CN216958948U - Energy storage power distribution cabinet and energy storage container - Google Patents

Abstract

The utility model provides an energy storage power distribution cabinet and an energy storage container, wherein the energy storage power distribution cabinet comprises: the cabinet body is provided with an accommodating cavity, and the accommodating cavity comprises a plurality of sub-cavities; the blocking part is connected with the cabinet body and comprises a plurality of sequentially arranged sealing plates, the plurality of sealing plates and the plurality of sub-cavities are arranged in a one-to-one correspondence manner, and at least one sealing plate can be arranged in an openable and closable manner so as to block or open the corresponding sub-cavity; and the display part is arranged on at least one sealing plate. By adopting the scheme, the plurality of sealing plates of the sealing part are sequentially arranged to realize the sealing of the plurality of sub-cavities for accommodating the cavity, and the display part is arranged on at least one sealing plate, so that the structure is simplified, and the processing cost and the dead weight of the energy storage power distribution cabinet are reduced. Meanwhile, the sealing plates corresponding to the sub-cavities where the fragile equipment is located are arranged to be openable and closable structures, so that the fragile power distribution equipment is convenient to maintain, and the operation and maintenance difficulty is reduced.

Description

Energy storage power distribution cabinet and energy storage container

Technical Field

The utility model relates to the technical field of energy storage power distribution cabinets, in particular to an energy storage power distribution cabinet and an energy storage container.

Background

Energy storage switch board among the prior art adopts shrouding and two-layer realization of opening the door outward to the shutoff protection that holds the chamber usually, and the shrouding is the reassembling type shrouding, realizes the shutoff protection to the electrical apparatus module that holds the intracavity, and the opening the door outward can open and close ground and set up and deviate from the one side that holds the chamber at the shrouding, and the display portion sets up on opening the door outward and with hold the electrical apparatus module electricity of intracavity and connect to the operational aspect of the electrical apparatus module that holds the intracavity is observed.

However, the outward opening door of the energy storage power distribution cabinet in the prior art only plays roles of installing the display part and preventing dust, and the design cost and the weight of the energy storage power distribution cabinet are increased. And the electrical module needs to be disassembled to operate when needing to be maintained, so that the maintenance difficulty is increased.

SUMMERY OF THE UTILITY MODEL

The utility model provides an energy storage power distribution cabinet and an energy storage container, and aims to solve the problems that in the prior art, the energy storage power distribution cabinet is high in cost and not easy to maintain.

In order to solve the above problem, according to an aspect of the present invention, there is provided an energy storage power distribution cabinet, including: the cabinet body is provided with an accommodating cavity, and the accommodating cavity comprises a plurality of sub-cavities; the plugging part is connected with the cabinet body and comprises a plurality of sequentially arranged sealing plates, the sealing plates and the sub-cavities are arranged in a one-to-one correspondence manner, and at least one sealing plate can be arranged in an openable and closable manner so as to plug or open the corresponding sub-cavity; and the display part is arranged on at least one sealing plate.

Furthermore, the openable sealing plate comprises a panel, an articulated piece and a cross beam, two ends of the cross beam are connected with the cabinet body, and the panel is articulated with the cross beam through the articulated piece.

Furthermore, the openable sealing plate also comprises a detachable connecting piece, and one end of the panel, which is far away from the beam, is detachably connected with the cabinet body through the connecting piece.

Further, the display part comprises an ammeter and a plurality of indicating lamps, an ammeter mounting hole and a plurality of indicating lamp mounting holes are formed in the panel, the ammeter and the ammeter mounting hole are correspondingly arranged, and the indicating lamps and the indicating lamp mounting holes are arranged in a one-to-one correspondence mode.

Further, the panel includes the plate body and the bounding wall that sets up around the plate body, forms between bounding wall and the plate body towards holding the chamber of placing of chamber, places the intracavity and installs first cable binding bridge, the second cable binding bridge that is used for guiding the cable.

Furthermore, the first cable tie bridge is parallel to the cross beam, the second cable tie bridge is perpendicular to the cross beam, the first cable tie bridge and the second cable tie bridge are two, the two first cable tie bridges are arranged at intervals, and the two second cable tie bridges are arranged at intervals.

Further, openable shrouding still includes the handle, and the handle setting deviates from the one side that holds the chamber at the panel, and the panel has the handle mounting hole, and handle mounting hole correspond and connect.

