CN220821780U - Emergency power supply type household storage device - Google Patents

Abstract

The utility model provides an emergency power supply type household storage device, which belongs to the technical field of energy storage power supplies and comprises a base, wherein the top of the base is sequentially and detachably connected with a first layer of battery pack, a second layer of battery pack, a third layer of battery pack and an electric module from bottom to top, the top of the base is provided with a parallel connection pair interface and a shell fixing hole, the bottom of the first layer of battery pack is matched with the parallel connection pair interface to be provided with a battery assembly socket, and the bottom of the first layer of battery pack is matched with the shell fixing hole to be provided with a shell fixing column; the two-layer battery pack is connected with the three-layer battery pack through a plug-in structure, the three-layer battery pack is connected with the electric module through a plug-in structure, and the plug-in structure is 4 groups in total; by using a detachable battery pack, greater flexibility and convenience is provided.

Description

Emergency power supply type household storage device

Technical Field

The utility model belongs to the technical field of energy storage power supplies, and particularly relates to an emergency power supply type household storage device.

Background

An emergency power type home energy storage device is a device intended to provide standby power for a home to cope with power outage or emergency. These devices typically include a battery, an inverter, a charge controller, and necessary electronics to store electrical energy from the battery and provide it to the home appliances and devices when needed. The main purpose of such devices is to ensure that in the event of a power outage or other emergency, the home can still continue to supply power to maintain basic life needs and to ensure safety.

Conventional emergency power type home energy storage devices typically have several drawbacks, and conventional emergency power type home energy storage devices typically use large battery packs, which are typically contained in a fixed cabinet or housing. This results in the devices being relatively bulky, requiring sufficient space to install. This can be a challenge for some households, especially for indoor environments where space is limited. Conventional devices typically employ stationary battery packs that are tied together with the overall system. This means that the user lacks flexibility to easily replace or upgrade the battery pack. If the performance of the battery pack is degraded or needs replacement, the user may need replacement of the entire system, which increases maintenance and replacement costs. Due to the large volume and fixed design, conventional devices are often difficult to move to other locations or homes. This can be inconvenient for those households that need to carry or rent the premises.

Disclosure of utility model

In view of this, the present utility model provides an emergency power type home storage device that provides greater flexibility and convenience through the use of a detachable battery pack.

The utility model is realized in the following way:

The utility model provides an emergency power type household storage device, which comprises a base, wherein the top of the base is sequentially and detachably connected with a first layer of battery pack, a second layer of battery pack, a third layer of battery pack and an electric module from bottom to top, the top of the base is provided with a parallel connection butt joint port and a shell fixing hole, the bottom of the first layer of battery pack is matched with the parallel connection butt joint port and provided with a battery assembly socket, and the bottom of the first layer of battery pack is matched with the shell fixing hole and provided with a shell fixing column;

The electric power generation device comprises a first-layer battery pack, a second-layer battery pack, a third-layer battery pack, an electric module and a plug-in structure, wherein the first-layer battery pack is connected with the second-layer battery pack through the plug-in structure, the second-layer battery pack is connected with the third-layer battery pack through the plug-in structure, the third-layer battery pack is connected with the electric module through the plug-in structure, and the plug-in structure is 4 groups in total.

The emergency power type household storage device provided by the utility model has the following technical effects: a system that is suitable for both home energy storage and emergency power supplies is capable of providing reliable power in the event of a power outage or emergency. This is very important for securing home safety, providing electric power required for basic life, coping with natural disasters, etc.; the method is beneficial to improving the utilization rate of renewable energy sources and reducing the dependence on the traditional power grid; the use of energy storage systems can reduce the carbon footprint of the home because they can store and use more renewable energy sources, reducing reliance on fossil fuels.

On the basis of the technical scheme, the emergency power supply type household storage device can be further improved as follows:

The top of the one-layer battery pack is provided with the parallel connection pair interface and the shell fixing hole, the parallel connection pair interface of the two-layer battery pack is provided with the battery assembly socket, and the bottom of the two-layer battery pack is provided with the shell fixing hole of the two-layer battery pack.

