CN108347016B

CN108347016B - Cable reprocesses peeling device

Info

Publication number: CN108347016B
Application number: CN201810377002.0A
Authority: CN
Inventors: 张景甫
Original assignee: Changfei Photoelectric Cable Suzhou Co ltd
Current assignee: Changfei Photoelectric Cable Suzhou Co ltd
Priority date: 2018-04-25
Filing date: 2018-04-25
Publication date: 2023-05-26
Anticipated expiration: 2038-04-25
Also published as: CN108347016A

Abstract

A cable repair peeling device is characterized in that: comprises a tool rest seat, a cable hole is arranged in the middle; the tool rest is symmetrically arranged on the tool rest seat left and right, a V-shaped groove is arranged between the pair of tool rests, and a screw sleeve screw hole is arranged at the middle position of the V-shaped groove in the width direction of the pair of tool rests; the pair of scale rotary adjusting nut assemblies are arranged on the left side and the right side of the pair of tool rests and comprise an adjusting screw sleeve and an adjusting nut, one end of the adjusting screw sleeve is screwed with a screw hole of the screw sleeve, the other end of the adjusting screw sleeve is screwed with an inner threaded hole at one end of the adjusting nut, and a tool bar hole is formed in the middle of the adjusting screw sleeve; the pair of cutter bars and the pair of blades are symmetrically arranged in the cutter bar holes of the adjusting screw sleeve, one end of each cutter bar is connected with the adjusting nut, the other end of each cutter bar is connected with one end of each blade, the other end of each blade is provided with a cutter point, and the cutter points outwards extend into the V-shaped grooves from the screw holes of the screw sleeve. Utilize the passive cutting of receipts line pulling force, the knife tip degree of depth can accurate regulation and adjust conveniently, improves the cable and reprocesss the quality, promotes production efficiency.

Description

Cable reprocesses peeling device

Technical Field

The invention belongs to the technical field of cable manufacturing, and particularly relates to a cable repair peeling device.

Background

The cable repair peeling-belongs to the operation of removing sheath by utilizing a cable core when appearance flaws occur in the cable manufacturing process, and is widely applied to power cables, optical cables and the like. In the manufacturing process of the cable, the cable core of the cable can be wrapped by the sheath made of different materials according to different requirements of customers. The appearance of the sheath can directly influence the comprehensive quality of the cable, and in actual production, if the appearance of the sheath of the cable is defective, the appearance looking effect of the cable is easily affected, so that the defective cable needs to be peeled. The existing cable peeling mode mostly adopts manual or machine cutting, and the reasons for causing the defects are approximately as follows: 1) The peeling is performed manually, the efficiency is low, the cost is high, and the operating environment of workers is poor; 2) The machine rotary cutting peeling machine has the advantages of high difficulty in cutting depth adjustment, high labor intensity, low utilization value of the cable core caused by easy cutting of the cable core, and economic loss for enterprises, so that the machine is only suitable for processing cables with thick diameters, and has a narrow application range.

In view of the above-described prior art, there is a need for a rational improvement in the structure of existing cable repair skinning devices. To this end, the applicant has made an advantageous design, and the technical solutions described below are produced in this context.

Disclosure of Invention

The invention aims to provide a cable repair peeling device, which utilizes the wire winding tension to passively cut, the depth of a cutter point can be precisely adjusted and is convenient to adjust, the cable core of a cable and the cutter points on blades on the left side and the right side are always kept on the same horizontal line, the cable repair quality is greatly improved, and the cable production efficiency is improved.

