CN218269688U - Ground heat radiation structure of machine room - Google Patents

Abstract

The utility model relates to a ground heat radiation structure of a machine room, which belongs to the technical field of heat radiation structures, and the key point of the technical proposal is that a mounting groove is arranged on a terrace of the machine room, and a plurality of cold water circulating pipes are arranged in the mounting groove; a plurality of support keels which are arranged in parallel are arranged in the mounting groove, a heat dissipation cover plate is arranged on the upper portions of the support keels, heat dissipation holes are formed in the heat dissipation cover plate, and the heat dissipation cover plate is detachably connected with the support keels; the utility model discloses the bottom to the computer lab equipment that can be better dispels the heat.

Description

Ground heat radiation structure of machine room

Technical Field

The utility model relates to a heat radiation structure technical field especially relates to a ground heat radiation structure of computer lab.

Background

The computer room is an information center of an enterprise unit, various large-scale computing processing equipment is placed in the computer room, and the computer room is safe and stable in operation and has important significance. When large-scale equipment such as a control cabinet runs, a large amount of heat can be generated, so that the heat dissipation of the large-scale equipment is very important in time.

These large-scale controlgear of switch board are for can better dispelling the heat, and the louvre has also been seted up to its bottom usually, but because the equipment bottom is nearer apart from ground, the heat that consequently disperses from the equipment bottom can't in time effectively carry out the heat transfer with air on every side, and then causes equipment bottom local overheat easily, and then causes equipment trouble easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a ground heat radiation structure of computer lab, the bottom to computer lab equipment that can be better dispels the heat.

The above technical object of the present invention can be achieved by the following technical solutions: a ground heat dissipation structure of a machine room comprises a machine room terrace, wherein a mounting groove is formed in the machine room terrace, and a plurality of cold water circulation pipes are arranged in the mounting groove; the mounting groove is internally provided with a plurality of supporting keels arranged in parallel, the upper parts of the supporting keels are provided with heat dissipation cover plates, heat dissipation holes are formed in the heat dissipation cover plates, and the heat dissipation cover plates are detachably connected with the supporting keels.

According to the technical scheme, the mounting groove is formed in the machine room floor, the heat dissipation cover plate is supported through the support keel, and the control cabinet is placed in the heat dissipation cover plate area; in the air of equipment bottom can enter into the mounting groove through the louvre, and then carry out the heat transfer cooling to the air through cooling circulation water pipe to can be more high-efficient good dispel the heat the cooling to equipment bottom, avoid equipment bottom overheated.

Preferably, a plurality of negative pressure fans are arranged in the mounting groove.

Through above-mentioned technical scheme, set up negative pressure fan in the mounting groove through the setting, and then form the negative pressure air current through negative pressure fan, and then strengthen the gas exchange in equipment bottom air and the mounting groove to can dispel the heat to equipment better.

Preferably, the heat dissipation cover plate comprises a box-shaped cover body, and a transverse support rib plate and a longitudinal support rib plate which are fixed on the back of the cover body.

Through the technical scheme, the heat dissipation cover plate main body is the box-shaped cover body, so that metal plates can be processed by stamping or bending, good structural strength is achieved, the cover body is supported by the transverse supporting rib plates and the longitudinal supporting rib plates arranged on the cover body, and the heat dissipation cover plate is good in structural strength and not prone to deformation.

Preferably, the support keel is a rectangular square tube with a rectangular cross section, the support keel is provided with a plurality of threaded holes along the length direction of the support keel, and the heat dissipation cover plate is connected with the support keel through the threaded holes in a bolt mode.

Through the technical scheme, the supporting keel adopts the rectangular square tube with the rectangular cross section, materials are convenient to draw, good structural strength is achieved, the mounting nut is arranged on the supporting keel, the heat dissipation cover plate can be mounted on the supporting keel in a bolt connection mode, and the mounting and dismounting are rapid and convenient.

Preferably, a rubber pad is fixed on the upper part of the supporting keel.

