CN223486254U

CN223486254U - Wiring equipment for communication optical cable construction

Info

Publication number: CN223486254U
Application number: CN202423177394.6U
Authority: CN
Inventors: 徐玲; 殷志勇; 方浩
Original assignee: China Radio And Television Chongqing Network Co ltd
Current assignee: China Radio And Television Chongqing Network Co ltd
Priority date: 2024-12-23
Filing date: 2024-12-23
Publication date: 2025-10-28
Anticipated expiration: 2034-12-23

Abstract

The utility model provides wiring equipment for communication optical cable construction, which relates to the technical field of optical cables and comprises a plurality of brackets, wherein the lower ends of the brackets are respectively provided with a plurality of universal wheels, the upper ends of the brackets, which are close to one another, are provided with rotating mechanisms, the upper ends of the rotating mechanisms are provided with clamping mechanisms, and the upper ends of the inner parts of the clamping mechanisms are clamped and provided with optical cable rolls. According to the utility model, the optical cable coil is clamped between the clamping plates, and then the height of the optical cable coil can be controlled by pushing of the electric control hydraulic cylinder, so that the optical cable coil is moved to the position where the optical cable is required to be installed, and a worker is not required to manually transfer the optical cable upwards, and the universal wheel drives the optical cable coil to continuously move along the position where the optical cable is required to be installed, thereby improving the stability of the optical cable in the installation process, avoiding damage to the surface of the optical cable due to bending and other conditions, and being more convenient for a user to install the optical cable.

Description

Wiring equipment for communication optical cable construction

Technical Field

The utility model relates to the technical field of optical cables, in particular to wiring equipment for communication optical cable construction.

Background

The utility model provides a communication optical cable is by cable core and the outer sheath of a plurality of optic fibre constitution for realize a communication line of optical signal transmission, and at the in-process of laying communication optical cable, often need install through the assistance of wiring equipment, as the wiring device that communication optical cable construction was put forward with convenient removal of application for "CN202121164081.0", including main part and wrapping post, the inside of main part is provided with the removal knob, and the tip of removal knob is provided with the sliding block, the below of sliding block is provided with the lifter, and the bottom of lifter is provided with the truckle, the inside of main part is provided with clean knob, and the tip of clean knob is provided with the slot, the inside of slot is provided with clean pole, and the top of clean pole is provided with the cleaning ring, the avris of main part is provided with receive and release knob, and receive and release knob's tip is provided with the sun gear, the avris of sun gear is provided with the pinion, and the avris of sun gear is provided with the rotation gear, the wrapping post sets up in the top of rotation gear. The wiring device convenient to move for the construction of the communication optical cable is provided with the winding and unwinding rotary button, so that the optical cable can be automatically wound and unwound, and the construction efficiency can be greatly improved;

However, in the above technical solution, although the optical cable can be automatically sent and received and the optical cable is protected, when the required laying height of the optical cable is higher and the length is longer, at least two workers are needed, one person climbs and installs the optical cable by using an escalator, one person transfers the optical cable upwards, then the worker at the upper end is required to pull the optical cable in the process of transferring the optical cable, and then the worker at the upper end is required to manually adjust the position where the optical cable is required to be installed after the transfer is completed, so that the method is low in installation efficiency and consumes very much labor, and therefore, the wiring device for construction of the communication optical cable is provided to solve the above problems.

Disclosure of utility model

The utility model mainly aims to provide wiring equipment for communication optical cable construction, which solves the problems that although the wiring equipment can automatically send and receive optical cables and protect the optical cables, when the required laying height of the optical cables is higher and the length is longer, at least two workers are required, one worker climbs and installs the optical cables by using an escalator, one person transfers the optical cables upwards, then the worker at the upper end is required to pull the optical cables in the process of transferring the optical cables to realize transfer, and then the worker at the upper end is required to manually adjust the positions of the optical cables required to be installed after the transfer is completed, so that the method has lower installation efficiency and consumes very much labor.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

