CN114558936B - Stamping equipment for producing metal filter screen of water purifying equipment and using method - Google Patents

Abstract

The stamping equipment for producing the metal filter screen of the water purifying equipment and the use method belong to the technical field of filter screen stamping, and aim to solve the problems that the existing equipment can only stamp one filter screen at a time when stamping is carried out, the production efficiency is slow, the operation of the existing traction device is complex, the filter screen stamped before is taken out, and the production efficiency and the continuity of mechanical operation are greatly delayed; according to the invention, the double-headed motor is meshed with the second meshing wheel through the first meshing wheel to drive the driving sprocket to rotate, the driving sprocket drives the chain to rotate, at the moment, the fixed shaft moves in the sliding groove and drives the first sliding plate to reciprocate back and forth, the first sliding plate drives the sliding block to reciprocate back and forth in the first limiting groove through the sliding rod, the pressing rod is extruded in the sliding block moving process, the pressing plate at the bottom of the pressing rod is enabled to be downwards close to the left side of the pressing plate and press the filter screen, and in the invention, a row of filter screens can be continuously punched through the movement of the sliding block, so that the steps of moving the filter screen back and forth are reduced, and the punching efficiency is improved.

Description

Stamping equipment for producing metal filter screen of water purifying equipment and using method

Technical Field

The invention relates to the technical field of filter screen stamping, in particular to stamping equipment for producing a metal filter screen of water purifying equipment and a using method thereof.

Background

The metal filter screen is formed by adopting a plurality of layers of expanded aluminum foil screens or stainless steel screens as special filter materials of the filter, rolling the filter materials into a wave-shaped screen shape, and overlapping the filter materials at right angles; the multi-layer folding expansion is to arrange the multi-layer folding expansion from thick to thin with different densities and pore diameters, so that the flowing direction of the object is changed multiple times when the object passes through, and the efficiency of the object is increased.

The metal filter screen that uses among the water purification unit is the shape that punches into fixed size with the filter screen of semi-manufactured goods in the in-process of production, however, current equipment can only punch a slice filter screen in the time of punching press, the punching press is repeated through the position that removes the filter screen after the punching press is accomplished, production efficiency is slow, and need remove the filter screen through draw gear after the punching press of a row of filter screen is accomplished, current draw gear operation is comparatively loaded down with trivial details, in addition before carrying out the punching press of next time, need take out the filter screen that the punching press was accomplished before, production efficiency and mechanical operation's continuity has been greatly delayed.

To solve the above problems. Therefore, the stamping equipment for producing the metal filter screen of the water purifying equipment and the using method are provided.

Disclosure of Invention

The invention aims to provide stamping equipment for producing a metal filter screen of water purifying equipment and a using method thereof, which solve the problems that in the prior art, when stamping is carried out, the existing equipment can only stamp one filter screen at a time, stamping is repeatedly carried out by moving the position of the filter screen after stamping is finished, the production efficiency is slow, the filter screen needs to be moved by a traction device after stamping of a row of filter screens is finished, the operation of the existing traction device is complicated, and in addition, the filter screen which is stamped before stamping is finished needs to be taken out before the next stamping is carried out, so that the production efficiency and the continuity of mechanical operation are greatly delayed.

In order to achieve the above purpose, the present invention provides the following technical solutions: the stamping equipment for the production of the metal filter screen of the water purifying equipment comprises a supporting mechanism and a stamping mechanism, a traction mechanism and a blanking mechanism which are arranged on the supporting mechanism, wherein the supporting mechanism comprises a workbench, a first roller and a second roller which are respectively arranged on two sides of the top of the workbench, the stamping mechanism comprises a supporting component, a driving component and a stamping component, the supporting component comprises struts fixedly connected with the front and the rear of the top of the workbench, a beam is fixedly connected with the upper part of the inner side of each strut, a first limit groove is arranged in the beam, a second limit groove which is communicated with the first limit groove is arranged on two sides of the beam, and penetrating slide grooves which are communicated with the first limit groove are uniformly distributed at the bottom of the beam;

