CN220605283U - Novel energy storage integrated control cabinet - Google Patents

Abstract

The application relates to energy storage cabinet technical field especially relates to a novel energy storage integrated control cabinet, include: the power distribution device comprises a cabinet body, a first partition plate, a second partition plate, a control module, a power distribution module and a confluence module; the first separation plate is arranged in the cabinet body and separates the interior of the cabinet body into an upper installation space and a lower installation space along the height direction of the cabinet body; the second partition plate member is arranged in the lower installation space and divides the lower installation space into a first lower installation space and a second lower installation space along the height direction perpendicular to the cabinet body; one of the power distribution module and the bus module is disposed in the first lower installation space, and the other of the power distribution module and the bus module is disposed in the second lower installation space. The novel energy storage integrated control cabinet that this application provided is high in integration level, and the internal device is arranged compactly, rationally distributed, and the wiring is convenient, and the circuit is regular.

Description

Novel energy storage integrated control cabinet

Technical Field

The application relates to the technical field of energy storage cabinets, in particular to a novel energy storage integrated control 5 cabinet.

Background

At present, the energy storage integrated control cabinet on the market generally comprises a control module, a distribution module and a confluence module, wherein the control module, the distribution module and the confluence module are often arranged in different cabinets independently, the integration level is poor, the occupied space is large, the wiring between the three modules is inconvenient to maintain, and the cost is high.

Disclosure of Invention

An object of the application is to provide a novel energy storage integrated control cabinet, solved the control module that the energy storage integrated control cabinet that exists among the prior art included to a certain extent, join in marriage single mode 5 pieces and converging the module and often independently set up in the cabinet of difference, the integrated level is poor, occupation space is big, moreover inconvenient wiring between the three module, the technical problem that the cost is also higher.

The application provides a novel energy storage integrated control cabinet, include: the power distribution device comprises a cabinet body, a first partition plate, a second partition plate, a control module, a power distribution module and a confluence module;

the first separation plate is arranged in the cabinet body and separates the inner 0 part of the cabinet body into an upper installation space and a lower installation space along the height direction of the first separation plate;

the second partition plate member is arranged in the lower installation space and divides the lower installation space into a first lower installation space and a second lower installation space along the height direction perpendicular to the cabinet body;

one of the power distribution module and the bus module is disposed in the first lower installation space, and the other of the power distribution module and the bus module is disposed in the second lower installation space.

In the above technical solution, further, the cabinet body includes a front door panel and a rear door panel opposite to the front door panel, and the front door panel and the rear door panel can be opened or closed;

along the direction of preceding door plant orientation back door plant, distribution module with collection flow the module and set up in order, just distribution module is close to preceding door plant sets up, collection flow the module and be close to back door plant sets up.

In any of the above technical solutions, further, the top of the cabinet, the bottom of the cabinet, the first partition plate, and the second partition plate are all formed with wire through holes.

In any of the above solutions, further, the first lower mounting space is provided with a first longitudinal routing member extending along a height direction thereof, and the first longitudinal routing member is formed with a first routing cavity penetrating at least a top portion thereof and a first via hole communicating with the first routing cavity.

In any of the above technical solutions, further, the number of the first longitudinal routing members is two, and the first longitudinal routing members are respectively disposed at two sides of the power distribution module;

a first transverse wiring member is arranged between the two first longitudinal wiring members, and is respectively connected with the two first longitudinal wiring members and communicated with at least one of the two first longitudinal wiring members; the first transverse wiring member is formed with a second wiring cavity penetrating at least one end of the first transverse wiring member and a second via hole communicated with the second wiring cavity.

In any of the above technical solutions, further, the upper installation space is provided with a second longitudinal routing member extending along a height direction thereof, and the second longitudinal routing member is formed with a routing cavity penetrating at least a bottom portion thereof and a via hole communicating with the routing cavity.

