CN218850204U - Station house type energy storage power station cooling system - Google Patents

Abstract

The utility model discloses a cooling system for a station-type energy storage power station, which relates to the field of power grid energy storage and includes a station building and a heat dissipation roof. The station building includes a box body and a box door. roof, which includes a rain-shielding cover and connecting components, and a connecting component is installed at the bottom of the rain-shielding cover. Through the cooling component structure, it is convenient to quickly cool down the interior of the energy storage power station and the surface of the battery, and it can also reduce the temperature in the station building. Maintaining within the normal operating range of the battery can ensure the power supply performance of the battery. Through the structure of the exhaust fan, exhaust mechanism and exhaust mechanism, it is convenient to discharge the heat in the station building to the outside, and at the same time, it can also prevent impurities such as external dust from entering the block. Inside the rain cover, in order to achieve the purpose of rapid heat dissipation of the station building, through the fixed component and the special-shaped card slot structure, it is convenient to connect the sealing plate to the inside of the sealing plate groove, and it can also improve the stability of the connection between the station building and the heat dissipation roof sex.

Description

A cooling system for a station-type energy storage power station

technical field

The utility model relates to the technical field of power grid energy storage, in particular to a cooling system for a station-type energy storage power station.

Background technique

The station-type energy storage power station mainly uses batteries for energy storage and power supply. Because the space inside the energy storage station is too small, the battery itself will generate heat during charging and discharging, which will cause the temperature in the station to rise sharply, thereby affecting to the power supply performance of the battery. In order to keep the temperature in the station building at the normal operating temperature of the battery, it is necessary to quickly dissipate the temperature in the station building.

Utility model content

The purpose of this section is to outline some aspects of embodiments of the present invention and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section, as well as in the abstract of the specification and the title of the utility model of this application, to avoid obscuring the purpose of this section, the abstract of the specification, and the title of the utility model, and such simplifications or omissions cannot be used to limit the utility model range.

In view of the above and/or existing problems, the utility model is proposed.

Therefore, the problem to be solved by the utility model is how to provide a cooling system for a station-type energy storage power station.

In order to solve the above technical problems, the utility model provides the following technical solutions: a heat dissipation system for a station-type energy storage power station, comprising:

Station building and cooling roof;

The station building includes a box body and a box door, and a box door is arranged on the front of the box body;

The heat dissipation roof includes a rain shield cover and a connection assembly, and a connection assembly is installed at the bottom of the rain shield cover.

Based on the above technical features: it is convenient to quickly cool down the interior of the energy storage power station and the surface of the battery, and it can also maintain the temperature in the station building within the normal operating range of the battery, which can ensure the power supply performance of the battery and facilitate the transfer of heat in the station building to the battery. At the same time, it can also prevent external dust and other impurities from entering the interior of the rain shield, so as to achieve the purpose of rapid cooling of the station building.

As a preferred solution for the heat dissipation system of the station-type energy storage power station described in the utility model, wherein: the box body includes an insulating frame, a shelf plate, a sealing insert plate and a cooling assembly, and multiple sets of shelf plates are installed inside the insulating frame , the top of the insulating frame is connected with a sealing board, and the side end of the insulating frame is also provided with a cooling assembly.

Based on the above technical features: it can improve the sealing of the connection between the cooling roof and the station building, and prevent impurities such as dust from entering the interior of the energy storage power station.

As a preferred solution of the heat dissipation system of the station-type energy storage power station of the utility model, wherein: the top of the sealing plate is provided with a limiting groove, and a fixing component is also arranged inside the limiting groove.

Based on the above technical features: the stability of the connection between the sealing insert plate and the sealing plate groove can be improved.

As a preferred solution for the heat dissipation system of the station-type energy storage power station described in the utility model, wherein: the bottom of the fixed assembly is provided with a limit slide plate, and a fixed spring is connected to one side of the fixed assembly, and a fixed spring is also connected to the side end of the fixed assembly. Installed with shaped blocks.

Based on the above technical features: it is convenient to install and disassemble the station building and the cooling roof, and it is also convenient to clean and maintain the station building and the cooling roof.

As a preferred solution for the heat dissipation system of the station-type energy storage power station described in the present invention, wherein: the cooling assembly includes a refrigerator, a refrigeration pipe and a semiconductor refrigeration sheet, and a refrigeration pipe is connected to the side end of the refrigerator, and the refrigeration pipe One end is also provided with a semiconductor cooling chip.

Based on the above technical features: it is convenient to quickly cool down the interior of the energy storage power station and the surface of the battery, and it can also maintain the temperature in the station building within the normal operating range of the battery.

