CN218425112U - Strip punching die device - Google Patents

Abstract

The utility model belongs to the sticker processing field, in particular to dash a strip die set, its characterized in that, the device is including dashing a strip mould, dash a strip mould including the frame, towards condition, die and be used for driving the drive assembly who dashes a strip up-and-down motion, the die sets up in the frame, the die upside is formed with the first route that is used for passing through the facial tissue, the die downside is formed with the second route that is used for passing through insulating material, be provided with on the die with dash a strip through-hole of strip adaptation, dash a through-hole both ends and run through die upper and lower both sides respectively; the driving assembly is fixedly arranged on the rack, one end of the punching condition is in driving connection with the driving assembly, and the other end of the punching condition is located below the second path and corresponds to the through hole of the punching strip. The utility model discloses in, these two kinds of technologies are integrated together on the facial tissue with the production of dashing the strip of insulating piece and the laminating of insulating piece for machining efficiency is higher.

Description

Strip punching die device

Technical Field

The utility model belongs to sticker processing field, in particular to dash a mould.

Background

In the processing technology of the battery label, a procedure of pasting an insulating sheet on the surface paper exists; to this process, prior art mostly adopts the manual work to operate, and not only inefficiency, and the yields is low. In order to solve the problems caused by manual operation, the existing device for attaching the insulating sheet to the surface paper exists, however, the two steps of punching the insulating material into the insulating sheet and attaching the insulating sheet to the surface paper cannot be completed in one device at the same time, and the processing efficiency is still relatively low.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, an object of the utility model is to provide a dash a mould device, the device can accomplish insulating material simultaneously and dash a technology and insulating piece laminating technology for machining efficiency is higher.

In order to achieve the above object, the technical solution of the present invention is as follows.

A strip punching die device is characterized by comprising a strip punching die, wherein the strip punching die comprises a rack, a punching condition, a punching die and a driving assembly for driving the strip punching condition to move up and down, the punching die is arranged on the rack, a first path for passing through surface paper is formed on the upper side of the punching die, a second path for passing through insulating materials is formed on the lower side of the punching die, a strip punching through hole matched with the strip punching condition is formed in the punching die, and two ends of the strip punching through hole respectively penetrate through the upper side and the lower side of the punching die; the driving assembly is fixedly arranged on the rack, one end of the punching condition is in driving connection with the driving assembly, and the other end of the punching condition is located below the second path and corresponds to the through hole of the punching strip in position. In the device, the facial tissue passes through a first path, the insulating material passes through a second path, the driving assembly drives the punching condition to move, the punching condition firstly pushes the insulating material, the insulating sheet corresponding to the top end of the punching condition is pushed out through the matching of the punching through hole, and finally the punching condition pushes the insulating sheet out of the punching through hole and is attached to the facial tissue of the first path. Through the structure setting of the device, the strip punching production and the insulating sheet laminating of insulating sheet are integrated together on the facial tissue for machining efficiency is higher.

Furthermore, a plurality of punching strip through holes are arranged on the punching die and are transversely arranged; the strip punching die further comprises a transmission part, the driving assembly is in driving connection with the transmission part, the movable part capable of moving transversely at one end of the strip punching part is arranged on the transmission part, and a locking part used for locking the strip punching part is arranged on the transmission part. The arrangement of the plurality of punching strip through holes and the arrangement that the punching conditions can move in the transverse direction can adjust the punching strip position of the insulating material in the transverse direction as required. The plurality of punched strip through holes also can comprise a punched strip through hole with the width matched with one punched strip and a plurality of punched strip through holes matched with the plurality of punched strips.

Furthermore, be provided with two movable layering that can vertically remove on the driving medium, be formed with the slip path between two movable layering, but the activity that dashes strip one end lateral shifting formula sets up in the slip path, retaining member quantity is two, and two retaining members set up respectively on two movable layering to locking or unclamping movable layering. The two movable pressing bars move in the longitudinal direction to control the width of the sliding path, so that the pressing bar can be separated from the sliding path or can move on the sliding path or be locked in the sliding path.

Furthermore, the side edges of the movable pressing strips extend to form pressing block protrusions, guide grooves corresponding to the pressing block protrusions are formed in two sides of one end of the punching strip, and the pressing block protrusions of the two movable pressing strips movably extend into the guide grooves in two sides of one end of the punching strip respectively. The pressing block bulge and the guide groove move relatively.

