CN109175147B

CN109175147B - Multipurpose type component pin deformation device

Info

Publication number: CN109175147B
Application number: CN201811171635.2A
Authority: CN
Inventors: 李炬辉; 严丽囡; 严利江; 刘新春
Original assignee: Shaoxing Newbright Lighting Co ltd
Current assignee: Shaoxing Newbright Lighting Co ltd
Priority date: 2018-10-09
Filing date: 2018-10-09
Publication date: 2023-10-13
Anticipated expiration: 2038-10-09
Also published as: CN109175147A

Abstract

The invention discloses a multipurpose component pin deformation device, which comprises a bracket, a component, an L-shaped bending device, a cutting device and a stepped bending device, wherein the L-shaped bending device is arranged on the bracket; the bottom of the component is provided with a pair of pins which are symmetrically arranged left and right; rectangular component placement grooves which penetrate left and right are formed in the middle of the upper end face of the bracket; a rectangular pin sliding groove which penetrates left and right and is used for sliding pins left and right is formed on the lower side wall of the component mounting groove; the width of the pin sliding groove in the front-back direction is equal to the diameter of the pin; the L-shaped bending device, the cutting device and the stepped bending device are sequentially arranged at the lower part of the bracket from left to right; the invention has the advantages that: the pin cutting-off, L-shaped bending and stepped bending functions are integrated, so that corresponding equipment is greatly reduced, the occupied area is reduced, and the cost is saved.

Description

Multipurpose type component pin deformation device

Technical Field

The invention relates to the field of lamp component processing, in particular to a multipurpose component pin deformation device.

Background

When the lamp is processed, electronic components are required to be inserted into the PCB, and a manual plug-in is required for a small lamp manufacturer; however, when the electronic component leaves the factory, the length of the pins of the electronic component is often too long, and the pins are generally in a vertical state. Therefore, before the electronic component is inserted into the PCB, the length of the pin needs to be manually cut, and in some cases, the pin after the disassembly and cutting needs to be bent, and when the pin bending is manually completed, the shape is often different, so that the subsequent welding is inaccurate, and thus, a device is needed to complete the work.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a multipurpose component pin deformation device which integrates the functions of pin cutting, L-shaped bending and stepped bending, thereby greatly reducing corresponding equipment, reducing occupied area and saving cost.

The technical scheme for solving the technical problems is as follows: a multipurpose component pin deforming device comprises a bracket and a component; the bottom of the component is provided with a pair of pins which are symmetrically arranged left and right; rectangular component placement grooves which penetrate left and right are formed in the middle of the upper end face of the bracket; a rectangular pin sliding groove which penetrates left and right and is used for sliding pins left and right is formed on the lower side wall of the component mounting groove; the width of the pin sliding groove in the front-back direction is equal to the diameter of the pin; the device also comprises an L-shaped bending device, a cutting device and a stepped bending device; the L-shaped bending device, the cutting device and the ladder-shaped bending device are sequentially arranged at the lower part of the bracket from left to right.

As the preferable of the above technical scheme, a rectangular L-shaped bending driving groove is formed at the left part of the lower side wall of the pin sliding groove, and the front and rear ends of the L-shaped bending driving groove extend to the front and rear side walls of the pin sliding groove respectively, and the upper end extends upwards; the top of the left side wall of the L-shaped bending driving groove is provided with a bending part sliding groove in a penetrating way leftwards; the L-shaped bending device comprises an L-shaped bending moving block with an upward opening in an L-shaped bending driving groove in a sliding way from front to back; a gap is arranged between the upper end surface of the L-shaped bending moving block and the upper side wall of the L-shaped bending driving groove, and the gap is equal to the diameter of the pin;

as the optimization of the technical scheme, the upper end of the blanking groove is communicated with the pin sliding groove; the cutting device comprises a cutting moving block; the cutting moving block is arranged in the blanking groove in a back-and-forth moving way; the upper end face of the cutting-off moving block is tightly attached to the top face of the blanking groove.

