CN111885896B - Server cabinet temperature monitoring system - Google Patents

Abstract

The invention discloses a server cabinet temperature monitoring system which comprises a cabinet main body, wherein an installation cavity is arranged at the upper part of the cabinet main body, a heat dissipation cavity is arranged at the lower part of the cabinet main body, a vertical cabinet main shaft is rotatably matched in the cabinet main body positioned in the installation cavity, a plurality of groups of server base mechanisms are hierarchically arranged on the side wall of the cabinet main shaft from top to bottom, and each group of server base mechanisms comprises a plurality of server supports which are arranged at intervals in the circumferential direction of the cabinet main shaft; the top of rack main part is provided with the cooling tower, the inside of cooling tower is provided with the water pump, and the play water end of water pump is connected with the one end of copper coil pipe, and the copper coil pipe setting is on the inside right side of rack main part, and the other end of copper coil pipe is connected with the connecting pipe, and the upper end of connecting pipe extends to the inside of rack main part. The invention has reasonable structure, ingenious design and reasonable heat dissipation method, can effectively dissipate heat, combines air cooling and water cooling, has good heat dissipation effect and low cost, and is suitable for popularization and use.

Description

Server cabinet temperature monitoring system

Technical Field

The invention belongs to the technical field of server cabinet temperature monitoring, and particularly relates to a server cabinet temperature monitoring system.

Background

A server is one of computers that runs faster, is more heavily loaded, and is more expensive than a regular computer. The server provides calculation or application services for other clients (such as terminals like PC, smart phone, ATM and the like and even large equipment like train systems and the like) in the network. The server has high-speed CPU computing capability, long-time reliable operation, strong I/O external data throughput capability and better expansibility. Generally, a server has the capability of responding to a service request, supporting a service, and guaranteeing the service according to the service provided by the server. The server is used as an electronic device, and the internal structure of the server is very complex, but the difference with the internal structure of a common computer is not great, such as: cpu, hard disk, memory, system bus, etc.

The existing server has a complex internal structure, has expandability, has a large hardware quantity, and causes serious heating, generally adopts an air cooling or water cooling or air cooling and water cooling mode to dissipate heat, but does not have good matching, so that the heat dissipation is uneven, for example, the upper part of the server generates heat more seriously, the heat dissipation should be emphasized on the upper part of the server, and the temperature of the upper part of the server is aggravated when the heat rises; therefore, the invention provides a server cabinet temperature monitoring system.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention aims to provide a server cabinet temperature monitoring system, which solves the technical problem that the server cabinet in the prior art generates heat seriously

In order to achieve the above object, the present invention adopts the following technical solutions:

a server cabinet temperature monitoring system comprises a cabinet main body, wherein an installation cavity is arranged at the upper part of the cabinet main body, a heat dissipation cavity is arranged at the lower part of the cabinet main body, a vertical cabinet main shaft is rotatably matched in the cabinet main body in the installation cavity, a plurality of groups of server base mechanisms are hierarchically arranged on the side wall of the cabinet main shaft from top to bottom, and each group of server base mechanisms comprises a plurality of server supports which are arranged at intervals in the circumferential direction of the cabinet main shaft;

the top of rack main part is provided with the cooling tower, the inside of cooling tower is provided with the water pump, the play water end of water pump is connected with the one end of copper coil pipe, and the copper coil pipe setting is on the inside right side of rack main part, the other end of copper coil pipe is connected with the connecting pipe, and the upper end of connecting pipe extends to the inside of rack main part.

Preferably, the server support comprises a server base and a connecting rod, one end of the connecting rod is fixedly matched with the outer wall of the cabinet main shaft, and the other end of the connecting rod is fixedly matched with the server base.

Preferably, one end of the connecting rod is fixed in a mounting groove formed in the outer wall of the cabinet main shaft, and the connecting rod is fixed on the inner wall of the mounting groove through a bolt.

Preferably, a first pipeline is arranged at the top of the cooling tower, a second pipeline is arranged in the middle of the right side of the cooling tower, and a third pipeline is arranged at the lower part of the right side of the cooling tower.

Preferably, a temperature sensor is installed on the lower portion of the left side wall of the cooling tower, and a liquid level sensor is installed on the upper portion of the left side wall of the cooling tower.

Preferably, still including setting up the controller in the rack main part, install first solenoid valve on the first pipeline, install the second solenoid valve on the second pipeline, install the butterfly valve on the third pipeline, singlechip in the controller is connected with first solenoid valve, second solenoid valve, level sensor and temperature sensor.

Preferably, a heat dissipation seat is arranged inside the cabinet main body in the heat dissipation cavity, a heat dissipation fan is installed at the top of the heat dissipation seat, a heat dissipation opening is formed in the shell between the heat dissipation cavity and the installation cavity, and a dustproof net is installed on the heat dissipation opening.

