CN221057192U - Compression-resistant cable - Google Patents

Abstract

The utility model relates to the technical field of cables and discloses a compression-resistant cable which comprises a light-emitting tube, wherein the bottom of the light-emitting tube is in transmission connection with a semicircular tube, in order to avoid ageing of internal parts, the internal parts are overheated due to high-speed operation, the risk of burning of the cable is caused, the interior of the cable cannot be timely cooled, a high temperature generated by an electric wire is sensed through a temperature sensing device, when the temperature reaches a vertex, an air pump in the temperature sensing device is started, a transverse toothed plate starts to move, a pinion is fixed by a small column, the pinion starts to rotate due to movement of the transverse toothed plate, at the moment, a clamping plate approaches an inert gas block, the inert gas block is broken, inert gas is diffused into the interior of the cable, the electric wire can be cooled, the interior of the cable can be timely protected, meanwhile, the temperature rod sensing device can remind workers of cable faults, and maintenance efficiency is improved.

Description

Compression-resistant cable

Technical Field

The utility model relates to the technical field of cables, in particular to a compression-resistant cable.

Background

At present, with the continuous development of national marine national defense industry, various advanced ships and deep-sea external weapons are continuously developed and innovated, and the requirements on cables for connecting the ships and the deep-sea external weapons are higher and higher, so that the radial high water pressure resistance and the electric energy transmission capability are required.

According to a disclosed cable (bulletin number: CN 205487458U) for deep sea, the cable comprises an outer sheath, a heavy shielding compression layer, a light shielding layer A, a bearing auxiliary compression layer, a light shielding layer B, a communication cable sub-piece arranged in the light shielding layer B, and a coaxial radio frequency cable sub-piece, a bus sub-piece, a control line sub-piece and a power line sub-piece which are respectively arranged on the periphery of the communication cable sub-piece, wherein the outer sheath, the heavy shielding compression layer, the light shielding layer A, the bearing auxiliary compression layer, the light shielding layer B and the communication cable sub-piece are sequentially arranged from outside to inside; the power cord sub-assembly comprises a central conductor and an insulating layer which are sequentially arranged from inside to outside.

However, in the practical use process of the equipment, the internal parts of the cable are aged in the long-term use process, and the internal parts are overheated due to high-speed operation, so that the cable has a risk of burning, the interior of the cable cannot be cooled timely, the working efficiency of the cable is finally reduced, and a large amount of use cost is increased; in view of this, we propose a compression-resistant cable.

Disclosure of utility model

The present utility model is directed to a compression-resistant cable for solving the above-mentioned problems.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a compression-resistant cable. Including the luminotron, the semicircle pipe is connected in luminotron bottom transmission, semicircle intraductal cooling structure that sets up, cooling structure includes:

the temperature sensing device is fixedly arranged on the inner wall of the semicircular tube, the side face of the temperature sensing device is in transmission connection with a transverse toothed plate, and the transverse toothed plate can transmit power;

The small column is fixedly arranged in the semicircular tube, the small gear is connected with the inside and the outside of the small column in a rotating mode, the clamping plate is fixedly arranged on the side face of the small gear, and the clamping plate can be inserted into the inert gas block;

The inert gas block is fixedly arranged in the semicircular tube and can cool down.

Preferably, the rotary column is fixedly arranged in the semicircular tube, the outer surface of the rotary column is rotationally connected with the rotary rod, and the rotary rod can transmit power.

Preferably, the transmission rod is fixedly arranged in the rotating rod, the adsorption rod is fixedly arranged on the side surface of the rotating rod, and the transmission rod can transmit power.

Preferably, the electric wire is fixedly installed in the semicircular tube, the opening of the semicircular tube is fixedly installed in a moving mode, a filling layer is arranged in the semicircular tube, and the electric wire can transmit signals.

Preferably, the pinion is internally provided with a mounting hole, and the pinion mounting hole is matched with the small column.

Preferably, the inside mounting hole that sets up of dwang, and dwang mounting hole and dwang looks adaptation.

