CN210379737U

CN210379737U - 5G data line production and processing tool

Info

Publication number: CN210379737U
Application number: CN201921093240.5U
Authority: CN
Inventors: 唐贵平; 刘培伟
Original assignee: Huizhou Hehong Wire & Cable Co ltd
Current assignee: Huizhou Hehong Wire & Cable Co ltd
Priority date: 2019-07-12
Filing date: 2019-07-12
Publication date: 2020-04-21
Anticipated expiration: 2029-07-12

Abstract

The utility model provides a 5G data line production and processing jig, which comprises a jig main body and a wire arranging device, wherein a wire clamping strip is arranged in the jig main body, and a wire clamping groove is formed between two wire clamping strips; the outside of the jig main body is provided with a magnetic block; the wire arranging device is arranged at one end of the jig main body and comprises a connecting block, an upper wire arranging strip and a lower wire arranging strip, the connecting block is integrally formed with one side end face of the upper wire arranging strip and the lower wire arranging strip respectively, a metal block is arranged on the upper end face of the connecting block, wire arranging teeth are arranged on the upper end faces of the upper wire arranging strip and the lower wire arranging strip, which are close to one end of the connecting block, and wire pressing grooves and wire pressing strips which are in mutual staggered fit up and down are arranged on the upper wire arranging; the wire can be fixed by the wire clamping groove, so that the wire is prevented from swinging during processing operation, and the processing quality and efficiency are improved; the arrangement of the metal blocks and the magnetic blocks facilitates the fixation and the opening of the two rows of winding teeth and enables the two rows of winding teeth to be more compact when being folded, thereby being beneficial to the winding displacement and the processing operation of the core wire.

Description

5G data line production and processing tool

Technical Field

The utility model belongs to the technical field of data line production and processing technique and specifically relates to a 5G data line production and processing tool.

Background

With the rapid development of 5G products, the requirements on the processing technology of the high-frequency data line are higher and higher, and the wire processing technology of the high-frequency data line is as follows: the method comprises the steps of arranging wires → cutting mylar by laser → moving mylar → arranging ground wires → removing core wire skin by laser → shearing by proportion → dipping tin → arranging core wires → installing parts → welding; in the wire processing industry, generally, a wire clamp is used for arranging wires or an internal mold is firstly injected for positioning core wires, and then the post-procedure processing operation is carried out; however, the wire clamp wiring mode has great damage to the high-frequency wire structure, directly affects the high-frequency performance, and cannot meet the product performance requirement; the injection molding internal mode process is complex, and the production working hours are long; and need secondary clamping tool in above wire rod processing technology with fastener winding displacement or the centre form location heart yearn of moulding plastics earlier, this can exert an influence to the performance of product to reduce the yields of product.

Therefore, there is an urgent need for a jig which does not require a wire clamp and an injection molding inner mold, and arranges wires on the clamping grooves of the jig without damaging the wire structure, and then performs the processing operation of the post-process.

SUMMERY OF THE UTILITY MODEL

To the problem that the aforesaid urgently needed a tool that does not need fastener and mould plastics the centre form, the utility model provides a pair of 5G data line production and processing tool.

In order to achieve the above purpose, the utility model discloses a realize through following technical scheme:

A5G data line production and processing jig comprises a jig main body and a wire arranging device, wherein a wire clamping groove is formed between two wire clamping lines arranged inside the jig main body; the outside of the jig main body is provided with a magnetic block; the wire arranging device is arranged at one end of the jig main body and comprises a connecting block, an upper row of wires and a lower row of wires, the connecting block is integrally formed with one side end face of the upper row of wires and the lower row of wires, a metal block is arranged on the upper end face of the connecting block, wire arranging teeth are arranged on the upper row of wires and the lower row of wires, the upper row of wires and the lower row of wires are close to one end of the connecting block, and wire pressing grooves and wire pressing strips which are in mutual staggered fit are arranged on the upper row of wires and the lower row of wires.

Further, the jig main body comprises a main body cover and a main body box, the main body cover is connected with one side end of the main body box through a pin, and a chute is arranged on the side end of the main body box at the position where the main body cover is folded; the main body cover is convenient to open and close.

Furthermore, pin holes are formed in one end, far away from the upper line and the lower line, of the connecting block; the connecting block is connected with the jig main body through a pin, namely the upper lines and the lower lines are connected with the jig main body through pins, so that the upper lines and the lower lines can be conveniently opened and closed.

Furthermore, the wire clamping strip is provided with an adjusting bolt hole, the adjusting bolt hole is oval, and the long axis of the adjusting bolt hole is larger than the outer diameter of at least one bolt; the connecting bolts at different positions in the adjusting bolt holes can adjust the width of the wire clamping groove, and the wire clamping groove is suitable for wire processing operation with different outer diameters.

