CN218632297U - Modular industrial and commercial energy storage system - Google Patents

Abstract

The utility model belongs to the technical field of power storage, in particular to a modularized industrial and commercial energy storage system, which comprises a plurality of energy storage modules, wherein the energy storage modules are connected in series; the energy storage module comprises energy storage batteries and a cabinet body, the energy storage batteries are provided with a plurality of energy storage batteries and are uniformly placed in the cabinet body, a cabinet door is installed on one side face of the cabinet body, a refrigeration assembly is assembled at the top of the cabinet body, an exhaust assembly is installed at the bottom of the cabinet body, a cold air channel is arranged at the output end of the refrigeration assembly and communicated with the inside of the cabinet body, and an exhaust channel is arranged at the input end of the exhaust assembly; the loading platform is uniformly assembled inside the cabinet body. The utility model discloses can adjust installation space according to the specification and size of the energy storage battery that required used, be suitable for not unidimensional energy storage battery to use to can be accurate to the position of installing energy storage battery carries air conditioning, have better cooling effect.

Description

Modular industrial and commercial energy storage system

Technical Field

The utility model belongs to the technical field of the electric power is stored, concretely relates to modular industrial and commercial energy storage system.

Background

The electric power is an energy source serving as power and is a common energy source in modern society, but due to the particularity of electric power transportation, power failure caused by various conditions inevitably occurs when the electric power is used, for some specific occasions, a certain amount of electric power can be stored in advance to meet the emergency use in response to the unavoidable power failure condition, and the energy storage cabinet is required to be used for storing the electric power;

the energy storage cabinet is a basic unit of energy storage equipment, the daily electricity storage capacity of one energy storage cabinet reaches 5500 degrees, and like a large-sized charger, the energy storage cabinet is equivalent to the daily electricity consumption of more than five hundred families;

because the energy storage cabinet can generate higher heat when in operation, in order to achieve an ideal heat dissipation effect, a refrigeration element is added on the energy storage cabinet to produce cold air to suppress the heating phenomenon of the energy storage cabinet;

in the existing energy storage cabinet; the position of air conditioning air outlet is fixed, and the energy storage battery of different specifications can't be dealt with and use, and the position that cold wind blew out also is difficult to accurate position to every energy storage battery, can cause certain influence to the heat dissipation of battery.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a modular industrial and commercial energy storage system can be adjusted installation space according to the specification and size of the energy storage battery that needs to use, is suitable for not unidimensional energy storage battery to use to can be accurate carry air conditioning to the position of installing energy storage battery, better cooling effect has.

The utility model discloses the technical scheme who takes specifically as follows:

a modular industrial and commercial energy storage system comprises a plurality of energy storage modules, wherein the energy storage modules are connected in series;

the energy storage module comprises energy storage batteries and a cabinet body, the energy storage batteries are provided with a plurality of energy storage batteries and are uniformly placed in the cabinet body, a cabinet door is installed on one side face of the cabinet body, a refrigeration assembly is assembled at the top of the cabinet body, an exhaust assembly is installed at the bottom of the cabinet body, a cold air channel is arranged at the output end of the refrigeration assembly and communicated with the inside of the cabinet body, and an exhaust channel is arranged at the input end of the exhaust assembly;

the loading platforms are uniformly assembled in the cabinet body, the energy storage battery is placed above the loading platforms, a row of support frames are uniformly arranged on two sides of the interior of the cabinet body, and the loading platforms are loaded on the two support frames with equal height;

the plugging components are arranged in a plurality of groups, each group of plugging components is arranged in the inner wall of the cabinet body, each plugging component is positioned at one side of one of the support frames, the plugging components are used for sealing the communication among the cold air channel, the air exhaust channel and the cabinet body, and after the loading platform is installed, the cold air channel and the air exhaust channel with corresponding heights are communicated with the cabinet body.

