CN213717522U - Vertical cabling rack in communication machine room - Google Patents

Abstract

The utility model relates to a vertical chute in communication machine room, including two vertical roof beams, cable guide bar, coupling assembling, two set up the cable guide bar of a plurality of equidistant vertical arrangements between the vertical roof beam, the cable guide bar includes sliding connection's inner support rod and outer support rod, the inner support rod is connected with one of them vertical roof beam, outer support rod is connected with another vertical roof beam. The utility model discloses an inner support rod and outer support rod sliding connection make inner support rod and outer support rod relatively can slide, and the screw rod injects in the sleeve, screw rod and sleeve can relative movement, thereby make the whole length of cable guide bar and coupling assembling's whole length all can adjust according to the regulation of distance between two vertical roof beams, thereby realized the regulation of the whole width of vertical chute, in order to be applicable to the cable of laying different radical, adjust as required, need not to change, application scope is wide.

Description

Vertical cabling rack in communication machine room

Technical Field

The utility model relates to a chute technical field, concretely relates to vertical chute in communication machine room.

Background

Nowadays, with the development of information communication technology, the use of mobile communication technology is popularized, and after the development of 5G wireless communication technology, the development thereof is more and more intense. The upgrading and reconstruction requirements of the wireless base station are more and more important, and the increase of cables in the machine room due to the increase and upgrading of equipment in the machine room.

In order to ensure the tidiness and the attractiveness of a machine room and be suitable for flexible and diversified assembly, cabling racks are arranged in the machine room, cables of equipment rooms in the machine room can be laid on the cabling racks, and the novel cabling rack for the communication machine room comprises a transverse cabling rack, a vertical cabling rack and a vertical support frame, wherein the transverse cabling rack and the vertical support frame are connected and fixed through a bolt group, the vertical cabling rack is arranged close to a wall and fixed with the transverse cabling rack, the width of the conventional vertical cabling rack cannot be adjusted, when too many cables are arranged in the machine room, in order to achieve attractive and standard laying, the vertical cabling rack needs to be replaced to be suitable for laying of more cables, and the cost is increased.

SUMMERY OF THE UTILITY MODEL

For solving the problem that prior art exists, the utility model provides a vertical chute in communication machine room.

In order to achieve the above object, the utility model adopts the following technical scheme:

a vertical cabling rack in a communication machine room comprises two vertical beams, a cable guide rod and a connecting assembly, wherein a plurality of cable guide rods which are vertically arranged at equal intervals are arranged between the two vertical beams, the cable guide rod comprises an inner support rod and an outer support rod which are connected in a sliding mode, the inner support rod is connected with one vertical beam, the outer supporting rod is connected with the other vertical beam, the side walls of the two vertical beams back to the wall are fixed through the connecting component, the connecting assembly comprises a screw and a sleeve, one end of the screw is fixed with the side wall of one of the vertical beams back to the wall, the other end of the screw rod is inserted into one end of the sleeve, the other end of the sleeve and the other vertical beam are back to the side wall of the wall, the screw rod is connected with a first flange plate in a threaded mode, one end of the sleeve is fixedly provided with a second flange plate, and the first flange plate and the second flange plate are detachably fixed through fasteners.

In any of the above schemes, preferably, a dovetail sliding groove is provided on a side wall of the outer supporting rod facing the wall, and the inner rod is inserted into the dovetail sliding groove to form a sliding connection.

In any of the above aspects, preferably, the wall-facing surface of the inner strut is flush with the wall-facing surface of the outer strut.

In any one of the above aspects, preferably, the number of the connecting assemblies is two, one of the connecting assemblies is located below the uppermost cable guide rod, and the other connecting assembly is located above the lowermost cable guide rod.

In any of the above schemes, preferably, one end of the inner support rod and one end of the outer support rod are respectively fixed with a support column, one end of the support column is fixed with a rectangular block, a through hole through which the support column and the rectangular block can pass is arranged at a position of the vertical beam corresponding to the support column, when the support column is inserted into the through hole, the rectangular block extends to the outer side of the through hole, and the length of the rectangular block is greater than the width of the through hole.

In any of the above schemes, preferably, a pressing plate is detachably fixed on the outer side wall of each vertical beam, a position of one side wall of the pressing plate, which corresponds to the rectangular block, is provided with a limiting groove into which the rectangular block can be inserted, and the inner support rod and the outer support rod are pressed and fixed on the corresponding vertical beam through the pressing plate.