the stamping assembly comprises a sliding block which is slidably connected in the first limiting groove, the cross section of the sliding block is elliptical, two sides of the sliding block are fixedly connected with sliding rods, two groups of the sliding rods respectively penetrate through second limiting grooves on two sides of the cross beam, the other ends of the sliding rods are fixedly connected with first sliding plates, the first sliding plates are provided with sliding grooves, the stamping assembly further comprises a pressing rod which is slidably connected in the penetrating sliding grooves, the bottom of the pressing rod is fixedly connected with a pressing plate, a limiting disc is arranged on the pressing rod, a reset spring is sleeved on the pressing rod, and the reset spring is positioned between the limiting disc and the outer wall of the bottom of the cross beam;

the drive assembly includes the backup pad of fixed connection at crossbeam both sides outer wall, rotate respectively around the inboard of backup pad and be connected with drive sprocket and drive sprocket, the cover is equipped with the chain between drive sprocket and the drive sprocket, and fixedly connected with fixed axle on the chain, fixed axle sliding connection is in the sliding tray, drive assembly still includes the gomphosis setting at the double-end motor of crossbeam top rear end, the equal fixedly connected with first meshing wheel of both sides output of double-end motor, the outside of drive sprocket runs through the backup pad through the axle and is connected with the second meshing wheel, and the second meshing wheel is connected with first meshing wheel meshing.

Further, the traction mechanism comprises a traction assembly, a ratchet assembly and a pressing assembly, wherein the traction assembly comprises a fixing plate fixedly connected to the front and the rear of the top of the workbench, and a hydraulic device is fixedly connected to one side, close to the support column, of the fixing plate.

Further, the ratchet assembly comprises a shell fixedly connected to the output end of the hydraulic device, sleeves are arranged on the upper portion and the lower portion of the shell, first springs are fixedly connected to the upper inner wall and the lower inner wall of the shell, and the two groups of first springs are fixedly connected with the two groups of sleeves.

Further, the inner wall of the sleeve is fixedly connected with a limiting block, a first ratchet gear is connected to the limiting block in a sliding mode, a second spring is arranged between the first ratchet gear and the inner wall of the sleeve, and a second ratchet gear corresponding to the first ratchet gear is further arranged in the sleeve.

Further, the pressing component comprises a first rubber roller and a second rubber roller, two ends of the first rubber roller and two ends of the second rubber roller are respectively fixedly connected with two groups of corresponding second ratchet gears, and the first rubber roller is located above the second rubber roller.

Further, be provided with horizontal spout around the inside of workstation, still be provided with the arc spout that is linked together with horizontal spout around the inside of workstation, unloading mechanism includes rotating assembly and linkage subassembly, and linkage subassembly includes sliding connection at the inside second sliding plate of horizontal spout, and the one end fixed connection of second sliding plate is on the outer wall of casing.

Further, the rotating assembly comprises pressing plates movably arranged between the two groups of the support posts, a blanking groove corresponding to the pressing plates is arranged on the workbench, two ends of the pressing plates are rotatably connected to the inner sides of the support posts through rotating shafts, and the position, close to the left side, of the pressing plates corresponds to the position below the pressing plates.

Further, the front and back fixedly connected with arc piece of clamp plate, arc piece sliding connection is in the arc spout, and one side evenly distributed of arc piece has the tooth's socket.

Further, the bottom fixedly connected with rack of second sliding plate, the inside rotation of workstation is connected with first straight gear, and first straight gear is connected with the rack meshing, and the inboard fixedly connected with of first straight gear is with the second straight gear of tooth's socket engaged with.

