CN111361814A - Separating mechanism for FPC soft material long material - Google Patents

Abstract

The invention discloses a separating mechanism for long materials of FPC soft materials in the field of FPC soft material processing, wherein a material conveying shaft is sleeved with a raw material, the front end of the raw material extends forwards to the lower end of a tensioning pressing block, an upper protective film in the raw material winds an upper protective film winding shaft after bypassing the tensioning pressing block, the rest material and a lower protective film are flatly paved on a separating platform through the tensioning pressing block, a material sucking platform is arranged above the separating platform and connected with a material sucking mechanism, and after the material sucking platform sucks the material, the lower protective film winds the separating platform and winds the lower protective film winding shaft. The invention ensures that the materials are fully protected in the separation process, avoids the problems of easy wrinkling, uneven placement and the like when the soft material long materials are taken and placed, realizes the accurate separation of the soft material long materials, reduces the cost of the raw materials, improves the working efficiency, and has the characteristics of convenient use, high control accuracy and low cost.

Description

Separating mechanism for FPC soft material long material

Technical Field

The invention relates to the field of FPC soft material processing, in particular to a separating mechanism for a long material of an FPC soft material.

Background

The FPC flexible board is also called a flexible wiring board, a flexible printed circuit board, or the like, and is widely used in intelligent communication equipment, and has characteristics of high wiring density, light weight, thin thickness, or the like. In the processing process of the FPC soft material, the FPC material is usually supplied in the form of a roll paper material belt, so the material of the FPC soft material needs to be protected by attaching a protective film, and in the production processing process, the long material of the FPC soft material needs to be separated.

However, the conventional equipment is easy to generate abnormal conditions such as folds, uneven placement and the like when separating the long material of the FPC, which easily causes the damage of the material, not only affects the processing speed of the product, but also greatly reduces the damage of the material in the processing process, wastes the material and increases the production cost.

The above-mentioned drawbacks are worth solving.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a separating mechanism for a long material of a Flexible Printed Circuit (FPC) soft material.

The technical scheme of the invention is as follows:

the utility model provides a separating mechanism of soft material length material of FPC which characterized in that carries axle, separation platform and inhales the material mechanism including the material:

the material conveying shaft is sleeved with raw materials, the raw materials comprise materials and an upper protective film and a lower protective film which are arranged on the upper side and the lower side of the materials, the front end of the raw materials extends forwards to the lower end of the tensioning pressing block, the upper protective film winds the upper protective film winding shaft after bypassing the tensioning pressing block, and the materials and the lower protective film are tiled on the separation platform through the tensioning pressing block;

the separation platform top is equipped with the material platform of inhaling that is used for adsorbing the material, inhale the material platform with inhale material mechanism and connect, inhale material mechanism drive inhale around the material platform, reciprocate, inhale the material platform and adsorb behind the material, the protection film is walked around separation platform and winding is epaxial at protection film rolling down.

The invention according to the above scheme is characterized in that the upper protective film winding shaft is located above the material conveying shaft, and the lower protective film winding shaft is located below the material conveying shaft.

The invention according to the scheme is characterized in that the lower end of the tensioning pressing block is provided with a tensioning table, and the raw material is sleeved between the tensioning pressing block and the tensioning table.

Furthermore, the front end of tensioning briquetting is equipped with the tensioning axle, go up the protection film and walk around the tensioning briquetting with the rolling is in behind the tensioning axle go up on the protection film rolling axle.

Furthermore, the cross section of the tensioning pressing block is in a right-angled triangle shape, and the tensioning shaft is located at the acute-angled vertex of the tensioning pressing block.

The invention according to the above scheme is characterized in that a separation plate is arranged at the front end of the separation platform, and the upper surface of the separation plate is flush with the upper surface of the separation platform.

Further, lower protection film tiling separation platform with the separation plate surface, just the front end of lower protection film is walked around behind the separation plate the rolling is in on the lower protection film rolling axle.

Further, the front end of the separation plate is provided with an inward inclined bevel edge.

The invention according to the scheme is characterized in that the material suction platform is provided with a material suction plate, and the suction holes in the material suction plate are connected with a material suction cylinder.

The invention according to the scheme is characterized in that the material suction structure comprises a material suction mechanism main frame, a servo motor and a moving arm, the material suction mechanism main frame is sleeved on a material suction mechanism guide rail, the servo motor drives the material suction mechanism main frame to slide back and forth along the material suction mechanism guide rail, the moving arm is provided with a lifting cylinder, the lower end of the lifting cylinder is connected with the material suction platform, and the lifting cylinder drives the material suction platform to move up and down.