Furthermore, one end of the pressing line is provided with a round handle; the pressing line can be conveniently and comfortably moved.

Furthermore, two ends of the wire pressing groove are provided with a stop block; the pressing line is prevented from running out of the pressing line groove when moving.

Further, an acute angle is formed between one end face of the magnetic block and the outer end face of the jig main body; the distance between the magnetic block and the metal block is moderate, so that labor is saved when 2 connecting blocks are opened, and an opening is provided to facilitate the arrangement of wires on the tooth grooves by workers.

Further, the jig main body is made of a metal material; the precision and the service life of the jig can be improved, and the manufacturing cost of the jig can be reduced.

Further, the upper row of lines, the lower row of lines, the line tooth and the line pressing line are made of non-stick tin materials; the core wire can be effectively fixed by the precise matching of the wire arranging teeth and the wire pressing strips, so that the core wire cannot be displaced in the post-processing, and the high-frequency performance of the product is ensured.

The utility model has the advantages that: the wire clamping grooves can be used for fixing wires, so that the wires are prevented from swinging during wire processing operation, and the processing quality and efficiency are improved; the arrangement of the upper row of lines, the lower row of lines, the metal block and the magnetic block facilitates the fixed opening of the two rows of line arrangement teeth and enables the two rows of line arrangement teeth to be more compact when being folded, thereby being beneficial to the line arrangement and the processing operation of core wires, and when the wire is subjected to the procedures of ground wire arrangement and the like, only the upper row of lines and the lower row of lines need to be opened, a secondary clamping jig is not needed, the influence of the secondary clamping jig on the performance of products is reduced, and the yield of the products is ensured; the pressure lines set up the heart yearn that can fix and place in the tooth's socket, swing when preventing heart yearn processing operation and influence processingquality and machining efficiency.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the middle and lower lines and the connecting block of the present invention;

FIG. 3 is a schematic structural view of the middle and upper row of lines and the connecting block of the present invention;

FIG. 4 is a schematic structural view of the center wire operation of the present invention;

in the figure: 1. a main body case; 2. a main body cover; 3. clamping a line; 4. adjusting the bolt hole; 5. connecting blocks; 6. a lower line discharging strip; 7. an upper line arranging; 8. a chute; 9. a metal block; 10. a pin hole; 11. pressing a wire groove; 12. pressing a line; 13. a stopper; 14. a circular handle; 15. arranging wire teeth; 16. a magnetic block; 17. a core wire; 18. wire clamping grooves.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings:

as shown in fig. 1, 2, 3 and 4, a 5G data line production processing jig comprises a jig main body and a wire arranging device, wherein a wire clamping strip 3 is arranged inside the jig main body, and a wire clamping groove 18 is formed between the two wire clamping strips 3; the magnet 16 is arranged outside the jig main body; the one end of tool main part is equipped with winding displacement device, and winding displacement device includes connecting block 5, last row of lines 6 and lower row of lines 7, connecting block 5 respectively with a side end face integrated into one piece of last row of lines 6 and lower row of lines 7, the up end of connecting block 5 is equipped with metal block 9, the up end that is close to the one end of connecting block 5 on last row of lines 6 and lower row of lines 7 is equipped with winding displacement tooth 15, be equipped with mutual dislocation complex wire casing 11 and wire casing 12 from top to bottom on last row of lines 6 and the lower row of lines 7 respectively.

The jig main body comprises a main body cover 2 and a main body box 1, wherein the main body cover 2 is connected with one side end of the main body box 1 through a pin, and a chute 8 is arranged on the side end of the main body box 1 at the joint of the main body cover 2 and the main body box 1; the opening and closing of the main body cover 2 is facilitated.

A pin hole 10 is formed in one end, far away from the upper line 7 and the lower line 6, of the connecting block 5; the connecting block 5 is connected with the jig main body through pins, namely the upper lines 7 and the lower lines 6 are connected with the jig main body through pins, so that the upper lines 7 and the lower lines 6 can be conveniently opened and closed.

The clamping line 3 is provided with an adjusting bolt hole 4, the adjusting bolt hole 4 is oval, and the long axis of the adjusting bolt hole 4 is larger than the outer diameter of at least one bolt; the connecting bolts at different positions in the adjusting bolt holes 4 can adjust the width of the wire clamping groove 18, and are suitable for wire processing operation with different outer diameters.

One end of the pressing line 12 is provided with a round handle 14; the line pressing strip is convenient and comfortable to move.

Two ends of the wire pressing groove 11 are provided with a stop block 13; the pressure line 12 is prevented from running out of the pressure line groove 11 when moving.

One end face of the magnetic block 16 and the outer end face of the jig main body form an acute angle; the distance between the magnetic block 16 and the metal block 9 is moderate, so that labor is saved when 2 connecting blocks 5 are opened, and an opening is provided to facilitate the arrangement of wires on the tooth grooves by workers.