As a preferred solution for the heat dissipation system of the station-type energy storage power station described in the utility model, wherein: the rain-shielding cover includes an exhaust fan, an exhaust mechanism and an air extraction mechanism, and an exhaust mechanism is arranged on both sides of the exhaust fan. An air extraction mechanism is also connected to the bottom of the exhaust fan.

Based on the above technical features: it is convenient to discharge the heat in the station building to the outside.

As a preferred solution of the heat dissipation system of the station-type energy storage power station of the utility model, an exhaust pipe is arranged outside the exhaust mechanism, and a dustproof plug is installed at the bottom of the exhaust pipe.

Based on the above technical features: it can prevent impurities such as external dust from entering the interior of the exhaust pipe.

As a preferred solution for the heat dissipation system of the station-type energy storage power station of the utility model, an air extraction pipe is arranged outside the air extraction mechanism, and a dustproof screen is installed at the bottom of the air extraction pipe.

Based on the above technical features: it can prevent impurities such as external dust from entering the inside of the rain shield.

As a preferred solution for the heat dissipation system of the station-type energy storage power station described in the utility model, wherein: the connection assembly includes a heat dissipation plate, a heat dissipation cover and a heat exhaust port, and multiple groups of heat dissipation covers are arranged in the middle of the heat dissipation plate. The side end of the cover is also provided with multiple groups of heat exhaust ports.

Based on the above technical features: it is convenient to quickly dissipate heat inside the station building.

As a preferred solution for the heat dissipation system of the station-type energy storage power station described in the present invention, a sealing plate groove is provided on the outer side of the heat dissipation plate, and multiple sets of special-shaped card grooves are provided on the inner side of the sealing plate groove.

Based on the above-mentioned technical features: it is convenient to snap-connect the sealing plate to the inside of the sealing plate groove, thereby improving the stability of the connection between the station building and the cooling roof.

The beneficial effects of the utility model are: through the structure of the cooling component, it is convenient to quickly cool down the interior of the energy storage power station and the surface of the battery, and the temperature in the station building can also be maintained within the normal operating range of the battery, which can ensure the power supply performance of the battery. The structure of exhaust fan, exhaust mechanism and air extraction mechanism facilitates the discharge of heat in the station building. At the same time, it can also prevent impurities such as external dust from entering the interior of the rain shield, so as to achieve the purpose of rapid cooling of the station building. The fixed component and the special-shaped card slot structure facilitate the buckle connection of the sealing plate to the inside of the sealing plate slot, and can also improve the stability of the connection between the station building and the heat dissipation roof.

Description of drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the accompanying drawings that need to be used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings in the following description are only some embodiments of the present invention , for those skilled in the art, other drawings can also be obtained according to these drawings on the premise of not paying creative labor. in:

Fig. 1 is the overall structural diagram of the heat dissipation system of the station-type energy storage power station in Example 1.

Fig. 2 is a schematic structural diagram of the heat dissipation system of the station-type energy storage power station in Example 1.

Fig. 3 is a schematic structural diagram of the heat dissipation system of the station-type energy storage power station in Example 2.

Fig. 4 is a schematic structural diagram of the heat dissipation system of the station-type energy storage power station in Example 3.

Fig. 5 is a schematic structural diagram of the heat dissipation system of the station-type energy storage power station in Example 3.

In the accompanying drawings, the list of parts represented by each label is as follows:

100. Station building; 101. Box body; 101a. Insulation frame; 101b. Shelf plate; 101c. Sealing board; 101c-1. Limiting slot; 2b, fixed spring; 101c-2c, special-shaped block; 101d, cooling assembly; 101d-1, refrigerator; 101d-2, refrigeration pipe; 101d-3, semiconductor refrigeration sheet; 102, box door; , rain cover; 201a, exhaust fan; 201b, exhaust mechanism; 201b-1, exhaust pipe; 201b-2, dust plug; 201c, exhaust mechanism; 201c-1, exhaust pipe; Dust mesh plate; 202, connection assembly; 202a, heat dissipation plate; 202a-1, sealing plate groove; 202a-2, special-shaped card groove; 202b, heat dissipation cover;

Detailed ways

In order to make the above purpose, features and advantages of the utility model more obvious and easy to understand, the specific implementation of the utility model will be described in detail below in conjunction with the accompanying drawings.

In the following description, a lot of specific details have been set forth in order to fully understand the utility model, but the utility model can also be implemented in other ways that are different from those described here, and those skilled in the art can do so without violating the connotation of the utility model. Under the circumstances, similar promotion is done, so the utility model is not limited by the specific embodiments disclosed below.