In any of the above embodiments, further, a vent hole is formed in a region of the cabinet body corresponding to at least one of the upper installation space, the first lower installation space, and the second lower installation space.

In any of the above technical solutions, further, the cabinet body includes a frame, a front door panel, and a rear door panel; along preset direction, the front door plate is arranged at the front side of the frame and can be opened or closed, and the rear door plate is arranged at the rear side of the frame.

In any one of the above technical solutions, further, the novel energy storage integrated control cabinet further includes two L-shaped first mounting pieces, and along the length direction of the front door panel, the two first mounting pieces are respectively disposed on two opposite sides of the frame; the control module is arranged between the two mounting pieces and is respectively connected with the two mounting pieces.

In any of the above solutions, further, the cabinet further includes a first middle mounting beam, where the first middle mounting beam is fixed between two adjacent stringers of the frame and extends along a direction perpendicular to the front door panel;

any one of the first mounting members is provided with one of the first intermediate mounting beams and is detachably connected with the first intermediate mounting beam.

In any of the above solutions, further, the cabinet further includes a second middle mounting beam, where the second middle mounting beam is fixed between two adjacent stringers of the frame and extends along a direction perpendicular to the front door panel; the two sides of the second partition plate are respectively provided with the second middle mounting beam, and the second middle mounting beams are detachably connected with the second middle mounting beams.

In any of the above technical solutions, further, the novel energy storage integrated control cabinet further includes a mounting plate and a fixing member; the mounting plate is arranged in the first lower mounting space and is detachably connected with the second middle mounting beam; the fixing member is provided with a clamping groove, and at least part of components of the power distribution module are clamped in the clamping groove.

In any of the above solutions, further, extension plates are formed on opposite sides of the second partition plate, respectively, and the extension plates are disposed perpendicular to the second partition plate;

a reinforcing rib plate is arranged between the two opposite extending plates, and an air guide channel is formed between the reinforcing rib plate and the second partition plate; at least part of the structure of the converging module is arranged on the reinforcing rib plate.

Compared with the prior art, the beneficial effects of this application are:

the novel energy storage integrated control cabinet that this application provided is with control module, distribution module and the module integration that converges in same cabinet body, and the integrated level is higher, saves space, and the maintenance of being convenient for moreover to the problem of the increase of the cost that many cupboards arouse has been avoided.

In addition, the control module is arranged at the upper part, so that the operation of a user is facilitated, wires which go out of the cabinet at the later stage can be led to the top of the cabinet, the operation is facilitated, and the control module is independently arranged at the upper part area, thereby being beneficial to rapid heat dissipation and improving the service performance; the distribution module and the confluence module are arranged at the lower part in a spaced mode, so that the assembly of the distribution module and the confluence module from the bottom lead wire to the distribution module and/or the confluence module in the initial stage is facilitated, and the distribution module and the confluence module are arranged at intervals, so that heat transfer of the confluence module to the area of the distribution module can be effectively prevented.

In addition, through set up corresponding wire hole and set up corresponding wiring component on the cabinet body and baffle for the internal pencil of cabinet is regular, can not be confused, promotes security and reliability, the maintenance of later stage of being convenient for moreover.

In addition, the first middle mounting beam, the first mounting piece, the second middle mounting beam, the mounting plate, the fixing member, the reinforcing rib plate and the like are arranged in the cabinet body, so that the mounting and the fixing of each module are realized, and the structure is flexible and adjustable.

In addition, the whole cabinet is maintained in front, so that the problem of inconvenient maintenance due to limited space on site is solved; the installation is convenient, the manpower and material resources are saved, and the cost is saved; the cabinet body is small in size and small in site occupation area; the resource utilization rate is improved, and the performance of the control cabinet is optimized.

