CN220544647U - Machine room wiring structure - Google Patents

Abstract

The utility model provides a machine room wiring structure, which belongs to the technical field of machine room wiring and aims to solve the problem that the use effect of the wiring structure is affected due to the fact that the cable is difficult to compress due to the existing wiring structure, and the machine room wiring structure comprises a shielding shell, a positioning plate, a wiring groove, a positioning shaft, a first sliding cylinder, a second sliding cylinder and a connecting shaft; the positioning plate is connected to the inner side of the shielding shell in a front-back sliding manner; the wiring groove is connected to the front side of the positioning plate in a front-back sliding manner; the positioning shaft is fixedly connected to the front side of the positioning plate; the connecting shaft is rotationally connected to the middle part of the positioning shaft; the first sliding cylinder is connected to the front side of the positioning plate in a sliding manner; the second sliding cylinder is connected to the front side of the positioning plate in a sliding way; the utility model ensures the fixing effect of the cable, avoids the condition that the cable is difficult to be compressed, improves the using effect of the wiring structure, and avoids the sliding condition of the cable after being dragged.

Description

Machine room wiring structure

Technical Field

The utility model belongs to the technical field of machine room wiring, and particularly relates to a machine room wiring structure.

Background

In order to avoid mess of the cables, the wiring structure is needed to restrict the cable running direction, and the existing wiring structure is usually composed of a wiring groove, a winding rod, a pre-tightening cover, a pressing piece and the like.

For example, CN202222407077.3 discloses a wiring structure of a machine room, comprising a lower shell and an upper shell, wherein a wiring groove is formed on a first side surface of the lower shell, and a pressing mechanism is arranged on the upper shell, wherein: the wiring groove can be divided into a plurality of linear grooves and circular grooves, part of the linear grooves are communicated with the circular grooves, and the other part of the linear grooves penetrate to the outer side of the lower shell; the round groove is movably provided with a winding rod for winding the cable; the wiring groove is formed by the circular grooves and the linear grooves, the winding rods can be arranged in the circular grooves so that the cables are bent and laid in the wiring groove, the first pressing piece and the second pressing piece are used for pressing the cables in the wiring groove so as to fix and press the bent cables, the situation that the cables are disordered due to the fact that the bent cables are not fixed is avoided, the winding rods in the circular grooves can be detached so as to fix the linear cables, the wiring groove is suitable for various different wiring modes, and the practicability is improved.

Based on the above, in the wiring process of the machine room, the situation that a plurality of cables need to be laid in the same wiring groove easily occurs, and the size of the wiring groove of the existing wiring structure is fixed, so that the cables laid later are difficult to be restrained by the wiring groove, the situation that the cables are difficult to be compressed is caused, and the using effect of the wiring structure is affected.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a machine room wiring structure, which is used for solving the problems that in the process of wiring in a machine room, a plurality of cables are needed to be laid in the same wiring groove, the size of the wiring groove of the existing wiring structure is fixed, the cables laid later are difficult to be constrained by the wiring groove, the cables are difficult to be compressed, and the using effect of the wiring structure is affected.

The utility model discloses a machine room wiring structure, which is characterized by comprising the following specific technical means:

a wiring structure of a machine room comprises a shielding shell, a positioning plate, a wiring groove, a positioning shaft, a guiding structure, a first sliding cylinder, a pressing structure, a second sliding cylinder and a connecting shaft; the positioning plate is connected to the inner side of the shielding shell in a front-back sliding manner; the wiring groove is connected to the front side of the positioning plate in a front-back sliding manner; the positioning shafts are uniformly distributed and fixedly connected to the front side of the positioning plate; the guide structure is arranged on the front side of the positioning plate; the plurality of connecting shafts are respectively connected to the middle parts of the plurality of positioning shafts in a rotating way, and the plurality of connecting shafts are in threaded connection with the shielding shell; the plurality of first sliding cylinders are uniformly distributed and are connected to the front side of the positioning plate in a front-back sliding manner, and the plurality of first sliding cylinders are elastically connected with the positioning plate through springs; the pressing structure is arranged in front of the positioning plate; the second sliding cylinders are provided with a plurality of second sliding cylinders, the second sliding cylinders are uniformly distributed and are connected to the front side of the locating plate in a front-back sliding mode, and the second sliding cylinders are all connected with the locating plate through springs in an elastic mode.

