CN219716033U - Server with heat radiation structure - Google Patents

Abstract

The utility model discloses a server with a heat radiation structure, which comprises a chassis, wherein a heat radiation fan is embedded on the surface of the chassis, a processor is arranged at the bottom end of the interior of the chassis, an air collecting pipe is arranged in the interior of the chassis, the side part of the air collecting pipe is connected with an air inlet pipe, and the port of the air inlet pipe is positioned at the heat radiation fan; according to the utility model, the cooling liquid box, the air inlet pipe, the cooling pipe, the air collecting pipe and the pressurizing port are designed, the air collecting pipe and the cooling liquid box are arranged in the case, two ends of the cooling pipe are connected to the cooling liquid box, so that cooling liquid circulation is realized, the air quantity generated by the cooling fan is partially introduced into the air collecting pipe through the air inlet pipe and is conveyed into the cooling liquid box through the pressurizing port, the pressurizing of the inside of the cooling liquid box is realized, and therefore, cooling liquid is extruded to circulate in the cooling pipe, and heat dissipation is realized.

Description

Server with heat radiation structure

Technical Field

The utility model belongs to the technical field of servers, and particularly relates to a server with a heat dissipation structure.

Background

The server is a computer system for managing and transmitting information, the server is a high-performance computer, and is used as a node of a network to store and process 80% of data and information on the network, so that the server is also called a soul of the network, and the server is basically similar to a microcomputer in structure and comprises a processor, a hard disk, a memory, a system bus and the like.

The utility model provides a server with heat radiation structure of current application number 202222005597.1, includes server host computer, cooling structure, heat radiation structure and dustproof construction, and cooling structure is installed to the inner wall bottom of server host computer, and the outer wall back-mounted of server host computer has the air-permeable board, and the inner wall back-mounted of server host computer has two sets of heat radiation structure, and the top of server host computer is equipped with the recess. According to the utility model, the cooling structure, the heat dissipation structure and the ventilation plate are arranged to effectively dissipate heat of the server, the server host operates, the water pump starts to work, cooling liquid is conveyed to the first pipeline through the water pump, the first pipeline is conveyed to the cooling tank, the cooling tank is used for conveying the cooling liquid to the second pipeline, the second pipeline is used for conveying the cooling liquid back to the cooling structure through one extending end of the second pipeline for circulating cooling, the heat dissipation structure is used for driving the fan blade to rotate through the work of the motor, and the heat can be conveyed to the outside through the ventilation hole by the heat dissipation structure, so that the purpose of continuous heat dissipation and cooling is achieved; but suffer from the following drawbacks:

(1) In operation, the server conveys the cooling liquid to the processor through the external water pump so as to realize the purpose of liquid cooling, but in actual use, the external water pump is needed to realize liquid conveying, the pump body of the server easily generates larger noise, and meanwhile, the problem of increasing the heat dissipation cost of the server is solved, so that the server with the heat dissipation structure is provided.

Disclosure of Invention

The utility model aims to provide a server with a heat radiation structure, so as to solve the problem that the heat radiation cost is increased because a water pump is additionally added to convey cooling liquid in the heat radiation process of the server in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a server with heat radiation structure, includes the quick-witted case, the surface of machine case is inlayed and is had radiator fan, the inside bottom of machine case is provided with the treater, the inside of machine case is provided with the collection tuber pipe, the lateral part of collection tuber pipe is connected with the air-supply line, the port department of air-supply line is located radiator fan department, be fixed with the coolant liquid box on the inner wall of machine case, install pressure boost mouth, liquid outlet and liquid return mouth on the coolant liquid box respectively, be connected with the cooling tube between liquid outlet and the liquid return mouth, and the cooling tube arranges in the bottom of treater, be connected with the blast pipe between pressure boost mouth and the collection tuber pipe.

Preferably, an inner frame is fixed in the pressurizing opening, and one end of the inner frame is rotationally connected with a non-return plate through a rotating shaft.

Preferably, the surface of the non-return plate is fixed with a push rod, the outer wall of the push rod is sleeved with a sliding cylinder, the sliding cylinder is fixed on the inner wall of the pressurizing port, and a spring is arranged in the sliding cylinder.

