CN219234297U - Frock is used in laser wire stripping - Google Patents

Abstract

The utility model provides a tool for laser wire stripping, and relates to the technical field of cable processing equipment; the window opening guide block comprises a frame body, a window opening guide block, a plurality of groups of positioning pipes and a plurality of positioning pieces; the window opening guide block is arranged on the frame body and is provided with a plurality of guide units, each guide unit respectively comprises a plurality of guide holes with equal diameters, and the diameters of the guide holes in different guide units are different; each group of positioning pipes comprises positioning pipes which are opposite to the guiding holes in the corresponding guiding units one by one, and each positioning pipe is provided with a penetrating groove; each locating piece is arranged on the frame body and corresponds to each group of locating pipes, each locating piece comprises a body and locating plates which are fixedly connected with the body and can be inserted into each through groove in a one-to-one correspondence mode, and the positions of the locating pieces on the frame body can be adjusted. The tool for laser wire stripping can be suitable for cables with various specifications.

Description

Frock is used in laser wire stripping

Technical Field

The utility model relates to the technical field of laser wire stripping equipment, in particular to a tool for laser wire stripping.

Background

The cable stripping refers to stripping the insulating layer on the conductive cable so that the cable can be processed in the next step; cable stripping generally includes windowing, which means removing an insulating layer on the cable, and stripping, which means stripping the insulating layer at the end of the cable.

Traditional wire stripping techniques include mechanical wire stripping, chemical wire stripping, hot stamping wire stripping and the like, but each mode has related problems such as damaged conductors, low processing speed, low precision, poor quality and the like. The laser wire stripper can selectively and perfectly strip the nonmetallic insulating layer under the condition of not contacting the metal conductor, and has the advantages of wire stripping speed block, high precision, accurate wire stripping process control and the like.

When a laser wire stripper is used for stripping wires, a tool is required to be used for fixing the wires, and the existing tool for laser wire stripping has poor applicability, namely one tool is usually only suitable for wires with one specification; when cables with different specifications are required to be stripped, the cables need to be replaced by corresponding tools, and the use is troublesome.

Disclosure of Invention

Therefore, the utility model provides a tool for laser wire stripping, which at least partially solves the technical problem of poor universality of the existing tool for laser wire stripping.

The technical scheme of the utility model is as follows:

a tool for laser wire stripping, comprising:

a frame;

the window opening guide block is arranged on the frame body, a plurality of guide units are arranged on the window opening guide block, each guide unit comprises a plurality of guide holes with equal diameters, and the diameters of the guide holes in different guide units are different;

the positioning pipes are arranged on the frame body and correspond to the guide units, each group of positioning pipes comprises positioning pipes which are opposite to the guide holes in the corresponding guide units one by one, and each positioning pipe is provided with a through groove;

the positioning pieces are arranged on the frame body and correspond to the positioning pipes in each group; each positioning piece comprises a body and positioning plates which are fixedly connected with the body and can be inserted into the through grooves in a one-to-one correspondence manner, and the fixed positions of the positioning pieces on the frame body can be adjusted;

the cables can be inserted into the corresponding positioning pipes through the matched guide holes and are abutted against the positioning plates, and the laser wire stripper windows the cables leaked from the through grooves.

Further, the device also comprises a de-header assembly; the end removing assembly comprises a positioning block arranged on the frame body and end removing guide blocks arranged on the frame body and spaced from the positioning block, and a plurality of through grooves with unequal widths are formed in the end removing guide blocks; the end of the cable can pass through the matched through groove and is abutted with the positioning block.

Further, corresponding to each through groove, the end removing guide block is provided with a groove body penetrating through the side wall of the through groove, and the cable can be placed into the through groove through the groove body.

Further, threaded holes are respectively formed in two ends of the positioning block, and long strip holes opposite to the threaded holes in two ends are formed in the frame body; the bolts can pass through the strip holes and are in threaded connection with the opposite threaded holes so as to fix the positioning blocks on the frame body.

Further, the frame body comprises two parallel rod bodies which are arranged at intervals, guide grooves are respectively formed in the opposite surfaces of the two rod bodies, two ends of the positioning block can correspondingly slide in the guide grooves on the two rod bodies, and the strip holes are formed in the bottom surfaces of the guide grooves.

