CN219819969U - Quick feed divider of full-length version FPC - Google Patents

Abstract

The utility model discloses a full-page FPC quick material distributing device, which comprises: a go up membrane module and be used for punching press material down for placing the lower membrane module of pending material, lower membrane module includes first die body, collecting chamber has been seted up to the inside of first die body, and the top of first die body still is formed with at least one cutting groove that is used for placing the material, cutting groove is linked together with collecting chamber, go up membrane module and include the second die body, the second die body sets up relative first die body, and can be close to or keep away from first die body motion, the second die body is formed with the cutting part relative to one side of cutting groove, the cutting part stands out in the bottom of second die body, the cutting part is close to first die body motion along with the second die body, and the punching press is placed the material on the cutting groove, in order to tailor the material. The utility model can solve the problem of low cutting efficiency caused by the fact that the cut FPC is sequentially taken out from the working platform to be subjected to next cutting operation when the whole FPC is cut in batch processing.

Description

Quick feed divider of full-length version FPC

Technical Field

The utility model relates to the technical field of electronic product processing jigs, in particular to a full-page FPC quick material distributing device.

Background

Usually, the full-length FPC is required to be subjected to manual material distribution treatment and can be applied to products, so that the problems of high labor intensity, low efficiency and the like of manual material distribution workers are solved, and a full-length material distribution device is generated.

For example, the application number is: chinese patent of CN201720383256.4, entitled: the utility model provides a full version cutting device based on FPC, includes mould, lower mould, work platform and cut-off knife, go up mould, cut-off knife, work platform, lower mould and set gradually from last to down, upper die base, punch holder and cope match-plate pattern pass through bolt fixed connection, lower bolster and die holder pass through the bolt fastening respectively on the work platform, the device can realize by manual punching to the conversion that continuous full version was cut, nimble adjustment die cutting scope, size, reduce FPC board auxiliary material shaping die sinking quantity and auxiliary material processing procedure, reduction in production cost, improvement production efficiency. However, after finishing cutting out the full-page FPC once, the user needs to take out the cut FPC from the working platform in sequence, so that the next cutting operation can be performed, and the efficiency is lower when cutting out a large number of full-page FPCs.

Therefore, a quick feed divider of full-length FPC is needed for solving the problem that in the prior art, when batch processing full-length FPC cuts out, the cut FPC needs to be taken out from the working platform in sequence to carry out the next cutting operation, thereby resulting in low cutting efficiency.

Disclosure of Invention

In view of the above, it is necessary to provide a quick full-page FPC separating device, which solves the technical problem in the prior art that the cut FPCs need to be sequentially taken out from the working platform to perform the next cutting operation when the full-page FPCs are cut due to batch processing, so that the cutting efficiency is low.

In order to achieve the technical purpose, the technical scheme of the utility model provides a full-page FPC quick material distributing device, which comprises:

the lower membrane assembly comprises a first mould body, a collecting cavity is formed in the first mould body, at least one cutting groove for placing materials is formed in the top of the first mould body, and the cutting groove is communicated with the collecting cavity;

the upper film assembly comprises a second die body, wherein the second die body is arranged relative to the first die body and can move close to or away from the first die body, a cutting part is formed on one side of the second die body relative to the cutting groove, the cutting part protrudes out of the bottom of the second die body, moves along with the second die body close to the first die body and is used for punching materials placed on the cutting groove so as to cut the materials.

Further, a through groove is further formed in one side wall of the first die body, the through groove is communicated with the collecting cavity, the lower film assembly further comprises a collecting box, the collecting box is slidably inserted into the through groove and detachably connected to the inner wall of the collecting cavity, and the collecting box is used for collecting cut materials.

Further, the collecting box is provided with at least one clamping groove relative to the inner wall of the collecting cavity, the lower membrane assembly further comprises a clamping piece, and the clamping piece is connected to the first die body and can be clamped with the clamping groove.

Further, at least one through hole is further formed in the first die body, the through hole is communicated with the collecting cavity, the clamping piece comprises a clamping block and an elastic portion, the clamping block can slide along the axial direction of the through hole and is clamped in the clamping groove, one end of the elastic portion is connected to the inner wall of the collecting cavity, the other end of the elastic portion is connected to the clamping block, and the elastic portion is used for driving the clamping block to elastically clamp in the clamping groove.