The invention provides another technical scheme that: the application method of the stamping equipment for producing the metal filter screen of the water purifying equipment comprises the following steps:

s1: the filter screen on the first roller passes through the space between the pressing plate and the rotating assembly after being pulled by the traction mechanism, the filter screen is punched by the punching mechanism, the punched filter screen is subjected to blanking by the blanking mechanism, and the punched filter screen leftover materials are collected by the second roller;

s2: the hydraulic device stretches out in the traction process, a ratchet structure is formed between the first ratchet gear and the second ratchet gear, at the moment, the first rubber roller cannot rotate clockwise, and the second rubber roller cannot rotate anticlockwise, so that under the action of the first rubber roller and the second rubber roller, the filter screen is pulled and moves to the pressure plate and the rotating assembly;

s3: in the process of stamping, the double-headed motor drives the chain to rotate, the fixed shaft on the chain finally drives the sliding block to reciprocate in the first limiting groove and sequentially downwards extrudes the pressing rod, so that the pressing plate sequentially downwards stamps the filter screen, the hydraulic device retracts after the stamping is finished, the ratchet wheel structure formed between the first ratchet wheel gear and the second ratchet wheel gear enables the first rubber roller to rotate anticlockwise on the surface of the filter screen, and the second rubber roller can rotate clockwise on the surface of the filter screen;

s4: intermittent traction can be achieved through extension and retraction of the hydraulic device, the pressing plate is driven to rotate through the linkage assembly in the retracting process of the hydraulic device, and the punched filter screen falls down through the blanking groove to be collected in the rotating process of the pressing plate, so that all the using steps are completed.

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

1. the utility model provides a stamping equipment and application method for water purification unit metal filter screen production, start the double-end motor when punching press, the double-end motor passes through first meshing wheel meshing second meshing wheel and drives the drive sprocket rotation, the drive sprocket drives the chain and rotates, the fixed axle is at the sliding tray internal motion and drive first sliding plate back-and-forth movement this moment, first sliding plate passes through the slide bar and drives the slider and reciprocate in the inside of first spacing groove, the in-process extrusion depression bar that the slider removed, make the pressure disk of depression bar bottom press next to the left side of clamp plate downwards and punch the filter screen, can be continuous punching press a row of filter screen through the motion of slider, compared traditional punching press mode, the step of filter screen back-and-forth movement has been reduced, the efficiency of punching press has been promoted.

2. The stamping equipment for producing the metal filter screen of the water purifying equipment and the use method thereof are characterized in that after one stamping, the hydraulic device is retracted, a ratchet structure is formed between the first ratchet gear and the second ratchet gear in the retraction process of the hydraulic device, so that the first rubber roller can rotate anticlockwise, the second rubber roller can rotate clockwise, the surfaces of the first rubber roller and the second rubber roller rotate, the filter screen is not driven to move leftwards, the hydraulic press stretches out after the withdrawal, and at the in-process that stretches out, the ratchet principle between first ratchet gear and the second ratchet gear makes first rubber roller can not clockwise turn, and the second rubber roller can not anticlockwise turn, pulls the filter screen to right side motion under the state of first rubber roller and second rubber roller clamp filter screen this moment, conveniently carries out the punching press of next process, compares traditional traction mode, simple operation.

3. When one-time stamping is completed, as the hydraulic device needs to retract, the shell drives the second sliding plate to move leftwards in the retracting process of the hydraulic device, the second sliding plate drives the first straight gear and the second straight gear to rotate clockwise in the moving process of the second sliding plate to move leftwards, the second straight gear is meshed with the tooth groove and drives the pressing plate to rotate around the rotating shaft, the pressed filter screen falls from the blanking groove after the pressing plate rotates, blanking is realized, the production efficiency and the mechanical operation continuity are improved, and after the hydraulic device stretches out, the pressing plate resets, most pressure is born by the rotating shaft when the pressing plate is pressed by the pressing plate in the stamping process, and the pressing plate cannot rotate.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a split view of the overall structure of the present invention;

FIG. 3 is a schematic view of a stamping mechanism according to the present invention;

FIG. 4 is an exploded view of the drive assembly of the present invention;

FIG. 5 is a schematic view of a portion of the stamping assembly of the present invention;

FIG. 6 is a cross-sectional view of the beam structure of the present invention;

FIG. 7 is a schematic diagram of the traction mechanism and the blanking mechanism of the present invention;

FIG. 8 is a schematic diagram of a traction mechanism according to the present invention;

FIG. 9 is a schematic view of the traction assembly and ratchet assembly of the present invention;

FIG. 10 is an exploded view of the ratchet assembly of the present invention;

FIG. 11 is a schematic view of a rotating assembly according to the present invention;

fig. 12 is an exploded view of the rotary and linkage assembly configuration of the present invention.

