CN212515696U - Quick heat abstractor of data acquisition server - Google Patents

Abstract

The utility model discloses a rapid heat dissipation device of a data acquisition server, relating to the technical field of heat dissipation; the quick heat dissipation device of the data acquisition server comprises a server body, wherein the server body is placed on a support box, an auxiliary box is fixed on one side of the support box, a bottom heat dissipation assembly and a side heat dissipation assembly are arranged in the auxiliary box, the bottom heat dissipation assembly and the side heat dissipation assembly are communicated with ventilation assemblies, the number of the ventilation assemblies is two, the two ventilation assemblies are symmetrically arranged in the auxiliary box, the support box can play a supporting role, and wind can be conveniently cooled through a cavity and a cooling chamber which are arranged in the support box, so that the heat dissipation efficiency is improved; in addition, through setting up end radiator unit and side radiator unit, can dispel the heat simultaneously to the bottom and the side of server body, improve radiating efficiency, have very good stability.

Description

Quick heat abstractor of data acquisition server

Technical Field

The utility model relates to a heat dissipation technical field specifically is a quick heat abstractor of data acquisition server.

Background

Data acquisition, also known as data acquisition, refers to the automatic acquisition of non-electrical or electrical signals from analog and digital units to be tested, such as sensors and other devices to be tested, and the transmission of the signals to an upper computer for analysis and processing. The data acquisition system is a flexible and user-defined measurement system implemented in conjunction with computer-based or other specialized test platform-based measurement software and hardware products.

The data acquisition server can generate certain heat during working, and if the heat is not radiated, the service life of the data acquisition server can be influenced; the existing heat dissipation mode mostly takes away heat on the data acquisition server through a fan, but the heat dissipation effect of the mode is poor, only one side can be cooled, and meanwhile, the temperature of wind generated by the fan is also high in summer, so that the heat dissipation effect is poor.

Disclosure of Invention

An object of the utility model is to provide a data acquisition server's quick heat abstractor solves above-mentioned problem.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a quick heat abstractor of data acquisition server, includes the server body, and the server body is placed on supporting box, and supporting box one side is fixed with the auxiliary box, is equipped with end radiator unit and side radiator unit in the auxiliary box, and end radiator unit and side radiator unit and ventilation unit intercommunication, ventilation unit's quantity are two, and the symmetry sets up in the auxiliary box.

In one alternative: the supporting box comprises a placing cavity, the server body is placed in the placing cavity, and a cavity and a cooling chamber are further arranged in the supporting box.

In one alternative: the cooling chamber is L-shaped and is respectively communicated with the liquid inlet and the liquid outlet.

In one alternative: the bottom heat dissipation assembly comprises a first ventilation pipe, one end of the first ventilation pipe is fixedly connected with the auxiliary box, the other end of the first ventilation pipe is inserted into the cooling chamber, the first ventilation pipe is communicated with the first air outlet in the cavity, and a ventilation hole is formed in the top of the cavity.

In one alternative: the side heat dissipation assembly comprises a second ventilation pipe, one end of the second ventilation pipe is fixed in the auxiliary box, the other end of the second ventilation pipe is inserted in the cooling chamber, a flow divider is arranged on the second ventilation pipe, and the flow divider is communicated with the second air outlet through a third ventilation pipe.

In one alternative: the ventilation assembly comprises a fixed box fixed on a fixed plate, a partition plate is fixed in the fixed box, a driving shaft is rotatably connected to the partition plate, and two ends of the driving shaft are fixedly connected with the fan blades and the output end of the motor respectively.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the supporting box can play a supporting role, and the cavity and the cooling chamber which are arranged in the supporting box are convenient for cooling air, so that the heat dissipation efficiency is improved; in addition, through setting up end radiator unit and side radiator unit, can dispel the heat simultaneously to the bottom and the side of server body, improve radiating efficiency, have very good stability.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the middle ventilation assembly of the present invention.

Fig. 3 is a schematic structural view of the middle support box of the present invention.

