CN215680198U

CN215680198U - Super multicore hypervelocity cable

Info

Publication number: CN215680198U
Application number: CN202120407349.2U
Authority: CN
Inventors: 韩林; 涂前超; 刘春芳; 马世勇
Original assignee: Zunyi Lianji Technology Co ltd
Current assignee: Lianji Precision Electronics Co ltd
Priority date: 2021-02-24
Filing date: 2021-02-24
Publication date: 2022-01-28
Anticipated expiration: 2031-02-24

Abstract

The utility model discloses a super multi-core ultra-high speed cable which comprises a protective sleeve, a waterproof layer, a flame-retardant layer, an insulating layer, a connecting groove, a clamping seat, a connecting block, a round hole, a guide core, a clamping ring, a rubber block and a telescopic stop block, wherein the inner part of the protective sleeve is connected with the waterproof layer, the flame-retardant layer is arranged inside the waterproof layer, the insulating layer is arranged inside the flame-retardant layer, the connecting groove is arranged inside the insulating layer, the clamping seat is arranged inside the insulating layer, the connecting block is arranged at the top end of the clamping seat, the round hole is arranged inside the connecting block, the guide core is arranged inside the clamping seat, the clamping ring is arranged inside the clamping seat, and the rubber block is arranged inside the clamping ring. This super multicore hypervelocity cable when working a telephone switchboard the cable, pushes through one of them lead the core and will block in the ring, makes other positions of leading the core adjust, and a plurality of cores of leading in the cable twine when having avoided the wiring, have made things convenient for when working a telephone switchboard to put the adjustment to the position of leading the core.

Description

Super multicore hypervelocity cable

Technical Field

The utility model relates to the technical field of cables, in particular to a super multi-core ultra-high-speed cable.

Background

The cable is an electric energy or signal transmission device, usually comprises several or several groups of wires, each group of wires is insulated with each other, the whole outside is equipped with the high-insulation covering layer, the cable has the characteristics of internal electrification and external insulation, and the cable is various in variety, including a super multi-core ultra-high speed cable, but the super multi-core ultra-high speed cable in the market still has the following problems:

1. when the existing super multi-core ultra-high-speed cable is used for wiring, the cable is installed at different positions through different guide cores, so that the positions of the guide cores in the cable are easily disordered in the sequence adjustment process, the transmission rate of the cable is possibly influenced, and the guide cores can be damaged by friction;

2. after the cable connection is finished, the angle between the cable and the wiring device is not easy to adjust, and the guide core in the cable is easy to fall off from the wiring device due to the uncomfortable angle, so that the labor is consumed for installation again, and the working efficiency is reduced.

Aiming at the problems, the novel design is carried out on the basis of the original super multi-core ultra-high-speed cable.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a super multi-core ultra high speed cable, which solves the problems that when the cable is connected, the common super multi-core ultra high speed cable in the market is arranged at different positions through different guide cores, the positions of the guide cores in the cable are easy to be disordered in the sequential adjustment process, the transmission rate of the cable is possibly influenced, the guide cores are possibly damaged by friction, and after the cable is connected, the angle between the cable and a connecting device is not easy to adjust, the guide cores in the cable are easy to fall off from the connecting device due to the improper angle, so that the labor is consumed for installation, and the working efficiency is reduced.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a super multicore hypervelocity cable, includes protective sheath, waterproof layer, fire-retardant layer, insulating layer, spread groove, cassette, connecting block, round hole, leads core, snap ring, block rubber and flexible dog, its characterized in that: including protective sheath, waterproof layer, fire-retardant layer, insulating layer, spread groove, cassette, connecting block, round hole, lead core, snap ring, block rubber and flexible dog, the inside of protective sheath is connected with the waterproof layer, and the internally mounted of waterproof layer has fire-retardant layer, the internally mounted on fire-retardant layer has the insulating layer, and the inside of insulating layer is provided with the spread groove, the internally mounted of insulating layer has the cassette, and the connecting block is installed on the top of cassette to the inside of connecting block is provided with the round hole, the internally mounted of cassette has leads the core, and the internally mounted of cassette has the snap ring, the internally mounted of snap ring has the block rubber, and the block rubber is connected with flexible dog, the outside of flexible dog is installed in the inside of cassette, and the inside at the snap ring is installed to the inner of flexible dog.

Preferably, the connection mode of the connection groove inside the insulating layer and the connection block is rotation connection, and the insulating layer and the card seat form a sliding structure.

Preferably, round holes are distributed in the connecting block at equal intervals, and the connecting block and the clamping seat are of an integrated structure.

Preferably, six guide cores are arranged in the clamping seat at equal angles, and the clamping seat is connected with the guide cores in a clamping manner.

