CN215732001U - Battery cabinet - Google Patents

Abstract

The utility model provides a battery cabinet, the intelligent cabinet temperature adjusting device comprises a cabinet body, the installation tray, circuit breaker installed part and circuit breaker, the cabinet body includes cabinet roof and relative first cabinet board and second cabinet board, the cabinet roof is connected between first cabinet board and second cabinet board, the installation tray is located between first cabinet board and the second cabinet board, and form installation space with the relative setting of cabinet roof, the circuit breaker installed part is including installation drain pan and mounting panel, the installation drain pan is located on the installation tray and with first cabinet body and second cabinet board looks interval, the mounting panel is connected in the edge of installation drain pan and is stretched out the setting towards cabinet roof direction, the circuit breaker is connected in the mounting panel, and the receiving port of circuit breaker is towards first cabinet board and second cabinet board. Through locating the circuit breaker installed part on the installation tray, make things convenient for the maintenance and the change in dismouting and later stage, simultaneously, circuit breaker and first cabinet board and second cabinet board looks interval are convenient for directly carry out the wiring from the both sides of circuit breaker, need not design extra line hole and anti-cutting line protection architecture of crossing.

Description

Battery cabinet

Technical Field

The application relates to the technical field of data centers, in particular to a battery cabinet.

Background

Present battery rack is widely applied to data center, for example, battery rack is used for data center's computer lab, the inside circuit breaker's of present battery rack installing support adopts U type structure usually, need design line hole and anti-cutting line protection architecture usually on the installing support for the structure of installing support is comparatively complicated, most installing supports that have now are on the square strip hole on left side or the right side of battery rack directly fixing usually, shelter from the wiring port of circuit breaker easily, be unfavorable for the maintenance of wiring and later stage.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a battery cabinet to improve the above problem.

The embodiment of the application realizes the aim through the following technical scheme.

The embodiment of the application provides a battery cabinet, the intelligent cabinet temperature adjusting device comprises a cabinet body, an installation tray, circuit breaker installed part and circuit breaker, the cabinet body includes cabinet roof and relative first cabinet board and second cabinet board, the cabinet roof is connected between first cabinet board and second cabinet board, the installation tray is located between first cabinet board and the second cabinet board, and form installation space with the relative setting of cabinet roof, the circuit breaker installed part is including installation drain pan and mounting panel, the installation drain pan is located on the installation tray and with first cabinet body and second cabinet board looks interval, the mounting panel is connected in the edge of installation drain pan and is stretched out the setting towards cabinet roof direction, the circuit breaker is connected in the mounting panel, and the receiving port of circuit breaker is towards first cabinet board and second cabinet board.

Compared with the prior art, the battery cabinet provided by the application has the advantages that the installation tray is provided with the circuit breaker installation part, the circuit breaker is convenient to produce, disassemble and assemble and maintain and replace in the later period, the circuit breaker is separated from the first cabinet board and the second cabinet board at intervals, so that wiring is directly conducted from two sides of the circuit breaker, and an extra wire passing hole and a wire cutting prevention protection structure are not needed to be designed.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a battery cabinet provided in an embodiment of the present application in a disassembled state.

Fig. 2 is a schematic partial structure diagram of a battery cabinet provided in an embodiment of the present application.

Fig. 3 is a partial structural schematic diagram of another battery cabinet provided in an embodiment of the present application.

Fig. 4 is a partial structural schematic diagram of a circuit breaker, a circuit breaker mounting member, and a mounting tray of a battery cabinet in a disassembled state according to an embodiment of the present application.

Fig. 5 is a schematic structural diagram of a top view of a circuit breaker mounting part of a battery cabinet provided in an embodiment of the present application.

Fig. 6 is a schematic structural diagram of another battery cabinet provided in an embodiment of the present application in an assembled state.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. 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 application.

