CN221305335U - Emergency power supply with efficient heat dissipation function - Google Patents

Abstract

The utility model relates to the technical field of emergency power supplies, in particular to an emergency power supply with a high-efficiency heat dissipation function, which comprises an emergency power supply box, wherein the side wall of the emergency power supply box is integrally connected with a heat dissipation box, an electric element is arranged in the emergency power supply box, the heat dissipation box is communicated with the emergency power supply box through a plurality of through holes, a heat dissipation hole is formed in one side of the emergency power supply box, which is far away from the heat dissipation box, a heat dissipation component is arranged in the heat dissipation box and used for blowing cold air to the electric element for heat dissipation, the heat dissipation component comprises a cooling liquid water tank, a cooling component is arranged on one side of the cooling liquid water tank and used for cooling liquid. Compared with the traditional heat dissipation mode, the utility model does not need to worry about changing blown wind into hot wind caused by external temperature, and has high cooling efficiency.

Description

Emergency power supply with efficient heat dissipation function

Technical Field

The utility model relates to the technical field of emergency power supplies, in particular to an emergency power supply with an efficient heat dissipation function.

Background

In recent years, the information industry in China continues to develop at a high speed, the information industry becomes an important support industry of national economy, the dependence of people on information is stronger, enterprise data is developed towards centralized storage and centralized management at present, and the centralized management of the enterprise data is greatly improved, and meanwhile, the risk of the data is centralized, so that the disaster recovery problem cannot be avoided. The importance of the disaster recovery is gradually highlighted along with the development and wide application of the information technology, an emergency power supply is required to be configured when the data disaster recovery platform is applied, so that faults caused by power failure are avoided, when the existing emergency power supply is used for radiating by using a fan, the fan is required to blow inwards to continuously radiate heat, but when the external temperature is higher, the blown wind is hot air easily, and the cooling effect is not ideal.

Disclosure of utility model

The utility model aims to provide an emergency power supply with an efficient heat dissipation function, so as to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The utility model provides an emergency power source with high-efficient heat dissipation function, includes the emergency power source case, the lateral wall integral type of emergency power source case is connected with the cooling case, the inside electrical component that is equipped with of emergency power source case, communicate with each other through a plurality of through-hole between cooling case and the emergency power source case, the louvre has been seted up to one side of the far discrete heat box of emergency power source case, be equipped with the radiator unit in the cooling case, the radiator unit is used for blowing cold air to electrical component and dispels the heat, the radiator unit includes the coolant liquid water tank, one side of coolant liquid water tank is equipped with the cooling subassembly, the cooling subassembly is used for cooling to the coolant liquid.

As a preferable scheme of the utility model, an air pump is arranged at one side of the top of the heat radiation box, which is far away from the emergency power supply box, an output port of the air pump is connected with an air duct, a coiled pipe is arranged in the cooling liquid water tank, both ends of the coiled pipe extend out of the top of the cooling liquid water tank, one end of the air duct, which is far away from the air pump, passes through the heat radiation box and is in sealing connection with one end of the coiled pipe, and the other end of the coiled pipe passes out of the cooling liquid water tank.

As a preferable scheme of the utility model, the air pump is fixed at the top of the heat dissipation box through bolts, the outer wall of the cooling liquid water tank is contacted with the inner wall of the heat dissipation box, and the air duct is fixed with the air pump output port in a sealing way through a flange.

As a preferable scheme of the utility model, the air pump air extraction end is sleeved with the dustproof cap, the end part of the dustproof cap is provided with the dustproof net, and the outer walls of the two sides of the dustproof cap are fixed with the outer wall of the air pump air extraction end through fastening bolts.

As a preferable scheme of the utility model, the cooling component comprises a heat-dissipating cold row provided with the outer wall of the cooling liquid water tank, a heat-dissipating fan is arranged on the side edge of the heat-dissipating cold row, an air outlet is arranged on the outer wall of the heat-dissipating box at the position of the heat-dissipating fan, a water suction pump is arranged at the bottom of one side in the cooling liquid water tank, the water outlet end of the water suction pump is connected with the water inlet end of the heat-dissipating cold row, the water outlet end of the heat-dissipating cold row extends to the inside of the heat-dissipating cold row through the top wall of the side wall of the cooling liquid water tank, a baffle is arranged above the heat-dissipating cold row, and the baffle is welded with the inner wall of the heat-dissipating box and the outer wall of the cooling liquid water tank.

As a preferable scheme of the utility model, the back of the emergency power supply box is provided with a sealing door through a hinge.

Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, external air is sent into the coiled pipe through the air guide pipe by the air pump in the heat radiating assembly, the temperature of air in the coiled pipe is reduced through the cooling liquid in the cooling liquid water tank, the cooled air is discharged from the coiled pipe, the continuously discharged cold air enters the emergency power supply box through the through hole, the electric elements are continuously cooled, the air flow in the emergency power supply box is realized, the hot air in the emergency power supply box is discharged through the heat radiating hole, compared with the traditional heat radiating mode, the worry that the blown air is changed into hot air due to the external temperature is avoided, and the cooling is efficient.

