CN215647587U - Flexible circuit board pressing and bending mechanism - Google Patents

Abstract

The utility model discloses a flexible circuit board pressing and bending mechanism which is used for attaching and fixing a flexible circuit board in a groove preset by a component and comprises a fixing plate, a pressing assembly and a bending assembly; the pressing assembly comprises a first air cylinder, a connecting plate arranged on the first air cylinder and a pressing head; the bending assembly comprises a second cylinder, an extrusion block arranged on the second cylinder and a bending knife; the first cylinder is used for driving the connecting plate to move along the direction close to the pressing head, so that the pressing head is driven to press one end of the flexible circuit board on the component, and the bending knife is driven to abut against the bottom wall of the groove through the flexible circuit board; the second cylinder is used for driving the extrusion block to attach the flexible circuit board in the groove, and the bending knife moves along the direction far away from the extrusion block so as to abut against the side wall of the groove. The utility model has high degree of automation of operation, replaces manual operation, and reduces operation steps, thereby improving the installation efficiency and precision of the flexible circuit board.

Description

Flexible circuit board pressing and bending mechanism

[ technical field ] A method for producing a semiconductor device

The utility model relates to the technical field of mechanical equipment, in particular to a flexible circuit board pressing and bending mechanism.

[ background of the utility model ]

Currently, flexible circuit boards (FPCs) have been widely used in electronic devices (e.g., terminals of mobile phones, computers, etc.) due to their excellent processability. When processing, many times the operator need take the FPC in the charging tray and put into special tool and press and bend, take out the FPC after bending again, aim at the FPC female seat at terminal with FPC male head, then press the lock, lead to the operator to operate the step more, need arrange 2 people usually. Simultaneously, after carrying out long-time big batch operation, the operator produces fatigue easily, produces the deviation easily when the female seat of public head of cooperation and leads to the impaired quality of influence of accessory, can lead to the operator to point to receive the injury and the lock pressure can not obtain the scheduling problem simultaneously.

In view of the above, it is desirable to provide a flexible circuit board press bending mechanism to overcome the above-mentioned drawbacks.

[ Utility model ] content

The utility model aims to provide a flexible circuit board pressing and bending mechanism, which aims to solve the problems of more steps and poorer assembly precision of manual FPC installation, reduces the operation steps and improves the installation efficiency and precision of FPC through automatic processing.

In order to achieve the purpose, the utility model provides a flexible circuit board pressing and bending mechanism which is used for attaching and fixing a flexible circuit board in a groove preset by a component and comprises a fixing plate, a pressing assembly and a bending assembly; the pressing assembly comprises a first air cylinder fixed on the fixing plate, a connecting plate arranged at the movable end of the first air cylinder and a pressing head arranged on one side of the connecting plate far away from the first air cylinder; the bending assembly comprises a second air cylinder fixed on the fixed end of the first air cylinder or the fixed plate, an extrusion block arranged at the movable end of the second air cylinder and a bending knife arranged on one side of the connecting plate, which is far away from the first air cylinder; the first cylinder is used for driving the connecting plate to move along the direction close to the pressing head, so that the pressing head is driven to press one end of the flexible circuit board on the component, and one end of the bending knife far away from the first cylinder is driven to abut against the bottom wall of the groove through the flexible circuit board; the second cylinder is used for driving the extrusion block to attach the flexible circuit board in the groove, and one end, extending into the groove, of the bending knife moves in the direction away from the extrusion block so as to abut against the side wall of the groove.

In a preferred embodiment, the connecting plate includes a connecting main plate fixed to the movable end of the first cylinder and two connecting support plates extending horizontally from two ends of the connecting main plate; the two pressing heads are respectively arranged at one end, close to the connecting support plate, far away from the connecting main plate; the extrusion block is arranged between the two pressing heads.

In a preferred embodiment, the connecting support plate is provided with a buffer at a position abutting against the corresponding press-fit head; when the connecting support plate presses the corresponding pressing head, one end of the buffer is abutted to the pressing head.

