CN221842336U - An energy storage power supply with integrated detachable walking structure - Google Patents

Abstract

The utility model discloses an energy storage power supply integrated with a detachable walking structure, which belongs to the technical field of energy storage power supplies and comprises a power supply box, energy storage batteries, a movable assembly and a leakage detection assembly, wherein a plurality of battery grooves are formed in the power supply box, the energy storage batteries are respectively installed in the battery grooves, the leakage detection assembly is respectively arranged between the plurality of energy storage batteries and the power supply box, the leakage detection assembly comprises a leakage detection switch and an alarm, and the bottom of the power supply box is connected with the detachable movable assembly. The beneficial effects of the utility model are as follows: the energy storage batteries are combined on the movable assembly to form an energy storage power supply, the capacity of an outdoor portable power supply can be improved, the movable assembly is simple to disassemble and assemble, overhaul and replace are convenient, the movable assembly can be disassembled to enable the power supply to move and carry flexibly, the energy storage batteries can be monitored through the electric leakage detection assembly arranged in the power supply, and the power supply is further improved in safety by reminding through the alarm when abnormal circuit conditions occur.

Description

An energy storage power supply with integrated detachable walking structure

Technical Field

The utility model relates to the technical field of energy storage power supplies, and in particular to an energy storage power supply integrated with a detachable walking structure.

Background Art

Energy storage power supply is a device that stores electrical energy and can be used outdoors or in power emergencies. Currently on the market, whether it is an outdoor power supply, an outdoor mobile power supply, or a portable energy storage power supply, they are all a type of energy storage power supply. The energy storage power supply is not an electricity production unit, but just an electricity storage warehouse, like a granary. It first stores external electrical energy and then releases it when and where electricity is needed. The entire energy storage power supply consists of four parts: power conversion unit, power management unit, power storage unit, and power supply unit.

The energy storage power supply in the prior art lacks a walking structure that is easy to disassemble, which makes it inconvenient to flexibly move the energy storage power supply while being easy to disassemble and assemble quickly. The protection capability of the energy storage power supply itself needs to be improved, and there is a lack of a protection structure. There is also a lack of a safety warning structure for the safety of the energy storage power supply. At the same time, a utility model patent with announcement number CN218449562U discloses an energy storage power supply with a sliding structure, including a box body, a fixed block is installed on one side of the box body, two groups of first mounting grooves are symmetrically opened on one side of the fixed block, two groups of pins are symmetrically installed on the opposite inner sides of the first mounting groove, two groups of rollers are movably installed on the outer surface of the pin, a movable groove is opened on the top of the fixed block, a slide plate is installed on the inner surface of the movable groove, a limit block is installed on the bottom of the slide plate, and a first handle is installed on the top of the slide plate. It is not convenient to disassemble the energy storage power supply from the mobile structure, and there is also a lack of a safety warning structure.

Utility Model Content

In order to overcome the problems in the prior art that the energy storage power supply lacks a walking structure that is easy to disassemble, is not convenient for flexibly moving the energy storage power supply while being easy to disassemble and assemble quickly, the protection capability of the energy storage power supply itself needs to be improved, lacks a protection structure, and lacks a safety warning structure for the safety of the energy storage power supply, the utility model provides an energy storage power supply integrated with a detachable walking structure, including a power box, an energy storage battery, a mobile component and a leakage detection component, a plurality of battery slots are formed in the power box, energy storage batteries are respectively installed in a plurality of the battery slots, leakage detection components are respectively arranged between a plurality of the energy storage batteries and the power box, the leakage detection component comprises a leakage detection switch and an alarm, the alarm is installed on the top of the energy storage battery, a leakage detection switch is arranged at the connection between the energy storage battery and the power box, and a detachable mobile component is connected to the bottom of the power box.

Combining multiple energy storage batteries on a mobile component to form an energy storage power supply can increase the capacity of outdoor portable power supplies. The energy storage batteries are easy to disassemble and assemble, and are also convenient for maintenance and replacement. At the same time, the mobile components are detachable, which facilitates the flexible movement and transportation of the power supply. The energy storage batteries can be monitored by the leakage detection component installed in the power supply. When circuit abnormalities such as leakage occur, an alarm can be used to warn, further improving the safety of the power supply.

Preferably, the mobile assembly includes a mobile base plate, buckles and wheels, the power box is connected to the mobile base plate via a plurality of buckles, and a plurality of wheels are provided on the lower surface of the mobile base plate.

