JP3238935U - Combined Modular Home Energy Storage System - Google Patents

Abstract

The present invention provides a combined modular home energy storage system and belongs to the technical field of energy storage system. It includes an inverter, a battery case and a pedestal, and further includes a vertically mounted side plate assembly to which the inverter, the battery case and the pedestal are detachably connected in order from top to bottom, both ends of the inverter, the battery case and the pedestal. are each fixedly connected to the side plate assembly. The present invention makes full use of modular design, allowing the battery case and inverter to be combined and arranged in a system, and can be stacked and transported in a single module design, convenient for installation, transportation and later expansion. is.

Description

The present invention belongs to the technical field of energy storage system, and relates to a combined modular home energy storage system.

With the large-scale application and development of photovoltaic power generation systems and battery energy storage systems (especially lithium batteries), household energy storage systems are gradually becoming popular. A home energy storage system mainly includes a battery case and an inverter. In the prior art, home energy storage systems are generally divided into integral cabinet type and independent separate type. In the integrated cabinet type, the battery case and the inverter are mounted in the same cabinet, and in the independent separate type, the battery case and the inverter are mounted independently and electrically connected. The integrated cabinet system has a large volume and a heavy overall weight, is not convenient for transportation and installation, and is difficult to expand the system later. Stand-alone systems are complicated to connect and install because the inverter is typically wall-mounted and the battery case is floor-mounted.

On the other hand, home energy storage systems are often applied in earthquake-prone areas as backup power sources. The prior art generally provides post-earthquake protection by improving the safety of the electric core, but the needling test in the electric core safety test is difficult to pass, so to ensure the safety of the system The robustness of the housing must be improved to prevent safety hazards due to damage to the electrical core.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a combinatorial modular home energy storage system for the above-mentioned problems.

In order to achieve the above object, the present invention has taken the following technical solutions.

A combinatorial modular home energy storage system comprising an inverter, a battery case and a pedestal, further comprising a vertically mounted side plate assembly to which said inverter, battery case and pedestal are detachably coupled in order from top to bottom; A combinatorial modular home energy storage system, wherein both ends of said inverter, battery case and pedestal are each fixedly connected to a side plate assembly.

The above combinatorial modular home energy storage system, wherein the side plate assembly includes a left side plate and a right side plate, and is mounted on the left side plate and the right side plate along the axial direction of the left side plate and the right side plate, respectively, the inverter; A plurality of connecting holes are provided corresponding to the positions of the battery case and the base. After passing through the connecting hole, the locking member fixes and connects the left side plate and the right side plate to the inverter, the battery case and the base, respectively.

In the above combined modular home energy storage system, the left side plate and the right side plate are provided with a plurality of reinforcing ribs provided with connecting holes. The left side plate and the right side plate are fixedly connected to both ends of the inverter, the battery case and the pedestal via connecting holes, respectively.

In the combination modular home energy storage system, both ends of the inverter, the battery case and the pedestal are respectively provided with inverter fixing holes, battery case fixing holes and pedestal fixing holes that match the connecting holes in the left side plate and the right side plate. there is

In the combination modular home energy storage system, the bottom of the pedestal is provided with a pedestal mounting hole, the top of the pedestal is provided with a pedestal positioning pin, and the bottom of the battery case is provided with a battery case positioning hole matching the pedestal positioning pin. When the battery case is placed on the pedestal, the pedestal positioning pin is inserted into the battery case positioning hole, the top of the battery case is provided with the battery case positioning pin, and the bottom of the inverter is matched with the battery case positioning pin. An inverter positioning hole is provided, and when the inverter is placed in the battery case, the battery case positioning pin is inserted into the inverter positioning hole.

In the above combinatorial modular home energy storage system, the pedestal positioning pins are two and located on both sides of the center line of the pedestal, and the battery case positioning holes and battery case positioning pins are each two and battery case and the inverter positioning holes are two and located on both sides of the center line of the inverter.

In the above combined modular home energy storage system, the two pedestal positioning pins are diagonally installed along the pedestal, and the two battery case positioning holes and the two battery case positioning pins are respectively along the battery case Diagonally arranged, the two inverter positioning holes are respectively diagonally arranged along the inverter.

