CN218602583U - Combined battery cluster battery frame - Google Patents

Abstract

The utility model discloses a combined battery pack battery rack, which comprises a support frame and a slide rail; the supporting frame is provided with a plurality of layers of sliding rails, and the sliding rails are fixed on the side edges of the supporting frame; a cross beam is arranged between the front ends of each layer of slide rails, an installation pipe is installed backwards in the middle of the cross beam, an installation space is arranged in the front of the installation pipe, triangular blocks are installed in the installation space through two shaft ends, the triangular blocks extend out of the upper surface of the installation pipe to avoid grooves, the avoidance grooves are used for being hidden in the installation pipe after the triangular blocks are turned backwards, and torsional springs are connected between the shaft ends of the triangular blocks and the wall of the installation pipe; the bottom of the battery pack is additionally provided with a sliding chute matched with the sliding rail, and the bottom of the middle part of the battery pack is additionally provided with a baffle matched with the triangular block in an abutting mode; after the battery pack is inserted into the support frame, a rotating space is reserved between the baffle and the triangular block.

Description

Combined battery cluster battery frame

Technical Field

The utility model relates to a modular battery cluster battery frame.

Background

The battery cluster is formed by laminating and combining a plurality of battery packs, the existing arrangement mode is that the battery packs are respectively placed into each layer of the support frame in a goods shelf mode, and then the battery pack joints of each layer are connected;

in order to avoid the damage of the joint caused by the accidental pulling or pushing of the battery pack, the wiring is generally required to be prolonged, and the appearance is obviously quite unattractive; namely, a limit mechanism is required to be additionally arranged on the battery frame, and meanwhile, the assembly and disassembly of the battery pack cannot be hindered.

SUMMERY OF THE UTILITY MODEL

According to the problem that exists among the prior art, the utility model provides a modular battery cluster battery holder aims at solving spacing and the dismouting problem of battery group on the battery cluster holder.

In order to achieve the above purpose, the technical scheme of the utility model is that: a combined battery cluster battery frame comprises a support frame and a slide rail; the supporting frame is provided with a plurality of layers of sliding rails, and the sliding rails are fixed on the side edges of the supporting frame; a cross beam is arranged between the front ends of each layer of slide rails, an installation pipe is installed backwards in the middle of the cross beam, an installation space is arranged in the front of the installation pipe, triangular blocks are installed in the installation space through two shaft ends, the triangular blocks extend out of the upper surface of the installation pipe to avoid grooves, the avoidance grooves are used for being hidden in the installation pipe after the triangular blocks are turned backwards, and torsional springs are connected between the shaft ends of the triangular blocks and the wall of the installation pipe;

the bottom of the battery pack is additionally provided with a sliding chute matched with the sliding rail, and the bottom of the middle part of the battery pack is also additionally provided with a baffle matched with the triangular block in an abutting mode; after the battery pack is inserted into the support frame, a rotating space is reserved between the baffle and the triangular block.

Preferably, the slide rail is a side beam of the support frame, and the upper surface of the side beam is processed into the slide rail.

Preferably, the sliding chutes on two sides of the bottom of the battery pack are L-shaped and are carried on the sliding rails.

Preferably, the cross beam is fixed on the inner walls of the support frame or the two slide rails.

The utility model has the advantages that: effectively prevent that the excessive aversion of group battery from leading to the connector lug to damage, do not influence the convenience of dismouting simultaneously.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic bottom structure diagram of the battery pack of the present invention.

