Modular combined scalable energy storage power supply device
By using modular design and heat dissipation structure, the problems of inconvenient expansion and unstable installation of energy storage power supply are solved, achieving flexible expansion and safe heat dissipation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 张轩
- Filing Date
- 2025-07-15
- Publication Date
- 2026-06-05
AI Technical Summary
Energy storage power supplies are inconvenient to modularize, have poor installation stability, and generate high heat at interfaces, which affects safety during use.
It adopts a modular design, using square card holes, T-shaped card holes, connecting card slots and other structures for stable connection, and is equipped with interface protective cover, filter screen, heat dissipation hole and cooling fan for heat dissipation, and is fixed with fastening bolts.
It enables flexible capacity expansion and stable installation of energy storage power supplies, improves interface protection and heat dissipation, and enhances safety in use.
Smart Images

Figure CN224329248U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of expandable energy storage power technology, specifically a modular expandable energy storage power device. Background Technology
[0002] A power source is a device that converts other forms of energy into electrical energy and provides electrical energy to a circuit. Power sources are based on the principle of "magnetism generating electricity" and are generated from renewable energy sources such as hydropower, wind power, tidal power, water pressure difference in dams, and solar energy, as well as from burning coal and oil residue. Common power sources are dry cell batteries and household 110V-220V AC power supplies, which include energy storage power supplies. These are commonly used in small appliances and outdoor operations and are widely used. However, energy storage power supplies are not easy to expand, which affects their practical use. Therefore, there is an urgent need for a modular and expandable energy storage power supply device.
[0003] Currently, energy storage power supplies are inconvenient to modularize, have poor installation stability, and generate high heat at the interfaces, which hinders heat dissipation and affects safety during use. Utility Model Content
[0004] The purpose of this utility model is to provide a modular and expandable energy storage power supply device to solve the problems mentioned in the background art, such as the inconvenience of modular combination of energy storage power supplies, poor installation stability, high interface heat, and difficulty in heat dissipation affecting the safety of use.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a modularly combinable expandable energy storage power supply device, including an expansion component, a module assembly component disposed below the expansion component, a heat dissipation component disposed between the expansion components, the module assembly component including a fixed base frame, a square card hole disposed on one side of the fixed base frame, a T-shaped card hole disposed on another side of the fixed base frame, a connecting slot disposed on one side of the fixed base frame, a square card block disposed on the other side of the fixed base frame that matches the square card hole, a T-shaped card block disposed on the other side of the fixed base frame that matches the T-shaped card hole, and a connecting block disposed on the other side of the fixed base frame that matches the connecting slot.
[0006] Preferably, the expansion component includes an energy storage power supply body, a first power interface is provided on one side of the energy storage power supply body, a second power interface is provided on the other side of the energy storage power supply body, and the first power interface and the second power interface are snapped together and fixed.
[0007] Preferably, the heat dissipation component includes an interface protective cover, which is disposed outside the first power interface and the second power interface, and is snapped between the two energy storage power bodies.
[0008] Preferably, the bottom of the interface protective cover is provided with a filter screen, the top of the interface protective cover is provided with linearly distributed heat dissipation holes, and a cooling fan is provided inside the heat dissipation holes.
[0009] Preferably, the interface protective cover is provided with a first support plate on both sides, and the energy storage power body is provided with a second support plate on both sides that is adapted to the first support plate.
[0010] Preferably, the first support plate and the second support plate are connected and fixed by fastening bolts, and the fastening bolts are connected and fixed by fastening nuts.
[0011] Preferably, the fixed base frame is located at the bottom of the energy storage power supply body.
[0012] Compared with the prior art, the beneficial effects of this utility model are:
[0013] 1. This modular expandable energy storage power device connects the energy storage power bodies through a first power interface and a second power interface, facilitating the fixing of two adjacent energy storage power bodies and enabling expansion. The square card holes and square card blocks, T-shaped card holes and T-shaped card blocks, and connecting card slots and connecting card blocks are connected by tenon and mortise joints, facilitating the connection of two adjacent fixed base frames, improving the stability of the connection between the first power interface and the second power interface, and enabling flexible assembly and expansion, making it more flexible to use.