In the combination modular home energy storage system, one end of the battery case close to the left plate is provided with a plurality of battery case waterproof connectors, and the right plate is provided with an external interface board.

In the above combinatorial modular home energy storage system, a plurality of inverter waterproof connectors are provided at one end adjacent to the left plate of the inverter, a plurality of waterproof joints are provided at one end adjacent to the right plate of the inverter, and a cap is provided at the top of the inverter. is detachably provided, an indicator lamp is provided on one side wall of the inverter, and a heat sink is provided on the other side wall.

In the above combinatorial modular home energy storage system, a plurality of battery cases are provided between the inverter and the pedestal so as to be detachably connected in order from top to bottom. The bottom of the lowermost battery case is fixedly connected to the top of the pedestal.

Compared with the prior art, the advantages of the present invention are as follows.

1. The present invention makes full use of the modular design, so that the battery case and the inverter can be combined and arranged by the system, and can be stacked and transported in a single module design for easy installation, transportation and later expansion. convenient for

2.Since the battery case and inverter are stacked and installed, the trouble of installing them separately is eliminated, making system connections more convenient. It can withstand pressure from heavy objects and improve safety for the system.

Other advantages, objects and features of the invention will be embodied in part in the following description, and will be understood in part by those skilled in the art from consideration and practice of the invention.

1 is a structural schematic diagram of the present invention; FIG. FIG. 2 is a schematic view of FIG. 1 in another direction; FIG. 3 is another structural schematic diagram according to the present invention; 1 is an exploded view of the present invention; FIG. FIG. 5 is a schematic view of FIG. 4 in another direction; FIG. 5 is a schematic view of FIG. 4 in another direction;

As shown in FIG. 1, a combined modular home energy storage system including an inverter 200, a battery case 100 and a base 300, wherein the inverter 200, the battery case 100 and the base 300 are detachably connected in order from top to bottom. and further comprising a vertically mounted side plate assembly, wherein both ends of said inverter 200, battery case 100 and pedestal 300 are respectively fixedly connected to the side plate assembly.

By using modular design, the present invention can be stacked and transported in a single module design, convenient for installation, transport and later expansion, and the battery case 100 and the inverter 200 are stacked and installed. This eliminates the trouble of installing a separate unit and makes system connection more convenient.

Battery case 100 and inverter 200 can be arranged in combination depending on the system. As shown in FIG. 3, a plurality of battery cases 100 are provided between the inverter 200 and the pedestal 300 so as to be detachably connected so as to overlap one another from top to bottom. 200 , and the bottom of the lowermost battery case 100 is fixedly connected to the top of the pedestal 300 . In the embodiment, the capacity and quantity of the battery case 100 and the power level of the inverter 200 can be combined and arranged according to application needs. Although FIG. 2 shows three battery cases 100 overlapping each other, this does not mean that only three battery cases can be overlapped; Yes, or more.

In this embodiment, the side plate assembly includes a left side plate 400 and a right side plate 500, as shown in FIG. Left side plate 400 and right side plate 500 are provided with a plurality of connecting holes corresponding to the positions of inverter 200, battery case 100 and pedestal 300 along the axial direction of left side plate 400 and right side plate 500, respectively. there is After passing through the connecting hole, the locking member fixes and connects the left side plate 400 and the right side plate 500 to the inverter 200, the battery case 100 and the pedestal 300, respectively. The locking member may be a screw, screw or bolt or the like. Inverter 200 , battery case 100 , and pedestal 300 are provided at both ends with screw holes for connection corresponding to the connection holes.

As shown in FIGS. 4 and 5, left side plate 400 and right side plate 500 are provided with a plurality of reinforcing ribs. Reinforcing ribs, that is, supporting columns, are used to improve the strength of the left and right side plates to achieve the effect of earthquake resistance. The stiffening ribs obviously increase the strength of the whole side plate assembly, making the whole system more stable. A connecting hole is provided in the reinforcing rib, and the left side plate 400 and the right side plate 500 are fixedly connected to both ends of the inverter 200, the battery case 100 and the pedestal 300 through the connecting hole.

