CN221574142U - Energy storage cabinet - Google Patents

Abstract

The application relates to an energy storage cabinet, which comprises an energy storage cabinet body, an adjusting frame and an adjusting rod, wherein the energy storage cabinet comprises a mounting bracket, and the adjusting frame is arranged in the mounting bracket; the mounting bracket comprises a plurality of vertical beams, wherein the vertical beams are provided with adjusting grooves, and the adjusting rods sequentially penetrate through the adjusting grooves on one vertical beam, the adjusting frame and the adjusting grooves on the other vertical beam; the adjusting groove comprises a height adjusting section and a plurality of sliding limiting sections, and the height adjusting section is communicated with the sliding limiting sections; the adjusting rod can be propped against the sliding limiting section in a sliding way. The adjustable slip of adjusting the pole sets up on the adjustment tank of installing support to drive the alignment jig and adjust, slide at altitude mixture control section, the spacing section of rethread is slided and is adjusted the alignment jig spacing, lets the alignment jig adjust to be fit for highly, thereby lets energy storage rack can adapt more not unidimensional energy storage battery, improves an energy storage rack and can only adapt an energy storage battery, has restricted the problem of the application scope of energy storage rack.

Description

Energy storage cabinet

Technical Field

The application relates to the field of cabinet equipment, in particular to an energy storage cabinet.

Background

Along with the promotion of energy transformation, an energy storage cabinet becomes an important device for balancing and regulating renewable energy, and is a device special for storing electric energy, and is mainly applied to the aspects of energy transformation, electric power marketization, new energy automobiles, industrial manufacturing and the like; the power marketing reform provides opportunities for the energy storage cabinet and can participate in power transaction to optimize loads; in the field of new energy automobiles, the energy storage cabinet is applied to scenes such as charging piles, movable energy storage vehicles and the like, and electricity loads are balanced; in industrial manufacturing, the energy storage cabinet provides a standby power supply for a factory, and production operation is guaranteed.

In the related technical means, the energy storage cabinet stores surplus electric energy generated by renewable energy sources into a battery in the energy storage cabinet through a storage battery; when the power demand is high or the renewable energy source is insufficient, the battery in the energy storage cabinet can release the stored electric energy so as to balance the difference between supply and demand, improve the instability and intermittence problem generated by the renewable energy source and stabilize the operation of the power grid.

According to the technical scheme, although the surplus electric energy generated by the renewable energy sources can be stored through the energy storage batteries in the energy storage cabinet and released when needed, the instability and the intermittence generated by the renewable energy sources are balanced, and the operation of a power grid is stabilized, the conventional energy storage cabinet has the advantages that one energy storage cabinet can only be matched with one energy storage battery, and the application range of the energy storage cabinet is limited.

Disclosure of utility model

In order to solve the problem that an energy storage cabinet can only be matched with one energy storage battery and limit the application range of the energy storage cabinet, the application provides the energy storage cabinet.

The application provides an energy storage cabinet, which adopts the following technical scheme:

The energy storage cabinet comprises an energy storage cabinet body, an adjusting frame and an adjusting rod, wherein the energy storage cabinet comprises a mounting bracket, and the adjusting frame is arranged in the mounting bracket; the mounting bracket comprises a plurality of vertical beams, wherein adjusting grooves are formed in the vertical beams, and the adjusting rods sequentially penetrate through the adjusting grooves in one vertical beam, the adjusting frame and the adjusting grooves in the other vertical beam; the adjusting groove comprises a height adjusting section and a plurality of sliding limiting sections, and the height adjusting section is communicated with the sliding limiting sections; the adjusting rod penetrates through the sliding limiting section, so that the vertical direction of the adjusting rod is limited by the sliding limiting section.

As a preferable scheme, the sliding limiting section comprises a smooth section, a connecting section and a tight propping section, wherein the smooth section is communicated with the height adjusting section, the extending direction of the smooth section is not parallel to the vertical direction, the tight propping section is positioned on one side of the smooth section along the vertical direction, and the connecting section is communicated with the smooth section and the tight propping section.

As a preferable scheme, limit nuts are arranged at two ends of the adjusting rod; wherein the size of the limit nut is larger than that of the adjusting groove; external threads are arranged on the peripheral walls of the two ends of the adjusting rod, the internal threads of the limiting nuts correspond to the external threads, and the external threads are used for connecting the limiting nuts to the two ends of the adjusting rod.

