CN218016087U - Pin assembly is cut with connector to electronic components processing - Google Patents

Abstract

The utility model belongs to the technical field of electronic components cuts the foot, especially, electronic components processing is with connector foot cutting assembly cuts foot to current electronic components foot cutting device often can not be quick pair batch electronic components and cut the foot, is not convenient for adjust according to different electronic components's demand to cutting foot length, can not satisfy the problem of the demand of using, now proposes following scheme, and it includes the processing platform, the bottom of processing platform is provided with a plurality of bracing pieces, and the bottom of processing platform is seted up flutedly, slides on one side inner wall of recess and is provided with location cutting mechanism, the top fixedly connected with portal frame of processing platform, the utility model discloses can effectually make under the rubber pressure pad push down the location to unified electronic components who places in the logical groove of location, can cut foot length according to different electronic components's demand and put down the regulation to can same specification excision, the simple operation promotes efficiency.

Description

Pin assembly is cut with connector to electronic components processing

Technical Field

The utility model relates to an electronic components cuts foot technical field, especially relates to a pin subassembly is cut to connector for electronic components processing.

Background

In the production process of some electronic components, partial cutting of the pins of the electronic components is usually required, so that the insertion and soldering of the electronic components in a circuit board are facilitated in the process of fixing the electronic components on various circuit boards, and the cutting procedure of overlong pins after soldering is avoided, so that the efficiency and the automation degree of circuit board processing are improved. Therefore, the pin cutting process of the electronic component is very important for the subsequent use, and in the pin cutting process of the electronic component, one important aspect to be considered is how to effectively realize high-precision pin cutting, because the precision of the pin cutting directly affects the use efficiency of the subsequent work of the electronic component and the work efficiency and automation degree of the whole circuit board processing process, and can have a profound effect on the quality of the circuit board. In addition, because the requirements of the electronic components on the distance and the shape between the pins of the electronic components when the electronic components are fixed on various circuit boards are different according to different electric appliances, circuits and circuit boards, and the corresponding electronic components can be prepared only according to corresponding standards in the production process of the electronic components, the electronic components which are convenient for subsequent use can be processed according to different pin length requirements when the electronic components are used in the pin cutting process of the electronic components, so as to meet different requirements of customers;

the existing electronic component pin cutting device can not cut the pins of batch electronic components quickly, is inconvenient to adjust the length of the cut pins according to the requirements of different electronic components, and can not meet the using requirements.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving present electronic components and parts and cutting the foot device often can not be quick to becoming batch electronic components and parts and cutting the foot, be not convenient for adjust according to different electronic components's demand to cutting foot length, can not satisfy the shortcoming of the demand of using, and the processing of an electronic components is with connector cutting foot subassembly that provides.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a pin subassembly is cut with connector in electronic components processing, includes the processing platform, the bottom of processing platform is provided with a plurality of bracing pieces, and the bottom of processing platform is seted up flutedly, and it is provided with location cutting mechanism to slide on one side inner wall of recess, and the top fixedly connected with portal frame of processing platform slides on the both sides inner wall of portal frame and is provided with same lifter plate, and the bottom of lifter plate is provided with the rubber and pushes down the pad, and the location that switches on mutually with the recess is seted up at the top of processing platform leads to the groove.

Preferably, the location cutting mechanism is including offering the first sliding tray on the inner wall of recess one side, and slidable mounting has first sliding block in the first sliding tray, fixedly connected with fixed plate on the first sliding block.

Preferably, one side fixed mounting of processing platform has first motor, and first threaded rod is installed to first sliding tray internal rotation, and the one end of first threaded rod welds with the output shaft of first motor mutually, has seted up first screw hole on the first sliding block, and first threaded rod thread mounting is in first screw hole, and first threaded rod can drive first sliding block displacement through first screw hole.

Preferably, two ends of the portal frame are provided with second sliding grooves, second sliding blocks are arranged in the two second sliding grooves in a sliding mode, and two ends of the lifting plate are fixedly connected with the two second sliding blocks.