Specifically, as shown in FIGS. 4 and 5, at both ends of inverter 200, battery case 100 and base 300, inverter fixing holes 202 that match the connecting holes in left side plate 400 and right side plate 500, respectively, and battery case fixing holes 202 are provided. A hole 103 and a pedestal fixing hole 302 are provided. Since the inverter fixing hole 202, the battery case fixing hole 103, and the pedestal fixing hole 302 are all screw holes, it is convenient to connect the left side plate and the right side plate with screw members. Those skilled in the art will know that the positions and quantities of the connecting holes in the left and right plates, as well as the inverter fixing holes 202, the battery case fixing holes 103 and the base fixing holes 302 are arranged according to the actual situation in order to realize the connection. It should be understood that The number of connecting holes is greater than the number of inverter fixing holes 202, battery case fixing holes 103 and pedestal fixing holes 302, which is convenient for later expansion of the battery case.

A pedestal mounting hole 301 is provided in the bottom of the pedestal 300 . The pedestal mounting holes 301 are fixed to anchor bolts and used to fix the entire home energy storage system. A pedestal positioning pin 303 is provided on the top of the pedestal 300, and a battery case positioning hole 101 matching the pedestal positioning pin 303 is provided on the bottom of the battery case 100. When the battery case 100 is placed on the pedestal 300, the pedestal positioning pin 303 is inserted into the battery case positioning hole 101, the battery case positioning pin 102 is provided at the top of the battery case 100, and the inverter positioning hole 201 matching the battery case positioning pin 102 is provided at the bottom of the inverter 200, When the inverter 200 is placed in the battery case 100 , the battery case positioning pins 102 are inserted into the inverter positioning holes 201 .

The above-described positioning holes and positioning pins are matched with each other and are easy to install, complete the stacking installation of the pedestal 300, the battery case 100 and the inverter 200, and after the installation is completed, achieve the radial positioning and adjust the radial position. can be stabilized.

In a preferred embodiment, there are two pedestal positioning pins 303 located on both sides of the center line of the pedestal 300 , and two battery case positioning holes 101 and two battery case positioning pins 102 are provided at the center of the battery case 100 . Located on both sides of the line, the inverter positioning holes 201 are two and located on both sides of the center line of the inverter 200 .

In a more preferred embodiment, the two pedestal positioning pins 303 are arranged diagonally along the pedestal 300, and the two battery case positioning holes 101 and the two battery case positioning pins 102 are arranged in pairs along the battery case 100. The two inverter positioning holes 201 are arranged diagonally along the inverter 200 respectively. Diagonal installation provides convenient alignment and fixation and facilitates installation.

Applicants have found that a diagonal placement of two locating holes and locating pins is the optimum configuration. If three or more locating holes and locating pins are installed, the size must be very accurate in the processing process, otherwise the locating pins and locating holes cannot correspond to each other during installation, and stacking cannot be achieved. . The diagonal installation of two positioning holes and positioning pins not only ensures the strength and accuracy of positioning, but also facilitates angle adjustment and matching.

As shown in FIGS. 5 and 6, a plurality of battery case waterproof connectors 104 are provided at one end of the battery case 100 near the left side plate 400 and are used to control the connection and connection of the positive and negative electrodes of the battery case. An external interface board 501 is provided on the right side plate 500 . The external interface board 501 is used for leading wires from the outside, and may be matched with a wire protection tube, and its position is not limited.

A plurality of inverter waterproof connectors 203 are provided at one end near the left side plate 400 of the inverter 200, and are used to control the connection and connection between the inverter and the positive and negative electrodes of the battery case. A plurality of waterproof joints 205 are provided at one end near the right side plate 500 of the inverter 200, and are used for photovoltaic DC side input, power grid side and load AC side output, external communication, and the like. A detachable cap 207 is provided on top of the inverter 200 so that the user can open the cap to wire the system in the field and close the cap after the wiring is complete. An indicator lamp 204 is provided on one side wall of the inverter 200 and a heat sink 206 is provided on the other side wall for the power elements of the inverter to dissipate heat.