In any of the above schemes, preferably, the outer side wall of the vertical beam is provided with a clamping groove for inserting the rectangular block at a position corresponding to the through hole, the clamping groove is communicated with the through hole, when the pressing plate is connected with the vertical beam, one end of the rectangular block is inserted into the clamping groove, and the other end of the rectangular block is inserted into the limiting groove.

In any of the above schemes, preferably, the clamping groove and the through hole form a cross-shaped structure.

Compared with the prior art, the utility model provides a vertical chute in communication machine room has following beneficial effect:

1. the inner support rod and the outer support rod are connected in a sliding mode, so that the inner support rod and the outer support rod can slide relatively, the screw rod is inserted into the sleeve and can move relatively, the overall length of the cable guide rod and the overall length of the connecting assembly can be adjusted according to the adjustment of the distance between the two vertical beams, the adjustment of the overall width of the vertical cabling rack is achieved, the cable routing rack is suitable for laying cables with different numbers, the cables can be adjusted according to needs, the replacement is not needed, the application range is wide, the two vertical beams are fixed only through the first flange plate and the second flange plate, the inner support rod and the outer support rod do not need to be connected one by one, the fixing mode is simplified, and the operation is simpler;

2. a plurality of corresponding inner struts or a plurality of corresponding outer struts on the vertical beam are fixed with the vertical beam through the pressing plate, the inner struts or the outer struts do not need to be fixed one by one, operation steps are simplified, and the inner struts and the outer struts are connected with the vertical beam more conveniently and rapidly.

Drawings

Fig. 1 is a schematic overall structure diagram of a preferred embodiment of a vertical rack in a communication machine room according to the present invention;

FIG. 2 is a schematic distribution diagram of through holes and slots on the vertical beam in FIG. 1;

fig. 3 is a partial enlarged view of a-a in fig. 1.

The figures are labeled as follows: 1. a vertical beam; 2. an inner support rod; 3. an outer strut; 4. a sleeve; 5. a connecting rod; 6. a screw; 7. pressing a plate; 8. a through hole; 9. a card slot; 10. a rectangular block; 11. a first flange plate; 12. a second flange.

Detailed Description

In order to further understand the inventive content of the present invention, the present invention will be explained in detail with reference to the specific embodiments.

Example 1

As shown in fig. 1-3, according to an embodiment of the vertical rack in the communication machine room provided by the present invention, the vertical rack comprises two vertical beams 1, and further comprises a cable guide rod and a connection assembly, wherein a plurality of cable guide rods are vertically arranged at equal intervals between the two vertical beams 1, the cable guide rod comprises an inner support rod 2 and an outer support rod 3 which are slidably connected, the inner support rod 2 is connected with an inner side wall of one of the vertical beams 1, the outer support rod 3 is connected with an inner side wall of the other vertical beam 1, two side walls of the vertical beams 1 facing away from the wall are fixed by the connection assembly, the connection assembly comprises a screw rod 6 and a sleeve 4, one end of the screw rod 6 is fixed with the side wall of one of the vertical beams 1 facing away from the wall, the other end of the screw rod 6 is inserted into one end of the sleeve 4, the other end of the sleeve 4 is fixed with the side wall of the other vertical beam, the screw rod 6 is connected with a first flange plate 11 in a threaded mode, one end of the sleeve 4 is fixedly provided with a second flange plate 12, and the first flange plate 11 and the second flange plate 12 are detachably fixed through fasteners. Coupling assembling is located the one side that the wall was kept away from to the cable guide bar, avoids coupling assembling to influence laying of cable, and the fastener can be fixed with the horizontal roof beam in the horizontal chute with bolt and nut, the top of vertical roof beam 1.

All set up the connecting hole that six annular array distribute on first ring flange 11 and the second ring flange 12, when connecting, the connecting hole on first ring flange 11 and the second ring flange 12 corresponds, then only need through two connecting holes of fastener fixed can, need not whole fixed, simplified fixed step, it is easy and simple to handle.

Inner support rod 2 and 3 sliding connection of outer support rod make inner support rod 2 and 3 relative can slide of outer support rod, and screw rod 6 injects in sleeve 4, screw rod 6 and sleeve 4 can relative movement, thereby make the whole length of cable guide bar and the whole length of coupling assembling all can adjust according to the regulation of distance between two vertical roof beams 1, thereby realized the regulation of the whole width of vertical chute, in order to be applicable to the cable of laying different radical, adjust as required, need not to change, application scope is wide.