Through above-mentioned technical scheme, through at the fixed rubber pad of support fossil fragments upper portion to reduce vibrations and lap and support the conduction between the fossil fragments in the heat dissipation, make the heat dissipation apron more stable when supporting upper portion object.

Preferably, a water leakage detection assembly is arranged in the mounting groove and comprises a water leakage rope and an audible and visual alarm connected with the water leakage rope.

Through above-mentioned technical scheme, through setting up the detection subassembly that leaks at the mounting groove, when the cold water circulating pipe in the mounting groove takes place to leak, audible-visual annunciator sends audible-visual alarm to the external world to make the staff in time overhaul.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention.

Fig. 1 is a schematic structural diagram of a ground heat dissipation structure of a machine room.

Fig. 2 is a schematic view of the structure of a cold water circulating pipe.

Fig. 3 is a schematic structural diagram showing a front structure of the heat dissipation cover plate.

Fig. 4 is a schematic structural diagram showing a back structure of the heat dissipation cover plate.

Fig. 5 is a control schematic diagram of the water leakage detecting assembly.

Wherein, 1, a machine room floor; 11. mounting grooves; 2. a cold water circulating pipe; 3. a negative pressure fan; 4. a support keel; 41. a rubber pad; 5. a heat dissipation cover plate; 51. a cover body; 511. heat dissipation holes; 512. through the aperture; 513. mounting holes; 52. transversely supporting the rib plate; 53. longitudinal support rib plates; 6. a water leakage detection assembly; 61. a water leakage rope; 62. an audible and visual alarm.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings. In which like parts are designated by like reference numerals. It should be noted that, as used herein or in the following description, the terms "front," "rear," "left," "right," "upper" and "lower" refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions that face away from the geometric center of a particular component, respectively.

Example (b):

a ground heat radiation structure of a machine room refers to fig. 1 and 2 and comprises a machine room terrace 1, wherein a mounting groove 11 is formed in the machine room terrace 1, and a plurality of cold water circulating pipes 2 and a plurality of negative pressure fans 3 are arranged in the mounting groove 11. The cold water circulating pipe 2 is a U-shaped pipe, and the negative pressure fan 3 is arranged in the middle of the cold water circulating pipe 2. The cold water circulating pipe 2 is connected with a circulating water pump, and external cold water is introduced by the circulating water pump to flow in the cold water circulating pipe 2. Be provided with a plurality of parallel arrangement's support fossil fragments 4 in the mounting groove 11, the upper portion of supporting fossil fragments 4 is provided with heat dissipation apron 5, and heat dissipation apron 5 can be dismantled with support fossil fragments 4 and be connected, and the upper surface and the computer lab terrace 1 looks parallel and level of 5 heat dissipation apron.

Referring to fig. 1 and 2, the support keel 4 is a rectangular square tube with a rectangular cross section, a plurality of threaded holes are formed in the support keel 4 along the length direction of the support keel, and a rubber pad 41 is fixed to the upper portion of the support keel 4. The heat dissipation cover plate 5 is connected with the support keel 4 through a threaded hole in a bolt mode. The heat dissipation cover plate 5 is installed on the support keel 4 in a bolt connection mode, and then the heat dissipation cover plate 5 is conveniently installed and detached. The rubber pad 41 is fixed on the upper part of the support keel 4, so that the conduction of vibration between the heat dissipation cover plate 5 and the support keel 4 is reduced, and the heat dissipation cover plate 5 is more stable when supporting an upper object.