The specific examples described herein are only meant to illustrate the concept of the invention. Those skilled in the art will be able to make various modifications or Supplements may be made or substituted in similar fashion.

100 Battery Case 101 Battery Case Positioning Hole 102 Battery Case Positioning Pin 103 Battery Case Fixing Hole 104 Battery Case Waterproof Connector 200 Inverter 201 Inverter Positioning Hole 202 Inverter Fixing Hole 203 Inverter Waterproof Connector 204 Indicator Lamp 205 Waterproof Joint 206 Heat Sink 207 Cap 300 Pedestal 301 Pedestal mounting hole 302 Pedestal fixing hole 303 Pedestal positioning pin 400 Left side plate 500 Right side plate 501 External interface board

Claims (10)

A combinatorial modular home energy storage system comprising an inverter, a battery case and a pedestal, comprising:
the inverter, the battery case and the pedestal are detachably connected in order from top to bottom;
further comprising a vertically mounted side plate assembly;
A combinatorial modular home energy storage system, characterized in that both ends of said inverter, said battery case and said pedestal are each fixedly connected to a side plate assembly. the side plate assembly includes a left side plate and a right side plate;
A plurality of connection holes corresponding to the positions of the inverter, the battery case, and the base are provided in the left side plate and the right side plate, respectively, along the axial direction of the left side plate and the right side plate. The combination modular home energy storage system according to claim 1, characterized in that: The left side plate and the right side plate are provided with a plurality of reinforcing ribs provided with the connecting holes,
The combination modular home energy storage system according to claim 2, characterized in that the left plate and the right plate are fixedly connected to both ends of the inverter, the battery case and the base through the connecting holes, respectively. system. An inverter fixing hole, a battery case fixing hole, and a pedestal fixing hole matching the connecting holes in the left side plate and the right side plate are provided at both ends of the inverter, the battery case, and the pedestal, respectively. 4. The combinatorial modular home energy storage system of claim 3. A pedestal mounting hole is provided at the bottom of the pedestal, a pedestal positioning pin is provided at the top of the pedestal, and a battery case positioning hole matching the pedestal positioning pin is provided at the bottom of the battery case, and the battery case is When placed on the pedestal, the pedestal positioning pin is inserted into the battery case positioning hole,
A battery case positioning pin is provided on the top of the battery case, and an inverter positioning hole matching the battery case positioning pin is provided on the bottom of the inverter, so that when the inverter is placed in the battery case, the battery case The combinatorial modular home energy storage system as claimed in claim 1, characterized in that locating pins are inserted into said inverter locating holes. the pedestal positioning pins are two and located on both sides of the center line of the pedestal;
there are two battery case positioning holes and two battery case positioning pins, and they are located on both sides of the center line of the battery case;
6. The combination modular home energy storage system of claim 5, wherein the inverter positioning holes are two and located on both sides of the centerline of the inverter. The two pedestal positioning pins are diagonally arranged along the pedestal,
the two battery case positioning holes and the two battery case positioning pins are arranged diagonally along the battery case,
7. The combinatorial modular home energy storage system of claim 6, wherein the two inverter positioning holes are respectively diagonally set along the inverter. 3. The combined modular home use according to claim 2, wherein a plurality of battery case waterproof connectors are provided on one end of the battery case near the left side plate, and an external interface board is provided on the right side plate. energy storage system. A plurality of inverter waterproof connectors are provided at one end of the inverter that is close to the left side plate, a plurality of waterproof joints are provided at one end of the inverter that is close to the right side plate, and a cap is detachably provided at the top of the inverter, 3. The combination modular home energy storage system of claim 2, wherein one side wall of said inverter is provided with an indicator lamp and the other side wall is provided with a heat sink. A plurality of battery cases are provided between the inverter and the pedestal so as to be detachably connected in order from top to bottom,
the top of the uppermost battery case is fixedly connected to the bottom of the inverter;
2. The combinatorial modular home energy storage system of claim 1, wherein the bottom of the lowermost battery case is fixedly connected to the top of the base.

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