In a preferred embodiment, a sliding plate is fixed at one end of the connecting support plate, which is far away from the connecting main plate, and the sliding plate is provided with a limit bump; one end of the pressing head, which is close to the first cylinder, is provided with a limiting groove matched with the limiting lug; the limiting lug can slide along the limiting groove so that the connecting support plate presses the pressing head in the vertical direction.

In a preferred embodiment, the bending knife includes a fixed portion movably disposed on the connecting plate and a bending portion disposed at an end of the fixed portion away from the connecting plate; one side of the bending part close to the extrusion block is obliquely arranged along the direction close to the extrusion block.

In a preferred embodiment, one end of the bending part, which is far away from the connecting plate, is provided with a bending head, and the bending head is obliquely arranged along the direction far away from the extrusion block.

In a preferred embodiment, a sliding strip is fixed on one side of the connecting plate, which is far away from the first cylinder, and a sliding groove matched with the sliding strip is formed in the fixing part; when the extrusion block drives the bending part to move along the direction far away from the extrusion block, the fixing part drives the sliding strip to slide in the sliding groove, so that the moving direction of the bending part is limited.

In a preferred embodiment, the bending assembly further comprises a reset member; the reset piece comprises a sleeve rod and a limiting block, wherein the sleeve rod is arranged on the fixing part and is parallel to the sliding strip; the limiting block is provided with a through hole for the loop bar to pass through, and one end of the loop bar, which is far away from the fixed part, passes through the through hole and is provided with a limiting ring; the area of the limiting ring is larger than that of the via hole; the loop bar is in the fixed part with the cover is equipped with reset spring between the stopper, reset spring drive the bending knife is along the direction removal that is close to the extrusion piece.

In a preferred embodiment, the number of the bending knives is two, and the two bending knives are respectively arranged on two sides of the extrusion block.

In a preferred embodiment, one side of the extrusion block, which is close to the bending knife, is provided with a steel ball; the steel ball is abutted against one side of the bending knife, which is close to the steel ball.

According to the flexible circuit board pressing and bending mechanism provided by the utility model, the pressing head is driven by the first air cylinder to press one end of the flexible circuit board, and the bending knife is abutted against the bottom wall of the groove; then the flexible circuit board is pressed on the bottom wall of the groove by the extrusion block through the driving of the second air cylinder, and the pressing effect on the flexible circuit board is completed; in the process, the extrusion block enables the bending knife to move and abut against the side wall of the groove, so that one end of the bending knife abuts against the corner of the groove, the part of the flexible circuit board at the corner of the groove is bent, and the bending effect of the flexible circuit board is achieved. The utility model has high degree of automation of operation, replaces manual operation, and reduces operation steps, thereby improving the installation efficiency and precision of the flexible circuit board.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a perspective view of a flexible circuit board press-fit bending mechanism provided by the utility model;

fig. 2 is a perspective view of the flexible circuit board press-fit bending mechanism shown in fig. 1 at another angle;

fig. 3 is a perspective view of a press-fit assembly in the press-fit bending mechanism for the flexible circuit board shown in fig. 1;

fig. 4 is a perspective view of another angle of the press-fit assembly in the press-fit bending mechanism for the flexible circuit board shown in fig. 1;

FIG. 5 is a perspective view of a bending assembly in the flexible circuit board press bending mechanism shown in FIG. 1;

FIG. 6 is a perspective view of another angle of the bending assembly in the flexible circuit board press bending mechanism shown in FIG. 1;

FIG. 7 is a schematic diagram of the flexible printed circuit board pressing and bending mechanism provided by the present invention before pressing the FPC;

fig. 8 is a partially enlarged schematic view of the flexible circuit board press-fit bending mechanism shown in fig. 7 after press-fit bending of the FPC.