Further, the shutoff subassembly includes push pedal, slide bar and shutoff board, a side at the push pedal is fixed to the slide bar, the slide bar is arranged in the inner wall of the cabinet body, just slide bar and cabinet body sliding connection, the shutoff board sets up the upper end at the slide bar, just the diameter of shutoff board is greater than the aperture in hole between intercommunication cabinet body intercommunication cold wind passageway and the passageway of airing exhaust.

Further, the one end of slide bar is fixed with the release link, the inside of the internal wall of cabinet is provided with the gliding spout that supplies the release link, the one end of release link is provided with the anticreep piece, anticreep piece diameter is greater than the aperture of spout, be provided with the second elastic component in the spout, the anticreep piece is located the one end of second elastic component.

Furthermore, the loading platform comprises an installation platform, trigger blocks are arranged on two sides of one end of the installation platform, the shape of each trigger block is the same as that of the push plate, and the push plate is pushed to move by the trigger blocks when the cabinet body is pushed by the installation platform.

Further, carry the loading platform and still include the curb plate, carry the dress fretwork board, shutoff piece gag lever post and first elastic component, the curb plate sets up the upper end in the mount table both sides, one side of curb plate is provided with ventilative hole, ventilative hole position and cabinet body intercommunication cold wind passageway and exhaust between the passageway hole correspond, carry the dress fretwork board setting in the top of mount table, the gag lever post is evenly installed in the bottom of carrying the dress fretwork board, just the bottom of gag lever post is located the below of mount table, first elastic component sets up in the below of carrying the dress fretwork board, just first elastic component is located the outside of gag lever post, the assembly of shutoff piece is at the both ends of carrying the dress fretwork board, just the shutoff piece position corresponds with ventilative hole.

Furthermore, a plurality of support columns are uniformly arranged on the upper surface of the mounting table.

The utility model discloses the technological effect who gains does:

the utility model discloses can adjust installation space according to the energy storage battery's that needs used specification and dimension, be suitable for not unidimensional energy storage battery and use to can be accurate carry air conditioning to the position of installing energy storage battery, have better cooling effect, also reduced the energy consumption.

Drawings

Fig. 1 is a schematic overall structure diagram of the present invention;

fig. 2 is a schematic structural diagram of the energy storage module of the present invention;

FIG. 3 is an exploded view of the loading platform of the present invention;

fig. 4 is a schematic view of an installation structure of the plugging assembly and the cabinet body of the present invention;

fig. 5 is a schematic view of the mounting structure of the loading platform and the cabinet body of the present invention.

In the drawings, the reference numbers indicate the following list of parts:

1. a cabinet body; 2. a cabinet door; 3. a refrigeration assembly; 4. an air exhaust assembly; 5. a cold air channel; 6. an air exhaust channel; 7. a support frame; 10. a loading stage; 11. an installation table; 12. a side plate; 13. loading the hollow-out plate; 14. a plugging sheet; 15. a limiting rod; 16. a first elastic member; 17. a support pillar; 20. a plugging component; 21. pushing the plate; 22. a slide bar; 23. a plugging plate; 24. a reset lever; 25. a second elastic member.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention will be described in detail with reference to the following embodiments. It is to be understood that the following text is only intended to describe one or several particular embodiments of the invention, and does not strictly limit the scope of the claims specifically claimed.

As shown in fig. 1 to 5, a modular industrial and commercial energy storage system includes a plurality of energy storage modules, which are connected in series;

the energy storage module comprises energy storage batteries and a cabinet body 1, the energy storage batteries are provided with a plurality of energy storage batteries and are uniformly placed in the cabinet body 1, a cabinet door 2 is installed on one side surface of the cabinet body 1, a refrigeration assembly 3 is assembled at the top of the cabinet body 1, an exhaust assembly 4 is installed at the bottom of the cabinet body 1, a cold air channel 5 is arranged at the output end of the refrigeration assembly 3, the cold air channel 5 is communicated with the inside of the cabinet body 1, and an exhaust channel 6 is arranged at the input end of the exhaust assembly 4;

