CN114430149B - Adjustable cable support for square cabin of data center mechanism and construction method of adjustable cable support - Google Patents

Abstract

The invention discloses an adjustable cable bracket for a square cabin of a data center mechanism and a construction method thereof, and relates to the technical field of cable construction; comprises a cabinet body; the upper side of the cabinet body is used for laying a first cable; an overhead mechanism for erecting the second cable is arranged on the upper side of the cabinet body. The beneficial effects of the invention are as follows: lay one deck, install one deck, need not to be on the support threading, efficiency of construction is high.

Description

Adjustable cable support for square cabin of data center mechanism and construction method of adjustable cable support

Technical Field

The invention belongs to the technical field of cable construction, and particularly relates to a square-cabin adjustable cable support of a data center mechanism and a construction method thereof.

Background

When the existing square bin leaves the factory, the upper bracket is directly welded on the upper side, and then the cable needs to pass through the long bracket when laid, which is troublesome.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides an adjustable cable bracket for a square cabin of a data center mechanism and a construction method thereof.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

an adjustable cable bracket for a square bin of a data center mechanism comprises a cabinet body; the upper side of the cabinet body is used for laying a first cable; an overhead mechanism for erecting the second cable is arranged on the upper side of the cabinet body.

Preferably, the overhead mechanism comprises a bracket positioned on two opposite sides of the cabinet body, a plurality of support rods for supporting the second cables and a plurality of reinforcing beams for increasing the stability of the bracket; the support rods and the reinforcing beams are positioned between the brackets; the bracket comprises a connecting beam, a plurality of posts, and a plurality of upper ends of the posts are fixedly connected with the connecting beam; the supporting rods are parallel to the reinforcing beams, and the supporting rods are perpendicular to the reinforcing Liang Junhe connecting beams; the lower end of the column is connected with the cabinet body, the end part of the supporting rod is connected with the middle part of the column through a first connecting piece, and the end part of the reinforcing beam is connected with the connecting beam through a second connecting piece.

Preferably, the first connecting piece comprises a first U-shaped steel groove matched with the supporting rod, a first bonding plate fixedly connected to one end of the first U-shaped steel groove and used for being bonded with the column, and two first connecting plates; the first connecting plate is connected to one end of the first U-shaped steel groove close to the first bonding plate; the first connecting plate is used for being attached to two opposite sides of the pillar and connected with the pillar through bolts.

Preferably, the second connecting piece comprises a second U-shaped channel steel matched with the reinforcing beam, a second bonding plate fixedly connected to one end of the second U-shaped channel steel and used for bonding with the upper end of the column, and two second connecting plates; the second connecting plate is located the one end that is close to the second laminating board of second U-shaped steel, and the second connecting plate passes through bolt and tie beam connection.

Preferably, the cabinet body comprises a top plate and two opposite side plates; the side plates comprise steel pipes; the upper end of the steel pipe protrudes out of the upper side of the top plate; the overhead mechanism comprises a first inner pipe inserted at the upper end of the steel pipe, a second inner pipe connected in the first inner pipe in a sliding way, a first turnup fixedly connected at the upper end of the first inner pipe and used for limiting the first inner pipe, a second turnup fixedly connected at the upper end of the second inner pipe and used for limiting the second inner pipe, a rotating rod positioned in the first inner pipe and used for supporting a second cable, and a stability increasing rod positioned in the second inner pipe and used for increasing stability; the upper end of steel pipe is equipped with the groove of dodging that is used for dodging the dwang, the one end rotation of dwang is connected with first pivot, second inner tube one side is equipped with the elongated slot that is used for dodging first pivot, first pivot passes the wall of elongated slot and first inner tube, the cover has first buffer spring in the first pivot, first buffer spring one end is connected in first pivot, the other end is connected on the dwang, the steel pipe upper end is equipped with first side groove, the one end rigid coupling that the dwang was kept away from to first pivot has first reel, first side groove is used for holding first reel, first reel winding has first acting as go-between, the one end that the first acting as go-between kept away from first reel is connected at the tank bottom in first side groove, it is connected with the second pivot to increase steady pole one end rotation, the cover has second buffer spring to have second buffer spring one end to connect in the second pivot, the other end is connected on increasing steady pole, the second reel has the second reel to pass the wall back rigid coupling of second inner tube, first inner tube upper end is equipped with the second side groove that is used for holding second reel, the one end rigid coupling has first reel, the first reel is equipped with first reel, the one end is equipped with the first inner tube is equipped with the limiting stop slot for keeping away from in first side inner tube, the first side inner tube is equipped with the first side of inner tube, the first end is equipped with the limiting stop device is used for keeping away from the limiting stop slot, the limit device is equipped with the first side of inner tube, the first side is used for keeping away from the limiting stop device.