Notations for reference numerals: 01-server body, 02-supporting box, 03-auxiliary box, 04-bottom heat dissipation component, 05-side heat dissipation component, 06-ventilation component, 20-placing cavity, 21-cavity, 22-cooling chamber, 23-liquid inlet, 24-liquid outlet, 25-ventilation hole, 31-fixing plate, 41-first ventilation pipe, 42-first air outlet, 51-second ventilation pipe, 52-flow divider, 53-third ventilation pipe, 54-second air outlet, 61-fixing box, 62-partition plate, 63-driving shaft, 64-fan blade and 65-motor.

Detailed Description

The present invention will be described in detail with reference to the following embodiments, wherein like or similar elements are designated by like reference numerals throughout the drawings or description, and wherein the shape, thickness or height of the various elements may be expanded or reduced in practical applications. The embodiments of the present invention are provided only for illustration, and not for limiting the scope of the present invention. Any obvious and obvious modifications or alterations to the present invention can be made without departing from the spirit and scope of the present invention.

Example 1

Please refer to fig. 1-3, in an embodiment of the present invention, a fast heat dissipation apparatus for a data acquisition server, includes a server body 01, the server body 01 is placed on a support box 02, the support box 02 can support the server body 01, an auxiliary box 03 is fixed on one side of the support box 02, a bottom heat dissipation assembly 04 and a side heat dissipation assembly 05 are arranged in the auxiliary box 03, the bottom heat dissipation assembly 04 and the side heat dissipation assembly 05 can respectively dissipate heat from the bottom and the side of the server body 01, so as to improve the heat dissipation effect, and meanwhile, the structure is simple, and the operation is very convenient; in addition, end radiator unit 04 and side radiator unit 05 and ventilation unit 06 intercommunication can produce wind through ventilation unit 06, and is very simple, and ventilation unit 06's quantity is two, and the symmetry sets up in auxiliary tank 03, and end radiator unit 04 and side radiator unit 05 correspond a ventilation unit 06 respectively, have very good practicality.

Further, the supporting box 02 comprises a placing cavity 20, the server body 01 is placed in the placing cavity 20, and the placing of the server body 01 is facilitated through the placing cavity 20; in addition, still be equipped with cavity 21 and cooling chamber 22 in the supporting box 02, wherein cavity 21 conveniently dispels the heat to the bottom of server body 01, and cooling chamber 22 is used for cooling down wind, and then has improved the radiating efficiency.

Furthermore, the cooling chamber 22 is L-shaped, so that the bottom heat dissipation assembly 04 and the side heat dissipation assembly 05 can be conveniently cooled in the subsequent process, and the process is very simple; in addition, the cooling chamber 22 is respectively communicated with the liquid inlet 23 and the liquid outlet 24, cooling liquid can be conveniently added into the cooling chamber 22 through the liquid inlet 23, and the cooling liquid in the cooling chamber 22 can be conveniently discharged through the liquid outlet 24, so that the cooling liquid can be conveniently replaced.

Further, end radiator unit 04 includes first ventilation pipe 41, 41 one end of first ventilation pipe and auxiliary tank 03 fixed connection, the other end is inserted and is established in cooling chamber 22, the effect of refrigerated cooling can be played through the coolant liquid in cooling chamber 22 when wind flows in first ventilation pipe 41, has very good practicality and radiating effect, first ventilation pipe 41 communicates with the first air outlet 42 in the cavity 21, make cold wind in the first ventilation pipe 41 enter into the cavity 21 through first air outlet 42 in, and the top of cavity 21 is equipped with ventilation hole 25, cold wind enters into server body 01 bottom through ventilation hole 25, and then dispels the heat to server body 01 bottom.

Further, side radiator unit 05 includes second ventilation pipe 51, second ventilation pipe 51 one end is fixed in auxiliary tank 03, the other end is inserted and is established in cooling chamber 22, be equipped with shunt 52 on the second ventilation pipe 51 simultaneously, shunt 52 communicates with second air outlet 54 through third ventilation pipe 53, wind enters into shunt 52 through second ventilation pipe 51, then enter into second air outlet 54 through third ventilation pipe 53, and then cool off 01 side of server body, and is very simple, wind also can cool off when passing through cooling chamber 22, further the radiating efficiency has been improved.