Preferably, a plurality of buffer partitions are provided inside the power box, a plurality of battery slots are formed between the buffer partitions and the inner wall of the power box, a connecting base is provided in each of the battery slots, and the top of the connecting base matches the bottom of the energy storage battery.

Preferably, a handle is provided in the middle of the top of the energy storage battery, the alarm is installed beside the handle, and the outer wall of the energy storage battery is connected to the detection end of the corresponding leakage detection switch.

Preferably, a cover plate is hinged on the top of the power box, and a heat dissipation assembly is arranged on the top of the cover plate, and the heat dissipation assembly includes a temperature control switch, two cooling fans and two heat dissipation ports. The temperature control switch is arranged in the middle of the inner side of the cover plate, and two cooling fans are respectively installed on both sides of the top of the cover plate, and heat dissipation ports are respectively arranged at the connection between the two cooling fans and the cooling fans, and the bottom of the heat dissipation port is connected to the power box.

The power box is closed by a cover, and the energy storage battery can be enclosed inside the power box body, which provides protection while preventing dust and other foreign objects from affecting the use of the power supply. At the same time, a heat dissipation component is arranged on the cover to enhance the automatic heat dissipation capability of the power supply and prevent the high temperature generated by long-term use of the power supply from causing damage to the power supply.

Preferably, an insulating shell is provided on the outside of the power box, and a reinforcing plate is installed on the inner wall of the power box.

The insulating shell set on the outside of the power box can improve the external insulation effect and avoid electric shock caused by leakage. The buffer partition set inside the power box can reduce the collision and friction between multiple energy storage batteries, further improving the protection of the energy storage batteries.

Preferably, a control panel is provided in the middle of the front of the power box, a display is provided on the control panel, a plurality of charging and discharging sockets are provided below the display, and indicator lights are provided on both sides of the control panel.

Preferably, handles are respectively provided on the sides of the top of the cover plate, and a dustproof net is provided on the inner side of the heat dissipation port.

Preferably, the outer surface of the power box is provided with a plurality of heat dissipation holes, and an anti-slip pad and a plurality of positioning columns are provided between the lower surface of the power box and the movable bottom plate.

Preferably, two of the clips are respectively installed at the connection between the power box and the front and back sides of the movable base plate, the wheels are respectively installed at the four corners of the movable base plate, and the lifting push rods and traction plates are respectively installed on both sides of the movable base plate.

Through the traction plate, the traction equipment can be connected to pull the energy storage power supply to move, and the height of the push rod can be manually adjusted through the lifting push rod to adapt it to the user, thereby improving the flexibility and convenience of moving the energy storage power supply.

Beneficial effects:

The beneficial effects produced by adopting the technical solution of the utility model are as follows:

(1) Combining multiple energy storage batteries on a mobile component to form an energy storage power supply can increase the capacity of outdoor portable power supplies. The energy storage batteries are easy to disassemble and assemble, and are also convenient for maintenance and replacement. At the same time, the mobile component is detachable, which is convenient for flexible movement and transportation of the power supply. The energy storage battery can be monitored by the leakage detection component set in the power supply. When circuit abnormalities such as leakage occur, an alarm can be used to remind, further improving the safety of the power supply.

(2) The power box is closed by a cover, and the energy storage battery can be enclosed inside the power box body, which provides protection while preventing dust and other foreign matter from affecting the use of the power supply. At the same time, a heat dissipation component is arranged on the cover to enhance the automatic heat dissipation capability of the power supply and prevent the high temperature generated by long-term use of the power supply from causing damage to the power supply.

(3) The insulating shell set on the outside of the power box can improve the external insulation effect and avoid electric shock caused by leakage. The buffer partition set inside the power box can reduce the collision and friction between multiple energy storage batteries, further improving the protection of the energy storage batteries.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to more clearly illustrate the technical solution of the implementation mode of the utility model, the drawings required for use in the implementation mode will be briefly introduced below. It should be understood that the following drawings only show certain embodiments of the utility model and therefore should not be regarded as limiting the scope. For ordinary technicians in this field, other relevant drawings can be obtained based on these drawings without paying creative work.

FIG1 is a schematic diagram of the overall three-dimensional structure of an energy storage power supply with a detachable walking structure integrated in the utility model;

FIG2 is a schematic diagram of the connection structure of the front side of the energy storage power supply integrated with a detachable walking structure of the utility model;

FIG3 is a schematic diagram of the internal structure of an energy storage power supply integrated with a detachable walking structure of the utility model;

FIG4 is a top view of the energy storage power supply integrated with a detachable walking structure of the utility model;

FIG. 5 is a schematic diagram of the interior of the power supply box of the energy storage power supply integrated with a detachable walking structure of the utility model.