Furthermore, the frame is provided with two guide pillars, and two ends of the transmission part are respectively movably connected with the two guide pillars. The guide post is arranged, so that the driving part moves up and down more smoothly.

Furthermore, a guide sleeve is arranged between the transmission part and the guide pillar, and the transmission part is movably connected with the guide pillar through the guide sleeve. Specifically, a steel ball bushing is movably arranged between the guide pillar and the guide sleeve, and the guide pillar, the guide sleeve and the steel ball bushing form a precise guide pillar and guide sleeve, and the specific principle is similar to the combination of a linear bearing and the guide pillar; but the load is larger and more precise compared with the combination of the linear bearing and the guide post; the design of how to connect and combine the guide pillar, the guide sleeve and the steel ball bush into a guide pillar and guide sleeve is the prior art.

Further, a die fixing seat is fixedly arranged below the die, and the punching strip through hole sequentially penetrates through the die and the die fixing seat from top to bottom; a gap is formed between the upper side of the die fixing seat and the lower side of the die, and the second path penetrates through the gap. The design that the second path is located between die and the die fixing base makes the punching condition more stable when punching the strip, and the strip that can be smooth goes out required insulating piece.

Further, the first path transversely passes through the rack, and the second path longitudinally passes through the rack.

Furthermore, the driving assembly comprises an air cylinder, and the air cylinder is in driving connection with the transmission member. The output shaft of cylinder is flexible from top to bottom to control driving medium up-and-down motion, and then the strip up-and-down motion that dashes on the control driving medium, dash the strip and the laminating of insulating piece is on the facial tissue in order to realize the insulating piece.

Furthermore, the number of the driving assemblies is more than two, and the driving assemblies are in driving connection with the transmission part. The arrangement of the two driving components can be more stable when the driving transmission part moves.

Furthermore, the rack comprises a top plate, a bottom plate, an adjusting plate and a support rod, wherein the adjusting plate can be movably arranged on the bottom plate in a longitudinal direction, and a bottom plate locking piece used for locking the position of the adjusting plate is arranged on the bottom plate; the die and the driving assembly are connected with the adjusting plate; the top plate and the bottom plate are connected through a support rod, the top plate is located on the upper side of the stamping die, and the first path is formed between the top plate and the stamping die. The top plate is used for supporting the facial tissue when the punching condition drives the insulating sheet to be attached to the facial tissue. The arrangement of the adjusting plate on the bottom plate in a longitudinally movable manner enables the device to adjust the position of the punching strip of the insulating material in the longitudinal direction.

Furthermore, the two sides of the bottom plate corresponding to the longitudinal direction of the adjusting plate are provided with adjusting seats, the bottom plate locking pieces are movably arranged on the adjusting seats, the bottom plate locking pieces can be preferably screws, and the bottom plate locking pieces correspond to the side faces of the adjusting plate.

Specifically, two symmetrical connecting plates are arranged on the upper side of the adjusting plate, and two ends of the stamping die are respectively fixed on the two connecting plates; two ends of the transmission piece respectively penetrate through the two connecting plates, and two ends of the transmission piece are respectively movably connected with the two connecting plates up and down; the side edge of the connecting plate extends outwards to form a guide connecting part, and the upper end and the lower end of the guide pillar are respectively fixed with the guide connecting part and the adjusting plate. The two cylinders are fixed on the lower side of the adjusting plate, and output shafts of the two cylinders penetrate through the adjusting plate and then are fixed with the lower side of the transmission part.

The beneficial effects of the utility model reside in that, in the device, the facial tissue passes through first route, and insulating material passes through the second route, and the drive assembly drive is towards the condition motion, and towards the condition at first pushes up on insulating material to through dashing the insulating piece that the cooperation of strip through-hole was ejecting and towards the condition top corresponds, it is ejecting and laminating on the facial tissue of first route from dashing the strip through-hole to dash the condition at last. Through the structure setting of the device, the strip punching production and the insulating sheet laminating of insulating sheet are integrated together on the facial tissue for machining efficiency is higher.

Drawings

Fig. 1 is a schematic structural diagram of a first view angle of a stamping die.