Further, the pressing structure comprises a first pressing piece and a clamping groove; the plurality of first pressing pieces are respectively connected to the front sides of the plurality of first sliding cylinders in a rotating mode, and the upper sides of the first pressing pieces are of arc-shaped structures; the clamping grooves are formed in the right sides of the first pressing pieces respectively.

Further, the pressing structure further comprises a second pressing piece and a clamping plate; the second pressing pieces are provided with a plurality of second pressing pieces, the second pressing pieces are respectively connected to the front sides of the second sliding cylinders in a rotating mode, and the lower sides of the first pressing pieces are of arc-shaped structures; the clamping plates are provided with a plurality of clamping plates, and the clamping plates are respectively and fixedly connected to the right sides of the second pressing pieces.

Further, the guide structure comprises a guide block; the guide blocks are provided with a plurality of guide blocks which are uniformly distributed and fixedly connected to the front side of the wiring groove, and the guide blocks are connected with the positioning plate in a front-back sliding mode.

Further, the guide structure further comprises an elastic piece; the elastic piece is provided with a plurality of, the wiring groove is through a plurality of elastic piece with locating plate elastic connection.

Further, the guide structure further comprises a pressing plate; the pressing plates are provided with a plurality of pressing plates, and the pressing plates are respectively connected to the front sides of the positioning shafts in a threaded mode.

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

according to the utility model, the guide blocks are additionally arranged on the basis of the traditional machine room wiring structure, when a plurality of cables with the same trend and different distances are required to be laid, the cables are extruded to the rear side, so that the wiring groove can slide to the rear side of the positioning plate, the situation that the cables slide outside the wiring groove is avoided, the fixing effect of the cables is effectively ensured, the situation that the cables are difficult to compress is avoided, the using effect of the wiring structure is improved, the movement of the wiring groove is guided by the guide blocks, the situation that the wiring groove is askew and is blocked when the wiring groove moves is avoided, and the smoothness of the movement of the wiring groove is ensured.

According to the utility model, the elastic piece is additionally arranged on the basis of the traditional machine room wiring structure, and the wiring groove is pushed by the elastic piece, so that the wiring groove is in close contact with the cable, the close fit between the cable and the wiring groove is ensured, and the situation that the cable slides after being dragged is avoided.

According to the utility model, the sliding cylinder and the pressing piece are additionally arranged on the basis of the traditional machine room wiring structure, and the first sliding cylinder and the second sliding cylinder are tensioned through the spring, so that the first pressing piece and the second pressing piece are convenient to position the cable, the pressing of cables with different diameters is realized, and the applicability of the wiring structure is effectively improved.

The utility model is suitable for various wiring modes, realizes compaction of cables with different diameters, effectively improves the applicability of a wiring structure, avoids the situation that the cables slide outside the wiring groove, effectively ensures the fixing effect of the cables, avoids the situation that the cables are difficult to compact, improves the using effect of the wiring structure, avoids the situation that the cables are askew and blocked when moving, ensures the smoothness of the movement of the wiring groove, ensures the close fit between the cables and the wiring groove, and avoids the situation that the cables slide after being dragged.

Drawings

Fig. 1 is a schematic view of the overall structure of the present utility model.

FIG. 2 is a schematic cross-sectional view of the positioning shaft of the present utility model.

Fig. 3 is a schematic structural view of the wiring groove of the present utility model.

Fig. 4 is a schematic view of the position of the guide block of the present utility model.

Fig. 5 is a schematic structural view of the positioning plate of the present utility model.

Fig. 6 is a schematic structural view of a first pressing member of the present utility model.

