CN223528362U - A data center heat dissipation regulation device - Google Patents

Abstract

The utility model provides a heat dissipation adjusting device of a data center, which comprises a box body and an adjusting component, wherein the bottom of an inner cavity of the box body is fixedly connected with a refrigeration box, the inner cavity of the refrigeration box is respectively and symmetrically connected with a refrigeration plate and an auxiliary separation plate, the inner cavity of the refrigeration plate is symmetrically connected with a refrigeration pipe, two ends of the refrigeration pipe penetrate through the refrigeration box and the side wall of the box body and are symmetrically connected with a confluence box, the side surface of the confluence box is fixedly connected with a transfusion pipe, the adjusting component consists of a shell, a movable shielding plate and a fixed shielding plate, the opening of the shell is symmetrically connected with the fixed shielding plate, two ends of the movable shielding plate are symmetrically connected with a fixed plate, the fixed plate is in sliding connection with a main chute arranged at the opening of the shell, and the top of the opening of the shell is fixedly connected with a servo electric cylinder through a groove. According to the utility model, through the cooperation of the refrigeration box, the conveying pipe, the adjusting component and the temperature sensor, the heat dissipation adjusting device can adjust the heat dissipation efficiency according to the temperature change of different data center servers, so that the practicability of the device is enhanced.

Description

Data center heat dissipation adjusting device

Technical Field

The utility model relates to the technical field of data center heat dissipation, in particular to a heat dissipation adjusting device of a data center.

Background

The heat dissipation of the data center is a process that heat generated by running a large number of servers, network equipment, storage equipment and the like needs to be processed and removed in the data center, the data center is a facility for hosting a large number of computers and network equipment, a large amount of heat can be generated in the running process of the data center, if the heat cannot be effectively dissipated in time, the equipment is overheated, the performance and the service life of the equipment are affected, the common data center servers are usually uniformly cooled in the using process, but the heat dissipation effects required by the data center servers in different time periods, different positions and in charge of different data contents are different, and then the problem that the heat is excessively accumulated in part of the data center servers is caused by uniform heat dissipation, so that the probability of damage of the data center servers is improved, and the uniform heat dissipation structure runs for a long time and high power, although the heat dissipation requirement of the data center servers can be guaranteed, the problem of excessive cooling can be generated in the idle process of the data center servers, and thus unnecessary energy consumption is increased.

Disclosure of utility model

In order to overcome the defects in the prior art, a heat dissipation adjusting device for a data center is provided to solve the problems in the prior art.

In order to achieve the above purpose, the heat dissipation adjusting device of the data center comprises a box body and an adjusting component, wherein the bottom of the inner cavity of the box body is fixedly connected with a refrigerating box, the inner cavity of the refrigerating box is symmetrically connected with a refrigerating plate and an auxiliary partition plate respectively, the inner cavity of the refrigerating plate is symmetrically connected with a refrigerating pipe, two ends of the refrigerating pipe penetrate through the refrigerating box and the side wall of the box body to be symmetrically connected with a confluence box, the side face of the confluence box is fixedly connected with a transfusion pipe, the upper end of one side of the box body is fixedly connected with an air inlet pipe, the upper end of the other side of the box body is connected with the adjusting component through a conveying pipe, the adjusting component is opposite to a data center server, meanwhile, one side, close to the air inlet pipe, of the inner cavity of the box body is fixedly connected with a filter plate and a filter screen respectively, the upper surface of the refrigerating box is fixedly connected with a main partition plate, the adjusting component consists of a shell, a movable shielding plate and a fixed shielding plate are symmetrically connected with the opening of the shell, two ends of the movable shielding plate are symmetrically connected with a fixed plate, the fixed plate is slidably connected with a main sliding groove arranged at the opening of the shell, the top of the opening is fixedly connected with a servo cylinder through a groove, the telescopic rod of the servo cylinder is fixedly connected with the servo shielding plate, and the telescopic rod of the servo shielding cylinder is fixedly connected with a temperature sensor at the outer side of the shell.

Preferably, the whole cuboid structure that is of regulation subassembly, and the casing is concave structure, and the position fixed connection two sets of temperature sensor that the casing lateral surface is close to the opening part, two sets of main spouts that the casing opening part bilateral symmetry was seted up all are rectangular shape structure simultaneously, and the length of main spout is greater than the length of fixed plate.