Preferably, the clamping rings are symmetrically distributed in the clamping seat, and the telescopic stop blocks and the clamping seat form a sliding structure.

Preferably, the telescopic stop block and the rubber block are of an integrated structure, and an opening at the outer side of the telescopic stop block is arranged in a sharp-horn shape.

Compared with the prior art, the utility model has the beneficial effects that: the super multi-core ultra-high-speed cable,

1. when the cable is connected, one of the guide cores is pushed into the clamp ring, so that the positions of other guide cores can be adjusted, winding of a plurality of guide cores in the cable during connection is avoided, and the position of the guide core is convenient to place and adjust during connection;

2. through the round hole in the connecting block, when the wiring of workers is facilitated, the guide core can be partially removed from the sheath by inserting the bolt into the round hole, so that the problem that the sheath is disassembled by a tool, the waste of redundant guide cores is caused, the length of the guide core is convenient to save, meanwhile, the connecting block can be rotated, the connecting block is rotated in the connecting groove, the position of the guide core in the cable is rotated after the wiring is facilitated, the angle of the guide core is convenient to adjust, and the flexibility of the cable is improved;

drawings

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

FIG. 2 is a schematic view of the overall right-side cross-sectional structure of the present invention;

FIG. 3 is a schematic view of a connection structure of the snap ring and the retractable stop of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 5 is an enlarged view of the structure at B in FIG. 2 according to the present invention.

In the figure: 1. a protective sleeve; 2. a waterproof layer; 3. a flame retardant layer; 4. an insulating layer; 5. connecting grooves; 6. a card holder; 7. connecting blocks; 8. a circular hole; 9. a guide core; 10. a snap ring; 11. a rubber block; 12. a telescopic stop block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a super multi-core ultra-high speed cable comprises a protective sleeve 1, a waterproof layer 2, a flame-retardant layer 3, an insulating layer 4, a connecting groove 5, a clamping seat 6, a connecting block 7, a round hole 8, a guide core 9, a clamping ring 10, a rubber block 11 and a telescopic stop block 12, wherein the inner part of the protective sleeve 1 is connected with the waterproof layer 2, and the fire-retardant layer 3 is arranged in the waterproof layer 2, the insulating layer 4 is arranged in the fire-retardant layer 3, and the inside of the insulating layer 4 is provided with a connecting groove 5, the inside of the insulating layer 4 is provided with a clamping seat 6, the top end of the clamping seat 6 is provided with a connecting block 7, a round hole 8 is arranged inside the connecting block 7, a guide core 9 is arranged inside the clamping seat 6, a clamping ring 10 is arranged inside the clamping seat 6, a rubber block 11 is arranged inside the clamping ring 10, the rubber block 11 is connected with a telescopic stop block 12, the outer end of the telescopic stop block 12 is arranged inside the clamping seat 6, and the inner end of the telescopic stop block 12 is arranged inside the clamping ring 10;

the connecting groove 5 in the insulating layer 4 is rotatably connected with the connecting block 7, the insulating layer 4 and the clamping seat 6 form a sliding structure, the connecting block 7 is rotated to drive the clamping seat 6 to rotate in the insulating layer 4, so that the guide core 9 in the cable can be integrally rotated when the cable is connected, the connecting block 7 is pulled to drive the guide core 9 on the clamping seat 6 to move, and a worker is prevented from poking the protective sleeve 1 by using a tool;

round holes 8 are equidistantly distributed in the connecting block 7, the connecting block 7 and the clamping seat 6 are of an integrated structure, and the round holes 8 are inserted through bolts, so that workers can drive the connecting block 7 to move, meanwhile, the clamping seat 6 connected with the connecting block 7 is driven to move, and the guide core 9 in the clamping seat 6 is moved out, thereby facilitating the wiring work and improving the overall convenience;

six guide cores 9 are arranged in the clamping seat 6 at equal angles, the clamping seat 6 is connected with the guide cores 9 in a clamping manner, the guide cores 9 are conveniently placed in the clamping seat 6, the clamping seat 6 separates different guide cores 9 and fixes the guide cores 9, the guide cores 9 in the clamping seat 6 are prevented from being entangled, and the overall stability is improved;

the clamping ring 10 is symmetrically distributed in the clamping seat 6, the telescopic stop blocks 12 and the clamping seat 6 form a sliding structure, and workers push the guide cores 9 to enable the telescopic stop blocks 12 to be extruded by force, so that the telescopic stop blocks 12 slide in the clamping ring 10, openings of the telescopic stop blocks 12 are opened, the guide cores 9 can conveniently enter the clamping ring 10, position adjustment of different guide cores 9 can be conveniently carried out subsequently, and flexibility of integral installation is improved;

telescopic stop 12 and rubber block 11 are integral structure, and telescopic stop 12's outside opening is the sharp horn shape setting, and opening part setting through telescopic stop 12 makes things convenient for lead core 9 to put into the inside of snap ring 10, makes telescopic stop 12 carry out the sliding operation in snap ring 10, makes telescopic stop 12 carry out extrusion work to rubber block 11, makes things convenient for lead core 9 to place in the snap ring 10, also does benefit to simultaneously and leads core 9 and removes to the cassette 6 from the inside of snap ring 10.