Preferably, the limiting mechanism comprises a sleeve, a limiting rod which is slidably connected in the sleeve and is used for being inserted into the limiting hole, and a driving spring which is positioned in the sleeve and is used for driving the limiting rod.

Preferably, step a: paving a first cable on the upper side of the cabinet body; step b: placing brackets on two opposite sides of a cabinet body, welding the lower ends of the columns on the upper side of the cabinet body, fixing the brackets on the cabinet body, fixing a first connecting piece on the middle of the columns through bolts, embedding the end parts of the support rods into first U-shaped channel steel, and paving second cables on the support rods; step c: and installing a second connecting piece on the connecting beam by bolts, and embedding the end part of the reinforcing beam into the second U-shaped channel steel.

The beneficial effects of the invention are as follows: lay one deck, install one deck, need not to be on the support threading, efficiency of construction is high.

Drawings

FIG. 1 is a schematic diagram of example 1;

FIG. 2 is a top view of example 1;

FIG. 3 is a side view of example 1;

FIG. 4 is a schematic view of a first connector;

FIG. 5 is a schematic view of a second connector;

FIG. 6 is a schematic illustration of the laying of a first cable on a cabinet;

FIG. 7 is a schematic illustration of a second cable laid on the support pole;

FIG. 8 is a schematic view of the reinforcement beam after installation;

FIG. 9 is a schematic diagram of example 2;

FIG. 10 is a cross-sectional view A-A of FIG. 9;

FIG. 11 is a schematic view of a limiting aperture and limiting mechanism;

FIG. 12 is a schematic diagram of the first cable of embodiment 2;

fig. 13 is a schematic diagram of laying a second cable of embodiment 2;

fig. 14 is a schematic view of example 2 after the second inner tube is pulled up.

In the figure: the cabinet body 1, the first cable 2, the second cable 3, the post 4, the support rod 5, the reinforcing beam 6, the first attaching plate 7, the first U-shaped channel steel 8, the first connecting plate 9, the second U-shaped channel steel 10, the connecting beam 11, the second connecting plate 12, the second attaching plate 13, the top plate 14, the steel pipe 15, the first inner pipe 16, the second inner pipe 17, the first outward flange 18, the second outward flange 19, the rotating rod 20, the stability augmentation rod 21, the avoidance groove 22, the first rotating shaft 23, the first winding wheel 24, the long groove 25, the second rotating shaft 26, the second winding wheel 27, the second side groove 28, the limiting hole 29, the sleeve 30, the limiting rod 31, the driving spring 32 and the first side groove 33.

Detailed Description

The invention is further described in detail below with reference to the attached drawings and detailed description:

example 1:

referring to fig. 1 to 8, an adjustable cable support for a square cabin of a data center mechanism comprises a cabinet body 1;

the upper side of the cabinet body 1 is used for laying a first cable 2;

an overhead mechanism for erecting the second cable 3 is arranged on the upper side of the cabinet body 1.

The overhead mechanism comprises brackets positioned on two opposite sides of the cabinet body 1, a plurality of support rods 5 for supporting the second cables 3 and a plurality of reinforcing beams 6 for increasing the stability of the brackets;

the support rods 5 and the reinforcing beams 6 are positioned between the brackets;

the bracket comprises a connecting beam 11, a plurality of posts 4, and the upper ends of the posts are fixedly connected with the connecting beam 11;

the supporting rods 5 and the reinforcing beams 6 are mutually parallel, and the supporting rods 5 and the reinforcing beams 6 are vertical to the connecting beams 11;

the lower end of the post 4 is connected with the cabinet body 1, the end part of the supporting rod 5 is connected with the middle part of the post 4 through a first connecting piece, and the end part of the reinforcing beam 6 is connected with the connecting beam 11 through a second connecting piece.

