CN217823767U - Energy source equipment - Google Patents

Abstract

The utility model discloses energy equipment, wherein the energy equipment comprises a cabinet body and a first door body; the cabinet body is provided with a first accommodating cavity and a first cabinet opening communicated with the first accommodating cavity, and is further provided with a first partition plate, the first partition plate is connected with the cavity wall of the first accommodating cavity in a sealing mode and extends towards the first cabinet opening to divide the first accommodating cavity into a power distribution cavity and an energy cavity, the power distribution cavity is used for placing a power distribution assembly, and the energy cavity is used for placing an energy storage assembly; the first door body is arranged at the first cabinet opening and used for simultaneously covering the power distribution cavity and the energy cavity. The utility model discloses technical scheme can optimize the structure of energy equipment, increases the reorganization and outfit efficiency of energy equipment.

Description

Energy source equipment

Technical Field

The utility model relates to an energy deposit technical field, in particular to energy equipment.

Background

The power materials need to be stored when the supply is not tense, so as to prepare for the first-aid repair of power failure caused by irresistible factors such as natural disasters. In order to cope with various natural disasters such as rainstorm and debris flow, it is necessary to reserve good electric power materials to cope with the disasters. The storage environment of the electric power supplies needs to ensure proper humidity conditions on one hand and avoid excessive loss in the storage process on the other hand, so that a storage cabinet capable of providing good storage conditions of the electric power supplies is needed. The existing energy equipment is complex in cabin design, multiple zones need independent cabin sealing, and the structure is complex, so that the efficiency of the energy equipment is low when the energy equipment is prepared.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy equipment aims at optimizing energy equipment's structure, increases energy equipment's reorganization and outfit efficiency.

In order to achieve the above object, the present invention provides an energy device, including:

the cabinet body is provided with a first accommodating cavity and a first cabinet opening communicated with the first accommodating cavity, and is further provided with a first partition plate, the first partition plate is hermetically connected with the cavity wall of the first accommodating cavity and extends towards the first cabinet opening to divide the first accommodating cavity into a power distribution cavity and an energy cavity, the power distribution cavity is used for placing a power distribution assembly, and the energy cavity is used for placing an energy storage assembly; and

the first door body is arranged at the first cabinet opening and used for simultaneously covering the power distribution cavity and the energy cavity.

Optionally, the first partition plate extends along the transverse direction, the power distribution cavity is located on the upper side of the energy cavity, the cabinet body further comprises at least one support column, the upper end of the support column is connected to the upper edge of the first cabinet opening, and the lower end of the support column is connected to the lower edge of the first cabinet opening, so that the first cabinet opening is divided into at least two cabinet opening partitions arranged along the transverse direction.

Optionally, the support column is further connected with the first partition plate.

Optionally, the first door body includes at least two sub-door bodies, and each sub-door body covers one cabinet opening partition correspondingly.

Optionally, at least one of the sub-door bodies is rotatably connected to the supporting column.

Optionally, the sub-door body is provided with a link lock for locking with the cabinet body.

Optionally, the first partition plate divides the first cabinet opening into a first cavity opening communicated with the power distribution cavity and a second cavity opening communicated with the energy cavity, the at least one support column divides the first cavity opening into at least two first sub-cavity openings and divides the second cavity opening into at least two second sub-cavity openings, and a first sealing strip is arranged between any one of the first sub-cavity opening and the second sub-cavity opening and the sub-door body.

Optionally, the first sealing strip is fixedly arranged on the cabinet body.

Optionally, the cabinet body is further provided with a second accommodating cavity and a second cabinet opening communicated with the second accommodating cavity, the energy source equipment further comprises a second door body, and the second door body covers the second cabinet opening.

Optionally, the first accommodating cavity and the second accommodating cavity are separated by a second partition board in the cabinet body, and the first partition board is connected with the second partition board.