In the figure: 1. power box; 2. energy storage battery; 3. mobile base plate; 4. buckle; 5. cover plate; 6. wheels; 7. lifting push rod; 8. buffer partition; 9. control panel; 10. display; 11. heat dissipation port; 12. indicator light; 13. cooling fan; 14. handle; 15. charging and discharging socket; 16. temperature control switch; 17. connecting base; 18. insulating shell; 19. reinforcement plate; 20. leakage detection switch; 21. alarm; 22. handle; 23. traction plate; 24. positioning column; 25. anti-slip mat.

DETAILED DESCRIPTION

In order to make the purpose, technical solutions and advantages of the embodiments of the utility model clearer, the technical solutions in the embodiments of the utility model will be clearly and completely described below in conjunction with the drawings in the embodiments of the utility model. Obviously, the described embodiments are part of the embodiments of the utility model, not all of the embodiments. Therefore, the following detailed description of the embodiments of the utility model provided in the drawings is not intended to limit the scope of the utility model for which protection is sought, but merely represents the selected embodiments of the utility model. Based on the embodiments in the utility model, all other embodiments obtained by ordinary technicians in this field without making creative work are within the scope of protection of the utility model.

This embodiment combines multiple energy storage batteries on a mobile component to form an energy storage power supply, which can be convenient for increasing the capacity of outdoor portable power supplies. The energy storage batteries are easy to disassemble and assemble, and are also convenient for maintenance and replacement. At the same time, the mobile component is detachable, which is convenient for flexible movement and transportation of the power supply. The energy storage battery can be monitored through the leakage detection component set in the power supply. When circuit abnormalities such as leakage occur, an alarm can be used to remind, further improving the safety of the power supply. The specific implementation is as follows:

As shown in Figures 1 to 5, an energy storage power supply with an integrated detachable walking structure includes a power supply box 1, an energy storage battery 2, a mobile component and a leakage detection component. A plurality of battery slots are formed in the power supply box 1, and energy storage batteries 2 are respectively installed in the plurality of battery slots. Leakage detection components are respectively arranged between the plurality of energy storage batteries 2 and the power supply box 1. The leakage detection component includes a leakage detection switch 20 and an alarm 21. The alarm 21 is installed on the top of the energy storage battery 2. A leakage detection switch 20 is arranged at the connection between the energy storage battery 2 and the power supply box 1. A detachable mobile component is connected to the bottom of the power supply box 1. Combining multiple energy storage batteries 2 on a mobile component to form an energy storage power supply can increase the capacity of an outdoor portable power supply. The energy storage battery 2 is easy to assemble and disassemble, and is also convenient for maintenance and replacement. At the same time, the mobile component is detachable, which is convenient for flexible movement and transportation of the power supply. It can be installed and disassembled according to user needs, which improves the convenience of the power supply. Through the leakage detection component set in the power supply, each energy storage battery 2 can be monitored through the leakage detection switch 20. When circuit abnormalities such as leakage occur, reminders can be given through their respective alarms 21, which further improves the safety of the power supply.

The mobile component includes a mobile base plate 3, buckles 4 and wheels 6. The power box 1 is connected to the mobile base plate 3 through a number of buckles 4. A number of wheels 6 are provided on the lower surface of the mobile base plate 3. The mobile component and the power box 1 are detachable through the buckles 4. The buckles 4 are common connecting locks that can be used to connect and fix the mobile base plate 3 and the power box 1. The wheels 6 are universal wheels, which are convenient for controlling the movement of the mobile base plate 3.

A plurality of buffer partitions 8 are arranged inside the power box 1. A plurality of battery slots are formed between the buffer partitions 8 and the inner wall of the power box 1. A connecting base 17 is arranged in each battery slot. The top of the connecting base 17 matches the bottom of the energy storage battery 2. The buffer partitions 8 arranged inside the power box 1 can reduce the collision and friction between the multiple energy storage batteries 2, thereby further improving the protection of the energy storage batteries 2.

A handle 22 is provided in the middle of the top of the energy storage battery 2, and an alarm 21 is installed next to the handle 22. The outer wall of the energy storage battery 2 is connected to the detection end of the corresponding leakage detection switch 20. Through the handle 22, the user can lift the entire energy storage battery 2, which is convenient for storing and taking it out of the power box 1.