In the figure: 1. a support mechanism; 11. a work table; 111. a transverse chute; 112. an arc chute; 113. discharging groove; 12. a first roll; 13. a second roll; 2. a punching mechanism; 21. a support assembly; 211. a support post; 212. a cross beam; 2121. a first limit groove; 2122. the second limit groove; 2123. penetrating through the chute; 22. a drive assembly; 221. a double-ended motor; 222. a first engagement wheel; 223. a support plate; 224. a drive sprocket; 225. a drive sprocket; 226. a second engagement wheel; 227. a chain; 228. a fixed shaft; 23. a punching assembly; 231. a compression bar; 232. a limiting disc; 233. a return spring; 234. a pressure plate; 235. a slide block; 236. a slide bar; 237. a first sliding plate; 2371. a sliding groove; 3. a traction mechanism; 31. a traction assembly; 311. a fixing plate; 312. a hydraulic device; 32. a ratchet assembly; 321. a housing; 322. a first spring; 323. a sleeve; 3231. a limiting block; 3232. a second spring; 3233. a first ratchet gear; 3234. a second ratchet gear; 33. a compression assembly; 331. a first rubber roller; 332. a second rubber roller; 4. a blanking mechanism; 41. a rotating assembly; 411. a pressing plate; 412. a rotating shaft; 413. an arc-shaped block; 414. tooth slots; 42. a linkage assembly; 421. a second sliding plate; 422. a rack; 423. a first straight gear; 424. a second spur gear.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to solve the technical problems that the existing equipment can only punch one filter screen at a time when punching, and repeatedly punch the filter screen by moving the position of the filter screen after punching is completed, the production efficiency is slow, as shown in fig. 1-6, the following preferable technical scheme is provided:

stamping equipment is used in production of water purification unit metal filter screen, including supporting mechanism 1 and the stamping mechanism 2 of setting on supporting mechanism 1, traction mechanism 3 and unloading mechanism 4, supporting mechanism 1 includes workstation 11 and sets up first roller 12 and second roller 13 in workstation 11 top both sides respectively, stamping mechanism 2 includes supporting component 21, drive component 22 and stamping component 23, supporting component 21 includes pillar 211 around the top of workstation 11 fixed connection, the inboard top fixedly connected with crossbeam 212 of two sets of pillar 211, the inside of crossbeam 212 is provided with first spacing groove 2121, the both sides of crossbeam 212 are provided with the second spacing groove 2122 that is linked together with first spacing groove 2121, the bottom evenly distributed of crossbeam 212 has the run through spout 2123 that is linked together with first spacing groove 2121.

The punching assembly 23 comprises a sliding block 235 which is slidably connected inside a first limit groove 2121, the cross section of the sliding block 235 is elliptical, two sides of the sliding block 235 are fixedly connected with sliding rods 236, two groups of sliding rods 236 respectively penetrate through second limit grooves 2122 on two sides of the cross beam 212, the other ends of the sliding rods 236 are fixedly connected with a first sliding plate 237, a sliding groove 2371 is formed in the first sliding plate 237, the punching assembly 23 further comprises a pressing rod 231 which is slidably connected in a penetrating groove 2123, the bottom of the pressing rod 231 is fixedly connected with a pressing plate 234, the pressing rod 231 is provided with a limit disc 232, a reset spring 233 is sleeved on the pressing rod 231, and the reset spring 233 is located between the limit disc 232 and the outer wall of the bottom of the cross beam 212.

