CN220962344U - Information technology service equipment - Google Patents

Abstract

The utility model relates to the technical field of information technology service, and discloses information technology service equipment, which comprises a computer server; the computer server is provided with a heat radiation opening, a heat radiation cover is arranged at the heat radiation opening, a heat radiation cavity communicated with the heat radiation opening is arranged in the heat radiation cover, a heat radiation hole communicated with the heat radiation cavity is arranged at the outer side of the heat radiation cover, an overflow box is arranged at one side of the heat radiation cover far away from the computer server, a fan part which rotates to penetrate through the heat radiation cover and stretches into the heat radiation cavity is arranged in the overflow box in a rotating mode, a water tank is arranged at the bottom of the heat radiation cover, and a circulating part communicated with the overflow box is arranged on the water tank. The utility model provides information technology service equipment, which solves the problem that a computer server generates a large amount of heat when working for a long time, and the heat dissipation effect is poor when in use because the heat dissipation area of the computer server is limited.

Description

Information technology service equipment

Technical Field

The present utility model relates to the field of information technology services, and in particular, to an information technology service device.

Background

A computer server is a device dedicated to providing information technology services, and functions to process, store and transmit data, provide various computing and communication functions for users, and is commonly used for constructing and maintaining network services, such as website hosting, email service, database management, and is commonly placed in a data center or a machine room in a use environment, and the places have proper temperature, humidity and power supply environments to ensure the normal operation of the computer server;

However, the computer server generates a large amount of heat when it is operated for a long time, which causes a problem that the heat dissipation effect is poor when the computer server is used because the heat dissipation area of the computer server is limited.

In order to solve the above problems, the present application proposes an information technology service apparatus.

Disclosure of utility model

Based on the technical problems in the background technology, the utility model provides information technology service equipment.

The utility model provides information technology service equipment, which comprises a computer server;

The computer server is provided with a heat radiation opening, a heat radiation cover is arranged at the heat radiation opening, a heat radiation cavity communicated with the heat radiation opening is arranged in the heat radiation cover, a heat radiation hole communicated with the heat radiation cavity is arranged at the outer side of the heat radiation cover, an overflow box is arranged at one side of the heat radiation cover far away from the computer server, a fan part which rotates to pass through the heat radiation cover and stretches into the heat radiation cavity is rotatably arranged in the overflow box, a water tank is arranged at the bottom of the heat radiation cover, and a circulating part communicated with the overflow box is arranged on the water tank;

And a radiating fin penetrating through the radiating cavity and the radiating opening and extending into the computer server is arranged in the overcurrent box.

Preferably, the fan comprises a rotating rod and an axial flow fan, wherein the rotating rod is arranged in the overcurrent box, one end of the rotating rod is rotationally connected with the inner wall of one side of the overcurrent box, which is close to the heat dissipation cover, the other end of the rotating rod rotationally penetrates through the heat dissipation cover and stretches into the heat dissipation cavity, the number of the axial flow fans is two, and the two axial flow fans are fixedly sleeved on the rotating rod and are respectively positioned in the heat dissipation cavity and the overcurrent box.

Preferably, the circulating piece comprises a first water pump, a first circulating pipe, a second water pump and a second circulating pipe, wherein the first water pump and the second water pump are both arranged at the bottom of the overflow box and are communicated with each other, the first circulating pipe is connected with the water outlet end of the first water pump, one end of the first circulating pipe, which is far away from the first water pump, is communicated with the water tank, the second circulating pipe is connected with the water inlet end of the second water pump, and one end of the second circulating pipe, which is far away from the second water pump, is communicated with the water tank.

Preferably, a dustproof net is connected in the radiating hole formed in the radiating cover.

Preferably, the top and bottom of the water tank are respectively connected with a water inlet pipe and a water outlet pipe which are communicated with the water tank, and the water inlet pipe and the water outlet pipe are respectively provided with a valve body.