Drawings

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

Fig. 1 is a schematic structural diagram of a novel energy storage integrated control cabinet provided in an embodiment of the present application;

fig. 2 is another schematic structural diagram of the novel energy storage integrated control cabinet provided in the embodiment of the present application;

fig. 3 is a schematic partial structure diagram of a novel energy storage integrated control cabinet according to an embodiment of the present application;

fig. 4 is another schematic partial structure of the novel energy storage integrated control cabinet provided in the embodiment of the present application;

fig. 5 is a schematic diagram of another partial structure of the novel energy storage integrated control cabinet according to the embodiment of the present application;

fig. 6 is a schematic diagram of another partial structure of the novel energy storage integrated control cabinet according to the embodiment of the present application.

Reference numerals:

1-cabinet, 11-frame, 12-front door panel, 121-upper front door panel, 122-lower front door panel, 13-rear door panel, 131-upper rear door panel, 132-lower rear door panel, 14-first middle mounting beam, 15-second middle mounting beam, 16-vent hole, 17-filter screen, 2-first partition plate, 3-second partition plate, 31-extension plate, 4-control module, 5-distribution module, 6-confluence module, 7-first longitudinal wiring member, 8-first transverse wiring member, 9-second longitudinal wiring member, 10-first mounting member, 19-mounting plate, 20-fixing member, 21-reinforcing rib plate, 22-partition plate, 23-observation window.

Detailed Description

The following description of the embodiments of the present application will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown.

The components of the embodiments of the present application, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application.

All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

In the description of the present application, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description of the present application and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

A novel energy storage integrated control cabinet according to some embodiments of the present application is described below with reference to fig. 1 to 6.

Referring to fig. 1 to 6, an embodiment of the present application provides a novel energy storage integrated control cabinet, including: the cabinet body 1, the first partition plate 2, the second partition plate 3, the control module 4, the power distribution module 5 and the confluence module 6;

the first separation plate 2 is arranged in the cabinet body 1 and separates the interior of the cabinet body 1 into an upper installation space and a lower installation space along the height direction of the cabinet body;

the second partition plate 3 is disposed in the lower installation space and partitions the lower installation space into a first lower installation space and a second lower installation space along a height direction perpendicular to the cabinet body 1;

one of the power distribution module 5 and the bus module 6 is provided in the first lower installation space, and the other of the power distribution module 5 and the bus module 6 is provided in the second lower installation space.

Based on the structure described above, the novel energy storage integrated control cabinet provided by the application integrates the control module 4, the power distribution module 5 and the convergence module 6 in the same cabinet body 1, so that the integration level is higher, the space is saved, the maintenance is convenient, and the problem of cost increase caused by a plurality of cabinets is avoided.

In addition, the control module 4 is arranged at the upper part, so that the operation of a user is facilitated, wires which go out of the cabinet at the later stage can be led to the top of the cabinet, the operation is facilitated, and the control module 4 is independently arranged at the upper part area, thereby being beneficial to rapid heat dissipation and improving the service performance; the distribution module 5 and the confluence module 6 are arranged at the lower part in a spaced-apart mode, so that the bottom lead wire is conveniently arranged from the bottom to the distribution module 5 and/or the confluence module 6 in the initial assembly stage, and the distribution module 5 and the confluence module 6 are arranged at intervals, and the heat transfer from the confluence module 6 to the area of the distribution module 5 can be effectively prevented.

In this embodiment, preferably, as shown in fig. 1 to 3, the cabinet 1 includes a front door panel 12 and a rear door panel 13 opposite to the front door panel 12, and the front door panel 12 can be opened or closed, so that front maintenance is facilitated, and the problem of inconvenience in maintenance due to limited space on site is solved; along the direction of preceding door plant 12 towards back door plant 13, distribution module 5 and collection flow module 6 set up in order, and distribution module 5 is close to preceding door plant 12 and sets up, and collection flow module 6 is close to back door plant 13, of course, not only this, also can collection flow module 6 in the front, distribution module 5 later, specifically selects according to actual need.

