CN118054338A - Wiring equipment based on communication building - Google Patents

Abstract

The invention relates to the technical field of communication construction, in particular to wiring equipment based on a communication building. The technical problems are as follows: when the cable needs to be laid again after the operation of the communication machine room, the antistatic floor needs to be lifted along the cable wiring direction, the workload is large, the antistatic floor is easy to damage, meanwhile dust in the interlayer is easy to fly around, so that the inside of the cabinet is affected, normal heat dissipation of equipment is affected, the antistatic floor provided with the cabinet cannot be lifted, the wiring trend is affected, the construction efficiency is reduced, further, the distance between an existing cable and the ground is small, and the newly arranged cable is difficult to pass through the lower part of the existing cable. The technical proposal is as follows: a wiring device based on communication building comprises a partition board, a support and the like; the baffle is movably connected with a support. According to the invention, constructors move the guide frame on the surface of the antistatic floor to drive the support frame to move in the interlayer, so that the cable laying is completed under the condition that the antistatic floor is not required to be lifted for multiple times.

Description

Wiring equipment based on communication building

Technical Field

The invention relates to the technical field of communication construction, in particular to wiring equipment based on a communication building.

Background

In order to ensure that communication equipment is not affected by static in the existing communication machine room, an antistatic floor is usually required to be additionally arranged on the original ground, meanwhile, in order to facilitate wiring, a cable is usually laid on the lower side of the antistatic floor, however, the interlayer space between the antistatic floor and the original ground is narrow, when the cable is required to be laid again after the operation of the communication machine room, the antistatic floor is required to be lifted along the wiring direction of the cable, the workload is large, the antistatic floor is easy to damage, dust in the interlayer is easy to fly around, and accordingly the inside of a cabinet is affected, normal heat dissipation of the equipment is affected, and in addition, the antistatic floor with the cabinet is placed cannot be lifted due to the fact that the position of the cabinet cannot be moved, so that the wiring trend is affected, and the construction efficiency is reduced. Further, more existing cables exist in the interlayer, the distance between the existing cables and the ground is smaller, and the newly arranged cables are difficult to pass through the lower parts of the existing cables, so that flexibility of wiring is reduced, and wiring efficiency is reduced.

Disclosure of Invention

In order to overcome the defects that when a cable needs to be laid again after a communication machine room operates, the antistatic floor needs to be lifted along the cable wiring direction, the workload is large, the antistatic floor is easy to damage, dust in an interlayer is easy to fly around, so that the inside of a cabinet is affected, normal heat dissipation of equipment is affected, the antistatic floor provided with the cabinet cannot be lifted, the wiring trend is affected, the construction efficiency is reduced, and further, the distance between an existing cable and the ground is small, and the newly arranged cable is difficult to pass through the lower part of the existing cable.

The technical proposal is as follows: a wiring device based on communication building comprises a partition board, a support and rollers; the partition board is positioned on the antistatic floor; the baffle is movably connected with a support; the support transmits a cable; a plurality of rollers are movably connected on the support; each roller is in sliding contact with an adjacent cable; the device also comprises a supporting frame, supporting legs, a camera, a guide frame, a display screen and a sliding system; the underside of the antistatic floor is movably contacted with a supporting frame for guiding wiring; the cable head end is arranged at the left side of the support frame; a plurality of supporting legs are movably connected to the supporting frame; a magnet is arranged on the upper side of each supporting leg; a camera is arranged on the support frame; the upper side of the antistatic floor is movably contacted with a guide frame for adjusting the cable running direction; a magnet is arranged at the lower side of the guide frame; the guide frame and all the supporting legs are mutually adsorbed by magnetic force; a display screen is arranged on the guide frame; the support frame is provided with a sliding system which is convenient for the support frame to pass through the lower part of the existing cable.

As a further preferable scheme, the partition plate is provided with an air suction hole which is communicated with an external air pump.

As a further preferred embodiment, a plurality of balls are provided on each leg.

As a further preferable scheme, the cleaning device also comprises a cleaning cover; a cleaning cover for cleaning sundries on the surface of the cable is fixedly connected on the partition plate; the cleaning cap is in sliding contact with the cable.

As a further preferable scheme, the support frame is composed of a plurality of support plates, and two adjacent support plates are movably connected.

As a further preferred embodiment, the sliding system comprises a pulley; the supporting frame is rotationally connected with a plurality of pulleys for reducing friction force between the supporting frame and the ground.