The beneficial effects of adopting above-mentioned improvement scheme are: the energy storage system can realize modularized design by connecting a plurality of battery packs through the plug-in structure. This means that each battery pack is a separate module that can be individually installed, maintained and replaced. The modular design enables the energy storage system to be more flexible, and a user can increase or decrease the number of battery packs according to needs so as to adapt to different energy demands.

Further, the top of the two layers of battery packs is provided with the parallel connection butt joint port and the shell fixing hole, the three layers of battery packs are matched with the parallel connection butt joint port and are provided with the battery assembly socket, and the bottom of the three layers of battery packs is matched with the shell fixing hole and is provided with the shell fixing column.

The beneficial effects of adopting above-mentioned improvement scheme are: the battery pack connected by the plug-in structure can be easily maintained and upgraded. If one of the battery packs fails or has degraded performance, the user can simply remove it from the base and replace it with a new battery pack without interrupting the operation of the entire energy storage system. This reduces maintenance costs and downtime.

Further, the top of the three-layer battery pack is provided with the parallel connection butt joint and the shell fixing hole, the electric module is matched with the parallel connection butt joint and is provided with the battery assembly socket, and the bottom of the electric module is matched with the shell fixing hole and is provided with the shell fixing column.

The beneficial effects of adopting above-mentioned improvement scheme are: the energy storage system can realize redundancy design by connecting a plurality of battery packs through the plug-in structure. If one battery pack has a problem, the other battery packs can still continue to supply power, so that the reliability of the energy storage system is improved. This is particularly important for emergency power type energy storage systems, as they need to provide a continuous and reliable supply of electrical power.

Further, each group of the parallel butt joint interfaces is 1, the number of the battery assembly sockets matched with the parallel butt joint interfaces is 1, each group of the shell fixing holes is 4, and the number of the shell fixing columns matched with the shell fixing holes is 4.

The beneficial effects of adopting above-mentioned improvement scheme are: by connecting the battery packs in parallel, the overall capacity and output capacity can be increased. This is beneficial for applications requiring greater power output or longer energy storage times, such as electric vehicles, solar energy storage systems and emergency power systems.

Further, the two layers of battery packs, the three layers of battery packs and the two sides of the electric module are respectively provided with handles.

The beneficial effects of adopting above-mentioned improvement scheme are: the handle makes the power pack easier to carry and handle. Whether in home use, industrial operation, or outdoor activities, the power packs often need to be moved to different locations. With the handle, the user can grasp the power pack more easily and carry the power pack to a required position, so that inconvenience in carrying is reduced.

The base, the one-layer battery pack, the two-layer battery pack, the three-layer battery pack and the electric module are of rectangular structures, and the whole device is of rectangular structures.

Further, the base is located at the bottommost layer, and the electric module is located at the topmost layer.

Further, the device stacks 1-5 layers in succession, each battery side being labeled with a corresponding 1-5 number.

25KWh is 5 layers; 20kWh is 4 layers; 15kWh is 3 layers; 10kWh is 2 layers.

Further, the one-layer battery pack corresponds to the number 1, the two-layer battery pack corresponds to the number 2, and the three-layer battery pack corresponds to the number 3.

Compared with the prior art, the emergency power source type household storage device provided by the utility model has the beneficial effects that: firstly, the design of the detachable battery pack improves the energy storage efficiency and the capacity flexibility of the energy storage device, and by adopting the design of the detachable battery pack, a user can select battery packs with different capacities according to actual demands, so that the total capacity of the energy storage device can be flexibly adjusted; secondly, the design of the detachable battery pack improves the safety of the energy storage device, so that a user can replace the battery pack by himself without intervention of professional technicians, thereby reducing the threshold for fault handling and potential safety risks; thirdly, the design of the detachable battery pack improves the reliability and maintainability of the energy storage device, and when the battery pack fails, the battery pack is only required to be replaced, and the whole system is not required to be replaced; in addition, the detachable battery pack design improves the flexibility and portability of the energy storage device; finally, the battery pack is one of the core components of the energy storage device, and the service life of the battery pack can be prolonged by adopting a detachable design. When the battery pack is at the end of its life, the battery pack can be handled alone without handling the entire device, which helps to reduce the generation of waste and promote the sustainability of the energy system.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments of the present utility model will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an emergency power type home storage device;