The invention according to the scheme is characterized in that a material waiting mechanism is arranged at the front end of the separation platform and comprises a material waiting support and a material waiting platform, and the material waiting platform is close to the separation platform.

Furthermore, the upper surface of the material waiting platform and the upper surface of the separating platform are positioned on the same horizontal plane.

Furthermore, be equipped with the transmission shaft on waiting to expect the support, the transmission shaft pass through the belt with wait to expect the platform and be connected, wait to expect the lower pot head of platform and wait to expect on waiting to expect the platform guide rail, the transmission shaft rotates and drives wait to expect the platform along wait to expect the platform guide rail slides.

The invention according to the scheme has the advantages that: according to the invention, the form of removing the protective film by stages ensures that the materials are fully protected in the separation process, the problems of easy wrinkling, uneven placement and the like when the soft material long materials are taken and placed are avoided, the accurate separation of the soft material long materials is realized, the production efficiency is improved, the raw material cost is reduced, and the subsequent processing process is convenient to carry out; according to the invention, the feeding, separating and waiting devices of the FPC material are integrated, so that the carrying process of the soft materials is reduced, further, the damage in the material carrying process is reduced, and the working efficiency is improved; the invention reduces the labor input and has the characteristics of convenient use, high control accuracy and low cost.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a cross-sectional view of the structure of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is an enlarged view of a portion B in fig. 2.

Fig. 5 is a schematic view of the suction mechanism of the present invention.

FIG. 6 is a schematic view of a feeding mechanism of the present invention.

In the figure, 11, a material conveying shaft; 12. a protective film winding shaft is arranged; 13. a lower protective film winding shaft; 20. raw materials; 21. material preparation; 22. coating a protective film; 23. a lower protective film; 30. a separation platform; 31. a separation plate; 32. a bevel edge; 41. a material waiting platform; 42. a material waiting platform guide rail; 43. a belt; 44. a drive shaft; 51. tensioning the pressing block; 52. tensioning the shaft; 53. a tensioning stage; 60. a material sucking platform; 71. a lifting cylinder; 72. a moving arm; 73. a main frame of the material suction mechanism; 74. a servo motor; 75. inhale material mechanism guide rail.

Detailed Description

The invention is further described with reference to the following figures and embodiments:

as shown in fig. 1, a separating mechanism for a long material of a Flexible Printed Circuit (FPC) material comprises a material conveying shaft 11, a separating platform 30 and a material sucking mechanism. The material conveying shaft 11 is sleeved with a raw material 20, the raw material 20 comprises a material 21 and an upper protective film 22 and a lower protective film 23 which are arranged on the upper side and the lower side of the material 21, the material 21 is protected by the upper protective film 22 and the lower protective film 23, and the material 21 is prevented from being compressed and damaged in the moving process.

The front end of the raw material 20 extends forwards to the lower end of the tensioning pressing block 51, the upper protective film 22 winds around the tensioning pressing block 51 and then winds on the upper protective film winding shaft 12, the material 21 and the lower protective film 23 are flatly paved on the separation platform 30 through the tensioning pressing block 51, and the lower protective film 23 winds around the separation platform 30 and winds on the lower protective film winding shaft 13. Through the staged rolling of the upper protective film 22 and the lower protective film 23, the materials 21 are protected in all directions in different stages, the materials 21 are prevented from being damaged in the separation process, and meanwhile, the problems of wrinkling and unevenness in the separation process are avoided.

Preferably, the upper protective film winding shaft 12 is located above the material conveying shaft 11, the lower protective film winding shaft 13 is located below the material conveying shaft 11, and the upper protective film winding shaft 12 and the lower protective film winding shaft 13 are arranged in the same direction, so that the upper protective film 22 and the lower protective film 23 can be wound conveniently, and meanwhile, the separation process of products cannot be influenced.

As shown in fig. 2 and 3, the lower end of the tension pressing block 51 is provided with a tension table 53, the raw material 20 is sleeved between the tension pressing block 51 and the tension table 53, and the flattening of the raw material 20 is ensured through the matching of the tension table 53 and the tension pressing block 51.

The front end of the tensioning pressing block 51 is provided with a tensioning shaft 52, and in the winding process of the upper protective film 22, the upper protective film 22 winds around the tensioning pressing block 51 and the tensioning shaft 52 and then is wound on the upper protective film winding shaft 12. The application of the tension shaft 52 ensures that the movement of the upper protective film 22 is smoother when being rolled, and meanwhile, the advance of the lower material 21 and the lower protective film 23 is not influenced.

