CN220873730U - Outdoor energy storage battery heat insulation top plate and battery cabinet provided with same - Google Patents

Abstract

The utility model discloses an outdoor energy storage battery heat insulation top plate and a battery cabinet provided with the heat insulation top plate, which comprise an intermediate layer, wherein heat insulation layers are respectively arranged on the end surfaces of the upper side and the lower side of the intermediate layer, the heat insulation layers are adhered to the surface of the intermediate layer through inorganic adhesive in a compounding manner, the heat insulation layers are calcium silicate plates, and the intermediate layer is a paper honeycomb plate. The top of the battery cabinet is provided with a heat insulation top plate. Through a bolt fixed mounting outdoor energy storage battery heat insulating board at the top of battery cabinet, through this structure, can effectively block sunshine and penetrate the battery cabinet directly, reduce the temperature of battery cabinet, and then make the inside cooling air conditioner of battery cabinet reduce operating time, reduce the required energy consumption ratio of air conditioner, make the energy storage of battery cabinet keep a higher interval.

Description

Outdoor energy storage battery heat insulation top plate and battery cabinet provided with same

Technical Field

The utility model belongs to the field of protection of outdoor energy storage equipment, and particularly relates to an outdoor energy storage battery heat insulation top plate and a battery cabinet provided with the heat insulation top plate.

Background

An outdoor energy storage system is a device for storing and discharging electric energy, and is generally installed in an outdoor environment. It is stored primarily by converting electrical energy into other forms of energy (e.g., chemical energy, mechanical energy, etc.), and converting it back to electrical energy for use by a user when needed.

At present, outdoor energy storage batteries are already commonly used. However, some outdoor energy storage batteries are directly installed in an open air environment, a large awning is installed on some installation sites, but the awning installation has certain requirements on the installation environment, and when the awning cannot be installed, the exposed outdoor energy storage batteries cannot be prevented from being directly irradiated by sunlight. Although set up the air conditioner in outdoor energy storage battery's the inner chamber and cool down the protection, but under the direct irradiation state, the air conditioner is used for exhausting the required energy consumption of refrigeration very high, leads to the electric energy that outdoor energy storage battery stored mostly to be used for the refrigeration, leads to outdoor energy storage battery can the actual use electric energy reduction.

Disclosure of utility model

In order to make up for the defects of the prior art, the utility model provides an outdoor energy storage battery heat insulation top plate capable of reducing the energy consumption ratio of an outdoor energy storage battery air conditioner and a battery cabinet provided with the heat insulation top plate.

The heat insulation top plate of the outdoor energy storage battery comprises a middle layer, wherein heat insulation layers are respectively arranged on the end faces of the upper side and the lower side of the middle layer, the heat insulation layers are adhered to the surface of the middle layer through inorganic adhesive in a compounding manner, the heat insulation layers are calcium silicate plates, and the middle layer is a paper honeycomb plate.

Further, the thickness of the intermediate layer is 42mm, and the thickness of the heat insulating layer is 6mm.

Further, the peripheral surface of intermediate level is provided with the bounding wall through inorganic glue complex paste, the bounding wall is the calcium silicate board, bounding wall width is 54mm, and thickness is 6mm.

The battery cabinet with the heat-insulating top plate comprises a battery cabinet body, wherein the heat-insulating top plate of the outdoor energy storage battery is fixed at the top of the battery cabinet body through bolts.

Further, an assembly hole is formed in the top of the battery cabinet, and the bolt is matched and fixed with the assembly hole.

Further, the assembly holes are formed in the top plate of the battery cabinet; or alternatively

The top plate edge of the battery cabinet is provided with a connecting piece, and the assembly hole is formed in the connecting piece.

Further, the outdoor energy storage battery heat insulation top plate covers the upper side of the battery cabinet and extends to the edge until the length and the width of the outdoor energy storage battery heat insulation top plate are respectively larger than the length and the width of the top plate of the battery cabinet.

Further, the length of the bolt is at least 70mm, and the inner part of the assembly hole is provided with an internal thread matched with the bolt, and the bolt is in threaded fit with the assembly hole to form fixed connection.

Further, a structural adhesive is arranged between the heat insulation top plate of the outdoor energy storage battery and the battery cabinet.

Compared with the prior art, the utility model has the following advantages:

Through a bolt fixed mounting outdoor energy storage battery heat insulating board at the top of battery cabinet, through this structure, can effectively block sunshine and penetrate the battery cabinet directly, reduce the temperature of battery cabinet, and then make the inside cooling air conditioner of battery cabinet reduce operating time, reduce the required energy consumption ratio of air conditioner, make the energy storage of battery cabinet keep a higher interval.

Drawings

FIG. 1 is a schematic view of a heat insulation top plate layer of an energy storage battery according to the present utility model;

FIG. 2 is a schematic diagram of a battery cabinet;

FIG. 3 is a schematic view of the assembly of the insulated top plate with the battery cabinet;

Fig. 4 is a schematic diagram of a main body structure of a battery cabinet with a connecting piece arranged at the edge of a top plate of the battery cabinet.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1, an outdoor energy storage battery heat insulation top plate is characterized by comprising an intermediate layer 100, wherein heat insulation layers 200 are respectively arranged on the upper end face and the lower end face of the intermediate layer 100, the heat insulation layers 200 are adhered to the surface of the intermediate layer 100 through inorganic adhesive in a composite manner, the heat insulation layers 200 are calcium silicate plates, and the intermediate layer 100 is a paper honeycomb plate. The thickness of the intermediate layer 100 was 42mm and the thickness of the heat insulating layer 200 was 6mm. The peripheral surface of the middle layer 100 is provided with a coaming 300 through inorganic adhesive compound adhesion, the coaming 300 is a calcium silicate plate, the width of the coaming 300 is 54mm, and the thickness is 6mm.