Compared with the prior art, the utility model provides the compression-resistant cable which has the following beneficial effects:

1. This resistance to compression cable, in order to avoid the internals ageing, high-speed operation makes internals overheated, lead to the cable to have the risk of burning, can not timely cool down the processing to the cable inside, the high temperature that produces through temperature-sensing device response electric wire, after the temperature reaches a summit, the inside air pump of temperature-sensing device has started, horizontal pinion rack has started to remove in this time, pinion rack's removal makes the pinion begin to rotate immediately, splint are close to inert gas piece this moment, make inert gas piece break, make inert gas diffusion to the cable inside, make the electric wire can obtain the cooling, the inside protection cable that can be timely of this structure is not damaged, staff's cable's trouble has been reminded to temperature lever induction device simultaneously, maintenance efficiency has been improved.

2. This resistance to compression cable, in order to avoid having biological extrusion cable at the seabed, the sight is not good when the staff is maintained in the sea, be difficult to find the cable of damage, through the subsidence of luminotron, transfer pole has also started to move downwards this time, the dwellings pole cooperation dwellings pole takes place to rotate this moment, adsorption pole connects semicircle pipe and luminotron immediately, semicircle pipe internal circuit connection luminotron makes the luminotron begin to give out light, it provides convenience to seek the cable for the maintenance personal, simultaneously when the submarine organism left the cable, adsorption pole still adsorbed the luminotron, remind the staff that the cable received important needs to detect.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of the present utility model;

FIG. 2 is an enlarged view of the area of FIG. 1A according to the present utility model;

FIG. 3 is a schematic three-dimensional structure of the present utility model.

In the figure: 1. a pipe orifice; 2. a semicircular tube; 3. a luminous tube; 4. an electric wire; 5. an inert gas block; 6. a clamping plate; 7. a pinion gear; 8. a transverse toothed plate; 9. a temperature sensing device; 10. a rotating lever; 11. a small column; 12. rotating the column; 13. an adsorption rod; 14. a transfer lever; 15. and (5) a filling layer.

Detailed Description

As shown in fig. 1-3, the present utility model provides a technical solution: the utility model provides a resistance to compression cable, includes luminotron 3, and semicircle pipe 2 is connected in the transmission of luminotron 3 bottom, and semicircle pipe 2 inside sets up cooling structure, and cooling structure includes: inert gas block 5, splint 6, pinion 7, horizontal pinion rack 8, temperature sensing device 9, columella 11.

The inner wall of the semicircular tube 2 is fixedly provided with the temperature sensing device 9, the side face of the temperature sensing device 9 is in transmission connection with the transverse toothed plate 8, the inner part of the semicircular tube 2 is fixedly provided with the small column 11, the small column 11 is connected with the small gear 7 in an external rotating mode, the side face of the small gear 7 is fixedly provided with the clamping plate 6, the inner part of the semicircular tube 2 is fixedly provided with the inert gas block 5, in order to avoid ageing of internal parts, the internal parts are overheated due to high-speed operation, the cable is at risk of burning, the cable cannot be timely cooled, the high temperature generated by the electric wire 4 is sensed through the temperature sensing device 9, after the temperature reaches a peak, the air pump in the temperature sensing device 9 is started, the transverse toothed plate 8 starts to move, then the small column 11 is fixedly provided with the small gear 7, the small gear 7 starts to rotate due to the movement of the transverse toothed plate 8, the clamping plate 6 approaches to the inert gas block 5 at the moment, the inert gas block 5 is broken, the inert gas is diffused into the cable, the cable can be cooled, the cable can be timely protected, the cable can be timely is not damaged due to the arrangement of the structure, and the cable can be timely protected, and the temperature sensing device 9 can remind workers of the cable faults, and maintenance efficiency is improved. The inside fixed mounting dwang 12 of semicircle pipe 2, the dwang 10 is connected in the rotation of dwang 12 surface, the inside fixed mounting transfer pole 14 of dwang 10, the fixed mounting adsorption pole 13 of dwang 10 side, semicircle pipe 2 inside fixed mounting electric wire 4, semicircle pipe 2 removes fixed mounting mouth of pipe 1, semicircle pipe 2 inside is provided with filling layer 15, in order to avoid having biological extrusion cable at the seabed, the staff is when maintaining in the sea, the sight is not good, be difficult to discover the cable of damage, through the subsidence of luminotron 3, transfer pole 14 has also begun to move downwards at this time, the dwang 12 cooperation dwang 10 takes place to rotate at this moment, immediately adsorb pole 13 connect semicircle pipe 2 and luminotron 3, semicircle pipe 2 internal circuit connection luminotron 3, make luminotron 3 begin to give the maintenance personal look for the cable and provide convenience, simultaneously, adsorption pole 13 still adsorbs luminotron 3, it has received important needs to detect to remind the staff cable, setting up of filling layer 15 can be when the cable receives too big extrusion, protection electric wire 4 receives and extrudeed each other and causes the damage, mouth of pipe 1's setting can connect cable and equipment.

