CN116331883B - Full-automatic card punching equipment - Google Patents

Abstract

The utility model relates to a fashioned technical field of plastics card especially relates to a full-automatic towards card equipment, which comprises a base, the frame is including the operation panel, the input department of operation panel is provided with the storage frame, the neat pile of thin plastic sheet is listed as in the storage frame, the frame is close to the top of storage frame and is provided with the mount pad, the middle part of mount pad is provided with gets material actuating assembly, the bottom of mount pad is provided with gets material sucking disc, get material actuating assembly's output and get material sucking disc and assemble mutually, install material loading actuating assembly on the frame, the roof of mount pad is assembled mutually with material loading actuating assembly, material loading actuating assembly is used for transporting the thin plastic sheet that adsorbs on getting material sucking disc to the top surface of operation panel, the unblockability when can improving thin plastic sheet material loading reduces the condition of thin plastic sheet pile material loading, improve material loading efficiency, guarantee the production quality of plastics card.

Description

Full-automatic card punching equipment

Technical Field

The application relates to the technical field of plastic card molding, in particular to full-automatic card punching equipment.

Background

In the production process of plastic cards, a large-sized thin plastic plate is usually taken, the thin plastic plate is placed between a blanking cutter and a stamping die of a blanking die, the blanking cutter is used for blanking towards the thin plastic plate, so that through holes are formed in the thin plastic plate, the plastic cards and contour scraps with specified specifications are obtained, operators sort out the plastic cards and the contour scraps respectively, the plastic cards are transported to production equipment in the next process, and the contour scraps are removed.

Most of the main components of the thin plastic plates are polyolefin, oxidation-reduction reaction can be carried out when polyethylene encounters air, then the surface of the plastic becomes sticky, so that vacuum sealing states are formed between two thin plastic plates which are overlapped, the two thin plastic plates are not easy to separate, in the prior art, manual feeding or mechanical arm feeding is usually adopted, but the two thin plastic plates which are overlapped are not easy to separate, and the problems of low efficiency of manual feeding and influence on production quality when the mechanical arm is overlapped and fed exist.

Disclosure of Invention

In order to improve smoothness during feeding of the thin plastic plates, the application provides full-automatic card punching equipment, which can reduce the situation of overlapping and feeding of the thin plastic plates, improve feeding efficiency and ensure production quality of plastic cards.

The application provides a full-automatic towards card equipment adopts following technical scheme:

the utility model provides a full-automatic card equipment that dashes, includes the frame, the frame is including the operation panel, the input department of operation panel is provided with the storage frame, and the neat pile of thin plastic sheet is in the storage frame, the frame is close to the top of storage frame is provided with the mount pad, the middle part of mount pad is provided with gets material drive assembly, the bottom of mount pad is provided with gets material sucking disc, get material drive assembly's output with get material sucking disc and assemble mutually, install material loading drive assembly on the frame, the roof of mount pad with material loading drive assembly assembles mutually, material loading drive assembly is used for transporting the thin plastic sheet of adsorbing on getting material sucking disc to the top surface of operation panel.

Through adopting above-mentioned technical scheme, the orderly range of thin plastic slab is at the storage rack, can standardize the storage position of thin plastic slab, make the material loading position of thin plastic slab fixed, be favorable to improving the convenience of getting the material, the mount pad provides the supporting role for getting the material actuating assembly, can drive the material sucking disc under the drive of getting the material actuating assembly and snatch thin plastic slab, shake the thin plastic slab that is picked up by the material sucking disc simultaneously, make the thin plastic slab of arranging in the bottom can shake down rapidly, realize the material separation function, reduce the condition that thin plastic slab fold the material loading, guarantee the production quality of plastics card, under the effect of material loading actuating assembly, can easily transport the thin plastic slab of adsorbing on the material sucking disc to the top surface of operation panel, smoothness when having improved the thin plastic slab material loading, material loading efficiency has been improved.

Preferably, the middle part of mount pad has run through and has been seted up the thing groove, the top of mount pad, distribution rotate between two opposite long limit lateral walls and be connected with the connecting axle, the length center of connecting axle is fixed with the belt pulley, get material actuating assembly and include and get material driving motor, it fixes to get material driving motor's lateral wall the mount pad, get material driving motor's output with the one end of connecting axle is assembled mutually, the outer wall of belt pulley is equipped with connecting belt, connecting belt keep away from the one end of belt pulley with get material sucking disc and assemble mutually.

Through adopting above-mentioned technical scheme, when getting material driving motor corotation, the connecting axle drives the belt pulley and rotates clockwise, simultaneously, connecting belt is lengthened, make the bottom of getting material sucking disc offset with the top surface of thin plastic sheet and press, and then snatch thin plastic sheet, otherwise, when getting material driving motor is reversed, connecting axle drives the belt pulley anticlockwise rotation, simultaneously, connecting belt shortens, thereby it upwards promotes to drive to get material sucking disc and by its absorptive thin plastic sheet, the positive reversal of repeated getting material driving motor, connecting belt has good buffering shock attenuation characteristic, under connecting belt's inertial action, can shake the thin plastic sheet that gets material sucking disc and snatch, make the thin plastic sheet of placing in the bottom can shake fast and fall, realize the material separation function, reduce the condition that thin plastic sheet piles up the material, guarantee the production quality of plastic card.