Further, the clamping piece further comprises a guide rod, one end of the guide rod is slidably inserted into the through hole, and the other end of the guide rod is connected to the clamping block.

Further, the collecting box is further provided with at least one guide groove along the guide of the through groove, the clamping block is movably abutted to the guide groove, and the abutting joint between the clamping block and the inner wall of the bottom of the guide groove is arc-shaped.

Further, the lower membrane assembly further comprises at least one elastic piece, the elastic piece is arranged along the guide of the penetrating groove, one end of the elastic piece is connected to the inner wall of the collecting cavity, the other end of the elastic piece is arranged opposite to the collecting box, and the elastic piece is used for pushing the collecting box to slide out along the opening end of the penetrating groove.

Further, the first die body is further provided with at least two guide holes, the second die body is further provided with at least two first threaded holes corresponding to the guide holes, the upper film assembly further comprises at least two guide pieces, the guide pieces are arranged in one-to-one correspondence with the first threaded holes and are in threaded connection with the first threaded holes, and the guide pieces can be inserted into the guide holes in a sliding manner along the guide of the guide holes.

Further, the guide has magnetism.

Further, at least two connecting holes are further formed in the second die body, the connecting holes are in a step shape and are provided with large-diameter sections and small-diameter sections, the large-diameter sections of the connecting holes are close to the first die body, the upper film assembly further comprises at least one handheld piece and a fastener, the handheld piece is provided with a second threaded hole, the threaded sections of the fastener penetrate through the connecting holes and are in threaded connection with the second threaded holes, and the large-diameter sections of the fastener are in butt joint with the inner walls of the bottoms of the large-diameter sections of the connecting holes.

Compared with the prior art, the utility model has the beneficial effects that: the top of first die body is formed with the cutting groove that is used for placing the material, and the collecting chamber that is linked together with the cutting groove has still been seted up to the inside of first die body, and the second die body is formed with cutting portion to the cutting groove relatively, and cutting portion stands out in the bottom of second die body, and when cutting portion moves along with the second die body is close to first die body, cutting portion punches the material of placing on the cutting groove for cutting portion and cutting groove cooperate and tailors the material, and the material after tailorring falls into the collecting chamber. Compared with the prior art, this device is after accomplishing once cutting out, the material of being cut out falls into the collection intracavity through the cutting groove and is collected, the user only needs to take off the waste material after cutting out from first die body, can carry out the operation of cutting out next time, need not to take out the material of being cut out in proper order from the cutting groove, take out again after waiting to collect the material of gathering a certain amount in the collection intracavity, efficiency when this improves batch production, can solve among the prior art need take out in proper order from work platform the FPC after will cutting out when whole edition FPC cuts out, thereby lead to cutting out the inefficiency problem.

Drawings

FIG. 1 is a schematic three-dimensional structure of a full-page FPC quick-dispensing device provided by an embodiment of the utility model;

FIG. 2 is a schematic three-dimensional structure of an upper membrane module according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a three-dimensional structure of a first mold body, a collection box, a clamping member and an elastic member according to an embodiment of the present utility model;

fig. 4 is a schematic three-dimensional structure of a collection box according to an embodiment of the present utility model.

Detailed Description

The following detailed description of preferred embodiments of the utility model is made in connection with the accompanying drawings, which form a part hereof, and together with the description of the embodiments of the utility model, are used to explain the principles of the utility model and are not intended to limit the scope of the utility model.

Referring to fig. 1 to 4, the present utility model provides a full-page FPC quick material-distributing device, comprising: the lower membrane component 1 for placing the material to be processed and the upper membrane component 2 for punching the material, the lower membrane component 1 comprises a first die body 11, a collecting cavity 111 is formed in the first die body 11, at least one cutting groove 112 for placing the material is formed in the top of the first die body 11, the cutting groove 112 is communicated with the collecting cavity 111, the upper membrane component 2 comprises a second die body 21, the second die body 21 is arranged relative to the first die body 11 and can move close to or far away from the first die body 11, a cutting part 22 is formed on one side of the second die body 21 relative to the cutting groove 112, the cutting part 22 protrudes out of the bottom of the second die body 21, the cutting part 22 moves along with the second die body 21 close to the first die body 11 and punches the material placed on the cutting groove 112 so as to cut the material.

