CN220044033U - Load box for data center - Google Patents

Abstract

The utility model discloses a load box for a data center, which comprises a load box main body and a cooling mechanism; an air outlet end and an air inlet end are arranged on one side wall of the load box main body; the cooling mechanism is installed in the lateral wall of load case main part, and cooling mechanism includes the cooling case, is equipped with a pair of baffle in the cooling case, is formed with installation cavity, cooling chamber and dry chamber between a pair of baffle and the cooling incasement wall, is equipped with the aspiration pump in the installation cavity, is connected with the exhaust tube on the aspiration pump, is connected with the gas collecting channel on the exhaust tube, and the gas collecting channel is located out the end outside of giving vent to anger, is equipped with the cooling liquid in the cooling chamber, is connected with the outlet duct on the aspiration pump, and the outlet duct is inserted and is located in the cooling liquid. According to the utility model, through the arrangement of the corresponding mechanism, the heat in the load box can be rapidly dissipated, meanwhile, the heat dissipation efficiency of the load box of the data center is ensured without being influenced by the heat dissipated by the cabinet of the data center, the failure rate of the load box is reduced, and the normal use of the load box is facilitated.

Description

Load box for data center

Technical Field

The present utility model relates to a load box, and more particularly, to a load box for a data center.

Background

The load box is a power supply detection device, mainly used for carrying out load detection and maintenance on a generator, an uninterruptible power supply and a power transmission device, is a tool device for periodically testing and maintaining the generator set and the UPS, and has the advantages of attractive appearance, large capacity, strong stability, low noise, firmness, durability, long service life and the like.

The load box is also used in the data center and is mainly used for monitoring the load of the data cabinet, so that overload operation of the data cabinet is avoided. Because the data center cabinet is in a continuous operation state, the load box for the data center also needs to operate uninterruptedly, and a great amount of heat is easily generated by the load box.

In order to improve the radiating efficiency of the data center load box, a plurality of radiating holes are generally formed in the cabinet body of the load box, the radiating efficiency can be improved to a certain extent by arranging the plurality of radiating holes, but the radiating efficiency is still limited in a natural radiating mode, and heat emitted by the data center cabinet can enter the inside of the load box through the radiating holes, so that the high temperature of the load box is caused, and the fault rate of the load box is improved.

Accordingly, in order to solve the above-described problems, it is necessary to provide a load box for a data center.

Disclosure of Invention

The utility model aims to provide a load box for a data center, which can solve the problem of poor heat dissipation efficiency of the load box for the data center.

To achieve the above object, the present utility model provides a load box for a data center, comprising: a load box main body and a cooling mechanism.

An air outlet end and an air inlet end are arranged on one side wall of the load box main body.

The cooling mechanism is installed in the lateral wall of load box main part, the cooling mechanism includes the cooling box, be equipped with a pair of baffle in the cooling box, a pair of be formed with installation cavity, cooling chamber and dry chamber between baffle and the cooling box inner wall. The cooling device is characterized in that an air extracting pump is arranged in the installation cavity, an air extracting pipe is connected to the air extracting pump, an air collecting cover is connected to the air extracting pipe, the air collecting cover is arranged on the outer side of the air outlet end, cooling liquid is arranged in the cooling cavity, an air outlet pipe is connected to the air extracting pump, the air outlet pipe is inserted into the cooling liquid, a communicating pipe is connected to the partition board at the lower side of the air outlet pipe, the cooling cavity is communicated with the drying cavity through the communicating pipe, a through hole is formed in the side wall of the cooling box, and the through hole corresponds to the air inlet end.

In one or more embodiments, the cooling box with end homonymy with admitting air, be equipped with a plurality of louvres on the cooling box lateral wall, be convenient for dispel the heat to the aspiration pump for the aspiration pump is difficult for having high temperature when the operation, the installation cavity is linked together with the external world through the louvre.

In one or more embodiments, be equipped with the lid door on the cooling tank lateral wall, the lid door with the cooling chamber is corresponding, the lid door is higher than cooling liquid level, the staff can throw in the ice-cube to the cooling chamber through the lid door for reduce the temperature of cooling liquid, guarantee the cooling liquid and to the gaseous effect of continuously cooling of aspiration pump extraction, and then can improve the holistic cooling efficiency of load case main part.