Reference numbers in the figures: 100. a flexible circuit board pressing and bending mechanism; 201. a flexible circuit board (FPC); 202. a component; 203. a groove; 10. a fixing plate; 20. pressing the components; 21. a first cylinder; 22. a connecting plate; 221. connecting the main board; 222. connecting the support plate; 223. a sliding plate; 224. a limiting bump; 23. a press-fit head; 231. a limiting groove; 232. a horizontal plane; 24. a buffer; 30. bending the assembly; 31. a second cylinder; 32. extruding the block; 321. steel balls; 33. bending a knife; 331. a fixed part; 332. a bending part; 333. bending the elbow; 334. a sliding groove; 34. a slide bar; 35. a reset member; 351. a loop bar; 352. a limiting block; 353. a limiting ring; 354. a return spring.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantageous effects of the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and the detailed description. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the utility model, are intended for purposes of illustration only and are not intended to limit the scope of the utility model.

It is also to be understood that the terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used in the specification of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

In an embodiment of the present invention, a Flexible Circuit board pressing and bending mechanism 100 is provided for attaching and fixing a Flexible Circuit board 201 (FPC) in a groove 203 preset in a component 202. The groove 203 is generally rectangular and includes a bottom wall and a sidewall extending perpendicularly from the bottom wall. When the flexible circuit board is fixed to the groove 203, the flexible circuit board is attached to the surface of the side wall along the bottom wall.

As shown in fig. 1 and fig. 2, the flexible circuit board press-fit bending mechanism 100 includes a fixing plate 10, a press-fit assembly 20, and a bending assembly 30. The fixing plate 10 is used for fixing at a predetermined position of other mechanical equipment and fixing the pressing assembly 20 and the bending assembly 30.

As shown in fig. 3 and 4, the pressing assembly 20 includes a first cylinder 21 fixed on the fixing plate 10, a connecting plate 22 disposed at a movable end of the first cylinder 21, and a pressing head 23 disposed at a side of the connecting plate 22 away from the first cylinder 21. The first cylinder 21 is used for driving the connecting plate 22 to move in a direction close to the pressing head 23, so as to drive the pressing head 23 to press one end of the flexible circuit board 201 on the component 202. That is, the first cylinder 21 can drive the connecting plate 22 to move the press head 23 in the vertical direction, so as to press one end of the FPC to the predetermined position of the component 202. In this embodiment, the number of the pressing heads 23 is two, and the two pressing heads are respectively disposed at two sides of the first cylinder 21, so as to fix two ends of the FPC at the same time.

The connecting plate 22 includes a connecting main plate 221 fixed to the movable end of the first cylinder 21, and two connecting support plates 222 extending from two ends of the connecting main plate 221 along the same horizontal side. The connecting main board 221 and the pair of connecting brackets 222 enclose three sides forming a rectangle. The pressing heads 23 are respectively disposed on the ends of the connecting support plates 222 far from the connecting main board 221.

It should be noted that, in the present embodiment, the stitching head 23 can be movably connected to the side of the connecting support plate 222 away from the connecting main plate 221 along the vertical direction. Specifically, a sliding plate 223 is fixed at one end of the connecting support plate 222 far away from the connecting main plate 221, and the sliding plate 223 is provided with a strip-shaped limit bump 224 arranged along the vertical direction. One end of the pressing head 23 close to the first cylinder 21 is provided with a limit groove 231 matched with the limit bump 224. The limiting projection 224 can slide along the limiting groove 231, so that the connecting support plate 222 can be pressed on the pressing head 23 in the vertical direction, and the pressing precision is improved. That is, the pressing head 23 can slide up and down on the limiting groove 231 along with the limiting protrusion 224 and can not fall off.

As shown in fig. 7, the middle portion of the press head 23 is provided with at least one step, that is, the middle portion of the press head 23 includes at least one horizontal plane 232, when the first cylinder 21 drives the connecting plate 22 to move toward the horizontal plane 232, the corresponding connecting support plate 222 abuts against the horizontal plane 232, so as to drive the press head 23 to press downward, and further, one end of the press head 23, which is far away from the connecting plate 22, presses and fixes one end of the FPC to a predetermined position of the component 202, which is located outside the groove 203. Further, the connecting stay 222 is provided with a buffer 24 at a portion abutting against the corresponding press-fit head 23. When the connecting support plate 222 presses the corresponding pressing head 23, one end of the buffer 24 abuts against the horizontal surface 232 of the pressing head 23, so that the impact of the pressing head 23 on the FPC is reduced, the quality is improved, and the defect is reduced.