Preferably, the cross section of the tensioning pressing block 51 is in a right-angled triangle shape, the tensioning shaft 52 is located at the acute vertex of the tensioning pressing block 51, the lower surface of the tensioning pressing block 51 is parallel to the upper surface of the tensioning table 53, and the raw material 20 can conveniently pass through; meanwhile, the upper protection film 22 is parallel to the inclined surface of the tension pressing block 51 after passing around the tension shaft 52, so that the upper protection film 22 is not blocked from running.

As shown in fig. 2 and 4, the separation plate 31 is arranged at the front end of the separation platform 30, the upper surface of the separation plate 31 is flush with the upper surface of the separation platform 30, the lower protection film 23 is turned and separated through the separation plate 31, the tiling state of the materials 21 and the lower protection film 23 is not affected, the adsorption effect of the materials 21 is ensured, and the smooth advance of the lower protection film 23 is also ensured.

In the winding process of the lower protective film 23, the lower protective film 23 is flatly laid on the surfaces of the separation platform 30 and the separation plate 31, and the front end of the lower protective film 23 is wound on the lower protective film winding shaft 13 after bypassing the separation plate 31. In this embodiment, the front end of the separating plate 31 is provided with the bevel edge 32 which inclines inwards, so that the resistance of the lower protective film 23 in the rolling process is reduced, and the rolling process is facilitated.

As shown in fig. 1 and 5, a material sucking platform 60 for sucking the material 21 is arranged above the separation platform 30, the material sucking platform 60 is connected with a material sucking mechanism, the material sucking mechanism drives the material sucking platform 60 to move back and forth and up and down, and after the material sucking platform 60 adsorbs the material 21, the lower protective film 23 is wound again, so that the lower side of the material 21 can be protected before the material 21 is successfully adsorbed, the flattening effect of the material 21 is ensured, and the phenomenon of wrinkling and unevenness is avoided.

The material sucking structure comprises a material sucking mechanism main frame 73, a servo motor 74 and a moving arm 72, wherein the material sucking mechanism main frame 73 is sleeved on a material sucking mechanism guide rail 75, the servo motor 74 drives the material sucking mechanism main frame 73 to slide back and forth along the material sucking mechanism guide rail 75, a lifting cylinder 71 is arranged on the moving arm 72, the lower end of the lifting cylinder 71 is connected with a material sucking platform 60, and the lifting cylinder 71 drives the material sucking platform 60 to move up and down.

Preferably, inhale and be equipped with on the material platform 60 and inhale the flitch, inhale evenly distributed on the flitch and have a plurality of adsorption holes, the adsorption hole with inhale the material cylinder and be connected, inhale the material cylinder and carry out even absorption to material 21 through the adsorption hole, guaranteed the adsorption effect of material 21, can not cause the damage to material 21 simultaneously.

As shown in fig. 1 and 6, a material waiting mechanism is arranged at the front end of the separation platform 30, the material waiting mechanism includes a material waiting bracket and a material waiting platform 41, and the material waiting platform 41 is close to the separation platform 30. The upper surface of the material waiting platform 41 and the upper surface of the separating platform 30 are located on the same horizontal plane, so that the material sucking platform 60 can drive the material 21 to move to the material waiting platform 41 without being affected, and the material moving process is smoother.

In this embodiment, be equipped with transmission shaft 44 on the material support of treating, transmission shaft 44 passes through belt 43 and is connected with material platform 41 of treating, treat that the lower pot head of material platform 41 treats on material platform guide rail 42, transmission shaft 44 rotates and drives material platform 41 of treating and slide along material platform guide rail 42 of treating, be convenient for treat that material platform 41 operates follow-up processing platform with material 21, the handling after soft material separation has been reduced, the artifical input has been reduced and work efficiency has been promoted, avoid the damage that causes material 21 among the artifical handling simultaneously.