According to the above-described structure, the distribution module 5 and the bus module 6 are placed front and back, the second partition plate 3 is arranged in the middle, the bus module 6 is directly connected to the cable through the wire hole at the bottom, and the cable diameter is large, so that the bus module 6 is placed behind the distribution module 5, and the influence on the daily operation and the daily maintenance of the distribution module 5 due to the oversized wiring of the cable diameter can be avoided.

Further, preferably, as shown in fig. 1, the front door panel 12 may include an upper front door panel 121 and a lower front door panel 122 for corresponding to the upper installation space and the first lower installation space, respectively, and both may be opened or closed. For the rear door panel 13 and the side panels described below, the components or the integrated structure may be designed according to actual needs, for example: in the present embodiment, as shown in fig. 2, the rear door panel 13 includes an upper rear door panel 131 and a lower rear door panel 132, which are selected according to actual needs. In this embodiment, preferably, as shown in fig. 2, the top of the cabinet 1, the bottom of the cabinet 1, the first partition plate 2, and the second partition plate 3 are each formed with a wire via, and preferably, the number of wire vias at each place may be plural.

Further, it is preferable that the first lower installation space is provided with a first longitudinal routing member 7 extending in the height direction thereof, the first longitudinal routing member 7 being formed with a first routing cavity penetrating at least the top portion thereof and a first via communicating with the first routing cavity, mainly for longitudinal routing between the respective electrical components between the power distribution modules 5 and between the control module 4, as shown in fig. 3 to 6.

Further, preferably, as shown in fig. 3 to 6, the number of the first longitudinal routing members 7 is two and is respectively disposed at both sides of the power distribution module 5; a first transverse wire member 8 is arranged between the two first longitudinal wire members 7 and is connected to and in communication with at least one of the two first longitudinal wire members 7, respectively; the first transverse wiring member 8 is formed with a second wiring cavity penetrating at least one end thereof and a second via hole communicating with the second wiring cavity, and is mainly used for transverse wiring between each electrical element between the power distribution modules 5 and between the control modules 4.

And preferably, the number of the first lateral routing members 8 may be plural and sequentially spaced apart in the height direction of the second lower installation space.

Further, it is preferable that the upper installation space is provided with a second longitudinal routing member 9 extending in the height direction thereof, as shown in fig. 3 to 6, the second longitudinal routing member 9 being formed with a routing cavity penetrating at least the bottom thereof and a via hole communicating with the routing cavity, mainly for the power distribution module 5 and the control module 4.

According to the above-described structure, the following routing structure is provided between each module in the present application: first wiring structure: the wiring between the control module 4 and the distribution module 5, the wiring between the control module 4 and the outside of the cabinet, and the wiring between the control module 4 and the outside of the cabinet mainly depends on the wiring hole formed in the top of the cabinet body 1, that is, the top wiring hole, to directly route to the outside, and the wiring between the control module 4 and the distribution module 5 mainly depends on the first transverse wiring member 8, the first longitudinal wiring member 7, the wiring hole formed in the first partition plate 2, and the second longitudinal wiring member 9 described below.

And a second wiring structure: the wiring between the cabinet outside and the distribution module 6, the wiring between the distribution module 6 and the distribution module 5, the wiring between the distribution module 6 and the control module 4, and wherein the wiring between the cabinet outside and the distribution module 6 mainly depends on the wire passing hole formed in the bottom of the cabinet body 1 to directly lead in the distribution module 6, the wiring between the distribution module 6 and the distribution module 5 mainly depends on the wire passing hole formed in the second partition member, and the wiring between the distribution module 6 and the control module 4 mainly depends on the wire passing hole formed in the second partition member, the first transverse wiring member 8, the first longitudinal wiring member 7, the wire passing hole formed in the first partition plate 2 and the second longitudinal wiring member 9.

And a third wiring structure: the wires between the power distribution module 5 and the control module 4, and between the power distribution module 5 and the outside of the cabinet, are all wires by means of a first transverse wire member 8, a first longitudinal wire member 7, a wire passing hole formed in the first partition plate 2 and a second longitudinal wire member 9, which are described below, and especially for the wires outside the cabinet, the wires also need to be through the aid of a top wire passing hole.