Preferably, the longitudinal sections of the push rod and the sliding cylinder are arc-shaped structures, and the central axes of the push rod and the sliding cylinder are mutually overlapped.

Preferably, a rubber plug is fixed on the end face of the non-return plate.

Preferably, the outer wall of the air collecting pipe is sleeved with a bracket, and the bracket is fixed on the inner wall of the case.

Preferably, the cross section of the air inlet pipe is of an L-shaped structure, and the longitudinal section of the cooling liquid box is of a rectangular structure.

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

(1) The cooling liquid box, the air inlet pipe, the cooling pipe, the air collecting pipe and the pressurizing opening are designed, the air collecting pipe and the cooling liquid box are arranged in the case, two ends of the cooling pipe are connected to the cooling liquid box, circulation of cooling liquid is achieved, the air quantity generated by the cooling fan is partially introduced into the air collecting pipe through the air inlet pipe and is conveyed into the cooling liquid box through the pressurizing opening, pressurizing of the inside of the cooling liquid box is achieved, and accordingly cooling liquid is extruded to circulate in the cooling pipe, heat dissipation is achieved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a cross-sectional view of the structure of the coolant cartridge of the present utility model;

FIG. 3 is an enlarged view of the utility model at A in FIG. 2;

FIG. 4 is an assembled side view of the boost port, inner frame and check plate of the present utility model;

FIG. 5 is an assembled cross-sectional view of the air collecting duct and the air inlet duct of the present utility model;

in the figure: 1. a chassis; 2. a heat radiation fan; 3. an air inlet pipe; 4. an air supply pipe; 5. a processor; 6. a pressurizing port; 7. a cooling tube; 8. a cooling liquid box; 9. a liquid return port; 10. a bracket; 11. an air collecting pipe; 12. a liquid outlet; 13. a spring; 14. a slide cylinder; 15. a non-return plate; 16. an inner frame; 17. a rubber stopper; 18. a push rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

Referring to fig. 1 to 5, the present utility model provides a technical solution: the utility model discloses a server with a heat radiation structure, which comprises a case 1, wherein a heat radiation fan 2 is embedded on the surface of the case 1, a processor 5 is arranged at the bottom end of the inside of the case 1, a wind collecting pipe 11 is arranged in the case 1, a wind inlet pipe 3 is connected to the side part of the wind collecting pipe 11, the port of the wind inlet pipe 3 is positioned at the heat radiation fan 2, a cooling liquid box 8 is fixed on the inner wall of the case 1, a pressurizing port 6, a liquid outlet 12 and a liquid return port 9 are respectively arranged on the cooling liquid box 8, a cooling pipe 7 is connected between the liquid outlet 12 and the liquid return port 9, the cooling pipe 7 is arranged at the bottom of the processor 5, a wind inlet pipe 3, the cooling pipe 7, the wind collecting pipe 11 and the pressurizing port 6 are connected, the wind collecting pipe 11 and the cooling liquid box 8 are arranged in the case 1, the two ends of the cooling pipe 7 are connected to the cooling liquid box 8, the air quantity generated by the fan 2 is partially introduced into the wind collecting pipe 11 and is conveyed into the cooling liquid box 8 through the pressurizing port 6, the cooling liquid box 8 is conveyed into the cooling liquid box 8, and the cooling liquid is circulated in the cooling liquid box 8 through the pressurizing port 6, and the cooling liquid is not required to realize the cooling liquid circulation, and the cooling device is externally circulated, and the cooling device is not required to realize the cooling device circulation.