The top of the power supply box 1 is hinged with a cover plate 5, and a heat dissipation component is arranged on the top of the cover plate 5. The heat dissipation component includes a temperature control switch 16, two heat dissipation fans 13 and two heat dissipation ports 11. The temperature control switch 16 is arranged in the middle of the inner side of the cover plate 5. Two heat dissipation fans 13 are respectively installed on both sides of the top of the cover plate 5. The connection between the two heat dissipation fans 13 and the heat dissipation ports 11 are respectively arranged. The bottom of the heat dissipation port 11 is connected with the power supply box 1. The power supply box 1 is closed by the cover plate 5, and the energy storage battery 2 can be enclosed in the box body of the power supply box 1, which provides protection while preventing foreign objects such as dust from affecting the use of the power supply. At the same time, the heat dissipation component is arranged on the cover plate 5, and the temperature inside the power supply box 1 can be monitored through the temperature control switch 16, and the heat dissipation fan 13 can be controlled to dissipate heat for the energy storage battery 2, thereby enhancing the automatic heat dissipation capability of the power supply and preventing the high temperature generated by long-term use of the power supply from causing damage to the power supply.

The power box 1 is provided with an insulating shell 18 on the outside, and a reinforcing plate 19 is installed on the inner wall of the power box 1. The insulating shell 18 provided on the outside of the power box 1 can improve the external insulation effect and avoid electric shock caused by leakage. The reinforcing plate 19 provided inside the power box 1 can improve the strength of the power box 1 and improve the pressure resistance and collision resistance.

A control panel 9 is provided in the middle of the front of the power box 1, and a display 10 is provided on the control panel 9. A plurality of charging and discharging sockets 15 are provided below the display 10. Indicator lights 12 are provided on both sides of the control panel 9. The display 10 can be used to display data such as power usage and internal temperature of the power supply. The charging and discharging sockets 15 can be used to facilitate the connection of electrical equipment to the energy storage power supply for charging and discharging. The indicator light 12 can be used to display the power usage. When power is in use, the indicator light 12 lights up to serve as a reminder.

Handles 14 are respectively provided on the sides of the top of the cover plate 5, and a dustproof net is provided on the inner side of the heat dissipation port 11. The handles 14 can facilitate the lifting and transportation of the power box 1 as a whole when the power box 1 is separated from the movable base plate 3, and the dustproof net can prevent dust or impurities from entering the power box 1.

The outer surface of the power box 1 is provided with a plurality of heat dissipation holes, and an anti-skid pad 25 and a plurality of positioning columns 24 are provided between the lower surface of the power box 1 and the movable base plate 3. The heat dissipation holes can enhance the heat dissipation of the power box 1, and the anti-skid pad 25 can increase the friction between the lower surface of the power box 1 and the movable base plate 3 to prevent the power box 1 from sliding. The positioning columns 24 can facilitate the positioning and installation of the power box 1.

Two buckles 4 are respectively installed at the connection between the power box 1 and the front and back of the mobile base plate 3, wheels 6 are respectively installed at the four corners of the mobile base plate 3, and lifting push rods 7 and traction plates 23 are respectively installed on both sides of the mobile base plate 3. Through the traction plate 23, the traction equipment can be connected to pull the energy storage power supply to move, and the height of the push rod can be manually adjusted through the lifting push rod 7 to adapt it to the user, thereby improving the flexibility and convenience of moving the energy storage power supply.

Working principle: Combining multiple energy storage batteries on a mobile component to form an energy storage power supply can facilitate the improvement of the capacity of outdoor portable power supply. The energy storage battery is easy to disassemble and assemble, and is also convenient for maintenance and replacement. At the same time, the mobile component is detachable, and the detachable function is realized by the buckle. It can be used to connect and fix the mobile base plate and the power box, and can be installed and disassembled according to the needs of the user, which improves the convenience of the power supply. Through the leakage detection component set in the power supply, each energy storage battery can be monitored through the leakage detection switch. When there is a circuit abnormality such as leakage, it can be reminded through the respective alarm, which further improves the safety of the power supply. The power box is closed by a cover plate, and the energy storage battery can be enclosed inside the power box body. While providing protection, it also prevents foreign objects such as dust from affecting the use of the power supply. At the same time, a heat dissipation component is set on the cover plate, which can enhance the automatic heat dissipation capacity of the power supply and avoid damage to the power supply caused by the high temperature generated by the long-term use of the power supply. The insulating shell set on the outside of the power box can improve the external insulation effect and avoid electric shock caused by leakage. The buffer partition set inside the power box can reduce the collision and friction between multiple energy storage batteries, which further improves the protection of the energy storage battery.