Preferably, the front surface of the cabinet body positioned outside the heat dissipation cavity is provided with an exhaust opening part, and the exhaust opening part is provided with a filter screen.

The invention has the following beneficial effects:

the side wall of the cabinet main shaft is hierarchically provided with a plurality of groups of server base mechanisms from top to bottom, each group of server base mechanisms comprises a plurality of server supports which are arranged at intervals in the circumferential direction of the cabinet main shaft, when a product to be tested is put in, the product can be easily put in the server base by only rotating the cabinet main shaft, the product can be taken out similarly, hardware on each server base can be taken down only by rotating the cabinet main shaft, the operation is very convenient, when the product is heated, a large amount of waste heat is left in the cabinet main body, a water pump is operated at the moment, cold water in the cooling tower circulates to the inside of the cabinet main body, heat in the box body is absorbed into water through a copper coil, so that the heat recovery is completed, the energy conservation is realized, hot water can be used by the outside, a heat dissipation fan is opened, when the heat dissipation fan operates, suction is generated, and heat at the lower position in the installation cavity is absorbed into the heat dissipation cavity, the heat dissipation fan is reasonable in structure, ingenious in design and reasonable in heat dissipation method, can effectively dissipate heat, combines air cooling and water cooling, is good in heat dissipation effect and low in cost, and is suitable for popularization and use.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a front view of the present invention.

The meaning of the reference symbols in the figures: a cabinet main body 1; a cabinet main shaft 2; a cabinet door 3; a connecting rod 4; a server base 5; a cooling tower 6; a copper coil 7; a connecting pipe 8; a water pump 9; a liquid level sensor 10; a temperature sensor 11; a first pipe 12; a first electromagnetic valve 13; a second duct 14; a second electromagnetic valve 15; a third conduit 16; a butterfly valve 17; a dust screen 18; a heat radiation fan 19; and a heat sink 20.

Detailed Description

The invention is further described below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1-3, the embodiment discloses a server cabinet temperature monitoring system, which includes a cabinet main body 1, wherein an installation cavity is arranged at the upper part of the cabinet main body 1, a heat dissipation cavity is arranged at the lower part of the cabinet main body 1, a vertical cabinet main shaft 2 is rotatably matched inside the cabinet main body 1 located in the installation cavity, a plurality of groups of server base mechanisms are hierarchically arranged on the side wall of the cabinet main shaft 2 from top to bottom, and each group of server base mechanisms includes a plurality of server supports arranged at intervals in the circumferential direction of the cabinet main shaft 2;

the top of rack main part 1 is provided with cooling tower 6, the inside of cooling tower 6 is provided with water pump 9, the play water end of water pump 9 is connected with the one end of copper coil pipe 7, and copper coil pipe 7 sets up the inside right side at rack main part 1, the other end of copper coil pipe 7 is connected with connecting pipe 8, and the upper end of connecting pipe 8 extends to the inside of rack main part 1.

In this embodiment, it should be noted that the server support includes a server base 5 and a connecting rod 4, one end of the connecting rod 4 is fixedly matched with the outer wall of the cabinet main shaft 2, and the other end of the connecting rod 4 is fixedly matched with the server base 5.

In this embodiment, it should be noted that one end of the connecting rod 4 is fixed in the installation groove 201 formed in the outer wall of the cabinet main shaft 2, and the connecting rod 4 is fixed on the inner wall of the installation groove 201 through the bolt 401.

In this embodiment, a first pipeline 12 is disposed at the top of the cooling tower 6, a second pipeline 14 is disposed at the right middle portion of the cooling tower 6, and a third pipeline 16 is disposed at the right lower portion of the cooling tower 6.

In the present embodiment, a temperature sensor 11 is mounted on a lower portion of a left side wall of the cooling tower 6, and a liquid level sensor 10 is mounted on an upper portion of the left side wall of the cooling tower 6.

In this embodiment, it should be noted that the water supply system further includes a controller disposed on the cabinet main body 1, the first pipeline 12 is provided with a first electromagnetic valve 13, the second pipeline 14 is provided with a second electromagnetic valve 15, the third pipeline 16 is provided with a butterfly valve 17, a single chip microcomputer in the controller is connected to the first electromagnetic valve 13, the second electromagnetic valve 15, the liquid level sensor 10 and the temperature sensor 11, when the temperature sensor 11 detects that the water temperature reaches a preset value, the second electromagnetic valve 15 is opened to discharge the hot water, when the liquid level sensor 10 detects that the water level is low, the first electromagnetic valve 13 is opened, and the water is supplied through the water inlet pipe 12, the control circuit is the prior common knowledge, and detailed descriptions of the specific circuit and the control method are omitted here.

In this embodiment, it should be noted that a heat dissipation seat 20 is installed inside the cabinet main body 1 located in the heat dissipation cavity, a heat dissipation fan 19 is installed at the top of the heat dissipation seat 20, a heat dissipation opening portion is provided on the casing between the heat dissipation cavity and the installation cavity, and a dust screen 18 is installed on the heat dissipation opening portion.