[0014] 2. This modular, expandable energy storage power supply device features an interface protective cover for external protection of the first and second power interfaces, preventing external impacts. A filter and ventilation holes facilitate internal airflow, filtering external dust. A cooling fan accelerates airflow for effective air cooling, improving connection safety. Fastening bolts and nuts allow for easy connection of the first and second support plates, further securing the energy storage power supply unit. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0016] Figure 2 This is a partial structural schematic diagram of the present invention;
[0017] Figure 3 This is a schematic diagram of the heat dissipation component structure of this utility model;
[0018] Figure 4 This is a schematic diagram of the bottom structure of this utility model.
[0019] In the diagram: 1. Expansion component; 101. Energy storage power supply body; 102. First power interface; 103. Second power interface; 2. Module assembly component; 201. Fixed base frame; 202. Square card hole; 203. T-shaped card hole; 204. Connecting slot; 205. Square card block; 206. T-shaped card block; 207. Connecting card block; 3. Heat dissipation component; 301. Interface protective cover; 302. Filter screen; 303. Heat dissipation through hole; 304. Cooling fan; 305. First support plate; 306. Second support plate; 307. Fastening bolt; 308. Fastening nut. Detailed Implementation
[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0021] Please see Figures 1-4 This utility model provides a technical solution: a modularly combinable expandable energy storage power device, including an expansion component 1. The expansion component 1 includes an energy storage power body 101. A first power interface 102 is provided on one side of the energy storage power body 101, and a second power interface 103 is provided on the other side of the energy storage power body 101. The first power interface 102 and the second power interface 103 are snap-fitted together. A module assembly component 2 is provided below the expansion component 1, and a heat dissipation component 3 is provided between the expansion components 1. The module assembly component 2 includes a fixing base 201, which is located at the bottom of the energy storage power body 101. A square card hole 202 is provided on one side of the fixing base 201, a T-shaped card hole 203 is provided on another side of the fixing base 201, and a connecting slot 204 is provided on another side of the fixing base 201. On the other side of the fixed base 201, there is a square card block 205 that matches the square card hole 202. On the other side of the fixed base 201, there is a T-shaped card block 206 that matches the T-shaped card hole 203. On the other side of the fixed base 201, there is a connecting card block 207 that matches the connecting slot 204. The energy storage power bodies 101 are connected to each other through the first power interface 102 and the second power interface 103, which facilitates fixing two adjacent energy storage power bodies 101 and facilitates capacity expansion. The square card hole 202 and the square card block 205, the T-shaped card hole 203 and the T-shaped card block 206, and the connecting slot 204 and the connecting card block 207 are connected by tenon and mortise joints, which facilitates connecting two adjacent fixed bases 201, which facilitates improving the stability of the connection between the first power interface 102 and the second power interface 103, and facilitates flexible assembly and capacity expansion, making it more flexible to use.
[0022] The heat dissipation assembly 3 includes an interface protective cover 301, which is disposed outside the first power interface 102 and the second power interface 103, and is snapped between the two energy storage power bodies 101. A filter screen 302 is disposed at the bottom of the interface protective cover 301, and linearly distributed heat dissipation holes 303 are disposed at the top of the interface protective cover 301. A cooling fan 304 is disposed inside the heat dissipation holes 303. First support plates 305 are symmetrically arranged on both sides of the interface protective cover 301, and second support plates 306, adapted to the first support plates 305, are symmetrically arranged on both sides of the energy storage power body 101. Fastening bolts 307 are used to connect the first support plates 305 and the second support plates 306. The connection is fixed, and the fastening bolt 307 is connected and fixed with the fastening nut 308. The interface protective cover 301 facilitates the external protection of the first power interface 102 and the second power interface 103 to prevent external impact. The filter screen 302 and the heat dissipation hole 303 facilitate internal air circulation. The filter screen 302 facilitates the filtering of external dust. The cooling fan 304 accelerates the air flow rate to achieve the effect of air cooling and facilitates the heat dissipation of the first power interface 102 and the second power interface 103, which can improve the safety of the connection. The fastening bolt 307 and the fastening nut 308 facilitate the connection of the first support plate 305 and the second support plate 306, which can facilitate further fixation of the energy storage power body 101.
