KR200375777Y1 - A battery socket - Google Patents

Abstract

According to the present invention, a battery connecting plate is provided at both sides of a socket, and the battery connecting plate has a socket positive electrode terminal formed at a center side of a disk-shaped insulator, and a ring-shaped socket negative terminal formed at an outer side thereof, and the socket negative terminal Is formed to protrude, and the step between the socket negative terminal and the socket positive terminal is smaller than the protruding length of the positive terminal of the battery, and the socket positive terminal of the pair of battery connection plates provided on both sides of the socket is electrically connected to each other. The socket negative terminal of the pair of battery connection plates which are connected to each other and provided on both sides of the socket are electrically connected to each other, and thus relates to a battery socket to which electric power is supplied to the electric circuit unit regardless of which direction the batteries are inserted.

Description

Battery socket {A battery socket}

The present invention relates to a battery socket structure.

Conventionally, since the socket positive terminal and the socket negative terminal have different structures, the socket positive terminal and the socket negative terminal are separately installed on both sides of the socket. Therefore, it is inconvenient to insert the battery according to the polarity in consideration of the polarity when inserting the battery, and the process required for coupling the socket positive terminal and the socket negative terminal to the socket, respectively, has a disadvantage that takes a lot of time and effort.

The present invention provides a battery socket for outputting power of a certain polarity regardless of the direction in which the battery is inserted. However, since the socket positive terminal and the negative socket terminal of the power socket are integrally formed, it is easy to manufacture and the connection with the battery is stable. It is an object of the present invention to provide a battery socket.

The present invention provides a greatly improved productivity by modularizing the number of parts of the final production process in the manufacture of electrical products, and provides a terminal structure of the socket with a significant increase in structural stability, thereby preventing failures such as poor connection and durability. Its purpose is to increase.

According to the present invention, a battery connecting plate is provided at both sides of a socket, and the battery connecting plate has a socket positive electrode terminal formed at a center side of a disk-shaped insulator, and a ring-shaped socket negative terminal formed at an outer side thereof, and the socket negative terminal Is formed to protrude, and the step between the socket negative terminal and the socket positive terminal is smaller than the protruding length of the positive terminal of the battery, and the socket positive terminal of the pair of battery connection plates provided on both sides of the socket is electrically connected to each other. The socket negative terminal of the pair of battery connection plates which are connected to each other and provided on both sides of the socket are electrically connected to each other, and thus relates to a battery socket to which electric power is supplied to the electric circuit unit regardless of which direction the batteries are inserted.

Here, at least one of the pair of battery connection plates provided on both sides of the socket is coupled to the socket end wall by an elastic body, thereby applying a force necessary for close connection with the battery.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of an embodiment of the present invention. As shown in the figure, the battery socket of the present invention is provided with a disk-shaped battery connecting plate on both sides.

The battery connecting plate is formed in a disc shape, and a socket positive terminal is formed at the center side, and a ring-shaped socket negative terminal is formed at a peripheral side of the predetermined distance from the positive terminal. In addition to the positive terminal and the negative terminal of the battery connection plate, it is formed of an insulator such as synthetic resin. That is, the positive electrode terminal and the negative electrode terminal are formed in a disk-shaped insulator.

The socket negative terminal is formed to protrude. Therefore, when the negative side of the battery contacts the battery connecting plate, the socket negative terminal is connected to the negative terminal of the battery, and the socket positive terminal is not connected to the battery.

Since the socket negative terminal is formed to protrude, the socket negative terminal and the socket positive terminal have a step. However, this step is formed smaller than the protruding length of the positive terminal of the battery corresponding to the specification of the battery socket. Therefore, when the positive side of the battery contacts the battery contact plate, the positive electrode of the battery contacts the socket positive terminal.

According to this principle, the socket of the present invention inserts the battery in any direction so that the positive electrode side of the battery contacts the positive electrode terminal of the battery and the negative electrode side of the battery contacts the negative electrode terminal of the battery. Of course, at least one of the battery contact plates on both sides must be applied to the battery side in order for the battery and the battery contact plate to contact each other at a constant strength. To this end, in the present invention, an elastic body such as a spring is coupled to the battery contact plate and the socket end wall to push the battery contact plate toward the battery to be inserted with a certain strength. Although the spring is taken as an example in this embodiment, the present invention is not limited thereto and does not exclude a case in which another elastic body such as an elastic piece is coupled to the battery contact plate and the socket end wall.

On the other hand, since it is impossible to know in which direction the battery is to be inserted, it is impossible to know which of the socket positive terminals of the battery connecting plates on both sides will actually be connected to the positive terminal of the battery. Therefore, the electrical circuit to which the battery will be supplied should be connected to both socket positive terminals of the battery contacts on both sides. The same applies to the negative terminal.

Accordingly, as shown in FIG. 2, the socket positive terminals of the battery connection plates on both sides are electrically connected to each other and connected to the electrical circuit, and the socket negative terminals of the battery connection plates on both sides are electrically connected to each other and connected to the electrical circuit. . As shown in the drawing, the electrical conduction between the cathode terminals may be formed using a spring formed of a conductor.

In the present invention, the battery socket is formed by providing a battery connecting plate in the form of a disc on both sides. Therefore, in order to form a battery socket, there is no need to separately form a positive terminal and a negative terminal, and the battery connection plates of the same standard need only be combined. That is, the manufacture of the socket is facilitated by separately manufacturing a large number of battery connection plates and then coupling them to the socket portion of the electrical appliance.

In addition, the socket positive electrode terminal and the socket negative electrode terminal are not separated separately, but are coupled to a single disc, thereby reducing the number of parts in the final production process and modularizing, thereby greatly improving productivity. The socket negative electrode terminal stably coupled to the disc in the form of a terminal or a ring has an effect of preventing failures such as poor connection and increasing durability due to its structural stability.

Furthermore, the power is supplied regardless of the direction in which the electricity is inserted, thereby bringing the convenience of use.

1 is a schematic perspective view of an embodiment of the present invention.

2 is a schematic cross-sectional view of an embodiment of the present invention.

<Description of Major Symbols in Drawing>

100: battery connection plate, 102: socket positive terminal

104: socket negative terminal 106: elastic spring

Claims (2)

In the battery socket, Battery sockets are provided on both sides of the socket, The battery connecting plate is a socket positive terminal is formed on the center side of the disk-shaped insulator and a ring-shaped socket negative terminal is formed on the outer side thereof, The socket negative electrode terminal is formed to protrude, The step difference between the socket negative terminal and the socket positive terminal is smaller than the protruding length of the positive terminal of the battery, The socket positive terminals of the pair of battery connection plates provided on both sides of the socket are electrically connected to each other. The socket negative terminals of a pair of battery connection plates provided on both sides of the socket are electrically connected to each other. Battery socket. The method of claim 1, At least one of the pair of battery connecting plates provided on both sides of the socket is connected to the socket end wall by an elastic body. Battery socket.