CN215377628U - Battery compartment elastic electrode and battery compartment - Google Patents

Abstract

An elastic electrode structure of a battery compartment comprises a fixing part which can be installed and fixed in the battery compartment, a connecting part for connecting a battery, and an elastically deformable transition part which connects the fixing part and the connecting part; the connecting part is provided with a hemispherical boss as a battery contact, a gap is also arranged between the bottom of the hemispherical boss and the inner side of the battery compartment, and the gap can provide a movement space for the connecting part when the connecting part is pressed to enable the transition part to be elastically deformed. The utility model discloses a simple structure through will set up to the hemisphere boss with the battery contact point, has the circular arc transition because of the contact point of hemisphere boss, the dismouting of the battery of being convenient for more.

Description

Battery compartment elastic electrode and battery compartment

Technical Field

The utility model relates to a battery compartment structure and an elastic electrode structure installed in the battery compartment for electrical connection.

Background

The battery compartment is a cavity for storing batteries and ensuring the electrification with equipment, the positive end of the existing battery compartment adopts a fixed electrode contact, and the negative end of the existing battery compartment adopts a tower-shaped spring electrode contact for providing electric connection when the batteries are loaded. This kind of battery compartment structure, its spring electrode contact need guarantee that the spring has sufficient length and elasticity, when the installation battery, need extrude the compression towards spring one end, and the operation is not very convenient, when especially dismantling, need use the finger to inlay into anodal one end, then press down and make the spring warp the compression to take out the battery, it is very inconvenient to take off of its battery. And the turriform spring contact structure, its spring is little with battery tip area of contact, and its structural feature makes the great deformation that needs to take place among the impressing and the taking out process of battery, can form stable support to the battery, and big deflection makes the long-time back of using of spring contact structure, and elasticity can attenuate, lose elasticity even, leads to the unable normal electrically conductive of battery cabin, influences the use.

SUMMERY OF THE UTILITY MODEL

The utility model provides a battery compartment elastic electrode structure with a battery easy to disassemble and assemble and a battery compartment matched with the elastic electrode for use.

The elastic electrode of the battery compartment comprises a fixing part which can be installed and fixed in the battery compartment body, a connecting part for connecting the battery, and an elastically deformable transition part which connects the fixing part and the connecting part; the connecting part is provided with a hemispherical boss as a battery contact, a gap is also arranged between the bottom of the hemispherical boss and the inner side of the battery cabin body, and the gap can provide a movement space for the connecting part when the connecting part is pressed to enable the transition part to elastically deform.

A battery compartment comprises a battery compartment body, wherein one end of the battery compartment body is provided with a fixed electrode, the other end of the battery compartment body is provided with an elastic electrode, and the elastic electrode comprises a fixed part which can be installed and fixed in the battery compartment body, a connecting part for connecting a battery, and an elastically deformable transition part which connects the fixed part and the connecting part; the connecting part is provided with a hemispherical boss as a battery contact, a gap is also arranged between the bottom of the hemispherical boss and the inner side of the battery cabin body, and the gap can provide a movement space for the connecting part when the connecting part is pressed to enable the transition part to elastically deform.

When the battery is installed, one end of the battery is inserted into the battery compartment to be contacted with the fixed electrode, the other end of the battery is pressed into the elastic electrode of the battery compartment, and the elastic electrode of the battery compartment is contacted with the hemispherical boss of the connecting part in the pressing-in process, the hemispherical boss is pressed and slides upwards along the hemispherical surface under the guiding action of the hemispherical surface, and meanwhile, the transition part is pressed downwards to generate adaptive deformation, so that the end part of the battery can smoothly slide into the upper part of the elastic electrode contact of the battery compartment; after the electrode is in place, the transition part can rebound automatically to press the end part of the battery, so that the reliable contact of the electrode is ensured. When the battery is disassembled, the battery is pressed downwards to the hemispherical boss, the transition part deforms downwards, the battery is pulled outwards, and the battery can slide out outwards along the surface of the hemispherical boss. The battery is very convenient to load and take out. And the elastic part of the battery compartment elastic electrode is not a hemispherical boss directly contacted with the battery electrode, but is a transition part between the connecting part and the fixing part, the transition part is positioned at one side of the hemispherical boss, so that the connecting part is in a cantilever structure, and the elastic deformation of the transition part is transferred to the hemispherical boss of the connecting part along the cantilever and can be amplified, so that the requirement of the hemispherical boss on the connecting part on adapting to the deformation of the battery in the battery can be met only by extremely small deformation. Therefore, the deformation of the transition part is small in the process of loading and unloading the battery, the spring contact structure does not need to be greatly deformed, the elasticity of the spring contact structure is not attenuated, the service life of the battery is long, the effective state can be kept for a long time, and the service life of the battery compartment is prolonged.

Drawings

Fig. 1 is a schematic diagram of a battery compartment elastic electrode structure.

Fig. 2 is a schematic diagram of a battery compartment elastic electrode structure.

Fig. 3 is a schematic diagram of another battery compartment elastic electrode structure.

Fig. 4 is a schematic diagram of a battery compartment structure.

Fig. 5 is a schematic view of another battery compartment configuration.

Detailed Description

As shown in fig. 1-5, an elastic electrode for a battery compartment comprises a fixing part 2 which can be installed and fixed in the battery compartment body 1, a connecting part 3 for connecting a battery, and an elastically deformable transition part 4 for connecting the fixing part and the connecting part; the connecting part is provided with a hemispherical boss 5 serving as a battery contact, a gap is also formed between the bottom of the hemispherical boss and the inner side of the battery cabin body, and when the connecting part is pressed to enable the transition part to elastically deform, the gap can provide a movement space for the connecting part.