The jig main body is made of metal material; the precision and the service life of the jig can be improved, and the manufacturing cost of the jig can be reduced.

The upper line 7, the lower line 6, the wire arranging teeth 15 and the wire pressing strips 12 are made of non-stick tin materials; the precise matching of the wire arranging teeth 15 and the wire pressing strips 12 can effectively fix the core wires 17, so that the core wires 17 cannot be displaced in the post-processing, and the high-frequency performance of the product is ensured.

The utility model discloses a working method as follows:

as shown in fig. 1, 2, 3 and 4, firstly, a wire is placed in a main body box 1, then a clamping strip 3 is fixed on the main body box 1 at a position suitable for an adjusting bolt hole 4 by a bolt according to the outer diameter size of the wire, so that the wire cannot swing on the main body box 1, then a main body cover 2 is folded, then an upper row of strips 7 and a lower row of strips 6 are opened, a metal block 9 integrally formed with the upper row of strips 7 and the lower row of strips 6 is sucked by a magnetic block 16, a wire arranging port is fixedly opened between the upper row of strips 7 and the lower row of strips 6, then a worker can arrange core wires on a tooth groove between wire arranging teeth 15, after wire arrangement is finished, the wire pressing strip 12 is moved, the top end of the wire pressing strip 12 abuts against a stop block 13, and finally the upper row of strips 7 and the lower row of strips 6 are folded, so; and the subsequent operation of the processes of arranging the ground wire and the like only needs to open the upper row of lines 7 and the lower row of lines 6, and a secondary clamping jig and a wire rod are not needed.

Compared with the prior art, the utility model discloses the beneficial effect who has does:

the wire can be fixed by the wire clamping groove 18, so that the wire is prevented from swinging during processing operation, and the processing quality and efficiency are improved; the upper-row lines 7, the lower-row lines 6, the metal blocks 9 and the magnetic blocks 16 are arranged, so that the two rows of line arrangement teeth 15 can be conveniently fixed to be opened, the two rows of line arrangement teeth 15 can be more tightly folded, the line arrangement and the processing operation of core wires 17 are facilitated, and when the wire is subjected to the working procedures such as ground wire arrangement, the upper-row lines 7 and the lower-row lines 6 only need to be opened, a secondary clamping jig is not needed, the influence of the secondary clamping jig on the performance of products is reduced, and the yield of the products is ensured; the setting of moulding 12 can be fixed the heart yearn 17 of placing in the tooth's socket, and the swing when preventing heart yearn 17 processing operation influences processingquality and machining efficiency.

The above is only the preferred embodiment of the present invention, and not the patent protection scope of the present invention is limited thereby, all the equivalent structure changes made by the contents of the specification and the drawings of the present invention can be directly or indirectly applied to other related technical fields, and all the same principles are included in the protection scope of the present invention.

Claims

1. A5G data line production and processing jig comprises a jig main body and a wire arranging device, and is characterized in that a wire clamping groove is formed between two wire clamping lines arranged inside the jig main body; the outside of the jig main body is provided with a magnetic block; the wire arranging device is arranged at one end of the jig main body and comprises a connecting block, an upper row of wires and a lower row of wires, the connecting block is integrally formed with one side end face of the upper row of wires and the lower row of wires, a metal block is arranged on the upper end face of the connecting block, wire arranging teeth are arranged on the upper row of wires and the lower row of wires, the upper row of wires and the lower row of wires are close to one end of the connecting block, and wire pressing grooves and wire pressing strips which are in mutual staggered fit are arranged on the upper row of wires and the lower row of wires.

2. The jig for producing and processing 5G data lines as claimed in claim 1, wherein the jig main body comprises a main body cover and a main body box, the main body cover is connected with one side end of the main body box through a pin, and an inclined groove is arranged on the side end of the main body box at the joint with the main body cover.

3. The jig for producing and processing 5G data lines as claimed in claim 1, wherein a pin hole is formed at one end of the connecting block respectively far away from the upper line and the lower line.

4. The jig for producing and processing 5G data lines as claimed in claim 1, wherein the clamping line is provided with an adjusting bolt hole, the adjusting bolt hole is oval, and the major axis of the adjusting bolt hole is larger than the outer diameter of at least one bolt.

5. The jig for producing and processing 5G data lines as claimed in claim 1, wherein a round handle is provided at one end of the pressing line.

6. The jig for producing and processing 5G data lines as claimed in claim 1, wherein stoppers are provided at both ends of the line pressing groove.

7. The jig for producing and processing 5G data lines as claimed in claim 1, wherein an end face of the magnetic block forms an acute angle with an outer end face of the jig main body.

8. The tool of claim 1, wherein the tool body is made of metal.

9. The tool of claim 1, wherein the upper row of strips, the lower row of strips, the row of strip teeth and the pressing strip are made of a non-stick tin material.