CN219321550U - Wall-mounted energy storage device - Google Patents

Abstract

The utility model relates to the technical field of energy storage devices, and discloses a wall-mounted energy storage device which solves the problems that the existing wall-mounted energy storage device is inconvenient to overhaul and maintain energy storage batteries and has poor heat dissipation performance; through this wall-hanging energy memory can improve the convenience to energy storage battery overhauls and maintains, can improve the radiating effect simultaneously.

Description

Wall-mounted energy storage device

Technical Field

The utility model belongs to the technical field of energy storage devices, and particularly relates to a wall-mounted energy storage device.

Background

The wall-mounted energy storage device can charge equipment such as a digital camera, a notebook computer, a game book, a vehicle-mounted refrigerator, a kitchen small household appliance and the like, and solves the electricity utilization problem in living and working.

The wall-mounted energy storage device that uses at present is usually with energy storage battery fixed mounting in inside the casing, when energy storage battery breaks down, is inconvenient for overhauling and maintaining energy storage battery, has the inconvenience on the operation, and current wall-mounted energy storage device heat dispersion is not good moreover, because energy storage battery can all produce higher heat at the charge and discharge process, if the heat is difficult to in time give off, can influence the security of using, consequently needs a wall-mounted energy storage device that is convenient for overhaul and maintain and can improve the radiating effect to satisfy the user demand.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the utility model provides the wall-mounted energy storage device, which effectively solves the problems that the existing wall-mounted energy storage device is inconvenient to overhaul and maintain an energy storage battery and has poor heat dissipation performance.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a wall-hanging energy storage device, includes the energy storage cabinet body, the front of the energy storage cabinet body is provided with control panel, the heat dissipation air intake has been seted up to one side of the energy storage cabinet body, the inside fixed a plurality of radiator fan that are provided with of heat dissipation air intake, the heat dissipation air intake has all been fixed to one side of the inside of the energy storage cabinet body, the top at the energy storage cabinet body back is provided with into the fastener, the bottom at the energy storage cabinet body back is provided with out the fastener, it all is provided with a plurality of spiral pencil to advance the fastener with one side of going out the fastener, the both sides at the inside back of the energy storage cabinet body are all fixed to be provided with a plurality of mount pad, control panel's the fixed pull formula support frame that alternates in the energy storage cabinet body that is provided with in the inside of pull formula support frame, be provided with heat radiation assembly between two adjacent energy storage batteries.

Preferably, limit sliding grooves matched with the pull type supporting frames are formed in four corners of the inside of the energy storage cabinet body, limit sliding strips inserted in the limit sliding grooves are fixedly arranged at the top ends and the bottom ends of two sides of the pull type supporting frames, locking bolts inserted in the energy storage cabinet body and matched with the pull type supporting frames are arranged on one side of the top end of the energy storage cabinet body, sealing rings are fixedly arranged on the side edges of the front face of the energy storage cabinet body, and a buckle plate is fixedly arranged at the bottom end of the front face of the control panel.

Preferably, the energy storage batteries are of a separated arrangement structure, the heat dissipation assembly is located between two adjacent energy storage batteries and consists of a first combined heat conduction plate, a second combined heat conduction plate and a plurality of heat dissipation fins, heat conduction silica gel sheets are fixedly arranged on one sides of the first combined heat conduction plate and the second combined heat conduction plate, which are close to the energy storage batteries, and are connected with one sides of the energy storage batteries in a bonding mode, and the heat dissipation fins are fixedly connected between the first combined heat conduction plate and the second combined heat conduction plate.

Preferably, the first combined heat-conducting plate and the second combined heat-conducting plate are both composed of a plurality of strip-shaped heat-radiating plates and a plurality of heat-radiating reinforcing plates, the heat-radiating reinforcing plates are fixedly connected between the strip-shaped heat-radiating plates, a plurality of heat-radiating slots are formed between the strip-shaped heat-radiating plates and the heat-radiating reinforcing plates, one end, close to the heat-radiating fan, of the strip-shaped heat-radiating plates is of a triangular cone structure, the heat-radiating reinforcing plates are of inclined structures, and the first combined heat-conducting plate, the second combined heat-conducting plate and the heat-radiating fins are all made of aluminum materials.

