KR200205574Y1 - Uncontact charging type remote controller - Google Patents

Abstract

The present invention relates to a contactless rechargeable remote controller, and the conventional remote controller has a problem in that the cost is increased and the environmental pollution caused by the non-collection of the waste battery by periodically replacing the battery. In view of the above problems, the present invention is applied to a DC block for receiving commercial AC power and converting it into a DC power supply having a predetermined voltage value, and a switch for periodically applying and controlling the DC voltage of the DC block to the next stage by receiving a clock signal. A charger set including a primary coil receiving a periodic DC voltage through the switch unit and forming a magnetic flux corresponding to the voltage value; A secondary coil which is insulated from the primary coil and generates an AC voltage corresponding to a part of the magnetic flux generated by the primary coil, and a rectifying unit converting the AC voltage generated from the secondary coil into a DC voltage; And a charging unit for charging the rechargeable battery by receiving the DC voltage of the rectifying unit, and an electronic circuit block for converting the keypad input of the user into an electrical signal and outputting the LED by receiving the voltage charged in the rechargeable battery. It is composed of a remote controller, which eliminates the need for battery replacement, reducing costs and preventing environmental pollution caused by waste batteries.

Description

Contactless rechargeable remote controller {UNCONTACT CHARGING TYPE REMOTE CONTROLLER}

The present invention relates to a contactless rechargeable remote controller, and more particularly to a remote controller that can be used permanently without replacing the battery.

The conventional remote controller uses a battery, the life of the battery is limited, the need for regular replacement of the battery, the problem of disposal of waste batteries with the generation of costs, such a conventional remote controller attached When described in detail with reference to the drawings as follows.

1 is a block diagram of a conventional remote controller. As shown in FIG. 1, the electronic circuit of the remote controller is connected to the negative and positive electrodes of the battery 1, respectively, to ground and ground voltages GND and power supply voltage VCC, respectively. And a ground voltage terminal 3 and a power supply voltage terminal 4 for applying to the block 2.

Hereinafter, the operation of the remote controller as described above will be described.

First, the battery 1 used for the remote controller uses a 3V battery by connecting a 1.5V or 1.5V battery in series according to the purpose of the remote controller.

The battery 1 is insertable, opens the cover 5 of the battery loading space formed in a part of the remote controller, inserts the battery 1, and then closes the cover 5 and uses it. As such, the cover 5 is detachable from the remote controller, and the cover 5 of the battery loading space may be damaged or lost due to frequent battery replacement or children's mischief, and the cover 5 may be damaged due to long use. Since the battery is not easily opened and the battery 1 is not fixed, the remote controller does not operate because power is not applied to the power supply voltage terminal 4 and the ground voltage terminal 3 due to a poor contact of the battery 1.

When the battery 1 is inserted and the cover 5 is closed, and the keypad of the remote controller is operated, the electronic circuit block of the remote controller supplied with the power voltage VCC and the ground voltage GND from the battery 1 2) receives the user's command through the built-in circuit and outputs the output corresponding to the command through the LED (6), thereby controlling electronic products such as television.

When the battery 1 is used in this manner, since the battery 1 has a certain lifetime, replacement is necessary periodically. In addition to economic loss, environmental pollution is caused by uncollected waste batteries, which is a problem in the treatment method.

In addition, both ends of the battery loading space into which the battery 1 is inserted are formed of a metal plate, and in order to fix the battery 1 at the positive electrode or the negative electrode, a metal plate spaced apart from the battery loading space by a predetermined distance or on the negative electrode side. One side is fixed by using a spring, but the number of replacements of the battery (1) increases and when used for a long time, the contact between the battery and the metal plate occurs, the remote controller does not operate properly, the battery occurs If the electrolyte leaks from the metal plate is contaminated may cause poor contact.

As described above, the conventional remote controller needs to be replaced regularly by using a battery having a limited lifespan, resulting in economical loss and environmental pollution problems caused by uncollected waste batteries. As a result of poor electrical contact between the battery and the metal plates connected to both ends of the battery, there was a problem that the remote controller cannot be used.

It is an object of the present invention to provide a contactless rechargeable remote controller that can be used semi-permanently without replacing the battery using a rechargeable battery and using a contactless charging method.

1 is a block diagram of a conventional remote controller.

Figure 2 is a block diagram of the present invention contactless rechargeable remote controller.

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

10: Charger set 11: DC block

12: switch unit 13: primary winding

20: Remote controller 21: 2nd winding

22: rectifying part 23: charging part

24: Rechargeable battery 25: Electronic circuit block

The above problems include a DC block for receiving a commercial AC power and converting it into a DC power source having a predetermined voltage value, a switch unit for periodically applying and controlling a DC voltage of the DC block to a next stage by receiving a clock signal; A charger set including a primary coil receiving a periodic DC voltage through the switch unit and forming a magnetic flux corresponding to the voltage value; A secondary coil which is insulated from the primary coil and generates an AC voltage corresponding to a part of the magnetic flux generated by the primary coil, and a rectifying unit converting the AC voltage generated from the secondary coil into a DC voltage; A charging unit for charging the rechargeable battery by receiving the DC voltage of the rectifier, and an electronic circuit block for converting the keypad input of the user into an electrical signal and outputs through the LED (6) by receiving the voltage charged in the rechargeable battery It is achieved by configuring a remote controller including a, described in detail with reference to the accompanying drawings, the present invention as follows.