Preferably, the material taking sucker comprises a material sucking body and a material taking rack, the material sucking body is fixed on the bottom wall of the material taking rack, the material sucking body is vertically arranged, the bottom end of the material sucking body is aligned with the top surface of the thin plastic plate, the material taking rack comprises a material taking sliding block, the material taking sliding block is arranged at the top of the material sucking body and is in sliding connection with the material placing groove, and a damping spring is assembled between the material taking sliding block and the connecting shaft.

Through adopting above-mentioned technical scheme, get material slider and put thing groove between sliding connection, make and get material sucking disc more steadily carry out the motion of vertical direction, promptly, can promote the thin plastic slab steadily or order about getting material sucking disc to press to the thin plastic slab in the storage rack, in addition, through getting and being equipped with damping spring between material slider and the connecting axle, can further improve the stability of getting material sucking disc when carrying out elevating movement, reach the effect of damping and making an uproar.

Preferably, the material storage rack comprises a fixed bottom frame, a limiting rod and a stop plate, the fixed bottom frame is arranged at the input end of the operation table, the limiting rod is vertically fixed at one side top surface of the fixed bottom frame, the stop plate is movably arranged on the machine base, the stop plate is distributed at one side of the machine base away from the operation table, the thin plastic plates are orderly piled up at the top surface of the fixed bottom frame, the stop plate is abutted with the long side wall of the thin plastic plates, and the limiting rod is abutted with the wide side wall of the thin plastic plates.

Through adopting above-mentioned technical scheme, the neat pile of thin plastic sheet is listed as the top surface at fixed chassis, and fixed chassis plays the supporting role for thin plastic sheet, and then separates thin plastic sheet and work ground, reduces the material and is polluted the phenomenon, guarantees production quality, and under the cooperation effect of stopping board and limiting plate, can carry out spacingly to the thin plastic sheet of pile at fixed chassis top surface, helps improving the stacking regularity of thin plastic sheet, guarantees the position accuracy of material loading.

Preferably, the material storage rack comprises a fixed baffle rod, the fixed baffle rod is fixed on the machine base, the fixed baffle rod is distributed on one side of the machine base away from the limiting rod, a connecting seat is detachable at the center of the top surface of the fixed baffle rod, a baffle is arranged on one side of the connecting seat close to the limiting rod, a baffle driving piece is arranged on the top surface of the connecting seat, and the output end of the baffle driving piece is assembled with the baffle.

Through adopting above-mentioned technical scheme, under the drive of baffle driving piece, the baffle can be easily to pile up the thin plastic slab that is listed as at fixed chassis top surface and draw close, until baffle and thin plastic slab looks butt, under inertial effect, thin plastic slab can be impacted by the vibrations residual force of baffle, to a certain extent, can tremble the thin plastic slab of scattering and baffle looks contact portion, make the thin plastic slab of this part can be easily snatched by getting material sucking disc, help improving material loading efficiency, improve the material loading smoothness, and, the baffle also can play spacing effect to thin plastic slab, make thin plastic slab be difficult for deviating from outside the storage frame.

Preferably, the frame is kept away from storage frame one side is provided with and compresses tightly head drive assembly, it fixes on the frame to compress tightly head drive assembly, it is in to compress tightly the assembly of head drive assembly's output, the bottom mounting of compressing tightly head has spherical pressure head, the top surface of the long edge of compressing tightly head alignment thin plastic sheet.

Through adopting above-mentioned technical scheme, after the thin plastic slab is transported to the operation panel, under the drive of compressing tightly head drive assembly, compressing tightly the head and can doing the ascending motion of vertical direction, namely, can compress tightly the long marginal top surface of thin plastic slab, and then straighten out straight part that the thin plastic slab wrinkled, keep smooth state before making thin plastic slab feeding to follow-up blanking process, moreover, compressing tightly the bottom mounting of head and having spherical pressure head, can reduce compressing tightly the head and hit the phenomenon of damaging thin plastic slab to a certain extent, guarantee the production quality of plastics card.

Preferably, the movable groove is respectively formed in the top surfaces of two long sides of the operation table, clamping hands are arranged in the movable groove, the two clamping hands are correspondingly clamped on two sides of the short edges of the thin plastic plate, a feeding driving assembly is arranged in the middle of the operation table, the output end of the feeding driving assembly is assembled with the clamping hands, and the feeding driving assembly is used for driving the clamping hands to move along the movable groove.

Through adopting above-mentioned technical scheme, two centre gripping hands correspond the short edge both sides of pressing from both sides tight thin plastic sheet, under the drive of pay-off drive assembly, the centre gripping hand removes along the removal groove to can push the thin plastic sheet of tiling at the operation panel top surface to the top surface of processing platform, the production process is more automatic, and efficiency is higher, helps reducing operating personnel's intensity of labour.

Preferably, a processing table is arranged on one side of the working table, the extending direction of the processing table is consistent with the conveying direction of the thin plastic plate, a guide structure is arranged on one side, close to the working table, of the processing table, the thin plastic plate passes through the space between the guide structure and the processing table, a pressing assembly and a blanking mechanism are arranged on the machine base, the pressing assembly is distributed between the guide structure and the blanking mechanism, the pressing assembly is used for locking the thin plastic plate, and the blanking mechanism is used for blanking the thin plastic plate.