Optionally, the energy device further comprises a first cooling device acting on the power distribution cavity and a second cooling device acting on the energy cavity, and the first cooling device and the second cooling device are different in cooling mode.

Optionally, the first cooling device is configured as an air cooling device.

Optionally, the second cooling device is configured as a liquid cooling device.

The technical proposal of the utility model is that the first holding cavity is divided into a power distribution cavity and an energy cavity by the first clapboard, the first clapboard is hermetically connected with the cavity wall of the first holding cavity, and the cabinet body is provided with the first door body to cover the first holding cavity; set up like this, the user only need open first door body, just can place energy storage component and distribution subassembly respectively in energy chamber and distribution chamber, compare in the embodiment that all is equipped with a body respectively in energy chamber and distribution chamber, the utility model discloses in need not additionally carry out the action of opening the door, save time, when servicing the energy equipment, can once only service energy chamber and distribution chamber, increase servicing efficiency, just the utility model discloses simplify the structure of the cabinet body, can save certain manufacturing cost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the energy device of the present invention;

fig. 2 is a schematic structural view of the cabinet in fig. 1.

The reference numbers indicate:

reference numerals	Name(s)	Reference numerals	Name (R)
				10	Cabinet body	11	A first accommodating cavity
111	Power distribution cavity	112	Energy cavity
				12	First cabinet opening	121	First cavity mouth
1211	The first sub-cavity	122	Second cavity
				1221	Second sub-cavity	13	A first partition plate
14	Support column	15	Second containing cavity
				151	Second cabinet opening	152	Second partition plate
20	First door body	21	Sub-door body
				22	Connecting rod lock	23	First sealing strip
24	Second door body

The realization, the functional characteristics and the advantages of the utility model are further explained by combining the embodiment and referring to the attached drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is to include three juxtapositions, exemplified by "A and/or B," including either the A or B arrangement, or both A and B satisfied arrangement. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides an energy equipment.

In the embodiment of the present invention, as shown in fig. 1 and 2, the energy device includes a cabinet 10 and a first door 20; the cabinet body 10 is provided with a first accommodating cavity 11 and a first cabinet opening 12 communicated with the first accommodating cavity 11, the cabinet body 10 is further provided with a first partition plate 13, the first partition plate 13 is hermetically connected with the cavity wall of the first accommodating cavity 11 and extends towards the first cabinet opening 12 to divide the first accommodating cavity 11 into a power distribution cavity 111 and an energy cavity 112, the power distribution cavity 111 is used for placing power distribution components, and the energy cavity 112 is used for placing energy storage components; the first door 20 is disposed at the first opening 12 for simultaneously covering the power distribution chamber 111 and the energy source chamber 112.

The technical scheme of the utility model is that the first containing cavity 11 is divided into a power distribution cavity 111 and an energy cavity 112 by the first partition plate 13, the first partition plate 13 is hermetically connected with the cavity wall of the first containing cavity 11, and the cabinet body 10 is provided with the first door body 20 to cover the first containing cavity 11; set up like this, the user only need open first door body 20, just can place energy chamber 112 and distribution chamber 111 respectively with energy storage component and distribution component in, compare in the embodiment that all is equipped with a body at energy chamber 112 and distribution chamber 111 respectively, the utility model discloses in need not additionally carry out the action of opening the door, save time, when servicing power supply equipment, can once only accomplish energy chamber 112 and distribution chamber 111 servicing, increase servicing efficiency, just the utility model discloses simplified the structure of the cabinet body 10, can save certain manufacturing cost.

In an embodiment, the first partition 13 extends along a transverse direction, the power distribution cavity 111 is located on the upper side of the energy cavity 112, and the cabinet 10 further includes at least one supporting pillar 14, an upper end of the supporting pillar 14 is connected to an upper edge of the first opening 12, and a lower end of the supporting pillar 14 is connected to a lower edge of the first opening 12, so as to divide the first opening 12 into at least two opening partitions arranged along the transverse direction.