Fig. 2 is a structural schematic diagram of a second view angle of the stamping strip die.

Fig. 3 is a schematic structural view of the stamping die with hidden top plate, bottom plate, stay bar and stamping die.

Fig. 4 is a longitudinal structural diagram illustrating the path of the insulating material according to the present invention.

Fig. 5 is a schematic diagram of the transverse direction structure of the sticker material path of the present invention.

Fig. 6 is a schematic view of the cutter assembly.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-3, a punching strip die device is characterized in that the device comprises a punching strip die 1, the punching strip die 1 comprises a frame 11, a punching strip 12, a punching die 13 and a driving component 14 for driving the punching strip 12 to move up and down, the punching die 13 is fixedly arranged on the frame 11, a first path 131 for passing through facial tissue is formed on the upper side of the punching die 13, a second path 132 for passing through insulating material is formed on the lower side of the punching die 13, a punching strip through hole 133 matched with the punching strip 12 is formed on the punching die 13, and two ends of the punching strip through hole 133 respectively penetrate through the upper side and the lower side of the punching die 13; the driving assembly 14 is fixedly arranged on the frame 11, one end of the punching condition 12 is in driving connection with the driving assembly 14, and the other end of the punching condition 12 is located below the second path 132 and corresponds to the punching through hole 133. Specifically, the driving assembly 14 may be composed of a motor and a transmission structure for converting the rotation driving of the motor into the up-and-down driving; the cylinder may be used directly.

In the present embodiment, the die 13 is provided with a plurality of punched-out-bar through holes 133, and the plurality of punched-out-bar through holes 133 are arranged in a transverse direction; the strip punching die 1 further comprises a transmission piece 15, the driving assembly 14 is in driving connection with the transmission piece 15, one end of the strip punching piece 12 is transversely movably and movably arranged on the transmission piece 15, and a locking piece used for locking the strip punching piece 12 is arranged on the transmission piece 15.

In this embodiment, two movable pressing strips 151 capable of moving longitudinally on the transmission member 15 are disposed on the transmission member 15, a sliding path 152 is formed between the two movable pressing strips 151, one end of the punching member 12 is movably disposed in the sliding path 152 in a transverse direction, the number of the locking members is two, the two locking members are respectively disposed on the two movable pressing strips 151 to lock or unlock the movable pressing strips 151, the locking members may be screws, and the movable pressing strips 151 are locked on the transmission member 15 by moving on the movable pressing strips 151, or the movable locking members enable the movable pressing strips 151 to move on the transmission member 15.

In this embodiment, the side of the movable pressing bar 151 extends to form a pressing block protrusion 153, two sides of one end of the pressing bar 12 are both provided with a guide groove 121 corresponding to the pressing block protrusion 153, and the pressing block protrusions 153 of the two movable pressing bars 151 respectively and movably extend into the guide grooves 121 on two sides of one end of the pressing bar 12.

In this embodiment, two guide posts 16 are fixedly disposed on the frame 11, and two ends of the transmission member 15 are movably connected to the two guide posts 16, respectively.

In this embodiment, a guide sleeve 161 is disposed between the transmission member 15 and the guide post 16, and the transmission member 15 and the guide post 16 are movably connected through the guide sleeve 161.

In this embodiment, a die fixing seat 134 is fixedly disposed below the die 13, and the punch bar through hole 133 sequentially penetrates through the die 13 and the die fixing seat 134 from top to bottom; a gap is formed between the upper side of the die holder 134 and the lower side of the die 13, and the second path 132 passes through the gap.

In this embodiment, the first path 131 traverses the gantry 11 and the second path 132 traverses the gantry 11.

In this embodiment, the driving assembly 14 includes a cylinder, and the cylinder is in driving connection with the transmission member.

In this embodiment, the number of the driving assemblies 14 is two or more, and the two or more driving assemblies 14 are all in driving connection with the transmission member 15.

In this embodiment, the frame 11 includes a top plate 111, a bottom plate 112, an adjusting plate 113, and a supporting rod 114, wherein the adjusting plate 113 is movably disposed on the bottom plate 112 in a longitudinal direction, and a bottom plate locking member for locking the position of the adjusting plate 113 is disposed on the bottom plate 112; the die 13 and the driving component 14 are both fixedly connected with the adjusting plate 113; the top plate 111 and the bottom plate 112 are fixedly connected by a stay 114, the top plate 111 is positioned on the upper side of the die 13, and a first path 131 is formed between the top plate 111 and the die 13.