Through adopting above-mentioned technical scheme, guide structure's setting can provide the guide effect for the process of centre gripping hand propelling movement thin plastic slab to processing bench top surface for the thin plastic slab on the processing bench top surface keeps the horizontality, under the effect of compressing tightly the subassembly, can compress tightly the input of thin plastic slab, with the processing stability who improves thin plastic slab, under blanking mechanism's effect, can blanking out the plastics card of appointed specification, the processing principle of plastics card is simple, need not operating personnel too much and intervenes, degree of automation is high, helps guaranteeing the production quality of plastics card.

Preferably, the top surface of the processing table is provided with a discharging base frame, the discharging base frame is distributed at the output end of the blanking mechanism, the middle part of the discharging base frame is rotationally connected with a discharging roller group, profile waste of the thin plastic plate passes through the middle part of the discharging roller group, one side of the discharging base frame is provided with a discharging driving piece, and the output end of the discharging driving piece is assembled with the discharging roller group.

Through adopting above-mentioned technical scheme, under the effect of the driving piece of unloading, make the roller group of unloading can rotate to can unload the profile waste material, reach the purpose of clear away the waste material fast, simultaneously, can reduce the profile waste material and block up in blanking mechanism, guarantee the production smoothness.

Preferably, the bottom of blanking mechanism is provided with the pushing track, pushing track's top surface is provided with the pushing block, and the plastics card is arranged in pushing track's top surface, pushing track's one side is provided with ejection of compact transmission band, install on the processing platform and push away material drive assembly, push away material drive assembly with the pushing block is assembled mutually, push away material drive assembly and order about the pushing block is followed pushing track removes, and will the plastics card is pushed off to on the ejection of compact transmission band.

Through adopting above-mentioned technical scheme, the plastics card drops to the pushing away on the material track from the blanking mouth, and pushing away material drive assembly orders about the material piece of pushing away and removes along pushing away the material track, and with plastics card propelling movement to ejection of compact transmission band on, operating personnel only need collect plastics card in ejection of compact transmission band department, has improved convenience and efficiency of collecting plastics card, moreover, operating personnel need not to stretch out the hand to the inside of processing platform or the inside collection plastics card of blanking mechanism, has improved production safety.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the thin plastic plates are orderly piled up on the material storage rack, so that the material loading position of the thin plastic plates is fixed, the convenience of material taking is improved, the material taking sucker can be driven to grab the thin plastic plates under the drive of the material taking driving assembly, meanwhile, the thin plastic plates grabbed by the material taking sucker are dithered, the thin plastic plates arranged at the bottom can be rapidly shaken off, the material separation function is realized, the situation that the thin plastic plates are piled up for material loading is reduced, and the production quality of plastic cards is ensured;

2. after the thin plastic plate is transported to the workbench, the pressing head can press the long edge top surface of the thin plastic plate under the driving of the pressing head driving assembly, so that the wrinkled part of the thin plastic plate is straightened, the thin plastic plate is kept in a smooth state before being fed, and the subsequent blanking process is facilitated;

3. the plastic card is collected to operating personnel in ejection of compact conveyer belt department, need not to reach the inside of processing platform or the inside collection plastic card of blanking mechanism, has improved convenience and the efficiency of collecting plastic card, has improved production safety.

Drawings

Fig. 1 is a schematic structural diagram of a card punching device in an embodiment of the present application.

Fig. 2 is a schematic structural view of a magazine according to an embodiment of the present application.

Fig. 3 is a schematic view showing a state where a thin plastic plate is laid flat on the top surface of a work table in the embodiment of the present application.

Fig. 4 is an enlarged view of a in fig. 3.

Fig. 5 is an assembly schematic diagram of the feeding driving assembly and the clamping hand according to the embodiment of the present application.

Fig. 6 is an enlarged view of B in fig. 3.

Fig. 7 is a rear view of fig. 1.

Fig. 8 is a schematic view of a plastic card placed on the top surface of the pushing track in the embodiment of the present application.

Fig. 9 is a schematic structural view of a pushing track in an embodiment of the present application.

Reference numerals illustrate: 1. a storage rack; 11. fixing the underframe; 12. a limit rod; 13. a stop plate; 14. fixing a baffle rod; 15. a connecting seat; 151. a connecting screw; 152. a baffle reinforcing seat; 153. a baffle driving cylinder; 154. a baffle;

1. a base; 21. a mounting base; 211. a storage groove; 22. a take-out drive assembly; 221. a material taking driving motor; 222. a connecting shaft; 223. a belt pulley; 224. a connecting belt; 23. a material taking sucker; 231. a suction body; 232. a material taking frame; 2321. a material taking slide block; 24. a compacting head; 241. a spherical indenter; 25. a pinch head drive assembly; 251. the compressing head drives the cylinder; 252. edge pressing blocks; 253. a connecting block; 254. the edge pressing block drives the air cylinder; 26. a feeding driving assembly; 261. a feeding guide rod; 262. a feeding transmission belt; 263. a feeding transmission gear; 264. a feeding transmission motor;

2. a work table; 31. clamping hands; 32. a feed drive assembly; 321. a moving groove; 322. a feeding assembly seat; 323. a feeding rotating shaft; 324. a feeding driving gear; 325. a feeding driving motor; 326. a feeding rack; 327. a telescopic cylinder;

3. a processing table; 41. a guide structure; 411. a guide bracket; 412. a guide plate; 413. an abutting plate; 42. a compression assembly; 421. a compacting cylinder; 422. a pressing head; 43. a blanking mechanism; 44. a discharge base frame; 441. a first discharge roller; 442. a second discharge roller; 443. a discharge driving motor; 45. a pushing track; 451. a first support rail; 452. a second support rail; 46. a pushing block; 47. a discharge conveyor belt;

5. a thin plastic plate; 51. a plastic card; 52. contour scrap.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-9.