A battery compartment comprises a battery compartment body 1, wherein one end of the battery compartment body is provided with a fixed electrode 6, the other end of the battery compartment body is provided with an elastic electrode, and the elastic electrode comprises a fixed part which can be installed and fixed in the battery compartment body, a connecting part for connecting a battery, and an elastically deformable transition part which connects the fixed part and the connecting part; the connecting part is provided with a hemispherical boss as a battery contact, a gap is also arranged between the bottom of the hemispherical boss and the inner side of the battery cabin body, and the gap can provide a movement space for the connecting part when the connecting part is pressed to enable the transition part to elastically deform.

When the battery is installed, one end of the battery is inserted into the battery compartment to be contacted with the fixed electrode, the other end of the battery is pressed into the elastic electrode of the battery compartment, and the elastic electrode of the battery compartment is contacted with the hemispherical boss of the connecting part in the pressing-in process, the hemispherical boss is pressed and slides upwards along the hemispherical surface under the guiding action of the hemispherical surface, and meanwhile, the transition part is pressed downwards to generate adaptive deformation, so that the end part of the battery can smoothly slide into the upper part of the elastic electrode contact of the battery compartment; after the electrode is in place, the transition part can rebound automatically to press the end part of the battery, so that the reliable contact of the electrode is ensured. When the battery is disassembled, the battery is pressed downwards to the hemispherical boss, the transition part deforms downwards, the battery is pulled outwards, and the battery can slide out outwards along the surface of the hemispherical boss. The battery is very convenient to load and take out. And the elastic part of the battery compartment elastic electrode is not a hemispherical boss directly contacted with the battery electrode, but is a transition part between the connecting part and the fixing part, the transition part is positioned at one side of the hemispherical boss, so that the connecting part is in a cantilever structure, and the elastic deformation of the transition part is transferred to the hemispherical boss of the connecting part along the cantilever and can be amplified, so that the requirement of the hemispherical boss on the connecting part on adapting to the deformation of the battery in the battery can be met only by extremely small deformation. Therefore, the deformation of the transition part is small in the process of loading and unloading the battery, the spring contact structure does not need to be greatly deformed, the elasticity of the spring contact structure is not attenuated, the service life of the battery is long, the effective state can be kept for a long time, and the service life of the battery compartment is prolonged.

The battery compartment, battery compartment 1 has two, back to back the body and sets up, the one end of two compartments is fixed electrode 6, the other end sets up battery compartment elastic electrode respectively, same fixed part 2 of two battery compartment elastic electrode shares, the installation is fixed on the baffle 7 at two battery compartment middle parts. The two battery compartment elastic electrodes share the same fixing part, and the battery compartment elastic electrodes are fixed on the partition plate in the middle of the two battery compartment bodies, so that the fixing part of the battery compartment elastic electrodes can be further fixed, the transition part of the battery compartment elastic electrodes is enabled to be elastically deformed better, and the battery can be assembled and disassembled more conveniently.

The battery compartment, the battery compartment body 1 has more than two, sets up side by side, and the one end of each battery compartment body all sets up fixed electrode 6, and the other end all sets up battery compartment elastic electrode, and the connecting portion 3 of the battery compartment elastic electrode of each battery compartment body is connected with same fixed part 2 through respective transition portion 4 respectively. By arranging a plurality of battery compartments side by side, the space can be reduced.

In the battery compartment, the transition part 4 is of an L-shaped structure, so that the fixing part 2 and the connecting part 3 are vertically arranged. The transition part is set to be an L-shaped structure, so that the fixing area of the fixing part can be increased, and the elastic electrode structure can be better fixed in the battery compartment body.

Claims (5)

1. The battery compartment elastic electrode is characterized by comprising a fixing part (2) which can be installed and fixed in a battery compartment body (1), a connecting part (3) for connecting a battery, and an elastically deformable transition part (4) for connecting the fixing part and the connecting part; the connecting part is provided with a hemispherical boss (5) as a battery contact, a gap is also arranged between the bottom of the hemispherical boss and the inner side of the battery cabin body, and when the connecting part is pressed to enable the transition part to be elastically deformed, the gap can provide a movement space of the connecting part.

2. A battery compartment, characterized in that it comprises a battery compartment body (1), a fixed electrode (6) is arranged at one end of the battery compartment body, and a battery compartment elastic electrode according to claim 1 is arranged at the other end of the battery compartment.

3. The battery compartment according to claim 2, wherein there are two battery compartment bodies (1) arranged opposite to each other, one end of each of the two compartment bodies is a fixed electrode (6), the other end is provided with the elastic electrode of the battery compartment according to claim 1, the two elastic electrodes share the same fixed part (2), and the two elastic electrodes are mounted and fixed on the partition (7) in the middle of the two battery compartment bodies.

4. The battery compartment according to claim 2, wherein the battery compartment bodies (1) are arranged side by side, one end of each battery compartment body is provided with a fixed electrode (6), the other end of each battery compartment body is provided with the battery compartment elastic electrode according to claim 1, and the connecting parts (3) of the battery compartment elastic electrodes of each battery compartment body are respectively connected with the same fixed part (2) through respective transition parts (4).

5. The battery compartment according to claim 4, characterized in that the transition portion (4) is L-shaped, so that the fixing portion (2) and the connecting portion (3) are arranged vertically.

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