CN116316296B - Overhead wiring mechanism - Google Patents

Abstract

The invention belongs to the technical field of communication equipment, and discloses an overhead wiring mechanism, which is technically characterized in that: including the chute, the chute is including trunk arm and carrier arm, trunk arm below is provided with multiunit carrier plate, multiunit carrier plate surface fixed mounting has the channel jointly, trunk arm diapire is provided with the elevation structure who is connected with the carrier plate, elevation structure is including flexible subassembly and control assembly, channel inner chamber fixed mounting has the stand, be provided with the partition structure mutually supporting with the stand in the channel, partition structure is including categorised seal assembly and open and shut control assembly, categorised seal assembly is including the multiunit plywood of stand surface along the equidistant distribution of vertical direction, the sealing rod is installed in the plywood rotation, open and shut control assembly is including limiting plate, moving part and regulating part, has solved current cable and has directly stacked the unable convenient problem of carding in the channel, and the result of use is relatively poor.

Description

Overhead wiring mechanism

Technical Field

The invention relates to the technical field of communication equipment, in particular to an overhead wiring mechanism.

Background

The cabling rack is also called a cable bridge, is special equipment for cabling and wiring in a computer room, and is used for binding an iron frame for the optical cable and the cable by arranging the optical cable and the cable into a terminal device through the cabling rack after entering the computer room.

The traditional chute comprises two main beams and a cross beam arranged between the main beams, and when the traditional chute is used, cables in batches are directly placed between the cross beams.

However, the existing wiring mode cannot classify cables, and the cables in batches cannot be stacked together to be conveniently carded, so that when a specific cable needs to be overhauled and replaced, a large amount of time is required to be consumed for searching, and the using effect is poor.

Disclosure of Invention

The invention aims to provide an overhead wiring mechanism for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides an aerial wiring mechanism, includes the chute, the chute is including trunk arm and loading arm, the trunk arm is cyclic annular structure, the loading arm both ends are connected with two sets of trunk arms respectively, trunk arm top is provided with the dead lever, trunk arm below is provided with multiunit loading board, multiunit loading board surface fixed mounting has the channel jointly, the channel longitudinal section is U type structure, the trunk arm diapire is provided with the elevation structure who is connected with the loading board, elevation structure is including expansion assembly and control assembly, expansion assembly is located trunk arm diapire and is connected with the loading board, control assembly is connected with expansion assembly, control assembly is used for adjusting the height of loading board and channel with expansion assembly mutually supporting each other, channel inner chamber fixed mounting has the stand, be provided with the partition structure mutually supporting with the stand, partition structure is including categorised seal assembly and the open and shut control assembly, the multiunit seal assembly that the stand surface is equidistant along the vertical direction distributes, the rotation assembly is located the stand and is connected with the stand, the seal assembly is located the regulation position and is connected with the stand, the relative position is in the position of stand plate, the relative position is kept away from the plywood and is connected with the limiting plate, the position is connected with the position of the regulation plate and the relative position is used for adjusting plate.

As a further scheme of the invention: the telescopic assembly comprises a fixed cylinder fixedly arranged on the bottom wall of a main arm and distributed along the vertical direction, a telescopic rod is slidably arranged in the fixed cylinder, the bottom end of the telescopic rod extends to the outer side of the fixed cylinder and is fixedly connected with a bearing plate, a plurality of groups of positioning grooves distributed along the vertical direction are formed in the inner wall of the fixed cylinder, positioning columns matched with the positioning grooves are arranged on the surface of the telescopic rod, and the positioning columns are connected with the control assembly.

As a further scheme of the invention: the control assembly comprises a telescopic groove which is formed in the side wall of the telescopic rod in an inward manner, the positioning column is in sliding connection with the telescopic groove, an extrusion spring which is connected with the positioning column is fixedly arranged in the telescopic groove, a wire groove is formed in the telescopic rod, one end of the wire groove is communicated with the telescopic groove, the other end of the wire groove extends to the outer side of the fixed cylinder, a control ring is arranged on the surface of the telescopic rod in a sliding manner, one end of the positioning column, which is located in the telescopic groove, is fixedly connected with a control wire, and one end of the control wire, which is far away from the positioning column, penetrates through the wire groove to extend to the outer side of the fixed cylinder and is fixedly connected with the control ring.