Further, one side of each positioning tube is arranged relative to the windowing guide block, and the frame body is provided with clamping assemblies which are positioned on the other side of the windowing guide block and are arranged at intervals with the windowing guide block and used for clamping cables.

Further, the clamping assembly comprises a bottom plate fixedly connected with the frame body and a pressing plate hinged with the frame body.

The working principle and the beneficial effects of the utility model are as follows:

according to the tooling for laser wire stripping, the plurality of guide units are arranged on the windowed guide block, the diameters of the guide holes in the guide units are equal, and the diameters of the guide holes in the different guide units are different; therefore, cables with different specifications can penetrate into the positioning tube from the guide holes in the different guide units, the positioning piece can position the cable inserted into the positioning tube, and then the laser wire stripper can window the cable through the through groove on the positioning tube. The tool for laser wire stripping provided by the utility model can be suitable for wire stripping of cables with different specifications, and has good universality.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

Fig. 1 is a schematic diagram of the overall structure of a tool for laser wire stripping according to an embodiment of the present utility model;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a partial enlarged view at B in fig. 1.

In the figure: 100-frame, 110-rod body and 101-guide groove;

200-windowing guide blocks and 201-guide holes;

300-positioning pipes, 310-penetrating grooves and 320-positioning pipe fixing blocks;

400-positioning piece, 410-body, 420-positioning plate;

500-cables;

600-clamping assembly, 610-base plate, 620-platen;

700-removing end guide blocks, 710-through grooves, 720-groove bodies;

800-positioning blocks.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The embodiment provides a tool for laser wire stripping, referring to fig. 1 to 3, which comprises a frame 100, a window guide block 200, a plurality of groups of positioning pipes 300 and a plurality of positioning pieces 400; the window guide block 200 is disposed on the frame body 100, a plurality of guide units are disposed on the window guide block 200, each guide unit includes a plurality of guide holes 201 with equal diameters, and the diameters of the guide holes 201 in different guide units are different.

Each set of positioning pipes 300 is disposed on the frame 100 and corresponds to each guiding unit, and each set of positioning pipes 300 includes positioning pipes 300 that are in one-to-one correspondence with each guiding hole 201 in the corresponding guiding unit. Each positioning tube 300 is provided with a through groove 310. Each positioning piece 400 is arranged on the frame body 100 and corresponds to each group of positioning pipes 300; each positioning piece 400 comprises a body 410 and a positioning plate 420 which is fixedly connected with the body 410 and can be inserted into each through groove 310 in a one-to-one correspondence manner, and the fixing position of the positioning piece 400 on the frame 100 can be adjusted.

The cables 500 can be inserted into the corresponding positioning pipes 300 through the matched guide holes 201 and abutted against the positioning plates 420, and the cables 500 leaked from the through grooves 310 are windowed by the laser wire stripper.

In summary, when the tool for laser wire stripping of the present embodiment is used, the cable 500 to be windowed may be threaded into the positioning tube 300 from the guide hole 201 of the corresponding specification to abut against the positioning plate 420, and thereafter, the windowing process may be performed on the cable 500 by the laser wire stripper. The cables 500 with the same specification can be respectively inserted into the corresponding positioning tubes 300 from the guide holes 201 of the corresponding guide units at a time, and the laser wire stripper can finish the windowing of the cables 500 at a time.

When the cables 500 with different specifications are required to be windowed, the cables 500 can be inserted into the positioning tube 300 from the guide holes 201 with corresponding specifications without changing tools.

The tool for laser wire stripping of the embodiment can be used for windowing cables 500 with different specifications, so that the tool has better universality.

In a specific structure, referring to fig. 1, the frame 100 of the present embodiment includes two rod bodies 110 arranged in parallel and at intervals, and two cross bars fixedly connected between the two rod bodies 110.

Referring to fig. 1 and 2, the window guide block 200 of the present embodiment is connected between two rod bodies 110; each of the above-mentioned guide units is disposed at intervals along the length direction of the windowing guide block 200, each of the guide units includes a plurality of guide holes 201 disposed at intervals along the length direction of the windowing guide block 200, and each of the guide holes 201 penetrates the windowing guide block 200 along the length direction of the rod 110.