In this embodiment, the adjusting plate 113 is provided with an adjusting seat 116 at both sides of the bottom plate 112 corresponding to the longitudinal direction of the adjusting plate 113, and a bottom plate locking member, which may preferably be a screw, is movably provided on the adjusting seat 116, and corresponds to the side of the adjusting plate 113.

Specifically, two symmetrical connecting plates 117 are arranged on the upper side of the adjusting plate 113, and two ends of the die 13 are respectively fixed on the two connecting plates 117; two ends of the transmission member 15 respectively penetrate through the two connecting plates 117, and two ends of the transmission member 15 are respectively movably connected with the two connecting plates 117 up and down; the connecting plate 117 extends outward at a side edge to form a guide connecting portion 118, and the upper and lower ends of the guide post 16 are fixed to the guide connecting portion 118 and the adjusting plate 113, respectively. The two cylinders are fixed on the lower side of the adjusting plate 113, and the output shafts of the two cylinders movably penetrate through the adjusting plate 11 and then are fixed on the lower side of the transmission member 15.

Referring to fig. 1-6, in this embodiment, the apparatus further includes an insulation winding assembly 2, an insulation unwinding assembly 3, a sticker unwinding assembly, and a sticker winding assembly; the insulation winding assembly 2 and the insulation unwinding assembly 3 are respectively arranged at two sides of the longitudinal direction of the stamping bar die 1, and the sticker unwinding assembly and the sticker winding assembly are respectively arranged at two sides of the transverse direction of the stamping bar die 1; still be provided with the stripping assembly 6 that is used for peeling off the facial tissue and the bottom paper of sticker between sticker unreeling subassembly and the strip mould 1, still be provided with the laminating subassembly 7 that is used for laminating the bottom paper and pastes the facial tissue that has the insulated strip between sticker rolling subassembly and the strip mould 1, strip mould 1 below is provided with bottom paper guide assembly 8, first route 131 both ends and bottom paper guide assembly 8 both ends are equallyd divide respectively with stripping assembly 6, laminating subassembly 7 corresponds, second route 132 both ends respectively with insulating rolling subassembly 3, insulating subassembly 4 that unreels corresponds.

Specifically, the insulation winding assembly 2 and the sticker winding assembly have a winding shaft structure, the winding shaft can be a hand-expanding shaft, and the structure and principle of how to wind insulation materials or stickers through the winding shaft is the prior art and is not described herein again; insulating subassembly 3, the sticker of unreeling unreels the subassembly and is including the structure of unreeling the axle, should unreel the axle and can be the hand axle that expands, and the structure and the principle of specifically how unreeling through unreeling the axle and carrying out insulating material or sticker are prior art, do not do here and describe repeatedly.

The base paper guide assembly 8 is a structure including a plurality of guide rollers for guiding a path of the base paper. The stripping assembly 6 is of a structure comprising two stripping rollers, and when the sticker passes through the gap between the two stripping rollers, the surface paper and the bottom paper are stripped and respectively enter different paths; the laminating assembly 7 is of a structure comprising two laminating rollers, and when the surface paper and the bottom paper enter a gap between the two laminating rollers, the surface paper and the bottom paper are laminated under the extrusion of the two laminating rollers.

In this embodiment, the device is still including a plurality of cutter unit spares 5, and the sticker unreels the subassembly and peels off and be provided with two cutter unit spares 5 between the subassembly 6, and these two cutter unit spares correspond the facial tissue and the bottom stock of sticker respectively for cut the facial tissue and the bottom stock of sticker respectively.

A cutter component 5 is also arranged between the attaching component 7 and the punching strip die 1 and used for cutting the bottom paper, and the bottom paper is attached to the surface paper under the action of the attaching component after being cut. The three cutter assemblies can be correspondingly selected to be installed or used according to the processing requirements.

The cutter assembly 5 comprises a strip cutting frame 51, a plurality of cutters 52 are arranged on the strip cutting frame 51, and strips are cut through the cutters 52.