The driving assembly 22 comprises a supporting plate 223 fixedly connected to the outer walls of the two sides of the beam 212, a driving sprocket 224 and a driving sprocket 225 are respectively connected to the front and the rear of the inner side of the supporting plate 223 in a rotating mode, a chain 227 is sleeved between the driving sprocket 224 and the driving sprocket 225, a fixed shaft 228 is fixedly connected to the chain 227, the fixed shaft 228 is slidably connected to the sliding groove 2371, the driving assembly 22 further comprises a double-headed motor 221 which is embedded in the rear end of the top of the beam 212, the output ends of the two sides of the double-headed motor 221 are fixedly connected with first meshing wheels 222, the outer side of the driving sprocket 225 penetrates through the supporting plate 223 through a shaft and is connected with second meshing wheels 226, and the second meshing wheels 226 are meshed with the first meshing wheels 222.

Specifically, when punching is performed, the double-headed motor 221 is started, the double-headed motor 221 is meshed with the second meshing wheel 226 through the first meshing wheel 222 to drive the driving sprocket 225 to rotate, the driving sprocket 225 drives the chain 227 to rotate, at the moment, the fixed shaft 228 moves in the sliding groove 2371 and drives the first sliding plate 237 to reciprocate back and forth, the first sliding plate 237 drives the sliding block 235 to reciprocate back and forth in the first limiting groove 2121 through the sliding rod 236, the pressing rod 231 is extruded in the moving process of the sliding block 235, the pressing plate 234 at the bottom of the pressing rod 231 is pressed downwards to be close to the left side of the pressing plate 411 and presses a filter screen, a row of filter screens can be continuously pressed through the movement of the sliding block 235, and compared with the traditional punching mode, the step of moving the filter screen back and forth is reduced.

In order to solve the technical problem that the screen needs to be moved by the traction device after the stamping of a row of screens is completed, the operation of the existing traction device is complicated, as shown in fig. 7-10, the following preferable technical scheme is provided:

the traction mechanism 3 comprises a traction assembly 31, a ratchet assembly 32 and a pressing assembly 33, wherein the traction assembly 31 comprises a fixed plate 311 fixedly connected to the front and rear of the top of the workbench 11, one side, close to the supporting column 211, of the fixed plate 311 is fixedly connected with a hydraulic device 312, the ratchet assembly 32 comprises a shell 321 fixedly connected to the output end of the hydraulic device 312, sleeves 323 are arranged on the upper and lower parts of the inside of the shell 321, first springs 322 are fixedly connected to the upper and lower inner walls of the shell 321, and the first springs 322 of the two groups are fixedly connected with the sleeves 323 of the two groups.

The inner wall of sleeve 323 is all fixedly connected with stopper 3231, sliding connection has first ratchet gear 3233 on the stopper 3231, is provided with second spring 3232 between first ratchet gear 3233 and the sleeve 323 inner wall, and the inside of sleeve 323 still is provided with the second ratchet gear 3234 corresponding with first ratchet gear 3233, compresses tightly subassembly 33 and includes first rubber roller 331 and second rubber roller 332, and the both ends of first rubber roller 331 and second rubber roller 332 respectively with two sets of corresponding second ratchet gear 3234 fixed connection around, and first rubber roller 331 is located the top of second rubber roller 332.

Specifically, after the primary punching is completed, the hydraulic press 312 is retracted, in the process of retracting the hydraulic press 312, a ratchet structure is formed between the first ratchet gear 3233 and the second ratchet gear 3234, so that the first rubber roller 331 can rotate anticlockwise, the second rubber roller 332 can rotate clockwise, the first rubber roller 331 and the second rubber roller 332 press the surface of the filter screen to rotate, the filter screen cannot be driven to move leftwards, the hydraulic press 312 is retracted and then extends out, in the extending process, the ratchet principle between the first ratchet gear 3233 and the second ratchet gear 3234 enables the first rubber roller 331 to not rotate clockwise, the second rubber roller 332 cannot rotate anticlockwise, and at the moment, the filter screen is pulled to move rightwards under the state that the first rubber roller 331 and the second rubber roller 332 clamp the filter screen, so that the next punching process is facilitated.