FIG. 2 is a block diagram of a solid-state rechargeable remote controller according to the present invention. As shown in FIG. 2, a DC block 11 for converting a DC block 11 into a DC power source having a predetermined voltage value by receiving a commercial AC power and a clock signal The switch unit 12 for applying and controlling the DC voltage of the DC block 11 to the next stage according to the input, and the primary to receive the AC voltage of the switch unit 12 to form a magnetic flux corresponding to the voltage value A charger set 10 including a coil 13; The secondary coil 21 which generates an AC voltage corresponding to a part of the magnetic flux generated through the primary coil 13 in contact with the charger set 10, and the AC voltage generated from the secondary coil 21 A rectifying unit 22 for converting the DC voltage into a DC voltage, a charging unit 23 for applying the DC voltage of the rectifying unit 22 to the rechargeable battery 24, and a voltage charged in the rechargeable battery 24. It is composed of a remote controller 20 including an electronic circuit block 25 for receiving and converting the keypad input of the user into an electrical signal and output through the LED (26).

Hereinafter, the present invention as described above will be described in more detail.

First, the operating principle of the present invention is to focus on the primary side and the secondary side of the transformer is electrically insulated charger set 10 and the remote controller (including the primary coil 13 and secondary coil 21, respectively) There is no space for inserting the battery in the exterior of 20), and the exterior of the charger set 10 and the remote controller 20 is used as a means to insulate the primary coil 13 and the secondary coil 21. .

Accordingly, it is not necessary to install the cover for inserting the battery as in the prior art, it is possible to solve the problem caused by the use of the cover. That is, it is possible to prevent the problem of poor contact of the battery due to the damage or loss of the cover.

As described above, the primary coil 13 of the charger set 10 and the secondary coil of the remote controller 20 are separated by a predetermined distance, and the charger set 10 and the remote controller ( 20).

In this state, the commercial AC power applied to the charger set 10 has its voltage value adjusted to an appropriate magnitude, which is converted into a DC voltage through a smoothing means. This operation is performed by the operation of the DC block 11 described above.

Then, a current is periodically applied to the primary coil 13 by an operation of the switch unit 12 which causes the output voltage of the DC block 11 to flow at a specific cycle by an on / off operation of a switch receiving a clock signal. By flowing, magnetic flux is generated.

Next, an AC voltage is generated in the secondary winding 21 by the generated magnetic flux, and the AC voltage is changed into a DC voltage by the operation of the rectifying unit 22 converting it to a DC voltage.

Then, the DC voltage is charged in the charging unit 23 which is a capacitor connected in series with the rechargeable battery 24, and the voltage charged in the charging unit 23 is charged in the rechargeable battery 24 as it is.

Next, the electronic circuit block 25 receiving the voltage charged in the rechargeable battery 24 determines that the user issues a specific command using the keypad, and determines a specific operation to the electronic device through the LED 26. It sends a signal to control.

As such, the present invention uses a non-contact method of charging the rechargeable battery 24, so that contact failure occurs at a portion where the positive and negative terminals of the rechargeable battery 24 are connected to the electronic circuit block 25. This can be prevented, and can be used semi-permanently using the rechargeable battery 24.

As described above, the present invention uses a contactless charging method to prevent contact failure from occurring at both terminals of the battery, and also does not use an insertion cover for inserting the battery from the outside, thereby preventing loss or damage of the cover. It is effective to prevent the detachment and poor contact of the battery by the improved reliability. In addition, since the internal circuit of the remote controller is completely cut off from the outside, it has the effect of compensating for the disadvantages of the remote controller, which is weak in water. It is effective to prevent.

Claims (1)

A DC block receiving commercial AC power and converting it into a DC power source having a predetermined voltage value, a switch unit receiving a clock signal and periodically applying and controlling the DC voltage of the DC block to the next stage, and a cycle through the switch unit A charger set having a primary coil configured to receive a direct DC voltage and form a magnetic flux corresponding to the voltage value; A secondary coil which is insulated from the primary coil and generates an AC voltage corresponding to a part of the magnetic flux generated by the primary coil, and a rectifying unit converting the AC voltage generated from the secondary coil into a DC voltage; And a charging unit for charging the rechargeable battery by receiving the DC voltage of the rectifying unit, and an electronic circuit block for converting the keypad input of the user into an electrical signal and outputting the LED by receiving the voltage charged in the rechargeable battery. Solid-state rechargeable remote controller, characterized in that configured as a remote controller.