The embodiment of the application discloses full-automatic card punching equipment.

Referring to fig. 1 and 2, a full-automatic card punching device comprises a machine base 2, the machine base 2 comprises a working table 3, a material storage rack 1 is arranged at the input end of the working table 3, thin plastic plates 5 are orderly piled up in the material storage rack 1, a processing table 4 is arranged on one side of the working table 3, the processing table 4 is arranged at the output end of the working table 3, the extending direction of the processing table 4 is consistent with the conveying direction of the thin plastic plates 5, a mounting seat 21 is arranged at the top of the machine base 2, which is close to the material storage rack 1, a material taking driving component 22 is arranged in the middle of the mounting seat 21, a material taking sucker 23 is arranged at the bottom of the mounting seat 21, the output end of the material taking driving component 22 is assembled with the material taking sucker 23, the thin plastic plates 5 can be grabbed by the material taking sucker 23 under the driving of the material taking driving component 22, and the thin plastic plates 5 grabbed by the material taking sucker 23 can be dithered.

Install material loading drive assembly 26 on frame 2, the roof of mount pad 21 assembles with material loading drive assembly 26 mutually, material loading drive assembly 26 is used for transporting the thin plastic slab 5 that adsorbs on getting material sucking disc 23 to the top surface of operation panel 3, and, movable groove 321 has been seted up respectively to the long limit top surface of operation panel 3, be provided with centre gripping hand 31 in the movable groove 321, the short edge both sides of the thin plastic slab 5 of two centre gripping hand 31 correspondence clamp, operation panel 3 middle part is provided with pay-off drive assembly 32, the output and the centre gripping hand 31 of pay-off drive assembly 32 assemble mutually, under the effect of pay-off drive assembly 32, can drive centre gripping hand 31 and remove along movable groove 321, until the thin plastic slab 5 of tiling at operation panel 3 surface propelling movement to the surface of processing platform 4.

The guide structure 41 is installed to one side that processing platform 4 is close to operation platform 3, make thin plastic slab 5 pass from between guide structure 41 and the processing platform 4, be provided with hold-down subassembly 42 and blanking mechanism 43 on frame 2, hold-down subassembly 42 distributes between guide structure 41 and blanking mechanism 43, through the effect of hold-down subassembly 42, can lock the position of thin plastic slab 5, through the effect of blanking mechanism 43, can carry out blanking to thin plastic slab 5, and then obtain the plastics card 51 and the profile waste material 52 of appointed specification, the processing principle of plastics card 51 is simple, need not operating personnel too much to intervene, degree of automation is high.

Referring to fig. 2, the storage rack 1 includes a fixed chassis 11, a limiting rod 12 and a stop plate 13, where the fixed chassis 11 is a rectangular chassis, the fixed chassis 11 is disposed on a working floor and distributed at an input end of the working table 3, the limiting rod 12 is a rectangular rod, the limiting rod 12 is vertically welded on a broadside side wall of the fixed chassis 11, in this embodiment, the fixed chassis 11 and the limiting rod 12 after being assembled are L-shaped structures, an operator stacks the thin plastic plates 5 on a top surface of the fixed chassis 11, the fixed chassis 11 plays a supporting role for the thin plastic plates 5, so that the thin plastic plates 5 are separated from the working floor, thereby reducing the conditions of wetting or contamination of the thin plastic plates 5, and simultaneously, a short side of the thin plastic plates 5 is abutted against one side of the limiting rod 12 close to the thin plastic plates 5, so as to ensure the stacking uniformity of the thin plastic plates 5.

The stop plate 13 is movably mounted on the machine base 2, the stop plate 13 is distributed on one side, far away from the operation table 3, of the machine base 2, specifically, the stop plate 13 comprises a stop plate body and a plate body connecting rod, one end of the plate body connecting rod is fixed on the top surface of the stop plate body, the other end of the plate body connecting rod is assembled with the machine base 2 in a bolt connection mode, the stop plate 13 is abutted against the long side wall of the thin plastic plate 5, one side, far away from the operation table 3, of the thin plastic plate 5 can be limited, an operator can adjust the height of the stop plate body by adjusting the length, penetrating through the machine base 2, of the plate body connecting rod, and when the stop plate body is lifted, the operator can conveniently transport and stack the external thin plastic plate 5 on the top surface of the fixed underframe 11.