In one or more embodiments, be equipped with temperature sensor in the cooling chamber, temperature sensor with load box main part electric connection for monitor the temperature of cooling liquid, so that the staff in time changes the cooling liquid, make the cooling liquid can last heat transfer with gas, and reduce gas temperature, when gas reenters in the load box main part, can reduce the inside temperature of load box main part, make the load box main part be difficult for having high temperature phenomenon, guarantee the safety in utilization of load box main part.

In one or more embodiments, the side wall of the cooling box is connected with a liquid discharge pipe, and the cooling cavity is communicated with the outside through the liquid discharge pipe, so that cooling liquid can be conveniently discharged. And the liquid discharge pipe is provided with a control valve for controlling the on-off of the liquid discharge pipe.

In one or more embodiments, one end of the communicating pipe located in the cooling cavity is higher than the liquid level of the cooling liquid, so that the cooling liquid is not easy to enter the drying cavity through the communicating pipe.

In one or more embodiments, a pair of metal mesh and dry cotton are arranged in the drying cavity, the dry cotton corresponds to the communicating pipe, the metal mesh is used for installing the dry cotton and the activated carbon, and the dry cotton is used for drying the gas conveyed from the communicating pipe, so that the gas entering the main body of the load box does not carry water vapor, the influence of the water vapor on the electric elements in the main body of the load box can be reduced, and the failure rate of the main body of the load box is reduced.

In one or more embodiments, a plurality of activated carbons are disposed in the drying chamber, the activated carbons being disposed between a pair of the metal meshes, the activated carbons being used to re-dry the gas.

Compared with the prior art, the load box for the data center has the advantages that through the arrangement of the corresponding mechanism, heat in the load box can be rapidly dissipated, meanwhile, the influence of heat dissipation of a cabinet of the data center is avoided, the heat dissipation efficiency of the load box of the data center is ensured, the failure rate of the load box is reduced, and the normal use of the load box is facilitated.

Drawings

Fig. 1 is a cross-sectional view of a load box for a data center according to an embodiment of the present utility model.

Fig. 2 is a schematic diagram of the structure at a in fig. 1.

Fig. 3 is a schematic diagram of the structure at B in fig. 1.

Fig. 4 is a perspective view of a load box for a data center according to an embodiment of the present utility model.

The main reference numerals illustrate:

1-load box main body, 2-cooling mechanism, 201-cooling box, 202-baffle, 203-aspiration pump, 204-exhaust tube, 205-gas collecting hood, 206-outlet duct, 207-cooling liquid, 208-communicating tube, 209-metal mesh, 210-dry cotton, 211-active carbon, 212-through hole, 213-cover door, 214-drain pipe.

Detailed Description

The following detailed description of embodiments of the utility model is, therefore, to be taken in conjunction with the accompanying drawings, and it is to be understood that the scope of the utility model is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the term "comprise" or variations thereof such as "comprises" or "comprising", etc. will be understood to include the stated element or component without excluding other elements or components.

As shown in fig. 1 to 4, a load box for a data center according to an embodiment of the present utility model includes: load box main body 1, cooling mechanism 2.

Wherein, be equipped with the end of giving vent to anger and advance the end of giving vent to anger on a lateral wall of load case main part 1, the end of giving vent to anger is convenient for aspiration pump 203 to bleed the steam in the load case main part 1. The gas inlet end is used for re-entering the load box main body 1 after cooling, and then the circulation of the gas in the load box main body 1 can be realized, the cooling efficiency in the load box main body 1 is improved, meanwhile, the influence of the heat emitted by the data center cabinet on the load box main body 1 can be reduced, and the running environment of the load box main body 1 is ensured.

As shown in fig. 1 to 4, the cooling mechanism 2 is mounted on a side wall of the load box main body 1. The cooling mechanism 2 is used for circularly cooling the gas temperature in the load box main body 1, realizing gas circulation in the load box main body 1, ensuring the cooling efficiency of the load box main body 1, and simultaneously reducing the influence of heat emitted by the data center cabinet on the load box main body 1. Wherein, cooling mechanism 2 includes cooling box 201, is equipped with a pair of baffle 202 in the cooling box 201, is formed with installation cavity, cooling chamber and dry chamber between a pair of baffle 202 and the cooling box 201 inner wall. In addition, the temperature reduction box 201 is on the same side as the air outlet end and the air inlet end, i.e., the state shown in fig. 1.