Preferably, the shell opening part is fixed with a plurality of groups of fixed shielding plates at equal intervals along the vertical direction, the plurality of groups of fixed shielding plates are all rectangular structures, one side of the fixed shielding plates, which is close to the inside of the shell, is fixedly connected with the auxiliary plate, and meanwhile, the surface of the auxiliary plate is arc-shaped and protruding.

Preferably, the fixed plates are two groups, the two groups of fixed plates are of strip-shaped structures, the two groups of fixed plates are fixedly connected with a plurality of groups of movable shielding plates at equal intervals in parallel along the length direction, the plurality of groups of movable shielding plates are of rectangular structures, and the fixed plates and the movable shielding plates are combined together to form a mesh-shaped structure.

Preferably, the refrigeration box fixedly connected in the box body is of a cuboid structure, two groups of through openings formed in the side faces of two sides of the refrigeration box are of rectangular structures, the refrigeration plate fixedly connected with the inner cavity of the refrigeration box and the auxiliary separation plate are of rectangular structures, and the cross section of the inner cavity formed by combining the refrigeration box, the refrigeration plate and the auxiliary separation plate is of a serial-shaped structure.

Preferably, the inside fixed connection multiunit refrigeration pipe of equidistant along vertical direction of refrigeration board, and multiunit refrigeration pipe all is cylindrical structure, and two sets of confluence box of refrigeration pipe both ends fixed connection all are rectangle structure.

Preferably, the main division board is rectangle structure, and box inner chamber cross-section is the door shape structure, and box inner chamber top is close to intake pipe one side fixed connection's filter screen cross-section and is L shape structure, and the filter passes through buckle fixed connection in the box inside simultaneously, and the filter is located the below of filter screen.

Compared with the prior art, the temperature control device has the beneficial effects that through the matching of the box body, the refrigeration box, the conveying pipe, the adjusting component and the temperature sensor, the air outlet opening of the adjusting component can be correspondingly adjusted as much as possible according to the temperature change of the surface of the corresponding data center server, so that the data center server is ensured to be always in a proper temperature range in different time periods and different positions, the problem of excessive accumulation of heat of the data center server is avoided, the probability of damage failure of the data center server is reduced, the probability of excessive heat dissipation of the data center server is also effectively reduced, and the energy consumption of heat dissipation is reduced.

Drawings

Fig. 1 is a schematic front view of an embodiment of the present utility model.

Fig. 2 is a schematic side view of a case according to an embodiment of the present utility model.

Fig. 3 is a schematic top view of an embodiment of the present utility model.

Fig. 4 is a schematic cross-sectional view of an adjusting component according to an embodiment of the utility model.

The device comprises a box body 1, a refrigerating box 2, a main separation plate 3, a filter plate 4, a filter screen 5, a filter screen 6, an air inlet pipe 7, a refrigerating plate 8, a secondary separation plate 9, a refrigerating pipe 10, a transfusion pipe 11, a conveying pipe 12, an adjusting assembly 13, a data center server 14, a confluence box 15, a servo electric cylinder 16, a shell 17, a movable shielding plate 18, a fixed shielding plate 19, a fixed plate 20 and a temperature sensor.

Detailed Description

Referring to fig. 1 to 4, the utility model provides a heat dissipation adjusting device of a data center, which comprises a box body 1 and an adjusting component 12, wherein the bottom of the inner cavity of the box body 1 is fixedly connected with a refrigerating box 2, the inner cavity of the refrigerating box 2 is respectively and symmetrically connected with a refrigerating plate 7 and a secondary partition plate 8, the inner cavity of the refrigerating plate 7 is symmetrically connected with a refrigerating pipe 9, two ends of the refrigerating pipe 9 penetrate through the refrigerating box 2 and the side wall of the box body 1 and are symmetrically connected with a confluence box 14, the side surface of the confluence box 14 is fixedly connected with an infusion pipe 10, the upper end of one side of the box body 1 is fixedly connected with an air inlet pipe 6, the upper end of the other side of the box body 1 is connected with an adjusting component 12 through a conveying pipe 11, the adjusting component 12 is opposite to a data center server 13, meanwhile, one side of the inner cavity of the box body 1 close to the air inlet pipe 6 is respectively and fixedly connected with a filter plate 4 and a filter screen 5, the upper surface of the refrigerating box 2 is fixedly connected with a main partition plate 3, the adjusting component 12 is composed of a shell 16, an opening of a movable shielding plate 17 and a fixed shielding plate 18, two ends of the movable shielding plate 19 are symmetrically connected with the opening of the refrigerating box 16 are symmetrically, the fixed shielding plate 19, the fixed plate 19 is slidingly connected with the opening of the shell 16, the opening of the main sliding chute is electrically, the opening of the opening 16 is, and the opening of the movable shielding plate 16 is electrically connected with a telescopic cylinder 15, and the servo cylinder is electrically connected with a telescopic cylinder 15 through a telescopic cylinder 15.