As a further preferred aspect, the sliding system further includes a first baffle; the right side of the support frame is fixedly connected with a first baffle plate for enlarging the distance between the cable and the ground.

As a further preferable scheme, when the first baffle for enlarging the distance between the cable and the ground is fixedly connected on the right side of the supporting frame, the first baffle for enlarging the distance between the cable and the ground is fixedly connected on the supporting leg positioned on the right side.

As a further preferable aspect, the width of the first barrier is set wider than the support frame.

As a further preferable scheme, the device also comprises a second baffle plate; a second baffle for protecting the camera from being scratched is fixedly connected to the first baffle; the second baffle is located the camera right side, and the second baffle adopts printing opacity glass material.

The invention has the following advantages:

The constructor moves the guide frame on the surface of the antistatic floor to drive the support frame to move in the interlayer, so that the cable is laid under the condition that the antistatic floor does not need to be lifted for multiple times;

the external air pump is controlled to pump air, so that dust raised in the interlayer is discharged to the outer side of the communication machine room through the air pumping holes, and the dust in the interlayer is prevented from reducing the image quality shot by the camera;

The cleaning cover is used for scraping sundries on the surface of the cable, so that the sundries are prevented from entering the interlayer, the interlayer is ensured to be clean and free of sundries, and fire disasters caused by the sundries in the interlayer are prevented;

The supporting frame is enabled to be attached to the ground by controlling the supporting plate to rotate, so that the supporting frame can conveniently pass through the lower part of an existing cable, and the flexibility of wiring of the supporting frame is increased;

The existing cable is contacted and extruded through the first baffle plate, so that the existing cable moves upwards, the distance between the existing cable and the ground is increased, the supporting frame and the cable can conveniently pass through, and the wiring efficiency of the cable is improved.

Drawings

Fig. 1 is a schematic perspective view of a wiring device based on a communication building according to the present invention;

FIG. 2 is a schematic view of a partial perspective structure of the present invention;

FIG. 3 is an enlarged view of the area A of FIG. 2 in accordance with the present invention;

FIG. 4 is a partial cross-sectional view of a mount of the present invention;

FIG. 5 is an enlarged view of the area B of FIG. 4 in accordance with the present invention;

FIG. 6 is a schematic perspective view of a sliding system according to the present invention;

FIG. 7 is a diagram showing a wiring state of the support frame according to the present invention;

Fig. 8 is a schematic perspective view of a first baffle plate and a second baffle plate combination according to the present invention.

Wherein: 1-partition plate, 1001-air suction hole, 2-support, 3-roller, 4-support frame, 5-support leg, 5001-ball, 6-camera, 7-guide frame, 8-display screen, 9-antistatic floor, 10-cable, 201-first motor, 202-cleaning cover, 301-second motor, 302-pulley, 303-first baffle, 401-second baffle.

Detailed Description

The invention will be further illustrated by the following description of specific examples, which are given by the terms such as: setting, mounting, connecting are to be construed broadly, and may be, for example, fixed, removable, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Example 1

As shown in fig. 1 to 5, a wiring device based on a communication building comprises a partition board 1, a support 2 and a roller 3; the partition board 1 is positioned on the antistatic floor 9; a support 2 is movably connected on the partition board 1; the support 2 transmits a cable 10; four rollers 3 are movably connected to the support 2; each roller 3 is in sliding contact with an adjacent cable 10;

The device also comprises a supporting frame 4, supporting legs 5, a camera 6, a guide frame 7, a display screen 8 and a sliding system; the underside of the antistatic floor 9 is movably contacted with a supporting frame 4; the head end of the cable 10 is arranged at the left side of the supporting frame 4; three supporting legs 5 are movably connected to the supporting frame 4; a magnet is arranged on the upper side of each supporting leg 5; a camera 6 is arranged on the right side of the supporting frame 4; the upper side of the antistatic floor 9 is movably contacted with a guide frame 7; a magnet is arranged at the lower side of the guide frame 7; the guide frame 7 and all the supporting legs 5 are mutually adsorbed by magnetic force; the guide frame 7 is provided with the display screen 8, a constructor moves the guide frame 7 on the surface of the antistatic floor 9 to drive the support frame 4 to move in the interlayer, and the condition in the interlayer is confirmed by observing the display screen 8, so that the moving direction of the support frame 4 is conveniently adjusted by rotating the guide frame 7, the laying of the cable 10 is finished without lifting the antistatic floor 9 for a plurality of times, the damage to the antistatic floor 9 is reduced, the construction efficiency is improved, dust is prevented from lifting to the upper side of the antistatic floor 9, and the normal heat dissipation of communication equipment is prevented from being influenced; the support frame 4 is provided with a sliding system, and the support frame 4 passes through the lower part of the existing cable 10 through the sliding system, so that the flexibility of wiring of the support frame 4 is increased.