In addition, the storage rack 1 comprises a fixed baffle rod 14, the fixed baffle rod 14 is a rectangular rod, one end of the fixed baffle rod 14 is fixed on the machine base 2, the length dimension of the fixed baffle rod 14 is parallel to the width dimension of the fixed underframe 11, the fixed baffle rod 14 is distributed on one side of the machine base 2 far away from the limiting rod 12, a connecting seat 15 is detachable from the center of the top surface of the fixed baffle rod 14, specifically, a plurality of assembly grooves are formed in parallel on the top surface of the fixed baffle rod 14, the extending direction of the assembly grooves is consistent with that of the fixed baffle rod 14, correspondingly, a connecting groove is formed in the top wall of the connecting seat 15 in a penetrating way, a connecting screw 151 is inserted in the connecting groove, and the bottom end of the connecting screw 151 is inserted into the assembly groove and assembled with the fixed baffle rod 14 through the connecting screw 151, so that the connecting seat 15 can be fixed on the top surface of the fixed baffle rod 14.

The top surface of one end of the connecting seat 15 is fixed with a baffle reinforcing seat 152, the baffle reinforcing seat 152 is fixed with a baffle driving piece, the baffle driving piece is a baffle driving cylinder 153, one side of the connecting seat 15 close to the limiting rod 12 is provided with a baffle 154, the output end of the baffle driving cylinder 153 is assembled with the baffle 154, under the action of the baffle driving cylinder 153, the baffle 154 can easily draw close to the thin plastic plates 5 piled on the top surface of the fixed underframe 11 until the baffle 154 is abutted with the thin plastic plates 5, and under the action of inertia, the thin plastic plates 5 can be impacted by the vibration residual force of the baffle 154, and the thin plastic plates 5 contacting with the baffle 154 can be shaken and scattered to a certain extent.

In order to transfer the thin plastic plate 5 in the material storage rack 1 onto the operation table 3, referring to fig. 3 and 4, the installation seat 21 is arranged at the top of the machine seat 2, which is close to the material storage rack 1, the middle part of the installation seat 21 is provided with a material storage groove 211 in a penetrating way, the top end of the installation seat 21 is distributed between the side walls of two opposite long sides and is rotationally connected with a connecting shaft 222, the center of the length of the connecting shaft 222 is fixedly provided with a belt pulley 223, the material taking driving assembly 22 comprises a material taking driving motor 221, the material taking driving motor 221 is fixedly arranged on the side wall of the installation seat 21, the output end of the material taking driving motor 221 is assembled with one end of the connecting shaft 222, the outer wall of the belt pulley 223 is provided with a connecting belt 224, and one end of the connecting belt 224, which is far away from the belt pulley 223, is assembled with the material taking sucker 23.

Specifically, the material taking sucker 23 includes a material taking body 231 and a material taking frame 232, the number of the material taking bodies 231 is determined according to circumstances, in this embodiment, a plurality of material taking bodies 231 are fixed on the bottom wall of the material taking frame 232, so that the material taking bodies 231 are vertically arranged, the bottom ends of the material taking bodies are aligned with the top surface of the thin plastic plate 5, the material taking frame 232 includes a material taking sliding block 2321, the material taking sliding block 2321 is arranged on the top of the material taking bodies 231 and is in sliding connection with the material placing groove 211, and a damping spring (not shown in the figure) is assembled between the material taking sliding block 2321 and the connecting shaft 222.

When the material taking driving motor 221 rotates forward, the connecting shaft 222 drives the belt pulley 223 to rotate clockwise, meanwhile, the connecting belt 224 is lengthened, the bottom end of the material taking sucker 23 is propped against the top surface of the thin plastic plate 5 to further grab the thin plastic plate 5, otherwise, when the material taking driving motor 221 rotates reversely, the connecting shaft 222 drives the belt pulley 223 to rotate anticlockwise, meanwhile, the connecting belt 224 is shortened, thereby driving the material taking sucker 23 and the thin plastic plate 5 adsorbed by the material taking sucker to lift upwards, the material taking driving motor 221 rotates forward and backward repeatedly, the thin plastic plate 5 grabbed by the material taking sucker 23 can be dithered under the inertia action of the connecting belt 224, the damping spring can provide damping effect for the process, the thin plastic plate 5 arranged at the bottom can be rapidly shaken down, the material separating function is realized, the situation that the thin plastic plates 5 are stacked and fed is reduced, and the production quality of the plastic card 51 is ensured.

More specifically, the feeding driving assembly 26 is mounted on the machine base 2, the feeding driving assembly 26 includes a feeding guide rod 261, a feeding driving belt 262, two feeding driving gears 263, two feeding driving shafts, and a feeding driving motor 264, wherein the feeding guide rod 261 is fixed on the machine base 2, so that the extending direction of the feeding guide rod 261 is consistent with the width direction of the working table 3, the feeding driving shaft is fixed in the middle of the feeding driving gear 263, after the feeding driving shaft and the feeding driving gears 263 are assembled, the feeding driving shaft is rotationally connected with the machine base 2, and the two feeding driving gears 263 are respectively disposed outside two ends of the feeding guide rod 261, the feeding driving belt 262 is meshed with the two feeding driving gears 263 at the same time, the feeding driving motor 264 is fixed on the machine base 2 and assembled with one of the feeding driving shafts.

By starting the feeding transmission motor 264, the feeding transmission shaft drives the feeding transmission gears 263 to rotate, the feeding transmission belt 262 rotates on the two feeding transmission gears 263, and the feeding transmission belt 262 can drive the mounting seat 21 to slide along the feeding guide rod 261 in the rotating process, so that the thin plastic plate 5 adsorbed on the material taking sucker 23 is transported to the top surface of the workbench 3.

