KR20100105083A - Charger with waiting current cut-off switch - Google Patents

Abstract

PURPOSE: By being proceed the charge function in the case of being connected to the battery charger the battery charger in which the standby current disconnect switch is included completely secludes the standby current. CONSTITUTION: A terminal unit linkup(4) comprises the electrode terminal portion, and the spring and push switch. The electrode terminal portion is installed in one end of the terminal unit linkup. The spring is installed inside the terminal unit linkup. The push switch is projected with the spring to the terminal unit linkup outside. The push switch is inserted with part of the terminal to the terminal unit linkup inside in case the terminal unit linkup is connected to the terminal(20).

Description

Charger with waiting current cut-off switch

The present invention relates to a charger having a waiting current blocking switch, and more particularly, a standby current blocking switch which can prevent unnecessary power consumption by operating the charger only when the user mounts the terminal in the charger. It relates to a charger provided.

In the case of a charger, the charger is generally connected to a power source even when the user is not charging. Conventional chargers have a problem in that unnecessary power is generated when the standby current flows even when the charger is not in the charging state.

To solve this problem, various measures have been taken to reduce standby power consumption in the charger itself. However, in many cases, the manufacturing method is complicated due to the cost increase due to the internal configuration added during the manufacturing of the device. There is a problem such as an increase in production cost.

An object of the present invention is to improve the problems of the prior art as described above, performs a charging function only when the terminal such as a mobile phone is connected to the charger for charging, otherwise the standby current completely cut off unnecessary power consumption It is to provide a charger with a standby current blocking switch that can be prevented.

The present invention provides a charger including a terminal connection part connected to a charger body having a power plug and a cord, wherein the terminal connection part comprises a terminal connection terminal part provided at one end of the terminal connection part, an electrode terminal part inside the terminal connection part, and the terminal connection part. A spring provided therein; And a charger provided with a standby current disconnect switch, the push switch protruding out of the terminal connection portion by the spring.

When the terminal connection part is connected to the terminal, the push switch is pressed by a part of the terminal to be inserted into the terminal connection part to be in contact with the electrode terminal part inside the terminal connection part to perform charging, and the terminal connection part and the When the connection of the terminal is released, the push switch may protrude out of the terminal connection part by the spring inside the terminal connection part, and the contact of the push switch and the electrode terminal part may be released to stop charging.

The charger may further include a power rectifying unit provided at an input power side and a bridge rectifying circuit provided at an output power side.

The charger may further include a bridge rectifier circuit provided at an input power supply side and a power transformer unit provided at an output power supply side.

The charger equipped with the standby current disconnect switch according to the present invention performs a charging function only when the terminal is connected to the charger for charging, and in other cases, the standby current is completely blocked even when the charger is connected to a power source to prevent unnecessary power consumption. It can work. In general, chargers are often connected to a power source, which can reduce unnecessary power consumption and save energy.

In addition, the charger with a standby current cutoff switch according to the present invention is to add a push button switch to the charger, the structure is simple and easy to manufacture compared to the complicated configuration for the conventional standby current blocking effect is reduced in manufacturing cost There is.

Hereinafter, a charger equipped with a standby current cutoff switch according to the present invention will be described with reference to the accompanying drawings.

1 is a diagram illustrating a charger equipped with a standby current cutoff switch and a terminal connected to the charger according to the present invention.

In FIG. 1, the charger with the standby current cut-off switch according to the present invention includes a power plug 1, a charger body 2 provided with a power plug 1, a cord 3, and a terminal connection part 4 connected to a cord. ).

The terminal connecting portion 4 includes a terminal connecting terminal portion 4a and a push switch 4b which is installed adjacent to the terminal connecting terminal portion, and the push switch 4b is the bottom portion 20b of the terminal 20. It is operated by being pressed by.

Looking at the internal configuration of the terminal connecting portion 4, the terminal connecting portion 4 is formed with a switch mounting groove 4e of a predetermined depth, the compression spring (4c) is built in the switch mounting groove (4e) built-in push When the terminal 4 is not connected, the switch 4b protrudes to the outside of the main body of the terminal by a predetermined length. 4 d of electrode terminal parts protrude in the switch mounting groove 4e.

When connecting the terminal to the charger in order to charge the terminal 20, the terminal connecting portion 3 is connected to the charging inserting portion 20a of the bottom surface of the terminal. At this time, the terminal connecting terminal portion 4a of the terminal connecting portion 4 is inserted into and connected to the charging inserting portion 20a of the terminal, and at the same time, the bottom portion 20b of the terminal 20 is push switch 4b of the terminal connecting portion 4b. Will be pressed. As a result, the push switch 4b is inserted into the switch mounting groove 4e, and both upper and lower ends of the push switch 4b are in contact with the electrode terminal portion 4d. As a result, the charger is in a charged state, and the 220V input power is converted and output from the charger into 4.2V DC power to charge the battery (not shown) of the terminal 20.