Drawings

FIG. 1 is a perspective view of the overall structure of the present utility model;

FIG. 2 is a side cross-sectional view of the radiator tank of the present utility model;

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

In the figure: 1. an emergency power supply box; 101. an electrical component; 102. a heat radiation hole; 103. sealing the door; 2. a heat radiation box; 201. an air outlet; 3. a heat dissipation assembly; 301. an air pump; 3011. a dust cap; 3012. a dust screen; 3013. a fastening bolt; 302. an air duct; 303. a cooling liquid water tank; 3031. a baffle; 304. a serpentine tube; 4. a cooling component; 401. radiating cold rows; 402. a heat dissipation fan; 403. a water pump; 5. and a through hole.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Examples

Referring to fig. 1-3, the present utility model provides a technical solution: the utility model provides an emergency power source with high-efficient heat dissipation function, including emergency power source case 1, emergency power source case 1 back is equipped with sealing door 103 through the hinge, emergency power source case 1's lateral wall integral type is connected with cooling tank 2, the inside electrical component 101 that is equipped with of emergency power source case 1, communicate with each other through a plurality of through-hole 5 between cooling tank 2 and the emergency power source case 1, cooling hole 102 has been seted up to one side of the far away discrete heat case 2 of emergency power source case 1, be equipped with radiator unit 3 in the cooling tank 2, radiator unit 3 is used for blowing cold air to electrical component 101 and dispels the heat, radiator unit 3 includes coolant liquid water tank 303, one side of coolant liquid water tank 303 is equipped with cooling module 4, cooling module 4 is used for cooling the coolant liquid.

When using this emergency power source, in entering emergency power source case 1 through-hole 5 through radiator unit 3 continuously exhaust cold air, carry out the cooling of persistence to electrical component 101 to realize the air flow in the emergency power source case 1, with the hot air in the emergency power source case 1 through the louvre 102 discharge, compare traditional heat dissipation mode, need not to worry to become hot-blast because of the wind that outside temperature leads to blowing, the cooling is high-efficient.

Referring to fig. 1-2, an air pump 301 is installed on one side of the top of the heat dissipation box 2 far from the emergency power box 1, an output port of the air pump 301 is connected with an air duct 302, a coiled pipe 304 is arranged in the cooling liquid water tank 303, two ends of the coiled pipe 304 extend out of the top of the cooling liquid water tank 303, one end of the air duct 302 far from the air pump 301 passes through the heat dissipation box 2 to be in sealing connection with one end of the coiled pipe 304, the other end of the coiled pipe 304 passes out of the cooling liquid water tank 303, the air pump 301 is fixed on the top of the heat dissipation box 2 through bolts, the outer wall of the cooling liquid water tank 303 is in contact with the inner wall of the heat dissipation box 2, and the air duct 302 is in sealing fixation with the output port of the air pump 301 through a flange;

The air pump 301 is sleeved with a dust cap 3011, a dust screen 3012 is installed at the end part of the dust cap 3011, and the outer walls of the two sides of the dust cap 3011 are fixed with the outer wall of the air pump 301 through fastening bolts 3013.

The air pump 301 in the heat dissipation assembly 3 works to pump external air into the air guide pipe 302, then the external air is sent into the coiled pipe 304 through the air guide pipe 302, the temperature of the air in the coiled pipe 304 is reduced by the cooling liquid in the cooling liquid water tank 303, the water adding pipe communicated with the cooling liquid water tank 303 is arranged on one surface of the heat dissipation box 2, which is far away from the emergency power supply box 1, so that the cooling liquid is convenient to add, the stay time of the air in the cooling liquid water tank 303 can be prolonged by the coiled pipe 304, the conversion of the temperature of the air is ensured, the cooled air is discharged from the air outlet end of the coiled pipe 304, and the continuously discharged cold air is blown to the electric element 101 through the through hole 5 for cooling operation;

Meanwhile, when the air pump 301 is used for exhausting, dust in air can be filtered through the installed dust screen 3012, the dust is reduced to enter the emergency power box 1 to affect the electric element 101, the dust cap 3011 can be detached from the exhaust end of the air pump 301 through the fastening bolt 3013, timing cleaning is conducted on the dust screen 3012, and the filtering effect is guaranteed.

Referring to fig. 2, the cooling assembly 4 includes a heat dissipation cold row 401 mounted on an outer wall of the coolant tank 303, the heat dissipation cold row 401 is a copper pipe heat dissipation row, a heat dissipation fan 402 is mounted on a side edge of the heat dissipation cold row 401, an air outlet 201 is formed at the position of the heat dissipation fan 402 on an outer wall of the heat dissipation box 2, a water pump 403 is arranged at a bottom of one side in the coolant tank 303, a water outlet end of the water pump 403 is connected with a water inlet end of the heat dissipation cold row 401, a water outlet end of the heat dissipation cold row 401 penetrates through a top wall of a side wall of the coolant tank 303 to extend into the inside of the side wall, a baffle 3031 is arranged above the heat dissipation cold row 401, and the baffle 3031 is welded with an inner wall of the heat dissipation box 2 and an outer wall of the coolant tank 303.