As shown in fig. 5 and 6, the bending assembly 30 includes a second cylinder 31 fixed to the fixed end of the first cylinder 21 or the fixed plate 10, a pressing block 32 disposed at the movable end of the second cylinder 31, and a bending blade 33 disposed at a side of the connecting plate 22 away from the first cylinder 21. In the present embodiment, the fixed end of the second cylinder 31 is fixed on the fixed end of the first cylinder 21, and the second cylinder 31 moves in the same direction as the first cylinder 21. The pressing block 32 is disposed between the pair of pressing heads 23 and between the pair of bending blades 33, so that the FPC pre-fixed by the pressing heads 23 can be pressed and attached in the groove 203. Namely, the second cylinder 31 is used for driving the pressing block 32 to attach the flexible circuit board 201 in the groove 203.

In this embodiment, the number of the bending blades 33 is two, and the two bending blades are respectively disposed on two sides of the pressing block 32, so that two preset positions of the FPC can be bent at the same time. Specifically, the bending blade 33 includes a fixing portion 331 movably disposed on the connecting plate 22 and a bending portion 332 disposed at an end of the fixing portion 331 away from the connecting plate 22. When the first cylinder 21 drives the press-fit head 23 to move towards the FPC, the bending blade 33 is driven to perform synchronous motion, so that the end of the bending blade 33 away from the first cylinder 21 is abutted to the bottom wall of the groove 203 through the flexible circuit board 201. That is, the end of the bending portion 332 far away from the end of the fixing portion 331 pre-presses the corresponding position of the FPC to the bottom of the groove 203 of the component 202.

Specifically, one side of the bending portion 332 close to the extrusion block 32 is disposed obliquely along a direction close to the extrusion block 32, that is, the distance between the pair of bending portions 332 is set up in a large and small manner. Therefore, when the pressing block 32 is driven by the second cylinder 31 to move longitudinally in the direction close to the FPC, the pressing block 32 forces the bending portion 332 to move transversely in the direction away from the pressing block 32 as the distance between the pressing block 32 and the bending portion 332 is reduced. That is, the bending portion 332 moves in the horizontal direction under the action of the pressing block 32, so that one end of the bending portion 332 extending into the groove 203 moves in the direction away from the pressing block 32, and abuts against the sidewall of the groove 203. Since the end of the bending portion 332 away from the fixing portion 331 is already abutted against the bottom wall of the groove 203 by the first cylinder 21, as shown in fig. 8, the end of the bending portion 332 away from the fixing portion 331 is abutted against the corner of the groove 203 (i.e. the joint between the bottom wall and the sidewall) at this time, so that the FPC can be tightly attached to the inner wall of the groove 203, thereby preventing a gap from occurring between the FPC and the inner wall of the groove 203, and realizing an automatic bending effect on the FPC. Furthermore, one end of the bending part 332, which is far away from the connecting plate 22, is provided with a bending head 333, and the bending head 333 is obliquely arranged along the direction far away from the extrusion block 32, that is, the bending head 333 is obliquely arranged along the corner direction close to the groove 203, so that the bending part 332 can be more accurately positioned and abutted on the corner of the groove 203.

Wherein, a sliding bar 34 is fixed on one side of the connecting plate 22 away from the first cylinder 21, and the sliding bar 34 is arranged in parallel with the connecting main plate 221. The fixing portion 331 is formed with a sliding groove 334 adapted to the sliding bar 34. When the pressing block 32 drives the bending portion 332 to move in a direction away from the pressing block 32, the fixing portion 331 drives the sliding bar 34 to slide along the sliding groove 334, so as to accurately limit the lateral movement of the bending portion 332. Further, a steel ball 321 is arranged on one side of the extrusion block 32 close to the bending knife 33. The steel ball 321 is abutted against one side of the bending knife 33 close to each other, so that the contact area of the extrusion block 32 and the bending knife 33 is reduced, and the sliding friction force of the extrusion block 32 along the bending part 332 is reduced.