The above description is only the preferred implementation of the utility model, and is not intended to limit the utility model. For those skilled in the art, the utility model can have various modifications and changes. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the utility model shall be included in the protection scope of the utility model.

Claims (9)

1. The utility model provides an energy storage power supply of detachable walking structure has been integrated, its characterized in that includes power supply box (1), energy storage battery (2), remove subassembly and electric leakage detection subassembly, be formed with a plurality of battery jar in power supply box (1), a plurality of energy storage battery (2) are installed respectively in the battery jar, a plurality of energy storage battery (2) with be provided with electric leakage detection subassembly between power supply box (1) respectively, electric leakage detection subassembly includes electric leakage detection switch (20) and alarm (21), alarm (21) are installed in the top of energy storage battery (2), the junction of energy storage battery (2) and power supply box (1) is provided with electric leakage detection switch (20), the bottom of power supply box (1) is connected with detachable removal subassembly;

The movable assembly comprises a movable bottom plate (3), buckles (4) and wheels (6), wherein the power box (1) is connected with the movable bottom plate (3) through a plurality of buckles (4), and a plurality of wheels (6) are arranged on the lower surface of the movable bottom plate (3).

2. The energy storage power supply integrated with the detachable walking structure according to claim 1, wherein a plurality of buffer clapboards (8) are arranged in the power supply box (1), a plurality of battery grooves are formed between the buffer clapboards (8) and the inner wall of the power supply box (1), a connecting base (17) is arranged in each battery groove, and the top of the connecting base (17) is matched with the bottom of the energy storage battery (2).

3. The energy storage power supply integrated with the detachable walking structure according to claim 1, wherein a handle (22) is respectively arranged in the middle of the top end of the energy storage battery (2), the alarm (21) is arranged at a position beside the handle (22), and the outer wall of the energy storage battery (2) is connected with the detection end of the electric leakage detection switch (20) which is correspondingly arranged.

4. The energy storage power supply integrated with the detachable walking structure according to claim 1, characterized in that the top of the power supply box (1) is hinged with a cover plate (5), the top of the cover plate (5) is provided with a heat dissipation assembly, the heat dissipation assembly comprises a temperature control switch (16), two heat dissipation fans (13) and two heat dissipation openings (11), the temperature control switch (16) is arranged in the middle of the inner side of the cover plate (5), two heat dissipation fans (13) are respectively arranged on two sides of the top of the cover plate (5), heat dissipation openings (11) are respectively arranged at the joints of the two heat dissipation fans (13) and the heat dissipation fans (13), and the bottom of the heat dissipation openings (11) is communicated with the power supply box (1).

5. The energy storage power supply integrated with the detachable walking structure according to claim 1, wherein an insulating shell (18) is arranged outside the power supply box (1), and a reinforcing plate (19) is arranged on the inner wall of the power supply box (1).

6. The energy storage power supply integrated with the detachable walking structure according to claim 1, wherein a control panel (9) is arranged in the middle of the front face of the power supply box (1), a display (10) is arranged on the control panel (9), a plurality of charging and discharging sockets (15) are arranged at the lower position of the display (10), and indicator lamps (12) are respectively arranged at two sides of the control panel (9).

7. The energy storage power supply integrated with the detachable walking structure according to claim 4, wherein handles (14) are respectively arranged on the side of the top of the cover plate (5), and a dust screen is arranged on the inner side of the heat dissipation opening (11).

8. The energy storage power supply integrated with the detachable walking structure according to claim 1, wherein a plurality of heat dissipation through holes are formed in the outer surface of the power supply box (1), and an anti-slip pad (25) and a plurality of positioning columns (24) are arranged between the lower surface of the power supply box (1) and the movable bottom plate (3).

9. The energy storage power supply integrated with the detachable walking structure according to claim 1, wherein two buckles (4) are respectively arranged at the joint of the front side and the back side of the power supply box (1) and the movable bottom plate (3), the wheels (6) are respectively arranged at four corners of the movable bottom plate (3), and lifting push rods (7) and traction plates (23) are respectively arranged at two sides of the movable bottom plate (3).