FIG. 2 is a schematic top view of a battery pack of an emergency power type home storage device;

FIG. 3 is a schematic view of the bottom of a battery pack of an emergency power type home storage device;

in the drawings, the list of components represented by the various numbers is as follows:

10. A base; 11. the parallel connection interfaces; 12. a housing fixing hole; 13. a handle; 20. a layer of battery packs; 21. a battery assembly socket; 22. a housing fixing column; 30. a two-layer battery pack; 40. a three-layer battery pack; 50. an electrical module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1, 2 and 3, the first embodiment of the emergency power type home storage device provided by the utility model includes a base 10, wherein a first layer of battery packs 20, a second layer of battery packs 30, a third layer of battery packs 40 and an electric module 50 are detachably connected to the top of the base 10 from bottom to top in sequence, a parallel connection counter-interface 11 and a shell fixing hole 12 are arranged at the top of the base 10, a battery assembly socket 21 is arranged at the bottom of the first layer of battery packs 20 in a matching parallel connection counter-interface 11, and a shell fixing column 22 is arranged at the bottom of the first layer of battery packs 20 in a matching shell fixing hole 12;

Wherein, the first layer battery pack 20 is connected with the second layer battery pack 30 through a plug structure, the second layer battery pack 30 is connected with the third layer battery pack 40 through a plug structure, the third layer battery pack 40 is connected with the electric module 50 through a plug structure, and the plug structure has 4 groups in total.

In the above technical solution, the top of the first layer of battery pack 20 is provided with the parallel connection pair interface 11 and the housing fixing hole 12, the matched parallel connection pair interface 11 of the second layer of battery pack 30 is provided with the battery assembly socket 21, and the bottom of the second layer of battery pack 30 is provided with the housing fixing column 22.

Further, in the above technical solution, the top of the two-layer battery pack 30 is provided with the parallel connection pair interface 11 and the housing fixing hole 12, the three-layer battery pack 40 is provided with the battery assembly socket 21 in combination with the parallel connection pair interface 11, and the bottom of the three-layer battery pack 40 is provided with the housing fixing column 22 in combination with the housing fixing hole 12.

Further, in the above technical solution, the top of the three-layer battery pack 40 is provided with the parallel connection butt joint 11 and the housing fixing hole 12, the electric module 50 is provided with the battery assembly socket 21 in the matching parallel connection butt joint 11, and the housing fixing hole 12 is provided with the housing fixing column 22 at the bottom of the electric module 50.

Further, in the above technical solution, 1 battery assembly socket 21 is provided for each group of parallel connection interfaces 11, 4 housing fixing holes 12 are provided for each group of parallel connection interfaces 11, and 4 housing fixing posts 22 are provided for each group of parallel connection interfaces 12.

Further, in the above technical solution, the handles 13 are respectively disposed on two sides of the one-layer battery pack 20, the two-layer battery pack 30, the three-layer battery pack 40, and the electrical module 50.

In the above technical solution, the base 10, the first-layer battery pack 20, the second-layer battery pack 30, the third-layer battery pack 40, and the electrical module 50 have rectangular structures, and the whole device has rectangular structures.

Further, in the above technical solution, the base 10 is located at the bottom layer, and the electrical module 50 is located at the top layer.

Further, in the above technical scheme, the device stacks 1 to 5 layers in succession, and each battery pack side is marked with a corresponding 1 to 5 number.

Further, in the above technical solution, the first layer of battery pack 20 corresponds to the number 1, the second layer of battery pack 30 corresponds to the number 2, and the third layer of battery pack 40 corresponds to the number 3.

Specifically, the principle of the utility model is as follows: the battery packs can be continuously stacked in 1-5 layers, and the side surface of each battery pack is marked with a corresponding 1-5 number; the first layer is provided with a No. 1 battery pack, the second layer is provided with a No. 2 battery pack, and the like, the sequence of the first layer is not changed, the bottom layer is provided with a base, and the top layer is an electric module; when in use, the 25kWh is 5 layers; 20kWh is 4 layers; 15kWh is 3 layers; 10kWh is 2 layers; the device can be used as a household storage device indoors, photovoltaic or commercial power is connected to store energy and invert for use, a required destination can be reached when camping or emergency rescue is performed, the device is used as an emergency power supply, mobile phone charging is performed through USB, type C and a wireless charger, 12V/24V electric equipment/automobile starting storage battery supplementing is performed, emergency lighting is performed, a new energy electric automobile is charged, 220V aviation is fast plugged, three-hole socket and five-hole socket power utilization are performed, and the like.