In this embodiment, a deviation rectifying assembly 4 for rectifying deviation of the sticker is further arranged between the sticker unreeling assembly and the peeling assembly 6. The deviation rectifying component 4 is an existing deviation rectifying structure for rectifying deviation of the sticker; the structural arrangement and the realization principle thereof are prior art.

In this embodiment, a sticker unreeling component and a sticker reeling component are provided; the sticker that also can not set up to be located the device horizontal direction both ends department unreels subassembly, sticker rolling subassembly, links up the device horizontal both sides all with other devices, and the sticker gets into this device by last device, and after laminating insulating piece, does not carry out the rolling, directly gets into next device.

In the present embodiment, the top plate 111 is provided with a guide plate 115, two facial tissue guide rollers 119 are provided at both ends of the guide plate 115, and the two facial tissue guide rollers 119 respectively correspond to both ends of the first path 131.

The present invention is not intended to be limited to the particular embodiments shown and described, and all modifications, equivalents, and improvements made within the spirit and scope of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A strip punching die device is characterized by comprising a strip punching die, wherein the strip punching die comprises a rack, a punching condition, a punching die and a driving assembly for driving the strip punching condition to move up and down, the punching die is arranged on the rack, a first path for passing through surface paper is formed on the upper side of the punching die, a second path for passing through insulating materials is formed on the lower side of the punching die, a strip punching through hole matched with the strip punching condition is formed in the punching die, and two ends of the strip punching through hole respectively penetrate through the upper side and the lower side of the punching die; the driving assembly is fixedly arranged on the rack, one end of the punching condition is in driving connection with the driving assembly, and the other end of the punching condition is located below the second path and corresponds to the through hole of the punching strip.

2. The apparatus of claim 1, wherein the punch die is provided with a plurality of punch through holes, and the punch through holes are arranged transversely; the strip punching die further comprises a transmission part, the driving assembly is in driving connection with the transmission part, the movable part capable of moving transversely at one end of the strip punching part is arranged on the transmission part, and a locking part used for locking the strip punching part is arranged on the transmission part.

3. The strip punching die device according to claim 2, wherein the transmission member is provided with two movable pressing strips capable of moving longitudinally on the transmission member, a sliding path is formed between the two movable pressing strips, one end of the strip punching member is movably arranged in the sliding path in a transverse moving mode, the number of the locking members is two, and the two locking members are respectively arranged on the two movable pressing strips so as to lock or release the movable pressing strips.

4. The apparatus of claim 3, wherein the movable pressing strips extend laterally to form pressing block protrusions, guide grooves corresponding to the pressing block protrusions are formed on both sides of one end of the pressing strip, and the pressing block protrusions of the two movable pressing strips respectively movably extend into the guide grooves on both sides of one end of the pressing strip.

5. The apparatus as claimed in claim 2, wherein the frame is provided with two guide posts, and the two ends of the driving member are movably connected to the two guide posts respectively.

6. The stamping bar die device according to claim 1, wherein a stamping die fixing seat is fixedly arranged below the stamping die, and the stamping bar through hole sequentially penetrates through the stamping die and the stamping die fixing seat from top to bottom; a gap is formed between the upper side of the die fixing seat and the lower side of the die, and the second path penetrates through the gap.

7. The apparatus of claim 1 wherein said first path traverses a frame and said second path traverses a frame.

8. The apparatus of claim 2, wherein the number of the driving members is two or more, and the two or more driving members are in driving connection with the driving member.

9. The apparatus of claim 1, wherein the frame comprises a top plate, a bottom plate, an adjusting plate, and a support rod, the adjusting plate is movably disposed on the bottom plate in a longitudinal direction, and a bottom plate locking member for locking the position of the adjusting plate is disposed on the bottom plate; the die and the driving assembly are connected with the adjusting plate; the top plate and the bottom plate are connected through a support rod, the top plate is located on the upper side of the stamping die, and the first path is formed between the top plate and the stamping die.

10. The apparatus of claim 9, wherein the bottom plate has two adjustable seats at two sides of the bottom plate corresponding to the longitudinal direction of the adjustable plate, the bottom plate locking members are movably disposed on the adjustable seats, and the bottom plate locking members correspond to the side surfaces of the adjustable plate.

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