Referring to fig. 3 and 5, the clamping hand 31 is disposed in the moving slot 321, in this embodiment, the clamping hand 31 is a pneumatic clamping hand 31, and the cylinder is used as a power source to achieve a clamping or opening function, and the structure and the installation principle of the clamping hand 31 are in the prior art, which is not described in detail in this embodiment.

The feeding driving assembly 32 is arranged in the middle of the workbench 3, wherein the feeding driving assembly 32 comprises a feeding assembly seat 322, a feeding rotating shaft 323, a feeding driving gear 324, a feeding driving motor 325 and a feeding rack 326, wherein the feeding rack 326 is fixed on the workbench 3, the extending directions of the feeding rack 326 and the moving groove 321 are consistent with the conveying direction of the thin plastic plate 5, namely, the extending directions of the feeding rack 326 and the moving groove 321 are consistent with the length direction of the workbench 3, the feeding rotating shaft 323 is rotationally connected in the middle of the feeding assembly seat 322, the feeding driving gear 324 is assembled on the outer wall of the middle of the feeding rotating shaft 323, the feeding driving gear 324 is meshed with the feeding rack 326, the feeding driving motor 325 is fixed on the side wall of the feeding assembly seat 322, the output end of the feeding driving motor 325 is assembled with one end of the feeding rotating shaft 323, in addition, a telescopic cylinder 327 is fixed on the top surface of the feeding assembly seat 322, and the clamping hand 31 is assembled at the output end of the telescopic cylinder 327.

After the feeding driving assembly 26 transfers the thin plastic plate 5 adsorbed on the material taking sucker 23 to the top surface of the working table 3, the feeding rotation shaft 323 drives the feeding driving gear 324 to rotate under the driving of the feeding driving motor 325, so that the feeding assembly seat 322 can move along the feeding rack 326, the clamping hand 31 moves along the moving groove 321 until the clamping hand 31 abuts against the width edge of the thin plastic plate 5, the clamping hand 31 is opened and clamps the width edge of the thin plastic plate 5, the feeding driving motor 325 is used as a power source to continuously drive the clamping hand 31 to push the thin plastic plate 5 to one end close to the working table 4, when the thin plastic plate 5 is completely conveyed on the working table 4, the clamping hand 31 is opened and the width edge of the thin plastic plate 5 is loosened, the telescopic cylinder 327 is started, the clamping hand 31 is stored in the moving groove 321, then the feeding driving motor 325 is started, the feeding driving motor 325 is enabled to reverse the clamping hand 31, the initial position is returned, the feeding step is repeated, the feeding efficiency of the thin plastic plate 5 is improved, and the feeding smoothness is ensured.

In order to further improve the smoothness of the feeding of the thin plastic plate 5, referring to fig. 6 and 7, a pressing head 24 and a pressing head driving assembly 25 are provided on a side of the machine base 2 away from the storage frame 1, the pressing head driving assembly 25 is fixed on the machine base 2, the pressing head 24 is assembled at an output end of the pressing head driving assembly 25, specifically, the pressing head driving assembly 25 comprises a pressing head driving cylinder 251, the pressing head driving cylinder 251 is fixed on a side of the machine base 2 away from the storage frame 1, the pressing head 24 is assembled at an output end of the pressing head driving cylinder 251, a spherical pressing head 241 is fixed at a bottom end of the pressing head 24, and the pressing head 24 is aligned with a top surface of a long edge of the thin plastic plate 5.

More specifically, the pressing head driving assembly 25 includes a pressing block 252, the pressing block 252 is disposed on a side of the working table 3 close to the pressing head 24, the pressing block 252 is a rectangular block with a smooth surface, a connecting block 253 is fixed on a side of the pressing block 252 far away from the storage rack 1, the pressing block 252 and the connecting block 253 form an inverted L-shaped structure after being assembled, and a pressing block driving cylinder 254 is disposed on a bottom of the working table 3 close to the connecting block 253, so that the pressing block driving cylinder 254 is assembled with the connecting block 253.

After the thin plastic plate 5 is transferred onto the workbench 3, the pressing head 24 can press the long edge top surface of the thin plastic plate 5 under the driving of the pressing head driving cylinder 251, and the edge pressing block 252 can also press the long edge top surface of the thin plastic plate 5 under the driving of the edge pressing block driving cylinder 254, so that the wrinkled part of the thin plastic plate 5 is straightened, and when the blanking process is carried out subsequently, the blanking of the thin plastic plate 5 can be kept in a smooth state, so that the production quality of the plastic card 51 is ensured.

In order to further improve the smoothness of the thin plastic plate 5 entering the processing table 4 from the processing table 3, referring to fig. 6 and 7, the guiding structure 41 is installed on one side of the processing table 4 close to the processing table 3, in this embodiment, the guiding structure 41 includes a guiding bracket 411, a guiding plate 412 and an abutting plate 413, the guiding bracket 411 is fixed on the machine base 2, the length direction of the guiding bracket 411 is consistent with the width direction of the machine base 2, the guiding plate 412 is welded on the bottom surface of the guiding bracket 411, the guiding plate 412 is arranged obliquely downwards from the bottom surface of the guiding bracket 411 to the processing table 4, the abutting plate 413 is welded on one side of the guiding plate 412 close to the processing table 4, so that an included angle between the guiding plate 412 and the abutting plate 413 is an obtuse angle, the thin plastic plate 5 passes through a gap between the abutting plate 413 and the processing table 4, and the clamping hand 31 continuously pushes the thin plastic plate 5, so that the thin plastic plate 5 can smoothly transition from the processing table 3 to the top surface of the processing table 4.

