KR810000535Y1 - Automatic voltage switching circuit - Google Patents

Abstract

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Description

Voltage automatic changer

The accompanying drawings are circuit diagrams for explaining the present invention.

The present invention relates to an automatic voltage changer, and more particularly, to an improved design of the applicant's prior application publication No. 79-1323.

That is, in the previous application No. 79-1323, a separate transformer had to be used to obtain a power source for operating the relay, which resulted in lack of economical efficiency in the production process, which caused the unit price to rise. It was to eliminate what was there.

In order to achieve the object of the present invention as described above, the main tap is driven out of the coil of the detection relay to drive the main relay, and the delay circuit of the main relay is constituted by a transistor delay circuit in a delay circuit having a short time constant. To reduce the volume and power consumption, and to solve the spark noise by parallel connection of the surge voltage damping device in parallel with the light contact and the fixed contact of the main relay. As follows.

A high-impedance detection relay RL ₁ is connected between the power input terminals L ₁ and L ₂ , and the terminal drawn out to the middle tap 9 of the detection relay RL ₁ is connected to the transistor TR through a diode D. ), The iso-contact point 2 of the relay RL ₁ triggers the base of the transistor TR through the resistor R ₁ , and the main relay between the emitter and the terminal R ₂ . (RL ₂ ) is connected in series. Also, the movable contact 5 of the main relay RL ₂ is connected to the power input terminal L ₁ , the fixed terminal 4 is connected to the primary winding of the transformer T, and the fixed contact 6 is connected to the transformer T. It is connected to the middle tap of the primary winding, but the surge voltage absorbing elements (TNR ₁ , TNR ₂ ) are respectively connected in parallel between the movable contact (5) and the fixed contact (4) (6). In the figure, C ₁ is a DC voltage smoothing capacitor rectified by the diode D, C ₂ is a large capacitor for preventing spark discharge, and 7 and 8 are output terminals of the secondary winding of the transformer (T).

Therefore, when the primary tip winding of the transformer (T) is set to 220 volts, there is a potential difference of 110 volts between the middle tab and both ends of the primary winding.

Referring to the operation and effects of the present invention having the above configuration as follows.

That is, a voltage of 220 volts between the power input terminals L ₁ and L ₂ , assuming that a 100 volt home appliance, for example, a radio receiver is connected between the secondary winding stages 7 and 8 of the transformer T. When this is applied, as shown in the drawing, the detection relay RL ₁ is intended so that the movable contact 2 of the detection relay RL ₁ contacts the fixed contact 3, so that the base of the transistor TR is biased and the transistor TR ) Is off and the main relay RL ₂ is not operated so that the light contact 5 of the relay RL ₂ remains in contact with the fixed contact 4. Therefore, a voltage of 220 volts is applied between both ends of the primary winding of the transformer (T), and a voltage of 100 volts is generated between both ends (7) (8) of the secondary winding wound by half of the primary winding. It will be able to drive bolt appliances.

On the other hand, in the case where a voltage of 100-110 volts is applied between the power input terminals L ₁ and L ₂ , the impedance of the relay contact RL ₁ is high and the suction of the temporary contact 2 is not possible. What was received is opened. Therefore, since the base of the transistor TR is triggered by the resistor R ₂ , the transistor TR is turned on and the voltage drawn from the middle tap 9 of the relay RL ₁ is rectified based on the diode D. The relay RL ₂ will be tried. In this way, when the relay RL ₂ is intended, the movable contact 5 is separated from the fixed contact 4 and this time is contacted with the fixed contact 6, so that the input terminal L ₁ is connected to the intermediate tap of the transformer T. A voltage of 100-110 volts is induced between both ends (7) and (8) of the secondary winding as the capacitor (C ₂ ) prevents spark discharge between the movable contact (2) and the fixed contact (3). At the same time, the spark discharge and spike noise between the movable contact 5 and the fixed contact 4 and 6 of the relay RL ₂ due to the surge voltage absorbing elements TNR ₁ and TNR ₂ eliminates any noise in the home appliance. There is no occurrence.

Therefore, when 220 volts are applied between the power input terminals L ₁ and L ₂ again, as described above, the base of the transistor TR is biased to be turned off, so that the relay RL ₂ is not intended to operate. ) Is switched from the stationary contact 6 to the stationary contact 4 so that no voltage change occurs between the ends 7 and 8 of the secondary winding.

Therefore, the present invention has the effect of miniaturization, cost reduction and work efficiency compared to the conventional apparatus.

Claims (1)

As described above and illustrated, a diode D is connected between the middle tab 9 of the detection relay RL ₁ and the collector of the transistor TR, and a main is formed between the emitter and the input terminal L ₂ of the transistor TR. the relay (RL ₂₎ for connection, but the movable contact 5 and the fixed contact 4 surge absorption element between _{(6) (TNR 1, TNR} 2) of the relay (RL ₂₎ is connected in parallel with the relay (RL ₁₎ And the movable contact (2) is connected to the base of the transistor (TR) via a resistor (R ₁ ) to form a delay circuit.