Specifically, a connecting rod 5 is fixed at one end of each of the screw 6 and the sleeve 4, the connecting rod 5 is fixed with the front wall of the corresponding vertical beam 1, and the front wall of the vertical beam 1 is the side wall surface of the vertical beam 1, which faces away from the wall.

The side wall of the outer support rod 3 facing the wall is provided with a dovetail sliding groove, and the inner support rod 2 is inserted into the dovetail sliding groove to form sliding connection. Dovetail chute and inner support bar 2 cooperation are in order to form sliding connection, have restricted two vertical roof beams 1 and can only the horizontal relative movement, and can't remove in other directions, and stability is good.

The surface of the side wall of the inner support rod 2 facing the wall is flush with the surface of the side wall of the outer support rod 3 facing the wall, so that the side wall of the cable guide rod close to the wall is smooth, and the cable is prevented from being scratched.

The number of coupling assembling is two, and one of them coupling assembling is located the cable guide bar below of top and is close to the setting, and another coupling assembling is located the cable guide bar top of below and is close to the setting to do not hinder laying of cable.

The supporting column is characterized in that supporting columns are respectively fixed to one ends of the inner supporting rod 2 and the outer supporting rod 3, a rectangular block 10 is fixed to one end of each supporting column, through holes 8 enabling the supporting columns and the rectangular blocks 10 to penetrate through are formed in the positions, corresponding to the supporting columns, of the vertical beams 1, when the supporting columns are inserted into the through holes 8, the rectangular blocks 10 extend to the outer sides of the through holes 8, and the length of each rectangular block 10 is larger than the width of each through hole 8.

The outer side wall of each vertical beam 1 can be detachably fixed with a pressing plate 7, a position, corresponding to the rectangular block 10, of one side wall of each pressing plate 7 is provided with a limiting groove into which the rectangular block 10 can be inserted, and the inner support rod 2 and the outer support rod 3 are pressed and fixed through the pressing plates 7 on the corresponding vertical beams 1. The pressing plate 7 and the vertical beam 1 are fixed through bolts.

The position that corresponds with through-hole 8 on the lateral wall of vertical roof beam 1 is equipped with and makes rectangular block 10 male draw-in groove 9, draw-in groove 9 and through-hole 8 intercommunication, when clamp plate 7 is connected with vertical roof beam 1, the one end of rectangular block 10 injects in draw-in groove 9, and the other end of rectangular block 10 injects the spacing inslot.

The clamping groove 9 and the through hole 8 form a cross structure, so that the rectangular block 10 can be inserted into the clamping groove 9 after rotating 90 degrees relative to the through hole 8 and cannot pass through the through hole 8, the rectangular block 10 is clamped outside the vertical beam 1, the inner support rod 2, the outer support rod 3 and the vertical beam 1 are preliminarily connected, and then the pressing plate 7 is used for pressing and fixing, so that the inner support rod 2, the outer support rod 3 and the corresponding vertical beam 1 are fixed.

When the pressing plate 7 is fixedly connected with the vertical beam 1, one end of the rectangular block 10 is inserted into the limiting groove, the movement of the rectangular rod is limited, the rectangular block 10 cannot rotate, the movement of the inner support rod 2 and the outer support rod 3 is limited, the inner support rod 2, the outer support rod 3 and the vertical beam 1 are further in a fixed connection state, the cable guide rods are simultaneously fixed through the pressing plate 7, each inner support rod 2 or each outer support rod 3 is not required to be singly fixed, and when the pressing plate 7 and the vertical beam 1 are fixed through bolts, the number of the bolts can be less than that of the inner support rods 2 or the outer support rods 3, so that the fixing operation is simplified, and the connection of the inner support rods 2, the outer support rods 3 and the vertical beam 1 is more convenient.

Example 2

The difference with the above-mentioned embodiment is that the number of coupling assembling is three, and one of them is installed in the below of the cable guide bar of the top and is close to the setting, and another is installed in the top of the cable guide bar of the bottom and is close to the setting, and remaining one is installed in the centre of vertical beam 1.