FIG. 2 is a diagram illustrating a power relationship when the charger and the terminal are coupled and released, and the charger is in an ON state when the terminal and the charger are connected as described above, and is idle when the connection is released. You are in a state.

In the present embodiment, a terminal dedicated charger is shown, and the terminal may include various portable digital terminals using the charger as shown in the drawings of a mobile phone, a PDA, and an MP3 player. In addition, the charger shown in the drawings is shown as an embodiment of the present invention, the spirit of the present invention is not limited to the shape of such a charger, it is also equipped with a charger for charging various power tools and other electrical appliances standby It can have a current blocking effect. The circuit structure thereof will be described below with reference to the drawings.

3 is a diagram illustrating an embodiment of an internal circuit structure of a charger equipped with the standby current disconnect switch of FIG. 1.

In FIG. 3, the charger converts AC 220V single-phase power through a transformer to output 4.2V DC power through a bridge rectifier circuit and a standby current cutoff branched from the AC 220V single-phase power input terminal adjacent to the charging terminal. It includes a push button switch for. As described above with reference to FIG. 1, when the terminal is connected, the push button switch unit is connected to operate the charger. When the terminal is disconnected, the push button switch unit is opened and the charger does not operate.

The charger with the standby current disconnect switch of this structure can be applied to various chargers for charging other electric devices. 3 and the description thereof correspond to an embodiment of the present invention. Since the magnitude of the voltage in such a structure is not limited to the 220V input and the 4.2V output, it may be applicable to various input / output voltages and chargers of various capacities.

4 is a diagram illustrating another embodiment of an internal circuit structure of a charger equipped with the standby current disconnect switch of FIG. 1.

4 illustrates a circuit structure in which a bridge rectifying circuit is first provided on the primary side to perform a rectifying function, and then transforms and outputs a DC rectified power source. In FIG. 4, the push button switch is branched between the bridge rectifier circuit and the AC 220V single phase power input terminal. The operation method of blocking the standby current is similar to that of FIG. 3, but may be applied to a different charger having a charger structure different from that of FIG. 3. For example, the charger with the standby current cutoff switch of FIG. 4 may be applied to a charger of a general electric device instead of the terminal charger.

The preferred embodiments of the present invention have been shown and described above, but the present invention is not limited to the above-described specific preferred embodiments, and the present invention may be generally made without departing from the spirit of the invention as claimed in the claims. It is obvious that any person skilled in the art can make various modifications and such changes are within the scope of the claims.

1 is a diagram illustrating a charger and a terminal connected to the charger is provided with a standby current disconnect switch according to the present invention;

2 is a diagram illustrating a power relationship when connecting and disconnecting a charger and a mobile phone;

3 illustrates an embodiment of an internal circuit of a charger equipped with the standby current disconnect switch of FIG. 1;

FIG. 4 is a diagram illustrating another embodiment of an internal circuit of the charger equipped with the standby current disconnect switch of FIG. 1.

* Description of the symbols for the main parts of the drawings *

1: power plug

2: charger body

3: code

4: terminal connection

4a: terminal connection terminal

4b: push switch

4c: inner spring

4d: electrode terminal portion

4e: switch mounting groove

20: terminal

20a: terminal charging insert

20b: terminal bottom

Claims (4)

In the charger comprising a terminal connection portion connected to the cord and the charger body having a power plug, The terminal connection unit is a terminal connection terminal unit provided at one end of the terminal connection unit; An electrode terminal unit inside the terminal connection unit; A spring provided inside the terminal connection unit; And And a push switch protruding out of the terminal connection portion by the spring. The method of claim 1, When the terminal connection unit is connected to the terminal, The push switch is pressed by a part of the terminal to be inserted into the terminal connection part, and is in contact with the electrode terminal part inside the terminal connection part to perform charging; When the terminal connection unit and the terminal is disconnected, The push switch protrudes out of the terminal connecting portion by the spring inside the terminal connecting portion, the contact with the push switch and the electrode terminal portion is released, the charger with a standby current blocking switch is stopped. The method of claim 2, The charger, The charger having a standby current cut-off switch further comprises a power supply transformer provided on the input power side, a bridge rectifier circuit provided on the output power side. The method of claim 2, The charger, The charger with a standby current cut-off switch further comprises a bridge rectifier circuit provided on the input power supply side, a power transformer unit provided on the output power supply side.

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