The supporting box 02 can play a supporting role, and the cavity 21 and the cooling chamber 22 which are arranged in the supporting box 02 are used for conveniently cooling air, so that the heat dissipation efficiency is improved; in addition, through setting up end radiator unit 04 and side radiator unit 05, can dispel the heat simultaneously to the bottom and the side of server body 01, improved radiating efficiency.

Example 2

The ventilation assembly 06 comprises a fixed box 61 fixed on the fixed plate 31, a partition plate 62 is fixed in the fixed box 61, and a driving shaft 63 is rotatably connected to the partition plate 62, i.e. the driving shaft 63 can rotate on the partition plate 62, two ends of the driving shaft 63 are respectively fixedly connected with the output ends of the fan blades 64 and the motor 65, and when the motor 65 works, the driving shaft 63 can be driven to rotate, so as to drive the fan blades 64 to rotate; the wind generated by the rotation of the fan 64 enters the first ventilating duct 41 and the second ventilating duct 51, and then radiates heat to the bottom and the side.

The utility model discloses a theory of operation is: the server body 01 is placed on the placing cavity 20, then the motor 65 is started, the motor 65 works to drive the fan blades 64 to rotate, generated air enters the first ventilation pipe 41 and the second ventilation pipe 51, the air in the first ventilation pipe 41 enters the cavity 21 after being cooled, and then the bottom of the server body 01 is cooled; and the air in the second ventilation pipe 51 enters the second air outlet 54 through the third ventilation pipe 53, and then dissipates heat to the side of the server body 01.

The above description is only for the specific embodiments of the present disclosure, but the scope of the present disclosure is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present disclosure, and all the changes or substitutions should be covered within the scope of the present disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims (6)

1. The utility model provides a quick heat abstractor of data acquisition server, includes server body (01), its characterized in that, place on supporting box (02) server body (01), supporting box (02) one side is fixed with auxiliary box (03), is equipped with end radiator unit (04) and side radiator unit (05) in auxiliary box (03), and end radiator unit (04) and side radiator unit (05) and ventilation unit (06) intercommunication, the quantity of ventilation unit (06) is two, and the symmetry sets up in auxiliary box (03).

2. The rapid heat dissipation device of a data acquisition server according to claim 1, wherein the support box (02) comprises a placement cavity (20), the server body (01) is placed in the placement cavity (20), and a cavity (21) and a cooling chamber (22) are further provided in the support box (02).

3. The rapid heat dissipation device of a data acquisition server as claimed in claim 2, wherein the cooling chamber (22) is L-shaped, and the cooling chamber (22) is respectively communicated with the liquid inlet (23) and the liquid outlet (24).

4. The rapid heat dissipation device of a data acquisition server as claimed in claim 1, wherein the bottom heat dissipation assembly (04) comprises a first ventilation pipe (41), one end of the first ventilation pipe (41) is fixedly connected with the auxiliary box (03), the other end of the first ventilation pipe is inserted into the cooling chamber (22), the first ventilation pipe (41) is communicated with a first air outlet (42) in the cavity (21), and a ventilation hole (25) is formed in the top of the cavity (21).

5. The rapid heat dissipation device of a data acquisition server according to claim 1, wherein the side heat dissipation assembly (05) comprises a second ventilation pipe (51), one end of the second ventilation pipe (51) is fixed in the auxiliary box (03), the other end of the second ventilation pipe is inserted into the cooling chamber (22), a flow divider (52) is arranged on the second ventilation pipe (51), and the flow divider (52) is communicated with the second air outlet (54) through a third ventilation pipe (53).

6. The rapid heat dissipation device of a data acquisition server as claimed in claim 1, wherein the ventilation assembly (06) comprises a fixing box (61) fixed on the fixing plate (31), a partition plate (62) is fixed in the fixing box (61), a driving shaft (63) is rotatably connected to the partition plate (62), and two ends of the driving shaft (63) are respectively fixedly connected to the fan blades (64) and the output end of the motor (65).

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