The working principle of the embodiment is as follows: when the vertical cabling rack is assembled, firstly, an inner support rod 2 is arranged on one vertical beam 1, an outer support rod 3 is arranged on the other vertical beam 1, the installation mode of the inner support rod 2 and the outer support rod 3 is the same, in the installation example of the inner support rod 2, during installation, a support column on the inner support rod 2 and a rectangular block 10 extend into a through hole 8 on the corresponding vertical beam 1, the rectangular block 10 extends out of the through hole 8, then the inner support rod 2 is rotated by 90 degrees, at the moment, a dovetail sliding groove faces to a wall, the rectangular block 10 is inserted into a clamping groove 9, as the clamping groove 9 and the through hole 8 form a cross structure, the rectangular block 10 cannot pass through the through hole 8, the primary connection of the inner support rod 2 and the vertical beam 1 is realized, then a pressing plate 7 is arranged on the outer side wall of the vertical beam 1, the rectangular block 10 is inserted into a corresponding limiting groove, after the pressing plate 7 is fixed with the vertical beam 1, the rectangular block 10 cannot, therefore, the inner support rods 2 can not be separated from the vertical beams 1, the inner support rods 2 are connected with the vertical beams 1, the outer support rods 3 are also connected with the vertical beams 1, the inner support rods 2 and the outer support rods 3 on the two vertical beams 1 are spliced and connected, the inner support rods 2 are inserted into the dovetail sliding grooves, the screw rods 6 are inserted into the sleeves 4, then the distance between the two vertical beams 1 is determined, after the distance is determined, the first flange plate 11 on the screw rods 6 is rotated to be close to the second flange plate 12, the first flange plate 11 is attached to the second flange plate 12, and then the first flange plate 11 and the second flange plate 12 are fixed, so that the two vertical beams 1 are fixed, and the assembly of the vertical cabling rack is completed.

It will be understood by those skilled in the art that any combination of the elements of the present invention, including the summary and detailed description of the invention provided in the foregoing description and illustrated in the accompanying drawings, is not to be considered limiting in scope and in order to make the description more concise, and not to describe every element of the combination. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a vertical chute in communication computer lab, includes two vertical roof beams, its characterized in that: still include cable guide bar, coupling assembling, two set up the cable guide bar of a plurality of equidistant vertical arrangements between the vertical roof beam, the cable guide bar includes sliding connection's inner support pole and outer support rod, the inner support pole is connected with one of them vertical roof beam, outer support rod is connected with another vertical roof beam, two the lateral wall of vertical roof beam dorsad wall is fixed through coupling assembling, coupling assembling includes screw rod, sleeve, the one end of screw rod is fixed with the lateral wall of one of them vertical roof beam dorsad wall, the other end of screw rod is inserted in telescopic one end, the telescopic other end and the lateral wall of another vertical roof beam dorsad wall, the first ring flange of threaded connection on the screw rod, the fixed second ring flange of telescopic one end, first ring flange and second ring flange can dismantle fixedly through the fastener.

2. The vertical rack in a telecommunications room of claim 1, wherein: the side wall of the outer support rod facing the wall is provided with a dovetail sliding groove, and the inner support rod is inserted into the dovetail sliding groove to form sliding connection.

3. The vertical rack in a telecommunications room of claim 1, wherein: the wall-facing surface of the inner strut is flush with the wall-facing surface of the outer strut.

4. The vertical rack in a telecommunications room of claim 1, wherein: the number of connecting components is two, and one of them connecting components is located the cable guide bar below of top, and another connecting components is located the cable guide bar top of below.

5. The vertical rack in a telecommunications room of claim 1, wherein: the supporting column is fixed at one end of the inner supporting rod and one end of the outer supporting rod respectively, the rectangular block is fixed at one end of the supporting column, through holes capable of enabling the supporting column and the rectangular block to penetrate through are formed in the positions, corresponding to the supporting column, of the vertical beams, when the supporting column is inserted into the through holes, the rectangular block extends to the outer side of the through holes, and the length of the rectangular block is larger than the width of the through holes.

6. The vertical rack in a telecommunications room of claim 5, wherein: the outer side wall of each vertical beam is detachably fixed with a pressing plate, a position, corresponding to the rectangular block, of one side wall of each pressing plate is provided with a limiting groove in which the rectangular block can be inserted, and the inner support rod and the outer support rod are pressed and fixed on the corresponding vertical beams through the pressing plates.

7. The vertical rack in a telecommunications room of claim 6, wherein: the position that corresponds with the through-hole on the lateral wall of vertical roof beam is equipped with and makes rectangular block male draw-in groove, draw-in groove and through-hole intercommunication, when the clamp plate is connected with vertical roof beam, the one end of rectangular block injects the draw-in groove in, the other end of rectangular block injects the spacing inslot.

8. The vertical rack in a telecommunications room of claim 7, wherein: the clamping groove and the through hole form a cross structure.

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