The first connecting piece comprises a first U-shaped steel bar 8 matched with the supporting rod 5, a first bonding plate 7 fixedly connected to one end of the first U-shaped channel steel 8 and used for bonding with the column 4, and two first connecting plates 9;

the first connecting plate 9 is connected to one end of the first U-shaped steel bar 8, which is close to the first bonding plate 7;

the first connection plates 9 are adapted to fit on opposite sides of the post 4 and are connected to the post 4 by bolts.

The second connecting piece comprises a second U-shaped steel groove 10 matched with the reinforcing beam 6, a second bonding plate 13 fixedly connected to one end of the second U-shaped steel groove 10 and used for bonding with the upper end of the column 4, and two second connecting plates 12;

the second connecting plate 12 is located at one end of the second U-shaped channel 10 near the second bonding plate 13, and the second connecting plate 12 is connected with the connecting beam 11 through bolts.

The construction method of the embodiment comprises the following steps:

step a: the first cable 2 is paved on the upper side of the cabinet body 1; see fig. 6;

step b: placing brackets on two opposite sides of a cabinet body 1, welding the lower ends of columns 4 on the upper side of the cabinet body 1, fixing the brackets on the cabinet body 1, fixing a first connecting piece on the middle of the columns 4 through bolts, embedding the end parts of support rods 5 into first U-shaped groove steel 8, and paving second cables 3 on the support rods 5; see fig. 7;

step c: a second connector is bolted to the connection beam 11 and then the end of the reinforcement beam 6 is embedded in the second U-channel 10. See fig. 8.

The layer is laid to this embodiment, installs the layer, does not need to be threaded on the support, and the efficiency of construction is high.

Example 2:

see fig. 9 to 14; an adjustable cable bracket for a square bin of a data center mechanism comprises a cabinet body 1;

the upper side of the cabinet body 1 is used for laying a first cable 2;

an overhead mechanism for erecting the second cable 3 is arranged on the upper side of the cabinet body 1.

The cabinet 1 comprises a top plate 14 and two opposite side plates;

the side plates comprise steel pipes 15;

the upper end of the steel pipe 15 protrudes above the top plate 14;

the overhead mechanism comprises a first inner pipe 16 inserted into the upper end of the steel pipe 15, a second inner pipe 17 connected in the first inner pipe 16 in a sliding manner, a first outward flange 18 fixedly connected to the upper end of the first inner pipe 16 and used for limiting the first inner pipe 16, a second outward flange 19 fixedly connected to the upper end of the second inner pipe 17 and used for limiting the second inner pipe 17, a rotating rod 20 positioned in the first inner pipe 16 and used for supporting the second cable 3, and a stability increasing rod 21 positioned in the second inner pipe 17 and used for increasing stability;

the upper end of the steel tube 15 is provided with an avoidance groove 22 for avoiding the rotating rod 20, one end of the rotating rod 20 is rotationally connected with a first rotating shaft 23, one side of the second inner tube 17 is provided with a long groove 25 for avoiding the first rotating shaft 23, the first rotating shaft 23 penetrates through the long groove 25 and the wall of the first inner tube 16, a first buffer spring is sleeved on the first rotating shaft 23, one end of the first buffer spring is connected with the first rotating shaft 23, the other end of the first buffer spring is connected with the rotating rod 20, the upper end of the steel tube 15 is provided with a first side groove 33, one end of the first rotating shaft 23 far away from the rotating rod 20 is fixedly connected with a first winding wheel 24, the first side groove 33 is used for accommodating the first winding wheel 24, the first winding wheel 24 is wound with a first pull wire, one end of the first pull wire far away from the first winding wheel 24 is connected with the groove bottom of the first side groove 33, one end of the stability augmentation rod 21 is rotationally connected with a second rotating shaft 26, the second buffer spring is sleeved on the second rotating shaft 26, one end of the second buffer spring is connected to the second rotating shaft 26, the other end of the second buffer spring is connected to the stability increasing rod 21, one end of the second rotating shaft 26, which is far away from the stability increasing rod 21, penetrates through the wall of the second inner tube 17 and is fixedly connected with a second reel 27, a second side groove 28 for accommodating the second reel 27 is arranged at the upper end of the first inner tube 16, a second pull wire is wound on the second reel 27, one end of the second pull wire, which is far away from the second reel 27, is connected to the bottom of the second side groove 28, one side of the first inner tube 16 is provided with a first side avoidance groove for avoiding the rotating rod 20, one side of the second inner tube 17 is provided with a second side avoidance groove for avoiding the stability increasing rod 21, the upper end of the steel tube 15 is provided with a limit hole 29, the upper end of the first inner tube 16 is provided with a limit hole 29, the lower end of the first inner tube 16 is provided with a limit mechanism for being matched with the limit hole 29 of the steel tube 15, the lower end of the second inner tube 17 is provided with a limiting mechanism for cooperating with the limiting hole 29 of the first inner tube 16.

