CN210579814U

CN210579814U - Intelligent ZRV storage server cabinet based on AIM and DSP framework

Info

Publication number: CN210579814U
Application number: CN201921051314.9U
Authority: CN
Inventors: 王本军
Original assignee: Nanjing Fast Reiter Mdt Infotech Ltd
Current assignee: Nanjing Fast Reiter Mdt Infotech Ltd
Priority date: 2019-07-08
Filing date: 2019-07-08
Publication date: 2020-05-19
Anticipated expiration: 2029-07-08

Abstract

The utility model discloses a wisdom ZRV stores server rack based on AIM and DSP framework, including the cabinet that holds that is used for holding the server, hold the one side opening of cabinet, be equipped with the cabinet door on the opening face that holds the cabinet, it is equipped with a plurality of cooling chambers that are used for reducing and hold the temperature in the cabinet to hold in the cabinet, interval between the adjacent cooling chamber equals, be equipped with the bearing board that is used for the bearing server between the adjacent cooling chamber, the bearing board is close the cooling chamber setting that is located the bearing board below, the top that holds the cabinet is equipped with and is used for refrigerated circulative cooling cabinet, circulative cooling is equipped with the admission line and the pipeline of giving vent to anger that extend along vertical direction on the cabinet, admission line and the pipeline of giving vent to anger are located respectively and hold the both sides that the cabinet is close. This rack can carry out good heat dissipation, reduces the temperature in the rack when the server operates, is favorable to making the server move under the suitable temperature, keeps higher work efficiency.

Description

Intelligent ZRV storage server cabinet based on AIM and DSP framework

Technical Field

The utility model relates to a server rack technical field, concretely relates to wisdom ZRV storage server rack based on AIM and DSP framework.

Background

The intelligent ZRV storage server based on the AIM and the DSP framework in the current market is a server with a novel framework, the server is simple to install, simple to manage, stable in performance, simple to maintain, simple to expand, capable of reducing data backup cost and saving the cost of purchasing the server, and in addition, due to the fact that an open cross-platform framework is adopted, the form of the server also has good compatibility, and sharing can be easily achieved.

When the server has the advantages, the server has the inevitable problem of high computing power consumption due to high data throughput, so that the problem of high power consumption is also caused, the server body has high heat productivity due to high power consumption, the temperature of the server rises, the performance of the server is reduced due to the temperature rise of the server, and the working efficiency of the server is influenced.

Disclosure of Invention

For overcoming prior art's not enough, the utility model provides a wisdom ZRV storage server rack based on AIM and DSP framework, it can carry out good heat dissipation, and the temperature in the rack when reducing the server operation is favorable to making the server move under suitable temperature, keeps higher work efficiency.

For realizing the above-mentioned mesh, the utility model discloses a wisdom ZRV stores server rack based on AIM and DSP framework, including the cabinet that holds that is used for holding the server, hold the one side opening of cabinet, be equipped with the cabinet door on the opening face that holds the cabinet, it is equipped with a plurality of cooling rooms that are used for reducing and hold the interior temperature of cabinet to hold in the cabinet to hold, interval between the adjacent cooling room equals, be equipped with the bearing board that is used for the bearing server between the adjacent cooling room, the bearing board is close to the cooling room setting that is located the bearing board below, the top that holds the cabinet is equipped with and is used for refrigerated circulative cooling cabinet, circulative cooling is equipped with on the cabinet and follows vertical direction downwardly extending to the inlet duct and the pipeline of giving vent to anger that holds the cabinet side, inlet duct is located the both sides that the cabinet is close the cabinet door respectively with the.

Further, the inlet duct is located and holds the cabinet side and keep away from the one end of cabinet door, and the outlet duct is located and holds the one end that the cabinet side is close to the cabinet door.

Further, be equipped with the wind channel piece of a plurality of perpendicular and cabinet door in the cooling chamber, the equidistance equipartition in the cooling chamber is said to the wind channel piece, and the one end of wind channel piece is connected at the cooling chamber inner wall, and the other end forms the space with the cooling chamber inner wall, and adjacent wind channel piece is connected respectively on one side inner wall that the cabinet door was close to in the cooling chamber and one side inner wall that the cabinet door was kept away from in the cooling chamber, and the wind channel piece forms winding wind channel in the cooling.

Furthermore, the inside of the circulating cooling cabinet is provided with a horizontal partition board, the partition board divides the circulating cooling cabinet into an evaporation chamber and a condensation chamber which are mutually isolated, the condensation chamber is positioned above the evaporation chamber, the air inlet pipeline and the air outlet pipeline are respectively connected to two sides of the evaporation chamber, and an evaporation fan which blows air to the air inlet pipeline from the air outlet pipeline is arranged in the evaporation chamber.