In this embodiment, the adjusting component 12 of the heat dissipation adjusting device is disposed at a position where the data center server 13 needs to dissipate heat, the box 1 is connected to an external fan (not shown in the figure) through the air inlet pipe 6, the junction box 14 is communicated with an external cooling liquid storage box (not shown in the figure) through the infusion pipe 10, a switch of the external fan is started, external air flows into the box 1 through the air inlet pipe 6, the air flows into the corresponding adjusting component 12 through the refrigerating box 2 along the conveying pipe 11, then is sprayed to the position where the data center server 13 needs to dissipate heat through an opening of the adjusting component 12, a switch of a liquid pump in the external cooling liquid storage box is started, so that cooling liquid can flow into the corresponding junction box 14 through one group of infusion pipes 10, and cooling liquid in the junction box 14 flows into the other group of junction box 14 through the refrigerating pipe 9, then, the cooling liquid flows back to the external cooling liquid storage tank through the infusion tube 10 communicated with the other group of confluence boxes 14, wherein the cooling liquid can correspondingly refrigerate and cool the refrigeration plate 7 in the process of flowing in the refrigeration tube 9, then, in the process of flowing the air flow, the refrigeration plate 7 can correspondingly refrigerate the air flow, then, the adjusting component 12 can spray cold air to the position to be cooled of the data center server 13, the heat dissipation effect of the data center server 13 is improved, the temperature sensor 20 arranged on the surface of the adjusting component 12 can transmit temperature data of the position to be cooled of the data center to the inside of the electrically connected PLC component in real time, the PLC component can start the corresponding servo cylinder according to the change of the temperature data, so that the telescopic rod of the servo cylinder can push the movable shielding plate 17 to move upwards or downwards, and then, the cooperation of the movable shielding plate 17 can be realized through the fixed shielding plate 18, the size of the air outlet opening of the shell 16 is flexibly adjusted, so that the flexibility of the heat dissipation adjusting device for coping with the data center servers 13 with different heat dissipation requirements can be effectively enhanced, the data center servers 13 are prevented from being excessively cooled, and the overall energy consumption of the heat dissipation adjusting device is reduced.

As a preferred embodiment, the adjusting component 12 is in a cuboid structure as a whole, the shell 16 is in a concave structure, the outer side surface of the shell 16 is close to the position of the opening and is fixedly connected with two groups of temperature sensors 20, meanwhile, two groups of main sliding grooves symmetrically formed on two sides of the opening of the shell 16 are in strip-shaped structures, and the length of each main sliding groove is greater than that of the fixing plate 19.

In this embodiment, as shown in fig. 3 and 4, the temperature sensor 20 is configured so that the adjusting component 12 can actually detect the temperature change of the corresponding data center server 13, so as to improve the flexibility of the adjusting component 12 during use and avoid the problem that the adjusting component 12 excessively dissipates heat or has insufficient heat dissipation effect on the data center server 13.

As a preferred embodiment, the opening of the housing 16 is fixedly connected with a plurality of groups of fixed shielding plates 18 at equal intervals along the vertical direction, the fixed shielding plates 18 are all rectangular, one side of the fixed shielding plates 18 close to the interior of the housing 16 is fixedly connected with an auxiliary plate, and the surface of the auxiliary plate is arc-shaped and protruding.

In this embodiment, as shown in fig. 3 and 4, the auxiliary plate disposed on the surface of the fixed shielding plate 18 can effectively reduce the impact force on the fixed shielding plate 18 when the airflow in the housing 16 flows, and the fixed shielding plate 18 is disposed, so that the adjusting component 12 can adjust the air outlet amount of the airflow according to actual needs.