the energy storage battery is placed above the loading table 10, a row of support frames 7 are uniformly arranged on two sides of the interior of the cabinet body 1, and the loading table 10 is loaded on the two support frames 7 with the same height;

the plugging components 20 are divided into a plurality of groups, each group of plugging components 20 is arranged in the inner wall of the cabinet body 1, each plugging component 20 is positioned at one side of one of the support frames 7, the plugging components 20 are used for sealing the communication among the cold air channel 5, the air exhaust channel 6 and the cabinet body 1, and after the loading platform 10 is installed, the cold air channel 5 and the air exhaust channel 6 at corresponding heights are communicated with the cabinet body 1;

when the energy storage battery cooling device is used, firstly, according to a use scene, a plurality of energy storage modules are installed and connected, then, according to the specification and size of energy storage batteries used in the energy storage battery cooling device, a proper number of loading platforms 10 are installed at a proper height in a cabinet body 1, after the loading platforms 10 are installed, the plugging assembly 20 is pushed to move, the plugging assembly 20 does not block the cabinet body 1 from communicating with a cold air channel 5 and an exhaust channel 6 after being displaced, at the moment, when the device runs, cold air can enter the cabinet body 1 through the cold air channel 5 and is exhausted out of the cabinet body 1 through the exhaust channel 6 again, then, the energy storage batteries are placed above the loading platforms 10, after the energy storage batteries are loaded, a circuit is checked, the energy storage batteries are communicated with a power supply and can be used, when the device is used, the refrigerating assembly 3 can produce cold air and blow into the cabinet body 1 from the cold air channel 5 to cool the energy storage batteries, and the cold air can enter the exhaust channel 6 and is exhausted from the exhaust assembly 4.

Referring to fig. 4 again, the plugging assembly 20 includes a push plate 21, a slide rod 22 and a plugging plate 23, the slide rod 22 is fixed on one side of the push plate 21, the slide rod 22 is located in the inner wall of the cabinet 1, the slide rod 22 is slidably connected to the cabinet 1, the plugging plate 23 is disposed at the upper end of the slide rod 22, and the diameter of the plugging plate 23 is greater than the aperture of the hole communicating the cabinet 1 and between the cold air channel 5 and the air exhaust channel 6;

above-mentioned, when carrying the loading platform 10 and not installing on the cabinet body 1, push pedal 21 is located the outside, the hole between cabinet body 1 intercommunication cold air passageway 5 and the passageway 6 of airing exhaust can then be blocked to shutoff board 23 this moment, then the cold wind that refrigeration assembly 3 made can not blow out by foretell hole, can avoid the cold wind to blow to the position that does not load energy storage battery, reduce the energy consumption, also can concentrate the cooling to the position that has energy storage battery, the effect is better, and after carrying the loading platform 10 installation, can push the push pedal 21 in the cabinet body 1, shutoff board 23 no longer plays the shutoff effect this moment, then air conditioning can normally get into in the cabinet body 1.

Referring to fig. 2 again, a reset rod 24 is fixed at one end of the sliding rod 22, a sliding slot for the reset rod 24 to slide is arranged inside the inner wall of the cabinet 1, an anti-releasing sheet is arranged at one end of the reset rod 24, the diameter of the anti-releasing sheet is greater than the aperture of the sliding slot, a second elastic member 25 is arranged in the sliding slot, and the anti-releasing sheet is located at one end of the second elastic member 25;

as described above, in a normal state, no object extrudes the push plate 21, the reset rod 24 is pushed out by the second elastic member 25, so that the push plate 21 is always kept at the outermost side, and the blocking plate 23 can always play a blocking role.

Referring to fig. 3 again, the loading platform 10 includes a mounting platform 11, two sides of one end of the mounting platform 11 are provided with trigger blocks, the shape of the trigger blocks is the same as that of the push plate 21, and the mounting platform 11 pushes the cabinet 1 and the trigger blocks push the push plate 21 to move;

as described above, when the loading platform 10 is installed, the trigger block contacts the push plate 21, and after the loading platform 10 is installed in the cabinet 1, the push plate 21 is pushed into the inner wall of the cabinet 1 completely, and at this time, the cool air can enter the cabinet 1.