Furthermore, a condenser is arranged in the condensation chamber, a compressor is arranged in the condensation chamber, an evaporator is arranged in the evaporation chamber, the compressor, the condenser and the evaporator are sequentially connected through a pipeline, air ports are respectively arranged on two sides of the condensation chamber, and a condensation fan is arranged in the condensation chamber.

Further, the condensing fan blows air in the opposite direction to the evaporating fan.

Furthermore, a throttling device is arranged on a pipeline between the condenser and the evaporator.

Further, the air duct piece is made of copper.

The utility model discloses a wisdom ZRV stores server rack based on AIM and DSP framework can carry out good heat dissipation, and the temperature in the rack when reducing the server operation is favorable to making the server move under the suitable temperature, keeps higher work efficiency.

Drawings

The invention will be further described and illustrated with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of an entire cabinet of a smart ZRV storage server based on AIM and DSP architecture according to a preferred embodiment of the present invention;

FIG. 2 is a schematic view of the cabinet with the door removed;

FIG. 3 is a schematic diagram of an internal structure of a cabinet for embodying an intelligent ZRV storage server based on AIM and DSP architecture;

fig. 4 is a top view of the temperature reduction chamber.

Reference numerals: 1. a housing cabinet; 11. a cabinet door; 2. a cooling chamber; 21. an air duct sheet; 3. a support plate; 4. a circulating cooling cabinet; 41. a partition plate; 42. an evaporation chamber; 421. an evaporator; 422. an evaporation fan; 43. a condensing chamber; 431. a condenser; 432. a condensing fan; 433. a tuyere; 44. a compressor; 45. a restrictor; 5. an air intake duct; 6. an air outlet pipeline.

Detailed Description

The technical solution of the present invention will be more clearly and completely explained by the description of the preferred embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1 and 2, the preferred embodiment of the present invention relates to a cabinet for an intelligent ZRV storage server based on AIM and DSP architecture, which comprises a cabinet 1 for accommodating a server, an opening on one side of the cabinet 1, and a cabinet door 11 on the opening side of the cabinet 1. Hold and be equipped with 3 cooling rooms 2 that are used for reducing and hold 1 interior temperature of cabinet in 1 in the cabinet, the interval between the adjacent cooling room 2 equals, is equipped with the bearing board 3 that is used for the bearing server between the adjacent cooling room 2, total 2 bearing board 3. The support plate 3 is close to the cooling chamber 2 below the support plate, and a space for accommodating the server is formed between the support plate 3 and the cooling chamber 2 above the support plate.

As shown in fig. 2 and 3, the top of the receiving cabinet 1 is provided with a circulation cooling cabinet 4 for cooling, the interior of the circulation cooling cabinet 4 is provided with a horizontal partition plate 41, the partition plate 41 divides the circulation cooling cabinet 4 into an evaporation chamber 42 and a condensation chamber 43 which are isolated from each other, and the condensation chamber 43 is located above the evaporation chamber 42. The both sides of evaporating chamber 42 are equipped with respectively along vertical direction downwardly extending to hold inlet duct 5 and the outlet duct 6 of cabinet 1 side, and inlet duct 5 is located and holds the cabinet 1 side and keep away from the one end of cabinet door 11, and outlet duct 6 is located and holds the cabinet 1 side and be close the one end of cabinet door 11. The air inlet pipeline 5 and the air outlet pipeline 6 are respectively communicated with each cooling chamber 2.

As shown in fig. 2 and 3, a condenser 431 is disposed in the condensing chamber 43, a compressor 44 is disposed in the condensing chamber 43, an evaporator 421 is disposed in the evaporating chamber 42, the compressor 44, the condenser 431, and the evaporator 421 are sequentially connected by a pipeline, and a restrictor 45 is disposed on the pipeline between the condenser 431 and the evaporator 421. An evaporation fan 422 for blowing air from the air outlet pipe 6 to the air inlet pipe 5 is provided in the evaporation chamber 42. Both sides of the condensing chamber 43 are respectively provided with an air port 433, a condensing fan 432 is arranged in the condensing chamber 43, and the blowing direction of the condensing fan 432 is opposite to that of the evaporating fan 422. The evaporation chamber 42 and the condensation chamber 43 constitute a complete refrigeration cycle, and can perform cycle refrigeration on the air in the temperature reduction chamber 2, the air intake duct 5 and the air exhaust duct.