Referring to fig. 6 and 7, the pressing assembly 42 and the blanking mechanism 43 are sequentially disposed on the top surface of the processing table 4, so that the blanking mechanism 43 is distributed at the output end of the pressing assembly 42, and the pressing assembly 42 is distributed at the output end of the guiding structure 41.

In addition, in this application embodiment, the blanking mechanism 43 is the plastic blanking machine among the prior art, and the mechanism and the principle of blanking mechanism 43 are not detailed here, and this application can carry out blanking processing to thin plastic sheet 5 through the effect of blanking mechanism 43, and then obtain the plastics card 51 and the profile waste 52 of appointed specification to, when blanking mechanism 43 carries out the blanking to thin plastic sheet 5, linkage hold-down assembly 42 supports the input of thin plastic sheet 5 that is located the processing bench 4 top surface and presses, and then improves the production stability of plastics card 51, guarantees the production quality of plastics card 51.

In order to improve the collection convenience of the plastic cards 51 and the contour scraps 52, referring to fig. 8 and 9, the bottom of the blanking mechanism 43 is provided with a pushing rail 45, the top surface of the pushing rail 45 is provided with a pushing block 46, specifically, the pushing rail 45 includes a first supporting rail 451 and a second supporting rail 452, the structures of the first supporting rail 451 and the second supporting rail 452 are consistent, the first supporting rail 451 is a rail having a plurality of steps, the first supporting rail 451 and the second supporting rail 452 are parallel and arranged side by side, and an installation space is left between the first supporting rail 451 and the second supporting rail 452, the pushing block 46 is slidably connected in the installation space, correspondingly, each blanking opening of the blanking mechanism 43 is aligned to the step top surface of the pushing rail 45, after the blanking mechanism 43 completes blanking the thin plastic plate 5, the plastic cards 51 drop on the top surface of the pushing rail 45, that is, namely, the plastic cards 51 dropping from one blanking opening are simultaneously placed on the step top surfaces corresponding to the first supporting rail 451 and the second supporting rail 452 close to the blanking opening.

The processing bench 4 is provided with a pushing driving assembly, the pushing driving assembly is assembled with the pushing block 46, in this embodiment, the structure of the pushing driving assembly is consistent with that of the feeding driving assembly 32, and the principle is the same, repeated description is not performed here, furthermore, a discharging transmission belt 47 is arranged on one side of the pushing track 45, the pushing driving assembly drives the pushing block 46 to move along the pushing track 45 and push the plastic card 51 onto the discharging transmission belt 47, specifically, the pushing block 46 pushes the plastic card 51 placed on the top surface of the pushing track 45 from one end far away from the discharging transmission belt 47 to one end close to the discharging transmission belt 47, the plastic cards 51 distributed at different heights are stacked gradually together until the plastic card 51 is neatly conveyed to the top surface of the discharging transmission belt 47, blocking phenomena are effectively reduced, and discharging flexibility is improved.

Referring to fig. 7 and 8, the top surface of the processing table 4 is further provided with a discharging base frame 44, the discharging base frame 44 is distributed at the output end of the blanking mechanism 43, the middle part of the discharging base frame 44 is rotatably connected with a discharging roller set, wherein the discharging roller set comprises a first discharging roller 441 and a second discharging roller 442, the first discharging roller 441 and the second discharging roller 442 are arranged in parallel, the first discharging roller 441 is distributed right above the second discharging roller 442, the profile waste 52 of the thin plastic plate 5 passes through a gap between the first discharging roller 441 and the second discharging roller 442, and a discharging driving member is arranged at one side of the discharging base frame 44, the discharging driving member is a discharging driving motor 443, and the output end of the discharging driving motor 443 is assembled with one end of the first discharging roller 441.

By starting the unloading driving motor 443 to rotate, the first unloading roller 441 can rotate anticlockwise, the profile waste 52 of the thin plastic plate 5 passes through a gap between the first unloading roller 441 and the second unloading roller 442, and the second unloading roller 442 rotates clockwise in a driven manner, so that the function of unloading the profile waste 52 can be realized, the automation degree of unloading the profile waste 52 is improved, the production efficiency is improved, and the smoothness of production is ensured.