Preferably, be equipped with a plurality of louvres on the cooling tank 201 lateral wall, be convenient for dispel the heat to the aspiration pump 203 for aspiration pump 203 is difficult for having high temperature when the operation, and the installation cavity is linked together with the external world through the louvre.

Specifically, the installation intracavity is equipped with aspiration pump 203, is connected with exhaust tube 204 on the aspiration pump 203, is connected with gas collecting channel 205 on the exhaust tube 204, and the gas collecting channel 205 is located and is given out the air end outside, and the gas collecting channel 205 can be with the complete parcel of the end of giving out air of load box main part 1, and when aspiration pump 203 operates, can fully extract the steam in the load box main part 1 through gas collecting channel 205, and then can realize the cooling of load box main part 1. Preferably, the suction pump 203 is electrically connected to the load box main body 1, so as to control the operation of the suction pump 203.

As shown in fig. 1 to 4, a cooling liquid 207 is disposed in the cooling chamber, and the cooling liquid 207 is used for cooling the gas pumped by the pump 203. When the gas circulates, the temperature in the load box body 1 can be reduced, and the cooling efficiency of the load box body 1 can be improved. Wherein, be connected with outlet duct 206 on the aspiration pump 203, in the outlet duct 206 inserts locates cooling liquid 207, cooling liquid 207 is water for the steam of aspiration pump 203 extraction can fully with cooling liquid 207 contact, through direct contact's mode, to the cooling efficiency of steam faster.

Preferably, a temperature sensor is arranged in the cooling cavity and is electrically connected with the load box main body 1, and is used for monitoring the temperature of the cooling liquid 207, so that a worker can timely replace the cooling liquid 207, the cooling liquid 207 can continuously exchange heat with gas, and the temperature of the gas is reduced. When gas reenters the load box main body 1, the temperature inside the load box main body 1 can be reduced, so that the load box main body 1 is not easy to have high temperature phenomenon, and the use safety of the load box main body 1 is ensured.

In addition, be connected with communicating pipe 208 on the downside baffle 202, the cooling chamber is linked together with the drying chamber through communicating pipe 208, and the position that is shown in fig. 3 for the gas that is cooled down through cooling liquid 207 can enter into the drying chamber through communicating pipe 208 and dry, is used for reducing the steam that contains in the gas, makes steam be difficult for causing the influence to the electrical component in the load box main part 1, guarantees the safety in utilization and the stability of load box main part 1. Preferably, one end of communicating tube 208 located in the cooling chamber is higher than the liquid level of cooling liquid 207, so that cooling liquid 207 is not easy to enter the drying chamber through communicating tube 208.

Specifically, a pair of metal mesh 209 and dry cotton 210 are arranged in the drying cavity, the dry cotton 210 corresponds to the communicating pipe 208, the metal mesh 209 is used for installing the dry cotton 210 and the activated carbon 211, and the dry cotton 210 is used for drying the gas conveyed from the communicating pipe 208, so that the gas entering the load box main body 1 does not carry water vapor, the influence of the water vapor on electric elements in the load box main body 1 can be reduced, and the failure rate of the load box main body 1 is reduced. In addition, a plurality of activated carbon 211 are arranged in the drying cavity, the activated carbon 211 is arranged between the pair of metal meshes 209, and the activated carbon 211 is used for drying gas again.

As shown in fig. 1 to 4, through holes 212 are formed in the side wall of the cooling box 201, the through holes 212 correspond to the air inlet ends, and the dried air reenters the load box main body 1 through the through holes 212, so that air circulation can be formed in the load box main body 1, cooling efficiency in the load box main body 1 can be improved, and influence of heat emitted by a data center cabinet on the load box main body 1 can be reduced.

Wherein, be equipped with lid door 213 on the cooling tank 201 lateral wall, lid door 213 is corresponding with the cooling chamber, and lid door 213 is higher than cooling liquid 207 liquid level, and the staff can throw in the ice-cube to the cooling chamber through lid door 213 for reduce cooling liquid 207's temperature, guarantee cooling liquid 207 and to the continuous cooling effect of aspiration pump 203 extraction gas, and then can improve the holistic cooling efficiency of load case main part 1.

In addition, be connected with fluid-discharge tube 214 on cooling tank 201 lateral wall, the cooling chamber is linked together with the external world through fluid-discharge tube 214, is convenient for discharge cooling liquid 207. Specifically, a control valve is installed on the drain pipe 214 to control the on-off of the drain pipe 214.