Working principle: in order to avoid the interior parts ageing, and high-speed operation makes interior parts overheated, lead to the cable to have the risk of burning, the inside processing of cooling down of cable that can not be timely, high temperature that produces through temperature sensing device 9 response electric wire 4, after the temperature reaches a summit, the inside air pump of temperature sensing device 9 has started, horizontal pinion rack 8 has started to remove in this time, pinion rack 11 is fixed pinion 7 immediately, the removal of horizontal pinion rack 8 makes pinion rack 7 have started to rotate, splint 6 is close to inert gas piece 5 at this moment, make inert gas piece 5 break, make inert gas diffuse to the cable inside, make electric wire 4 can obtain the cooling down, the setting of this structure can be timely protect cable inside not receive the damage, simultaneously temperature sensing device 9 can remind the trouble of staff's cable, maintenance efficiency has been improved, in order to avoid when the seabed has the bio-extrusion cable, the staff is maintenance, the cable of undersea, be difficult to find the damage, through the sinking of luminotron 3, transfer pole 14 has also started to move down, rotation post 12 cooperation dwang 10 takes place rotatoryly, adsorption pole 13 connects half luminotron 3 at this moment, the time, the luminotron 2 is connected with half luminotron 3 is connected, the inner tube 3 has been connected, when the life-time when the inner tube 3 receives the life-time, the life-time of waiting cable is needed to be detected, the life-time is needed to be long-time when the inner tube 3 is needed to be detected, the life cable is needed is compressed, the life 15 is needed, the life cable is long-time is needed, the life is needed is realized, the life 15, the life is long time is needed is long time, and the life cable is needed, the cable is long time is needed, and the life is long time, the life is required, and the life is long, and the cable is long, and the life is required.

The foregoing utility model has been generally described in great detail, but it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, it is intended to cover modifications or improvements within the spirit of the inventive concepts.

Claims (6)

1. The utility model provides a resistance to compression cable, includes luminotron (3), semicircle pipe (2), its characterized in that are connected in luminotron (3) bottom transmission: the inside cooling structure that sets up of semicircle pipe (2), cooling structure includes:

The temperature sensing device (9) is fixedly arranged on the inner wall of the semicircular tube (2), and the side surface of the temperature sensing device (9) is in transmission connection with the transverse toothed plate (8);

The small column (11) is fixedly arranged in the semicircular tube (2), the small column (11) is internally and externally connected with the small gear (7) in a rotating way, and the clamping plate (6) is fixedly arranged on the side surface of the small gear (7);

the inert gas block (5) is fixedly arranged in the semicircular tube (2), and the inert gas block (5) is fixedly arranged in the semicircular tube.

2. A compression resistant cable according to claim 1, wherein: the semicircular tube (2) is internally and fixedly provided with a rotating column (12), and the outer surface of the rotating column (12) is rotationally connected with a rotating rod (10).

3. A compression resistant cable according to claim 2, wherein: the transmission rod (14) is fixedly arranged in the rotating rod (10), and the adsorption rod (13) is fixedly arranged on the side surface of the rotating rod (10).

4. A compression resistant cable according to claim 1, wherein: the electric wire (4) is fixedly installed inside the semicircular tube (2), the opening (1) is fixedly installed in the semicircular tube (2) in a moving mode, and a filling layer (15) is arranged inside the semicircular tube (2).

5. A compression resistant cable according to claim 1, wherein: the pinion (7) is internally provided with a mounting hole, and the mounting hole is matched with the small column (11).

6. A compression resistant cable according to claim 2, wherein: the inside mounting hole that sets up of dwang (10), just dwang (12) mounting hole with dwang (10) looks adaptation.