The utility model provides a wiring equipment for communication optical cable construction, includes a plurality of supports, a plurality of universal wheels are installed respectively to the lower extreme of support, rotary mechanism is installed to the upper end that the support is close to one side each other, fixture is installed to rotary mechanism's upper end, optical cable is rolled up to fixture's inside upper end block, rotary mechanism is including the backup pad, backup pad movable mounting is between the support, install automatically controlled pneumatic cylinder in the middle of the upper surface of backup pad, the fixed block is installed to automatically controlled pneumatic cylinder's output, and the fixed block can be movable be located between the support, fixture is including the spout, the upper surface of fixed block is located to the spout, movable mounting has the slider respectively at the inside both ends of spout, splint are installed respectively to the upper end of slider, optical cable is rolled up and is installed between splint.

Preferably, the front and back screw rods are movably installed in the middle of the inside of the sliding groove, the rod bodies of the front and back screw rods are respectively and penetratingly installed in the sliding block through threads, the guide rods are respectively and fixedly installed at the front and back ends of the inside of the sliding groove, and the rod bodies of the guide rods are respectively and movably penetratingly installed in the sliding block.

Preferably, the extension piece is installed to fixed block's lower surface one end, run through between extension piece's inside and the spout and be equipped with the spread groove, the inside movable mounting of spread groove has a sprocket, no. two sprockets are installed in the positive and negative lead screw outside the shaft that is close to spread groove one end, the meshing is installed the chain between sprocket No. one and No. two sprockets, extension piece's internally mounted has No. two motors, no. two motor's output is connected with No. one sprocket.

Preferably, the upper end of the inside of the clamping plate far away from one side of the extension block is movably penetrated and provided with a second rotating block, one end of the clamping plate close to one side of the extension block is provided with a third motor, the output end of the third motor and one end of the second rotating block are respectively provided with a clamping frame, and the clamping frames are connected with two ends of the optical cable roll in a clamping mode.

Preferably, the upper end of the inside of the bracket far away from one side of the extension block is movably provided with a first rotating block, and one end of the first rotating block is connected with one side of the supporting plate.

Preferably, a motor is arranged at the upper end inside the bracket near one side of the extension block, and the output end of the motor is connected with the other side of the support plate.

Compared with the prior art, the utility model has the following beneficial effects:

(1) According to the utility model, the optical cable coil is clamped between the clamping plates, and then the height of the optical cable coil can be controlled by pushing of the electric control hydraulic cylinder, so that the optical cable coil is moved to the position where the optical cable is required to be installed, and a worker is not required to manually transfer the optical cable upwards, and the universal wheel drives the optical cable coil to continuously move along the position where the optical cable is required to be installed, thereby improving the stability of the optical cable in the installation process, avoiding damage to the surface of the optical cable due to bending and other conditions, and being more convenient for a user to install the optical cable.

(2) According to the utility model, a user only needs to put the optical cable coil at the lower end of the bracket, so that the motor I can control the supporting plate and the clamping mechanism to conduct angle adjustment, the clamping mechanism moves to the lower end of the bracket to clamp and position the optical cable coil, thereby improving the convenience and accuracy of the installation of the optical cable coil, then the height adjustment can be conducted according to the installation position of the optical cable under the control of the electric control hydraulic cylinder, the installation can be conducted stably no matter the optical cable coil is installed at a position higher than the installation position or the paying-off is conducted along the groove, the overall installation efficiency is improved, and the physical consumption of the user is reduced.

Drawings

FIG. 1 is a schematic view showing the overall structure of a wiring device for construction of a communication optical cable according to the present utility model;

FIG. 2 is a schematic diagram showing the front view of a wiring device for construction of a communication optical cable according to the present utility model;

FIG. 3 is a schematic side view of a wiring device for construction of a communication optical cable according to the present utility model;

FIG. 4 is a schematic view showing a sectional structure at A-A in FIG. 3 of a wiring device for communication cable construction according to the present utility model;

Fig. 5 is an enlarged schematic view of the wiring device for construction of a communication optical cable of the present utility model at B in fig. 4.