Referring to fig. 1, the present embodiment provides a battery cabinet 100, which includes a cabinet body 110, a mounting tray 120, a circuit breaker mounting member 130, and a circuit breaker 140. The main functions of the circuit breaker 140 are to cut off and connect a load circuit, and to cut off a fault circuit, so as to ensure safe operation of the battery cabinet 100. The battery cabinet 100 may be applied to a data center, and servers, storage, exchange, security and other devices of the data center may be disposed in the battery cabinet 100, and the servers, the storage, the exchange, the security and other devices are provided with electric energy, cooling and the like through the battery cabinet 100.

Referring to fig. 1, in the present embodiment, the cabinet body 110 may be substantially a rectangular parallelepiped, the cabinet body 110 has a height direction H, a width direction W and a length direction L, wherein the height direction H of the cabinet body 110 is substantially vertically disposed, the width direction W is substantially perpendicular to the length direction L and is substantially perpendicular to the height direction H, the cabinet body 110 includes a cabinet top plate 113 and a first cabinet plate 111 and a second cabinet plate 112 opposite to each other, the cabinet top plate 113 is connected between the first cabinet plate 111 and the second cabinet plate 112, and the mounting tray 120 is disposed between the first cabinet plate 111 and the second cabinet plate 112 and is disposed opposite to the cabinet top plate 113 to form a mounting space 1131. In this embodiment, the cabinet top panel 113 may be attached to the top of the first and second cabinet panels 111 and 112.

In this embodiment, the cabinet body 110 further includes a cabinet bottom plate 115, the cabinet bottom plate 115 is disposed opposite to the cabinet top plate 113 and below the cabinet top plate 113, the cabinet bottom plate 115 is connected between the first cabinet plate 111 and the second cabinet plate 112, and the mounting tray 120 is disposed adjacent to the cabinet top plate 113 compared to the cabinet bottom plate 115. The cabinet 110 is formed with an opening, wherein the opening communicates with the installation space 1131, and the installation tray 120 is installed between the first and second cabinet panels 111 and 112 through the opening.

In some embodiments, the cabinet 110 may further include a support bulkhead 114, the support bulkhead 114 being connected between the cabinet top panel 113 and the cabinet bottom panel 115 and disposed adjacent to the first cabinet panel 111. As an example, the number of the supporting partitions 114 may be two, two supporting partitions 114 are disposed opposite to each other, two supporting partitions 114 are disposed at intervals substantially along the length direction L, and two supporting partitions 114 are spaced apart from the first cabinet panel 111 and form the harness space 1132.

During installation, one end of the installation tray 120 can be connected to the second cabinet plate 112, and the other end can be connected to two supporting partition plates 114 at the same time, wherein the installation tray 120 can be detachably connected to the supporting partition plates 114 and the second cabinet plate 112, the installation tray 120 can slide relative to the second cabinet plate 112 along the length direction L, which is similar to a drawer structure, the installation tray 120 can selectively slide into the cabinet body 110 or slide out of the cabinet body 110 in the sliding process, so that an installer can install electrical structures such as the circuit breaker 140 on the installation tray 120. Wherein the harness space 1132 communicates with the installation space 1131 through a gap between the two support bulkheads 114.

In some embodiments, as shown in fig. 2, the supporting partition 114 may be provided with a plurality of harness holes 1133 for allowing a harness to pass through, and the plurality of harness holes 1133 may be arranged side by side along a height direction of the cabinet 110, wherein the harness is used for connecting a wiring port of the circuit breaker 140, wherein the harness holes 1133 may be square holes, strip holes, oval holes or other hole structures, the harness holes 1133 are communicated with the harness space 1132, the harness to be connected with the circuit breaker 140 may pass through the harness holes 1133 from the harness space 1132 and pass out from the harness holes 1133 to a wiring port position of the circuit breaker 140 to be connected with the wiring port of the circuit breaker 140, and the harness holes 1133 may fix the harness.