Specifically, the number of the supporting columns 14 is determined according to the width of the cabinet 10, the wider the cabinet 10 is, the more the number of the supporting columns 14 is, in this embodiment, the number of the supporting columns 14 is four, the upper ends of the two supporting columns 14 located on the same side of the first cabinet opening 12 are connected to the upper edge of the first cabinet opening 12, the lower ends of the two supporting columns are connected to the lower edge of the first cabinet opening 12, the two supporting columns are arranged at intervals in the transverse direction, the two supporting columns 14 located at one end away from the first cabinet opening 12 are located at one end of the cabinet 10 away from the first cabinet opening 12, the upper end of the two supporting columns is connected to the upper end of the cabinet 10, the lower end of the two supporting columns is connected to the lower end of the cabinet 10, the two supporting columns are arranged at intervals in the transverse direction, and the supporting column 14 located in the middle of the first cabinet opening 12 divides the first cabinet opening 12 into two left and right cabinet opening partitions. By the arrangement, the supporting columns 14 can increase the strength of the cabinet body 10, so that the stability of the cabinet body 10 during hoisting is improved. In other embodiments, the number of support posts 14 is one.

In one embodiment, the support column 14 is also connected to the first partition 13.

Specifically, the two support columns 14 are both connected with the first partition plate 13 in a welding manner, and the power distribution assembly is placed on the first partition plate 13. By this arrangement, the supporting columns 14 can help the first partition plate 13 to share a part of the load, increase the supporting strength of the first partition plate 13, and increase the carrying capacity of the first partition plate 13. In other embodiments, the support posts 14 are spaced from the first baffle 13.

In an embodiment, the first door 20 includes at least two sub-door bodies 21, and each sub-door body 21 correspondingly covers one cabinet opening partition.

Particularly, the quantity of the sub-door body 21 of this embodiment is two, and first door body 20 comprises two sub-door bodies 21 of placing about by, is located left sub-door body 21 lid and closes the cabinet mouth subregion on half left side, is located the sub-door body 21 lid on right side and closes the cabinet mouth subregion on half right side, and two cabinet mouth subregions can carry out diversified configuration according to the function, places different subassemblies in two cabinet mouth subregions about to be responsible for different functions, two sub-door bodies 21 cover alone and close. When one of the cabinet opening subareas needs to be prepared, the sub-door body 21 of the cabinet opening subarea can be opened independently, and the other sub-door body 21 is closed to prevent impurities from entering from the other cabinet opening subarea, so that the aim of reducing the impurities entering the first accommodating cavity 11 is fulfilled. In other embodiments, the first door 20 includes a sub-door 21, and the sub-door 21 covers two cabinet opening partitions.

In one embodiment, at least one sub-door 21 is rotatably connected to the supporting pillar 14.

Specifically, one of the sub-door bodies 21 is connected with the supporting column 14 through a plurality of hinge hinges, the hinge hinges are distributed on the supporting column 14 at intervals along the height direction of the supporting column 14, and the cabinet body 10 of the other sub-door body 21 is connected through the hinge hinges. Set up like this, because support column 14's intensity is higher, connect the sub-door body 21 in support column 14 can increase the installation stability of this sub-door body 21, adopt the form of rotating the connection simultaneously to be connected sub-door body 21 and support column 14, cabinet body 10, compare in the embodiment that sets up sub-door body 21 as the push-and-pull door, shared space is less like this, simplifies cabinet body 10 structure. In other embodiments, the two sub-door bodies 21 are rotatably connected to the cabinet 10.

In one embodiment, the sub-door 21 is provided with a link lock 22 for locking with the cabinet 10.