The air suction hole 1001 is formed in the partition board 1, the air suction hole 1001 is communicated with an external air pump, the external air pump is controlled to suck air, and dust raised in the interlayer is discharged to the outside of the communication machine room through the air suction hole 1001, so that dust in the interlayer is prevented from reducing the image quality photographed by the camera 6.

Each supporting leg 5 is provided with a plurality of balls 5001, and friction force between the antistatic floor 9 and the supporting leg 5 is reduced through the balls 5001, so that the supporting legs 5 are convenient to move, the moving speed of the supporting frame 4 is improved, and wiring efficiency is improved.

A cleaning shield 202 is also included; a cleaning cover 202 is fixedly connected to the partition board 1; the cleaning cover 202 is in sliding contact with the cable 10, and impurities on the surface of the cable 10 are scraped by the cleaning cover 202, so that the impurities are prevented from entering the interlayer, the interlayer is ensured to be clean and free of impurities, and the fire disaster caused by the impurities in the interlayer is prevented.

A first motor 201 is also included; two first motors 201 are fixedly connected to the support 2; the output end of each first motor 201 is connected with the adjacent roller 3 through a gear set, and the roller 3 is driven to rotate through the first motor 201.

When wiring is needed in a communication machine room, firstly, the antistatic floor 9 corresponding to the wiring starting point position is taken down, then a cable to be laid is fixed at the tail end of the support frame 4, the support frame 4 is placed in an interlayer between the ground and the antistatic floor 9, then the guide frame 7 is placed above the position corresponding to the support frame 4, the support leg 5 is attached to the lower side of the antistatic floor 9 through mutual attraction between the magnet of the guide frame 7 and the magnet on the support leg 5, then the partition board 1 is buckled at the position corresponding to the wiring starting point position, the partition board 1 is attached to the adjacent antistatic floor 9, at the moment, video information in the interlayer is transmitted to the display screen 8 through the camera 6, then the guide frame 7 is moved rightward on the surface of the antistatic floor 9 through constructor, the support frame 4 is driven to move rightward, meanwhile, the roller 3 is driven to rotate through controlling the first motor 201, the left roller 3 is rotated clockwise based on the front-to-back view, the right roller 3 is rotated anticlockwise, so that the cable 10 is continuously conveyed into the interlayer by rotating the adjacent two rollers 3 in opposite directions, a constructor can confirm the condition in the interlayer by observing the display screen 8, so that the moving direction of the support frame 4 is conveniently adjusted by rotating the guide frame 7, the cable 10 is further adjusted to walk until the guide frame 7 reaches the wiring end point, the corresponding antistatic floor 9 is taken down, the support frame 4 and the cable 10 are taken out from the interlayer, the laying of the cable 10 is completed under the condition that the antistatic floor 9 does not need to be lifted for many times, the damage to the antistatic floor 9 is reduced, the construction efficiency is improved, dust is prevented from lifting to the upper side of the antistatic floor 9, and the influence on the normal heat dissipation of communication equipment is avoided, on this basis, owing to be provided with the aluminum alloy support between two adjacent antistatic floor 9, when support frame 4 strides across antistatic floor 9 and block easily, this, landing leg 5 sets up to passing through torsion spring connection with support frame 4, when support frame 5 moves right and runs into the aluminum alloy support, with regard as the benchmark from the past, the landing leg 5 that is located the right side is blocked anticlockwise rotation, support frame 4 continuously moves right afterwards, landing leg 5 resets and laminates antistatic floor 9 once more, realize dodging to the aluminum alloy support, further, in laying cable 10 in-process, the dust in the intermediate layer is stirred by cable 10 and is raised everywhere in the intermediate layer easily, thereby influence the definition of taking of camera 6, for this reason, through control peripheral air pump bleed, dust in the intermediate layer is through the hole 1001 of bleeding, thereby avoid in the intermediate layer dust to reduce the image quality of taking of camera 6, on this basis, owing to set up a plurality of ball 5001 on landing leg 5, when landing leg 5 slides in antistatic floor 9 downside, through ball 5001 reduces the frictional force between antistatic floor 9 and the landing leg 5, thereby be convenient for 5 and move, improve the wire rope 10, thereby prevent that the intermediate layer from getting into the clean speed of the intermediate layer 2 when the intermediate layer is gone into, thereby, and debris is prevented from getting into the clean in the intermediate layer 2 through the intermediate layer, thereby, debris in the speed is avoided when the intermediate layer 2, and debris is prevented from getting into the clean in the intermediate layer, and debris in the surface in the intermediate layer 2.