In this embodiment, it should be noted that, the cabinet main body 1 located outside the heat dissipation cavity is provided with an exhaust opening portion on the front side, a filter screen is installed on the exhaust opening portion, and the cabinet main body 1 located outside the installation cavity is hinged to a cabinet door 3 on the front side.

In the scheme of the embodiment of the invention, a plurality of groups of server base mechanisms are hierarchically arranged from top to bottom through the side wall of the main cabinet shaft 2, each group of server base mechanisms comprises a plurality of server supports which are arranged at intervals in the circumferential direction of the main cabinet shaft 2, when a product to be tested is put in, the product can be easily put in the server base 5 only by rotating the main cabinet shaft 2, the product can be taken out similarly, hardware on each server base 5 can be taken off only by rotating the main cabinet shaft 2, the operation of the water pump 9 is very convenient, when the product is heated up, a large amount of waste heat is left in the main cabinet body 1, at the moment, cold water in the cooling tower 6 is circulated to the inside of the main cabinet body 1, heat in the box body is absorbed into water through the copper coil 7, so that the heat recovery is completed, the energy conservation is realized, and hot water can be used by the outside, when the heat dissipation fan 19 is turned on, when the heat dissipation fan 19 operates, suction force is generated, heat at the lower position inside the installation cavity is sucked into the heat dissipation cavity and then discharged through the filter screen, the heat at the lower part of the server can be sucked away by the heat dissipation fan 19, and heat in the server is prevented from being accumulated at the upper part of the server, so that the server is effectively protected, and the server is prevented from being damaged by high temperature.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (8)

1. A server cabinet temperature monitoring system comprises a cabinet main body (1) and is characterized in that an installation cavity is formed in the upper portion of the cabinet main body (1), a heat dissipation cavity is formed in the lower portion of the cabinet main body (1), a vertical cabinet main shaft (2) is rotatably matched in the cabinet main body (1) in the installation cavity, a plurality of groups of server base mechanisms are hierarchically arranged on the side wall of the cabinet main shaft (2) from top to bottom, and each group of server base mechanisms comprise a plurality of server supports which are arranged in the circumferential direction of the cabinet main shaft (2) at intervals;

the top of rack main part (1) is provided with cooling tower (6), the inside of cooling tower (6) is provided with water pump (9), the play water end of water pump (9) is connected with the one end of copper coil pipe (7), and copper coil pipe (7) set up the inside right side in rack main part (1), the other end of copper coil pipe (7) is connected with connecting pipe (8), and the upper end of connecting pipe (8) extends to the inside of rack main part (1).

2. The server cabinet temperature monitoring system according to claim 1, wherein the server bracket comprises a server base (5) and a connecting rod (4), one end of the connecting rod (4) is fixedly matched with the outer wall of the cabinet main shaft (2), and the other end of the connecting rod (4) is fixedly matched with the server base (5).

3. The server cabinet temperature monitoring system according to claim 2, wherein one end of the connecting rod (4) is fixed in a mounting groove (201) formed in the outer wall of the cabinet main shaft (2), and the connecting rod (4) is fixed on the inner wall of the mounting groove (201) through a bolt (401).

4. The server cabinet temperature monitoring system according to claim 3, wherein a first pipeline (12) is arranged at the top of the cooling tower (6), a second pipeline (14) is arranged in the middle of the right side of the cooling tower (6), and a third pipeline (16) is arranged at the lower part of the right side of the cooling tower (6).

5. The server cabinet temperature monitoring system according to claim 4, wherein a temperature sensor (11) is installed on a lower portion of a left side wall of the cooling tower (6), and a liquid level sensor (10) is installed on an upper portion of the left side wall of the cooling tower (6).

6. The server cabinet temperature monitoring system according to claim 5, further comprising a controller arranged on the cabinet main body (1), wherein a first solenoid valve (13) is installed on the first pipeline (12), a second solenoid valve (15) is installed on the second pipeline (14), a butterfly valve (17) is installed on the third pipeline (16), and a single chip microcomputer in the controller is connected with the first solenoid valve (13), the second solenoid valve (15), the liquid level sensor (10) and the temperature sensor (11).

7. The server cabinet temperature monitoring system according to any one of claims 1-6, wherein a heat dissipation seat (20) is installed inside the cabinet main body (1) in the heat dissipation cavity, a heat dissipation fan (19) is installed on the top of the heat dissipation seat (20), a heat dissipation opening portion is provided on the casing between the heat dissipation cavity and the installation cavity, and a dust screen (18) is installed on the heat dissipation opening portion.

8. The server cabinet temperature monitoring system according to claim 7, wherein an exhaust opening is formed in the front surface of the cabinet body (1) outside the heat dissipation cavity, and a filter screen is installed on the exhaust opening.

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