Referring to fig. 1, a positioning tube fixing block 320 is connected between the two rod bodies 110, and each group of positioning tubes 300 is respectively fixed on the positioning tube fixing block 320, and each positioning tube 300 is opposite to each guiding hole 201 one by one.

Referring to fig. 1 and 2, the penetration groove 310 penetrates the sidewall of the positioning tube 300 and extends from the end surface of one end of the positioning tube 300 to the end surface of the other end.

Referring to fig. 1, a threaded hole is formed in the positioning tube fixing block 320, a long hole opposite to the threaded hole is formed in the positioning member 400, and a bolt passes through the long hole and is screwed with the threaded hole, so that the positioning member 400 is fixed on the positioning tube fixing block 320, and the position of each positioning plate 420 in the corresponding through slot 310 can be adjusted by adjusting the position of the positioning member 400 on the positioning tube fixing block 320.

By adjusting the position of each positioning plate 420 in the through slot 310 and inserting the cable 500 into the positioning tube 300 to be abutted against the positioning plate 420, the cable 500 can be positioned by the positioning plate 420 more conveniently.

Referring to fig. 1, in the present embodiment, a clamping assembly 600 for clamping a cable 500 is provided on the frame 100 at a distance from the window guide block 200 and on the other side of the window guide block 200, with respect to one side of each positioning tube 300 provided on the window guide block 200.

In this embodiment, the cable 500 is clamped by the clamping assembly 600, so that the cable 500 can be prevented from falling out of the positioning tube 300 under the action of self weight.

Referring to fig. 1, the clamping assembly 600 of the present embodiment specifically includes a base plate 610 fixedly connected to the frame 100, and a pressing plate 620 hinged to the frame 100.

Before the cables 500 are threaded into the positioning tube 300, the pressing plate 620 can be lifted up, the cables 500 are threaded into the positioning tube 300 from above the bottom plate 610, and after the cables 500 are threaded into place, the pressing plate 620 is rotated to press each cable 500, so that the cables 500 are prevented from sliding.

The process of using the tool for laser wire stripping in this embodiment for windowing the cable 500 is as follows:

adjusting the positioning piece 400 according to the position of the cable 500 needing to be windowed;

penetrating a plurality of cables 500 with the same specification into the positioning tube 300 through the corresponding guide holes 201 until the cables are abutted with the positioning plate 420;

windowing is carried out on the position, which needs to be windowed, of the cable 500 through the penetrating groove 310 by a laser wire stripper;

if the cables 500 with different specifications are required to be windowed, the corresponding guide holes 201 are used.

Referring to fig. 1, the tool for laser wire stripping of the embodiment further comprises a stripping head assembly; the de-termination assembly specifically includes a positioning block 800 disposed on the frame 100, and a de-termination guide block 700 disposed on the frame 100 and spaced from the positioning block 800, wherein the de-termination guide block 700 is provided with a plurality of through grooves 710 with different widths, and the termination of the cable 500 can pass through the matched through grooves 710 and be abutted against the positioning block 800.

When the tool for laser wire stripping of the embodiment is used for removing the end, the cable 500 can pass through the matched through groove 710 until the cable abuts against the positioning block 800, and then the insulating layer between the end removing guide block 700 and the positioning block 800 is removed by the upper and lower laser wire stripping machines.

The cable 500 being matched with the through groove 710 means that the diameter of the cable 500 is matched with the width of the through groove 710, and the cable 500 can pass through the through groove 710 without coming out of the through groove 710.

In this embodiment, referring to fig. 1 and 3, corresponding to each through slot 710, the terminal removing guide block 700 is provided with a slot body 720 penetrating through the sidewall of the through slot 710, and the cable 500 can be placed into the through slot 710 through the slot body 720.

In this embodiment, by providing the slot body 720, the entire row of cables 500 can be placed in the through slot 710, and compared with the cable 500 directly passing through the through slot 710, the solution of this embodiment can more conveniently place the cable 500 in the through slot 710.

In this embodiment, threaded holes are respectively formed at two ends of the positioning block 800, and a strip hole opposite to the threaded holes at two ends is formed on the frame 100; the bolts can pass through the elongated holes and be screwed with the opposite threaded holes to fix the positioning block 800 to the frame 100.