Fig. 7 is a schematic view of a partially enlarged structure at a in fig. 2 according to the present utility model.

Fig. 8 is a partially enlarged schematic structural view of the present utility model at B in fig. 4.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a shielding case; 2. a positioning plate; 3. wiring grooves; 301. a guide block; 302. an elastic member; 4. positioning a shaft; 401. a pressing plate; 5. a first sliding cylinder; 501. a first pressing member; 502. a clamping groove; 6. a second sliding cylinder; 601. a second pressing member; 602. a clamping plate; 7. and a connecting shaft.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Examples

As shown in fig. 1 to 3:

the utility model provides a wiring structure of a machine room, which comprises a shielding shell 1, a positioning plate 2, a wiring groove 3, a positioning shaft 4, a guiding structure and a connecting shaft 7; the positioning plate 2 is connected to the inner side of the shielding shell 1 in a front-back sliding way; the wiring groove 3 is connected to the front side of the positioning plate 2 in a front-back sliding way; the positioning shafts 4 are provided in plurality, and the positioning shafts 4 are uniformly distributed and fixedly connected to the front side of the positioning plate 2; the guide structure is arranged on the front side of the positioning plate 2; the connecting axle 7 is provided with a plurality of, and a plurality of connecting axles 7 rotate respectively and connect at the middle part of a plurality of locating shaft 4, and a plurality of connecting axles 7 all with shelter from shell 1 threaded connection.

Wherein the guiding structure comprises a guiding block 301; the guide blocks 301 are provided with a plurality of, and a plurality of guide blocks 301 are evenly distributed and fixedly connected to the front side of the wiring groove 3, and a plurality of guide blocks 301 are all in front-back sliding connection with the positioning plate 2.

Wherein the guiding structure further comprises an elastic member 302; the elastic members 302 are provided in plurality, and the wiring groove 3 is elastically connected with the positioning plate 2 through the plurality of elastic members 302.

Wherein the guiding structure further comprises a pressing plate 401; the plurality of pressing plates 401 are provided, and the plurality of pressing plates 401 are respectively screwed on the front sides of the plurality of positioning shafts 4.

Specific use and action of the embodiment: opening and shielding shell 1, lay the cable in wiring groove 3, be connected the clamp plate 401 to the front side of locating shaft 4 this moment and can realize compressing tightly of cable kink, realize the preliminary location to the cable, continue to lay the straight line that can realize the cable behind the locating shaft 4 with the cable and lay, when need lay many cables that trend the same distance is different, it slides to the locating plate 2 rear to extrude the cable to make wiring groove 3, the cable can receive the restraint of wiring groove 3 and locating plate 2 this moment, guide block 301 can lead the removal of wiring groove 3, elastic component 302 can promote wiring groove 3, make wiring groove 3 and cable in close contact, can pull down locating plate 2 through twisting connecting axle 7, the convenience is changed damaged locating plate 2 and wiring groove 3.

Examples

As shown in fig. 4 to 8:

on the basis of the first embodiment, the device also comprises a first sliding cylinder 5, a pressing structure and a second sliding cylinder 6; the first sliding cylinders 5 are provided with a plurality of first sliding cylinders 5, the first sliding cylinders 5 are uniformly distributed and are connected to the front side of the positioning plate 2 in a front-back sliding manner, and the first sliding cylinders 5 are elastically connected with the positioning plate 2 through springs; the compression structure is arranged in front of the positioning plate 2; the second sliding cylinders 6 are provided with a plurality of, the second sliding cylinders 6 are uniformly distributed and are connected to the front side of the positioning plate 2 in a front-back sliding mode, and the second sliding cylinders 6 are elastically connected with the positioning plate 2 through springs.

The compressing structure comprises a first compressing piece 501 and a clamping groove 502; the first pressing pieces 501 are provided with a plurality of first pressing pieces 501, the first pressing pieces 501 are respectively connected to the front sides of the first sliding cylinders 5 in a rotating mode, and the upper sides of the first pressing pieces 501 are of arc-shaped structures; the clamping grooves 502 are provided in plurality, and the clamping grooves 502 are respectively formed in the right sides of the first pressing pieces 501.