Claims (10)

1. The utility model provides an emergency power source formula house store up device, includes base (10), its characterized in that, base (10) top is from bottom to top detachable in proper order is connected with one deck group battery (20), two-layer group battery (30), three-layer group battery (40), electric module (50), base (10) top is provided with parallelly connected to interface (11) and shell fixed orifices (12), it is supporting that one deck group battery (20) bottom is supporting parallelly connected to interface (11) are provided with battery group socket (21), it is supporting that one deck group battery (20) bottom is provided with shell fixed column (22) to support shell fixed orifices (12);

The electric power generation device comprises a first-layer battery pack (20) and a second-layer battery pack (30), wherein the first-layer battery pack and the second-layer battery pack are connected through a plug-in structure, the second-layer battery pack (30) and the third-layer battery pack (40) are connected through a plug-in structure, the third-layer battery pack (40) and the electric module (50) are connected through a plug-in structure, and the total number of the plug-in structures is 4.

2. The emergency power supply type household storage device according to claim 1, wherein the parallel connection butt joint port (11) and the shell fixing hole (12) are arranged at the top of the one-layer battery pack (20), the parallel connection butt joint port (11) is arranged in a matching manner of the two-layer battery pack (30), the battery assembly socket (21) is arranged in a matching manner of the two-layer battery pack (30), and the shell fixing hole (12) is arranged in a matching manner of the bottom of the two-layer battery pack (30), and the shell fixing column (22) is arranged in the matching manner of the two-layer battery pack.

3. The emergency power supply type household storage device according to claim 2, wherein the parallel connection butt joint port (11) and the shell fixing hole (12) are arranged at the top of the two-layer battery pack (30), the battery assembly butt joint port (21) is arranged on the three-layer battery pack (40) in a matched mode, and the shell fixing hole (12) is arranged on the bottom of the three-layer battery pack (40) in a matched mode, and the shell fixing column (22) is arranged on the bottom of the three-layer battery pack (40).

4. An emergency power supply type household storage device as claimed in claim 3, wherein the parallel connection butt joint (11) and the shell fixing hole (12) are arranged at the top of the three-layer battery pack (40), the parallel connection butt joint (11) is arranged in the electric module (50), the battery assembly socket (21) is arranged in the electric module (50), and the shell fixing hole (12) is arranged at the bottom of the electric module (50), and the shell fixing column (22) is arranged in the electric module (50).

5. The emergency power type household storage device according to claim 4, wherein each group of the parallel connection pair interfaces (11) is 1, the battery assembly socket (21) matched with the parallel connection pair interfaces (11) is 1, each group of the shell fixing holes (12) is 4, and the shell fixing columns (22) matched with the shell fixing holes (12) are 4.

6. The household storage device of claim 5, wherein the one-layer battery pack (20), the two-layer battery pack (30), the three-layer battery pack (40) and the electric module (50) are respectively provided with handles (13) at two sides.

7. The emergency power type household storage device according to claim 1, wherein the base (10), the one-layer battery pack (20), the two-layer battery pack (30), the three-layer battery pack (40) and the electric module (50) are rectangular structures, and the device is overall rectangular structures.

8. The emergency power type household storage apparatus as claimed in claim 7, wherein the base (10) is positioned at a bottom-most layer, and the electrical module (50) is positioned at a top-most layer.

9. The emergency power type household storage device as claimed in claim 8, wherein the device is continuously stacked in 1-5 layers, and each battery pack side is marked with a corresponding 1-5 number.

10. The emergency power type household storage apparatus as claimed in claim 9, wherein the one-layer battery pack (20) corresponds to No. 1, the two-layer battery pack (30) corresponds to No. 2, and the three-layer battery pack (40) corresponds to No. 3.