The realization process of the invention is as follows:

the material 21, the upper protective film 22 and the lower protective film 23 pass through the space between the tensioning pressing block 51 and the tensioning table 53, the upper protective film 22 is connected to the upper protective film winding shaft 12 after bypassing the tensioning shaft 52, and the material 21 and the lower protective film 23 pass through the lower end of the tensioning pressing block 51 and are connected to the separation plate 31;

the servo motor 74 in the material suction mechanism drives the material suction mechanism main frame 73 and the moving arm 72 to move back and forth, and the moving arm 72 drives the material suction platform 60 to move above the material 21;

the lifting cylinder 71 drives the material sucking platform 60 to move downwards, the material sucking cylinder drives the material sucking platform 60 to suck the material 21, and the material sucking mechanism moves forwards while sucking in the adsorption process of the material sucking platform 60;

after the long materials are completely adsorbed on the material sucking platform 60, the lifting cylinder 71 ascends, the lower protective film winding shaft 13 rotates to wind the lower protective film 23, the materials 21 are separated from the lower protective film 23, and the material sucking mechanism moves forwards while the lifting cylinder 71 ascends;

the material sucking platform 60 moves to the position above the material waiting platform 41, the lifting cylinder 71 descends, and the material 21 is placed on the material waiting platform 41 to wait for subsequent production.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

The invention is described above with reference to the accompanying drawings, which are illustrative, and it is obvious that the implementation of the invention is not limited in the above manner, and it is within the scope of the invention to adopt various modifications of the inventive method concept and technical solution, or to apply the inventive concept and technical solution to other fields without modification.

Claims (10)

1. The utility model provides a separating mechanism of soft material length material of FPC which characterized in that carries axle, separation platform and inhales the material mechanism including the material:

the material conveying shaft is sleeved with raw materials, the raw materials comprise materials and an upper protective film and a lower protective film which are arranged on the upper side and the lower side of the materials, the front end of the raw materials extends forwards to the lower end of the tensioning pressing block, the upper protective film winds the upper protective film winding shaft after bypassing the tensioning pressing block, and the materials and the lower protective film are tiled on the separation platform through the tensioning pressing block;

the separation platform top is equipped with the material platform of inhaling that is used for adsorbing the material, inhale the material platform with inhale material mechanism and connect, inhale material mechanism drive inhale around the material platform, reciprocate, inhale the material platform and adsorb behind the material, the protection film is walked around separation platform and winding is epaxial at protection film rolling down.

2. The separating mechanism for the FPC soft material long material according to claim 1, wherein the upper protective film winding shaft is located above the material conveying shaft, and the lower protective film winding shaft is located below the material conveying shaft.

3. The separating mechanism for the FPC soft material long material according to claim 1, wherein a tensioning table is arranged at a lower end of the tensioning pressing block, and the raw material is sleeved between the tensioning pressing block and the tensioning table.

4. The separating mechanism for the FPC soft material long material according to claim 3, wherein a tensioning shaft is disposed at a front end of the tensioning pressing block, and the upper protection film is wound on the upper protection film winding shaft after passing around the tensioning pressing block and the tensioning shaft.

5. The separating mechanism for the FPC soft material according to claim 4, wherein the cross section of the tensioning pressing block is a right triangle, and the tensioning shaft is located at the acute vertex of the tensioning pressing block.

6. The separating mechanism for the FPC soft material long material according to claim 1, wherein a separating plate is arranged at the front end of the separating platform, and the upper surface of the separating plate is flush with the upper surface of the separating platform.

7. The mechanism for separating the FPC soft material long material according to claim 6, wherein the lower protection film is flatly laid on the surface of the separation platform and the surface of the separation plate, and the front end of the lower protection film is wound on the lower protection film winding shaft after bypassing the separation plate.

8. The separating mechanism for the FPC soft material long material according to claim 1, wherein the material sucking structure comprises a material sucking mechanism main frame, a servo motor and a moving arm, the material sucking mechanism main frame is sleeved on a material sucking mechanism guide rail, the servo motor drives the material sucking mechanism main frame to slide back and forth along the material sucking mechanism guide rail, the moving arm is provided with a lifting cylinder, the lower end of the lifting cylinder is connected with the material sucking platform, and the lifting cylinder drives the material sucking platform to move up and down.

9. The separating mechanism for the FPC soft material long material according to claim 1, wherein a material waiting mechanism is arranged at the front end of the separating platform, the material waiting mechanism comprises a material waiting bracket and a material waiting platform, and the material waiting platform is close to the separating platform.

10. The separating mechanism for the FPC soft material long material according to claim 9, wherein a transmission shaft is disposed on the material waiting support, the transmission shaft is connected to the material waiting platform through a belt, a lower end of the material waiting platform is sleeved on a material waiting platform guide rail, and the transmission shaft rotates to drive the material waiting platform to slide along the material waiting platform guide rail.

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