Referring to fig. 3 and 4, the heat radiating cover plate 5 includes a box-shaped cover body 51, and a transverse support rib 52 and a longitudinal support rib 53 fixed to the back surface of the cover body 51. The cover 51 can be obtained by bending, punching, or the like, a metal sheet. The lid 51 has a heat dissipation hole 511. The cover 51 has a plurality of through holes 512 and mounting holes 513 at four corners thereof. The through holes 512 and the mounting holes 513 correspond to each other one by one, and the corresponding through holes 512 and the mounting holes 513 are coaxially arranged. The inner diameter of the through hole 512 is smaller than the inner diameter of the mounting hole 513, so that when the heat dissipation cover plate 5 is bolted to the support keel 4, the screw portion of the bolt can pass through the through hole 512, but the head of the bolt cannot pass through the through hole 512, and the heat dissipation cover plate 5 is further pressed and fixed on the support keel 4, and the head of the bolt does not protrude out of the surface of the heat dissipation cover plate 5. By further welding the transverse supporting rib plates 52 and the longitudinal supporting rib plates 53 on the back surface of the cover body 51, the heat dissipation cover plate 5 has better structural strength and is not easy to deform when in use.

Large-scale control equipment such as a control cabinet in the machine room is arranged in the area where the radiating cover plate 5 is arranged. Through louvre 511, the air of equipment bottom can flow in mounting groove 11, has increased the heat dissipation space of equipment bottom. Negative pressure air flow is formed through the negative pressure fan 3, and then the air exchange in the bottom air of the equipment and the mounting groove 11 is enhanced, so that the equipment can be better cooled. Exchange heat with the air through the cold water circulating pipe 2 to the cooling of the environment at the bottom of the equipment can be accelerated, and the bottom of the equipment can be better cooled.

Referring to fig. 5, a water leakage detecting unit 6 is installed in the installation groove 11, and the water leakage detecting unit 6 includes a water leakage string 61 and an audible and visual alarm 62 connected to the water leakage string 61. Electrical facilities such as the negative pressure fan 3 and the power supply cable are arranged in the mounting groove 11, and when the cold water circulating pipe 2 leaks, potential safety hazards can occur. Through setting up the detection subassembly 6 that leaks, when the rope 61 that leaks detected water, two strands of induction line short circuits of the rope 61 that leaks, and then audible-visual annunciator 62 switches on, sends audible-visual annunciator signal to the external world, and then the suggestion staff in time looks over the maintenance.

Although some specific embodiments of the present invention have been described in detail by way of example, it should be understood by those skilled in the art that the above examples are for illustration only and are not intended to limit the scope of the invention. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the invention. The scope of the invention is defined by the appended claims.

Claims (6)

1. The utility model provides a ground heat radiation structure of computer lab, includes computer lab terrace (1), its characterized in that: an installation groove (11) is formed in the machine room terrace (1), and a plurality of cold water circulating pipes (2) are arranged in the installation groove (11); the supporting keel structure is characterized in that a plurality of supporting keels (4) arranged in parallel are arranged in the mounting groove (11), heat dissipation cover plates (5) are arranged on the upper portions of the supporting keels (4), heat dissipation holes (511) are formed in the heat dissipation cover plates (5), and the heat dissipation cover plates (5) are detachably connected with the supporting keels (4).

2. The ground heat dissipation structure of machine room of claim 1, wherein: a plurality of negative pressure fans (3) are arranged in the mounting groove (11).

3. The ground heat dissipation structure of machine room of claim 1, wherein: the heat dissipation cover plate (5) comprises a box-shaped cover body (51), and a transverse supporting rib plate (52) and a longitudinal supporting rib plate (53) which are fixed on the back surface of the cover body (51).

4. The ground heat dissipation structure of machine room of claim 1, wherein: the supporting keel (4) is a rectangular square tube with a rectangular cross section, a plurality of threaded holes are formed in the supporting keel (4) along the length direction of the supporting keel, and the heat dissipation cover plate (5) is connected with the supporting keel (4) through the threaded holes in a bolt mode.

5. The ground heat dissipation structure of machine room of claim 1, wherein: and a rubber pad (41) is fixed on the upper part of the support keel (4).

6. The ground heat dissipation structure of machine room of claim 1, wherein: the water leakage detection device is characterized in that a water leakage detection assembly (6) is arranged in the mounting groove (11), and the water leakage detection assembly (6) comprises a water leakage rope (61) and an audible and visual alarm (62) connected with the water leakage rope (61).

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