Referring to fig. 3 and 5, the loading platform 10 further includes a side plate 12, a loading hollowed plate 13, a plugging sheet 14, a limiting rod 15 and a first elastic member 16, the side plate 12 is disposed at the upper end of the two sides of the mounting platform 11, one side of the side plate 12 is provided with a ventilation hole, the ventilation hole is located corresponding to a hole between the cold air channel 5 and the air exhaust channel 6 communicated with the cabinet 1, the loading hollowed plate 13 is disposed above the mounting platform 11, the limiting rod 15 is uniformly mounted at the bottom of the loading hollowed plate 13, the bottom end of the limiting rod 15 is located below the mounting platform 11, the first elastic member 16 is disposed below the loading hollowed plate 13, the first elastic member 16 is located outside the limiting rod 15, the plugging sheets 14 are mounted at the two ends of the loading hollowed plate 13, and the plugging sheets 14 are located corresponding to the ventilation hole;

above-mentioned, when wherein there is the energy storage battery to demolish the maintenance and temporarily not change, load fretwork board 13 can shift up under the promotion of first elastic component 16, and simultaneously together shift up with shutoff piece 14, ventilation hole can be plugged up to the shutoff piece 14 that shifts up for cold wind can't see through ventilation hole and insufflate in cabinet body 1, avoids the energy storage battery to demolish the back, and equipment operation still cools down to the original position, causes unnecessary energy consumption and reduces its radiating effect with the position.

Referring to fig. 3 again, a plurality of supporting columns 17 are uniformly arranged on the upper surface of the mounting table 11;

above-mentioned, load on year dress fretwork board 13 at energy storage battery after, can go down to load dress fretwork board 13 and descend, and support column 17 then can restrict the decline extreme low position of carrying dress fretwork board 13, guarantees to carry and has certain space between dress fretwork board 13 and the mount table 11, and the radiating effect to energy storage battery can be guaranteed to the blow through of cold wind from this space of being convenient for.

The utility model discloses a theory of operation does: according to a use scene and energy storage batteries required to be used, a proper number of loading platforms 10 are installed at a proper height in a cabinet body 1, when the loading platforms 10 are installed, trigger blocks on two sides of an installation platform 11 can contact a push plate 21, after the loading platforms 10 are installed in the cabinet body 1, the push plate 21 is completely pushed into the inner wall of the cabinet body 1, at the moment, a blocking plate 23 is moved, the cabinet body 1 is not blocked from being communicated with a cold air channel 5 and an air exhaust channel 6, when all the loading platforms 10 are installed at a proper height, no cold air is blown out from the positions where the loading platforms 10 are not installed, then the energy storage batteries are loaded on the loading platforms 10, a circuit is checked, the energy storage batteries can be used, when the energy storage batteries are used, a refrigeration assembly 3 can produce cold air and blow into the cabinet body 1 from the cold air channel 5 to cool the energy storage batteries, and the cold air can enter the air exhaust channel 6 and is discharged from the air exhaust assembly 4 after the energy storage batteries are cooled;

and when the energy storage battery breaks down and needs to be removed, the loading platform 10 at the position of the energy storage battery is removed, wherein the loading hollow-out plate 13 can move upwards under the pushing of the first elastic piece 16, and simultaneously the plugging piece 14 moves upwards together, and the upward plugging piece 14 can block the ventilation hole, so that cold air cannot blow into the cabinet body 1 through the ventilation hole, thereby avoiding unnecessary energy consumption and reducing the heat dissipation effect of the equipment and the position due to the fact that the equipment still cools the original position after the energy storage battery is removed.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention. The structures, devices, and methods of operation of the present invention, not specifically described and illustrated, are generally practiced by those of ordinary skill in the art without specific recitation or limitation.