[0023] Working principle: The energy storage power supply bodies 101 are connected via a first power interface 102 and a second power interface 103, facilitating the fixing of two adjacent energy storage power supply bodies 101 and enabling capacity expansion. The square locking hole 202 and square locking block 205, the T-shaped locking hole 203 and T-shaped locking block 206, and the connecting slot 204 and connecting block 207 are connected by tenon and mortise joints, facilitating the connection of two adjacent fixed base frames 201. This improves the stability of the connection between the first power interface 102 and the second power interface 103, allowing for flexible assembly and capacity expansion, and making the use more flexible. The interface protective cover 3... 01 facilitates external protection of the first power interface 102 and the second power interface 103, preventing external impacts. The filter screen 302 and heat dissipation holes 303 facilitate internal air circulation. The filter screen 302 facilitates the filtering of external dust. The cooling fan 304 accelerates the airflow to achieve the effect of air cooling, facilitating heat dissipation of the first power interface 102 and the second power interface 103 and improving the safety of the connection. The fastening bolt 307 and the fastening nut 308 facilitate the connection of the first support plate 305 and the second support plate 306, facilitating further fixation of the energy storage power body 101.
[0024] Finally, it should be noted that the above content is only used to illustrate the technical solution of this utility model, and is not intended to limit the scope of protection of this utility model. Simple modifications or equivalent substitutions made by those skilled in the art to the technical solution of this utility model do not depart from the essence and scope of the technical solution of this utility model.
Claims
1. A modular, expandable energy storage power supply device, characterized in that: The system includes an expansion component (1), a module assembly component (2) is provided below the expansion component (1), a heat dissipation component (3) is provided between the expansion components (1), the module assembly component (2) includes a fixed base frame (201), a square card hole (202) is provided on one side of the fixed base frame (201), a T-shaped card hole (203) is provided on one side of the fixed base frame (201), a connecting slot (204) is provided on one side of the fixed base frame (201), a square card block (205) adapted to the square card hole (202) is provided on the other side of the fixed base frame (201), a T-shaped card block (206) adapted to the T-shaped card hole (203) is provided on the other side of the fixed base frame (201), and a connecting card block (207) adapted to the connecting slot (204) is provided on the other side of the fixed base frame (201).
2. The modularly combinable expandable energy storage power supply device according to claim 1, characterized in that: The expansion component (1) includes an energy storage power body (101), a first power interface (102) is provided on one side of the energy storage power body (101), and a second power interface (103) is provided on the other side of the energy storage power body (101), and the first power interface (102) and the second power interface (103) are snapped together.
3. The modularly combinable expandable energy storage power supply device according to claim 1, characterized in that: The heat dissipation component (3) includes an interface protective cover (301), which is disposed outside the first power interface (102) and the second power interface (103), and the interface protective cover (301) is snapped between the two energy storage power bodies (101).
4. The modularly combinable expandable energy storage power supply device according to claim 3, characterized in that: The bottom of the interface protective cover (301) is provided with a filter screen (302), and the top of the interface protective cover (301) is provided with heat dissipation holes (303) arranged in a linear pattern. A cooling fan (304) is provided inside the heat dissipation holes (303).
5. A modularly combinable expandable energy storage power supply device according to claim 3, characterized in that: The interface protective cover (301) is symmetrically provided with first support plates (305) on both sides, and the energy storage power body (101) is symmetrically provided with second support plates (306) that are adapted to the first support plates (305) on both sides.
6. The modularly combinable expandable energy storage power supply device according to claim 5, characterized in that: The first support plate (305) and the second support plate (306) are connected and fixed by fastening bolts (307), and the fastening bolts (307) are connected and fixed by fastening nuts (308).
7. The modularly combinable expandable energy storage power supply device according to claim 1, characterized in that: The fixed base frame (201) is located at the bottom of the energy storage power supply body (101).