When the load box body 1 is required to be cooled, the air pump 203 is turned on, and the air pump 203 sucks hot air in the load box body 1 through the air pump 203, the gas collecting hood 205 and the air outlet end and conveys the hot air into the cooling liquid 207 through the air outlet pipe 206. Because the temperature of the cooling liquid 207 is low, heat exchange occurs between hot gas and the cooling liquid 207, so that the temperature of the cooling liquid 207 is reduced, and when gas flows in the cooling liquid 207, the cooling liquid 207 can be stirred, so that the cooling liquid 207 is uniformly mixed, a temperature difference is not easy to occur, and the cooling effect of the cooling liquid 207 is ensured.

In addition, since the temperature sensor is arranged in the cooling liquid 207, when the temperature of the cooling liquid 207 is higher, the temperature sensor can send a signal to the load box main body 1 for reminding a worker, so that the worker can throw ice cubes into the cooling liquid 207 through the cover door 213 or replace the cooling liquid 207 through the liquid drain pipe 214, the cooling liquid 207 can be always kept at a lower temperature, and the cooling effect of the cooling liquid 207 can be guaranteed.

The gas cooled by the cooling liquid 207 enters the drying cavity through the communicating pipe 208 and is dried under the actions of the drying cotton 210 and the activated carbon 211, so that the content of water vapor in the gas is reduced, the water vapor is not easy to influence the electric elements in the load box main body 1, and the running environment of the load box main body 1 is ensured.

Through the through hole 212, the inlet end reenters the load box main body 1, forms gas circulation in the load box main body 1, can not only improve the cooling efficiency of the load box main body 1, but also reduce the influence of the heat emitted by the data center cabinet on the load box main body 1, and ensures the running environment of the load box main body 1.

The foregoing descriptions of specific exemplary embodiments of the present utility model are presented for purposes of illustration and description. It is not intended to limit the utility model to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain the specific principles of the utility model and its practical application to thereby enable one skilled in the art to make and utilize the utility model in various exemplary embodiments and with various modifications as are suited to the particular use contemplated. It is intended that the scope of the utility model be defined by the claims and their equivalents.

Claims (8)

1. A load box for a data center, comprising:

the load box comprises a load box body, wherein an air outlet end and an air inlet end are arranged on one side wall of the load box body;

the cooling mechanism is installed in the lateral wall of load case main part, cooling mechanism includes the cooling case, be equipped with a pair of baffle in the cooling case, a pair of be formed with installation cavity, cooling chamber and dry chamber between baffle and the cooling incasement wall, the installation intracavity is equipped with the aspiration pump, be connected with the exhaust tube on the aspiration pump, be connected with the gas collecting cover on the exhaust tube, the gas collecting cover is located the end outside of giving vent to anger, the cooling intracavity is equipped with the cooling liquid, be connected with the outlet duct on the aspiration pump, the outlet duct is inserted and is located in the cooling liquid, the downside be connected with communicating pipe on the baffle, the cooling chamber is linked together with the dry chamber through communicating pipe, be equipped with the through-hole on the cooling case lateral wall, the through-hole with the inlet end is corresponding.

2. The load box for the data center according to claim 1, wherein the cooling box is arranged on the same side as the air outlet end and the air inlet end, a plurality of heat dissipation holes are formed in the side wall of the cooling box, and the installation cavity is communicated with the outside through the heat dissipation holes.

3. The load box for a data center according to claim 1, wherein a cover door is provided on a side wall of the cooling box, the cover door corresponds to the cooling cavity, and the cover door is higher than the level of the cooling liquid.

4. A load box for a data center as claimed in claim 3, wherein a temperature sensor is provided in the cooling chamber, and the temperature sensor is electrically connected to the load box body.

5. A load box for a data center according to claim 3, wherein a drain pipe is connected to a side wall of the cooling box, the cooling chamber is communicated with the outside through the drain pipe, and a control valve is installed on the drain pipe.

6. The load box for a data center according to claim 1, wherein one end of the communicating pipe located in the cooling chamber is higher than the level of the cooling liquid.

7. The load box for a data center according to claim 1, wherein a pair of metal mesh and dry cotton are provided in the drying chamber, the dry cotton corresponding to the communication pipe.

8. The load box for a data center of claim 7, wherein a plurality of activated carbons are disposed in the drying chamber, and wherein the activated carbons are disposed between a pair of the metal meshes.