CN220323856U - Conduction oil cooling box for server cooling system - Google Patents

Abstract

The utility model discloses a heat conduction oil cooling box for a server cooling system, which comprises a box body, a heat exchange mechanism, a cooling fan and a sprayer, wherein the box body is provided with a heat exchange mechanism; air inlets are arranged at two sides of the box body; the heat exchange mechanism is arranged in the box body and comprises two groups of heat exchange assemblies which are arranged in a V shape and are respectively arranged at the inner sides of the air inlets at two sides, each group of heat exchange assemblies comprises heat exchange tubes and radiating fins distributed outside the heat exchange tubes, one ends of the heat exchange tubes of the two groups of heat exchange assemblies are connected through first connecting tubes, a first interface is arranged on each first connecting tube, the other ends of the heat exchange tubes of the two groups of heat exchange assemblies are connected through second connecting tubes, and the second interfaces are arranged on the second connecting tubes; the heat dissipation fan is arranged at the top of the box body and is positioned right above the heat exchange component; the inner sides of the air inlets at two sides of the box body are provided with sprayers facing the heat exchange mechanism. The cooling effect of the circulating heat conduction oil on the server is good, and the cooling effect of the circulating heat conduction oil on the server can be ensured.

Description

Conduction oil cooling box for server cooling system

Technical Field

The utility model relates to the technical field of server cooling, in particular to a heat conduction oil cooling box for a server cooling system.

Background

In order to ensure the normal and stable operation of the server, the server needs to be cooled and radiated, and with the development of the fields of big data, cloud computing and the like, the operation processing capacity of the server is continuously improved, the corresponding equipment single board power is higher and higher, and the heating of the server is also serious during the operation of the server, so that the cooling and radiating requirements of the server are higher and higher.

The liquid cooling heat dissipation device has strong heat dissipation capacity, is gradually applied in the field of server heat dissipation, adopts non-electric conduction heat conduction oil as working medium heat dissipation, can submerge a heating device in the heat conduction oil, and circulates the heat conduction oil so as to take away the heat of the heating device (for example, a part of submerged liquid cooling server cooling system disclosed in Chinese patent No. 206312061U), and the heat conduction oil needs to be dissipated through a radiator in the circulating process of the heat conduction oil.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model provides the heat conduction oil cooling box for the server cooling system, which has a good cooling effect on the heat conduction oil and can ensure the cooling effect of the circulating heat conduction oil on the server.

The utility model provides a conduction oil cooling box for a server cooling system, which comprises the following components:

the box body is provided with air inlets at two sides;

the heat exchange mechanism is arranged in the box body and comprises two groups of heat exchange assemblies which are arranged in a V shape and are respectively arranged at the inner sides of air inlets at two sides, each group of heat exchange assemblies comprises heat exchange tubes and radiating fins distributed outside the heat exchange tubes, one ends of the heat exchange tubes of the two groups of heat exchange assemblies are connected through a first connecting tube, a first interface is arranged on the first connecting tube, the other ends of the heat exchange tubes of the two groups of heat exchange assemblies are connected through a second connecting tube, and a second interface is arranged on the second connecting tube;

the cooling fan is arranged at the top of the box body and is positioned right above the heat exchange assembly;

and the inner sides of the air inlets at two sides of the box body are respectively provided with the sprayer facing the heat exchange mechanism.

Further, dust screens are arranged at the air inlets at two sides of the box body.

Further, both ends of the heat exchange mechanism are provided with end sealing plates which are blocked between the two groups of heat exchange assemblies.

Further, the sprayer of each side includes at least one set of spray assemblies including a spray tube extending along a length of the tank and a plurality of spray heads disposed on the spray tube.

Further, the sprayer on each side includes two sets of spray assemblies disposed at different heights.

Further, the box body is of a cuboid structure, and two radiating fans are distributed at the top of the box body along the length direction.

Further, the two sides of the top of the box body are provided with sun shield plates extending outwards.