Further, in one embodiment, bending assembly 30 further includes a return member 35. The reset element 35 is used to reset the bending blade 33 to a predetermined initial position when the bending assembly 30 is not in operation and to reset the pressing block 32 when it is raised. Specifically, the reset element 35 includes a sleeve rod 351 disposed on the fixing portion 331 and parallel to the sliding bar 34, and a limit block 352 sleeved on the sleeve rod 351. It should be noted that the limiting block 352 may be fixed to other structures of the device, such as the fixing plate 10. The limiting block 352 is provided with a through hole (not shown in the figure) for the loop bar 351 to pass through, one end of the loop bar 351, which is far away from the fixing portion 331, passes through the through hole and is provided with a limiting ring 353, and the area of the limiting ring 353 is larger than that of the through hole. That is, the limiting ring 353 is fixed to one end of the sleeve rod 351 away from the fixing portion 331, so as to prevent the sleeve rod 351 from being separated from the limiting block 352. The sleeve rod 351 is sleeved with a return spring 354 between the fixing portion 331 and the stopper 352. When the pressing block 32 moves downwards to drive the bending knife 33 to move transversely, the fixing part 331 forces the return spring 354 to contract; when the pressing block 32 moves upward, the return spring 354 drives the bending blade 33 to move in a direction approaching the pressing block 32, thereby completing the return of the bending blade 33.

Referring to fig. 7 and 8, the implementation principle of the present invention is as follows:

(1) grabbing the flexible circuit board 201 by a manipulator or manually, placing a male head on the component 202 (such as an FPC female seat) for pre-pressing, and then moving the component 202 to a preset position below the flexible circuit board pressing and bending mechanism 100 by a device such as a belt line;

(2) the first air cylinder 21 drives the pressing heads 23 to descend, so that the pressing heads 23 respectively press the two ends of the FPC on the component 202, and the pressing parts are respectively located at the two sides of the groove 203 of the component 202; meanwhile, the first air cylinder 21 drives the bending knife 33 to extend into the groove 203, so that the FPC part above the groove 203 is pre-pressed at the bottom of the groove 203;

(3) the second cylinder 31 drives the extrusion block 32 to descend, and the extrusion block 32 drives the pair of bending knives 33 to move along the mutually away direction, so that the end part of one end, close to the groove 203, of the bending knife 33 abuts against the corner of the groove 203, and the flattening and bending effects on the FPC are achieved.

In summary, the flexible circuit board press-fit bending mechanism 100 provided by the present invention, driven by the first cylinder 21, enables the press-fit head 23 to press-fit one end of the flexible circuit board 201, and enables the bending blade 33 to abut against the bottom wall of the groove 203; then, the pressing block 32 presses the flexible circuit board 201 on the bottom wall of the groove 203 by the driving of the second cylinder 31, so that the pressing effect on the flexible circuit board 201 is completed; in the process, the pressing block 32 enables the bending knife 33 to move to abut against the side wall of the groove 203, so that one end of the bending knife 33 abuts against the corner of the groove 203, and further the part of the flexible circuit board 201 at the corner of the groove 203 is bent, and the bending effect on the flexible circuit board 201 is completed. The utility model has high degree of automation of operation, replaces manual operation, and reduces operation steps, thereby improving the installation efficiency and precision of the flexible circuit board 201.

The utility model is not limited solely to that described in the specification and embodiments, and additional advantages and modifications will readily occur to those skilled in the art, so that the utility model is not limited to the specific details, representative apparatus, and illustrative examples shown and described herein, without departing from the spirit and scope of the general concept as defined by the appended claims and their equivalents.

