KR890001719Y1 - Remote control - Google Patents

Abstract

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Description

Rechargeable Wireless Remote Controller

1 is a perspective view of a remote control box to which the present invention is applied.

2 is an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: Remote control box 2, 2 ': diaphragm

3, 3 ': Compartment 4: Plug changeover switch

4 ': Knob 5: Remote control box front panel

5 ': Remote control box rear plate 6: Cathode iron piece

7: anode iron sheet 8: cover

9: IC for remote control 10: main power supply unit

11 initial power supply 12 socket

Q ₁ , Q ₂ : Transistor LD: Light Emitting Diode

ZD: Zener Diodes R ₁ , R ₂ : Resistance

L: Relay drive coil SW: Relay switch

T: trance

The present invention relates to a rechargeable remote controller with a super condenser.

Conventional wireless remote control uses a battery to replace the need for an independent power source.

Therefore, it was not possible to know the inconvenience, the economic burden, and the consumption of the battery that need to be replaced by the user.

In addition, the conventional charger did not know whether the charge is completed when the charge to the capacitor, and the inconvenience of having to charge for several hours to charge once, and even if the charge is completed, there is no auto-off circuit Continued supply of power to the power supply impeded the charging capacitor and the resulting control circuitry.

Therefore, the present invention allows the charging circuit to be turned off automatically when the charging is completed and the charging status can be known, and the charging speed is fast and the charging capacity is high, but the bulky capacitor is used to quote it to the wireless remote controller. The wireless remote control can be used permanently.

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

As shown in FIG. 1, the plug changeover switch 4 is built into the compartment 3 formed in the diaphragm 2 on one inner surface of the remote control box 1 so that the plug 12 can be connected to the plug 12 during charging. In addition, the compartment (3 ') formed in the diaphragm (2') has a built-in supercapacitor (not shown) for charging is configured to charge the power from the charging circuit unit 13, the front of the remote control box (1) The cathode iron piece 6 is attached to the plate 5 and the anode iron piece 7 is attached to the back plate 5 ', and the power line connected to the cathode and anode pieces 6 and 7 is connected to the PCB substrate ( (Not shown) by attaching the cover switch 8 to the remote control box 1 so as to connect the plug changeover switch 4 and the groove 4 to the right so that the knob 4 'of the plug changeover switch can be moved left and right. will be.

Subsequently, the circuit configuration shown in FIG. 2, that is, the configuration in which the super capacitor is charged, connects the transformer T to the input power source AC, the initial supply power source 11, the remote control IC 9 and the transistor Q ₁ . And a relay switch (SW) for driving the relay driving coil (L), the main power supply 10 is connected to both ends of the input power (AC), the resistance (R ₁ ) (R ₂ ) to the connection point (A) And a socket 12 capable of connecting the plug changeover switch 4 to the charging circuit unit 13 interconnected by the zener diode ZD, the light emitting diode LD, and the transistor Q ₂ .

When explaining the effect of the present invention according to the configuration as described above, the input AC power (AC) is input to the initial supply power supply 11 through the transformer (T) is converted into a current suitable for the charging voltage, such a rated current (DC ) Is input to the remote controller IC 9 via the connection point A, and the input power supply DC is energized by applying a voltage to the base of the transistor Q ₁ by the remote controller IC 9. Current flows in the and emitters.

Accordingly, as the DC power of the connection point A is applied to the relay driving coil L, the relay switch SW is turned on so that the input power AC supplies power to the main supply power source 10.

At this time, when the plug 4 is connected to the socket 14 by pushing the knob 4 'of the plug changeover switch 4 built in the remote control box 1 to charge the charging capacitor, the power supply (DC) of the connection point A ) Flows to the connection point (B).

In other words, when the super capacitor is not charged, the potential of the connection point B is low, so the power supply DC of the connection point A does not flow to the zener diode ZD and the resistors R ₁ (R ₂ ) and the light emitting diodes ( Since it is applied to the base of transistor Q ₂ through LD, it is turned on, current flows to its collector and emitter, and is applied to the connection point B, and the light emitting diode LD is turned on. The current is determined by the value of the resistor R ₁ .

In addition, if the charging speed is 10-20 mA based on the value of the resistor R ₁ , the supercapacitor of 0.1-1 (F) is charged within 1 minute.

Therefore, as the super capacitor charges, the potential of the connection point B gradually increases, and as the current flowing through the collector and emitter of the transistor Q ₂ decreases, the brightness of the light emitting diode LD also decreases.

At this time, when the charging voltage of the super capacitor reaches the set voltage, the potential of the connection point B reaches the highest point, so the power supply DC does not flow between the collector and the base and flows to the zener diode ZD, so that the light emitting diode LD And transistor Q ₂ are turned off.

As such, the high potential of the connection point A is charged by the transistor Q ₂ as the current flows to the connection B as the transistor Q ₂ conducts, and the light emitting diode LD is charged by emitting light due to the charged voltage. If the state is known and the super capacitor is fully charged, the transistor Q ₂ is turned off and the light emitting diode LD is also turned off, indicating that the charging is completed.

The present invention as described above has the advantage that can be used semi-permanently because the charging speed is fast and does not require a battery is also economical effect.

Claims (1)

A control circuit formed of a transformer (T) and an initial supply power supply unit (11) on the input power source (AC) and composed of a relay switch (SW) in the remote control IC (9), the transistor (Q ₁ ), and the driving relay coil (L). The plug switching switch 4 is formed by forming a charging circuit portion 13 interconnected by a resistor R ₁ (R ₂ ), a zener diode (ZD), a light emitting diode (LD), and a transistor (Q ₂ ). A rechargeable wireless remote controller configured to supply power to control the remote control circuit by connecting to the socket 12 to charge the super condenser.