Specifically, each sub-door body 21 is provided with a connecting rod lock 22, each connecting rod lock 22 comprises a lock body, an upper connecting rod and a lower connecting rod, the upper connecting rod is connected to the upper end of the lock body, the lower connecting rod is connected to the lower end of the lock body, after the sub-door body 21 is covered, the lock body is locked, the upper connecting rod can move upwards relative to the lock body and be inserted into the upper end of the cabinet body 10, and the lower connecting rod can move downwards relative to the lock body and be inserted into the lower end of the cabinet body 10, so that the sub-door body 21 is fixed. This arrangement can further increase the stability of the door closing. In other embodiments, the sub-door 21 is provided with a press-type rotary door lock for locking with the cabinet 10.

In an embodiment, the first partition 13 divides the first cabinet opening 12 into a first opening 121 communicated with the power distribution chamber 111 and a second opening 122 communicated with the energy source chamber 112, the at least one support column 14 divides the first opening 121 into at least two first sub-openings 1211 and divides the second opening 122 into at least two second sub-openings 1221, and a first sealing strip 23 is disposed between any one of the first sub-openings 1211 and the second sub-openings 1221 and the sub-door body 21.

Specifically, in this embodiment, a first sealing strip 23 is respectively disposed at two first sub-openings 1211, a first sealing strip 23 is respectively disposed at two second sub-openings 1221, two first sealing strips 23 located at the first sub-openings 1211 are disposed to extend along a periphery of the first sub-openings 1211, two first sealing strips 23 located at the second sub-openings 1221 are also disposed to extend along an edge of the second sub-openings 1221, and all the first sealing strips 23 located at the first sub-openings 121 and the second sub-openings 122 are separately connected end to form a closed loop. This arrangement can increase the sealing performance, and the gaps between the sub-door body 21 and both the first and second openings 121 and 122 are closed to prevent the entry of foreign substances including, but not limited to, dust and water.

In one embodiment, the first sealing strip 23 is fixedly arranged on the cabinet 10.

Specifically, each of the first weather strips 23 is bonded to the door panel side of the cabinet 10, and after the sub-door 21 is closed, the plurality of first weather strips 23 fill the gap between the sub-door 21 and the cabinet 10 and abut against the inner wall surface of the sub-door 21. When the first sealing strips 23 are installed, the first sealing strips 23 can be conveniently positioned on the first sub-cavity 1211 and the second sub-cavity 1221, and the first sealing strips 23 are prevented from being frequently moved along with the opening and closing of the sub-door body 21 to fall off. In other embodiments, the first sealing strip 23 is fixedly arranged on the sub-door 21.

In an embodiment, the cabinet 10 further includes a second accommodating cavity 15 and a second cabinet opening 151 communicating with the second accommodating cavity 15, and the energy device further includes a second door 24, where the second door 24 covers the second cabinet opening 151.

Specifically, the second accommodating cavity 15 is used for storing an inverter assembly, the inverter assembly is used for converting direct current into alternating current, the second door body 24 is rotatably connected to the cabinet body 10 through a hinge, a connecting rod lock 22 is also arranged on the inner wall of the second door body 24 and used for fixing the second door body 24, the second door body 24 covers the second cabinet opening 151, and a sealing rubber strip is also arranged on the second cabinet opening 151. The arrangement is convenient for the energy equipment to be used under various working conditions. In other embodiments, the second door panel is provided with a pressing type rotating door lock.

In an embodiment, the first receiving cavity 11 and the second receiving cavity 15 are separated by a second partition 152 inside the cabinet 10, and the first partition 13 is connected to the second partition 152.

Specifically, the first accommodating cavity 11 and the second accommodating cavity 15 are separated by the second partition plate 152, the second partition plate 152 and the cabinet body 10 are integrally formed, the upper end of the second partition plate 152 is connected with the top of the cabinet body 10, and the lower end of the second partition plate 152 is connected with the bottom of the cabinet body 10. The components in the two accommodating cavities are not mutually influenced, and the second partition plates 152 can also increase the supporting effect and the strength of the cabinet body 10. In other embodiments, the second partition 152 is welded to the cabinet 10.

In an embodiment, the energy device further includes a first cooling device acting on the power distribution cavity 111 and a second cooling device acting on the energy cavity 112, and the first cooling device and the second cooling device are cooled in different manners.