As a further scheme of the invention: the movable part comprises a fixed hole which is formed in the inner side of one end, far away from the upright post, of the laminate, a threaded rod is rotatably installed in the fixed hole, a sliding block which is in sliding connection with the fixed hole is connected with the surface of the threaded rod in a threaded mode, a connecting rod is fixedly installed on the side wall of the sliding block, and one end, far away from the sliding block, of the connecting rod extends to the outer side of the fixed hole and is fixedly connected with a limiting plate.

As a further scheme of the invention: the adjusting part comprises a vertical cavity formed in the upright post, the threaded rod extends into the vertical cavity and is fixedly connected with a driven inclined fluted disc, a rotary rod is rotatably mounted in the vertical cavity along the vertical direction, a driving inclined fluted disc in meshed connection with the driven inclined fluted disc is fixedly mounted on the surface of the rotary rod, and the top end of the rotary rod extends to the outer side of the upright post and is fixedly provided with a control disc.

As a further scheme of the invention: the inner bottom of the sealing rod is fixedly provided with a first magnetic block, and the surface of the laminate is fixedly provided with a second magnetic block matched with the first magnetic block.

As still further aspects of the invention: the control ring surface is provided with fixed part, fixed part is including the clamping rod of control ring bottom rotation installation, the joint groove mutually supporting with the clamping rod has been seted up to the telescopic link lateral wall.

Compared with the prior art, the invention has the beneficial effects that: through setting up the control assembly that opens and shuts that comprises limiting plate, moving part, adjusting part and plywood, sealing rod mutually support, can separate the cable of batch and put, be convenient for overhaul the change to specific cable, effectively improve work efficiency, solved current cable and directly stacked and can't be convenient comb in the channel, the relatively poor problem of result of use.

Drawings

Fig. 1 is a schematic structural diagram of an overhead wiring mechanism according to an embodiment of the present invention.

Fig. 2 is a schematic cross-sectional view of a channel and a connection structure thereof in an overhead wiring mechanism according to an embodiment of the present invention.

Fig. 3 is an enlarged schematic view of the structure of fig. 2 a.

Fig. 4 is an enlarged schematic view of the structure B in fig. 2.

Fig. 5 is an enlarged schematic view of the structure of fig. 2C.

Fig. 6 is a schematic diagram of a laminate and a connection structure thereof in an overhead wiring mechanism according to an embodiment of the present invention.

Wherein: chute 1, backbone arm 11, carrying arm 12, fixed bar 2, carrying plate 3, channel 4, lifting structure 5, telescoping assembly 51, fixed cylinder 511, telescoping bar 512, positioning slot 513, positioning column 514, control assembly 52, telescoping slot 521, extrusion spring 522, wire slot 523, control wire 524, control ring 525, column 6, partition structure 7, classification seal assembly 71, laminate 711, seal bar 712, opening and closing control assembly 72, limiting plate 721, moving part 722, fixed hole 7221, threaded rod 7222, sliding block 7223, connecting rod 7224, adjusting part 723, vertical cavity 7231, driven skewed tooth disk 7232, rotating rod 7233, driving skewed tooth disk 7234, control disk 7235, first magnetic block 8, second magnetic block 9, fixed part 10, clamping rod 101, clamping slot 102.

Detailed Description

It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1, fig. 2, fig. 3, fig. 6, a structure diagram of an overhead wiring mechanism provided by an embodiment of the invention includes a wiring rack 1, the wiring rack 1 includes a main arm 11 and a bearing arm 12, the main arm 11 is in a ring structure, two ends of the bearing arm 12 are respectively connected with two sets of main arms 11, a fixing rod 2 is disposed at the top end of the main arm 11, multiple sets of bearing plates 3 are disposed below the main arm 11, channels 4 are fixedly mounted on the surfaces of the multiple sets of bearing plates 3 together, the longitudinal section of the channels 4 is in a U-shaped structure, a lifting structure 5 connected with the bearing plates 3 is disposed at the bottom wall of the main arm 11, the lifting structure 5 includes a telescopic assembly 51 and a control assembly 52, the telescopic assembly 51 is disposed at the bottom wall of the main arm 11 and connected with the bearing plates 3, the control assembly 52 is connected with the telescopic assembly 51, the control component 52 is matched with the telescopic component 51 to adjust the height of the bearing plate 3 and the channel 4, the upright post 6 is fixedly arranged in the inner cavity of the channel 4, a separation structure 7 matched with the upright post 6 is arranged in the channel 4, the separation structure 7 comprises a classification sealing component 71 and an opening and closing control component 72, the classification sealing component 71 comprises a plurality of groups of laminates 711 distributed on the surface of the upright post 6 at equal intervals along the vertical direction, one end of the laminates 711 away from the upright post 6 is rotatably provided with a sealing rod 712, the opening and closing control component 72 comprises a limiting plate 721, a moving part 722 and an adjusting part 723, the limiting plate 721 is positioned at one end of the laminates 711 away from the upright post 6 and is matched with the sealing rod 712, the moving part 722 is positioned inside the laminates 711 and is connected with the limiting plate 721, the adjusting part 723 is positioned inside the upright post 6 and is connected with the moving part 722, the adjusting portion 723 cooperates with the moving portion 722 to adjust the relative positions of the limiting plate 721 and the sealing rod 712.