Compared with the prior art, the utility model has the beneficial effects that:

(1) In operation, the energy storage battery can be pulled out of the energy storage cabinet body through the pull type support frame, the limit sliding groove, the limit sliding bar and the locking bolt, when the energy storage battery fails, the energy storage battery is convenient to overhaul and maintain, the overhaul operation convenience is improved, the spiral wire harness, the wire inlet clamp and the wire outlet clamp are arranged, the spiral wire harness can stretch out and draw back when the energy storage battery is pulled out for overhaul, the spiral wire harness is not required to be detached, and meanwhile the hidden installation of the wire inlet and outlet is convenient;

(2) Through being provided with heat dissipation air intake, radiator fan, heat dissipation air exit and by the radiating component that first combination heat-conducting plate, second combination heat-conducting plate and a plurality of radiating fin constitute, can improve the radiating effect to energy storage battery, avoid energy storage battery because the high temperature influences the result of use, reduced the potential safety hazard simultaneously.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model.

In the drawings:

FIG. 1 is a schematic diagram of a wall-mounted energy storage device according to the present utility model;

FIG. 2 is a schematic diagram of the structure of the energy storage cabinet of the utility model;

FIG. 3 is a schematic diagram of the connection structure between the control panel and the energy storage cabinet body;

FIG. 4 is a schematic diagram of a connection structure between a heat dissipating assembly and an energy storage battery according to the present utility model;

FIG. 5 is a schematic view of a combined heat conducting plate structure according to the present utility model;

in the figure: 1. an energy storage cabinet body; 2. a control panel; 3. a heat dissipation air inlet; 4. a heat radiation fan; 5. a heat-dissipation exhaust outlet; 6. a protective net; 7. a wire inlet clip; 8. wire clamps are arranged; 9. a spiral wire harness; 10. a mounting base; 11. a pull-out support; 12. an energy storage battery; 13. a heat dissipation assembly; 14. limiting sliding grooves; 15. a limit slide bar; 16. a locking bolt; 17. a seal ring; 18. a buckle plate; 19. a first combined heat-conducting plate; 20. a second combined heat-conducting plate; 21. a heat radiation fin; 22. a thermally conductive silicone sheet; 23. a strip-shaped heat dissipation plate; 24. a heat radiation reinforcing plate; 25. a heat dissipation slot.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model; all other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 4, the wall-mounted energy storage device of the utility model comprises an energy storage cabinet body 1, wherein a control panel 2 is arranged on the front surface of the energy storage cabinet body 1, a heat dissipation air inlet 3 is formed in one side of the energy storage cabinet body 1, a plurality of heat dissipation fans 4 are fixedly arranged in the heat dissipation air inlet 3, a heat dissipation air outlet 5 is formed in the other side of the energy storage cabinet body 1, a protection net 6 is fixedly arranged on one side of the inside of the heat dissipation air inlet 3 and one side of the heat dissipation air outlet 5, an inlet wire clamp 7 is arranged at the top end of the back surface of the energy storage cabinet body 1, an outlet wire clamp 8 is arranged at the bottom end of the back surface of the energy storage cabinet body 1, a plurality of spiral wire harnesses 9 are arranged on one side of the inlet wire clamp 7 and one side of the outlet wire clamp 8, a plurality of mounting seats 10 are fixedly arranged on two sides of the back surface of the inside of the energy storage cabinet body 1, a plurality of energy storage batteries 12 are fixedly arranged in the back surface of the control panel 2 and are inserted in a drawing type support frame 11 of the energy storage cabinet body 1, and a heat dissipation assembly 13 is arranged between two adjacent energy storage batteries 12;