In the device, a cutting groove 112 for placing materials is formed at the top of a first die body 11, a collecting cavity 111 communicated with the cutting groove 112 is formed in the first die body 11, a cutting part 22 is formed in the second die body 21 opposite to the cutting groove 112, the cutting part 22 protrudes out of the bottom of the second die body 21, when the cutting part 22 moves along with the second die body 21 near the first die body 11, the cutting part 22 punches the materials placed on the cutting groove 112, the cutting part 22 and the cutting groove 112 are matched to cut the materials, and the cut materials fall into the collecting cavity 111.

It can be appreciated that, compared with the prior art, this device is after accomplishing once cutting out, the material of being cut out falls into the collection chamber 111 through cutting groove 112 and is collected, the user only needs to take off the waste material after cutting out from first die body 11, alright carry out the operation of cutting out next time, need not to take out the material of being cut out in proper order from cutting groove 112, wait to take out again after collecting a certain amount of material in the collection chamber 111, thereby efficiency when improving batch production, can solve among the prior art when batch processing full-length version FPC cuts out need take out in proper order from work platform after cutting out the FPC of being cut out and just can carry out the operation of cutting out next time, thereby lead to cutting out inefficiency's problem.

Further, a flexible wiring board (Flexible Printed Circuit Board, abbreviated as FPC) in the present device is also called a flexible printed wiring board. Because the cutting part 22 is widely applied to electronic products with low cost, small volume, light weight, bending and twisting, excellent electrical performance and the like, the material placed on the cutting groove 112 is stamped by matching the circumferential outer wall of the part of the cutting part 22 protruding out of the second die body 21 with the circumferential outer wall of the cutting groove 112, so that the setting of a blade is omitted, and redundant description is omitted.

As shown in fig. 3 and 4, the lower membrane module 1 further includes a collection box 12, at least one clamping member 13 connected to the first mold body 11, and at least one elastic member 14 connected to an inner wall of the collection chamber 111.

Wherein, a through groove 113 is further formed on a side wall of the first mold body 11, the through groove 113 is communicated with the collecting cavity 111, and the collecting box 12 is slidably inserted into the through groove 113 and detachably connected to an inner wall of the collecting cavity 111 for collecting the cut material.

It will be appreciated that the collection box 12 is disposed in the collection chamber 111 and below the cutting slot 112 for receiving the cut material, wherein the collection box 12 is slidable along the guide of the through slot 113 to facilitate the removal of the material by the user.

As an embodiment, as shown in fig. 4, at least one clamping groove 121 is formed on the inner wall of the collecting box 12 opposite to the collecting cavity 111, and the clamping piece 13 is connected to the first mold 11 and can be clamped with the clamping groove 121.

It will be appreciated that the locking member 13 is connected to the first mold 11 and is locked to the locking groove 121 of the collecting box 12 for detachably connecting the collecting box 12 to the collecting chamber 111.

In a preferred embodiment, the first mold body 11 is further provided with at least one through hole, the through hole is communicated with the collecting cavity 111, the clamping piece 13 includes a clamping block 131 and an elastic portion 132, the clamping block 131 can slide along the axial direction of the through hole and is clamped in the clamping groove 121, one end of the elastic portion 132 is connected to the inner wall of the collecting cavity 111, and the other end of the elastic portion 132 is connected to the clamping block 131, so as to drive the clamping block 131 to be elastically clamped in the clamping groove 121.

It can be appreciated that the clamping block 131 is inserted into the clamping groove 121 under the elastic restoring force generated by the elastic portion 132, and is clamped with the clamping groove 121, so as to prevent the collection box 12 from accidentally sliding out of the through groove 113 during the stamping process.

Further, the elastic portion 132 may be a spring, an elastic block, a spring plate, etc., and specifically, the elastic portion 132 is a spring in the present device, and the spring, the elastic block, the spring plate, etc. are conventional arrangements known to those skilled in the art, and are not described herein in detail.

In one embodiment, the locking member 13 further includes a guide rod 133, wherein one end of the guide rod 133 is slidably inserted into the through hole, and the other end is connected to the locking block 131.

It will be appreciated that the cooperation of the guide rod 133 and the through hole serves to guide the sliding movement of the catching groove 121.

In a preferred embodiment, the collecting box 12 is further provided with at least one guide groove 122 along the guide of the through groove 113, the clamping block 131 is movably abutted against the guide groove 122, and the abutting surface between the clamping block 131 and the bottom inner wall of the guide groove 122 is arc-shaped.