In order to solve the technical problems that the filter screen which is punched before the next punching is required to be taken out, the production efficiency and the continuity of mechanical operation are greatly delayed, as shown in fig. 11-12, the following preferable technical scheme is provided:

the inside of workstation 11 is provided with horizontal spout 111 around, still be provided with the arc spout 112 that is linked together with horizontal spout 111 around the inside of workstation 11, unloading mechanism 4 includes rotating assembly 41 and linkage assembly 42, linkage assembly 42 includes sliding connection at the inside second sliding plate 421 of horizontal spout 111, and the one end fixed connection of second sliding plate 421 is on the outer wall of casing 321, rotating assembly 41 is including the clamp plate 411 that the activity set up between the pillar 211 of two sets of, be provided with the unloading groove 113 corresponding with clamp plate 411 on the workstation 11, the both ends of clamp plate 411 pass through axis of rotation 412 rotation connection in the inboard of pillar 211, and the position of leaning on left side of clamp plate 411 corresponds with pressure disk 234 below position.

The front and back fixedly connected with arc piece 413 of clamp plate 411, arc piece 413 sliding connection is in arc spout 112, and one side evenly distributed of arc piece 413 has tooth groove 414, and the bottom fixedly connected with rack 422 of second sliding plate 421, the inside rotation of workstation 11 is connected with first straight gear 423, and first straight gear 423 is connected with rack 422 meshing, and the inboard fixedly connected with of first straight gear 423 is with the second straight gear 424 of tooth groove 414 meshing.

Specifically, when one stamping is completed, since the hydraulic press 312 needs to retract, during the retracting process of the hydraulic press 312, the casing 321 drives the second sliding plate 421 to move to the left, during the moving process of the second sliding plate 421 to the left, the first straight gear 423 and the second straight gear 424 are driven to rotate clockwise, the second straight gear 424 engages the tooth slot 414 and drives the pressing plate 411 to rotate around the rotation shaft 412, after the pressing plate 411 rotates, the pressed filter screen falls from the blanking slot 113, and after the hydraulic press 312 extends out, the pressing plate 411 is reset, and during the pressing process, the pressing plate 234 presses the pressing plate 411, most of the pressing force is borne by the rotation shaft 412 and the pressing plate 411 cannot rotate.

In order to further better explain the above examples, the invention also provides an embodiment, and the method for using the stamping equipment for producing the metal filter screen of the water purifying equipment comprises the following steps:

step one: the filter screen on the first roller 12 passes through the space between the pressing disc 234 and the rotating component 41 after being pulled by the traction mechanism 3, is stamped by the stamping mechanism 2, the stamped filter screen is subjected to blanking by the blanking mechanism 4, and the stamped filter screen scraps are collected by the second roller 13;

step two: the hydraulic device 312 stretches out in the traction process, a ratchet structure is formed between the first ratchet gear 3233 and the second ratchet gear 3234, at the moment, the first rubber roller 331 cannot rotate clockwise, the second rubber roller 332 cannot rotate anticlockwise, and therefore under the action of the first rubber roller 331 and the second rubber roller 332, the filter screen is pulled and moves to the pressure plate 234 and the rotating assembly 41;

step three: in the process of stamping, the double-headed motor 221 drives the chain 227 to rotate, the fixed shaft 228 on the chain 227 finally drives the sliding block 235 to reciprocate in the first limit groove 2121 and sequentially downwards extrudes the pressing rod 231, so that the pressing plate 234 sequentially downwards stamps the filter screen, after the stamping is finished, the hydraulic press 312 retracts, a ratchet structure is formed between the first ratchet gear 3233 and the second ratchet gear 3234, so that the first rubber roller 331 can rotate anticlockwise on the surface of the filter screen, and the second rubber roller 332 can rotate clockwise on the surface of the filter screen;

step four: intermittent traction can be achieved through extension and retraction of the hydraulic device 312, the pressing plate 411 is driven to rotate through the linkage assembly 42 in the retracting process of the hydraulic device 312, and the punched filter screen falls and is collected through the blanking groove 113 in the rotating process of the pressing plate 411, so that all the using steps are completed.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims (4)