In this embodiment, preferably, an inner frame 16 is fixed inside the pressurizing port 6, one end of the inner frame 16 is rotatably connected with a check plate 15 through a rotating shaft, the check plate 15 is rotatably installed on the inner frame 16 through the designed inner frame 16 and the designed check plate 15 through the rotating shaft, wind force blows the check plate 15 down to enable the check plate 15 to be turned up and opened, when no wind force acts on the check plate 15, the check plate 15 turns down to enable the check plate to block the position of the inner frame 16, the pressurizing port 6 is blocked, so that the coolant is prevented from flowing, a push rod 18 is fixed on the surface of the check plate 15, a slide cylinder 14 is sleeved on the outer wall of the push rod 18, the slide cylinder 14 is fixed on the inner wall of the pressurizing port 6, a spring 13 is arranged inside the slide cylinder 14, through the designed slide cylinder 14, the push rod 18 and the spring 13, when no wind force acts on the check plate 15, the spring 13 applies an elastic force effect on the check plate 15, the check plate 15 can be turned up to the position of the inner frame 16 more flexibly, the effect of timely check is achieved, the longitudinal sections of the push rod 18 and the slide cylinder 14 are both arc structures, and the longitudinal sections of the push rod 18 and the slide cylinder 14 are coincident with the central axis 15 are further designed to have the sealing effect, and the sealing effect of the two slide plates 17 are further improved, and the sealing effect is achieved by the sealing the seal plate 17.

In this embodiment, preferably, the outer wall of the air collecting pipe 11 is sleeved with a bracket 10, the air collecting pipe 11 is fixed in the chassis 1 through the designed bracket 10, the bracket 10 is fixed on the inner wall of the chassis 1, the cross section of the air inlet pipe 3 is of an L-shaped structure, and the longitudinal section of the cooling liquid box 8 is of a rectangular structure.

The working principle and the using flow of the utility model are as follows: according to the utility model, the air collecting pipe 11 is arranged in the case 1 through the bracket 10, two ends of the cooling pipe 7 are connected to the cooling liquid box 8, circulation of cooling liquid is realized, the air quantity generated by the cooling fan 2 is partially introduced into the air collecting pipe 11 through the air inlet pipe 3, the air force blows the non-return plate 15, the non-return plate is turned up and opened, and is conveyed into the cooling liquid box 8 through the pressurizing port 6, so that the inside of the cooling liquid box 8 is pressurized, the cooling liquid is extruded to circulate in the cooling pipe 7, and heat dissipation is realized.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a server with heat radiation structure, includes quick-witted case (1), the surface of machine case (1) is inlayed and is had radiator fan (2), the inside bottom of machine case (1) is provided with treater (5), its characterized in that: the inside of machine case (1) is provided with air-collecting pipe (11), the lateral part of air-collecting pipe (11) is connected with air-supply line (3), the port department of air-supply line (3) is located radiator fan (2) department, be fixed with coolant liquid box (8) on the inner wall of machine case (1), install booster opening (6), liquid outlet (12) and return liquid mouth (9) on coolant liquid box (8) respectively, be connected with cooling tube (7) between liquid outlet (12) and return liquid mouth (9), and cooling tube (7) are arranged in the bottom of treater (5), be connected with blast pipe (4) between booster opening (6) and air-collecting pipe (11).

2. A server with heat dissipation structure as defined in claim 1, wherein: an inner frame (16) is fixed in the pressurizing opening (6), and one end of the inner frame (16) is rotatably connected with a non-return plate (15) through a rotating shaft.

3. A server with heat dissipation structure as defined in claim 2, wherein: the surface of the non-return plate (15) is fixedly provided with a push rod (18), the outer wall of the push rod (18) is sleeved with a sliding cylinder (14), the sliding cylinder (14) is fixed on the inner wall of the pressurizing port (6), and a spring (13) is arranged in the sliding cylinder (14).

4. A server with heat dissipation structure as defined in claim 3, wherein: longitudinal sections of the push rod (18) and the sliding cylinder (14) are of arc-shaped structures, and central axes of the push rod (18) and the sliding cylinder (14) are mutually overlapped.

5. A server with heat dissipation structure as defined in claim 3, wherein: a rubber plug (17) is fixed on the end face of the non-return plate (15).

6. A server with heat dissipation structure as defined in claim 1, wherein: the outer wall of the air collecting pipe (11) is sleeved with a support (10), and the support (10) is fixed on the inner wall of the chassis (1).

7. A server with heat dissipation structure as defined in claim 1, wherein: the cross section of the air inlet pipe (3) is of an L-shaped structure, and the longitudinal section of the cooling liquid box (8) is of a rectangular structure.