As an example, a portion of the number of harness holes 1133 may penetrate through the support bulkhead 114 in the length direction L, and another portion of the number of harness holes 1133 may penetrate through the support bulkhead 114 in the width direction W to meet different threading requirements.

Referring to fig. 1 and fig. 2, in the embodiment, the cabinet body 110 further includes a plurality of battery fixing trays 116, the mounting tray 120 and the battery fixing trays 116 are disposed at intervals along the height direction of the cabinet body 110, and a mounting cavity is formed between two adjacent battery fixing trays 116. The plurality of battery fixing trays 116 may be disposed between the mounting tray 120 and the cabinet top plate 113, wherein a mounting cavity is formed between the battery fixing tray 116 adjacent to the mounting tray 120 and the mounting tray 120, another mounting cavity is formed between the battery fixing tray 116 adjacent to the cabinet bottom plate 115 and the cabinet bottom plate 115, and each battery fixing tray 116 is detachably connected between the supporting partition plate 114 and the second cabinet plate 112 and can slide along the length direction L relative to the second cabinet plate 112 to selectively slide into the cabinet body 110 or slide out of the cabinet body 110, thereby facilitating installation or detachment by an installer. The battery mounting tray 116 may be used to mount a power module, a cooling system, etc., wherein the power module is used to provide power to the data center. The battery fixing tray 116 may be a blind plate with different specifications, such as a 1U blind plate, a 5U blind plate, etc., and may be specifically adjusted according to actual requirements. Each installation cavity communicates with the harness space 1132, so that the corresponding harness in each installation cavity may extend into the installation space 1131 via the harness space 1132 to be connected with the circuit breaker 140 in the installation space 1131, and the circuit breaker 140 may cut off and turn on the corresponding load circuit, and cut off the fault circuit.

In some embodiments, as shown in fig. 1, the cabinet body 110 may further include a cover plate 117, the cover plate 117 is detachably connected to the first and second cabinet plates 111 and 112 and is used to cover the installation space 1131, the cover plate 117 is penetratingly provided with an exposure hole 1171, a switch of the circuit breaker 140 is exposed through the exposure hole 1171 so as to facilitate a user to operate the circuit breaker 140, and the exposure hole 1171 may be provided at a middle position of the cover plate 117. By locating the exposure hole 1171 at an intermediate position of the cover plate 117, when the circuit breaker 140 is located at an intermediate position of the mounting tray 120 regardless of whether the cover plate 117 is mounted in a forward direction or a reverse direction, the switch of the circuit breaker 140 can correspond to the exposure hole 1171 and be exposed from the exposure hole 1171, thereby achieving fool-proofing. The cover plate 117 may be fastened to the supporting partition 114 and the second cabinet plate 112 by bolts, screws, or other fastening members.

In some embodiments, as shown in fig. 1 and 3, the cabinet 110 may further include a flange cover 150, the flange cover 150 is provided with a fitting hole 151, the flange cover 150 is detachably embedded in the exposed hole 1171 and covers the exposed hole 1171 of the cover portion, and the switch of the circuit breaker 140 is exposed through the fitting hole 151. The shape of the flange cover 150 is adapted to the shape of the exposed aperture 1171. By fitting the cover flange 150 into the exposed hole 1171, the cover flange 150 covers the gap formed between the circuit breaker 140 and the cover plate 117, so that the external structure of the entire product can be more compact. The flange cover 150 may be provided with two symmetrical flange cover 150 snaps, and when installed, the flange cover 150 may be snapped into the exposed hole 1171 of the cover plate 117 in a rotating manner, or may be snapped into the exposed hole 1171 of the cover plate 117 in a direct pressing manner, such that the flange cover 150 and the cover plate 117 are assembled in place.

In some embodiments, the cover 117 may be a plastic structure, which has functions of fire prevention, electric shock prevention, and insulation, and is used to prevent a person from being injured when the circuit breaker 140 is opened or closed.