Through set up corresponding wire hole and set up corresponding wiring component on the cabinet body 1 and partition member for the pencil in the cabinet body 1 is regular, can not be confused, promotes security and reliability, the maintenance of later stage of being convenient for moreover.

In this embodiment, it is preferable that the corresponding upper installation space of the cabinet 1 is formed with a vent hole 16 for radiating heat from the control module 4, as shown in fig. 2, and further, it is preferable that the aforementioned vent hole 16 is formed on a side plate of the cabinet 1.

In this embodiment, as shown in fig. 2, a ventilation opening is preferably formed in the area of the cabinet 1 corresponding to the second lower installation space, a filter screen 17 is disposed in the ventilation opening, and a heat dissipation fan is disposed inside or outside the cabinet 1 for dissipating heat from the bus module 6 and the power distribution module 5, and of course, the ventilation opening 16 may be formed only in the second lower installation space of the cabinet 1.

The aforementioned ventilation opening, filter screen 17 and fan may be disposed in the region of the cabinet body 1 corresponding to the second lower installation space, or the ventilation opening 16, or the first lower installation space and the second lower installation space may be jointly provided with a set of heat dissipation structure, that is, the heat dissipation structure of the second lower installation space is utilized to dissipate heat, which is specifically selected according to actual needs.

In this embodiment, preferably, as shown in fig. 1 to 3, the cabinet 1 includes a frame 11, a front door panel 12, and a rear door panel 13; wherein, along a preset direction, the front door panel 12 is disposed at the front side of the frame 11 and can be opened or closed, the rear door panel 13 is disposed at the rear side of the frame 11, and preferably, the rear door panel 13 can also be opened or closed.

Further, it is preferable that the frame 11 includes four stringers and cross members connected to the top and bottom of the stringers to form a rectangular parallelepiped frame 11, but not limited thereto, and may be other shapes of frame 11 structures such as a pentagonal prism, a hexagonal prism, or other polygonal prism-shaped frames 11, or a special-shaped frame 11, or the like. In addition, the frame 11 may be provided with a top plate, a bottom plate and a plurality of side plates in addition to the front door plate 12 and the rear door plate 13, wherein the outer bottom surface of the bottom plate is higher than the bottom of the longitudinal beam, that is, a certain gap in the height direction is formed between the bottom plate and the working surface of the supporting frame 11, so that the lead wires are facilitated. In addition, reinforcing beams are also provided on the frame 11 around the first divider plate 2.

In this embodiment, preferably, as shown in fig. 3 to 6, the novel energy storage integrated control cabinet further includes two L-shaped first mounting pieces 10, and the two first mounting pieces 10 are respectively disposed at opposite sides of the frame 11 along the length direction of the front door panel 12; the control module 4 is mounted between and connected to the two mounting members.

According to the above-described structure, the L-shaped first mounting members 10 serve to fixedly support the control module 4, and the mounting space formed between the L-shaped first mounting members 10 can be adjusted according to the size of the control module 4, which is more flexible and less expensive than changing the entire frame 11 to accommodate the size of the control module 4.

Further, preferably, as shown in fig. 3, the cabinet 1 further includes a first intermediate mounting beam 14, the first intermediate mounting beam 14 being fixed between adjacent two longitudinal beams of the frame 11 and extending in a direction perpendicular to the front door panel 12;

any one of the first mounts 10 is provided with a first intermediate mounting beam 14 and is detachably connected to the first intermediate mounting beam 14 (and preferably by fastening means such as screws or bolts).

As can be seen from the above-described structure, the L-shaped first mounting member 10 is freely adjustable along the length direction of the first intermediate mounting beam 14, so that the assembly is more flexible, meeting the assembly requirements, and further, preferably, the first intermediate mounting beam 14 is a U-beam with its opening provided toward the outside of the frame 11.