1. Stamping equipment is used in production of water purification unit metal filter screen, including supporting mechanism (1) and stamping mechanism (2), traction mechanism (3) and unloading mechanism (4) of setting on supporting mechanism (1), its characterized in that: the supporting mechanism (1) comprises a workbench (11) and a first roller (12) and a second roller (13) which are respectively arranged at two sides of the top of the workbench (11), the stamping mechanism (2) comprises a supporting component (21), a driving component (22) and a stamping component (23), the supporting component (21) comprises struts (211) which are fixedly connected with the front and the back of the top of the workbench (11), two groups of struts (211) are fixedly connected with a beam (212) above the inner side, a first limit groove (2121) is arranged in the beam (212), second limit grooves (2122) which are communicated with the first limit grooves (2121) are arranged at two sides of the beam (212), and penetrating slide grooves (2123) which are communicated with the first limit grooves (2121) are uniformly distributed at the bottom of the beam (212);

the stamping assembly (23) comprises a sliding block (235) which is slidably connected inside a first limiting groove (2121), the cross section of the sliding block (235) is elliptical, two sides of the sliding block (235) are fixedly connected with sliding rods (236), two groups of sliding rods (236) respectively penetrate through second limiting grooves (2122) on two sides of the cross beam (212), the other ends of the sliding rods (236) are fixedly connected with a first sliding plate (237), the first sliding plate (237) is provided with a sliding groove (2371), the stamping assembly (23) further comprises a pressing rod (231) which is slidably connected in a penetrating groove (2123), the bottom of the pressing rod (231) is fixedly connected with a pressing plate (234), limiting discs (232) are arranged on the pressing rod (231), reset springs (233) are sleeved on the pressing rod (231), and the reset springs (233) are located between the limiting discs (232) and the outer walls of the bottoms of the cross beam (212).

The driving assembly (22) comprises a supporting plate (223) fixedly connected to the outer walls of the two sides of the cross beam (212), a driving sprocket (224) and a driving sprocket (225) are respectively connected to the front side and the rear side of the inner side of the supporting plate (223) in a rotating mode, a chain (227) is sleeved between the driving sprocket (224) and the driving sprocket (225), a fixed shaft (228) is fixedly connected to the chain (227), the fixed shaft (228) is slidably connected in a sliding groove (2371), the driving assembly (22) further comprises a double-headed motor (221) which is embedded and arranged at the rear end of the top of the cross beam (212), the output ends of the two sides of the double-headed motor (221) are fixedly connected with first meshing wheels (222), the outer side of the driving sprocket (225) penetrates through the supporting plate (223) through shafts and is connected with second meshing wheels (226), and the second meshing wheels (226) are meshed and connected with the first meshing wheels (222).

The traction mechanism (3) comprises a traction assembly (31), a ratchet assembly (32) and a compression assembly (33), wherein the traction assembly (31) comprises a fixed plate (311) fixedly connected to the front and rear of the top of the workbench (11), and a hydraulic device (312) is fixedly connected to one side, close to the support column (211), of the fixed plate (311);

the ratchet assembly (32) comprises a shell (321) fixedly connected to the output end of the hydraulic device (312), sleeves (323) are arranged in the shell (321) in an up-down mode, first springs (322) are fixedly connected to the upper inner wall and the lower inner wall of the shell (321), and two groups of the first springs (322) are fixedly connected with the two groups of the sleeves (323);