The task of the invention is accomplished in this way, a cable reprocessing and peeling device is characterized in that: the tool rest comprises a tool rest seat, wherein a through hole is formed in the middle of the tool rest seat and is a cable hole; the tool rest is arranged on the tool rest seat in a bilateral symmetry manner, V-shaped grooves are respectively formed in the middle of the tool rest in the height direction, the V-shaped grooves are arranged opposite to each other and are opposite to the cable holes, threaded sleeve screw holes which are penetrated left and right are respectively formed in the middle of the V-shaped grooves in the width direction of the tool rest, and the threaded sleeve screw holes are concentric; the scale rotary adjusting nut assembly has the same structure and is symmetrically arranged at the left side and the right side of the pair of tool rests, the scale rotary adjusting nut assembly comprises an adjusting screw sleeve and an adjusting nut, one end of the adjusting screw sleeve is screwed with a screw hole of the screw sleeve, the other end of the adjusting screw sleeve is screwed with an inner threaded hole at one end of the adjusting nut, and a tool bar hole is formed in the middle of the axial direction of the adjusting screw sleeve; the structure of the pair of cutter bars and the pair of blades is the same as that of the pair of cutter bars and the pair of blades are symmetrically arranged in the cutter bar holes of the adjusting screw sleeve, one end of the cutter bar is inserted into the internal threaded hole and fixedly connected with the adjusting nut, the other end of the cutter bar is fixedly connected with one end of the blades, the other end of the blades is provided with a cutter point, and the cutter point is inserted into the V-shaped groove from the screw sleeve screw hole.

In a specific embodiment of the invention, the pair of tool holders are respectively provided with adjusting screw holes at intervals along the height direction, and the adjusting screw holes are a pair of strip-shaped waist-shaped holes which are expanded in the left-right direction; the tool rest seat is provided with a screw hole, the fastening bolt is screwed with the screw hole after penetrating through the adjusting screw hole, so that the pair of tool rests are arranged on the tool rest seat, and meanwhile, the distance between the pair of tool rests can be adjusted by loosening the fastening bolt and adjusting the left and right positions of the fastening bolt in the adjusting screw hole so as to adapt to cutting of cable sheath skins with various specifications and sizes.

In another specific embodiment of the invention, the pair of tool holders are provided with mutually mating T-shaped teeth on one side face facing each other.

In yet another specific embodiment of the invention, the angle inside the V-shaped groove on the pair of tool holders is 90 °.

In still another specific embodiment of the present invention, the pair of tool holders are respectively provided with screw holes at positions corresponding to the screw holes of the insert in the middle of the height direction, the screw holes are arranged perpendicular to the screw holes of the insert, and a insert fastening screw is inserted into the screw holes of the insert after passing through the screw holes, for locking and adjusting the positions of the insert in the screw holes of the insert.

In a further specific embodiment of the present invention, the outer surfaces of one end of the adjusting nuts of the pair of scale rotation adjusting nut assemblies are respectively provided with an angle rotation mark.

In a further specific embodiment of the present invention, a bolt cavity and a narrowed bolt journal hole are sequentially provided at one end of the adjusting nut far from the internal threaded hole, the bolt journal hole and the bolt cavity are mutually communicated, a bolt and a gasket are provided in the bolt cavity, a bolt journal is narrowed on the bolt, one end of the bolt is fixed with a cutter bar screw hole in the middle of one end of the cutter bar after sequentially passing through the gasket and the bolt journal hole, wherein the bolt journal is positioned in the bolt journal hole, thereby realizing the fixed connection of the cutter bar and the adjusting nut.

In a further specific embodiment of the present invention, a blade groove is formed in the other end of the cutter bar, one end of the blade is inserted into the blade groove, a cutter sleeve is sleeved outside one end of the blade, and the cutter sleeve is fixedly connected with the cutter bar and the blade through pins.

In a further specific embodiment of the present invention, the tool rest base is further provided with a counter bore, and the tool rest base is fixed on the frame of the cable path through the counter bore by a fastener.

The invention has the beneficial effects that due to the adoption of the structure, the invention has the following advantages: firstly, a pair of blades is not limited by an external power source, and cutting can be completed by means of cable running, so that energy conservation and optimization in peeling production are facilitated; the pair of knife rests are convenient and quick to adjust left and right, are beneficial to improving the cable repairing efficiency, and can be suitable for repairing and peeling cables with various specifications and sizes; thirdly, cutting and peeling the repaired cable, so that the cable core is not easy to damage; fourth, but a pair of blade feed two-way regulation, and the regulation precision is high, and the cable that needs to repair is leaned on the knife rest middle 90 degrees V-arrangement grooves spacing, from this, makes the cable core of cable remain on same horizontal line with the knife tip on a pair of blade all the time, can reduce cable core damage frequency, improves cable repair quality.

Drawings

Fig. 1 is an exploded view of a three-dimensional structure according to an embodiment of the present invention.