Secondly, "one embodiment" or "embodiment" referred to herein refers to a specific feature, structure or characteristic that may be included in at least one implementation of the present invention. "In one embodiment" appearing in different places in this specification does not all refer to the same embodiment, nor is it a separate or selective embodiment that is mutually exclusive with other embodiments.

Example 1

Referring to Figures 1-5, it is the first embodiment of the present utility model, which provides a station-type energy storage power station cooling system, including:

Station building 100 and cooling roof 200;

Station building 100, which includes a box body 101 and a box door 102, and a box door 102 is provided on the front of the box body 101;

The heat dissipation roof 200 includes a rain shield 201 and a connection assembly 202. The connection assembly 202 is also installed at the bottom of the rain shield 201. Through the structure of the cooling assembly 101d, it is convenient to quickly cool down the interior of the energy storage power station and the surface of the battery. The temperature in the station building 100 can be maintained within the normal operating range of the battery, and the power supply performance of the battery can be guaranteed. Through the structure of the exhaust fan 201a, the exhaust mechanism 201b and the exhaust mechanism 201c, the heat in the station building 100 can be easily discharged to the outside , at the same time, it can also prevent impurities such as external dust from entering the interior of the rain shield 201 , so as to achieve the purpose of quickly dissipating heat from the station building 100 .

Example 2

Referring to Fig. 2-3, it is the second embodiment of the utility model, which is different from the first embodiment in that: the box body 101 includes an insulating frame 101a, a frame plate 101b, a sealing board 101c and a cooling assembly 101d, and the insulating A plurality of sets of shelf plates 101b are installed inside the frame 101a, a sealing board 101c is connected to the top of the insulating frame 101a, and a cooling assembly 101d is provided at the side end of the insulating frame 101a, through the sealing board 101c and the sealing board groove 202a- 1 structure, which can improve the tightness of the connection between the cooling roof 200 and the station building 100, and prevent dust and other impurities from entering the interior of the energy storage power station. There is also a fixing component 101c-2 inside. Through the structure of the fixing component 101c-2 and the special-shaped slot 202a-2, the stability of the connection between the sealing plate 101c and the sealing plate groove 202a-1 can be improved, and the bottom of the fixing component 101c-2 A limit slide plate 101c-2a is set, a fixed spring 101c-2b is connected to one side of the fixed component 101c-2, and a special-shaped block 101c-2c is also installed at the side end of the fix component 101c-2, through the limit slide plate 101c-2a 1. Fixed spring 101c-2b and special-shaped block 101c-2c structure, convenient for installation and disassembly of station building 100 and heat dissipation roof 200, and also convenient for cleaning and maintenance of station building 100 and heat dissipation roof 200, cooling assembly 101d includes refrigerator 101d-1 , refrigeration pipe 101d-2 and semiconductor refrigeration sheet 101d-3, located at the side end of refrigerator 101d-1 connected with refrigeration pipe 101d-2, and one end of refrigeration pipe 101d-2 is also provided with semiconductor refrigeration sheet 101d-3, through Refrigerator 101d-1, refrigerating tube 101d-2 and semiconductor cooling sheet 101d-3 are structured to facilitate rapid cooling of the interior of the energy storage power station and the surface of the battery, and can also maintain the temperature in the station building 100 within the normal operating range of the battery .

Example 3

Referring to Fig. 3-4, it is the third embodiment of the present utility model, which is different from the first two embodiments in that: the rain shield 201 includes an exhaust fan 201a, an exhaust mechanism 201b and an exhaust mechanism 201c, located at the exhaust fan 201a Exhaust mechanisms 201b are arranged on both sides of the exhaust fan 201a, and an exhaust mechanism 201c is connected to the bottom of the exhaust fan 201a. Through the structure of the exhaust fan 201a, the exhaust mechanism 201b and the exhaust mechanism 201c, it is convenient to transfer the heat in the station building 100 to External exhaust, the exhaust mechanism 201b is provided with an exhaust pipe 201b-1, and a dustproof plug 201b-2 is installed at the bottom of the exhaust pipe 201b-1. The structure of the dustproof plug 201b-2 can prevent external Impurities such as dust enter the inside of the exhaust pipe 201b-1, and the outside of the air extraction mechanism 201c is provided with an air extraction pipe 201c-1, and a dust-proof mesh plate 201c-2 is also installed at the bottom of the air extraction pipe 201c-1. The plate 201c-2 structure can prevent impurities such as external dust from entering the inside of the rain shield 201. The connecting assembly 202 includes a heat dissipation plate 202a, a heat dissipation cover 202b and a heat exhaust port 202c, and multiple groups of heat dissipation covers 202b are arranged in the middle of the heat dissipation plate 202a A plurality of groups of heat exhaust ports 202c are also provided at the side end of the heat dissipation cover 202b. Through the structure of the heat dissipation plate 202a, the heat dissipation cover 202b and the heat exhaust port 202c, the heat dissipation roof 200 facilitates rapid heat dissipation treatment for the interior of the station building 100, and the heat dissipation plate 202a There is a sealing plate groove 202a-1 on the outer side of the sealing plate groove 202a-1, and a plurality of sets of special-shaped card grooves 202a-2 are provided on the inner side of the sealing plate groove 202a-1. Through the structure of the sealing plate groove 202a-1 and the special-shaped card groove 202a-2, it is convenient to insert The sealing plate 101c is snap-connected to the inside of the sealing plate groove 202a-1, so as to improve the stability of the connection between the station building 100 and the heat dissipation roof 200.