The foregoing is a preferred embodiment of the present application, which is merely illustrative of the present application and not intended to limit the scope of the present application in any way, so long as the present application is not limited thereto: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (6)

1. The full-automatic card punching equipment comprises a machine base (2), and is characterized in that the machine base (2) comprises a working table (3), a material storage rack (1) is arranged at the input end of the working table (3), thin plastic plates (5) are orderly piled up in the material storage rack (1), an installation seat (21) is arranged at the top of the machine base (2) close to the material storage rack (1), a material taking driving component (22) is arranged in the middle of the installation seat (21), a material taking sucker (23) is arranged at the bottom of the installation seat (21), the output end of the material taking driving component (22) is assembled with the material taking sucker (23), a material feeding driving component (26) is arranged on the machine base (2), and the top wall of the installation seat (21) is assembled with the material feeding driving component (26), and the material feeding driving component (26) is used for transferring the thin plastic plates (5) adsorbed on the material taking sucker (23) to the top surface of the working table (3);

the middle part of mount pad (21) runs through and has seted up thing groove (211), the top of mount pad (21), distribution are rotated between two opposite long limit lateral walls and are connected with connecting axle (222), the length center of connecting axle (222) is fixed with belt pulley (223), get material drive assembly (22) including getting material driving motor (221), get material driving motor (221) and fix the lateral wall of mount pad (21), get material driving motor (221) output with the one end of connecting axle (222) is assembled mutually, the outer wall of belt pulley (223) is equipped with connecting belt (224), connecting belt (224) keep away from one end of belt pulley (223) with get material sucking disc (23) is assembled mutually;

the material taking sucker (23) comprises a material sucking body (231) and a material taking rack (232), the material sucking body (231) is fixed on the bottom wall of the material taking rack (232), the material sucking body (231) is vertically arranged, the bottom end of the material sucking body is aligned to the top surface of the thin plastic plate (5), the material taking rack (232) comprises a material taking sliding block (2321), the material taking sliding block (2321) is arranged on the top of the material sucking body (231) and is in sliding connection with the material placing groove (211), and a damping spring is assembled between the material taking sliding block (2321) and the connecting shaft (222);

the storage rack (1) comprises a fixed underframe (11), a limiting rod (12) and a stop plate (13), wherein the fixed underframe (11) is arranged at the input end of the operation table (3), the limiting rod (12) is vertically fixed on the top surface of one side of the fixed underframe (11), the stop plate (13) is movably arranged on the machine base (2), the stop plate (13) is distributed on one side, far away from the operation table (3), of the machine base (2), the thin plastic plates (5) are orderly piled on the top surface of the fixed underframe (11), the stop plate (13) is abutted with the long side wall of the thin plastic plates (5), and the limiting rod (12) is abutted with the wide side wall of the thin plastic plates (5).

The storage rack (1) comprises fixed baffle rods (14), the fixed baffle rods (14) are fixed on the machine base (2), the fixed baffle rods (14) are distributed on one side, far away from the limit rods (12), of the machine base (2), connecting seats (15) are detachable from the centers of the top surfaces of the fixed baffle rods (14), baffle plates (154) are arranged on one side, close to the limit rods (12), of the connecting seats (15), baffle plate driving parts are arranged on the top surfaces of the connecting seats (15), and the output ends of the baffle plate driving parts are assembled with the baffle plates (154).

2. The full-automatic card punching equipment according to claim 1, wherein a pressing head (24) and a pressing head driving assembly (25) are arranged on one side, away from the material storage frame (1), of the machine base (2), the pressing head driving assembly (25) is fixed on the machine base (2), the pressing head (24) is assembled at the output end of the pressing head driving assembly (25), a spherical pressing head (241) is fixed at the bottom end of the pressing head (24), and the pressing head (24) is aligned to the top surface of the long edge of the thin plastic plate (5).

3. The full-automatic card punching equipment according to claim 1, wherein moving grooves (321) are respectively formed in the top surfaces of two long sides of the operation table (3), clamping hands (31) are arranged in the moving grooves (321), the two clamping hands (31) correspondingly clamp two sides of the short edges of the thin plastic plate (5), a feeding driving assembly (32) is arranged in the middle of the operation table (3), the output end of the feeding driving assembly (32) is assembled with the clamping hands (31), and the feeding driving assembly (32) is used for driving the clamping hands (31) to move along the moving grooves (321).

4. A fully automatic punching device according to claim 1, characterized in that a processing table (4) is arranged on one side of the working table (3), the extending direction of the processing table (4) is consistent with the conveying direction of the thin plastic plate (5), a guide structure (41) is arranged on one side, close to the working table (3), of the processing table (4), the thin plastic plate (5) passes through the space between the guide structure (41) and the processing table (4), a pressing assembly (42) and a punching mechanism (43) are arranged on the machine base (2), the pressing assembly (42) is distributed between the guide structure (41) and the punching mechanism (43), the pressing assembly (42) is used for locking the thin plastic plate (5), and the punching mechanism (43) is used for punching the thin plastic plate (5).

5. The full-automatic punching equipment according to claim 4, wherein a discharging base frame (44) is arranged on the top surface of the processing table (4), the discharging base frame (44) is distributed at the output end of the blanking mechanism (43), a discharging roller set is rotatably connected to the middle part of the discharging base frame (44), profile waste (52) of the thin plastic plate (5) passes through the middle part of the discharging roller set, a discharging driving piece is arranged on one side of the discharging base frame (44), and the output end of the discharging driving piece is assembled with the discharging roller set.

6. The full-automatic card punching equipment according to claim 5, wherein a pushing track (45) is arranged at the bottom of the punching mechanism (43), a pushing block (46) is arranged on the top surface of the pushing track (45), a plastic card (51) is arranged on the top surface of the pushing track (45), a discharging conveying belt (47) is arranged on one side of the pushing track (45), a pushing driving assembly is mounted on the processing table (4) and assembled with the pushing block (46), and the pushing driving assembly drives the pushing block (46) to move along the pushing track (45) and pushes the plastic card (51) onto the discharging conveying belt (47).