Fig. 2 is a cross-sectional view of a planar structure according to an embodiment of the present invention.

In the figure: 1. a frame; 2. the tool rest seat, 21, a cable hole, 22, a screw hole and 23, a counter bore; 3. the tool rest, 31. T-shaped teeth, 32. Adjusting screw holes, 321. Fastening bolts, 33. V-shaped grooves, 34. Screw holes, 341. Screw sleeve fastening screws, 35. Screw sleeve screw holes; 4. the scale rotation adjusting nut assembly comprises a scale rotation adjusting nut assembly body, a scale rotation adjusting nut assembly 41, an adjusting screw sleeve 411, a cutter bar hole, a scale rotation adjusting nut 42, an angle rotation marking, a scale rotation adjusting nut 422, an internal threaded hole 423, a bolt journal hole 424 and a bolt cavity; 5. the cutter bar, 51, cutter bar screw holes, 52, blade grooves, 53, bolts and 531, bolt journals; 6. blade, 61, knife tip, 62, pin; 7. a knife sleeve; 8. cable, 81 sheath.

Detailed Description

In order that the technical spirit and advantages of the invention may be more clearly understood by a person skilled in the art, especially by the public, applicant will now make a detailed description of the following examples, but none of the examples are intended to limit the scope of the present invention, and any equivalent changes made in form and not by nature in accordance with the inventive concept should be construed as being within the scope of the present invention.

In the following description, any terms related to the directions or azimuths of up, down, left, right, front and rear are all related to the current position state of fig. 1, and thus should not be construed as a specific limitation on the technical solution provided by the present invention.

Referring to fig. 1 in combination with fig. 2, the present invention relates to a cable repairing and peeling device, which includes a tool rest base 2, wherein a through hole is formed in the middle of the tool rest base 2 and is a cable hole 21; a pair of tool holders 3, the pair of tool holders 3 are mounted on the tool holder base 2 in the same structure and are bilaterally symmetrical to each other, V-shaped grooves 33 are respectively formed in the middle of the pair of tool holders 3 in the height direction, the pair of V-shaped grooves 33 are arranged opposite to each other and are aligned with the positions of the cable holes 21, screw sleeve screw holes 35 which are penetrated left and right are respectively formed in the middle positions of the V-shaped grooves 33 in the width direction of the pair of tool holders 3, and the pair of screw sleeve screw holes 35 are concentric; a pair of scale rotation adjusting nut assemblies 4, the scale rotation adjusting nut assemblies 4 have the same structure and are symmetrically arranged at the left side and the right side of the pair of tool holders 3, the scale rotation adjusting nut assemblies 4 comprise adjusting screw sleeves 41 and adjusting nuts 42, one ends of the adjusting screw sleeves 41 are screwed with the screw sleeve screw holes 35, the other ends of the adjusting screw sleeves 41 are screwed with the inner screw holes 422 at one end of the adjusting nuts 42, and a cutter bar hole 411 is formed in the middle of the axial direction of the adjusting screw sleeves 41; the pair of cutter bars 5 and the pair of blades 6 are respectively identical in structure and symmetrically arranged in the guide rod hole 411 of the adjusting screw sleeve 41, wherein one end of the cutter bar 5 is inserted into the internal threaded hole 422 and fixedly connected with the adjusting nut 42, the other end of the cutter bar 5 is fixedly connected with one end of the blade 6, the other end of the blade 6 is provided with a cutter tip 61, and the cutter tip 61 is inserted into the V-shaped groove 33 from the screw sleeve screw hole 35. The angle inside the V-shaped groove 33 is preferably 90 deg., so that the positioning of the cable 8 is more accurate. The pair of tool holders 3 is provided with mutually-fitted T-shaped teeth 31 on one side face facing each other. The outer surfaces of one ends of the adjusting nuts 42 of the pair of scale rotation adjusting nut assemblies 4 are respectively provided with an angle rotation mark 421.