It will be appreciated that the catch block 131 is in movable abutment with the bottom inner wall of the guide groove 122 when the collection cassette 12 is inserted into the collection chamber 111 or withdrawn from the collection cassette 12.

Wherein as an embodiment, the elastic member 14 is disposed along the guide of the through slot 113, and one end of the elastic member 14 is connected to the inner wall of the collecting cavity 111, and the other end is disposed opposite to the collecting box 12, for pushing the collecting box 12 to slide out along the opening end of the through slot 113.

It will be appreciated that the provision of the resilient member 14 provides a resilient return force for driving the collection box 12 to automatically slide out along the open end of the through slot 113.

Further, the elastic member 14 may be a spring, an elastic block, a spring plate, etc., and specifically, the elastic member 14 is a spring in the present device, and the spring, the elastic block, the spring plate, etc. are conventional arrangements known to those skilled in the art, and are not described herein in detail.

As shown in fig. 2, the upper membrane assembly 2 further comprises at least two guide members 23, at least one hand piece 24 connected to the second mould body 21 and a fastener 25.

Wherein, the first die body 11 is further provided with at least two guiding holes, and the second die body 21 is further provided with at least two first threaded holes corresponding to the guiding holes, the guiding elements 23 are arranged in one-to-one correspondence with the first threaded holes and are in threaded connection with the first threaded holes, and the guiding elements 23 can be inserted into the guiding holes along the guiding of the guiding holes in a sliding manner.

It will be appreciated that the cooperation of the guide 23 and the guide hole serves to guide the insertion of the cutting portion 22 into the cutting slot 112 and to cut the material placed on the cutting slot 112.

Wherein as a preferred embodiment the guide 23 has magnetic properties.

It will be appreciated that the guide 23 is magnetic and facilitates accurate insertion of the cutting portion 22 into the cutting slot 112.

As an embodiment, as shown in fig. 1 and fig. 2, the second die body 21 is further provided with at least two connecting holes, the connecting holes are stepped and have a large-diameter section and a small-diameter section, the large-diameter section and the small-diameter section of the connecting holes are arranged close to the first die body 11, the upper film assembly 2 further comprises at least one hand piece 24 and a fastener 25, the hand piece 24 is provided with a second threaded hole, the threaded section of the fastener 25 passes through the connecting holes and is in threaded connection with the second threaded hole, and the large-diameter section of the fastener 25 is abutted against the bottom inner wall of the large-diameter section of the connecting hole.

It will be appreciated that the hand piece 24 is removably attached to the second mold body 21 via fasteners 25 for ease of use.

Further, the fastener 25 may be a screw or a bolt, etc., which are conventional arrangements known to those skilled in the art, and will not be described herein.

In the specific working process of the utility model, the top of the first die body 11 is provided with the cutting groove 112 for placing materials, the inside of the first die body 11 is also provided with the collecting cavity 111 communicated with the cutting groove 112, the second die body 21 is provided with the cutting part 22 opposite to the cutting groove 112, the cutting part 22 protrudes out of the bottom of the second die body 21, when the cutting part 22 moves along with the second die body 21 close to the first die body 11, the cutting part 22 punches the materials placed on the cutting groove 112, so that the cutting part 22 and the cutting groove 112 are matched to cut the materials, and the cut materials fall into the collecting cavity 111. Compared with the prior art, the device is finished once and after cutting, the cut materials fall into the collecting cavity 111 through the cutting groove 112 and are collected, a user only needs to take down the cut waste materials from the first die body 11 and then cut the materials next time, the cut materials do not need to be taken out of the cutting groove 112 in sequence, and a certain amount of materials are collected in the collecting cavity 111 and then taken out, so that the efficiency in mass production is improved.

When the material to be cut is used, a user firstly places the material to be cut on the first die body 11, then holds the second die body 21 by hand, drives the second die body 21 to move close to the first die body 11 along the guide of the guide hole, enables the cutting part 22 to punch the material placed on the cutting groove 112, then the punched and cut material falls into the collecting box 12 along the cutting groove 112, finally the user lifts the second die body 21, removes the waste material, and can put the material to be treated into the collecting box again.