As a preferable scheme, the peripheral walls at the two ends of the adjusting rod are provided with rotating rings, and the rotating rings are rotatably sleeved at the two ends of the adjusting rod; wherein the rotating ring is abutted against the inner wall of the adjusting groove.

As the preferred scheme, energy storage rack body still includes a plurality of sheet metal plates, and a plurality of the sheet metal plates sets up on the installing support the sheet metal plates is used for protecting the energy storage battery in the energy storage rack.

As an optimal scheme, a plurality of sheet metal plates are provided with heat dissipation grooves, and the heat dissipation grooves are used for heat dissipation of energy storage batteries in the energy storage cabinet.

As an optimal scheme, be provided with the metal plate metal door on the energy storage rack body, metal plate door one side articulates on the installing support, the metal plate door is used for opening and closing of energy storage rack.

As a preferable scheme, the metal plate door is provided with a limit lock and an observation window, and the limit lock is used for limiting the metal plate door on the energy storage cabinet; the observation window is used for observing real-time conditions in the energy storage cabinet.

As a preferable scheme, the energy storage cabinet body further comprises a plurality of sheet metal plates provided with heat dissipation grooves, and the sheet metal door and the sheet metal plates seal the opening of the mounting bracket;

The metal plate gold door is provided with a ventilation groove, the ventilation groove is communicated with the heat dissipation groove in the mounting bracket, and the ventilation groove and the heat dissipation groove are used for enabling each face of the energy storage cabinet to have a heat dissipation effect.

As an optimal scheme, the lower end part of the energy storage cabinet body is provided with a universal wheel, and the universal wheel is used for flexibly moving the energy storage cabinet.

Compared with the prior art, the application has the following beneficial effects: the application range is wide. When the energy storage cabinet needs to be provided with the energy storage batteries of different sizes, the adjusting rod which is arranged on the adjusting groove of the mounting bracket in a sliding manner drives the adjusting frame to be adjusted, the adjusting rod slides on the height adjusting section and then is limited on the sliding limiting section, the adjusting frame is adjusted to be at a proper height, the energy storage cabinet can be adapted to more energy storage batteries of different sizes, the problem that the energy storage cabinet can only be adapted to one energy storage battery is solved, and the application range of the energy storage cabinet is limited.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

The structures, proportions, sizes, etc. shown in the drawings are shown only in connection with the present disclosure, and are not intended to limit the scope of the utility model, since any modification, variation in proportions, or adjustment of the size, etc. of the structures, proportions, etc. should be considered as falling within the spirit and scope of the utility model, without affecting the effect or achievement of the objective.

FIG. 1 is a schematic diagram of an overall structure of an energy storage cabinet according to an embodiment of the present application;

FIG. 2 is an exploded view of an energy storage cabinet according to an embodiment of the present application;

FIG. 3 is an enlarged partial view of the portion "A" of FIG. 2;

Fig. 4 is an exploded view of a partial structure in an embodiment of the present application.

Reference numerals illustrate:

1. An energy storage cabinet body; 11. a mounting bracket; 111. a vertical beam; 112. an adjustment tank; 1121. a height adjustment section; 1122. a sliding limit section; 1123. a smoothing section; 1124. a connection section; 1125. a tightening section; 12. a sheet metal plate; 121. a heat sink; 13. a metal plate door; 131. a limit lock; 132. an observation window; 133. a ventilation groove; 14. a universal wheel; 2. an adjusting frame; 3. an adjusting rod; 31. a limit nut; 32. an external thread; 33. and rotating the ring.

Detailed Description

In order to make the objects, features and advantages of the present utility model more comprehensible, the technical solutions in the embodiments of the present utility model are described in detail below with reference to the accompanying drawings, and it is apparent that the embodiments described below are only some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "top", "bottom", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. It is noted that when one component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present.

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

Referring to fig. 1 to 4, an energy storage cabinet comprises an energy storage cabinet body 1, an adjusting frame 2 and an adjusting rod 3, wherein the energy storage cabinet comprises a mounting bracket 11, and the adjusting frame 2 is arranged in the mounting bracket 11; the mounting bracket 11 comprises a plurality of vertical beams 111, in this embodiment four vertical beams 111, in other embodiments four or more vertical beams 111 may be used; each vertical beam 111 is provided with an adjusting groove 112, so that the adjusting rod 3 sequentially passes through the adjusting groove 112 on one vertical beam 111, the adjusting frame 2 and the adjusting groove 112 on the other vertical beam 111, and at the moment, the adjusting rod 3 can slide in the adjusting groove 112; the adjusting slot 112 includes a height adjusting section 1121 and a plurality of sliding limiting sections 1122, which are seven in this embodiment, and two or more of them may be used in other embodiments; the adjusting rod 3 passes through the sliding limiting section 1122, so that the vertical direction of the adjusting rod 3 is limited by the sliding limiting section 1122.