The device comprises a bracket 1, a bracket 2, universal wheels 3, a rotating mechanism 301, a supporting plate 302, a first rotating block 303, a first motor 304, an electric control hydraulic cylinder 305, a fixed block 4, a clamping mechanism 401, a sliding chute 402, a positive and negative screw rod 403, a clamping plate 404, a guide rod 405, a sliding block 406, an extending block 407, a second motor 408, a connecting groove 409, a first sprocket 410, a second sprocket 411, a chain 412, a second rotating block 413, a clamping frame 414, a third motor and an optical cable roll 5.

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 those skilled 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.

As shown in fig. 1 to 5, an embodiment of the present utility model provides a wiring device for construction of a communication optical cable, which includes a plurality of brackets 1, wherein a plurality of universal wheels 2 are respectively installed at the lower ends of the brackets 1, a rotating mechanism 3 is installed at the upper ends of the brackets 1 close to each other, a clamping mechanism 4 is installed at the upper ends of the rotating mechanism 3, an optical cable roll 5 is installed at the inner upper ends of the clamping mechanisms 4 in a clamping manner, the rotating mechanism 3 includes a supporting plate 301, the supporting plate 301 is movably installed between the brackets 1, an electric control hydraulic cylinder 304 is installed in the middle of the upper surface of the supporting plate 301, a fixed block 305 is installed at the output end of the electric control hydraulic cylinder 304, the fixed block 305 can be movably located between the brackets 1, the clamping mechanism 4 includes a sliding groove 401, sliding grooves 401 are provided at the upper surface of the fixed block 305, sliding blocks 405 are respectively movably installed at the inner two ends of the sliding groove 401, clamping plates 403 are respectively installed at the upper ends of the sliding blocks 405, and the optical cable roll 5 is installed between the clamping plates 403.

As shown in fig. 4 to 5, in another embodiment of the present utility model, a front and back screw rod 402 is movably mounted in the middle of the inside of the chute 401, the shaft of the front and back screw rod 402 is respectively and rotatably mounted in the inside of the slider 405 through threads, the front and back ends of the inside of the chute 401 are respectively and fixedly provided with a guide rod 404, the shaft of the guide rod 404 is movably and rotatably mounted in the inside of the slider 405, one end of the lower surface of the fixed block 305 is provided with an extension block 406, a connecting slot 408 is arranged between the inside of the extension block 406 and the chute 401 in a penetrating manner, a first sprocket 409 is movably mounted in the inside of the connecting slot 408, a second sprocket 410 is mounted on the outside of the shaft of the front and back screw rod 402 near one end of the connecting slot 408, a chain 411 is mounted between the first sprocket 409 and the second sprocket 410 in a meshed manner, a second motor 407 is mounted in the inside of the extension block 406, the output end of the second motor 407 is connected with the first sprocket 409, the upper end of the inside of the clamp plate 403 far away from one side of the extension block 406 is movably and rotatably mounted in a second rotary block 412, one end of the clamp plate 403 near one side of the extension block 403 is mounted with a third motor 414, one end of the clamp block 412 near one end of the second rotary block 412 is mounted in the other side of the support plate 301 is mounted near one end of the second rotary block 301, one end of the second end of the support plate 302 is connected with the second end of the support plate 301 near one end of the second end of the support plate 301 is mounted near one end of the support plate 302, and the second end of the support plate 302 is connected with one end of the support plate, and the support plate is connected with one end of the support plate 301 is connected with one end, and has support plate 1, and has support end, and shown in the support structure, and in the support structure, in another support, shown in the support and shown in the support and in the support.