The construction method comprises the following steps:

initially, the first flange 18 abuts against the upper end of the steel pipe 15, the second flange 19 abuts against the upper end of the first inner pipe 16, and the turning rod 20 and the stability augmentation rod 21 are vertical, see fig. 9 to 11;

in construction, a first cable 2 is laid on the upper side of the cabinet body 1, see fig. 12;

then the first inner tube 16 is pulled upwards, the limiting rod 31 on the first inner tube 16 slides upwards along the inner wall of the steel tube 15, meanwhile, under the action of the first pull wire, the first reel 24 rotates to drive the first buffer spring to be twisted, when the limiting rod 31 moves to the limiting hole 29 of the steel tube 15, under the action of the driving spring 32, the limiting rod 31 is inserted into the limiting hole 29, the first inner tube 16 is fixed on the steel tube 15, due to the fact that the first buffer spring is twisted, under the action of the first buffer spring, the rotating rod 20 rotates out of the first side avoidance groove and the avoidance groove 22, at the moment, the rotating rod 20 is horizontal, the end parts of the two rotating rods 20 are abutted together, and are reinforced by bolts, see fig. 12, then the second cable 3 is laid on the rotating rod 20, then the second inner tube 17 is pulled upwards continuously, similarly, when the limiting rod 31 of the second inner tube 17 is inserted into the limiting hole 29 on the first inner tube 16, the end parts of the stabilizing rod 21 are rotated to be horizontal, and then the end parts of the stabilizing rod 21 are abutted together, see fig. 14.

Claims (4)

1. The adjustable cable bracket for the square bin of the data center mechanism is characterized by comprising a cabinet body;

the upper side of the cabinet body is used for laying a first cable;

an overhead mechanism for erecting the second cable is arranged on the upper side of the cabinet body;

the overhead mechanism comprises a bracket positioned at two opposite sides of the cabinet body, a plurality of support rods for supporting the second cables and a plurality of reinforcing beams for increasing the stability of the bracket;

the support rods and the reinforcing beams are positioned between the brackets;

the bracket comprises a connecting beam, a plurality of posts, and a plurality of upper ends of the posts are fixedly connected with the connecting beam;

the lower end of the column is connected with the cabinet body, the end part of the supporting rod is connected with the middle part of the column through a first connecting piece, and the end part of the reinforcing beam is connected with the connecting beam through a second connecting piece;

the first connecting piece comprises a first U-shaped steel groove matched with the supporting rod, a first bonding plate fixedly connected to one end of the first U-shaped steel groove and used for being bonded with the column, and two first connecting plates;

the first connecting plate is connected to one end of the first U-shaped steel groove close to the first bonding plate;

the first connecting plate is used for being attached to two opposite sides of the pillar and connected with the pillar through bolts.

2. The adjustable square-warehouse cable plant of claim 1, wherein the support bars and the reinforcement beams are parallel to each other and the support bars and the reinforcement Liang Junhe connection beams are perpendicular.

3. The adjustable cable bracket for the square bin of the data center mechanism according to claim 2, wherein the second connecting piece comprises a second U-shaped channel steel used for being matched with the reinforcing beam, a second bonding plate fixedly connected to one end of the second U-shaped channel steel and used for being bonded with the upper end of the column, and two second connecting plates;

the second connecting plate is located the one end that is close to the second laminating board of second U-shaped steel, and the second connecting plate passes through bolt and tie beam connection.

4. A method of constructing a cable support according to claim 3, wherein:

step a: paving a first cable on the upper side of the cabinet body;

step b: placing brackets on two opposite sides of a cabinet body, welding the lower ends of the columns on the upper side of the cabinet body, fixing the brackets on the cabinet body, fixing a first connecting piece on the middle of the columns through bolts, embedding the end parts of the support rods into first U-shaped channel steel, and paving second cables on the support rods;

step c: and installing a second connecting piece on the connecting beam by bolts, and embedding the end part of the reinforcing beam into the second U-shaped channel steel.