As the preferable of the technical proposal, the upper end of the right part of the pin sliding groove is formed with a left positioning block of L shape; the step-shaped bending device comprises an inverted T-shaped center moving block and an L-shaped right positioning block, wherein the inverted T-shaped center moving block and the L-shaped right positioning block are telescopic on the rear side wall of the pin sliding groove; the left positioning block and the right positioning block are symmetrically arranged left and right; the left-right width of the vertical part of the center moving block is equal to the left-right distance between a pair of pins of the component; a gap is arranged between the left end face of the vertical part of the center moving block and the right end face of the left positioning block, and the gap is equal to the diameter of the pin; a gap is arranged between the right end face of the vertical part of the center moving block and the left end face of the right positioning block, and the diameter of the gap is equal to that of the pin; a horizontal moving groove is formed on the front end surface of the horizontal part of the central moving block, and the upper end of the horizontal moving groove extends to the vertical part of the central moving block; the width of the horizontal moving groove in the front-back direction is the same as that of the pin sliding groove in the front-back direction; a pair of horizontal bending blocks are arranged in the horizontal movement groove in a left-right movement manner; a gap is arranged between the upper end face of the horizontal bending block and the lower end faces of the horizontal parts of the left positioning block and the right positioning block, and the gap is equal to the diameter of the pin; the front end face of the horizontal bending block is flush with the front end face of the center moving block.

As a preferable mode of the above technical scheme, an L-shaped partition plate is formed at the left part of the pin sliding groove; the left end face of the vertical part of the lower part of the partition plate is level with the right side wall of the L-shaped bending driving groove; the right end face of the separation plate is positioned on the right side of the left side wall of the material dropping groove.

As the preferable of the technical proposal, an L-shaped bending threaded rod is pivoted between the front side wall and the rear side wall of the lower part of the L-shaped bending driving groove; an L-shaped bending driving motor is fixed on the rear end face of the bracket; an output shaft of the L-shaped bending driving motor is fixedly connected with the rear end of the L-shaped bending threaded rod; the L-shaped bending moving block is in threaded connection with the L-shaped bending threaded rod.

As the preferable of the technical proposal, a cutting cylinder is fixed on the rear side wall of the blanking groove; the cutting moving block is fixed at the front end of a piston rod of the cutting cylinder.

As the preferable of the technical proposal, the lower end of the rear side wall of the horizontal moving groove is provided with a horizontal guiding groove extending backwards; the horizontal bending block is L-shaped, and the horizontal part slides left and right and is arranged in the horizontal guide groove; a horizontal driving threaded rod is pivoted between the left side wall and the right side wall of the horizontal guide groove; left and right parts of the horizontal driving threaded rod are formed with threaded parts with opposite rotation directions; the horizontal parts of the pair of horizontal bending blocks are respectively in threaded connection with different threaded parts of the horizontal driving threaded rod; a horizontal driving motor is fixed on the left side wall of the horizontal guide groove; the output shaft of the horizontal driving motor is fixedly connected with the left end of the horizontal driving threaded rod.

As the optimization of the technical scheme, the back side wall of the pin sliding groove is provided with an inverted T-shaped front-back moving groove matched with the center moving block; a front and back moving cylinder is fixed on the back side wall of the front and back moving groove; the center moving block is fixed at the front end of a piston rod of the front-back moving cylinder.

As the preferable of the above technical scheme, the body of the component is equal to the height of the component mounting groove; an upper leaning plate is hinged on the upper end surface of the bracket.

The invention has the beneficial effects that: the pin cutting-off, L-shaped bending and stepped bending functions are integrated, so that corresponding equipment is greatly reduced, the occupied area is reduced, and the cost is saved.

Drawings

FIG. 1 is a schematic cross-sectional view of the present invention;

FIG. 2 is a schematic view of the structure of the section A-A of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the cross-section of the structure B-B of FIG. 1 according to the present invention;

FIG. 4 is a schematic view of the structure of the section C-C of FIG. 1 according to the present invention;

in the figure, 10, a bracket; 100. a component mounting groove; 101. a pin sliding groove; 102. a bending part sliding groove; 103. an L-shaped bending driving groove; 104. a material dropping groove; 105. a back and forth movement groove; 11. a partition plate; 12. a left positioning block; 13. an upper abutment plate; 20. a component; 21. pins; 30. an L-shaped bending device; 31. an L-shaped bending moving block; 32. l-shaped bending threaded rod; 33. an L-shaped bending driving motor; 40. a cutting device; 41. cutting off the moving block; 42. cutting off the cylinder; 50. a step-shaped bending device; 51. a center moving block; 510. a horizontal movement groove; 511. a horizontal guide groove; 512. horizontally driving the threaded rod; 513. a horizontal bending block; 52. a right positioning block; 53. the cylinder is moved back and forth.