When the optical cable is required to be routed, a user pushes the optical cable roll 5 to the lower end of the bracket 1, then the first motor 303 drives the supporting plate 301 to rotate, the supporting plate 301 drives the electric control hydraulic cylinder 304 and the fixed block 305 to rotate from the upper end to the lower end, at this time, the fixed block 305 drives the clamping mechanism 4 to be parallel to the optical cable roll 5, then the second motor 407 controls the first sprocket 409 to rotate, then the first sprocket 409 controls the forward and reverse screw 402 to rotate through the chain 411 and the second sprocket 410, then the forward and reverse screw 402 can control the slide block 405 to move in the opposite direction through threads, so that the slide block 405 drives the clamping plate 403 to open, then the electric control hydraulic cylinder 304 can push the fixed block 305 to move downwards, the fixed block 305 drives the clamping plate 403 to move towards the optical cable roll 5, and after the two ends of the optical cable roll 5 and the clamping frame 413 are mutually overlapped, the electric control hydraulic cylinder 304 can stop working, then the second motor 407 controls the first sprocket 409 to rotate reversely, then the first sprocket 409 controls the forward and reverse screw rod 402 to rotate reversely through the chain 411 and the second sprocket 410, the forward and reverse screw rod 402 moves in the opposite direction through the thread control sliding block 405 and the clamping plate 403, finally the clamping plate 403 drives the clamping frame 413 to be clamped and connected with two ends of the optical cable roll 5, then after the optical cable roll 5 is connected with the clamping plate 403, if the optical cable needs to be installed at a high position, the first motor 303 can control the supporting plate 301 to rotate reversely, the supporting plate 301 drives the optical cable roll 5 to move to the upper end, then the electric control hydraulic cylinder 304 can push the optical cable roll 5 to move upwards, then after moving to a designated position, a user can firstly limit one end of the optical cable, and after the installation is completed, the user can push the bracket 1 to move along the installation direction by matching with the universal wheel 2, and meanwhile, the motor No. 414 can also control the clamping frame 413 and the optical cable coil 5 to rotate, so that the work of loosening and wiring the optical cable is realized, the laying efficiency of the optical cable can be improved, the labor intensity of the user is reduced, and the user is not required to pull and convey the optical cable;

Then when the optical cable is required to be installed along the groove, a user only needs to control the supporting plate 301 to rotate through the motor 303, the supporting plate 301 drives the optical cable coil 5 to be located at the lower end or in a forming inclined state, then the user can push the support 1 to move along the groove in cooperation with the universal wheel 2, then the motor 414 can also control the clamping frame 413 and the optical cable coil 5 to rotate in the moving process, accordingly, the work of loosening wiring of the optical cable is achieved, the optical cable falls into the groove, and the optical cable is simpler and more convenient.

The working principle of the wiring equipment for the construction of the communication optical cable is as follows:

When in use, firstly, when the optical cable is required to be routed, a user pushes the optical cable roll 5 to the lower end of the bracket 1, then the first motor 303 drives the supporting plate 301 to rotate, the supporting plate 301 drives the electric control hydraulic cylinder 304 and the fixed block 305 to rotate from the upper end to the lower end, at the moment, the fixed block 305 drives the clamping mechanism 4 and the optical cable roll 5 to be parallel to each other, then the second motor 407 controls the first sprocket 409 to rotate, then the first sprocket 409 controls the forward and reverse screw 402 to rotate through the chain 411 and the second sprocket 410, then the forward and reverse screw 402 can control the slide block 405 to move in the opposite direction through threads, so that the slide block 405 drives the clamping plate 403 to open, then the electric control hydraulic cylinder 304 can push the fixed block 305 to move downwards, the fixed block 305 drives the clamping plate 403 to move towards the optical cable roll 5, and after the two ends of the optical cable roll 5 and the clamping frame 413 are mutually overlapped, the electric control hydraulic cylinder 304 can stop working, then the second motor 407 controls the first sprocket 409 to rotate reversely, then the first sprocket 409 controls the forward and reverse screw rod 402 to rotate reversely through the chain 411 and the second sprocket 410, the forward and reverse screw rod 402 moves in the opposite direction through the thread control sliding block 405 and the clamping plate 403, finally the clamping plate 403 drives the clamping frame 413 to be clamped and connected with two ends of the optical cable roll 5, then after the optical cable roll 5 is connected with the clamping plate 403, if the optical cable needs to be installed at a high position, the first motor 303 can control the supporting plate 301 to rotate reversely, the supporting plate 301 drives the optical cable roll 5 to move to the upper end, then the electric control hydraulic cylinder 304 can push the optical cable roll 5 to move upwards, then after moving to a designated position, a user can firstly limit one end of the optical cable, and after the installation is completed, the user can promote support 1 and cooperate universal wheel 2 to remove along the installation direction, and No. three motor 414 also can control joint frame 413 and optical cable reel 5 to rotate simultaneously to realize the work of loosening the wiring to the optical cable.