The technical scheme of the utility model has the following beneficial technical effects:

Through fan spare, circulation spare, the fin that sets up, the accessible circulation spare is with the water in the water tank reciprocating cycle between overflow box and water tank, under the effect of rivers, can drive fan spare rotation, thereby the speed of heat exhaust in the computer server, the hot-blast hole department that sets up on the cover that looses of the intraductal exhaust of computer, and the heat on the components and parts in the computer server is absorbed to the accessible fin, because the one end of fin is arranged in the overflow box, under the effect of rivers, the heat on the fin can be absorbed, further improve the radiating effect of computer server, this structure can increase the air flow through the rotation of fan spare, further promote the heat dissipation, the use of fin can absorb the heat on the components and parts in the computer server, effectively reduce equipment temperature, the radiating effect is improved.

Drawings

Fig. 1 is a schematic structural diagram of an information technology service device according to the present utility model.

Fig. 2 is a schematic diagram of a partial top view structure of a heat dissipation cover and an overflow box in an information technology service device according to the present utility model.

Description of the embodiments

The objects, technical solutions and advantages of the present utility model will become more apparent by the following detailed description of the present utility model with reference to the accompanying drawings. It should be understood that the description is only illustrative and is not intended to limit the scope of the utility model. In addition, in the following description, descriptions of well-known structures and techniques are omitted so as not to unnecessarily obscure the present utility model.

As shown in fig. 1 and 2, the information technology service device provided by the utility model comprises a computer server 1;

In this embodiment, a heat dissipation port is formed on the computer server 1, a heat dissipation cover 2 is mounted at the heat dissipation port, a heat dissipation cavity communicated with the heat dissipation port is formed in the heat dissipation cover 2, a heat dissipation hole communicated with the heat dissipation cavity is formed in the outer side of the heat dissipation cover 2, an overcurrent box 3 is mounted on one side, far away from the computer server 1, of the heat dissipation cover 2, and a fan 4 which rotates to pass through the heat dissipation cover 2 and stretches into the heat dissipation cavity is rotatably mounted in the overcurrent box 3. The fan 4 comprises a rotating rod 41 and two axial fans 42, the rotating rod 41 is arranged in the overcurrent box 3, one end of the rotating rod 41 is rotationally connected with the inner wall of one side of the overcurrent box 3, which is close to the heat radiation cover 2, the other end of the rotating rod 41 is rotationally penetrated through the heat radiation cover 2 and stretches into the heat radiation cavity, the number of the two axial fans 42 is two, and the two axial fans 42 are fixedly sleeved on the rotating rod 41 and are respectively positioned in the heat radiation cavity and the overcurrent box 3.

In this embodiment, a water tank 5 is mounted at the bottom of the radiator cover 2, and a circulating member 6 communicating with the overflow tank 3 is mounted on the water tank 5. The circulation member 6 includes a first water pump 61, a first circulation pipe 62, a second water pump 63, and a second circulation pipe 64, the first water pump 61 and the second water pump 63 are both installed at the bottom of the overflow tank 3 and are communicated with each other, the first circulation pipe 62 is connected to the water outlet end of the first water pump 61, one end of the first circulation pipe 62 away from the first water pump 61 is communicated with the water tank 5, the second circulation pipe 64 is connected to the water inlet end of the second water pump 63, and one end of the second circulation pipe 64 away from the second water pump 63 is communicated with the water tank 5.

In this embodiment, the cooling fin 7 penetrating through the cooling cavity and the cooling port and extending into the computer server 1 is installed in the overcurrent box 3. The heat sink 7 can be connected with components in the computer server 1, and when the components generate heat, the corresponding heat can be conducted to the heat sink 7.

It should be noted that:

In order to improve the heat dissipation effect of the computer server 1, the water in the water tank 5 can be led into the overflow box 3 along the first circulating pipe 62 by the first water pump 61, under the action of the second water pump 63, the water entering into the overflow box 3 can flow back into the water tank 5 along the second circulating pipe 64 to form reciprocating circulation, when the water flows on the axial flow fan 42 arranged in the overflow box 3, the rotating rod 41 can be driven to rotate, the axial flow fan 42 arranged in the heat dissipation cover 2 can also rotate, so that the heat dissipation speed in the computer server 1 can be accelerated, the hot air exhausted in the computer server 1 can be exhausted from the heat dissipation holes formed in the heat dissipation cover 2, and the heat on the components in the computer server 1 can be absorbed by the heat dissipation sheet 7.