Example 2

On the basis of embodiment 1, as shown in fig. 6-7, the supporting frame 4 is composed of five supporting plates, and two adjacent supporting plates are connected through a hinge, and the supporting frame 4 is made to be attached to the ground by controlling the rotation of the supporting plates, so that the supporting frame 4 can conveniently pass through the lower part of the existing cable 10, and the flexibility of wiring of the supporting frame 4 is increased.

The sliding system includes a pulley 302; the four pulleys 302 are rotatably connected to the support frame 4, and the pulleys 302 roll on the ground, so that friction between the support frame 4 and the ground is reduced, and the wiring speed of the cable 10 is improved.

The sliding system further comprises a first baffle 303; the right side of the support frame 4 is fixedly connected with the first baffle 303, and the existing cable 10 is contacted and extruded through the first baffle 303, so that the existing cable 10 moves upwards, the distance between the existing cable 10 and the ground is increased, the support frame 4 and the cable 10 can conveniently pass through, and the wiring efficiency of the cable 10 is improved.

The sliding system comprises a second motor 301; the second motor 301 is fixedly connected to the joint of every two adjacent support plates on the support frame 4, the output end of the second motor 301 is fixedly connected with the adjacent hinges, and the angle between the two adjacent support plates is adjusted through the second motor 301.

Because more existing cables 10 exist in the interlayer, when the support frame 4 needs to pass through the existing cables 10 downwards, the second motor 301 is controlled to drive the hinge to rotate based on the condition that the support frame 4 is seen from front to back, the support plate on the right side on the support frame 4 rotates clockwise until the support frame is attached to the ground, then constructors push the guide frame 7 to move rightwards, the support plate on the right side on the support frame 4 passes through the lower part of the existing cables 10, then the second motor 301 is controlled to enable the support plate to rotate anticlockwise until the support leg 5 on the right side is attached to the lower side of the antistatic floor 9 again, the state diagram is shown in fig. 7, then the support plate on the left side on the support frame 4 is controlled to rotate anticlockwise, after the support frame 4 is attached to the ground, the support frame 4 is controlled to move rightwards until the support frame 4 passes through the lower part of the existing cables 10, the cable 10 is driven to pass through the lower part of the existing cables 10, the flexibility of the wiring of the support frame 4 is increased, on the basis, friction between the support frame 4 and the support frame on the ground is reduced through the ground when the support plate on the support frame 4 passes through the ground, the existing cables 10 pass through the existing cables 10, the distance between the support frame 10 and the existing cables 10 is increased, the distance between the support frame and the existing cables is increased, and the support frame 10 is increased, and the distance between the support frame and the support frame 4 and the existing cables is increased when the existing cables 10 continuously passes through the existing cables 10 and the existing cables 10 is increased, and the cable is more easily when the cable is attached to the cable 10 and is moved to the ground.

Example 3

On the basis of embodiment 1 or 2, as shown in fig. 1, 6 and 8, when the first baffle 303 is fixedly connected to the right side of the support frame 4 in embodiment 2 is not used, the first baffle 303 is fixedly connected to the support leg 5 located on the right side; when the supporting leg 5 rotates anticlockwise, the first baffle 303 is driven to rotate anticlockwise based on the front-to-back view, so that the existing cable 10 is turned upwards, the distance between the existing cable 10 and the ground is further increased, and the distance for resetting and moving of the existing cable 10 is made up.

The width of the first baffle 303 is set to be wider than the supporting frame 4, so that the arc-shaped width formed by the first baffle 303 extruding the existing cable 10 is ensured to be larger than the supporting frame 4, the contact between the supporting frame 4 and the existing cable 10 is reduced, and abrasion to the existing cable 10 in the wiring process is reduced.

A second shutter 401 is also included; a second baffle 401 is fixedly connected to the first baffle 303; the second baffle 401 is located on the right side of the camera 6, and the second baffle 401 is made of light-transmitting glass, and the camera 6 is shielded by the second baffle 401, so that objects in the interlayer are prevented from directly contacting the camera 6 in the wiring process, and the camera 6 is prevented from being scratched by foreign matters.