the automatic feeding and discharging device comprises a workbench (11), wherein a transverse sliding groove (111) is formed in the front and the rear of the interior of the workbench (11), an arc-shaped sliding groove (112) communicated with the transverse sliding groove (111) is formed in the front and the rear of the interior of the workbench (11), a discharging mechanism (4) comprises a rotating assembly (41) and a linkage assembly (42), the linkage assembly (42) comprises a second sliding plate (421) which is connected inside the transverse sliding groove (111) in a sliding manner, and one end of the second sliding plate (421) is fixedly connected to the outer wall of a shell (321);

the rotating assembly (41) comprises pressing plates (411) movably arranged between the two groups of the support posts (211), a blanking groove (113) corresponding to the pressing plates (411) is arranged on the workbench (11), two ends of each pressing plate (411) are rotatably connected to the inner sides of the support posts (211) through rotating shafts (412), and the position, close to the left side, of each pressing plate (411) corresponds to the position, below the pressing plate (234);

the front and the back of the pressing plate (411) are fixedly connected with arc blocks (413), the arc blocks (413) are slidably connected in the arc sliding grooves (112), and tooth grooves (414) are uniformly distributed on one side of the arc blocks (413);

the bottom fixedly connected with rack (422) of second sliding plate (421), the inside rotation of workstation (11) is connected with first straight gear (423), and first straight gear (423) are connected with rack (422) meshing, and the inboard fixedly connected with of first straight gear (423) is with second straight gear (424) of tooth's socket (414) meshing.

2. The stamping device for producing a metal filter screen of a water purifying device as claimed in claim 1, wherein: the inner wall of sleeve (323) is all fixedly connected with stopper (3231), and sliding connection has first ratchet gear (3233) on stopper (3231), is provided with second spring (3232) between first ratchet gear (3233) and sleeve (323) inner wall, and the inside of sleeve (323) still is provided with second ratchet gear (3234) corresponding with first ratchet gear (3233).

3. The stamping device for producing a metal filter screen of a water purifying device as claimed in claim 2, wherein: the pressing component (33) comprises a first rubber roller (331) and a second rubber roller (332), two ends of the first rubber roller (331) and the second rubber roller (332) are fixedly connected with two groups of second ratchet gears (3234) corresponding to each other in front-back mode, and the first rubber roller (331) is located above the second rubber roller (332).

4. A method of using the stamping device for producing a metal filter screen of a water purification device as claimed in claim 3, comprising the steps of:

s1: the filter screen on the first roller (12) passes through the space between the pressing plate (234) and the rotating component (41) after being pulled by the traction mechanism (3), is stamped by the stamping mechanism (2), the stamped filter screen is subjected to blanking by the blanking mechanism (4), and the stamped filter screen scraps are collected by the second roller (13);

s2: the hydraulic device (312) stretches out in the traction process, a ratchet structure is formed between the first ratchet gear (3233) and the second ratchet gear (3234), the first rubber roller (331) cannot rotate clockwise at the moment, the second rubber roller (332) cannot rotate anticlockwise, and therefore the filter screen is pulled and moved to the pressure plate (234) and the rotating assembly (41) under the action of the first rubber roller (331) and the second rubber roller (332);

s3: in the process of stamping, the double-headed motor (221) drives the chain (227) to rotate, the fixed shaft (228) on the chain (227) finally drives the sliding block (235) to reciprocate in the first limit groove (2121) and sequentially downwards extrudes the pressing rod (231), so that the pressing plate (234) sequentially downwards stamps the filter screen, after the stamping is finished, the hydraulic press (312) retracts, a ratchet structure is formed between the first ratchet gear (3233) and the second ratchet gear (3234), the first rubber roller (331) can anticlockwise rotate on the surface of the filter screen, and the second rubber roller (332) can clockwise rotate on the surface of the filter screen;

s4: intermittent traction can be achieved through extension and retraction of the hydraulic device (312), the hydraulic device (312) is retracted, the pressing plate (411) is driven to rotate through the linkage assembly (42), and in the rotating process of the pressing plate (411), the punched filter screen falls down through the blanking groove (113) to be collected, so that all using steps are completed.