When the energy storage cabinet body 1 needs to be provided with energy storage batteries of different sizes, the adjusting frame 2 is driven to slide on the height adjusting section 1121 through the adjusting rod 3, the adjusting rod 3 is limited through the sliding limiting section 1122, and the adjusting frame 2 is adjusted to be at a proper height, so that the energy storage cabinet body 1 can be adapted to more energy storage batteries of different sizes, the problem that the energy storage cabinet can only be adapted to one energy storage battery is solved, and the application range of the energy storage cabinet is limited.

It should be noted that when three or more small-sized energy storage batteries are required to be installed in the energy storage cabinet body 1, one or more groups of adjusting frames 2 and adjusting rods 3 can be added to the installing support 11, so that the energy storage cabinet body 1 can be adapted.

Referring to fig. 1 to 4, the slide limit section 1122 for the limit adjustment lever 3 includes a smooth section 1123, a connecting section 1124, and an abutting section 1125, wherein the smooth section 1123 communicates with the height adjustment section 1121, and the extending direction of the smooth section 1123 is not parallel to the vertical direction; the tight supporting section 1125 is located at one side of the smooth section 1123 along the vertical direction, so that the connecting section 1124 communicates the smooth section 1123 with the tight supporting section 1125, wherein the adjusting rod 3 is limited on the tight supporting section 1125, and the adjusting rod 3 can slide on the connecting section 1124, the smooth section 1123 and the height adjusting section 1121, thereby realizing the effect of driving the adjusting frame 2 to adjust the height.

Referring to fig. 1 to 4, in order to ensure that the adjusting lever 3 does not fall off from the adjusting groove 112 during the adjustment sliding process, limit nuts 31 are provided at both ends of the adjusting lever 3; wherein, the size of the limit nut 31 is larger than the size of the adjusting groove 112, first, external threads 32 are arranged on the peripheral walls of the two ends of the adjusting rod 3, the internal threads of the limit nut 31 are in threaded connection with the external threads 32, and the limit nut 31 is connected with the two ends of the adjusting rod 3 through the external threads 32; since the size of the limit nut 31 is larger than the size of the adjusting groove 112, and the limit nut 31 is connected to the two ends of the adjusting rod 3 through threads, the two ends of the adjusting rod 3 are limited on the adjusting groove 112, and therefore the problem that the adjusting rod 3 falls off from the adjusting groove 112 in the sliding adjusting process is solved.

Referring to fig. 1 to 4, a rotation ring 33 is provided at both end peripheral walls of the adjustment lever 3, and the rotation ring 33 is rotatably sleeved at both ends of the adjustment lever 3; wherein the rotating ring 33 abuts against the inner wall of the adjusting groove 112. The two ends of the adjusting rod 3 can be rotated and adjusted more flexibly by the arrangement of the rotating ring 33, thereby being convenient for operation and adjustment in the installation process; meanwhile, the rotating ring 33 abuts against the inner wall of the adjusting groove 112, so that stability and accuracy of the adjusting rod 3 in the sliding process are guaranteed, unnecessary loosening or shifting phenomenon caused by friction is avoided, unnecessary resistance and friction are reduced, and the service life of the adjusting rod 3 is prolonged.

Referring to fig. 1 to 4, the energy storage cabinet body 1 for installing each component further includes a plurality of sheet metal plates 12, five sheet metal plates 12 are adopted in the scheme and are arranged on the installing support 11, and the sheet metal plates 12 are used for isolating the energy storage cabinet body 1 from the external environment, so as to protect the energy storage motor in the energy storage cabinet. Meanwhile, the heat dissipation grooves 121 are formed in the five sheet metal plates 12, heat conduction and dissipation inside the energy storage battery are facilitated through the design of the heat dissipation grooves 121, the temperature of the energy storage battery is reduced, the working efficiency and performance stability of the energy storage battery are improved, the heat dissipation areas can be increased, the heat transfer and dispersion effects are improved, the temperature rise of the energy storage battery is effectively reduced, the service life of the energy storage battery is prolonged, and the reliability and safety of the system are improved.

