CN212183990U - Self-circulation cooling type server cabinet structure - Google Patents

Abstract

The utility model belongs to the technical field of the rack, especially be a self-loopa cooling formula server rack structure, including the cabinet body, the inside of the cabinet body has the cavity, the inside of cavity is equipped with a plurality of fixed plates, the four corners of fixed plate all is fixedly connected with journal stirrup, the other end of four the journal stirrup is fixed respectively in the four corners of cavity, a plurality of the fixed plate passes through the journal stirrup and evenly fixes in the inner wall of cavity, and has the chamber of placing between two adjacent fixed plates; can dispel the heat to a plurality of servers of placing in the chamber simultaneously, avoid the problem that the diffusion is slow in the cold air gets into the cabinet body, improved the cooling efficiency to air temperature in the cabinet body, simultaneously, can drive the flow velocity of the air in the cavity, let each air of placing in the chamber flow from leading to the groove entering flow channel, make the cold air form a circulation in the cavity after and discharge, improved the radiating efficiency of the internal portion of cabinet.

Description

Self-circulation cooling type server cabinet structure

Technical Field

The utility model relates to a rack technical field specifically is a self-loopa cooling formula server rack structure.

Background

The server cabinet is used for combining and installing a panel, a plug-in box, an electronic element, a device, a mechanical part and a component to form an integral installation box, consists of a frame and a cover plate, generally has the shape of a cuboid, is placed on the ground, provides adaptive environment and safety protection for the normal work of electronic equipment, is first-level assembly next to a system level, is called a rack without a closed structure, has good technical performance, has good rigidity and strength, good electromagnetic isolation, grounding, noise isolation, ventilation and heat dissipation and other performances, and has vibration resistance, impact resistance, corrosion resistance, dust prevention, water prevention, radiation protection and other performances so as to ensure the stable and reliable work of the equipment.

When cooling the heat dissipation to the rack, the temperature in the computer lab is reduced through the cooling system in the computer lab to the majority, blow outside colder air to the internal portion of cabinet through fixing radiator fan on the rack to reach the radiating purpose of collective ghost, however, when radiator fan blows cold air and gets into the rack inside, can only blow to the inside fixed position of rack, let the cold air cool off in other positions of the internal portion of cabinet in the internal portion diffusion of cabinet, and is slow, has influenced the radiating efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a self-loopa cooling formula server rack structure to solve the problem that proposes among the above-mentioned background art.

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

a self-circulation cooling type server cabinet structure comprises a cabinet body, wherein a cavity is formed in the cabinet body, a plurality of fixing plates are arranged in the cavity, supporting lugs are fixedly connected to four corners of each fixing plate, the other ends of the four supporting lugs are respectively fixed to four corners of the cavity, the fixing plates are uniformly fixed to the inner wall of the cavity through the supporting lugs, a placing cavity is formed between every two adjacent fixing plates, a through groove is formed between each fixing plate and the inner wall of the front end and the rear end of the cabinet body and communicated with the placing cavity, a first induced draft fan is fixedly connected to two ends of the outer wall of the cabinet body, the output end of the first induced draft fan is located in the cavity, a fixing pipe is fixedly connected to the output end of the first induced draft fan, a conveying pipe is fixedly connected to the bottom of the fixing pipe, and penetrates through the cabinet body and extends to the bottom of the cavity, just the outer wall of conveyer pipe with place the chamber and correspond position department fixedly connected with exhaust pipe, the conveyer pipe passes through the exhaust pipe with it is linked together to place the chamber, the top fixedly connected with second draught fan of the cabinet body, the input of second draught fan with the cavity is linked together, first draught fan, second draught fan all with external power source electric connection.

As a further aspect of the present invention: the fixed plate with have the fixed slot between the inner wall at the left and right sides both ends of the cabinet body, the conveyer pipe passes through the fixed slot runs through the fixed plate extends to the bottom of cavity.

As a further aspect of the present invention: the fixing groove is communicated with the through groove and the placing cavity.

As a further aspect of the present invention: the through grooves form a flow channel in the cavity.

As a further aspect of the present invention: the outer wall of the fixed pipe is fixedly connected with a three-way joint, and the two conveying pipes are respectively fixed at the bottom of the three-way joint.

As a further aspect of the present invention: the conveying pipe is communicated with the fixed pipe through the three-way joint.

As a further aspect of the present invention: an air outlet is formed in the bottom of the conveying pipe and located in the bottom of the fixing plate.