Specifically, the power distribution chamber 111 and the energy chamber 112 require different heat dissipation requirements, so different cooling devices are adopted for the power distribution chamber 111 and the energy chamber 112. The arrangement can satisfy the heat dissipation requirements of the power distribution cavity 111 and the energy cavity 112, and can increase the heat dissipation effect compared with passive heat dissipation. In other embodiments, the cooling is performed in the same manner.

In one embodiment, the first cooling device is configured as an air cooling device.

Specifically, the first cooling device is used for cooling the power distribution cavity 111, and since the power distribution assembly involves most of the circuit connections and has problems such as electric leakage, the first cooling device is configured as an air cooling device. The risk that the distribution assembly is damaged can be reduced to this kind of setting, increase life. In other embodiments, the first temperature reduction device is configured as a liquid cooling device.

In one embodiment, the second temperature reducing device is configured as a liquid cooling device.

Specifically, the energy cavity 112 is used for placing a plurality of energy storage components, and the second cooling device is configured as a liquid cooling device, so that the heat dissipation efficiency of the energy storage components can be increased. The arrangement ensures that the energy storage assembly can be at normal working temperature, and the service life is prolonged. In other embodiments, the second cooling device is configured as an air cooling device.

In this embodiment, the first cooling device is configured as an air cooling device, and the second cooling device is configured as a liquid cooling device.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (12)

1. An energy device, comprising:

the cabinet body is provided with a first accommodating cavity and a first cabinet opening communicated with the first accommodating cavity, and is further provided with a first partition plate, the first partition plate is hermetically connected with the cavity wall of the first accommodating cavity and extends towards the first cabinet opening to divide the first accommodating cavity into a power distribution cavity and an energy cavity, the power distribution cavity is used for placing a power distribution assembly, and the energy cavity is used for placing an energy storage assembly; and

the first door body is arranged at the first cabinet opening and used for simultaneously covering the power distribution cavity and the energy cavity.

2. The energy device of claim 1, wherein the first partition extends in a transverse direction, the power distribution chamber is located on an upper side of the energy chamber, and the cabinet further comprises at least one support column having an upper end connected to an upper edge of the first opening and a lower end connected to a lower edge of the first opening to divide the first opening into at least two opening sections arranged in the transverse direction.

3. The energy device of claim 2, wherein said support column is further connected to said first baffle.

4. The energy device according to claim 2, wherein the first door body comprises at least two sub-door bodies, and each sub-door body correspondingly covers one cabinet opening partition.

5. The energy device of claim 4, wherein at least one of said sub-door bodies is rotatably connected to said support column.

6. The energy source equipment of claim 5, wherein the sub-door body is provided with a link lock for locking with the cabinet body.

7. The energy device according to claim 4, wherein the first partition divides the first cabinet opening into a first opening communicating with the power distribution chamber and a second opening communicating with the energy chamber, the at least one support column divides the first opening into at least two first sub-openings and the second opening into at least two second sub-openings, and a first sealing strip is provided between the sub-door body and either one of the first sub-opening and the second sub-opening.

8. The energy device of claim 7, wherein said first sealing strip is fixedly attached to said cabinet.

9. The energy device according to any one of claims 1 to 8, wherein the cabinet further has a second accommodating chamber and a second opening communicating with the second accommodating chamber, and the energy device further includes a second door body covering the second opening.

10. The energy device of claim 9, wherein said first housing chamber and said second housing chamber are separated by a second partition within said cabinet body, said first partition being connected to said second partition.

11. The energy device according to claim 1, characterized in that said energy device further comprises a first cooling device acting on said distribution chamber and a second cooling device acting on said energy chamber, said first cooling device and said second cooling device being cooled in different ways.

12. The energy device according to claim 11, wherein the first temperature reduction device is configured as an air cooling device; and/or the second cooling device is configured as a liquid cooling device.

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