Referring to fig. 1 to 4, in order to allow the energy storage cabinet to have the functions of opening and closing, a metal plate door 13 is provided on the energy storage cabinet body 1, and one side of the metal plate door 13 is hinged on the mounting bracket 11, so that the energy storage cabinet is opened and closed, and operation and maintenance on the energy storage cabinet are facilitated. Meanwhile, the limiting lock 131 is arranged on the sheet metal door 13, the position of the sheet metal door 13 on the energy storage cabinet can be limited through the arrangement of the limiting lock 131, the sheet metal door 13 is ensured to be correctly closed and kept in a stable state, and accidental opening or closing is prevented. And set up observation window 132 on panel beating door 13, realize observing the inside real-time condition of energy storage rack through the setting of observation window 132, like the condition of energy storage battery, connector etc. is convenient for monitor and inspection. Finally, set up ventilative groove 133 on panel beating door 13, the design in ventilative groove 133 makes every face of energy storage rack all possess the radiating effect, helps adjusting inside temperature, improves energy storage battery's work efficiency and life-span.

Referring to fig. 1 to 4, the universal wheels 14 are arranged at the lower end of the energy storage cabinet body 1, and the universal wheels 14 are arranged at the bottom of the energy storage cabinet, so that the transportation and installation costs of the energy storage cabinet can be effectively reduced, the condition that a carrying tool is required to be additionally provided is avoided, and the economical efficiency and the practicability of use are improved; for example, in narrow channels or complex equipment layouts, the position of the energy storage cabinet can be adjusted more easily by the universal wheels 14, so that maintenance is facilitated, and the reliability and safety of use are improved.

The implementation principle of the energy storage cabinet of the embodiment of the application is as follows: firstly, an adjusting frame 2 is arranged in a mounting bracket 11 of an energy storage cabinet body 1, and an adjusting groove 112 on one vertical beam 111, the adjusting frame 2 and an adjusting groove 112 on the other vertical beam 111 are sequentially penetrated through an adjusting rod 3; wherein the adjusting slot 112 comprises a height adjusting section 1121 and seven sliding limiting sections 1122, and the height adjusting section 1121 is communicated with the sliding limiting sections 1122; let adjust pole 3 can slide on high regulation section 1121 to can support tightly on sliding spacing section 1122, when energy storage rack needs to install not unidimensional energy storage battery, drive alignment jig 2 through adjusting pole 3 and slide on high regulation section 1121, the rethread slides spacing section 1122 and is spacing to adjusting lever 3, let alignment jig 2 adjust to be fit for the height, thereby let energy storage rack can adapt to more not unidimensional energy storage battery, improve an energy storage rack and can only adapt to an energy storage battery, the problem of energy storage rack's application scope has been restricted.

Secondly, the sliding limiting section 1122 for limiting the adjusting rod 3 comprises a smooth section 1123, a connecting section 1124 and a tight propping section 1125, the adjusting rod 3 is limited on the tight propping section 1125, and the adjusting rod 3 can slide on the connecting section 1124, the smooth section 1123 and the height adjusting section 1121, so that the effect of driving the adjusting frame 2 to adjust the height is achieved. Limiting nuts 31 are arranged at two ends of the adjusting rod 3, the size of each limiting nut 31 is larger than that of the adjusting groove 112, external threads 32 are arranged on the peripheral walls of the two ends of the adjusting rod 3, the external threads 32 are in threaded connection with the limiting nuts 31, and the nuts are connected to the two ends of the adjusting rod 3. Meanwhile, the outer peripheral walls at the two ends of the adjusting rod 3 are respectively provided with a rotating ring 33, and the rotating rings 33 are rotatably sleeved at the two ends of the adjusting rod 3, so that the adjusting rod 3 can be rotated and adjusted more flexibly.

Next, the energy storage cabinet body 1 for installing each component further includes five sheet metal plates 12, and the five sheet metal plates 12 are arranged on the mounting bracket 11, and the sheet metal plates 12 are used for protecting the energy storage battery in the energy storage cabinet. Meanwhile, heat dissipation grooves 121 are formed in the five sheet metal plates 12, and the heat dissipation grooves 121 are used for dissipating heat of energy storage batteries in the energy storage cabinet.

Then, a metal plate door 13 is arranged on the energy storage cabinet body 1, one side of the metal plate door 13 is hinged to the mounting bracket 11, the metal plate door 13 is mainly used for opening and closing the energy storage cabinet, a limiting lock 131, an observation window 132 and a ventilation groove 133 are arranged on the metal plate door 13, and the limiting lock 131 can limit the metal plate door 13 on the energy storage cabinet; the observation window 132 facilitates the observation of real-time conditions within the energy storage cabinet; the ventilation grooves 133 allow each face of the energy storage cabinet to have a heat dissipation effect.