In this embodiment, the fixing position of the positioning block 800 on the frame 100 can be adjusted, that is, the distance between the positioning block 800 and the termination guide block 700 can be adjusted, so that the termination length of the cable 500 can be adjusted.

Referring to fig. 3, in the present embodiment, guide grooves 101 are respectively formed on opposite surfaces of two rod bodies 110, two ends of a positioning block 800 can correspondingly slide in the guide grooves 101 on the two rod bodies 110, and a long hole is formed on the bottom surface of the guide groove 101.

In this embodiment, by providing the guide groove 101 and enabling the positioning block 800 to slide in the guide groove 101, the parallelism of the positioning block 800 and the termination guide block 700 can be better ensured when the position of the positioning block 800 is adjusted, so that the termination lengths of the cables 500 are more consistent.

The process for removing the end head by using the tool for laser wire stripping of the embodiment is as follows:

according to the length of the cable 500 to the end, the distance between the positioning block 800 and the end removing guide block 700 is adjusted;

placing a row of cables 500 from the groove body 720 into the matched through groove 710, and adjusting the positions of the cables 500 to enable the cables 500 to be in contact with the positioning blocks 800;

the insulating layer of the cable 500 between the positioning block 800 and the de-termination guide block 700 is removed by the upper and lower laser strippers.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (7)

1. Frock for laser wire stripping, its characterized in that includes:

a frame (100);

the window guide block (200) is arranged on the frame body (100), a plurality of guide units are arranged on the window guide block (200), each guide unit comprises a plurality of guide holes (201) with equal diameters, and the diameters of the guide holes (201) in different guide units are different;

the positioning pipes (300) are arranged on the frame body (100) and correspond to the guide units, each group of positioning pipes (300) comprises positioning pipes (300) which are opposite to the guide holes (201) in the corresponding guide units one by one, and through grooves (310) are respectively formed in each positioning pipe (300);

a plurality of positioning pieces (400) which are arranged on the frame body (100) and correspond to the positioning pipes (300) of each group; each positioning piece (400) comprises a body (410) and positioning plates (420) which are fixedly connected with the body (410) and can be inserted into the through grooves (310) in a one-to-one correspondence manner, and the fixed position of the positioning piece (400) on the frame body (100) can be adjusted;

the cables (500) can be inserted into the corresponding positioning pipes (300) through the matched guide holes (201) and are abutted against the positioning plates (420), and the cables (500) leaked out of the through grooves (310) are windowed by a laser wire stripper.

2. The tooling for laser wire stripping of claim 1 further comprising a stripping head assembly; the end removing assembly comprises a positioning block (800) arranged on the frame body (100) and an end removing guide block (700) arranged on the frame body (100) at intervals with the positioning block (800), wherein a plurality of through grooves (710) with unequal widths are formed in the end removing guide block (700); the end of the cable (500) can pass through the matched through groove (710) and be abutted with the positioning block (800).

3. The tooling for laser wire stripping according to claim 2, wherein, corresponding to each through slot (710), a slot body (720) penetrating through the side wall of the through slot (710) is provided on the stripping end guide block (700), and the cable (500) can be placed into the through slot (710) through the slot body (720).

4. The tooling for laser wire stripping according to claim 2, wherein threaded holes are respectively formed in two ends of the positioning block (800), and a strip hole opposite to the threaded holes in two ends is formed in the frame (100); a bolt can pass through the strip hole and be in threaded connection with the opposite threaded hole so as to fix the positioning block (800) on the frame body (100).

5. The tool for laser wire stripping according to claim 4, wherein the frame (100) comprises two parallel rods (110) arranged at intervals, guide grooves (101) are respectively formed in opposite surfaces of the two rods (110), two ends of the positioning block (800) can correspondingly slide in the guide grooves (101) on the two rods (110), and the strip holes are formed in the bottom surfaces of the guide grooves (101).

6. The tooling for laser wire stripping according to claim 1, wherein one side of each positioning tube (300) is arranged relative to the windowed guide block (200), and a clamping assembly (600) which is arranged at the other side of the windowed guide block (200) and is spaced from the windowed guide block (200) and used for clamping a cable (500) is arranged on the frame body (100).

7. The tooling for laser wire stripping of claim 6, wherein the clamping assembly (600) comprises a base plate (610) fixedly connected to the frame (100) and a pressure plate (620) hinged to the frame (100).

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