Further, the four corners at the top of the box body are provided with hanging rings.

The beneficial effects of the utility model are as follows:

during operation, heat conduction oil after cooling the server is introduced into the heat exchange tube through the first interface, after cooling through the heat exchange tube, the second interface is discharged again, when cooling oil passes through the heat exchange tube, the atomizer of both sides sprays water to two heat exchange assemblies respectively, radiator fan upwards exhausts, outside air gets into the box through the air intake of both sides respectively, and blow the heat exchange assembly to both sides respectively, then get into between two sets of heat exchange assemblies, finally discharge through radiator fan, the in-process that the air blown through the heat exchange assembly, atomizer spun water smoke evaporation can take away a large amount of heat, thereby cool off a lower temperature with the heat conduction oil through the heat exchange tube, therefore its cooling effect to the heat conduction oil is better, can ensure the cooling effect of circulation heat conduction oil to the server.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a perspective view of an embodiment of the present utility model;

FIG. 2 is a front view of an embodiment of the present utility model;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

fig. 4 is a schematic view of a case according to an embodiment of the present utility model when a side end sealing plate is hidden.

In the drawing, a box body is 100 percent; 110-an air inlet; 111-dustproof net; 200-a heat exchange mechanism; 210-a heat exchange assembly; 211-heat exchange tubes; 212-radiating fins; 220-a first connection tube; 221-a first interface; 230-a second connection tube; 231-a second interface; 240-end sealing plates; 300-a heat dissipation fan; 400 sprayers; 410-a spray assembly; 411-shower; 412-spray head; 500-sunshading board; 600-hanging ring.

Detailed Description

Embodiments of the technical scheme of the present utility model will be described in detail below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present utility model, and thus are merely examples, and are not intended to limit the scope of the present utility model.

It is noted that unless otherwise indicated, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this utility model pertains.

As shown in fig. 1 to 4, an embodiment of the present utility model provides a conduction oil cooling tank for a server cooling system, including a tank body 100, a heat exchanging mechanism 200, a heat dissipating fan 300, and a sprayer 400.

The two sides of the box body 100 are provided with air inlets 110, and in order to reduce dust and sundries in the outside air from being sucked into the box body 100 from the air inlets 110, dust-proof nets 111 are arranged at the air inlets 110 at the two sides of the box body 100.

Referring to fig. 3 and 4, the heat exchange mechanism 200 is disposed in the box 100, the heat exchange mechanism 200 includes two groups of heat exchange assemblies 210 disposed in V-shape and disposed inside the air inlets 110 on two sides respectively, each group of heat exchange assemblies 210 includes a heat exchange tube 211 and heat dissipation fins 212 distributed outside the heat exchange tube 211, one ends of the heat exchange tubes 211 of the two groups of heat exchange assemblies 210 are connected through a first connection tube 220, a first interface 221 is disposed on the first connection tube 220, the other ends of the heat exchange tubes 211 of the two groups of heat exchange assemblies 210 are connected through a second connection tube 230, and a second interface 231 is disposed on the second connection tube 230.

Preferably, as shown in fig. 4, both ends of the heat exchange mechanism 200 are provided with end sealing plates 240 sealed between the two sets of heat exchange assemblies 210, so that air can be prevented from being sucked between the two sets of heat exchange assemblies 210 from both ends of the heat exchange mechanism 200, thereby increasing the air volume passing through the heat exchange assemblies 210.

The cooling fans 300 are disposed at the top of the box 100 and located directly above the heat exchange assembly 210, and in this embodiment, the box 100 has a rectangular parallelepiped structure, and in order to improve the air volume, two cooling fans 300 are disposed at the top of the box 100 along the length direction.

The inner sides of the air inlets 110 at both sides of the box 100 are provided with sprayers 400 facing the heat exchange mechanism 200, in this embodiment, each side of the sprayers 400 includes at least one set of spraying assemblies 410, as shown in fig. 4, the spraying assemblies 410 specifically include a spraying pipe 411 extending along the length direction of the box 100 and a plurality of spray heads 412 disposed on the spraying pipe 411, and preferably, each side of the sprayers 400 includes two sets of spraying assemblies 410 disposed at different heights.

