CN216995335U - Energy storage battery placing frame of off-grid optical storage micro-grid system - Google Patents

Abstract

The utility model relates to a photovoltaic power station energy storage battery arranging device, in particular to a battery arranging frame. The utility model provides an off-grid light storage microgrid system energy storage battery rack, includes the backplate, sets up the riser on the backplate and hangs the roof beam, the riser is hung the roof beam and is T type roof beam, hangs and locates riser on the roof beam is hung to the riser, the bottom plate of riser still is provided with the socket for the horizontal pole of pegging graft, the socket has a plurality ofly. The backplate has the multiseriate, be provided with multirow riser string roof beam from top to bottom on the backplate. The vertical plate is provided with a strip-shaped clamping groove which is mutually clamped with the vertical plate hanging beam. The utility model provides a detachable transportation battery rack which is convenient to transport and expand.

Description

Energy storage battery placing frame of off-grid optical storage micro-grid system

Technical Field

The utility model relates to a photovoltaic power station energy storage battery arranging device, in particular to a battery arranging frame.

Background

The Soonandajie protection station, the unfrozen spring protection station, the five-beam protection station and the Tuo river protection station which are governed by the Coco Xili management bureau have altitudes of 4479 meters, 4643 meters, 4598 meters and 4779 meters respectively, are all areas without electricity, and the problem of electricity utilization is solved through an off-grid photovoltaic power station. However, the lead-acid batteries are in unmanned areas at high altitudes in plateaus, transportation is not changed, at present, the lead-acid batteries are all fixed frames, transportation is inconvenient, if the installed capacity of a protection station needs to be increased, the storage capacity of the batteries also needs to be increased, and part of the lead-acid batteries can be only placed outside a power station frame or are additionally provided with a battery frame.

SUMMERY OF THE UTILITY MODEL

The utility model provides a detachable transportation battery rack which is convenient to transport and expand. In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides an off-grid light storage microgrid system energy storage battery rack, includes the backplate, sets up the riser on the backplate and hangs the roof beam, the riser is hung the roof beam and is T type roof beam, hangs and locates riser on the roof beam is hung to the riser, the bottom plate of riser still is provided with the socket for the horizontal pole of pegging graft, the socket has a plurality ofly.

Furthermore, the back plate is provided with a plurality of rows of vertical plate hanging beams from top to bottom.

Furthermore, a strip-shaped clamping groove is formed in the vertical plate and is clamped with the vertical plate hanging beam.

Furthermore, the vertical plate hanging beam is an I-shaped beam.

Further, still include the spacing block, the spacing block is rubber strip piece or rubber slab, and its effect has two: and isolating adjacent batteries, and tightly squeezing the batteries to enable the batteries to be stably positioned between two adjacent vertical plates.

Furthermore, the distance between two adjacent vertical plates can be adjusted, and only one battery can be accommodated, or a plurality of batteries can be accommodated.

Furthermore, a lifting lug is arranged at the top of the battery placing frame.

According to the technical scheme, the integral back plate is formed by combining a plurality of rows of single back plates, vertical plate hanging beams are fixed on the single back plates through screws, the vertical plate hanging beams are arranged at intervals from top to bottom, vertical plates are clamped on the vertical plate hanging beams, and then the vertical plates on the same horizontal plane are connected together through horizontal cross rods to form a horizontal cross rod supporting part.

The technical scheme adopted by the utility model can be completely disassembled into the plate and rod assemblies in the transportation process, the transportation is convenient, and the arrangement rows can be added according to the actual use condition in the use process to complete the addition of the battery arrangement positions.

Drawings

Fig. 1 is a schematic structural perspective view of an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an embodiment of the present invention.

Detailed Description

The technical scheme of the utility model is further explained by combining the attached drawings.

The utility model provides an off-grid light storage microgrid system energy storage battery rack, includes backplate 3, sets up riser string roof beam 4 on backplate 3, the riser is hung roof beam 4 and is T type roof beam, hangs and locates the riser hangs riser 1 on the roof beam 4, the bottom of riser 1 still is provided with socket 6 for the horizontal pole of pegging graft, socket 6 has a plurality ofly.

The backboard 3 is provided with a plurality of rows of vertical plate hanging beams 4 from top to bottom.

The vertical plate 1 is provided with a strip-shaped clamping groove 5 which is mutually clamped with the vertical plate hanging beam 4.

The vertical plate hanging beam 4 is an I-shaped beam.

Still include spacing block 8, spacing block 8 is rubber strip piece or rubber slab, and its effect has two: and adjacent batteries are isolated, and the batteries 2 are tightly squeezed to be stably positioned between two adjacent vertical plates 1.

The distance between two adjacent vertical plates 1 is adjustable, and only one battery can be accommodated or a plurality of batteries can be accommodated.

The top of the battery placing frame is provided with a lifting lug 7.

According to the technical scheme, the integral back plate is formed by combining a plurality of rows of single back plates, vertical plate hanging beams are fixed on the single back plates through screws, the vertical plate hanging beams are arranged at intervals from top to bottom, vertical plates are clamped on the vertical plate hanging beams, and then the vertical plates on the same horizontal plane are connected together through horizontal cross rods to form a horizontal cross rod supporting part.

The technical scheme adopted by the utility model can be completely disassembled into the plate and rod assemblies in the transportation process, the transportation is convenient, and the arrangement columns can be added according to the actual use condition in the use process to complete the addition of the battery arrangement positions. The battery placing rack adopts cold-rolled steel sheets and section steel, is integrally of an assembly structure, is convenient to package and transport, and can be effective.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (5)

1. The utility model provides an off-grid light storage microgrid system energy storage battery rack which characterized in that: including the backplate, set up the riser on the backplate and hang the roof beam, the riser is hung the roof beam and is T type roof beam, hangs and locates riser hangs the riser on the roof beam, the bottom of riser still is provided with the socket for the horizontal pole of pegging graft, the socket has a plurality ofly, the backplate has the multiseriate, from last to being provided with multirow riser on the backplate and hanging the roof beam down, seted up rectangular draw-in groove on the riser with the mutual block of roof beam is hung to the riser.

2. The off-grid optical storage microgrid system energy storage battery placement rack of claim 1, characterized in that: the vertical plate hanging beam is an I-shaped beam.

3. The off-grid optical storage microgrid system energy storage battery placement rack of claim 1, characterized in that: still include the spacing block, the spacing block is rubber strip piece or rubber slab.

4. The off-grid optical storage microgrid system energy storage battery placement rack of claim 1, characterized in that: the distance between two adjacent vertical plates can be adjusted, and only one battery can be accommodated or a plurality of batteries can be accommodated.

5. The off-grid optical storage microgrid system energy storage battery placement rack of claim 1, characterized in that: the top of the battery placing frame is provided with a lifting lug.

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