as shown in fig. 1 to 5, four corners of the interior of the energy storage cabinet body 1 are respectively provided with a limit chute 14 matched with the pull-out type support frame 11, the top end and the bottom end of two sides of the pull-out type support frame 11 are respectively fixedly provided with a limit slide bar 15 inserted in the limit chute 14 so as to facilitate the pull-out type support frame 11 to be pulled out, one side of the top end of the energy storage cabinet body 1 is provided with a locking bolt 16 inserted in the energy storage cabinet body 1 and matched with the pull-out type support frame 11 so as to limit and lock the pull-out type support frame 11, the side edge of the front face of the energy storage cabinet body 1 is fixedly provided with a sealing ring 17, the bottom end of the front face of the control panel 2 is fixedly provided with a buckle plate 18, the energy storage batteries 12 are in a separated arrangement structure, the heat dissipation component 13 is positioned between two adjacent energy storage batteries 12, the heat dissipation component 13 consists of a first combined heat conduction plate 19, a second combined heat conduction plate 20 and a plurality of heat dissipation fins 21, the heat dissipation effect can be improved, the heat conduction silica gel piece 22 is fixedly arranged on one side, close to the energy storage battery 12, of the first combined heat conduction plate 19 and the second combined heat conduction plate 20, the heat conduction silica gel piece 22 is in fit connection with one side of the energy storage battery 12, the heat dissipation fins 21 are fixedly connected between the first combined heat conduction plate 19 and the second combined heat conduction plate 20, the first combined heat conduction plate 19 and the second combined heat conduction plate 20 are composed of a plurality of strip-shaped heat dissipation plates 23 and a plurality of heat dissipation reinforcing plates 24, the heat dissipation reinforcing plates 24 are fixedly connected between the strip-shaped heat dissipation plates 23, a plurality of heat dissipation slots 25 are formed between the strip-shaped heat dissipation plates 23 and the heat dissipation reinforcing plates 24, one end, close to the heat dissipation fan 4, of the strip-shaped heat dissipation plates 23 is of a triangular cone structure, the heat dissipation reinforcing plates 24 are of an inclined structure, and the first combined heat conduction plate 19, the second combined heat conduction plates 20 and the heat dissipation fins 21 are of aluminum materials;

during the use, set up the line hole in the wall body in advance according to the mounted position for advance the business turn over cable passes business turn over fastener 7 and play fastener 8 respectively and is connected with spiral pencil 9, the other end of spiral pencil 9 then is connected with control panel 2, consequently, when removing control panel 2, spiral pencil 9 can stretch out and draw back, need not to dismantle spiral pencil 9, when pulling out pull formula support frame 11, at first, loosen locking bolt 16, remove the spacing to pull formula support frame 11, then pull buckle 18 by hand can, thereby can make energy storage battery 12 shift out from energy storage cabinet body 1, and then be convenient for overhaul and maintenance to energy storage battery 12, simultaneously also improve the convenience of changing energy storage battery 12, need not to disassemble whole device, in the device during operation, the heat that energy storage battery 12 produced passes through heat conduction silica gel piece 22 and transmits to first combination heat conducting plate 19, second combination heat conducting plate 20 and radiating fin 21, thereby can improve the heat conduction effect, radiator fan 4 starts, realize advancing through air intake 3 and exhaust vent 5, thereby can accelerate, be flat structure and set up for radiating fin 21 and connect with the radiating fan 23, thereby the degree of wind-cooling structure is smooth and the slope is that the radiating effect is the heat dissipation of the cooling plate is that the heat dissipation of the slope, and the wind-proof structure is the slope is cooled down, and the one end is more than the cooling down, and the cooling structure is more than the cooling down, and the cooling fan is more than the cooling down.

