frames 301 is improved through the heat dissipation frames 301 arranged in the sheet array mode; the heat dissipation fans 302 are arranged at the left end position and the right end position of the heat dissipation frame 301, three groups of heat dissipation fans 302 are arranged at each end of the heat dissipation frame 301, six groups of heat dissipation fans 302 are arranged, and the auxiliary air flow effect of the heat dissipation fans 302 on the heat dissipation frame 301 is increased by arranging the six groups of heat dissipation fans 302 at the left end position and the right end position of the heat dissipation frame 301.

Wherein, base structure 1 is including: bottom plate 101, bottom plate 101 is the rectangular plate structure, and the end position sets up to protruding structure about bottom plate 101, and protruding structure is the array mode and arranges, through the bottom plate 101 of rectangular plate structure, has increased the direct contact on bottom plate 101 and ground, has increased the stability of bottom plate 101, through the protruding structure of end position about bottom plate 101, is favorable to protruding structure to bearing device 2's support, is the protruding structure that the array was arranged, helps supporting heat radiation structure 3.

Wherein, load bearing device 2 includes: the cross section of the bearing frame 201 is of an arch structure, arc-shaped grooves are formed in the bottoms of the front end and the rear end of the bearing frame 201, the heat dissipation structure 3 can be clamped conveniently by the aid of the bearing frame 201 with the arch structure in cross section, and the cleaning structure 5 can be mounted conveniently by arranging the bottoms of the front end and the rear end of the bearing frame 201 into the arc-shaped grooves; bearing plate 202, terminal downward chamfer processing is all done about bearing plate 202, bearing plate 202 is fixed at the top surface of bearing frame 201, through fixing bearing plate 202 at the top surface of bearing frame 201, be favorable to the direct transmission of heat that bearing plate 202 will receive to bearing frame 201, reach heat-resisting and radiating effect, side spout 203 has been seted up to the front and back end position of bearing frame 201, side spout 203 is horizontal bilayer structure, side spout 203 through horizontal bilayer structure, be favorable to mounting structure 4's installation to slide.

Wherein, mounting structure 4 is including: the mounting plate 401 is of a vertical plate structure, two groups of inner sliding plates are arranged on the inner side face of the lower end of the mounting plate 401, the mounting plate 401 is slidably mounted on the side sliding groove 203 through the inner sliding plates, the stabilizing effect of the mounting plate 401 is improved through the mounting plate 401 mounted by the two groups of inner sliding plates, two groups of inclined mounting grooves are formed in the top of the mounting plate 401, and the mounting plate 401 is arranged into two groups which are symmetrical front and back; the guide plates 402 are of triangular structures at the cross sections of the guide plates 402, the mounting plates 401 are connected between the two groups of mounting plates 401, and the guide effect of the guide plates 402 on the flow direction of the liquid glass is increased by the guide plates 402 with triangular cross sections; two groups of pressing wheels 403 are arranged, and the pressing wheels 403 are rotatably arranged on the mounting plate 401.

The specific use mode and function of the embodiment are as follows: when the invention is used, firstly, because the liquid glass flows to the rotating pressing wheel 403 through the guide plate 402, the pressing wheel 403 can extrude the liquid glass to complete the primary forming of the glass, the formed glass can fall on the bearing plate 202, the bearing plate 202 can bear the extruded glass, so that the bearing plate 202 can bear higher temperature, and the bearing plate 202 is required to have good heat-resistant effect, thereby the bearing plate 202 is directly and tightly fixed on the bearing frame 201, the heat-radiating frame 301 is arranged at the bottom of the bearing frame 201, and the heat-radiating frame 301 and the bearing frame 201 are tightly attached to each other, so that the heat of the bearing plate 202 can be better transferred to the heat-radiating frame 301, the heat-radiating effect on the bearing plate 202 is achieved, and the bearing plate 202 has better heat resistance.