Further, it is preferable that the control module 4 and the two L-shaped first mounts 10 are each connectable with fastening members such as screws or bolts.

In this embodiment, preferably, as shown in fig. 3 to 6, the cabinet 1 further includes a second intermediate mounting beam 15, the second intermediate mounting beam 15 being fixed between adjacent two longitudinal beams of the frame 11 and extending in a direction perpendicular to the front door panel 12; the second partition plate 3 is provided with a second intermediate mounting beam 15 on both sides and is detachably connected to the second intermediate mounting beam 15 (and preferably, the detachable connection can be achieved by fastening means such as screws or bolts).

As is clear from the above-described structure, the second intermediate mounting beam 15 can not only enhance the overall strength of the frame 11, but also serve to mount and fix the second partition plate 3.

Further, it is preferable that the first intermediate mounting beam 14 is a U-beam, and its opening is provided toward the outside of the frame 11.

In this embodiment, preferably, as shown in fig. 3, the novel energy storage integrated control cabinet further includes a mounting plate 19 and a fixing member 20; wherein the mounting plate 19 is disposed in the first lower mounting space and detachably connected to the second middle mounting beam 15; the fixing member 20 is formed with a clamping groove, and at least part of components of the power distribution module 5 are clamped in the clamping groove.

According to the above-described structure, the mounting plate 19 serves to support and mount components in the power distribution module 5, and the components in the power distribution module 5 are fastened in the fastening grooves of the fixing member 20 by means of fastening, so that the mounting and dismounting are facilitated.

Further, it is preferable that the fixing member 20 has a U shape, and a clamping groove is formed inside thereof.

Further, it is preferable that the components of the power distribution module 5 are mounted on the mounting plate 19 or the fixing member 20 on the mounting plate 19 as shown in fig. 3.

In this embodiment, preferably, as shown in fig. 5, the second partition plate member 3 is formed with extension plates 31 on opposite sides thereof, respectively, and the extension plates 31 are disposed perpendicularly to the second partition plate member 3;

a reinforcing rib plate 21 is arranged between the two oppositely arranged extension plates 31, and an air guide channel is formed between the reinforcing rib plate 21 and the second partition plate member 3; at least part of the structure of the confluence module 6 is mounted to the reinforcing plate 21.

As is apparent from the above-described structure, by providing the extension plate 31 and the reinforcing rib plate 21, the mounting position for the components to which the bus bar module 6 is mounted is provided, and the air guide passage is formed between the above-described components and the second partition plate 3, thereby facilitating heat dissipation.

Further, it is preferable that two extension plates 31 each provided opposite to each other are provided as a set of structures and are provided at intervals in order along the height direction of the second partition plate 3 for mounting components at a plurality of different positions.

Further, preferably, the frame 11 is provided with a viewing window 23 on the partition 22 to facilitate viewing of the bus bar module 6.

To sum up, the novel energy storage integrated control cabinet that this application provided has following structure and advantage:

the novel energy storage integrated control cabinet has the advantages that the integration level is high, the arrangement of internal devices is compact, the wiring is convenient, and the circuit is regular;

the whole cabinet is maintained in front, so that the problem of inconvenient maintenance due to limited space on site is solved;

the installation is convenient, the manpower and material resources are saved, and the cost is saved;

the cabinet body 1 has small size and small site occupation area;

the resource utilization rate is improved, and the performance of the control cabinet is optimized.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the corresponding technical solutions from the scope of the technical solutions of the embodiments of the present application.

Claims (11)

1. Novel energy storage integrated control cabinet, its characterized in that includes: the power distribution device comprises a cabinet body, a first partition plate, a second partition plate, a control module, a power distribution module and a confluence module;

the first separation plate is arranged in the cabinet body and separates the interior of the cabinet body into an upper installation space and a lower installation space along the height direction of the first separation plate;

the second partition plate member is arranged in the lower installation space and divides the lower installation space into a first lower installation space and a second lower installation space along the height direction perpendicular to the cabinet body;

one of the power distribution module and the bus module is disposed in the first lower installation space, and the other of the power distribution module and the bus module is disposed in the second lower installation space.

