CN214848922U - Base station communication standby power supply based on lithium ion battery - Google Patents

Abstract

Base station communication stand-by power supply based on lithium ion battery, including lithium ion battery and box, the box top surface is fixed with outer fishplate bar, the box inside wall rotates and is connected with the rack, the rack inboard is fixed with lithium ion battery, the box lateral wall is provided with the direction reinforcement effect and leads the dress mechanism, lead dress mechanism one side and run through the box peg graft in the rack is inboard. The utility model discloses a fix lithium ion battery in rotatable rack, improved the convenience of lithium ion battery equipment and change, the utilization has the direction reinforcement effect lead the dress mechanism and remove in the box outside for lead dress mechanism clamps rack and lithium ion battery simultaneously in the box inboard, further improved the convenience of lithium ion battery equipment, and strengthened the steadiness of lithium ion battery equipment in the box.

Description

Base station communication standby power supply based on lithium ion battery

Technical Field

The utility model belongs to the technical field of lithium ion battery equipment, in particular to basic station communication stand-by power supply based on lithium ion battery.

Background

With the widespread use of digital products such as mobile phones, notebook computers and other products, lithium ion batteries are widely used in such products with excellent performance, and gradually develop towards other products and application fields, such as communication equipment of base stations. The lithium ion battery can utilize the standby power supply to temporarily supply power to the communication equipment of the base station when the power is off so as to ensure the normal continuous use of the communication equipment, thereby ensuring the normal use of the communication equipment of the base station.

The lithium ion battery is used as a standby power supply to guarantee the stability of temporary power supply and power supply, but when the lithium ion battery inside the general standby power supply is assembled and replaced, the general standby power supply needs to be placed and taken out in the box body, the narrow space in the box body causes inconvenience in operation, and meanwhile, when the lithium ion battery is assembled, the condition of instability and environmental influence is easy to occur, and the lithium ion battery is easy to damage.

SUMMERY OF THE UTILITY MODEL

The utility model discloses not enough to prior art exists provides basic station communication stand-by power supply based on lithium ion battery, and concrete technical scheme is as follows:

base station communication stand-by power supply based on lithium ion battery, including lithium ion battery and box, the box top surface is fixed with outer fishplate bar, the box inside wall rotates and is connected with the rack, the rack inboard is fixed with lithium ion battery, the box lateral wall is provided with the guide mechanism of direction reinforcement effect, guide mechanism one side run through the box and insert connect in the rack is inboard.

Further, the placing rack is arranged at the top of the bottom surface of the box body in a clearance mode.

Furthermore, the rack includes spacing post, end commentaries on classics board and torsional spring, end commentaries on classics board rotate connect in the box inside wall, end commentaries on classics board with be connected with between the box the torsional spring, end commentaries on classics board top surface four corners is fixed with four respectively the spacing post, lithium ion battery bottom surface laminating in end commentaries on classics board top surface, lithium ion battery peg graft in four spacing inboard of post, lead dress mechanism one side peg graft in being close to two of box lateral wall between the spacing post.

Furthermore, the bottom surface of the bottom rotating plate is of a circular arc structure.

Furthermore, the guide mechanism comprises a clamping frame and an operating mechanism, the operating mechanism is arranged on the side wall of the box body, the operating mechanism is located on the side wall of the box body, the two groups of clamping frames are symmetrically arranged on the side wall of the box body, the operating mechanism penetrates through the box body, the clamping frame is connected with the inside of the box body, and the bottoms of the clamping frames are movably inserted between the two limiting columns.

Furthermore, the clamping frame is of a C-shaped structure with a downward opening, two sides of the clamping frame are respectively inserted between the two limiting columns, and the bottom surface of the top of the clamping frame is attached to the top surface of the lithium ion battery.

Furthermore, control the mechanism and include guide cylinder, spring, smooth ejector pad and handle, the guide cylinder is fixed in the box lateral wall, the inside slip grafting of guide cylinder has smooth ejector pad, smooth ejector pad with be connected with the spring between the guide cylinder is inside, smooth ejector pad lateral wall is fixed with the handle, slip ejector pad one side slip grafting in the box lateral wall, smooth ejector pad runs through the box is connected with the screens frame.

