KR200403594Y1 - The battery case with bubber body to be ninimum size without battery into the case - Google Patents

Abstract

The case of all devices using a conventional battery uses a hard case for close contact with the electrode contacts. Thus, even without batteries, the volume remains unchanged. However, the present invention is made of a battery case made of a material using a rubber, the battery case is convenient to carry a small volume when there is no battery.

Description

Battery case with minimal volume of rubber material {The battery case with bubber body to be ninimum size without battery into the case}

A battery case such as a conventional flashlight uses a hard case to keep the contact of the battery and the contact between the positive and negative poles, and maintains contact with the electrode by pushing the battery outward.

The battery case was originally made of a hard material, so even when the battery is not inserted, it takes up the volume of the battery and is inconvenient to carry. The case is designed to minimize the volume as the case of the rubber case shrinks.

 Because of the size of the case in the power supply device which is not used for everyday use such as emergency flashlight and cell phone emergency power supply using batteries, it could not be stored in a small place due to the size of the case. If there is no battery, it is easy to store it in a small place such as a cell phone so that the battery can be inserted only when necessary and used as an emergency power source.

 Conventional battery cases are made of materials that can support batteries, such as plastic or metal, and in order to improve the contact between the + and-electrodes, it is common to use them by using springs or bent iron pieces inside the case. It was. The battery case was therefore made of hard material. However, in the present invention, the battery case is a battery case designed to minimize the volume as shown in FIG. 2 in the case where the battery case is not placed using an elastic material composed of a rubber material. In order to increase the contact of the electrode due to the flexibility of the rubber material of the case, as shown in FIG. 2, the whole is shrunk under the influence of the rubber material 205 of the cylinder, and the battery is inserted through the battery insertion hole 204 in FIG. 2. When inserted, the + and-contacts are brought into close contact by using the contracting force of the rubber material as the volume increases as shown in FIG. 1, so that the electrodes smoothly contact as shown in FIG. 4. Therefore, all battery cases up to now have electrode contact in the direction of applying force to the outside centering around the internal battery. It is designed to be in contact with the electrode. This principle is designed to minimize the volume without batteries. In Fig. 1, the parts of 103, 106 and 203, 206 in Fig. 2, 303,305 in Fig. 3, and 403,405 in Fig. 4 are made of a hard material made of plastic. 307 of FIG. 3 shows a -pole connection line when the case is contracted, and 407 of FIG. 4 shows a -pole connection line when the case is inflated. FIG. 4 shows a form where a battery is inserted therein. have.

As described above, since the case uses a hard material, the present invention uses a rubber material as shown in FIG. 2 to make a case using a rubber material, and when the battery is not inside the case, as shown in FIG. Minimizing the body of the case excluding-and poles has a feature that can simplify the storage to a small volume.

1: Side view inflated in the form of a battery inserted

2: Side view of the volume down form with battery removed

3 is a cross-sectional view of the internal configuration in the volume reduced form by removing the battery Figure 4 is a cross-sectional view of the internal configuration in the volume expanded form by inserting the battery

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102, 202, 302, 402 is a + electrode contact

104,204 holes for inserting the battery internal into the rubber case

105,205,304,404 are cylindrical cases made of rubber

103,203 type of connection screw for connection with an external operating device

303 of FIG. 3 and 403 of FIG. 4 are guides fixed when inserting batteries as round guides. FIG. 307 of FIG. 3 shows contraction of a case by removing a battery.-Connection of electrodes 407 of FIG. Connecting line

Claims (3)

The battery case is characterized in that the cylindrical material of the case is made of rubber in the battery case, so that the rubber material of the cylinder increases when the battery is inserted using shrinkage force and shrinks when the battery is removed. The battery case according to claim 1, further comprising plastic guides above and below the cylindrical rubber case for preventing the flow of the internal battery. delete