Further, the cabinet body comprises a base, a plurality of side plates and a top cover, and an accommodating cavity is formed in an area formed by the base, the side plates and the top cover in a surrounding mode; from the top cap to the direction of base, a plurality of shroudings are including the first shrouding, second shrouding, third shrouding, fourth shrouding and the fifth shrouding that sets gradually, and wherein, the second shrouding can open and close ground and set up.

Furthermore, the energy storage power distribution cabinet also comprises a compound switch, a first mounting port, a safety mark, a ventilation grid and a second mounting port, wherein the compound switch is arranged on the third sealing plate so as to control the power distribution equipment in the sub-cavity corresponding to the third sealing plate; the first mounting port and the safety mark are arranged on the fourth sealing plate; the ventilation grille and the second mounting opening are located on the fifth sealing plate.

Further, the energy storage switch board still includes the electrical apparatus module of distribution in a plurality of sub-chambeies, and display portion and electrical apparatus module electricity are connected.

According to another aspect of the utility model, an energy storage container is provided, and the energy storage container comprises a container and the energy storage power distribution cabinet, and the energy storage power distribution cabinet is arranged in the container.

By applying the technical scheme of the utility model, the utility model provides an energy storage power distribution cabinet, which comprises the following components: the cabinet body is provided with an accommodating cavity, and the accommodating cavity comprises a plurality of sub-cavities; the blocking part is connected with the cabinet body and comprises a plurality of sequentially arranged sealing plates, the plurality of sealing plates and the plurality of sub-cavities are arranged in a one-to-one correspondence manner, and at least one sealing plate can be arranged in an openable and closable manner so as to block or open the corresponding sub-cavity; and the display part is arranged on at least one sealing plate. In this scheme, set up a plurality of sub-chambeies and through the shutoff portion a plurality of shroudings set gradually the realization to the shutoff that holds a plurality of sub-chambeies in chamber, the distribution equipment of being convenient for like this forms modular structure, installs different sub-chambeies to at least one shrouding can set up with opening and shutting, need not like this to dismantle down the shrouding just can maintain damage equipment, has solved among the prior art because the shrouding leads to maintaining the condition of the degree of difficulty increase for the reassembling type. In addition, this scheme sets up the display part on at least one shrouding, just so need not to set up outward opening door installation display part specially, consequently simplified the structure, reduced the processing cost and the dead weight of energy storage switch board.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model. In the drawings:

fig. 1 shows a schematic structural diagram of an energy storage power distribution cabinet provided in an embodiment of the present invention;

fig. 2 shows a schematic structural view of a second closing plate in the energy storage distribution cabinet of fig. 1;

FIG. 3 shows a rear view of the second closure plate of FIG. 2;

figure 4 shows a cross-sectional view of the second closure plate of figure 2.

Wherein the figures include the following reference numerals:

10. a cabinet body; 11. a base; 12. a side plate; 13. a top cover;

20. a plugging section; 21. a first seal plate; 22. a second seal plate; 221. a panel; 2211. a plate body; 2212. enclosing plates; 2213. a placement chamber; 222. an articulation member; 223. a cross beam; 224. a connecting member; 225. an electric meter mounting hole; 226. an indicator lamp mounting hole; 2271. a first cable bridge; 2272. a second wire binding bridge; 228. a handle; 229. a handle mounting hole; 23. a third closing plate; 24. a fourth closing plate; 25. a fifth seal plate;

30. a display unit; 31. an electricity meter; 32. an indicator light;

41. a combination switch; 42. a first mounting port; 43. a security identification; 44. a ventilation grille; 45. and a second mounting opening.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely exemplary of the utility model, and not restrictive of the full scope of the utility model. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the utility model, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 4, an embodiment of the present invention provides an energy storage power distribution cabinet, including: a cabinet 10, the cabinet 10 having a receiving chamber including a plurality of sub-chambers; the blocking part 20 is connected with the cabinet body 10, the blocking part 20 comprises a plurality of sequentially arranged sealing plates, the plurality of sealing plates and the plurality of sub-cavities are arranged in a one-to-one correspondence manner, and at least one sealing plate can be arranged in an openable and closable manner so as to block or open the corresponding sub-cavity; and the display part 30, wherein the display part 30 is arranged on at least one sealing plate.