The trunk arm 11 and the bearing arm 12 are fixed on the roof wall through the fixing rod 2, in an initial state, the sealing rod 712 at the end part of the upper laminate 711 is vertically downwards and is in contact with the surface of the lower laminate 711, the adjusting part 723 and the moving part 722 are mutually matched to adjust the position of the limiting plate 721, the limiting plate 721 is attached to the sealing rod 712, at the moment, the sealing rod 712 can only rotate towards the direction of the upright post 6 after being pushed, can not rotate towards the outer side of the laminate 711, cables can be conveniently and rapidly placed on the surface of the laminate 711 through the sealing rod 712, the sealing rod 712 is mutually matched with the upright post 6, the cables can be effectively prevented from falling off from the surface of the laminate 711, the laminates 711 are mutually matched with the upright post 6 and the sealing rod 712, a lot of cables can be separated and placed, when a specific cable is required to be overhauled or replaced, the adjusting part 723 and the moving part 722 are mutually matched to control the limiting plate 721 to move towards the direction far away from the laminate 711, at the moment, the limiting plate 721 can be freely rotated towards the outer side of the laminate 711, the cables can conveniently pass through the sealing rod 712, the cables can be conveniently and rapidly adjusted to the position of the laminate 711 through the adjusting part 723 after the cable is replaced in the process of the surface of the laminate 711, and the adjusting part is conveniently and conveniently adjusted by the adjusting part 711.

As shown in fig. 1, 2, 4 and 5, as a preferred embodiment of the present invention, the telescopic assembly 51 includes a fixed cylinder 511 fixedly mounted on the bottom wall of the main arm 11 and distributed along the vertical direction, a telescopic rod 512 is slidably mounted in the fixed cylinder 511, the bottom end of the telescopic rod 512 extends to the outside of the fixed cylinder 511 and is fixedly connected with the carrying plate 3, a plurality of groups of positioning slots 513 distributed along the vertical direction are formed in the inner wall of the fixed cylinder 511, positioning columns 514 mutually matched with the positioning slots 513 are disposed on the surface of the telescopic rod 512, and the positioning columns 514 are connected with the control assembly 52.

When in use, the control component 52 controls the positioning column 514 to be separated from the positioning groove 513, the telescopic rod 512 can conveniently move in the fixed cylinder 511 along the vertical direction so as to adjust the heights of the bearing plate 3 and the channel 4, and when the channel 4 is at a proper height, the control component 52 controls the positioning column 514 to be inserted into the corresponding positioning groove 513, so that the position of the telescopic rod 512 can be conveniently fixed in the fixed cylinder 511.

As shown in fig. 1, 2, 4 and 5, as a preferred embodiment of the present invention, the control assembly 52 includes a telescopic slot 521 formed in the inner side wall of the telescopic rod 512, the positioning column 514 is slidably connected with the telescopic slot 521, an extrusion spring 522 connected with the positioning column 514 is fixedly installed in the telescopic slot 521, a slot 523 is formed in the telescopic rod 512, one end of the slot 523 is communicated with the telescopic slot 521, the other end of the slot 523 extends to the outside of the fixed cylinder 511, a control ring 525 is slidably installed on the surface of the telescopic rod 512, one end of the positioning column 514 located in the telescopic slot 521 is fixedly connected with a control wire 524, and one end of the control wire 524 away from the positioning column 514 extends to the outside of the fixed cylinder 511 through the slot 523 and is fixedly connected with the control ring 525.

When the telescopic rod is used, the control ring 525 is pushed to move downwards to the surface of the telescopic rod 512, the control ring 525 and the control wire 524 are matched with each other to pull the positioning column 514 to move towards the telescopic groove 521, the positioning column 514 is separated from the positioning groove 513, the telescopic rod 512 can be conveniently controlled to move in the fixed cylinder 511, after the fixed cylinder 511 moves to a proper position, the control ring 525 is pushed to move upwards, the positioning column 514 is pushed to move towards the outer side of the telescopic groove 521 by the extrusion spring 522 and then is inserted into the positioning groove 513, and the telescopic rod 512 can be conveniently fixed in position.