Detailed Description

As shown in fig. 1 to 4, a multipurpose component pin deforming device comprises a bracket 10 and a component 20; the bottom of the component 20 is provided with a pair of pins 21 which are symmetrically arranged left and right; a rectangular component mounting groove 100 which penetrates left and right is formed in the middle of the upper end surface of the bracket 10; a rectangular pin sliding groove 101 which penetrates left and right and is used for sliding pins left and right is formed on the lower side wall of the component mounting groove 100; the width of the pin sliding groove 101 in the front-rear direction is equal to the diameter of the pin 21; the device also comprises an L-shaped bending device 30, a cutting device 40 and a stepped bending device 50; the L-shaped bending device 30, the cutting device 40 and the stepped bending device 50 are provided in the lower portion of the bracket 10 in this order from left to right.

As shown in fig. 1 and 2, a rectangular L-shaped bending driving groove 103 is formed in the left part of the lower side wall of the pin sliding groove 101, and the front and rear ends of the L-shaped bending driving groove 103 extend to the front and rear side walls of the pin sliding groove 101, respectively, and the upper ends extend upward; the top of the left side wall of the L-shaped bending driving groove 103 is provided with a bending part sliding groove 102 in a penetrating way leftwards; the L-shaped bending device 30 comprises an L-shaped bending moving block 31 with an upward opening and in an L-shaped bending driving groove 103, wherein the L-shaped bending moving block 31 is arranged in the L-shaped bending driving groove in a sliding way back and forth manner; a gap is arranged between the upper end surface of the L-shaped bending moving block 31 and the upper side wall of the L-shaped bending driving groove 103, and the gap is equal to the diameter of the pin 21;

as shown in fig. 1 and 3, the upper end of the material dropping groove 104 is communicated with the pin sliding groove 101; the cutting device 40 includes a cutting moving block 41; the cutting moving block 41 is arranged in the blanking groove 104 in a back-and-forth moving way; the upper end surface of the cutting moving block 41 is closely attached to the top surface of the chute 104.

As shown in fig. 1 and 4, an L-shaped left positioning block 12 is formed at the upper end of the right part of the pin sliding groove 101; the step bending device 50 comprises an inverted T-shaped center moving block 51 and an L-shaped right positioning block 52 which are telescopic back and forth on the rear side wall of the pin sliding groove 101; the left positioning block 12 and the right positioning block 52 are arranged in bilateral symmetry; the vertical part of the center moving block 51 has the same left-right width as the left-right pitch of the pair of pins 21 of the component 20; a gap is provided between the left end face of the vertical portion of the center moving block 51 and the right end face of the left positioning block 12 and is equal to the diameter of the pin 21; a gap is provided between the right end face of the vertical portion of the center moving block 51 and the left end face of the right positioning block 32 and is equal to the diameter of the pin 21; a horizontal movement groove 510 is formed on a front end surface of the horizontal portion of the center movement block 51 and an upper end of the horizontal movement groove 510 extends onto a vertical portion of the center movement block 51; the width of the horizontal movement groove 510 in the front-rear direction is the same as the width of the pin sliding groove 101 in the front-rear direction; a pair of horizontal bending blocks 513 are arranged in the horizontal movement groove 510 in a left-right movement manner; a gap is arranged between the upper end surface of the horizontal bending block 513 and the lower end surfaces of the horizontal parts of the left positioning block 12 and the right positioning block 52, and the gap is equal to the diameter of the pin 21; the front end face of the horizontal bending block 513 is flush with the front end face of the center moving block 51.

As shown in fig. 1, an L-shaped partition plate 11 is formed at the left part of the pin sliding groove 101; the left end face of the lower vertical part of the partition plate 11 is level with the right side wall of the L-shaped bending driving groove 103; the right end face of the partition plate 11 is located on the right side of the left side wall of the chute 104.

As shown in fig. 1 and 2, an L-shaped bending threaded rod 32 is pivotally connected between the front and rear side walls of the lower part of the L-shaped bending driving groove 103; an L-shaped bending driving motor 33 is fixed on the rear end surface of the bracket 10; an output shaft of the L-shaped bending driving motor 33 is fixedly connected with the rear end of the L-shaped bending threaded rod 32; the L-shaped bending moving block 31 is screwed on the L-shaped bending threaded rod 32.

As shown in fig. 1 and 3, a cutoff cylinder 42 is fixed to the rear side wall of the chute 104; the cutting moving block 41 is fixed to the front end of the piston rod of the cutting cylinder 42.