In a preferred embodiment, the two sets of fixing plates 19 are two sets, the two sets of fixing plates 19 are all in a strip structure, the two sets of fixing plates 19 are fixedly connected with the plurality of sets of movable shielding plates 17 at equal intervals in parallel along the length direction, the plurality of sets of movable shielding plates 17 are all in a rectangular structure, and the fixing plates 19 and the movable shielding plates 17 are combined together to form a mesh-shaped structure.

In this embodiment, as shown in fig. 3 and fig. 4, the sizes of the fixing plate 19 and the main chute are matched, so that the stability of the moving shielding plate 17 during moving can be enhanced, and the fixing plate 19 is arranged, so that multiple groups of moving shielding plates 17 can move synchronously, and the number and positions of the moving shielding plates 17 and the fixed shielding plates 18 are in one-to-one correspondence, so that the accuracy of air output adjustment of the adjusting assembly 12 can be enhanced.

As a preferred embodiment, the refrigeration box 2 fixedly connected in the box 1 is of a cuboid structure, two groups of through openings formed in the side surfaces of two sides of the refrigeration box 2 are of rectangular structures, the refrigeration plate 7 and the auxiliary separation plate 8 fixedly connected in the inner cavity of the refrigeration box 2 are of rectangular structures, and the cross section of the inner cavity formed by combining the refrigeration box 2, the refrigeration plate 7 and the auxiliary separation plate 8 is of a serial-shaped structure.

In this embodiment, as shown in fig. 1, 2 and 3, the refrigeration plate 7 and the auxiliary separation plate 8 fixedly connected inside the refrigeration box 2 can lengthen the flow path of the air flow, and then can assist in enhancing the refrigeration effect of the air flow inside the refrigeration box 2, thereby assisting in enhancing the heat dissipation effect of the heat dissipation adjusting device on the data center server 13.

As a preferred embodiment, the inside of the refrigeration plate 7 is fixedly connected with a plurality of groups of refrigeration pipes 9 at equal intervals in parallel along the vertical direction, the plurality of groups of refrigeration pipes 9 are all in a cylindrical structure, and two groups of confluence boxes 14 fixedly connected with two ends of the refrigeration pipes 9 are all in a rectangular structure.

In this embodiment, as shown in fig. 1, 2 and 3, two groups of confluence boxes 14 are communicated with two ends of the refrigeration tube 9, so that the cooling liquid can flow in from one end of the refrigeration tube 9 and flow out from the other end, and then the circulating flow of the cooling liquid is realized by matching with the infusion tube 10, and the refrigeration effect of the refrigeration tube 9 and the refrigeration plate 7 is ensured.

As a preferred embodiment, the main separation plate 3 is of a rectangular structure, the cross section of the inner cavity of the box body 1 is of a door-shaped structure, the cross section of the filter screen 5, which is fixedly connected to one side, close to the air inlet pipe 6, of the top of the inner cavity of the box body 1 is of an L-shaped structure, meanwhile, the filter plate 4 is fixedly connected inside the box body 1 through a buckle, and the filter plate 4 is positioned below the filter screen 5.

In this embodiment, like fig. 1 and 2, the inside one side that is close to intake pipe 6 of box 1 is provided with air pressure sensor, can reduce the inside atmospheric pressure of box 1 too big, and the workman of being convenient for in time adjusts, and the security when reinforcing this heat dissipation adjusting device uses to filter 4 intussuseption is filled with activated carbon, can effective dry air current, also can assist filter screen 5 to carry out corresponding dust filtration to the air current, ensures the cleanliness factor of air current.

The heat dissipation adjusting device of the data center can adjust the heat dissipation efficiency of the heat dissipation adjusting device according to the temperature change of different data center servers 13 by matching the refrigerating box 2, the conveying pipe 11, the adjusting component 12 and the temperature sensor 20, so that the practicability of the heat dissipation adjusting device is enhanced, the external fan, the air pressure sensor, the temperature sensor 20 and the servo electric cylinder 15 are respectively and electrically connected with the PLC component, the parts related to circuits, electronic components and modules are all in the prior art, the parts related to the circuits, the electronic components and the modules can be completely realized by a person skilled in the art, and the protection content of the heat dissipation adjusting device does not relate to the improvement of software and a method.