As shown in fig. 1, 2 and 3, as a preferred embodiment of the present invention, the moving part 722 includes a fixing hole 7221 formed inward at an end of the laminate 711 remote from the pillar 6, a threaded rod 7222 is rotatably installed in the fixing hole 7221, a sliding block 7223 slidably connected to the fixing hole 7221 is screwed to a surface of the threaded rod 7222, a connecting rod 7224 is fixedly installed on a side wall of the sliding block 7223, and an end of the connecting rod 7224 remote from the sliding block 7223 extends to an outside of the fixing hole 7221 and is fixedly connected to the limiting plate 721.

When in use, the adjusting part 723 controls the threaded rod 7222 to rotate so as to conveniently push the sliding block 7223 to move in the fixing hole 7221, and the sliding block 7223 cooperates with the connecting rod 7224 to drive the limiting plate 721 to synchronously move while moving, so that the relative position between the limiting plate 721 and the sealing rod 712 can be conveniently adjusted.

As shown in fig. 1, 2 and 3, as a preferred embodiment of the present invention, the adjusting portion 723 includes a vertical cavity 7231 formed in the upright post 6, the threaded rod 7222 extends into the vertical cavity 7231 and is fixedly connected with a driven bevel gear 7232, a rotating rod 7233 is rotatably mounted in the vertical cavity 7231 along a vertical direction, a driving bevel gear 7234 engaged with the driven bevel gear 7232 is fixedly mounted on a surface of the rotating rod 7233, and a top end of the rotating rod 7233 extends to an outer side of the upright post 6 and is fixedly mounted with a control plate 7235.

When the rotary rod 7233 is used, the hand-held control disc 7235 rotates to drive the rotary rod 7233 to rotate in the vertical cavity 7231, the rotary rod 7233 drives the driving inclined fluted disc 7234 to rotate, and the driving inclined fluted disc 7234 and the driven inclined fluted disc 7232 are meshed to drive to rotate so as to drive the threaded rod 7222.

As shown in fig. 1, 2 and 3, as a preferred embodiment of the present invention, a first magnetic block 8 is fixedly mounted on the inner bottom of the sealing rod 712, and a second magnetic block 9 cooperating with the first magnetic block 8 is fixedly mounted on the surface of the laminate 711. By the first magnetic block 8 and the second magnetic block 9 being mutually engaged, the stability of the seal rod 712 can be further improved.

As shown in fig. 1, 2, 4 and 5, as a preferred embodiment of the present invention, a fixing portion 10 is provided on the surface of the control ring 525, the fixing portion 10 includes a clamping rod 101 rotatably installed at the bottom end of the control ring 525, and a clamping groove 102 matched with the clamping rod 101 is provided on the side wall of the telescopic rod 512. The clamping rod 101 is matched with the clamping groove 102, so that the position of the control ring 525 can be conveniently adjusted on the surface of the telescopic rod 512.

The working principle of the invention is as follows: in the initial state, the sealing rod 712 at the end part of the upper layer plate 711 is vertically downward and contacts with the surface of the lower layer plate 711, the limiting plate 721 is attached to the sealing rod 712, at this time, the sealing rod 712 can only rotate towards the direction of the upright post 6 after being pushed, but can not rotate towards the outer side of the layer plate 711, cables can be conveniently placed on the surface of the layer plate 711 through the sealing rod 712, the sealing rod 712 is mutually matched with the upright post 6, cables can be effectively prevented from falling off from the surface of the layer plate 711, a plurality of layer plates 711 are mutually matched with the upright post 6 and the sealing rod 712, a batch of cables can be separated and placed, when a specific cable needs to be overhauled or replaced and placed, the handheld control plate 7235 rotates to drive the rotating rod 7233 to rotate in the vertical cavity 7231, the rotating rod 7233 drives the driving oblique fluted disc 7234 to rotate, the driving inclined fluted disc 7234 and the driven inclined fluted disc 7232 are meshed to drive the threaded rod 7222 to rotate, the threaded rod 7222 rotates to conveniently push the sliding block 7223 to move in the fixing hole 7221, the sliding block 7223 is matched with the connecting rod 7224 to drive the limiting plate 721 to synchronously move while moving, the relative position between the limiting plate 721 and the sealing rod 712 can be conveniently adjusted, the limiting plate 721 moves towards the direction away from the laminate 711, at this moment, the limiting plate 721 and the sealing rod 712 are mutually separated, the sealing rod 712 can freely rotate towards the outer side of the laminate 711, cables on the surface of the laminate 711 can be conveniently detected or replaced, and after the cable is taken out, the position of the limiting plate 721 is conveniently adjusted again, so that the limiting plate 721 is attached to the sealing rod 712, and the cables are effectively prevented from falling off from the surface of the laminate 711.