In some embodiments, as shown in fig. 1, battery cabinet 100 further includes outlet box 160, outlet box 160 having an inlet and an outlet in communication with each other, the inlet in communication with mounting space 1131. The outlet box 160 may be disposed on the cabinet top plate 113, the outlet box 160 may be disposed along the width direction W, and the length of the outlet box 160 may be smaller than or equal to the distance between the first cabinet plate 111 and the second cabinet plate 112. The cabinet top plate 113 is provided with a wire outlet hole in a penetrating manner, the wire outlet hole is communicated with the inlet of the wire outlet box 160 and the wire harness space 1132, wherein the wire harnesses in the wire harness space 1132 and the installation space 1131 can penetrate into the inlet of the wire outlet box 160 through the wire outlet hole and are led out from the wire outlet of the wire outlet box 160, so that the wire harnesses outside the cabinet body 110 can be protected in the wire outlet box 160, the wire harnesses are prevented from being exposed as much as possible, and the outside of the whole battery cabinet 100 is more tidy.

Referring to fig. 1 and 4, in the present embodiment, the circuit breaker mounting member 130 includes a mounting bottom case 132 and a mounting plate 131, the mounting bottom case 132 is disposed on the mounting tray 120 and spaced apart from the first cabinet 110 and the second cabinet 112, and the mounting plate 131 is connected to an edge of the mounting bottom case 132 and extends toward the cabinet top plate 113, and forms a substantially "L" shape. The mounting bottom case 132 may have a substantially rectangular case structure, and the mounting bottom case 132 has a diagonal line.

In some embodiments, as shown in fig. 4 and 5, the mounting bottom case 132 may be provided with a connection part 133, and the mounting tray 120 is provided with a fitting part 121 to be fitted with the connection part 133. By providing the connecting portion 133 and the mating portion 121, the circuit breaker 140 is easily detachably connected to the mounting tray 120. As an example, the connection part 133 may include first and second connection holes 1331 and 1332 provided at the mounting bottom case 132, the first and second connection holes 1331 and 1332 may be spaced apart substantially in a direction parallel to a diagonal line, and the fitting part 121 includes first and second screw holes provided at the mounting tray 120, the first and second screw holes corresponding to the first and second connection holes 1331 and 1332, respectively.

During installation, one side edge of the installation bottom case 132, which is far away from the installation plate 131, is close to the outside of the cabinet body 110, wherein the first connection hole 1331 and the second connection hole 1332 of the circuit breaker installation member 130 correspond to the first threaded hole and the second threaded hole respectively, and the circuit breaker installation member 130 is locked on the installation tray 120 through screws or bolts. Through the diagonal direction with first connecting hole 1331 and second connecting hole 1332 along installation drain pan 132, when the direction of circuit breaker installed part 130 changes reversely, first connecting hole 1331, second connecting hole 1332 can't correspond with the hole site on the installation tray 120, can prevent slow-witted like this effectively, avoid circuit breaker installed part 130 to adorn reversely.

In addition, the connecting portion 133 may be a snap structure, and the matching portion 121 may be a snap structure adapted to the snap structure.

In some embodiments, instead of the first and second threaded holes, non-threaded holes may be provided at positions corresponding to the mounting tray 120, and the circuit breaker mounting member 130 may be fixed to the mounting tray 120 by bolts and nuts during mounting.

In addition, in some embodiments, the connection part 133 may further include a third connection hole 1333 provided in the mounting bottom case 132, the third connection hole 1333 may be spaced apart from the first connection hole 1331 or the second connection hole 1332 in a width direction of the mounting bottom case 132, and the fitting part 121 includes a third screw hole provided in the mounting tray 120, the third screw hole corresponding to the third connection hole 1333. When the assembling direction of the circuit breaker mounting member 130 is correct, the first connection hole 1331 and the third connection hole 1333 correspond to the first screw hole and the third screw hole, respectively; when the assembling direction of the circuit breaker mounting member 130 is reversed, the first connection holes 1331 and the third connection holes 1333 cannot correspond to the first connection holes 1331 and the third connection holes 1333, so that all the bolts or screws cannot be mounted at the corresponding positions.