The sprayer 400 in this embodiment can not only spray water to the heat exchange assembly 210 for cooling, but also control the water spray pressure of the sprayer 400 to automatically wash the dust on the heat exchange assembly 210.

In this embodiment, the both sides at box 100 top all are provided with outwardly extending sunshading board 500, and sunshading board 500 can shelter from sunshine and penetrate air intake 110 directly to effectively prevent that the sun from penetrating air intake 110 directly leads to the air temperature that inhales in box 100 too high and influence the cooling of conduction oil.

In this embodiment, four corners of the top of the box 100 are provided with hanging rings 600, so as to facilitate hanging the cooling box.

When the cooling box works, the heat conducting oil after cooling the server is introduced into the heat exchange tube 211 through the first interface 221, is discharged from the second interface 231 after being cooled by the heat exchange tube 211, when the cooling oil passes through the heat exchange tube 211, the sprayers 400 on two sides respectively spray water to the two heat exchange assemblies 210, the cooling fan 300 discharges upwards, the outside air respectively enters the box body 100 through the air inlets 110 on two sides and respectively blows into the heat exchange assemblies 210 on two sides, then enters between the two groups of heat exchange assemblies 210, and finally is discharged through the cooling fan 300, and a large amount of heat is taken away by the water mist evaporation sprayed by the sprayers 400 in the process of blowing the air through the heat exchange assemblies 210, so that the heat conducting oil passing through the heat exchange tube 211 is cooled to a lower temperature, the cooling effect of the heat conducting oil is relatively good, and the cooling effect of the circulating heat conducting oil on the server can be ensured.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model, and are intended to be included within the scope of the appended claims and description.

Claims (8)

1. A conduction oil cooling box for a server cooling system, comprising:

the box body is provided with air inlets at two sides;

the heat exchange mechanism is arranged in the box body and comprises two groups of heat exchange assemblies which are arranged in a V shape and are respectively arranged at the inner sides of air inlets at two sides, each group of heat exchange assemblies comprises heat exchange tubes and radiating fins distributed outside the heat exchange tubes, one ends of the heat exchange tubes of the two groups of heat exchange assemblies are connected through a first connecting tube, a first interface is arranged on the first connecting tube, the other ends of the heat exchange tubes of the two groups of heat exchange assemblies are connected through a second connecting tube, and a second interface is arranged on the second connecting tube;

the cooling fan is arranged at the top of the box body and is positioned right above the heat exchange assembly;

and the inner sides of the air inlets at two sides of the box body are respectively provided with the sprayer facing the heat exchange mechanism.

2. The conduction oil cooling tank for a server cooling system according to claim 1, wherein,

the air inlets on two sides of the box body are provided with dustproof nets.

3. The conduction oil cooling tank for a server cooling system according to claim 1, wherein,

and two ends of the heat exchange mechanism are provided with end sealing plates which are blocked between the two groups of heat exchange assemblies.

4. The conduction oil cooling tank for a server cooling system according to claim 1, wherein,

each side of the sprayer comprises at least one group of spraying components, and each spraying component comprises a spraying pipe extending along the length direction of the box body and a plurality of spray heads arranged on the spraying pipe.

5. The conduction oil cooling tank for a server cooling system according to claim 4, wherein,

the sprayers on each side comprise two sets of spray assemblies arranged at different heights.

6. The conduction oil cooling tank for a server cooling system according to claim 1, wherein,

the box is of a cuboid structure, and two radiating fans are distributed at the top of the box along the length direction.

7. The conduction oil cooling tank for a server cooling system according to claim 1, wherein,

both sides at the top of the box body are provided with outwardly extending sun-shading boards.

8. The conduction oil cooling tank for a server cooling system according to claim 1, wherein,

and hanging rings are arranged at four corners of the top of the box body.