It should be understood that the foregoing examples of the present utility model are merely illustrative of the present utility model and not limiting of the embodiments of the present utility model, and that various other changes and modifications can be made by those skilled in the art based on the above description, and it is not intended to be exhaustive of all of the embodiments, and all obvious changes and modifications that come within the scope of the utility model are defined by the following claims.

Claims

1. The wiring equipment for the communication optical cable construction comprises a plurality of supports (1), and is characterized in that a plurality of universal wheels (2) are respectively installed at the lower ends of the supports (1), a rotating mechanism (3) is installed at the upper ends of the supports (1) which are close to one another, a clamping mechanism (4) is installed at the upper ends of the rotating mechanism (3), an optical cable coil (5) is installed at the inner upper end clamping of the clamping mechanism (4), the rotating mechanism (3) comprises a supporting plate (301), the supporting plate (301) is movably installed between the supports (1), an electric control hydraulic cylinder (304) is installed in the middle of the upper surface of the supporting plate (301), a fixed block (305) is installed at the output end of the electric control hydraulic cylinder (304), the fixed block (305) can be movably located between the supports (1), sliding grooves (401) are formed in the upper ends of the sliding grooves (401) and are respectively movably installed at the inner two ends of the sliding grooves (401), and the upper ends of the sliding grooves (405) are respectively installed at the upper ends of the sliding grooves (403), and the optical cable coil (403) is installed between the clamping plates (5).

2. The wiring equipment for construction of the communication optical cable according to claim 1, wherein a front and back screw rod (402) is movably mounted in the middle of the inside of the sliding groove (401), rod bodies of the front and back screw rod (402) are respectively and penetratingly mounted in the sliding block (405) through threads, guide rods (404) are fixedly mounted at front and rear ends of the inside of the sliding groove (401), and the rod bodies of the guide rods (404) are respectively and movably penetratingly mounted in the sliding block (405).

3. The wiring device for construction of the communication optical cable according to claim 2, wherein an extension block (406) is installed at one end of the lower surface of the fixing block (305), a connecting groove (408) is formed between the inside of the extension block (406) and the sliding groove (401) in a penetrating mode, a first sprocket (409) is movably installed inside the connecting groove (408), a second sprocket (410) is installed on the outer side of a shaft, close to one end of the connecting groove (408), of the positive and negative lead screw (402), a chain (411) is installed between the first sprocket (409) and the second sprocket (410) in a meshed mode, a second motor (407) is installed inside the extension block (406), and the output end of the second motor (407) is connected with the first sprocket (409).

4. The wiring device for construction of communication optical cables according to claim 3, wherein a second rotating block (412) is movably installed at the upper end inside the clamping plate (403) at the side far away from the extending block (406), a third motor (414) is installed at one end of the clamping plate (403) at the side close to the extending block (406), a clamping frame (413) is installed at the output end of the third motor (414) and one end of the second rotating block (412) respectively, and the clamping frame (413) is connected with two ends of the optical cable roll (5) in a clamping mode.

5. The wiring device for construction of communication optical cable according to claim 1, wherein a first rotating block (302) is movably installed at the upper end inside the bracket (1) at the side far away from the extension block (406), and one end of the first rotating block (302) is connected with one side of the supporting plate (301).

6. The wiring device for construction of communication optical cable according to claim 5, wherein a first motor (303) is installed at the upper end inside the bracket (1) near one side of the extension block (406), and the output end of the first motor (303) is connected with the other side of the supporting plate (301).