Finally, the universal wheels 14 are arranged at the lower end part of the energy storage cabinet body 1, so that the flexible movement of the energy storage cabinet is facilitated.

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

Claims (10)

1. The energy storage cabinet is characterized by comprising an energy storage cabinet body (1), an adjusting frame (2) and an adjusting rod (3), wherein the energy storage cabinet body (1) comprises a mounting bracket (11), and the adjusting frame (2) is arranged in the mounting bracket (11);

The mounting bracket (11) comprises a plurality of vertical beams (111), wherein adjusting grooves (112) are formed in the vertical beams (111), and the adjusting rods (3) sequentially penetrate through the adjusting grooves (112) in one vertical beam (111), the adjusting frames (2) and the adjusting grooves (112) in the other vertical beam (111);

The adjusting groove (112) comprises a height adjusting section (1121) and a plurality of sliding limiting sections (1122), and the height adjusting section (1121) is communicated with the plurality of sliding limiting sections (1122);

The adjusting rod (3) passes through the sliding limiting section (1122), so that the vertical direction of the adjusting rod (3) is limited by the sliding limiting section (1122).

2. The energy storage cabinet according to claim 1, wherein the sliding limiting section (1122) comprises a smooth section (1123), a connecting section (1124) and a tightening section (1125), the smooth section (1123) is communicated with the height adjusting section (1121), the extending direction of the smooth section (1123) is not parallel to the vertical direction, the tightening section (1125) is located on one side of the smooth section (1123) along the vertical direction, and the connecting section (1124) is communicated with the smooth section (1123) and the tightening section (1125); wherein the adjusting rod (3) is limited on the abutting section (1125).

3. An energy storage cabinet according to claim 1, characterized in that both ends of the adjusting rod (3) are provided with limit nuts (31); wherein the size of the limit nut (31) is larger than the size of the adjusting groove (112);

External threads (32) are arranged on the peripheral walls of the two ends of the adjusting rod (3), the internal threads of the limiting nuts (31) correspond to the external threads (32), and the external threads (32) are used for connecting the limiting nuts (31) to the two ends of the adjusting rod (3).

4. The energy storage cabinet according to claim 1, wherein the outer peripheral walls of the two ends of the adjusting rod (3) are provided with rotating rings (33), and the rotating rings (33) are rotatably sleeved at the two ends of the adjusting rod (3);

wherein the rotating ring (33) is abutted against the inner wall of the adjusting groove (112).

5. An energy storage cabinet according to claim 1, wherein the energy storage cabinet body (1) further comprises a plurality of sheet metal plates (12), and the plurality of sheet metal plates (12) are arranged on the mounting bracket (11) and the sheet metal plates (12) are used for protecting energy storage batteries in the energy storage cabinet.

6. The energy storage cabinet according to claim 5, wherein a plurality of the sheet metal plates (12) are provided with heat dissipation grooves (121), and the heat dissipation grooves (121) are used for dissipating heat of energy storage batteries in the energy storage cabinet.

7. An energy storage cabinet according to claim 1, characterized in that a sheet metal door (13) is arranged on the energy storage cabinet body (1), one side of the sheet metal door (13) is hinged on the mounting bracket (11), and the sheet metal door (13) is used for opening and closing the energy storage cabinet.

8. The energy storage cabinet according to claim 7, wherein a limit lock (131) and an observation window (132) are arranged on the sheet metal door (13), and the limit lock (131) is used for limiting the sheet metal door (13) on the energy storage cabinet; the observation window (132) is used for observing real-time conditions in the energy storage cabinet.

9. The energy storage cabinet according to claim 7, wherein the energy storage cabinet body (1) further comprises a plurality of sheet metal plates (12) provided with heat dissipation grooves (121), and the sheet metal door (13) and the sheet metal plates (12) close the opening of the mounting bracket (11);

Wherein, ventilation groove (133) has been seted up on panel beating door (13), ventilation groove (133) be in installing support (11) with radiating groove (121) intercommunication, ventilation groove (133) with radiating groove (121) are used for letting every face of energy storage rack all possess the radiating effect.

10. An energy storage cabinet according to claim 1, characterized in that the lower end of the energy storage cabinet body (1) is provided with a universal wheel (14), said universal wheel (14) being used for flexible movement of the energy storage cabinet.