In some embodiments, the mounting bottom shell 132 may be disposed in a middle region between the first and second cabinet panels 111 and 112, and disposed adjacent to an outside edge of the mounting tray 120. When the circuit breaker 140 is mounted to the circuit breaker mount 130, the connection port of the circuit breaker 140 may face the first and second cabinet panels 111 and 112 and have a sufficient operation space with the first and second cabinet panels 111 and 112 for an installer to perform connection.

Referring to fig. 4 and 5, in the present embodiment, the circuit breaker 140 may be disposed on an upper surface of the mounting bottom case 132 away from the mounting tray 120, the circuit breaker 140 is connected to the mounting plate 131, and the wiring port of the circuit breaker 140 faces the first cabinet panel 111 and the second cabinet panel 112. The case of the circuit breaker 140 may be a plastic case to prevent electrical leakage and safety accidents. Due to the fact that the circuit breaker 140 is arranged between the first cabinet board 111 and the second cabinet board 112 and is spaced from the first cabinet board 111 and the second cabinet board 112, a space which is large enough to facilitate wiring is formed between the wiring ports on two sides of the circuit breaker 140 and the first cabinet board 111 and the second cabinet board 112.

In some embodiments, the breaker 140 may be provided with a connection through hole 141, the mounting plate 131 is provided with a threaded hole 1311 matched with the connection through hole 141, and the battery cabinet 100 further includes a fastening member 142, and the fastening member 142 is inserted through the connection through hole 141 and is threaded into the threaded hole 1311. In addition, in some embodiments, the mounting plate 131 may be provided with a non-threaded hole matching with the connecting through hole 141, and the fastening member 142 may include a bolt and a nut, and during installation, the bolt may be first sequentially inserted into the connecting through hole 141, the non-threaded hole and the nut, and then the bolt and the nut may be tightened, so as to fasten the circuit breaker 140 to the circuit breaker mounting member 130.

Referring to fig. 6, in the embodiment, the battery cabinet 100 further includes a cabinet door 119, the cabinet door 119 may be rotatably connected to the first cabinet plate 111 or the second cabinet plate 112 to selectively open or close the cabinet body 110, and at least a portion of the cabinet door 119 is a light-transmitting structure, so that a user can observe the inside of the battery cabinet 100 from the outside.

When the installation is performed, the circuit breaker 140 may be installed on the circuit breaker installation member 130 by a fastener, and then the circuit breaker installation member 130 is installed at a position corresponding to the installation tray 120, wherein the first connection hole 1331 and the second connection hole 1332 correspond to the first screw hole and the second screw hole, the first connection hole 1331 and the first screw hole are penetrated by a screw or a bolt, and the second connection hole 1332 and the second screw hole are penetrated by a screw or a bolt, so as to fasten the circuit breaker installation member 130 on the installation tray 120, and the circuit breaker installation member 130, the circuit breaker 140, and the installation tray 120 together form a tray assembly; the tray assembly is then assembled within the cabinet 110. After the circuit breaker 140 is connected to the cable, the cable can be directly tied up by using the cable tie, the cable can be routed along the surface of the mounting tray 120, and the wire harness hole 1133 of the supporting partition 114 can be directly utilized, so that the cable penetrates into the wire harness space 1132 from the wire harness hole 1133, and is fixed through the wire harness hole 1133.