The working principle is as follows: according to fig. 1-2, firstly, a worker pushes a guide core 9 in the clamping seat 6 into the clamping ring 10 from the sharp opening of the telescopic stop 12, meanwhile, the telescopic stop block 12 slides in the clamping ring 10 and is telescopic in the clamping ring 10 through the rubber block 11, so that the guide cores 9 can conveniently enter the clamping ring 10 under the action of force, five guide cores 9 are remained in the clamping seat 6, the positions of the guide cores 9 in the cable are adjusted by sequentially installing the colors of different guide cores 9 during wiring, and the guide core 9 in the card holder 6 is moved to the placing port of the other guide core 9 through the opening in the card holder 6, after the sequence is adjusted, the cable can be conveniently wired, the situation that the installation sequence is not easy to place due to the fact that the guide cores 9 are too much is avoided, and the interface of the guide cores 9 cannot fall off due to disorder of the inner guide cores 9 after the installation is finished;

according to the figures 1-5, when the cable connection work is carried out, because the round hole 8 is arranged on the connecting block 7, the round hole 8 is inserted through the bolt, the connecting block 7 drives the card holder 6 to move, thereby facilitating the guide core 9 in the card holder 6 to move out of a part from the inner part of the protective sleeve 1, avoiding the clamp from clamping and breaking the outer layer of the cable, after the cable is installed, the connecting block 7 and the connecting groove 5 in the insulating layer 4 form a rotating structure, the card holder 6 rotates in the insulating layer 4, facilitating the rotation of the guide core 9 in the card holder 6, avoiding the phenomenon that the guide core 9 falls off due to the over-tight position of the guide core 9 after the connection, improving the stability of the integral installation, meanwhile, the insulating layer 4 carries out insulation protection on the guide core 9, the flame-retardant layer 3 prevents the cable from being damaged in case of fire, and the installation of the waterproof layer 2 isolates the cable from water, the protective sheath 1 is used to protect the whole interior of the cable, so as to improve the protection of the whole cable, which is the working process of the whole device, and the content not described in detail in this specification belongs to the prior art known by those skilled in the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a super multicore hypervelocity cable, includes protective sheath (1), waterproof layer (2), fire-retardant layer (3), insulating layer (4), spread groove (5), cassette (6), connecting block (7), round hole (8), leads core (9), snap ring (10), block rubber (11) and flexible dog (12), its characterized in that: the interior of the protective sleeve (1) is connected with the waterproof layer (2), the interior of the waterproof layer (2) is provided with the flame-retardant layer (3), the interior of the flame-retardant layer (3) is provided with the insulating layer (4), a connecting groove (5) is arranged inside the insulating layer (4), a clamping seat (6) is arranged inside the insulating layer (4), a connecting block (7) is arranged at the top end of the clamping seat (6), a round hole (8) is arranged inside the connecting block (7), a guide core (9) is arranged inside the clamping seat (6), a clamping ring (10) is arranged in the clamping seat (6), a rubber block (11) is arranged in the clamping ring (10), and the rubber block (11) is connected with the telescopic stop block (12), the outer end of the telescopic stop block (12) is arranged in the clamping seat (6), and the inner end of the telescopic stop block (12) is arranged in the clamping ring (10).

2. A super multi-core ultra high speed cable according to claim 1, wherein: the connecting groove (5) in the insulating layer (4) is connected with the connecting block (7) in a rotating mode, and the insulating layer (4) and the clamping seat (6) form a sliding structure.

3. A super multi-core ultra high speed cable according to claim 1, wherein: round holes (8) are distributed in the connecting block (7) at equal intervals, and the connecting block (7) and the clamping seat (6) are of an integrated structure.

4. A super multi-core ultra high speed cable according to claim 1, wherein: six guide cores (9) are arranged in the clamping seat (6) at equal angles, and the clamping seat (6) is connected with the guide cores (9) in a clamping manner.

5. A super multi-core ultra high speed cable according to claim 1, wherein: the clamping rings (10) are symmetrically distributed in the clamping seat (6), and the telescopic stop blocks (12) and the clamping seat (6) form a sliding structure.

6. A super multi-core ultra high speed cable according to claim 1, wherein: the telescopic stop block (12) and the rubber block (11) are of an integrated structure, and an opening on the outer side of the telescopic stop block (12) is arranged in a sharp-horn shape.