As shown in fig. 2 and 4, a plurality of air duct pieces 21 perpendicular to the cabinet door 11 are arranged in the cooling chamber 2, and the air duct pieces 21 are made of copper sheets. Wind channel piece 21 equidistance equipartition in cooling chamber 2, the one end of wind channel piece 21 is connected at cooling chamber 2 inner wall, the other end forms the space with cooling chamber 2 inner wall, adjacent wind channel piece 21 is connected respectively on cooling chamber 2 is close one side inner wall of cabinet door 11 and cooling chamber 2 keeps away from one side inner wall of cabinet door 11, the wind channel piece 21 that is closest to the air-out pipeline is connected in cooling chamber 2 one side that is close cabinet door 11 promptly, secondly, the wind channel piece 21 that is close the air-out pipeline is connected in cooling chamber 2 one side of keeping away from cabinet door 11, surplus wind channel piece 21 sets up with the same rule is crisscross. In this way, the duct pieces 21 form a meandering duct in the cooling chamber 2, and the air is made to flow in a long path, thereby promoting the cooling effect.

The above detailed description merely describes the preferred embodiments of the present invention and does not limit the scope of the present invention. Without departing from the design concept and spirit scope of the present invention, the ordinary skilled in the art should belong to the protection scope of the present invention according to the present invention provides the text description and drawings to the various modifications, replacements and improvements made by the technical solution of the present invention. The scope of protection of the present invention is determined by the claims.

Claims

1. The utility model provides a server rack is stored to wisdom ZRV based on AIM and DSP framework, is including the cabinet (1) that holds that is used for holding the server, hold the one side opening of cabinet (1), be equipped with cabinet door (11) on the opening face that holds cabinet (1), its characterized in that, it is equipped with a plurality of cooling rooms (2) that are used for reducing the interior temperature of holding cabinet (1) in to hold cabinet (1), and adjacent the interval between cooling room (2) equals, is equipped with bearing plate (3) that are used for bearing the server between the adjacent cooling room (2), bearing plate (3) are close to cooling room (2) setting that are located bearing plate (3) below, the top of holding cabinet (1) is equipped with and is used for cryogenic circulative cooling cabinet (4), be equipped with on circulative cooling cabinet (4) along vertical direction downwardly extending to hold intake duct (5) and the pipeline of giving vent to anger (6) of cabinet (1) side, the air inlet pipeline (5) and the air outlet pipeline (6) are respectively positioned at two sides of the accommodating cabinet (1) close to the cabinet door (11), the air inlet pipeline (5) is respectively communicated with the cooling chambers (2), and the air outlet pipeline (6) is respectively communicated with the cooling chambers (2).

2. The AIM and DSP architecture based intelligent ZRV storage server cabinet according to claim 1 characterized in that the air inlet duct (5) is located at the end of the side of the containing cabinet (1) far from the cabinet door (11) and the air outlet duct (6) is located at the end of the side of the containing cabinet (1) near to the cabinet door (11).

3. The AIM and DSP architecture based intelligent ZRV storage server cabinet as claimed in claim 2, characterized in that a plurality of air duct pieces (21) perpendicular to the cabinet door (11) are arranged in the cooling chamber (2), the air duct pieces (21) are equally distributed in the cooling chamber (2), one end of each air duct piece (21) is connected to the inner wall of the cooling chamber (2), the other end forms a gap with the inner wall of the cooling chamber (2), the adjacent air duct pieces (21) are respectively connected to the inner wall of the cooling chamber (2) close to the cabinet door (11) and the inner wall of the cooling chamber (2) far away from the cabinet door (11), and the air duct pieces (21) form a winding air duct in the cooling chamber (2).

4. The AIM and DSP architecture based intelligent ZRV storage server cabinet as claimed in claim 1, characterized in that the interior of said cooling circulation cabinet (4) is provided with a horizontal partition plate (41), said partition plate (41) divides the cooling circulation cabinet (4) into an evaporation chamber (42) and a condensation chamber (43) which are isolated from each other, said condensation chamber (43) is located above the evaporation chamber (42), said air inlet pipe (5) and air outlet pipe (6) are respectively connected to two sides of the evaporation chamber (42), said evaporation chamber (42) is provided with an evaporation fan (422) which blows air from the air outlet pipe (6) to the air inlet pipe (5).

5. The AIM and DSP architecture based intelligent ZRV storage server cabinet as claimed in claim 4, characterized in that a condenser (431) is arranged in said condensation chamber (43), a compressor (44) is arranged in said condensation chamber (43), an evaporator (421) is arranged in said evaporation chamber (42), said compressor (44), condenser (431) and evaporator (421) are connected in sequence by pipes, two sides of said condensation chamber (43) are respectively provided with an air port (433), and a condensing fan (432) is arranged in said condensation chamber (43).

6. The AIM and DSP architecture based smart ZRV storage server cabinet according to claim 5 characterized in that the condensing fan (432) blows in the opposite direction to the evaporating fan (422).

7. The AIM and DSP architecture based intelligent ZRV storage server cabinet according to claim 5 characterized in that a flow restrictor (45) is provided on the pipe between the condenser (431) and the evaporator (421).

8. The AIM and DSP architecture based smart ZRV storage server cabinet according to claim 3 characterized in that said air duct tiles (21) are copper tiles.