The battery cabinet 100 that the embodiment of the application provided, it is little to solve circuit breaker 140's wiring space effectively, the complicated scheduling problem of structure of circuit breaker installed part 130, it can realize preventing slow-witted effectively to expose hole 1171 on the apron 117, no matter moulded case circuit breaker 140's apron 117 can forward or reverse installation, circuit breaker 140's switch homoenergetic enough corresponds and exposes from exposing hole 1171 with exposing hole 1171, battery cabinet 100's overall structure is simple, high durability and convenient installation, and battery cabinet 100 internal wiring operation air conditioner is bigger, visual scope is wider, installation effectiveness is higher, after-sale operation is more convenient.

The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit 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 solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present application and are intended to be included within the scope of the present application.

Claims (10)

1. A battery cabinet, comprising:

the cabinet body comprises a cabinet top plate, a first cabinet plate and a second cabinet plate which are opposite, and the cabinet top plate is arranged between the first cabinet plate and the second cabinet plate;

the mounting tray is arranged between the first cabinet plate and the second cabinet plate and is opposite to the cabinet top plate to form a mounting space;

the circuit breaker mounting piece comprises a mounting bottom shell and a mounting plate, the mounting bottom shell is arranged on the mounting tray and is spaced from the first cabinet plate and the second cabinet plate, and the mounting plate is connected to the edge of the mounting bottom shell and extends towards the direction of the cabinet top plate; and

the circuit breaker, the circuit breaker set up in the mounting panel, just the wiring port orientation of circuit breaker first cabinet board and the second cabinet board.

2. The battery cabinet of claim 1, wherein the mounting bottom shell is disposed in a middle region between the first and second cabinet panels and adjacent to an outside edge of the mounting tray.

3. The battery cabinet of claim 1, wherein the cabinet body further comprises a cover plate detachably connected to the first and second cabinet plates and configured to cover the installation space, the cover plate is penetratingly provided with an exposure hole through which a switch of the circuit breaker is exposed.

4. The battery cabinet of claim 3, wherein the cabinet body further comprises a flange cover, the flange cover is provided with a matching hole, the flange cover is detachably embedded in the exposed hole and covers the exposed hole of the cover part, and a switch of the circuit breaker is exposed through the matching hole.

5. The battery cabinet of claim 1, further comprising a support partition and a cabinet bottom plate, the cabinet bottom plate being disposed opposite the cabinet top plate and connected between the first cabinet plate and the second cabinet plate, the support partition being connected between the cabinet top plate and the cabinet bottom plate and disposed adjacent to the first cabinet plate, the support partition being spaced apart from the first cabinet plate to form a harness space, the harness space being in communication with the installation space, the installation tray being connected to the support partition and the second cabinet plate, the support partition being provided with a plurality of harness holes through which a harness is passed, the harness being used to connect the wiring ports of the circuit breaker.

6. The battery cabinet of claim 5, further comprising an outlet box having an inlet and an outlet in communication with each other, the inlet in communication with the mounting space.

7. The battery cabinet of claim 1, wherein the mounting bottom case is provided with a connecting portion, and the mounting tray is provided with a mating portion that mates with the connecting portion.

8. The battery cabinet of claim 7, wherein the connecting portion includes a first connecting hole and a second connecting hole provided in the mounting bottom case, the mounting bottom case has a diagonal line, the first connecting hole and the second connecting hole are spaced apart in a direction parallel to the diagonal line, and the engaging portion includes a first threaded hole and a second threaded hole provided in the mounting tray, the first threaded hole and the second threaded hole corresponding to the first connecting hole and the second connecting hole, respectively.

9. The battery cabinet of any one of claims 1 to 8, wherein the cabinet body further comprises a plurality of battery fixing trays, the mounting trays and the battery fixing trays are arranged at intervals along the height direction of the cabinet body, and a mounting cavity is formed between two adjacent battery fixing trays.

10. The battery cabinet as claimed in any one of claims 1-8, wherein the circuit breaker is provided with a connecting through hole, the mounting plate is provided with a threaded hole matching with the connecting through hole, and the battery cabinet further comprises a fastener penetrating through the connecting through hole and threaded into the threaded hole.

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