Further, adjusting screw holes 32 are respectively arranged on the pair of tool rests 3 at intervals along the height direction, and the adjusting screw holes 32 are a pair of strip waist-shaped holes which are expanded in the left-right direction; the tool rest seat 2 is provided with a screw hole 22, the fastening bolt 321 is screwed with the screw hole 22 after penetrating through the adjusting screw hole 32 to mount the pair of tool rests 3 on the tool rest seat 2, and meanwhile, the distance between the pair of tool rests 3 can be adjusted by loosening the fastening bolt 321 and adjusting the left and right positions of the fastening bolt in the adjusting screw hole 32 so as to adapt to cutting of cable sheath sheaths of various different specifications and sizes.

Further, the pair of tool holders 3 are respectively provided with screw holes 34 at positions corresponding to the screw holes 35 in the middle of the height direction, the screw holes 34 are arranged perpendicular to the screw holes 35, and a screw sleeve fastening screw 341 is inserted into the screw holes 35 after passing through the screw holes 34, for locking the position of the adjusting screw sleeve 41 in the screw holes 35.

Further, a bolt cavity 424 and a narrowed bolt journal hole 423 are sequentially provided at one end of the adjusting nut 42 far away from the internal threaded hole 422, the internal threaded hole 42, the bolt journal hole 423 and the bolt cavity 424 are mutually communicated, a bolt 53 and a washer 54 are provided in the bolt cavity 424, a bolt journal 531 is narrowed on the bolt 53, one end of the bolt 53 is fixed with a cutter bar screw hole 51 in the middle of one end of the cutter bar 5 after sequentially passing through the washer 54 and the bolt journal hole 423, and the bolt journal 531 is located in the bolt journal hole 423, so that the cutter bar 5 is fixedly connected with the adjusting nut 42. The other end of the cutter bar 5 is provided with a cutter blade groove 52, one end of the cutter blade 6 is inserted into the cutter blade groove 52, one end of the cutter blade 6 is sleeved with a cutter sleeve 7, and the cutter sleeve 7 is fixedly connected with the cutter bar 5 and the cutter blade 6 through a pin 62.

Further, a counter bore 23 is further formed in the tool rest seat 2, and the tool rest seat 2 is fixed on the frame 1 of the cable path through the counter bore 23 by a fastener.

With continued reference to fig. 1 and 2, the operation flow of the present invention will be described: firstly, loosening a fastening bolt 321 to enable a pair of tool holders 3 to move, placing a cable 8 in a V-shaped groove 33 of the pair of tool holders 3 after passing through a cable hole on a frame 1 and a cable hole 21 on a tool holder seat 2, enabling the right angle contact cable 8 at the inner side of the V-shaped groove to play a limiting role, and fastening the fastening bolt 321 to fix the pair of tool holders 3; then a pair of scale rotation adjusting nut assemblies 4 are sequentially rotated, the cutter bar 5 drives the blade 6 to do feeding motion into the cutter bar hole 411, and the adjusting nut 42 rotates scales on the scale 421 according to an angle to accurately adjust the feeding amount of the blade 6; then the cable 8 is pulled by a tractor, the knife tip 61 of the blade 6 cuts into the sheath 81 of the cable 8, and after observing the depth of the cut into the sheath 81, a pair of scale rotation adjusting nut assemblies 4 are finely adjusted, so that the knife tip 61 of the blade 6 cuts the sheath 81 of the cable 8 properly without damaging the inner cable core; finally, when the positions of the pair of blade tips 61 with respect to the cable 8 are adjusted in place, the insert fastening screws 341 are inserted into the screw holes 34, and the positions of the adjustment screws 41 are locked by the insert fastening screws 341.

The invention is completed by the cable running without an external power source, thereby being beneficial to energy-saving optimization in the peeling production, being applicable to the repair peeling of various cables in the production of the optical cable, basically avoiding damaging cable cores, having good energy-saving effect and improving the processing efficiency.

