CN214753971U - Anti-seismic battery rack - Google Patents

Abstract

The utility model provides an anti-seismic battery rack, which comprises a steel beam, a steel enclosure, a steel vertical rail, a shock pad, I-shaped steel and expansion bolts; the I-shaped steel is fixed on the ground through expansion bolts; the steel beam is perpendicular to the I-shaped steel and arranged on the I-shaped steel, the steel beam is welded with the I-shaped steel, the bottom of the steel vertical baffle is welded with the I-shaped steel, the steel surrounding baffle is connected with the steel vertical baffle, the steel surrounding baffle forms a plurality of battery limiting storage grids, and the inner side of the steel surrounding baffle is provided with a shock pad. The battery rack of the utility model has simple structure and convenient installation, can effectively absorb the influence caused by ground vibration, and has good anti-seismic performance of the storage battery; moreover, the storage batteries can be tightly contacted, and the connecting wires are not easy to fall off. And, the utility model discloses a battery rack atress homogeneity is good, base non-deformable.

Description

Anti-seismic battery rack

Technical Field

The utility model relates to an equipment fixing field especially relates to an antidetonation battery holder.

Background

The storage battery is used as a standby and emergency power supply and is widely applied to occasions such as power plants, transformer substations, industrial power distribution and the like. The installation of battery is directly to place its base on ground channel-section steel usually, because battery self is heavier, can rely on self weight reliably fixed. However, in the vicinity of the earthquake fracture zone, particularly in the area threatened by an earthquake of 7 grades or above, or in the situation that other factors around the earthquake threatened the storage battery chamber to vibrate horizontally, the storage battery chamber cannot be reliably stabilized by the self weight, and a set of the storage battery chamber capable of effectively resisting the vibration needs to be designed.

Disclosure of Invention

The utility model aims at providing a simple structure, the effectual antidetonation battery holder takes precautions against earthquakes. Therefore, the utility model adopts the following technical scheme.

An anti-seismic battery frame is characterized by comprising a steel cross beam, a steel enclosure, a steel vertical rail, a shock pad, I-shaped steel and expansion bolts; the I-shaped steel is fixed on the ground through expansion bolts; the steel beam is perpendicular to the I-shaped steel and arranged on the I-shaped steel, the steel beam is welded with the I-shaped steel, the bottom of the steel vertical baffle is welded with the I-shaped steel, the steel surrounding baffle is connected with the steel vertical baffle, the steel surrounding baffle forms a plurality of battery limiting storage grids, and the inner side of the steel surrounding baffle is provided with a shock pad.

Further, the spacing between the crash pads matches the width of the batteries, such that each battery is cushioned from the steel rail.

Further, the width of the limiting storage grid is matched with 1 time or 2 times of the length of the batteries, the length of the limiting storage grid is matched with the width of the batteries, the batteries can be arranged in one row or two rows and are limited in the limiting storage grid, and each battery 1 can be in contact with the shockproof pad 5.

Furthermore, the space between the I-shaped steels is matched with the integral multiple of the width of the battery, so that the I-shaped steels are just correspondingly arranged at the joint of the two batteries; the steel crossbeam is arranged at the non-tip of I-steel and is set up along the width direction symmetry of spacing storage check, and the bottom of every battery all has 2 steel crossbeam supports. Preferably, the spacing between the i-beams matches 2 times the width of the battery.

Due to the adoption of the technical scheme of the utility model, the battery rack of the utility model has simple structure and convenient installation, can effectively absorb the influence caused by ground vibration, and has good anti-seismic performance; moreover, the storage batteries can be tightly contacted, and the connecting wires are not easy to fall off. And, the utility model discloses a battery rack atress homogeneity is good, base non-deformable.

Drawings

Figure 1 is an elevation view of an embodiment of the invention,

figure 2 is a schematic plan view of an embodiment of the invention,

fig. 3 is a side view of an embodiment of the invention.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

Reference is made to the accompanying drawings. The utility model provides a pair of antidetonation battery holder, enclose shelves 3, the steel that enclose the steel including steel crossbeam 2, steel and found shelves 4, antivrbration pad 5, I-steel 6, expansion bolts 7. The I-shaped steel 6 is fixed on the ground through expansion bolts 7; the utility model discloses a battery, including I-steel 6, steel crossbeam 2 and I-steel 4, the steel is placed on steel crossbeam 2, and the steel encloses fender 3 and is connected with the steel immediately (can be through welding or bolted connection) 4, encloses the spacing storage check that keep off 3 and constitute a plurality of batteries by the steel, battery 1 places on steel crossbeam 2, and 3 inboard settings are enclosed to the steel the setting of fender 3, the interval between the antivrbration pad 5 matches with battery 1's width for every battery 1 encloses to have filled up between the fender 3 with the steel and has filled up 5.

The width of spacing storage check and 1 times or 2 times matching of battery 1 length, the length of spacing storage check and the width matching of a plurality of batteries 1 can make a plurality of batteries be one row or two rows and arrange and by spacing setting in spacing storage check to every battery 1 can both contact with antivrbration pad 5.

The space between the I-beams 6 is matched with the integral multiple of the width of the battery, so that the I-beams 6 are just correspondingly arranged at the joint of the two batteries 1, preferably, the space between the I-beams 6 is matched with 2 times of the width of the battery, and 2 batteries 1 are arranged between every two I-beams 6 in the length direction of the I-beams 6. The steel beam 2 is arranged at the non-end part of the I-steel and symmetrically arranged along the width direction of the limiting storage grid, and the bottom of each battery 1 is supported by 2 steel beams 2, so that the structure and the anti-seismic performance of the battery 1 or the battery rack are better.

The shockproof pad 5 is an insulating rubber pad.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, i.e. all equivalent changes and modifications made according to the present invention are covered by the scope of the claims of the present invention, which is not illustrated herein.

Claims (5)

1. An anti-seismic battery frame is characterized by comprising a steel cross beam, a steel enclosure, a steel vertical rail, a shock pad, I-shaped steel and expansion bolts; the I-shaped steel is fixed on the ground through expansion bolts; the steel beam is perpendicular to the I-shaped steel and arranged on the I-shaped steel, the steel beam is welded with the I-shaped steel, the bottom of the steel vertical baffle is welded with the I-shaped steel, the steel surrounding baffle is connected with the steel vertical baffle, the steel surrounding baffle forms a plurality of battery limiting storage grids, and the inner side of the steel surrounding baffle is provided with a shock pad.

2. An anti-seismic battery holder according to claim 1, wherein the spacing between the crash pads matches the width of the batteries such that each battery is cushioned from the steel rail.

3. An anti-seismic battery rack according to claim 1, characterized in that the width of the limiting storage grid matches 1 or 2 times the length of the battery, the length of the limiting storage grid matches the width of the plurality of batteries, the plurality of batteries can be arranged in one or two rows and limited in the limiting storage grid, and each battery (1) can be in contact with the crash pad (5).

4. An anti-seismic battery frame according to claim 1, wherein the spacing between the i-beams matches an integer multiple of the battery width, such that the i-beams are just correspondingly disposed at the junction of two batteries; the steel crossbeam is arranged at the non-tip of I-steel and is set up along the width direction symmetry of spacing storage check, and the bottom of every battery all has 2 steel crossbeam supports.

5. An anti-seismic battery holder according to claim 4, wherein the spacing between the I-beams preferably matches 2 times the battery width.

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