In this scheme, will hold the chamber and set up to a plurality of sub-chambeies and through the shutoff portion 20 a plurality of shroudings set gradually the realization to the shutoff of a plurality of sub-chambeies, the distribution equipment of being convenient for like this forms modular structure, installs the sub-chamber of difference to at least one shrouding can be set up on the open and shut ground, need not like this to dismantle down the shrouding just can maintain damage equipment, solved among the prior art because the shrouding leads to maintaining the condition of the degree of difficulty increase for the reassembling type. In addition, this scheme sets up display part 30 on at least one shrouding, just so need not to set up outward opening door installation display part specially, has consequently simplified the structure, has reduced the processing cost and the dead weight of energy storage switch board.

As shown in fig. 1 and 2, the openable and closable closing plate includes a panel 221, a hinge 222, and a cross member 223, both ends of the cross member 223 are connected to the cabinet 10, and the panel 221 is hinged to the cross member 223 through the hinge 222.

In this embodiment, both ends of the beam 223 are connected to the cabinet 10, and the beam 223 is disposed at the opening position of the accommodating cavity, so that the beam 223 is connected to the panel 221. Panel 221 passes through articulated elements 222 and crossbeam 223 is articulated for panel 221 can rotate (turned angle 160 is left and right sides) around crossbeam 223, make the shrouding can realize the switching through rotating around crossbeam 223, solved among the prior art that the reassembling type shrouding is difficult to dismantle and leads to maintaining the problem that the degree of difficulty increases, this scheme of adoption, need not dismantle the shrouding again when maintaining the distribution equipment of sub-intracavity behind the switching shrouding, the operation maintenance degree of difficulty has been reduced, maintenance efficiency is improved.

Specifically, the openable and closable closing plate further includes a detachable connector 224, and the end of the panel 221 away from the cross member 223 is detachably connected to the cabinet 10 through the connector 224. In this embodiment, when the openable and closable sealing plate is in the closed state, the panel 221 and the cabinet 10 are connected by the connector 224, and when the operator wants to open the sealing plate, the connector 224 needs to be detached first, so that the connection between the panel 221 and the cabinet 10 is disconnected, and the panel 221 is opened or closed around the cross beam 223 by the hinge 222. With the arrangement, when the openable sealing plate is in a closed state, the panel 221 is automatically opened by the influence of self weight or external force, so that the reliability of plugging the energy storage power distribution cabinet is ensured.

Optionally, other shrouding except that openable shrouding all can be through connecting piece 224 and cabinet body 10 fixed connection, and other shrouding except that openable shrouding can adopt reassembling type shrouding promptly, guarantees the reliability of shutoff.

Further, the display portion 30 includes an electricity meter 31 and a plurality of indicator lamps 32, an electricity meter mounting hole 225 and a plurality of indicator lamp mounting holes 226 are provided on the panel 221, the electricity meter 31 and the electricity meter mounting hole 225 are correspondingly disposed, and the plurality of indicator lamps 32 and the plurality of indicator lamp mounting holes 226 are correspondingly disposed one to one. By the arrangement, the ammeter 31 and the indicator lamp 32 are arranged, so that an operator can conveniently observe the running condition of the power distribution equipment in the corresponding sub-cavity, and timely adjustment is facilitated. And set up like this and combine the effect of outer door plant among the prior art and shrouding together, reduced the processing cost and the dead weight of energy storage switch board when having simplified the structure for energy storage switch board structural design is more retrencied.

Specifically, as shown in fig. 1 to 3, the number of the indicator lights 32 is 3, and the number of the indicator light mounting holes 226 is 3, but may be set to other numbers as needed.

As shown in fig. 3, the panel 221 includes a plate body 2211 and a surrounding plate 2212 disposed around the plate body 2211, a placing cavity 2213 facing the accommodating cavity is formed between the surrounding plate 2212 and the plate body 2211, and a first cable tie bridge 2271 and a second cable tie bridge 2272 for guiding cables are installed in the placing cavity 2213. With this arrangement, the cables of the electricity meter 31 and the plurality of indicator lights 32 are guided and supported by the first cable tie bridge 2271 and the second cable tie bridge 2272, thereby preventing the wires in the accommodating chamber 2213 from being entangled.

Alternatively, as shown in fig. 4, each cable bridge has support rings spaced apart from each other, through which cables are arranged.

Specifically, the first tying bridge 2271 is parallel to the cross beam 223, the second tying bridge 2272 is perpendicular to the cross beam 223, the number of the first tying bridges 2271 and the number of the second tying bridges 2272 are two, the two first tying bridges 2271 are arranged at intervals, and the two second tying bridges 2272 are arranged at intervals. So set up, realize the guide and the support to the ammeter 31 and the cable of a plurality of pilot lamp 32 through first binder bridge 2271 and second binder bridge 2272, four binder bridges are set up around ammeter mounting hole 225 and a plurality of pilot lamp mounting hole 226, are convenient for to the line of walking and arranging of cable.