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

the outer wall of the conveying pipe and the corresponding position of the placing cavity are fixedly connected with the exhaust pipe, the conveying pipe is communicated with the placing cavity through the exhaust pipe, when in use, the first draught fan works to drive cold air in the machine room to enter the fixed pipe to form cold air, the cold air flows in the conveying pipe and is discharged from the exhaust pipe to enter the placing cavity to radiate the server fixed in the placing cavity, the servers in a plurality of placing cavities can be radiated simultaneously, the problem of slow diffusion of the cold air entering the cabinet body is avoided, the cooling efficiency of the air temperature in the cabinet body is improved, meanwhile, the second draught fan works to drive the air in the cavity to be discharged to the outside of the cabinet body, the flowing speed of the air in the cavity can be driven, the air in each placing cavity enters the flowing channel from the through groove to flow, and the cold air forms a circulation in the cavity and then is discharged, the heat dissipation efficiency of the interior of the cabinet body is improved.

Drawings

FIG. 1 is a schematic structural diagram of a self-circulating cooling server cabinet structure;

FIG. 2 is a schematic diagram of a structure of a self-circulating cooling server cabinet with fixed pipes and ducts;

FIG. 3 is a schematic structural diagram of a cabinet body and a fixing plate in a self-circulation cooling type server cabinet structure;

fig. 4 is a schematic structural diagram of a fixing plate in a self-circulation cooling type server cabinet structure.

In the figure: 1. a cabinet body; 101. a cavity; 102. fixing grooves; 103. a through groove; 11. a fixing plate; 111. supporting a lug; 112. a placement chamber; 12. a first induced draft fan; 13. a fixed tube; 131. a three-way joint; 14. a delivery pipe; 141. an exhaust duct; 142. an air outlet; 15. a second induced draft fan; 16. a flow channel.

Detailed Description

Referring to fig. 1 to 4, in an embodiment of the present invention, a self-circulation cooling type server cabinet structure includes a cabinet body 1, a cavity 101 is formed inside the cabinet body 1, a plurality of fixing plates 11 are disposed inside the cavity 101, support lugs 111 are fixedly connected to four corners of the fixing plates 11, the other ends of the four support lugs 111 are respectively fixed to four corners of the cavity 101, the plurality of fixing plates 11 are uniformly fixed to an inner wall of the cavity 101 through the support lugs 111, a placing cavity 112 is formed between two adjacent fixing plates 11, a through groove 103 is formed between each fixing plate 11 and an inner wall of front and rear ends of the cabinet body 1, the through groove 103 is communicated with the placing cavity 112, first induced draft fans 12 are fixedly connected to two ends of an outer wall of the cabinet body 1, an output end of the first induced draft fan 12 is located inside the cavity 101, a fixing pipe 13 is fixedly connected to an output end of the first induced draft fan, conveyer pipe 14 runs through cabinet body 1 and extends to the bottom of cavity 101, and the outer wall of conveyer pipe 14 with place chamber 112 and correspond position department fixedly connected with exhaust pipe 141, conveyer pipe 14 is linked together through exhaust pipe 141 and place chamber 112, the top fixedly connected with second draught fan 15 of cabinet body 1, the input and the cavity 101 of second draught fan 15 are linked together, first draught fan 12, second draught fan 15 all with external power source electric connection.

In fig. 1, 2 and 4: when the cooling air circulation system is used, the first induced draft fan 12 (model number is Y5-47) works to drive cold air in the machine room to enter the fixed pipe 13 to form cold air, the cold air is shunted by the three-way joint 131 to enter the conveying pipe 14 to flow and is discharged from the exhaust pipe 141 and the exhaust port 142 to enter the placing cavity 112 to radiate the servers fixed in the placing cavity 112, the servers in the placing cavities 112 can be radiated at the same time, the problem that the cold air slowly diffuses into the cabinet body 1 is avoided, the cooling efficiency of the air temperature in the cabinet body 1 is improved, meanwhile, the second induced draft fan 15 (model number is Y5-47) works to drive the air in the cavities 101 to be discharged to the outside of the cabinet body 1, the flowing speed of the air in the cavities 101 can be driven, the air in the placing cavities 112 enters the flowing channel 16 from the through grooves 103, and the cold air forms a circulation in the cavities 101 and is discharged, the heat dissipation efficiency of the interior of the cabinet body 1 is improved.