The utility model has the advantages that: through fixing lithium ion battery in rotatable rack, improved the convenience of lithium ion battery equipment and change, the utilization has the guide and reinforcement effect to construct and remove in the box outside for guide and install the mechanism and clamp rack and lithium ion battery simultaneously at the box inboard, further improved the convenience of lithium ion battery equipment, and strengthened the steadiness of lithium ion battery equipment in the box.

Drawings

Fig. 1 shows the overall structure schematic diagram of the base station communication standby power supply based on the lithium ion battery of the present invention;

fig. 2 shows a schematic view of the connection structure of the placing frame and the guide mechanism of the present invention;

fig. 3 shows a schematic view of the structure of the rack of the present invention;

fig. 4 shows a cross-sectional view of the overall internal structure of the present invention;

shown in the figure: 1. a lithium ion battery; 2. placing a rack; 21. a limiting column; 22. a bottom rotating plate; 23. a torsion spring; 3. an outer connecting plate; 4. a guide mechanism; 41. a clamping frame; 42. an operating mechanism; 421. a guide cylinder; 422. a spring; 423. sliding the push block; 424. a grip; 5. and (4) a box body.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The base station communication standby power supply based on the lithium ion battery comprises the lithium ion battery 1 and a box body 5, wherein an external connecting plate 3 is fixed on the top surface of the box body 5, a placing frame 2 is rotatably connected to the inner side wall of the box body 5, the lithium ion battery 1 is fixed on the inner side of the placing frame 2, a guiding mechanism 4 with a guiding and reinforcing effect is arranged on the side wall of the box body 5, and one side of the guiding mechanism 4 penetrates through the box body 5 and is inserted into the inner side of the placing frame 2; through fixing lithium ion battery 1 in rotatable rack 2, improved the convenience that lithium ion battery 1 changed, utilize to have the direction reinforcing effect to lead dress mechanism 4 and remove in the box 5 outside for lead dress mechanism 4 clamps rack 2 and lithium ion battery 1 simultaneously in box 5 inboards, further promoted the convenience of the equipment of lithium ion battery 1, and strengthened the steadiness of lithium ion battery 1 equipment in box 5.

As shown in fig. 1, the placing rack 2 is arranged on the top of the bottom surface of the box body 5 in a clearance manner; through setting up rack 2 and 5 bottom surface clearances of box for lithium ion battery 1 that rack 2 is fixed is in unsettled state, effectively avoids ponding to cause the damage to lithium ion battery 1, has improved stand-by power supply's security.

As shown in fig. 4, the placing rack 2 includes limiting posts 21, a bottom rotating plate 22 and a torsion spring 23, the bottom rotating plate 22 is rotatably connected to the inner side wall of the box body 5, the torsion spring 23 is connected between the bottom rotating plate 22 and the box body 5, four corners of the top surface of the bottom rotating plate 22 are respectively and vertically fixed with four limiting posts 21, the bottom surface of the lithium ion battery 1 is attached to the top surface of the bottom rotating plate 22, the lithium ion battery 1 is inserted into the inner sides of the four limiting posts 21, and one side of the guide mechanism 4 is inserted between two limiting posts 21 close to the side wall of the box body 5; through pegging graft lithium ion battery 1 between four spacing posts 21 and with the laminating of end commentaries on classics board 22, can make lithium ion battery 1 and end commentaries on classics board 22 wholly rotate stably in box 5 to make lithium ion battery 1's equipment and dismantlement more convenient.

As shown in fig. 3, the bottom surface of the bottom rotating plate 22 is a circular arc structure; the lithium ion battery 1 is fixed inside the box body 5 by the bottom rotating plate 22 with the bottom surface in the circular arc structure, so that a gap between the bottom rotating plate 22 and the box body 5 is ensured when the bottom rotating plate rotates, and the bottom rotating plate 22 can flexibly rotate in the box body 5.