As shown in fig. 1 and 4, the lower end of the rear sidewall of the horizontal movement groove 510 is formed with a horizontal guide groove 511 extending rearward; the horizontal bending block 513 is L-shaped and the horizontal part slides left and right and is arranged in the horizontal guide groove 511; a horizontal driving threaded rod 512 is pivoted between the left and right side walls of the horizontal guide groove 511; left and right portions of the horizontal driving threaded rod 512 are formed with threaded portions having opposite rotation directions; the horizontal parts of the pair of horizontal bending blocks 513 are respectively screwed on different thread parts of the horizontal driving threaded rod 512; a horizontal driving motor is fixed on the left side wall of the horizontal guide groove 511; an output shaft of the horizontal driving motor is fixedly connected with the left end of the horizontal driving threaded rod 512.

As shown in fig. 1 and 4, the rear side wall of the pin sliding groove 101 is formed with an inverted T-shaped back and forth movement groove 105 which is fitted with the center movement block 51; a back-and-forth movement cylinder 53 is fixed to the back side wall of the back-and-forth movement groove 105; the center moving block 51 is fixed to the front end of the piston rod of the forward and backward moving cylinder 53.

As shown in fig. 1 to 4, the body of the component 20 is equal to the component mounting groove 100 in height; an upper abutment plate 13 is hinged on the upper end face of the bracket 10.

Working principle of the multipurpose component pin deformation device is as follows:

the component 20 is inserted into the component mounting groove 100 from top to bottom and the pair of pins 21 are simultaneously inserted into the pin sliding groove 101;

when cutting, the cutting moving block 41 is positioned at the rear side of the pin sliding groove 101; the pins 21 on the left side of the component 20 are abutted against the right end face of the partition plate 11, and then the cutting moving block 41 moves forward to cut the portion located in the stock chute 104;

when the L-shaped bending is performed, pins 21 on the right side of the component 20 are abutted against the left end face of the partition plate 11; when the L-shaped bending moving block 31 is positioned at the rear side of the pin sliding groove 101, the L-shaped bending moving block 31 moves forwards to partially bend a pair of pins forwards in the L-shaped bending driving groove 103; when the L-shaped bending moving block 31 is positioned at the front side of the pin sliding groove 101, the L-shaped bending moving block 31 moves backwards to perform backward L-shaped bending on a pair of pins in the L-shaped bending driving groove 103;

the step bending, the left pin 21 of the component 20 is abutted against the right end face of the left positioning block 12, then the center moving block 51 and the right positioning block 52 move forward to be abutted against the front side wall of the pin sliding groove 101, then the pair of horizontal bending blocks 513 synchronously bend the lower part of the pin 21 of the component 20 outwards, and finally the lower end of the pin 21 of the component 20 is bent under the action of the vertical part of the left positioning block 12, the vertical part of the right positioning block 52 and the pair of horizontal bending blocks 513, so that the complete step bending is performed.

The foregoing is merely illustrative of the preferred embodiments of the present invention, and modifications in detail will readily occur to those skilled in the art based on the teachings herein without departing from the spirit and scope of the invention.

Claims

1. A multipurpose component pin deformation device comprises a bracket (10) and a component (20); the bottom of the component (20) is provided with a pair of pins (21) which are symmetrically arranged left and right; a rectangular component placement groove (100) which penetrates left and right is formed in the middle of the upper end surface of the bracket (10); a rectangular pin sliding groove (101) which penetrates left and right and is used for sliding pins left and right is formed on the lower side wall of the component mounting groove (100); the width of the pin sliding groove (101) in the front-back direction is equal to the diameter of the pin (21); the method is characterized in that: the device also comprises an L-shaped bending device (30), a cutting device (40) and a stepped bending device (50); the L-shaped bending device (30), the cutting device (40) and the stepped bending device (50) are sequentially arranged at the lower part of the bracket (10) from left to right;

the left part of the lower side wall of the pin sliding groove (101) is provided with a rectangular L-shaped bending driving groove (103), and the front end and the rear end of the L-shaped bending driving groove (103) respectively extend to the front side wall and the rear side wall of the pin sliding groove (101) and the upper end extends upwards; a bending part sliding groove (102) is formed in the left side wall of the L-shaped bending driving groove (103) in a penetrating way in the left direction; the L-shaped bending device (30) comprises an L-shaped bending moving block (31) with an upward opening and a U-shaped opening, wherein the L-shaped bending moving block is arranged in an L-shaped bending driving groove (103) in a sliding way back and forth manner; a gap is arranged between the upper end surface of the L-shaped bending moving block (31) and the upper side wall of the L-shaped bending driving groove (103), and the gap is equal to the diameter of the pin (21);