Preferably, all rotate in two second sliding trays and install the second threaded rod, all seted up the second screw hole on two second sliding blocks, two second threaded rods are threaded mounting in two second threaded holes respectively, and the second threaded rod can drive the displacement of second sliding block through the second screw hole.

Preferably, one side fixed mounting of portal frame has the second motor, has seted up the transmission chamber in the portal frame, and the rotation axis is installed in the rotation of transmission intracavity, and the one end of rotation axis extends to the outside of portal frame and welds mutually with the output shaft of second motor, and the outside fixed cover of rotation axis is equipped with two first bevel gears, and the top of two second threaded rods all extends to transmission intracavity and fixedly connected with second bevel gear, and second bevel gear meshes with first bevel gear mutually, and first bevel gear can drive second bevel gear and rotate.

Preferably, a third sliding groove is formed in the top of the fixing plate, a third sliding block is slidably mounted in the third sliding groove, a mounting seat is fixedly connected to the top of the third sliding block, a third motor is arranged on the mounting seat, a blade is arranged on an output shaft of the third motor, a third threaded rod is rotatably mounted in the third sliding groove, a third threaded hole is formed in the third sliding block, a third threaded rod is threadedly mounted in the third threaded hole, a hand wheel is fixedly connected to one end of the third threaded rod, and the third threaded rod can drive the third sliding block to move through the third threaded hole.

Preferably, the fourth sliding grooves are formed in the inner walls of the two sides of the processing platform, the fourth sliding blocks are arranged in the two fourth sliding grooves in a sliding mode, and one side, close to each other, of each of the two fourth sliding blocks is fixedly connected with the same collecting box.

Compared with the prior art, the utility model has the advantages of:

1. according to the scheme, the first bevel gear is matched with the second bevel gear, and the second threaded rod is matched with the second sliding block, so that the rubber pressing pad can effectively press and position the electronic components uniformly placed in the positioning through groove;

2. according to the scheme, the first threaded rod is matched with the first sliding block, and the third threaded rod is matched with the third sliding block, so that the cutting length can be adjusted according to the requirements of different electronic components, the cutting can be performed in the same specification, the operation is convenient, and the efficiency is improved;

the utility model discloses can effectually make under the rubber pressure pad press the location to unified electronic components who places logical inslot in the location, can excise the regulation to cutting foot length according to different electronic components's demand to can be same with the specification excision, the simple operation promotes efficiency.

Drawings

Fig. 1 is a schematic structural view of a connector pin cutting assembly for processing electronic components according to the present invention;

fig. 2 is a schematic structural view of a positioning and cutting mechanism of a connector pin cutting assembly for processing electronic components according to the present invention;

fig. 3 is the utility model provides a collecting box spatial structure sketch map of connector pin cutting subassembly for electronic components processing.

In the figure: 1. a processing platform; 2. a support bar; 3. a first slider; 4. a gantry; 5. a second slider; 6. a lifting plate; 7. a rubber lower pressure pad; 8. positioning a through groove; 9. a first motor; 10. a first threaded rod; 11. a fixing plate; 12. a second threaded rod; 13. a second motor; 14. a rotating shaft; 15. a first bevel gear; 16. a second bevel gear; 17. a third slider; 18. a mounting seat; 19. a third motor; 20. a blade; 21. a third threaded rod; 22. a hand wheel; 23. a fourth slider; 24. and a collection box.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments, but not all embodiments.