Second embodiment: the mounting structure 4 is slidably mounted on the bearing device 2, and a cleaning structure 5 is fixed at the bottom of the mounting structure 4; wherein, clearance structure 5 is including: end balladeur train 501, end balladeur train 501 is frame construction, end balladeur train 501 is the array construction and arranges, the end balladeur train 501 that the array was arranged is connected fixedly through the bottom, every end balladeur train 501 interval of group coincide with heat dissipation frame 301, through the end balladeur train 501 with heat dissipation frame 301 is anastomotic each other, the support body that has realized end balladeur train 501 can slide in heat dissipation frame 301 bottom, end balladeur train 501 is fixed on mounting panel 401, through with the end balladeur train 501 of fixing on mounting panel 401, it slides to drive end balladeur train 501 when having realized mounting panel 401 motion, reached the supplementary clearance to the dust in the heat dissipation frame 301.

Wherein, clearance structure 5 still including: the brush rods 502 are provided with bristles, the brush rods 502 are rotatably arranged at the left end position and the right end position of the bottom carriage 501, gears are arranged at the bottoms of the brush rods 502, the bottoms of the brush rods 502 on the adjacent bottom carriages 501 are mutually connected and driven through a transmission belt 504, the brush rods 502 rotatably arranged through a symmetrical structure increase the clearance of the brush rods 502 on the heat dissipation frame 301 at intervals, and the bottoms of the adjacent brush rods 502 are connected with the transmission belt 504, so that the common movement of the transmission belt 504 between the adjacent parts is realized; the transmission strip 503 is of a long-strip structure, the transmission strip 503 is fixed on the bottom plate 101, a tooth row is arranged on the transmission strip 503, the tooth row of the transmission strip 503 is meshed with the gear at the bottom of the first group of brush rods 502, the transmission strip 503 is installed at the position of the gear at the bottom of the brush rods 502, meshing transmission between the transmission strip 503 and the gear is facilitated, the brush rods 502 in motion can rotate, and the effect of better cleaning the inside of the heat dissipation frame 301 is achieved.

The specific use mode and function of the embodiment are as follows: the heat dissipation fan 302 mainly plays a role in providing heat dissipation for the heat dissipation frame 301, but the heat dissipation frame 301 dissipating heat through the heat dissipation fan 302 for a long time can accumulate certain dust inside, which causes the problem of poor heat dissipation effect of the heat dissipation frame 301 in the later period, the bottom carriage 501 is arranged at the bottom of the heat dissipation frame 301, the bottom carriages 501 are in an array structure, each group of bottom carriages 501 can be mutually staggered with the heat dissipation frame 301, the bottom carriages 501 are uniformly fixed on the mounting plate 401, the bottom carriages 501 can slide along with the mounting plate 401, the sliding mounting plate 401 can be realized, the bottom carriages 501 are driven to clean the heat dissipation frame 301 in an auxiliary way, the left end and the right end of each bottom carriage 501 are respectively rotatably provided with the brush rods 502, the front and the rear adjacent brush rods 502 are connected through the transmission belt 504, the gears at the bottoms of the brush rods 502 are mutually meshed with the transmission bars 503 fixed on the bottom plate 101, when the bottom carriages 501 slide along with the mounting plate 401, the bottoms of the brush rods 502 can rotate through the transmission bars 503, the better cleaning effect on the interval position of the heat dissipation frame 301 is realized.

The third embodiment: the transmission assembly 6 is arranged on the outer walls of the front end and the rear end of the cleaning structure 5, and the sliding structure 7 is arranged at the position of the transmission assembly 6.

Wherein, transmission assembly 6 includes: the sliding plate 604 is of a waist-round structure, the sliding plate 604 is slidably mounted on the mounting plate 401, and the pressing wheel 403 can be conveniently adjusted through the sliding plate 604 slidably mounted on the mounting plate 401; the outer gears 601 are provided with two groups of outer gears 601, the two groups of outer gears 601 are rotatably installed at the outermost end of the sliding plate 604, the outer wall of the outer gear 601 is provided with gear teeth, the two groups of outer gears 601 are in an intermeshing structure, the outer gears 601 are installed at the outermost end of the sliding plate 604, so that the sliding structure 7 can be installed at a position between the sliding plate 604 and the outer gears 601 at intervals, and the outer gears 601 can synchronously and symmetrically move through intermeshing transmission; driven wheel 603, driven wheel 603 are groove wheel structure, driven wheel 603 is provided with four groups altogether, two sets of driven wheels 603 are installed on pinch roller 403, two sets of driven wheels 603 are installed in external gear 601 inboard, through groove structure's driven wheel 603, realized driven wheel 603 and conveniently installed belt 602, belt 602 mainly plays the transmission effect between external gear 601 and pinch roller 403.