As shown in fig. 1, 2 and 4, the openable and closable closing plate further includes a handle 228, the handle 228 is disposed on a side of the panel 221 facing away from the receiving cavity, the panel 221 has a handle mounting hole 229, and the handle 228 and the handle mounting hole 229 are correspondingly connected. This arrangement facilitates the operator to control the opening and closing of the panel 221 by the handle 228, thereby improving the convenience of operation.

As shown in fig. 1, the cabinet 10 includes a base 11, a plurality of side plates 12, and a top cover 13, wherein a receiving cavity is formed around a region formed by the base 11, the plurality of side plates 12, and the top cover 13; in the direction from the top cover 13 to the base 11, the plurality of seal plates include a first seal plate 21, a second seal plate 22, a third seal plate 23, a fourth seal plate 24, and a fifth seal plate 25, which are arranged in this order, wherein the second seal plate 22 is openably and closably provided.

In this embodiment, realize the shutoff to holding the chamber through five shroudings to set up second shrouding 22 as the structure of can opening and closing, correspondingly, hold the chamber include with five sub-chambers of five shrouding one-to-one, have fragile distribution equipment in the sub-chamber that second shrouding 22 corresponds, but be convenient for through the maintenance to fragile distribution equipment of the switching setting of second shrouding 22.

Optionally, the quantity of a plurality of shroudings can change according to actual conditions, and the quantity of sub-chamber also can change according to actual conditions, but non-open closed shrouding also can be adjusted with the corresponding relation of sub-chamber, can not have fragile distribution equipment's sub-chamber through two shutoff of reassembling type shrouding promptly.

Specifically, the energy storage power distribution cabinet further includes a combination switch 41, a first installation port 42, a safety sign 43, a ventilation grille 44 and a second installation port 45, wherein the combination switch 41 is arranged on the third sealing plate 23 to control the power distribution equipment in the sub-cavity corresponding to the third sealing plate 23; the first mounting port 42 and the safety mark 43 are arranged on the fourth closing plate 24; the ventilation grille 44 and the second mounting opening 45 are located in the fifth closure plate 25.

In the present embodiment, control of the power distribution equipment in the third cover 23 is achieved by providing a combination switch 41. Prevent dangerous distribution equipment and install safety sign 43 on fourth shrouding 24 in fourth shrouding 24 to remind operating personnel to notice safety, fourth shrouding 24 still has first installing port 42 simultaneously, and control such as control switch can be installed or the structure of observing the condition of distribution equipment in the sub-chamber that corresponds with fourth shrouding 24 is located to first installing port 42, and the operating personnel of being convenient for can in time discover that fourth shrouding 24 corresponds the unusual and make the counter-measure of distribution equipment in the sub-chamber. Have ventilation grid 44 on the fifth shrouding 25, realize holding chamber and external heat exchange through ventilation grid 44, prevent to hold the condition that the long-time work of intracavity distribution equipment leads to holding intracavity high temperature makes the distribution equipment trouble, fifth shrouding 25 still has second installing port 45 simultaneously, the structure of the condition of distribution equipment in the sub-chamber that control switch isotaxis control or observation fifth shrouding 25 correspond can be installed or observed to second installing port 45 department, the operating personnel of being convenient for can in time discover the distribution equipment's of fifth shrouding 25 correspondence sub-intracavity anomaly and make the counter-measure.

Optionally, the energy storage power distribution cabinet can also set up the structure of other different functions so that operating personnel adjusts the distribution equipment in the sub-cavity according to actual conditions.

Further, the energy storage power distribution cabinet further comprises electrical modules distributed in the sub-cavities, and the display portion 30 is electrically connected with the electrical modules. In this embodiment, the power distribution devices in the sub-cavities are collectively referred to as an electrical module, and the display portion 30 is electrically connected to the vulnerable power distribution devices in the electrical module, so that an operator can find and maintain problems in time.

Another embodiment of the utility model provides an energy storage container, which comprises a container and the energy storage power distribution cabinet, wherein the energy storage power distribution cabinet is arranged in the container.