Claims (6)

1. A modular industrial and commercial energy storage system, characterized in that: the energy storage device comprises a plurality of energy storage modules which are connected in series;

the energy storage module comprises energy storage batteries and a cabinet body (1), the energy storage batteries are provided with a plurality of energy storage batteries and are uniformly placed in the cabinet body (1), a cabinet door (2) is installed on one side face of the cabinet body (1), a refrigeration assembly (3) is assembled at the top of the cabinet body (1), an air exhaust assembly (4) is installed at the bottom of the cabinet body (1), a cold air channel (5) is arranged at the output end of the refrigeration assembly (3), the cold air channel (5) is communicated with the inside of the cabinet body (1), and an air exhaust channel (6) is arranged at the input end of the air exhaust assembly (4);

the energy storage battery energy storage cabinet comprises a loading platform (10), wherein the loading platform (10) is uniformly assembled inside a cabinet body (1), the energy storage battery is placed above the loading platform (10), a row of supporting frames (7) are uniformly arranged on two sides of the inside of the cabinet body (1), and the loading platform (10) is loaded on the two supporting frames (7) with the same height;

the air-cooling air-exhausting cabinet is characterized by comprising a plurality of groups of plugging components (20), each group of plugging components (20) is arranged in the inner wall of the cabinet body (1), each plugging component (20) is located on one side of one of the support frames (7), each plugging component (20) is used for sealing the communication among a cold air channel (5), an air exhausting channel (6) and the cabinet body (1), and after the loading platform (10) is installed, the cold air channel (5) and the air exhausting channel (6) with corresponding heights are communicated with the cabinet body (1).

2. The energy storage system of claim 1, wherein: the blocking component (20) comprises a push plate (21), a sliding rod (22) and a blocking plate (23), the sliding rod (22) is fixed on one side face of the push plate (21), the sliding rod (22) is located in the inner wall of the cabinet body (1), the sliding rod (22) is connected with the cabinet body (1) in a sliding mode, the blocking plate (23) is arranged at the upper end of the sliding rod (22), and the diameter of the blocking plate (23) is larger than the aperture of a hole between the communicated cabinet body (1) and the air exhaust channel (6).

3. The modular industrial and commercial energy storage system according to claim 2, wherein: the one end of slide bar (22) is fixed with release link (24), the inside of the cabinet body (1) inner wall is provided with the gliding spout that supplies release link (24), the one end of release link (24) is provided with the anticreep piece, anticreep piece diameter is greater than the aperture of spout, be provided with second elastic component (25) in the spout, the anticreep piece is located the one end of second elastic component (25).

4. The energy storage system of claim 2, wherein: the loading platform (10) comprises a mounting platform (11), trigger blocks are arranged on two sides of one end of the mounting platform (11), the trigger blocks are the same as the push plate (21), and the push plate (21) is pushed by the trigger blocks to move when the cabinet body (1) is pushed by the mounting platform (11).

5. The energy storage system of claim 4, wherein: the loading platform (10) further comprises side plates (12), loading hollowed-out plates (13), blocking pieces (14), limiting rods (15) and first elastic pieces (16), the side plates (12) are arranged at the upper ends of two sides of the mounting platform (11), ventilating holes are formed in one sides of the side plates (12), the ventilating holes correspond to holes between the cabinet body (1) and the communicated cold air channel (5) and the air exhaust channel (6), the loading hollowed-out plates (13) are arranged above the mounting platform (11), the limiting rods (15) are uniformly installed at the bottom of the loading hollowed-out plates (13), the bottom ends of the limiting rods (15) are located below the mounting platform (11), the first elastic pieces (16) are arranged below the loading hollowed-out plates (13), the first elastic pieces (16) are located outside the limiting rods (15), the blocking pieces (14) are assembled at two ends of the loading hollowed-out plates (13), and the blocking pieces (14) correspond to the ventilating holes.

6. The modular industrial and commercial energy storage system according to claim 4, wherein: the upper surface of mount table (11) evenly is provided with a plurality of support column (17).

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