The pressing structure further comprises a second pressing piece 601 and a clamping plate 602; the second pressing members 601 are provided with a plurality of second pressing members 601, the second pressing members 601 are respectively connected to the front sides of the second sliding cylinders 6 in a rotating mode, and the lower sides of the first pressing members 501 are of arc-shaped structures; the clamping plates 602 are provided with a plurality of clamping plates 602, and the clamping plates 602 are respectively and fixedly connected to the right sides of the second pressing members 601.

Specific use and action of the embodiment: after the cable is laid, the first pressing member 501 and the second pressing member 601 are rotated, so that the first pressing member 501 and the second pressing member 601 are aligned with each other to form a semicircular arc structure, at this time, the clamping plate 602 is clamped into the clamping groove 502, the relative positions of the first pressing member 501 and the second pressing member 601 are fixed, at this time, the first pressing member 501 and the second pressing member 601 can press the cable, the fixing of the cable position is achieved, the first pressing member 501 and the second pressing member 601 can be driven by the first sliding cylinder 5 and the second sliding cylinder 6 to slide, and the first sliding cylinder 5 and the second sliding cylinder 6 can be tensioned by the springs inside the first sliding cylinder 5 and the second sliding cylinder 6.

Claims (6)

1. A computer lab wiring structure, its characterized in that: the device comprises a shielding shell (1), a positioning plate (2), a wiring groove (3), a positioning shaft (4), a guiding structure, a first sliding cylinder (5), a pressing structure, a second sliding cylinder (6) and a connecting shaft (7); the positioning plate (2) is connected to the inner side of the shielding shell (1) in a front-back sliding way; the wiring groove (3) is connected to the front side of the positioning plate (2) in a front-back sliding way; the front side of the positioning plate (2) is uniformly and fixedly connected with a plurality of positioning shafts (4); the guide structure is arranged on the front side of the positioning plate (2); the middle part of each positioning shaft (4) is rotationally connected with one connecting shaft (7), and the connecting shafts (7) are in threaded connection with the shielding shell (1); the front side of the positioning plate (2) is uniformly distributed and is connected with a plurality of first sliding cylinders (5) in a front-back sliding manner, and the first sliding cylinders (5) are elastically connected with the positioning plate (2); the pressing structure is arranged in front of the positioning plate (2); the front side of the locating plate (2) is uniformly distributed and is connected with a plurality of second sliding cylinders (6) in a front-back sliding mode, and the second sliding cylinders (6) are elastically connected with the locating plate (2).

2. A machine room wiring structure as claimed in claim 1, wherein: the guide structure comprises a guide block (301); the front side of the wiring groove (3) is uniformly and fixedly connected with a plurality of guide blocks (301), and the guide blocks (301) are connected with the positioning plate (2) in a front-back sliding mode.

3. A machine room wiring structure as claimed in claim 1, wherein: the guide structure further comprises an elastic member (302); the wiring groove (3) is elastically connected with the positioning plate (2) through a plurality of elastic pieces (302).

4. A machine room wiring structure as claimed in claim 1, wherein: the guide structure further comprises a pressing plate (401); the front side of each positioning shaft (4) is connected with one pressing plate (401) in a threaded manner.

5. A machine room wiring structure as claimed in claim 1, wherein: the compressing structure comprises a first compressing piece (501) and a clamping groove (502); the front side of each first sliding cylinder (5) is rotatably connected with one first pressing piece (501); the right side of each first pressing piece (501) is provided with one clamping groove (502).

6. A machine room wiring structure as claimed in claim 1, wherein: the pressing structure further comprises a second pressing piece (601) and a clamping plate (602); the front side of each second sliding cylinder (6) is rotatably connected with one second pressing piece (601); the right side of each second pressing piece (601) is fixedly connected with one clamping plate (602).