As shown in fig. 2, the guide mechanism 4 includes a clamping frame 41 and an operating mechanism 42, the operating mechanism 42 is disposed on a side wall of the box 5, two sets of the operating mechanisms 42 are symmetrically disposed on the side wall of the box 5, the operating mechanisms 42 penetrate through the box 5 and are connected to the clamping frame 41, and a bottom side of the clamping frame 41 is slidably inserted between the two limiting posts 21; two sets of control mechanisms 42 symmetrically arranged on the side wall of the box body 5 control the position frames 41 to be slidably inserted between the two limit columns 21, so that the convenience and the stability of fixing the placing frame 2 fixed with the lithium ion battery 1 are improved.

As shown in fig. 2 and 4, the clamping frame 41 is a C-shaped structure with a downward opening, two sides of the clamping frame 41 are respectively inserted between the two limiting posts 21, and the bottom surface of the top of the clamping frame 41 is attached to the top surface of the lithium ion battery 1; peg graft simultaneously between spacing post 21 through screens frame 41 both sides, improved the steadiness of rack 2 installation in box 5 to it is fixed to further restrict at lithium ion battery 1 top surface, makes lithium ion battery 1's equipment more firm.

The control mechanism 42 comprises a guide cylinder 421, a spring 422, a sliding push block 423 and a handle 424, the guide cylinder 421 is fixed on the side wall of the box body 5, the sliding push block 423 is inserted in the guide cylinder 421 in a sliding manner, the spring 422 is connected between the sliding push block 423 and the guide cylinder 421, the handle 424 is fixed on the side wall of the sliding push block 423, one side of the sliding push block 423 is inserted in the side wall of the box body 5 in a sliding manner, and the sliding push block 423 penetrates through the box body 5 and is connected with the clamping frame 41; the slide pushing block 423 is used for guiding the movement in the guide cylinder 421 to control the movement of the clamping frame 41 in the placing frame 2, and the slide pushing block 423 is reset through the spring 422, so that the clamping frame 41 is more convenient and faster to assemble and fix the lithium ion battery 1 in the box body 5.

When the utility model is implemented, the utility model,

firstly, operating an operating mechanism 42 of the guide mechanism 4 according to the diagram of fig. 1-3 to enable a clamping frame 41 which is in a shape of a letter C and has a downward opening to move upwards, enabling the clamping frame 41 which is inserted between two limiting columns 21 of the placing frame 2 in a sliding manner to move out, enabling the clamping frame 41 to be separated from the placing frame 2, and enabling the placing frame 2 to rotate in the box body 5, wherein a gap between the placing frame 2 and the bottom of the box body 5 is formed by arranging the placing frame 2 at the top of the box body 5 and combining a bottom rotating plate 22 of which the bottom is in a circular arc structure at the bottom of the placing frame 2, so that the placing frame 2 can be flexibly rotated out of the box body 5, the lithium ion battery 1 is inserted between the inner sides of the four limiting columns 21 arranged at the four corners of the bottom rotating plate 22, and the bottom surface of the lithium ion battery 1 is attached to the top surface of the bottom rotating plate 22;

when the placing frame 2 rotates out according to fig. 4, the torsion spring 23 connected between the bottom rotating plate 22 and the inner side wall of the box body 5 is twisted, after the lithium ion battery 1 is loaded in the placing frame 2, the placing frame 2 and the lithium ion battery 1 are driven to rotate together to enter the box body 5 through the torsion assistance of the torsion spring 23, and the lithium ion battery 1 is electrically connected with each component on the external connecting plate 3;

when the placing frame 2 loaded with the lithium ion battery 1 enters the box body 5, the handles 424 of the two groups of control mechanisms 42 symmetrically arranged on the two sides of the box body 5 are held to push upwards, so that the sliding push block 423 slides on the side wall of the box body 5 and is inserted into the guide cylinder 421 in a guiding manner, the spring 422 in the guide cylinder 421 is compressed, in the sliding process of the sliding push block 423, the sliding push block 423 slides to penetrate through the clamping frame 41 connected with the inside of the box body 5 to move towards the bottom surface of the outer connecting plate 3, and after the clamping frame 41 moves upwards, the placing frame 2 loaded with the lithium ion battery 1 rotates to enter the inside of the box body 5;