It should be noted that the above embodiments are only used to illustrate the technical solutions of the present utility model without limitation. Although the utility model has been described in detail with reference to the preferred embodiments, those of ordinary skill in the art should understand that the utility model can be Modifications or equivalent replacements of the technical solutions without departing from the spirit and scope of the technical solutions of the utility model shall be covered by the claims of the utility model.

Claims (6)

1. A station-type energy storage power station cooling system, characterized in that: comprising, Station building (100) and cooling roof (200); A station house (100), which includes a box body (101) and a box door (102), and a box door (102) is provided on the front of the box body (101); A heat dissipation roof (200), which includes a rain shield cover (201) and a connection assembly (202), and a connection assembly (202) is also installed at the bottom of the rain shield cover (201); The box (101) includes an insulating frame (101a), a shelf (101b), a sealing insert (101c) and a cooling assembly (101d), and multiple sets of shelf (101b) are installed inside the insulating frame (101a) , the top of the insulating frame (101a) is connected with a sealing board (101c), and the side end of the insulating frame (101a) is also provided with a cooling assembly (101d); A limiting groove (101c-1) is provided on the top of the sealing plate (101c), and a fixing component (101c-2) is also arranged inside the limiting groove (101c-1); The bottom of the fixed assembly (101c-2) is provided with a limit slide plate (101c-2a), and a fixed spring (101c-2b) is connected to one side of the fixed assembly (101c-2). A special-shaped block (101c-2c) is also installed at the side end; The bottom of the fixed assembly (101c-2) is provided with a limit slide plate (101c-2a), and a fixed spring (101c-2b) is connected to one side of the fixed assembly (101c-2). A special-shaped block (101c-2c) is also installed at the side end; The cooling assembly (101d) includes a refrigerator (101d-1), a refrigeration pipe (101d-2) and a semiconductor refrigeration sheet (101d-3), and the side end of the refrigerator (101d-1) is connected with a refrigeration pipe (101d -2), one end of the refrigeration pipe (101d-2) is also provided with a semiconductor refrigeration sheet (101d-3). 2. The heat dissipation system of a station-type energy storage power station according to claim 1, characterized in that: the rain shield cover (201) includes an exhaust fan (201a), an exhaust mechanism (201b) and an air extraction mechanism (201c ), an exhaust mechanism (201b) is arranged on both sides of the exhaust fan (201a), and an exhaust mechanism (201c) is also connected to the bottom of the exhaust fan (201a). 3. The heat dissipation system of a station-type energy storage power station according to claim 2, characterized in that: an exhaust pipe (201b-1) is arranged outside the exhaust mechanism (201b), and is located at the exhaust pipe (201b -1) A dust plug (201b-2) is installed at the bottom end. 4. The heat dissipation system of a station-type energy storage power station according to claim 3, characterized in that: an air extraction pipe (201c-1) is arranged outside the air extraction mechanism (201c), and an air extraction pipe (201c-1) ) is also equipped with a dust-proof net plate (201c-2). 5. The heat dissipation system of a station-type energy storage power station according to claim 4, characterized in that: the connection assembly (202) includes a heat dissipation plate (202a), a heat dissipation cover (202b) and a heat exhaust port (202c), Multiple sets of heat dissipation covers (202b) are arranged in the middle of the heat dissipation plate (202a), and multiple sets of heat exhaust ports (202c) are provided at the side ends of the heat dissipation cover (202b). 6. The heat dissipation system of a station-type energy storage power station according to claim 5, characterized in that: a sealing plate groove (202a-1) is opened on the outer side of the heat dissipation plate (202a), and is located in the sealing plate groove (202a- The inner side of 1) is also provided with multiple groups of special-shaped card slots (202a-2).

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