a blanking groove (104) is formed in the middle of the lower end surface of the bracket (10); the upper end of the material dropping groove (104) is communicated with the pin sliding groove (101); the cutting device (40) comprises a cutting moving block (41); the cutting moving block (41) is arranged in the blanking groove (104) in a back-and-forth moving way; the upper end surface of the cutting moving block (41) is tightly attached to the top surface of the blanking groove (104);

the upper end of the right part of the pin sliding groove (101) is provided with a left positioning block (12) in an L shape; the step-shaped bending device (50) comprises an inverted T-shaped center moving block (51) and an L-shaped right positioning block (52) which are telescopic back and forth on the rear side wall of the pin sliding groove (101); the left positioning block (12) and the right positioning block (52) are symmetrically arranged left and right; the left-right width of the vertical part of the center moving block (51) is equal to the left-right distance between a pair of pins (21) of the component (20); a gap is arranged between the left end face of the vertical part of the center moving block (51) and the right end face of the left positioning block (12), and the gap is equal to the diameter of the pin (21); a gap is arranged between the right end face of the vertical part of the center moving block (51) and the left end face of the right positioning block (52) and is equal to the diameter of the pin (21); a horizontal movement groove (510) is formed on the front end surface of the horizontal part of the center movement block (51) and the upper end of the horizontal movement groove (510) extends to the vertical part of the center movement block (51); the width of the horizontal moving groove (510) in the front-back direction is the same as the width of the pin sliding groove (101) in the front-back direction; a pair of horizontal bending blocks (513) are arranged in the horizontal moving groove (510) in a left-right moving way; a gap is arranged between the upper end surface of the horizontal bending block (513) and the lower end surfaces of the horizontal parts of the left positioning block (12) and the right positioning block (52), and the gap is equal to the diameter of the pin (21); the front end surface of the horizontal bending block (513) is flush with the front end surface of the center moving block (51).

2. The multipurpose device pin deforming apparatus according to claim 1, wherein: an L-shaped partition plate (11) is formed at the left part of the pin sliding groove (101); the left end face of the lower vertical part of the partition plate (11) is level with the right side wall of the L-shaped bending driving groove (103); the right end face of the separation plate (11) is positioned on the right side of the left side wall of the material dropping groove (104).

3. The multipurpose device pin deforming apparatus according to claim 1, wherein: an L-shaped bending threaded rod (32) is pivoted between the front side wall and the rear side wall of the lower part of the L-shaped bending driving groove (103); an L-shaped bending driving motor (33) is fixed on the rear end surface of the bracket (10); an output shaft of the L-shaped bending driving motor (33) is fixedly connected with the rear end of the L-shaped bending threaded rod (32); the L-shaped bending moving block (31) is in threaded connection with the L-shaped bending threaded rod (32).

4. The multipurpose device pin deforming apparatus according to claim 1, wherein: a cutting cylinder (42) is fixed on the rear side wall of the blanking groove (104); the cutting moving block (41) is fixed to the front end of the piston rod of the cutting cylinder (42).

5. The multipurpose device pin deforming apparatus according to claim 1, wherein: the lower end of the rear side wall of the horizontal moving groove (510) is provided with a horizontal guide groove (511) extending backwards; the horizontal bending block (513) is L-shaped, and the horizontal part slides left and right and is arranged in the horizontal guide groove (511); a horizontal driving threaded rod (512) is pivoted between the left side wall and the right side wall of the horizontal guide groove (511); left and right parts of the horizontal driving threaded rod (512) are formed with threaded parts with opposite rotation directions; the horizontal parts of the pair of horizontal bending blocks (513) are respectively screwed on different thread parts of the horizontal driving threaded rod (512); a horizontal driving motor is fixed on the left side wall of the horizontal guide groove (511); an output shaft of the horizontal driving motor is fixedly connected with the left end of the horizontal driving threaded rod (512).

6. The multipurpose device pin deforming apparatus according to claim 1, wherein: an inverted T-shaped front and back moving groove (105) matched with the center moving block (51) is formed on the rear side wall of the pin sliding groove (101); a front and rear moving cylinder (53) is fixed on the rear side wall of the front and rear moving groove (105); the center moving block (51) is fixed at the front end of a piston rod of the back and forth moving cylinder (53).

7. The multipurpose device pin deforming apparatus according to claim 1, wherein: the height of the body of the component (20) is equal to that of the component placement groove (100); an upper leaning plate (13) is hinged on the upper end surface of the bracket (10).