In a specific embodiment, a dust screen 8 is connected in a heat dissipation hole formed in the heat dissipation cover 2. Dust in the air can be intercepted by the dust screen 8.

In the specific embodiment, the top end and the bottom end of the water tank 5 are respectively connected with a water inlet pipe 9 and a water outlet pipe 10 which are communicated with the water tank, and valve bodies are arranged on the water inlet pipe 9 and the water outlet pipe 10. The water can be guided into the water tank 5 through the water inlet pipe 9, and the water in the water tank 5 can be conveniently discharged through the water outlet pipe 10.

It is to be understood that the above-described embodiments of the present utility model are merely illustrative of or explanation of the principles of the present utility model and are in no way limiting of the utility model. Accordingly, any modification, equivalent replacement, improvement, etc. made without departing from the spirit and scope of the present utility model should be included in the scope of the present utility model. Furthermore, the appended claims are intended to cover all such changes and modifications that fall within the scope and boundary of the appended claims, or equivalents of such scope and boundary.

Claims (5)

1. An information technology service device comprising a computer server (1), characterized in that:

The computer server (1) is provided with a heat radiation opening, a heat radiation cover (2) is arranged at the heat radiation opening, a heat radiation cavity communicated with the heat radiation opening is arranged in the heat radiation cover (2), a heat radiation hole communicated with the heat radiation cavity is arranged at the outer side of the heat radiation cover (2), one side, far away from the computer server (1), of the heat radiation cover (2) is provided with an overflow box (3), a fan (4) which rotates to penetrate through the heat radiation cover (2) and stretches into the heat radiation cavity is rotatably arranged in the overflow box (3), a water tank (5) is arranged at the bottom of the heat radiation cover (2), and a circulating piece (6) communicated with the overflow box (3) is arranged on the water tank (5);

And a cooling fin (7) penetrating through the cooling cavity and the cooling opening and extending into the computer server (1) is arranged in the overcurrent box (3).

2. An information technology service device according to claim 1, wherein the fan (4) comprises a rotating rod (41) and an axial flow fan (42), the rotating rod (41) is arranged in the overflow box (3), one end of the rotating rod (41) is rotatably connected with the inner wall of one side of the overflow box (3) close to the heat dissipation cover (2), the other end of the rotating rod (41) rotates to penetrate through the heat dissipation cover (2) and extend into the heat dissipation cavity, the number of the axial flow fans (42) is two, and the two axial flow fans (42) are fixedly sleeved on the rotating rod (41) and are respectively positioned in the heat dissipation cavity and the overflow box (3).

3. An information technology service device according to claim 2, characterized in that the circulating member (6) comprises a first water pump (61), a first circulating pipe (62), a second water pump (63) and a second circulating pipe (64), the first water pump (61) and the second water pump (63) are both installed at the bottom of the overflow tank (3) and are communicated with each other, the first circulating pipe (62) is connected to the water outlet end of the first water pump (61), one end of the first circulating pipe (62) away from the first water pump (61) is communicated with the water tank (5), the second circulating pipe (64) is connected to the water inlet end of the second water pump (63), and one end of the second circulating pipe (64) away from the second water pump (63) is communicated with the water tank (5).

4. An information technology service device according to claim 3, characterized in that the heat radiation hole formed on the heat radiation cover (2) is connected with a dust screen (8).

5. An information technology service device according to claim 1, characterized in that the top and bottom ends of the water tank (5) are respectively connected with a water inlet pipe (9) and a water outlet pipe (10) which are communicated with the water tank, and the water inlet pipe (9) and the water outlet pipe (10) are respectively provided with a valve body.