Example one

Referring to fig. 1-2, a connector pin-cutting assembly for processing electronic components comprises a processing platform 1, wherein a plurality of support rods 2 are arranged at the bottom of the processing platform 1, a groove is formed in the bottom of the processing platform 1, a positioning cutting mechanism is slidably arranged on the inner wall of one side of the groove, the top of the processing platform 1 is fixedly connected with a portal frame 4 through welding, the inner walls of two sides of the portal frame 4 are slidably provided with a same lifting plate 6, a rubber lower pressure pad 7 is arranged at the bottom of the lifting plate 6, and a positioning through groove 8 communicated with the groove is formed in the top of the processing platform 1; the positioning cutting mechanism comprises a first sliding groove arranged on the inner wall of one side of the groove, a first sliding block 3 is arranged in the first sliding groove in a sliding mode, and a fixing plate 11 is fixedly connected to the first sliding block 3 through welding; a first motor 9 is fixedly installed on one side of the processing platform 1, a first threaded rod 10 is rotatably installed in a first sliding groove, one end of the first threaded rod 10 is welded with an output shaft of the first motor 9, a first threaded hole is formed in the first sliding block 3, the first threaded rod 10 is installed in the first threaded hole in a threaded mode, and the first threaded rod 10 can drive the first sliding block 3 to move through the first threaded hole; two ends of the portal frame 4 are provided with second sliding grooves, second sliding blocks 5 are installed in the two second sliding grooves in a sliding mode, and two ends of the lifting plate 6 are fixedly connected with the two second sliding blocks 5 through welding; second threaded rods 12 are rotatably arranged in the two second sliding grooves, second threaded holes are formed in the two second sliding blocks 5, the two second threaded rods 12 are respectively in threaded arrangement in the two second threaded holes, and the second threaded rods 12 can drive the second sliding blocks 5 to move through the second threaded holes; one side fixed mounting of portal frame 4 has second motor 13, set up the transmission chamber in the portal frame 4, the rotation axis 14 is installed in the rotation of transmission intracavity, the one end of rotation axis 14 extends to the outside of portal frame 4 and welds mutually with the output shaft of second motor 13, and the fixed cover in outside of rotation axis 14 is equipped with two first bevel gear 15, the top of two second threaded rods 12 all extends to the transmission intracavity and is connected with second bevel gear 16 through welded fastening, second bevel gear 16 meshes with first bevel gear 15 mutually, first bevel gear 15 can drive second bevel gear 16 and rotate.

Referring to fig. 2, a third sliding groove is formed in the top of the fixing plate 11, a third sliding block 17 is slidably mounted in the third sliding groove, a top fixedly connected with mounting seat 18 of the third sliding block 17, a third motor 19 is arranged on the mounting seat 18, a blade 20 is arranged on an output shaft of the third motor 19, a third threaded rod 21 is rotatably mounted in the third sliding groove, a third threaded hole is formed in the third sliding block 17, the third threaded rod 21 is threadedly mounted in the third threaded hole, a hand wheel 22 is fixedly connected to one end of the third threaded rod 21 through welding, and the third threaded rod 21 can drive the third sliding block 17 to move through the third threaded hole.

Referring to fig. 3, fourth sliding grooves have all been seted up on the both sides inner wall of processing platform 1, and equal slidable mounting has fourth sliding block 23 in two fourth sliding grooves, and the same collecting box 24 of welded connection is passed through to the one side that two fourth sliding blocks 23 are close to each other.

In this embodiment, when the cutting tool is used, first, an electronic component needing to cut a pin is placed in the positioning through groove 8, so that the pin of the electronic component extends downward, then the second motor 13 is started, an output shaft of the second motor 13 drives the rotating shaft 14 to rotate, the rotating shaft 14 drives the first bevel gear 15 to rotate, the first bevel gear 15 drives the second bevel gear 16 to rotate, the second bevel gear 16 drives the second threaded rod 12 to rotate, the second threaded rod 12 drives the second sliding block 5 to move downward through the second threaded hole, the second sliding block 5 can drive the rubber pressing pad 7 through the lifting plate 6 to press and fix the electronic component in the positioning through groove 8, then the blade 20 is adjusted according to the length of the needed cut pin, at this time, the hand wheel 22 can be rotated, the hand wheel 22 drives the third threaded rod 21 to rotate, the third threaded rod 21 drives the third sliding block 17 to move, the third sliding block 17 drives the third motor 19 to move through the mounting base 18, so as to achieve the purpose of adjusting the position of the blade 20, then the first motor 9 is started, so that the output shaft of the first motor 9 drives the first threaded rod 10 to rotate, the first threaded rod 10 drives the first threaded rod 3 to drive the first threaded rod to move, so as to drive the sliding block 17 to move, thereby the sliding block to move, and to perform the blade to perform the uniform cutting operation of the pin in the same horizontal pin of the same pin, and the same pin, so as the collecting box, and the unified pin, so as the pin, and the operation of the unified pin of the cutting operation of the collecting box 20 can be performed.