Claims (10)

1. A flexible circuit board pressing and bending mechanism is used for attaching and fixing a flexible circuit board in a groove preset by a component and is characterized by comprising a fixing plate, a pressing assembly and a bending assembly; the pressing assembly comprises a first air cylinder fixed on the fixing plate, a connecting plate arranged at the movable end of the first air cylinder and a pressing head arranged on one side of the connecting plate far away from the first air cylinder; the bending assembly comprises a second air cylinder fixed on the fixed end of the first air cylinder or the fixed plate, an extrusion block arranged at the movable end of the second air cylinder and a bending knife arranged on one side of the connecting plate, which is far away from the first air cylinder; the first cylinder is used for driving the connecting plate to move along the direction close to the pressing head, so that the pressing head is driven to press one end of the flexible circuit board on the component, and one end of the bending knife far away from the first cylinder is driven to abut against the bottom wall of the groove through the flexible circuit board; the second cylinder is used for driving the extrusion block to attach the flexible circuit board in the groove, and one end, extending into the groove, of the bending knife moves in the direction away from the extrusion block so as to abut against the side wall of the groove.

2. A press-fit bending mechanism for flexible circuit boards according to claim 1, wherein said connecting plate comprises a connecting main plate fixed to the movable end of said first cylinder and two connecting support plates extending horizontally from the two ends of said connecting main plate, respectively; the two pressing heads are respectively arranged at one end, close to the connecting support plate, far away from the connecting main plate; the extrusion block is arranged between the two pressing heads.

3. A press-fit bending mechanism for flexible circuit boards according to claim 2, wherein the connecting support plate is provided with a buffer; when the connecting support plate presses the corresponding pressing head, one end of the buffer is abutted to the pressing head.

4. The flexible circuit board press-fit bending mechanism according to claim 2, wherein a sliding plate is fixed to one end of the connecting support plate away from the connecting main plate, and the sliding plate is provided with a limiting projection; one end of the pressing head, which is close to the first cylinder, is provided with a limiting groove matched with the limiting lug; the limiting lug can slide along the limiting groove so that the connecting support plate presses the pressing head in the vertical direction.

5. The flexible circuit board press-fit bending mechanism according to claim 1, wherein the bending blade includes a fixed portion movably disposed on the connecting plate and a bending portion disposed at an end of the fixed portion away from the connecting plate; one side of the bending part close to the extrusion block is obliquely arranged along the direction close to the extrusion block.

6. A press-fit bending mechanism for a flexible circuit board according to claim 5, wherein one end of the bending portion away from the connecting plate is provided with a bending head, and the bending head is arranged obliquely in a direction away from the extrusion block.

7. The flexible circuit board press-fit bending mechanism according to claim 5, wherein a sliding bar is fixed on one side of the connecting plate away from the first cylinder, and the fixing portion is provided with a sliding groove adapted to the sliding bar; when the extrusion block drives the bending part to move along the direction far away from the extrusion block, the fixing part drives the sliding strip to slide in the sliding groove, so that the moving direction of the bending part is limited.

8. The flexible circuit board press-fit bending mechanism according to claim 7, wherein the bending assembly further comprises a reset member; the reset piece comprises a sleeve rod and a limiting block, wherein the sleeve rod is arranged on the fixing part and is parallel to the sliding strip; the limiting block is provided with a through hole for the loop bar to pass through, and one end of the loop bar, which is far away from the fixed part, passes through the through hole and is provided with a limiting ring; the area of the limiting ring is larger than that of the via hole; the loop bar is in the fixed part with the cover is equipped with reset spring between the stopper, reset spring drive the bending knife is along the direction removal that is close to the extrusion piece.

9. A press bending mechanism for flexible circuit board according to claim 1, wherein the number of the bending blades is two, and the two bending blades are respectively disposed on two sides of the pressing block.

10. The flexible circuit board press-fit bending mechanism according to claim 1, wherein a steel ball is arranged on one side of the extrusion block close to the bending knife; the steel ball is abutted against one side of the bending knife, which is close to the steel ball.

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