In operation, the energy storage battery can be pulled out from the energy storage cabinet body through the pull type support frame, the limit sliding groove, the limit sliding bar and the locking bolt, when the energy storage battery fails, the energy storage battery is convenient to overhaul and maintain, the overhaul operation convenience is improved, the spiral wire harness, the wire inlet clamp and the wire outlet clamp are arranged, the spiral wire harness can stretch out and draw back when the energy storage battery is pulled out for overhaul, the spiral wire harness is not required to be detached, and meanwhile the hidden installation of the wire inlet and outlet is convenient; through being provided with heat dissipation air intake, radiator fan, heat dissipation air exit and by the radiating component that first combination heat-conducting plate, second combination heat-conducting plate and a plurality of radiating fin constitute, can improve the radiating effect to energy storage battery, avoid energy storage battery because the high temperature influences the result of use, reduced the potential safety hazard simultaneously.

Claims (4)

1. The utility model provides a wall-hanging energy storage device, includes energy storage cabinet body (1), its characterized in that: the energy storage cabinet body (1) openly is provided with control panel (2), heat dissipation air intake (3) have been seted up to one side of energy storage cabinet body (1), the inside fixed a plurality of radiator fan (4) that are provided with of heat dissipation air intake (3), heat dissipation air exit (5) have been seted up to the opposite side of energy storage cabinet body (1), the inside one side of heat dissipation air intake (3) and heat dissipation air exit (5) is all fixed and is provided with protection network (6), the top at the energy storage cabinet body (1) back is provided with wire clip (7), the bottom at the energy storage cabinet body (1) back is provided with wire clip (8), wire clip (7) and wire clip (8) one side all are provided with a plurality of spiral pencil (9), the both sides at the inside back of energy storage cabinet body (1) are all fixed and are provided with a plurality of mount pad (10), the back fixed of control panel (2) is provided with pull formula support frame (11) that alternates in energy storage cabinet body (1), the inside of pull formula support frame (11) is provided with a plurality of energy storage batteries (12), be provided with subassembly (13) between two adjacent energy storage batteries (12).

2. A wall-mounted energy storage device as defined in claim 1, wherein: limiting sliding grooves (14) matched with the pull type supporting frames (11) are formed in four corners inside the energy storage cabinet body (1), limiting sliding strips (15) penetrating through the limiting sliding grooves (14) are fixedly arranged at the top ends and the bottom ends of two sides of the pull type supporting frames (11), locking bolts (16) penetrating through the energy storage cabinet body (1) and matched with the pull type supporting frames (11) are arranged on one side of the top end of the energy storage cabinet body (1), sealing rings (17) are fixedly arranged on the front side edges of the energy storage cabinet body (1), and pinch plates (18) are fixedly arranged at the front bottom ends of the control panel (2).

3. A wall-mounted energy storage device as defined in claim 1, wherein: the energy storage batteries (12) are of a separated arrangement structure, the heat dissipation assembly (13) is located between two adjacent energy storage batteries (12), the heat dissipation assembly (13) is composed of a first combined heat conduction plate (19), a second combined heat conduction plate (20) and a plurality of heat dissipation fins (21), heat conduction silica gel sheets (22) are fixedly arranged on one sides, close to the energy storage batteries (12), of the first combined heat conduction plate (19) and the second combined heat conduction plate (20), the heat conduction silica gel sheets (22) are connected with one sides of the energy storage batteries (12) in a bonding mode, and the heat dissipation fins (21) are fixedly connected between the first combined heat conduction plate (19) and the second combined heat conduction plate (20).

4. A wall-mounted energy storage device as defined in claim 3, wherein: the first combined heat-conducting plate (19) and the second combined heat-conducting plate (20) are composed of a plurality of strip-shaped heat-radiating plates (23) and a plurality of heat-radiating reinforcing plates (24), the heat-radiating reinforcing plates (24) are fixedly connected between the strip-shaped heat-radiating plates (23), a plurality of heat-radiating slots (25) are formed between the strip-shaped heat-radiating plates (23) and the heat-radiating reinforcing plates (24), one end, close to the heat-radiating fan (4), of the strip-shaped heat-radiating plates (23) is of a triangular cone structure, the heat-radiating reinforcing plates (24) are of inclined structures, and the first combined heat-conducting plate (19), the second combined heat-conducting plate (20) and the heat-radiating fins (21) are all made of aluminum materials.

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