In fig. 1 and 3: because fixed slot 102, lead to groove 103 and place the chamber 112 and be linked together, and a plurality of leads to groove 103 and forms a flow channel 16 in the inside of cavity 101, when using, the work of second draught fan 15 is discharged the outside of the inside air priming of cavity 101 to cabinet body 1, can drive the flow velocity of the air in cavity 101, let each air of placing in the chamber 112 flow from leading to groove 103 entering flow channel 16, make the cold air form a circulation back and discharge in cavity 101, the radiating efficiency of the internal portion of cabinet body 1 has been improved.

The utility model discloses a theory of operation is: when in use, the first induced draft fan 12 works to drive cold air in the machine room to enter the fixed pipe 13 to form cold air, the cold air is divided by the three-way joint 131 to enter the conveying pipe 14 to flow and is discharged from the exhaust pipe 141 and the exhaust port 142 to enter the placing cavity 112, the servers fixed in the placing cavities 112 are radiated, the servers in a plurality of placing cavities 112 can be radiated at the same time, the problem that cold air is slowly diffused in the cabinet body 1 is avoided, the cooling efficiency of the air temperature in the cabinet body 1 is improved, meanwhile, the second induced draft fan 15 works to drive the air in the cavity 101 to be discharged to the outside of the cabinet body 1, so that the flowing speed of the air in the cavity 101 can be driven, the air in each placing cavity 112 flows in the flowing channel 16 from the through groove 103, the cold air forms a circulation in the cavity 101 and is discharged, and the heat dissipation efficiency in the cabinet body 1 is improved.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. The utility model provides a self-circulation cooling formula server rack structure, includes the cabinet body (1), its characterized in that, the inside of the cabinet body (1) has cavity (101), the inside of cavity (101) is equipped with a plurality of fixed plate (11), the equal fixedly connected with journal stirrup (111) in four corners of fixed plate (11), four the other end of journal stirrup (111) is fixed respectively in the four corners of cavity (101), a plurality of fixed plate (11) pass through the even fixing of journal stirrup (111) is in the inner wall of cavity (101), and adjacent two have between fixed plate (11) and place chamber (112), logical groove (103) have between the inner wall at the front and back both ends of the cabinet body (1), logical groove (103) all with place chamber (112) and be linked together, the equal fixedly connected with first draught fan (12) in the outer wall both ends of the cabinet body (1), the output end of the first induced draft fan (12) is positioned in the cavity (101), and the output end of the first induced draft fan (12) is fixedly connected with a fixed pipe (13), the bottom of the fixed pipe (13) is fixedly connected with a delivery pipe (14), the delivery pipe (14) penetrates through the cabinet body (1) and extends to the bottom of the cavity (101), an exhaust pipe (141) is fixedly connected with the outer wall of the conveying pipe (14) and the position corresponding to the placing cavity (112), the delivery pipe (14) is communicated with the placing cavity (112) through the exhaust pipe (141), a second induced draft fan (15) is fixedly connected with the top of the cabinet body (1), the input end of the second induced draft fan (15) is communicated with the cavity (101), and the first induced draft fan (12) and the second induced draft fan (15) are electrically connected with an external power supply.

2. A self-circulating cooling server cabinet structure according to claim 1, wherein fixing slots (102) are provided between the fixing plate (11) and the inner walls of the left and right ends of the cabinet body (1), and the delivery pipe (14) extends through the fixing plate (11) to the bottom of the cavity (101) through the fixing slots (102).

3. A self-circulating cooled server cabinet structure, as claimed in claim 2, wherein the fixing slots (102) are in communication with the through slots (103) and the placing cavities (112).

4. A self-circulating cooled server cabinet structure according to claim 1, wherein a number of said through slots (103) form a flow channel (16) inside said cavity (101).

5. The cabinet structure of self-circulation cooling servers, as claimed in claim 1, wherein the outer wall of the fixed pipe (13) is fixedly connected with a tee joint (131), and the two delivery pipes (14) are respectively fixed at the bottom of the tee joint (131).

6. A self-circulating cooled server cabinet structure, according to claim 5, characterized in that said delivery pipe (14) communicates with said fixed pipe (13) through said tee joint (131).

7. The cabinet structure of self-circulation cooling server as claimed in claim 1, wherein the bottom of the duct (14) is opened with an air outlet (142), and the air outlet (142) is located at the bottom of the fixing plate (11).

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