While the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (5)

1. The utility model provides an aerial wiring mechanism, includes the chute, the chute is including trunk arm and loading arm, the trunk arm is cyclic annular structure, the loading arm both ends are connected with two sets of trunk arms respectively, trunk arm top is provided with the dead lever, the trunk arm below is provided with multiunit loading board, multiunit loading board surface fixed mounting has the channel jointly, the channel longitudinal section is U type structure, its characterized in that, trunk arm diapire is provided with the elevation structure who is connected with the loading board, elevation structure is including flexible subassembly and control assembly, flexible subassembly is located trunk arm diapire and is connected with the loading board, flexible subassembly is including the fixed cylinder of trunk arm diapire fixed mounting along vertical direction distribution, slidable mounting has the telescopic link in the fixed cylinder, the telescopic link bottom extends to the fixed cylinder outside and is fixedly connected with the loading board, the inner wall of the fixed cylinder is provided with a plurality of groups of positioning grooves distributed along the vertical direction, the surface of the telescopic rod is provided with positioning columns matched with the positioning grooves, the positioning columns are connected with a control assembly, the control assembly is connected with a telescopic assembly, the control assembly is matched with the telescopic assembly to adjust the heights of the bearing plate and the channel, the control assembly comprises a telescopic groove formed in the side wall of the telescopic rod inwards, the positioning columns are in sliding connection with the telescopic groove, an extrusion spring connected with the positioning columns is fixedly arranged in the telescopic groove, a wire slot is formed in the telescopic rod, one end of the wire slot is communicated with the telescopic groove, the other end of the wire slot extends to the outer side of the fixed cylinder, a control ring is arranged on the surface of the telescopic rod in a sliding manner, one end of the positioning column positioned in the telescopic groove is fixedly connected with a control line, the utility model discloses a control line, including the control line, the control line is kept away from the wire casing and is extended to the fixed cylinder outside and with control ring fixed connection, channel inner chamber fixed mounting has the stand, be provided with in the channel with stand matched with separation structure, separation structure is including categorised seal assembly and open and shut control assembly, categorised seal assembly is including the multiunit plywood that stand surface was equidistant to be distributed along vertical direction, the sealing rod is installed in the one end rotation of stand is kept away from to the plywood, open and shut control assembly is including limiting plate, mobile part and regulation portion, the limiting plate is located the plywood and keeps away from the one end of stand and mutually support with the sealing rod, the mobile part is located the plywood inside and is connected with the limiting plate, the regulation portion is located in the stand and is connected with the mobile part mutually support and is used for adjusting limiting plate and sealing rod's relative position.

2. The overhead wiring and routing mechanism according to claim 1, wherein the moving part comprises a fixing hole formed in one end, far away from the upright post, of the laminate, a threaded rod is rotatably installed in the fixing hole, a sliding block in sliding connection with the fixing hole is in threaded connection with the surface of the threaded rod, a connecting rod is fixedly installed on the side wall of the sliding block, and one end, far away from the sliding block, of the connecting rod extends to the outer side of the fixing hole and is fixedly connected with the limiting plate.

3. The overhead wiring mechanism according to claim 2, wherein the adjusting part comprises a vertical cavity formed in the upright post, the threaded rod extends into the vertical cavity and is fixedly connected with a driven bevel gear disc, a rotating rod is rotatably mounted in the vertical cavity along the vertical direction, a driving bevel gear disc in meshed connection with the driven bevel gear disc is fixedly mounted on the surface of the rotating rod, and the top end of the rotating rod extends to the outer side of the upright post and is fixedly provided with a control disc.

4. The overhead wiring mechanism according to claim 1, wherein a first magnetic block is fixedly mounted at the bottom of the sealing rod, and a second magnetic block matched with the first magnetic block is fixedly mounted on the surface of the laminate.

5. The overhead wiring mechanism according to claim 1, wherein the control ring surface is provided with a fixing portion, the fixing portion comprises a clamping rod rotatably installed at the bottom end of the control ring, and a clamping groove matched with the clamping rod is formed in the side wall of the telescopic rod.