Claims

1. The utility model provides a cable reprocesses peeling device which characterized in that: comprises a tool rest seat (2), wherein a through hole which is a cable hole (21) is arranged in the middle of the tool rest seat (2); a pair of tool holders (3), the tool holders (3) are of the same structure and are symmetrically arranged on the tool holder seat (2) from side to side, V-shaped grooves (33) are respectively formed in the middle of the tool holders (3) in the height direction, the V-shaped grooves (33) are arranged opposite to each other and are aligned to the positions of the cable holes (21), screw sleeve screw holes (35) which are penetrated from side to side are respectively formed in the width direction of the tool holders (3) and are positioned in the middle of the V-shaped grooves (33), and the screw sleeve screw holes (35) are concentric; the pair of scale rotation adjusting nut assemblies (4) are identical in structure and symmetrically arranged on the left side and the right side of the pair of tool holders (3), the scale rotation adjusting nut assemblies (4) comprise adjusting screw sleeves (41) and adjusting nuts (42), one ends of the adjusting screw sleeves (41) are in screwed fit with screw sleeve screw holes (35), the other ends of the adjusting screw sleeves are in screwed fit with internal screw holes (422) at one ends of the adjusting nuts (42), and cutter bar holes (411) are formed in the middle of the axial direction of the adjusting screw sleeves (41); the pair of cutter bars (5) and the pair of blades (6) are respectively identical in structure and symmetrically arranged in cutter bar holes (411) of the adjusting screw sleeve (41) left and right, one end of the cutter bar (5) is inserted into the internal threaded hole (422) and fixedly connected with the adjusting nut (42), the other end of the cutter bar is fixedly connected with one end of the blades (6), the other end of the blades (6) is provided with a cutter point (61), and the cutter point (61) is inserted into the V-shaped groove (33) from the screw sleeve screw hole (35) outwards;

the pair of tool rests (3) are respectively provided with adjusting screw holes (32) at intervals along the height direction, and the adjusting screw holes (32) are strip waist-shaped holes which are extended towards the left and right directions; the tool rest seat (2) is provided with a screw hole (22), the fastening bolt (321) is screwed with the screw hole (22) after penetrating through the adjusting screw hole (32) to install the pair of tool rests (3) on the tool rest seat (2), and meanwhile, the distance between the pair of tool rests (3) can be adjusted by loosening the fastening bolt (321) and adjusting the left and right positions of the fastening bolt in the adjusting screw hole (32) so as to adapt to cutting of cable sheath skins with different specifications and sizes;

the pair of tool holders (3) are provided with T-shaped teeth (31) which are mutually embedded on one side face which faces each other.

2. A cable repair skinning device according to claim 1, characterized in that the angle inside the V-shaped groove (33) on the pair of blade holders (3) is 90 °.

3. A cable repair peeling device according to claim 1, characterized in that the pair of tool holders (3) are respectively provided with screw holes (34) at positions in the middle of the height direction and corresponding to the screw sleeve screw holes (35), the screw holes (34) are arranged perpendicularly to the screw sleeve screw holes (35), and a screw sleeve fastening screw (341) is inserted into the screw sleeve screw holes (35) after passing through the screw holes (34) for locking and adjusting the positions of the screw sleeves (41) in the screw sleeve screw holes (35).

4. The cable reworking and peeling device according to claim 1, wherein the outer surfaces of one ends of the adjusting nuts (42) of the pair of scale rotation adjusting nut assemblies (4) are respectively provided with angle rotation marks (421).

5. The cable reworking and peeling device according to claim 1, characterized in that a bolt cavity (424) and a narrowed bolt journal hole (423) are sequentially arranged at one end, far away from an internal threaded hole (422), of the adjusting nut (42), the internal threaded hole (422), the bolt journal hole (423) and the bolt cavity (424) are mutually communicated, a bolt (53) and a gasket (54) are arranged in the bolt cavity (424), a bolt journal (531) is narrowed on the bolt (53), one end of the bolt (53) is fixed with a cutter bar screw hole (51) in the middle of one end of the cutter bar (5) after sequentially passing through the gasket (54) and the bolt journal hole (423), and the bolt journal (531) is positioned in the bolt journal hole (423), so that the fixed connection of the cutter bar (5) and the adjusting nut (42) is realized.

6. The cable reworking and peeling device according to claim 1, characterized in that a blade groove (52) is formed in the other end of the cutter bar (5), one end of the blade (6) is inserted into the blade groove (52), a cutter sleeve (7) is sleeved outside one end of the blade (6), and the cutter sleeve (7) is fixedly connected with the cutter bar (5) and the blade (6) through a pin (62).

7. The cable reworking and peeling device according to claim 1 is characterized in that a counter bore (23) is further formed in the tool rest base (2), and the tool rest base (2) is fixed on the frame (1) of the cable path through the counter bore (23).