Example 2

In connection with fig. 2-4, a battery cabinet provided with a heat insulating top plate, the heat insulating top plate of the outdoor energy storage battery disclosed in embodiment 1 is applied. The improvement of the battery cabinet with the heat-insulating top plate is that the heat-insulating top plate of the outdoor energy storage battery is fixed at the top of the battery cabinet 400 through bolts 500. The internal structure of the battery cabinet 400 is not adjusted, and thus the internal structure of the battery cabinet is not unfolded. The battery cabinets disclosed at the present stage can be additionally provided with the heat insulation top plate in the embodiment 1 to form the structure.

The outdoor energy storage battery heat insulation top plate covers the upper side of the battery cabinet 400 and extends to the edge until the length and the width of the outdoor energy storage battery heat insulation top plate are respectively greater than the length and the width of the top plate of the battery cabinet 400. Namely, the size of the outdoor energy storage battery heat insulation roof plate is larger than that of the battery cabinet 400, and the outdoor energy storage battery heat insulation roof plate is directly fixed at the top of the battery cabinet 400, so that heat insulation is realized. Structural adhesive is arranged between the heat insulation top plate of the outdoor energy storage battery and the battery cabinet 400.

Specifically, the top of the battery cabinet 400 is provided with the assembly holes 410, and the bolts 500 are fixed in cooperation with the assembly holes 410. Also, the position of the fitting hole 410 is not fixed, and there are generally two cases.

The first way is to provide mounting holes directly in the top of the battery cabinet, typically on the frame of the battery cabinet, and bolts 700 are secured to the mounting holes 410 after passing through the insulated top plate. The second way is to provide a connector 420 at the top plate edge of the battery cabinet 400, and a fitting hole 410 is provided in the connector 420. The length of the bolt 500 is at least 70mm, and the inner part of the assembly hole 410 is provided with internal threads matched with the bolt 500, and the bolt 500 is in threaded fit with the assembly hole 410 to form fixed connection.

According to the utility model, the top of the energy storage equipment is covered by the honeycomb composite board with the thickness of 54mm, so that the heat insulation and the temperature reduction are realized. The honeycomb composite board is connected with a frame structure at the top of the equipment through special bolts with the thickness of more than 70mm, and auxiliary bonding is carried out through structural adhesive. The honeycomb composite board has a structure that two sides of a paper honeycomb board with the middle of 42mm are bonded with a high-density calcium silicate board with the thickness of 6mm by adopting inorganic adhesive, and edges are sealed by the calcium silicate board at the periphery.

Through this structure, can effectively block sunshine and penetrate the battery cabinet directly, reduce the temperature of battery cabinet, and then make the inside cooling air conditioner of battery cabinet reduce operating time, reduce the required energy consumption duty cycle of air conditioner, make the energy storage energy of battery cabinet keep a higher interval.

Claims (9)

1. The utility model provides an outdoor energy storage battery roof that insulates against heat, its characterized in that includes intermediate level (100), the upper and lower both sides terminal surface of intermediate level (100) is provided with insulating layer (200) respectively, insulating layer (200) are glued through inorganic glue is compound in intermediate level (100) surface, insulating layer (200) are calcium silicate board, intermediate level (100) are paper honeycomb board.

2. An outdoor energy storage battery insulation roof according to claim 1, characterized in that the thickness of the intermediate layer (100) is 42mm and the thickness of the insulation layer (200) is 6mm.

3. The outdoor energy storage battery heat insulation top plate according to claim 1, wherein a surrounding plate (300) is arranged on the circumferential surface of the middle layer (100) through inorganic adhesive compound adhesion, the surrounding plate (300) is a calcium silicate plate, and the surrounding plate (300) is 54mm in width and 6mm in thickness.

4. A battery cabinet provided with a heat-insulating top plate, characterized in that the heat-insulating top plate of an outdoor energy storage battery as claimed in any one of claims 1-3 is applied and comprises a battery cabinet (400), and the heat-insulating top plate of the outdoor energy storage battery is fixed on the top of the battery cabinet (400) through bolts (500).

5. The battery cabinet provided with the heat insulation top plate according to claim 4, wherein the top of the battery cabinet (400) is provided with an assembly hole (410), and the bolt (500) is matched and fixed with the assembly hole (410).

6. A battery compartment provided with a heat-insulating top plate according to claim 5, characterized in that the fitting hole (410) is provided on the top plate of the battery compartment (400); or alternatively

The top plate edge of the battery cabinet (400) is provided with a connecting piece (420), and the assembly hole (410) is formed in the connecting piece (420).

7. A battery compartment provided with a heat insulating top plate according to any one of claims 4-6, characterized in that the outdoor energy storage battery heat insulating top plate covers the upper side of the battery compartment (400) and extends towards the edges until the length and width of the outdoor energy storage battery heat insulating top plate is larger than the top plate length and width of the battery compartment (400), respectively.

8. The battery cabinet provided with the heat-insulating top plate according to claim 7, wherein the length of the bolt (500) is at least 70mm, the inner portion of the assembly hole (410) is provided with internal threads matched with the bolt (500), and the bolt (500) is in threaded fit with the assembly hole (410) to form a fixed connection.

9. The battery cabinet provided with the heat insulation top plate according to claim 4, wherein structural adhesive is arranged between the heat insulation top plate of the outdoor energy storage battery and the battery cabinet (400).