When the first baffle 303 passes through and is separated from the existing cable 10, the existing cable 10 is easy to reset and move downwards for a certain distance after losing the support of the first baffle 303, and therefore, when the first baffle 303 contacts and presses the existing cable 10, the support leg 5 rotates anticlockwise after being blocked by the existing cable 10 by taking the front as a reference, so that the first baffle 303 is driven to rotate anticlockwise, at the moment, the existing cable 10 is positioned on the upper surface of the first baffle 303, the existing cable 10 is turned upwards by the anticlockwise rotation of the first baffle 303, the distance between the existing cable 10 and the ground is further increased, the reset and movement distance of the existing cable 10 is further increased, and after the existing cable 10 is pressed upwards by the first baffle 303, the shape of the pressed part of the existing cable 10 is in an arch shape with high middle and low two sides.

The technical principles of the embodiments of the present invention are described above in connection with specific embodiments. The description is only intended to explain the principles of the embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will recognize other embodiments of the present invention without undue burden, and those ways that are within the scope of the present invention.

Claims (10)

1. A wiring device based on a communication building comprises a partition board (1), a support (2) and a roller (3); the partition board (1) is positioned on the antistatic floor (9); a support (2) is movably connected on the partition board (1); the support (2) transmits a cable (10); a plurality of rollers (3) are movably connected on the support (2); each roller (3) is in sliding contact with an adjacent cable (10); the method is characterized in that: the device also comprises a supporting frame (4), supporting legs (5), a camera (6), a guide frame (7), a display screen (8) and a sliding system; the underside of the antistatic floor (9) is movably contacted with a supporting frame (4) for guiding the wiring of the wire (10); the head end of the cable (10) is arranged at the left side of the supporting frame (4); a plurality of supporting legs (5) are movably connected to the supporting frame (4); a magnet is arranged on the upper side of each supporting leg (5); a camera (6) is arranged on the supporting frame (4); the upper side of the antistatic floor (9) is movably contacted with a guide frame (7) for adjusting the trend of the cable (10); a magnet is arranged at the lower side of the guide frame (7); the guide frame (7) and all the supporting legs (5) are mutually adsorbed through magnetic force; a display screen (8) is arranged on the guide frame (7); the support frame (4) is provided with a sliding system which is convenient for the support frame (4) to pass through the lower part of the existing cable (10).

2. A telecommunications building-based wiring device in accordance with claim 1, wherein: and the partition plate (1) is provided with an air suction hole (1001), and the air suction hole (1001) is communicated with an external air pump.

3. A telecommunications building-based wiring device in accordance with claim 1, wherein: a plurality of balls (5001) are arranged on each supporting leg (5).

4. A telecommunications building-based wiring device in accordance with claim 2, wherein: also comprises a cleaning cover (202); a cleaning cover (202) for cleaning sundries on the surface of the cable (10) is fixedly connected to the partition board (1);

The cleaning cap (202) is in sliding contact with the cable (10).

5. A telecommunications building-based wiring device in accordance with claim 1, wherein: the support frame (4) is composed of a plurality of support plates, and two adjacent support plates are movably connected.

6. A telecommunications building-based wiring device in accordance with claim 5, wherein: the sliding system comprises a pulley (302); the supporting frame (4) is rotationally connected with a plurality of pulleys (302) for reducing friction force between the supporting frame (4) and the ground.

7. A telecommunications building-based wiring device in accordance with claim 6, wherein: the sliding system further comprises a first baffle (303); the right side of the supporting frame (4) is fixedly connected with a first baffle (303) for enlarging the distance between the cable (10) and the ground.

8. A telecommunications building-based wiring device in accordance with claim 7, wherein: when the first baffle (303) for enlarging the distance between the cable (10) and the ground is fixedly connected to the right side of the supporting frame (4) without being used, the first baffle (303) for enlarging the distance between the cable (10) and the ground is fixedly connected to the supporting leg (5) positioned on the right side.

9. A telecommunications building-based wiring device in accordance with claim 8, wherein: the width of the first baffle (303) is set wider than the supporting frame (4).

10. A telecommunications building-based wiring device in accordance with claim 9, wherein: also comprises a second baffle plate (401); a second baffle (401) for protecting the camera (6) from being scratched is fixedly connected to the first baffle (303); the second baffle (401) is positioned on the right side of the camera (6), and the second baffle (401) is made of light-transmitting glass.