Wherein, sliding structure 7 includes: the connecting plates 701 are waist-circle-shaped plates 701, the connecting plates 701 are arranged in two groups, the roots of the connecting plates 701 are hinged to the sliding plate 604, the outer walls of the roots of the connecting plates 701 are arranged in gear tooth structures, the two groups of connecting plates 701 are meshed with each other through the gear tooth structures, the synchronous effect of the connecting plates 701 during swinging is achieved through the connecting plates 701 with the roots meshed with each other, the tail ends of the connecting plates 701 are provided with waist-circle-shaped structure holes, and the opening and closing of the pressing wheels 403 are controlled by the aid of the connecting plates 701 in an auxiliary mode; the fixing plate 702 is of a T-shaped structure, the fixing plate 702 is installed at the outer ends of the two groups of connecting plates 701, two groups of sliding grooves are clamped on an extension rod of the fixing plate 702, and an auxiliary block is arranged on the extension rod; connecting rod 703, connecting rod 703 articulates and installs in connecting plate 701 intermediate position, and the terminal slidable mounting of connecting rod 703 is in the spout of extension rod, through connecting rod 703, connecting plate 701 constitutes bearing structure with fixed plate 702, has realized that sliding connection rod 703 outwards supports connecting plate 701, reaches the position adjustment effect of connecting plate 701 to pinch roller 403, and two sets of connecting rod 703 ends are provided with the teeth of a cogwheel of intermeshing, and two sets of connecting plate 701 ends are provided with the sliding shaft towards the outer end.

Wherein, sliding structure 7 still includes: connecting block 704, connecting block 704 is installed on the sliding shaft of two sets of connecting rods 703, through installing connecting block 704 on connecting rod 703, the same control of connecting block 704 to connecting rod 703 has been realized, connecting block 704 left end is rotated and is installed regulation axle 705, regulation axle 705 connects to twist and installs on the supplementary piece of fixed plate 702, connect the regulation axle 705 of installing on supplementary piece through twisting, be favorable to too expensive regulation axle 705 to realize the adjustment to connecting rod 703, reach sliding construction 7 and to pinch roller 403's interval adjustment.

The specific use mode and function of the embodiment are as follows: in order to ensure that two groups of pressing wheels 403 can extrude liquid in a bag more frequently and to facilitate adjustment of the distance between the pressing wheels 403, the two groups of pressing wheels 403 are connected and controlled with a transmission assembly 6 through a sliding structure 7, a connecting plate 701, a fixing plate 702 and two external gears 601 are sequentially arranged on a sliding plate 604 which is slidably arranged, two groups of external gears 601 which are meshed with each other are arranged on the sliding plate 604, and are connected with a driven wheel 603 of the pressing wheels 403 through a belt 602 to achieve synchronous symmetrical rotation effect on the pressing wheels 403, so that the wave liquid can be processed better, the fixing plate 702 is of a T-shaped structure and can be simultaneously slidably arranged with two groups of connecting rods 703, the fixing plate 702 and the connecting plate 701 form a supporting structure, the effect of outward supporting the connecting plate 701 can be achieved through the sliding connecting rods 703, an adjusting shaft 705 which is screwed on an auxiliary head of the fixing plate 702 can realize control on the connecting block 704 through rotation, the connecting block 704 is installed at the end of the connecting rod 703, so that the swinging angle of the connecting plate 701 can be realized by rotating the adjusting shaft 705, and the purpose of controlling the opening and closing angle of the sliding structure 7 to the pressing wheel 403 is achieved.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.