Detailed Description

As shown in fig. 1 and 2, a combined battery cluster battery rack includes a support frame 1 and a slide rail 2; the supporting frame 1 is provided with a plurality of layers of sliding rails 2, and the sliding rails 2 are fixed on the side edges of the supporting frame 1; a cross beam 3 is arranged between the front ends of each layer of slide rails 2, an installation pipe 4 is installed backwards in the middle of the cross beam 3, an installation space is formed in the front of the installation pipe 4, a triangular block 6 is installed in the installation space through two shaft ends, the triangular block 6 extends out of the upper surface of the installation pipe 4 to avoid a groove 5, the avoiding groove 5 is used for hiding the triangular block 6 into the installation pipe 4 after the triangular block 6 is turned backwards, and a torsion spring is connected between the shaft end of the triangular block 6 and the wall of the installation pipe 4;

the bottom of the battery pack is additionally provided with a sliding chute 7 matched with the sliding rail 2, and the bottom of the middle part of the battery pack is additionally provided with a baffle 8 in interference fit with the triangular block 6; after the battery pack is inserted into the support frame 1, a rotating space is reserved between the baffle 8 and the triangular block 6.

The sliding rail 2 is a side edge beam of the support frame 1, and the upper surface of the side edge beam is processed into the sliding rail 2; the sliding chutes 7 on two sides of the bottom of the battery pack are L-shaped and are carried on the sliding rails 2; the cross beam 3 is fixed on the inner wall of the support frame 1 or the two slide rails 2.

The utility model discloses a support frame 1 is gone into in the installation to the group battery if the drawer type passes through slide rail 2 and spout 7 sliding fit. After the battery pack is completely installed, the battery pack surface plate is in contact with the support frame 1 for limiting;

when the battery pack needs to be pulled out, the triangular blocks 6 in the mounting tube 4 need to be pushed to turn backwards around the shaft by hand pushing or contacting the rod; when the battery pack is pulled out again, the baffle plate 8 is not blocked by the triangular block 4.

Under normal use, the triangular block 6 extends out of the upper surface of the mounting pipe 4, and the triangular block 6 can only be turned towards the inner side, so that when the battery pack is inserted, the baffle plate 8 pushes the triangular block 6 to turn over, and the mounting is not influenced.

After the battery pack is inserted into the support frame 1, a rotating space is reserved between the baffle plate 8 and the triangular block 6, and the rotating space is only used for hiding the triangular block 6 into the mounting pipe 4 after the triangular block 6 is turned backwards, so that the rotating space is not required to be too large; even if the wire connector moves back and forth, the wire connector is not affected.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the present invention.

Claims (4)

1. A combined battery cluster battery frame comprises a support frame (1) and a slide rail (2); the supporting frame (1) is provided with a plurality of layers of sliding rails (2), and the sliding rails (2) are fixed on the side edges of the supporting frame (1); the anti-overturning device is characterized in that a cross beam (3) is arranged between the front ends of each layer of sliding rail (2), an installation pipe (4) is installed backwards in the middle of the cross beam (3), an installation space is formed in the front portion of the installation pipe (4), triangular blocks (6) are installed in the installation space through two shaft ends, the triangular blocks (6) extend out of the upper surface of the installation pipe (4) to avoid grooves (5), the avoiding grooves (5) are used for hiding the triangular blocks (6) into the installation pipe (4) after the triangular blocks (6) are overturned backwards, and torsion springs are connected between the shaft ends of the triangular blocks (6) and the wall of the installation pipe (4);

the bottom of the battery pack is additionally provided with a sliding chute (7) matched with the sliding rail (2), and the bottom of the middle part of the battery pack is additionally provided with a baffle (8) in abutting fit with the triangular block (6); after the battery pack is inserted into the support frame (1), a rotating space is reserved between the baffle (8) and the triangular block (6).

2. The combined battery cluster and battery rack of claim 1, wherein the sliding rails (2) are side beams of the supporting rack (1), and the upper surfaces of the side beams are processed into the sliding rails (2).

3. The assembled battery pack battery holder according to claim 2, wherein the sliding grooves (7) on the two sides of the bottom of the battery pack are L-shaped and are carried on the sliding rails (2).

4. The combined battery cluster battery rack according to claim 2, characterized in that the cross beam (3) is fixed on the inner wall of the support frame (1) or the two sliding rails (2).

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