2. The novel energy storage integrated control cabinet of claim 1, wherein the cabinet body comprises a front door panel and a rear door panel opposite to the front door panel, and the front door panel and the rear door panel can be opened or closed;

along the direction of preceding door plant orientation back door plant, distribution module with collection flow the module and set up in order, just distribution module is close to preceding door plant sets up, collection flow the module and be close to back door plant sets up.

3. The novel energy storage integrated control cabinet of claim 1, wherein the top of the cabinet body, the bottom of the cabinet body, the first divider plate and the second divider plate are all formed with wire vias.

4. The novel energy storage integrated control cabinet according to claim 1, wherein the first lower installation space is provided with a first longitudinal routing member extending in a height direction thereof, and the first longitudinal routing member is formed with a first routing cavity penetrating at least a top portion thereof and a first via hole communicating with the first routing cavity.

5. The novel energy storage integrated control cabinet according to claim 4, wherein the number of the first longitudinal wiring members is two and the first longitudinal wiring members are respectively arranged at two sides of the power distribution module; a first transverse wiring member is arranged between the two first longitudinal wiring members, and is respectively connected with the two first longitudinal wiring members and communicated with at least one of the two first longitudinal wiring members; the first transverse wiring member is provided with a second wiring cavity penetrating through at least one end of the first transverse wiring member and a second via hole communicated with the second wiring cavity; and/or

The upper mounting space is provided with a second longitudinal wiring member extending in the height direction thereof, and the second longitudinal wiring member is formed with a wiring cavity penetrating at least the bottom thereof and a via hole communicating with the wiring cavity.

6. The novel energy storage integrated control cabinet of claim 1, wherein a region of the cabinet body corresponding to at least one of the upper installation space, the first lower installation space, and the second lower installation space is formed with a vent hole.

7. The novel energy storage integrated control cabinet of claim 1, wherein the cabinet body comprises a frame, a front door panel and a rear door panel; along preset direction, the front door plate is arranged at the front side of the frame and can be opened or closed, and the rear door plate is arranged at the rear side of the frame.

8. The novel energy storage integrated control cabinet according to claim 7, further comprising two L-shaped first mounting pieces, wherein the two first mounting pieces are respectively disposed on two opposite sides of the frame along the length direction of the front door panel; the control module is arranged between the two mounting pieces and is respectively connected with the two mounting pieces.

9. The new energy storage integrated control cabinet of claim 8, wherein the cabinet body further comprises a first intermediate mounting beam secured between two adjacent stringers of the frame and extending in a direction perpendicular to the front door panel;

any one of the first mounting members is provided with one of the first intermediate mounting beams and is detachably connected with the first intermediate mounting beam.

10. The new energy storage integrated control cabinet of claim 8, wherein the cabinet body further comprises a second intermediate mounting beam secured between two adjacent stringers of the frame and extending in a direction perpendicular to the front door panel; the two sides of the second partition plate are respectively provided with the second middle mounting beam, and are detachably connected with the second middle mounting beams; and/or

The novel energy storage integrated control cabinet further comprises a mounting plate and a fixing member; the mounting plate is arranged in the first lower mounting space and is detachably connected with the second middle mounting beam; the fixing member is provided with a clamping groove, and at least part of components of the power distribution module are clamped in the clamping groove.

11. The new energy storage integrated control cabinet according to any one of claims 1 to 10, wherein the second partition plate member is formed with extension plates on opposite sides thereof, respectively, and the extension plates are disposed perpendicular to the second partition plate member;

a reinforcing rib plate is arranged between the two opposite extending plates, and an air guide channel is formed between the reinforcing rib plate and the second partition plate; at least part of the structure of the converging module is arranged on the reinforcing rib plate.