Claims (7)

1. A data center heat dissipation adjustment device, comprising: a housing (1) and an adjustment component (12), characterized in that: a cooling box (2) is fixedly connected to the bottom of the inner cavity of the housing (1), a cooling plate (7) and a secondary partition plate (8) are symmetrically connected to the inner cavity of the cooling box (2), and a cooling pipe (9) is symmetrically connected inside the cooling plate (7), the two ends of the cooling pipe (9) pass through the cooling box (2) and the side wall of the housing (1) and are symmetrically connected to a junction box (14), and an infusion pipe (10) is fixedly connected to the side of the junction box (14), and an air inlet pipe (6) is fixedly connected to the upper end of one side of the housing (1), and the upper end of the other side of the housing (1) is connected to the adjustment component (12) through a delivery pipe (11), the adjustment component (12) is facing the data center server (13), and the housing... (1) A filter plate (4) and a filter screen (5) are fixedly connected to the side of the inner cavity near the air inlet pipe (6), and a main partition plate (3) is fixedly connected to the upper surface of the refrigeration box (2). The adjustment component (12) consists of a shell (16), a moving baffle (17) and a fixed baffle (18). The fixed baffle (18) is symmetrically connected to the opening of the shell (16), and the fixed plates (19) are symmetrically connected to both ends of the moving baffle (17). The fixed plates (19) are slidably connected to the main slide groove opened at the opening of the shell (16), and the servo cylinder (15) is fixedly connected to the top of the opening of the shell (16) through a groove. At the same time, the telescopic rod of the servo cylinder (15) is fixedly connected to the moving baffle (17), and the temperature sensor (20) is symmetrically connected to the outer side of the shell (16). 2. A data center heat dissipation adjustment device according to claim 1, characterized in that the adjustment component (12) is in the form of a cuboid structure, and the shell (16) is in the form of a concave structure. Two sets of temperature sensors (20) are fixedly connected to the outer side of the shell (16) near the opening. At the same time, two sets of main slides symmetrically opened on both sides of the opening of the shell (16) are in the form of long strips, and the length of the main slide is greater than the length of the fixed plate (19). 3. A data center heat dissipation adjustment device according to claim 1, characterized in that multiple sets of fixed shielding plates (18) are fixedly connected at equal intervals along the vertical direction at the opening of the housing (16), the multiple sets of fixed shielding plates (18) are all rectangular in structure, and an auxiliary plate is fixedly connected to the side of the fixed shielding plate (18) close to the inside of the housing (16), while the surface of the auxiliary plate is an arc-shaped protrusion. 4. A data center heat dissipation adjustment device according to claim 1, characterized in that the fixed plate (19) has two sets, both sets of fixed plates (19) are long strip structure, and multiple sets of movable shields (17) are fixedly connected between the two sets of fixed plates (19) at equal intervals along the length direction, and the multiple sets of movable shields (17) are rectangular structure, and the fixed plate (19) and movable shields (17) are combined together to form a 目-shaped structure. 5. A data center heat dissipation regulating device according to claim 1, characterized in that the cooling box (2) fixedly connected inside the box (1) has a cuboid structure, and the two sets of through openings on both sides of the cooling box (2) have a rectangular structure, and the cooling plate (7) and the sub-dividing plate (8) fixedly connected inside the cooling box (2) have a rectangular structure, and the cross section of the inner cavity formed by the cooling box (2), the cooling plate (7) and the sub-dividing plate (8) is a string-shaped structure. 6. A data center heat dissipation regulating device according to claim 1, characterized in that multiple sets of cooling pipes (9) are fixedly connected in parallel and at equal intervals along the vertical direction inside the cooling plate (7), and the multiple sets of cooling pipes (9) are all cylindrical structures, and the two sets of junction boxes (14) fixedly connected at both ends of the cooling pipes (9) are all rectangular structures. 7. A data center heat dissipation regulating device according to claim 1, characterized in that the main partition plate (3) is rectangular, the inner cavity of the box (1) is door-shaped, and the filter screen (5) fixedly connected to the top of the inner cavity of the box (1) near the air inlet pipe (6) is L-shaped. At the same time, the filter plate (4) is fixedly connected to the inside of the box (1) by a buckle, and the filter plate (4) is located below the filter screen (5).