Example two

The difference from the first embodiment is that: be provided with pressure sensor in the pressure pad 7 under the rubber, detect the pressure that pressure pad 7 applyed on electronic components under the rubber through pressure sensor, then automatic control second motor 13 stop working, avoid too big pressure to produce the injury to electronic components.

The above descriptions are only preferred embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to, replaced or changed.

Claims (8)

1. The utility model provides a pin subassembly is cut to connector for electronic components processing, including processing platform (1), a serial communication port, the bottom of processing platform (1) is provided with a plurality of bracing pieces (2), the bottom of processing platform (1) is seted up flutedly, it is provided with location cutting mechanism to slide on one side inner wall of recess, the top fixedly connected with portal frame (4) of processing platform (1), it is provided with same lifter plate (6) to slide on the both sides inner wall of portal frame (4), the bottom of lifter plate (6) is provided with rubber and pushes down pad (7), the location that switches on mutually with the recess is seted up at the top of processing platform (1) leads to groove (8).

2. The connector pin cutting assembly for processing the electronic components as claimed in claim 1, wherein the positioning and cutting mechanism comprises a first sliding groove formed on an inner wall of one side of the groove, a first sliding block (3) is slidably mounted in the first sliding groove, and a fixing plate (11) is fixedly connected to the first sliding block (3).

3. The connector pin cutting assembly for processing the electronic components as claimed in claim 2, wherein a first motor (9) is fixedly mounted on one side of the processing platform (1), a first threaded rod (10) is rotatably mounted in the first sliding groove, one end of the first threaded rod (10) is welded to an output shaft of the first motor (9), a first threaded hole is formed in the first sliding block (3), and the first threaded rod (10) is threadedly mounted in the first threaded hole.

4. The connector pin cutting assembly for processing the electronic components as claimed in claim 3, wherein the two ends of the portal frame (4) are provided with second sliding grooves, the second sliding blocks (5) are slidably mounted in the two second sliding grooves, and two ends of the lifting plate (6) are fixedly connected with the two second sliding blocks (5).

5. The connector pin cutting assembly for processing the electronic components as claimed in claim 4, wherein second threaded rods (12) are rotatably mounted in the two second sliding grooves, second threaded holes are formed in the two second sliding blocks (5), and the two second threaded rods (12) are respectively threadedly mounted in the two second threaded holes.

6. The connector pin cutting assembly for processing the electronic components as claimed in claim 4, wherein a second motor (13) is fixedly mounted on one side of the portal frame (4), a transmission cavity is formed in the portal frame (4), a rotating shaft (14) is rotatably mounted in the transmission cavity, one end of the rotating shaft (14) extends to the outer side of the portal frame (4) and is welded with an output shaft of the second motor (13), two first bevel gears (15) are fixedly sleeved on the outer side of the rotating shaft (14), the top ends of the two second threaded rods (12) extend into the transmission cavity and are fixedly connected with a second bevel gear (16), and the second bevel gear (16) is meshed with the first bevel gears (15).

7. The connector pin cutting assembly for processing the electronic components as claimed in claim 4, wherein a third sliding groove is formed in the top of the fixing plate (11), a third sliding block (17) is slidably mounted in the third sliding groove, a mounting seat (18) is fixedly connected to the top of the third sliding block (17), a third motor (19) is arranged on the mounting seat (18), a blade (20) is arranged on an output shaft of the third motor (19), a third threaded rod (21) is rotatably mounted in the third sliding groove, a third threaded hole is formed in the third sliding block (17), the third threaded rod (21) is threadedly mounted in the third threaded hole, and a hand wheel (22) is fixedly connected to one end of the third threaded rod (21).

8. The connector pin cutting assembly for processing the electronic components as claimed in claim 4, wherein the processing platform (1) is provided with fourth sliding grooves on inner walls of two sides, fourth sliding blocks (23) are slidably mounted in the two fourth sliding grooves, and one side of the two fourth sliding blocks (23) close to each other is fixedly connected with the same collecting box (24).

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