In order to keep the cooling liquid in the cooling liquid tank 303 in a low temperature state, the water pump 403 is operated to pump the cooling liquid, the cooling liquid enters the cooling fan 402 which is matched with the cooling cold row 401 from the water outlet to perform cooling treatment, and the cooled cooling liquid returns to the cooling liquid tank 303 from the water outlet end of the cooling cold row 401.

The working flow of the utility model is as follows: when the emergency power supply is used, the air pump 301 in the heat dissipation assembly 3 works to pump external air into the air guide pipe 302, the external air is sent into the coiled pipe 304 through the air guide pipe 302, the temperature of the air in the coiled pipe 304 is reduced by the cooling liquid in the cooling liquid water tank 303, the water adding pipe communicated with the cooling liquid water tank 303 is arranged on one surface of the heat dissipation box 2, which is far away from the emergency power supply box 1, of the heat dissipation box 2, so that the cooling liquid is convenient to add, the residence time of the air in the cooling liquid water tank 303 can be prolonged by the coiled pipe 304, the conversion of the air temperature is ensured, the cooled air is discharged from the air outlet end of the coiled pipe 304, and the continuously discharged cold air is blown to the electric element 101 through the through hole 5 for cooling operation.

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 (6)

1. The utility model provides an emergency power source with high-efficient heat dissipation function, includes emergency power source case (1), its characterized in that: the utility model discloses a cooling system for emergency power supply box, including emergency power supply box (1), lateral wall integral type of emergency power supply box (1) is connected with radiating box (2), inside electrical component (101) that is equipped with of emergency power supply box (1), communicate with each other through a plurality of through-hole (5) between radiating box (2) and emergency power supply box (1), radiating hole (102) have been seted up to one side that radiating box (2) was kept away from to emergency power supply box (1), be equipped with radiator unit (3) in radiating box (2), radiator unit (3) are used for cooling down electrical component (101) blowing, radiator unit (3) include coolant liquid water tank (303), one side of coolant liquid water tank (303) is equipped with cooling module (4), cooling module (4) are used for cooling down the coolant liquid.

2. The emergency power supply with efficient heat dissipation function as set forth in claim 1, wherein: the utility model discloses a cooling water tank, including emergency power supply case (1), cooling box (2), air pump (301) are installed to cooling box (2) top one side of keeping away from, the delivery outlet of air pump (301) is connected with air duct (302), inside coiled pipe (304) that are equipped with of coolant liquid water tank (303), cooling liquid water tank (303) top is all extended at coiled pipe (304) both ends, cooling box (2) and coiled pipe (304) one end sealing connection are passed in one end that cooling box (2) were kept away from to air duct (302), cooling liquid water tank (303) are worn out to the other end of coiled pipe (304).

3. An emergency power supply with efficient heat dissipation as defined in claim 2, wherein: the air pump (301) is fixed at the top of the heat dissipation box (2) through bolts, the outer wall of the cooling liquid water tank (303) is in contact with the inner wall of the heat dissipation box (2), and the air duct (302) is fixed with an output port of the air pump (301) in a sealing way through a flange.

4. An emergency power supply with efficient heat dissipation as defined in claim 2, wherein: the air pump (301) is provided with a dust cap (3011) in a sleeved mode, a dust screen (3012) is arranged at the end portion of the dust cap (3011), and outer walls of two sides of the dust cap (3011) are fixed with outer walls of the air pump (301) through fastening bolts (3013).

5. The emergency power supply with efficient heat dissipation function as set forth in claim 1, wherein: the cooling assembly (4) comprises a cooling cold row (401) provided with a cooling liquid water tank (303) outer wall, a cooling fan (402) is arranged on the side edge of the cooling cold row (401), an air outlet (201) is formed in the position, located at the position of the cooling fan (402), of the outer wall of the cooling box (2), a water suction pump (403) is arranged at the bottom of one side in the cooling liquid water tank (303), the water outlet end of the water suction pump (403) is connected with the water inlet end of the cooling cold row (401), the water outlet end of the cooling cold row (401) penetrates through the top wall of the side wall of the cooling liquid water tank (303) to extend into the cooling cold row, a baffle (3031) is arranged above the cooling cold row (401), and the baffle (3031) is welded with the inner wall of the cooling box (2) and the outer wall of the cooling liquid water tank (303).

6. The emergency power supply with efficient heat dissipation function as set forth in claim 1, wherein: the back of the emergency power supply box (1) is provided with a sealing door (103) through a hinge.