loosen the handle 424 that upwards promotes again this moment, the spring 422 of compression promotes downwards sliding block 423 and leads to the slip downwards, thereby make the screens frame 41 both sides of connection slide respectively and peg graft between two spacing posts 21, make the rack 2 whole clamp in box 5, guarantee the fixed stability of lithium ion battery 1 bottom and side, along with screens frame 41 moves down, the bottom surface and the laminating of lithium ion battery 1 top at the top of screens frame 41, thereby further fix lithium ion battery 1's mounted position, the steadiness of lithium ion battery 1 equipment in box 5 has been strengthened, control mechanism 42 through operating outside box 5 and assemble, moreover, the operation is simple, and is convenient.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, but rather, the appended claims are intended to cover all such modifications, equivalents, and improvements as fall within the true spirit and scope of the invention.

Claims (7)

1. Lithium ion battery based base station communication stand-by power supply, its characterized in that: including lithium ion battery (1) and box (5), box (5) top surface is fixed with outer fishplate bar (3), box (5) inside wall rotates and is connected with rack (2), rack (2) inboard is fixed with lithium ion battery (1), box (5) lateral wall is provided with direction reinforcement's leading dress mechanism (4), lead dress mechanism (4) one side and run through box (5) peg graft in rack (2) are inboard.

2. The lithium ion battery-based base station communication backup power supply of claim 1, wherein: the placing rack (2) is arranged on the top of the bottom surface of the box body (5) in a clearance mode.

3. The lithium ion battery based base station communication backup power supply of claim 2, wherein: the placing frame (2) comprises limiting columns (21), bottom rotating plates (22) and torsion springs (23), wherein the bottom rotating plates (22) are rotatably connected to the inner side wall of the box body (5), the bottom rotating plates (22) are connected with the torsion springs (23) between the box body (5), four corners of the top surface of each bottom rotating plate (22) are vertically fixed with four limiting columns (21), the bottom surface of each lithium ion battery (1) is attached to the top surface of the bottom rotating plate (22), the lithium ion batteries (1) are inserted into four limiting columns (21) in the inner side, and one side of each guide mechanism (4) is inserted into two positions close to the side wall of the box body (5) between the limiting columns (21).

4. The lithium ion battery based base station communication backup power supply of claim 3, wherein: the bottom surface of the bottom rotating plate (22) is of a circular arc structure.

5. The lithium ion battery based base station communication backup power supply of claim 3, wherein: the guide mechanism (4) comprises a clamping frame (41) and an operating mechanism (42), the operating mechanism (42) is arranged on the side wall of the box body (5), the operating mechanism (42) is located on the side wall of the box body (5) and is symmetrically provided with two groups, the operating mechanism (42) penetrates through the box body (5) and is connected with the clamping frame (41), and the bottom side of the clamping frame (41) is slidably inserted between the two limiting columns (21).

6. The lithium ion battery based base station communication backup power supply of claim 5, wherein: the clamping frame (41) is of a C-shaped structure with a downward opening, two sides of the clamping frame (41) are respectively inserted between the two limiting columns (21), and the bottom surface of the top of the clamping frame (41) is attached to the top surface of the lithium ion battery (1).

7. The lithium ion battery based base station communication backup power supply of claim 6, wherein: control mechanism (42) and include guide cylinder (421), spring (422), slip ejector pad (423) and handle (424), guide cylinder (421) are fixed in box (5) lateral wall, inside the sliding plug of guide cylinder (421) has slip ejector pad (423), slip ejector pad (423) with be connected with between guide cylinder (421) inside spring (422), slip ejector pad (423) lateral wall is fixed with handle (424), slip ejector pad (423) one side sliding plug in box (5) lateral wall, slip ejector pad (423) run through box (5) are connected with block frame (41).

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