Further, when the material in the collection box 12 needs to be taken out, the guide rod 133 is pulled by hand first, the clamping block 131 is pulled out from the clamping groove 121 to release the clamping between the clamping block 131 and the clamping groove 121, then the collection box 12 automatically pops out of the collection cavity 111 under the elastic restoring force of the elastic member 14, finally the user takes out the cut material from the collection box 12 and inserts the collection box 12 into the collection cavity 111 again, and when the clamping groove 121 is opposite to the clamping block 131, the elastic restoring force generated by the elastic portion 132 drives the clamping block 131 to be inserted into the clamping groove 121 and clamped.

Through the structure, the problem that cutting efficiency is low because the cut FPC needs to be taken out from the working platform in sequence to be subjected to next cutting operation when the cut FPC is cut in batch processing in the prior art can be solved.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model.

Claims (10)

1. Quick feed divider of full version FPC, its characterized in that includes:

the lower membrane assembly comprises a first mould body, a collecting cavity is formed in the first mould body, at least one cutting groove for placing materials is formed in the top of the first mould body, and the cutting groove is communicated with the collecting cavity;

the upper film assembly comprises a second die body, wherein the second die body is arranged relative to the first die body and can move close to or away from the first die body, a cutting part is formed on one side of the second die body relative to the cutting groove, the cutting part protrudes out of the bottom of the second die body, moves along with the second die body close to the first die body and is used for punching materials placed on the cutting groove so as to cut the materials.

2. The full-page FPC quick-dispensing device according to claim 1, wherein a through groove is further formed in a side wall of the first die body, the through groove is communicated with the collecting cavity, and the lower film assembly further comprises a collecting box which is slidably inserted into the through groove and detachably connected to an inner wall of the collecting cavity, and is used for collecting cut materials.

3. The full-length FPC quick feed divider of claim 2, wherein the collection box has at least one clamping groove provided on an inner wall thereof opposite to the collection chamber, and the lower membrane assembly further comprises a clamping member connected to the first die body and capable of being clamped with the clamping groove.

4. The full-length FPC quick feed divider according to claim 3, wherein the first die body is further provided with at least one through hole, the through hole is communicated with the collection cavity, the clamping piece comprises a clamping block and an elastic portion, the clamping block can slide along the axial direction of the through hole and is clamped in the clamping groove, one end of the elastic portion is connected to the inner wall of the collection cavity, and the other end of the elastic portion is connected to the clamping block and is used for driving the clamping block to be elastically clamped in the clamping groove.

5. The full-length FPC quick feed divider of claim 4, wherein the clip member further comprises a guide rod, one end of the guide rod is slidably inserted into the through hole, and the other end of the guide rod is connected to the clip block.

6. The full-length FPC quick feed divider according to claim 4, wherein the collection box is further provided with at least one guide groove along the guide of the through groove, the clamping block is movably abutted to the guide groove, and the abutment between the clamping block and the bottom inner wall of the guide groove is arc-shaped.

7. The full-length FPC quick feed divider of claim 2, wherein the lower membrane assembly further comprises at least one elastic member, the elastic member is disposed along the guide of the through groove, and one end of the elastic member is connected to the inner wall of the collection cavity, and the other end of the elastic member is disposed opposite to the collection box, so as to push the collection box to slide out along the opening end of the through groove.

8. The full-page Flexible Printed Circuit (FPC) rapid material distributing device according to claim 1, wherein the first die body is further provided with at least two guide holes, the second die body is further provided with at least two first threaded holes corresponding to the guide holes, the upper film assembly further comprises at least two guide pieces, the guide pieces are arranged in one-to-one correspondence with the first threaded holes and are in threaded connection with the first threaded holes, and the guide pieces can be inserted into the guide holes in a sliding manner along the guide of the guide holes.

9. The full-length FPC quick feed dispenser of claim 8, wherein the guide has magnetic properties.

10. The full-page FPC quick feed divider of claim 8, wherein the second die body is further provided with at least two connecting holes, the connecting holes are stepped and have a large-diameter section and a small-diameter section, the large-diameter section of the connecting holes is arranged close to the first die body relative to the small-diameter section, the upper film assembly further comprises at least one hand piece and a fastener, the hand piece is provided with a second threaded hole, the threaded section of the fastener passes through the connecting holes and is in threaded connection with the second threaded hole, and the large-diameter section of the fastener is abutted to the bottom inner wall of the large-diameter section of the connecting hole.