In this embodiment, the energy storage container is airtight structure, the energy storage switch board sets up in the energy storage container, set up like this, it needs to set up outer door plant when setting up external space to have avoided energy storage switch board among the prior art, and realize the dirt-proof condition to holding the chamber through the dustproof cotton in the shutter on the outer door plant, make the energy storage switch board only need consider hold chamber and external heat exchange can, the design of outer door plant has been detached, and with the heat exchange function integration to the shrouding on (through ventilation grid 44), the processing cost and the dead weight of energy storage switch board have been reduced.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (11)

1. The utility model provides an energy storage switch board which characterized in that includes:

a cabinet (10), the cabinet (10) having a housing chamber, the housing chamber comprising a plurality of sub-chambers;

the blocking part (20) is connected with the cabinet body (10), the blocking part (20) comprises a plurality of sequentially arranged sealing plates, the sealing plates and the sub-cavities are arranged in a one-to-one correspondence manner, and at least one sealing plate can be arranged in an opening and closing manner so as to block or open the corresponding sub-cavities;

a display portion (30), the display portion (30) being disposed on at least one of the sealing plates.

2. The energy storage power distribution cabinet according to claim 1, wherein the openable and closable closing plate comprises a panel (221), a hinge (222) and a cross beam (223), both ends of the cross beam (223) are connected with the cabinet body (10), and the panel (221) is hinged with the cross beam (223) through the hinge (222).

3. The energy storage distribution cabinet according to claim 2, wherein the openable and closable closure plate further comprises a detachable connector (224), and an end of the panel (221) remote from the cross beam (223) is detachably connected to the cabinet (10) through the connector (224).

4. The energy storage power distribution cabinet according to claim 2, wherein the display portion (30) comprises an electric meter (31) and a plurality of indicator lamps (32), an electric meter mounting hole (225) and a plurality of indicator lamp mounting holes (226) are formed in the panel (221), the electric meter (31) and the electric meter mounting hole (225) are arranged correspondingly, and the indicator lamps (32) and the indicator lamp mounting holes (226) are arranged correspondingly one to one.

5. The energy storage power distribution cabinet according to claim 2, wherein the panel (221) comprises a plate body (2211) and a surrounding plate (2212) arranged around the plate body (2211), a placing cavity (2213) facing the accommodating cavity is formed between the surrounding plate (2212) and the plate body (2211), and a first cable tie bridge (2271) and a second cable tie bridge (2272) for guiding cables are installed in the placing cavity (2213).

6. The energy storage power distribution cabinet according to claim 5, wherein the first wire binding bridge (2271) is disposed in parallel to the cross beam (223), the second wire binding bridge (2272) is disposed perpendicular to the cross beam (223), the number of the first wire binding bridges (2271) and the number of the second wire binding bridges (2272) are two, the two first wire binding bridges (2271) are disposed at intervals, and the two second wire binding bridges (2272) are disposed at intervals.

7. The energy storage power distribution cabinet according to claim 2, wherein the openable and closable closure plate further comprises a handle (228), the handle (228) is disposed on a side of the panel (221) facing away from the accommodating cavity, the panel (221) is provided with a handle mounting hole (229), and the handle (228) and the handle mounting hole (229) are correspondingly connected.

8. The energy storage power distribution cabinet according to claim 1, wherein the cabinet body (10) comprises a base (11), a plurality of side plates (12) and a top cover (13), and the base (11), the plurality of side plates (12) and the top cover (13) form the accommodating cavity around a formed area; in the direction from the top cover (13) to the base (11), the plurality of seal plates include a first seal plate (21), a second seal plate (22), a third seal plate (23), a fourth seal plate (24) and a fifth seal plate (25) which are arranged in sequence, wherein the second seal plate (22) is arranged in an openable and closable manner.

9. The energy storage power distribution cabinet according to claim 8, further comprising a combination switch (41), a first mounting port (42), a safety sign (43), a ventilation grid (44) and a second mounting port (45), wherein the combination switch (41) is disposed on the third sealing plate (23) to control the power distribution equipment in the sub-cavity corresponding to the third sealing plate (23); the first mounting opening (42) and the safety mark (43) are arranged on the fourth closing plate (24); the ventilation grille (44) and the second mounting opening (45) are located on the fifth closure plate (25).

10. Energy storage power distribution cabinet according to claim 1, characterized in that it further comprises electrical modules distributed in said plurality of sub-cavities, said display (30) being electrically connected to said electrical modules.

11. An energy storage container, characterized in that the energy storage container comprises a container and an energy storage power distribution cabinet according to any one of claims 1 to 10, the energy storage power distribution cabinet being arranged in the container.

Images