SU1741233A1 - Vice for control over source of light - Google Patents

Abstract

Summary of the Invention: when the pushbutton switch 8 is short-circuited, capacitor 2 is charged, the triac 4 is unlocked, and the device operates in self-holding mode. When the pushbutton switch 9 is closed, the capacitor is discharged and the device disconnects the light source 1 from the mains. 1 il.

Description

The invention relates to electrical engineering and is intended for remote control of the lighting load, for example, incandescent lamps and its protection from self-starting, and can be used in various electrical installations of municipal, household and industrial purposes.

A device for controlling a light source is known, comprising a triac, through which the light source terminals, a choke connecting the control triac electrode with the cathode, and control buttons are connected to the power terminals. The known device consumes significant reactive power and does not provide reliable operation in controlling the lighting load from several places.

The closest to the proposed is a device for controlling a light source, comprising first and second output terminals for connecting via a load terminal to an electrical network terminal, and a diode, the anode of which is connected to the first terminals

a resistor and a capacitor, and the cathode is used as the first output terminal and connected to the anode of the Zener diode, the cathode of which is connected to the first output of the key element, the second output of the capacitor and the cathode of the triac, the anode of which is used as the second output terminal, and connected to the first output of the push-button switch, the second terminal of which is connected to the triac control electrode through a second resistor.

The known device is made according to a complex scheme and does not allow remote control of the light source from several places.

The purpose of the invention is to simplify the design and expand the functionality.

The drawing shows a diagram of the proposed device.

The device contains a light source 1, for example, an incandescent lamp, a thyristor (triac), the anode of which is connected to one load terminal, the control electrode of which is connected via a resistor to one

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the leads of capacitor 2 and diode 3. The second lead of capacitor 2 is connected to the cathodes of triac 4 and zener diode (diode) 5, through which the light source 1 connected in series of triac 1 is connected to terminals 6.7 to connect the electrical network. Parallel to the triac 4, a push-button switch 8 is connected, and parallel to diode 5, a key element 9, made in the form of an additional push-button switch. The pins of a 10-button switch can also be made open, as shown by the dotted line. The pushbutton switches 8 and 9 can be connected in parallel as many other pushbutton switches installed at different points in the room.

The device works as follows.

When mains voltage is applied, triac 4 is locked and light source 1 is turned off. When the pushbutton switch 8 is closed, the light source 1. contacts, the capacitor 2 and the cathode – control electrode of the triac connected through resistor 11 and the diode 3 connected in parallel with the resistor 11 flow through the network voltage at terminals 6.7 and the light source is turned on 1. At the same time, under the action of the voltage on the charging capacitor 2 each period, a current flowing through the control electrode-cathode of the triac 4 passes through the resistor 11, which causes the triac 4 to remain open. lyuchatel 8. In order to open the triac was retained, when the value of the AC voltage passes through zero network through simisto- ra control circuit current must flow. This is achieved by discharging the capacitor 2 through the resistor 11 to the transition of the cathode control electrode of the triac during the pauses between the voltage pulses of the network. When the mains voltage passes through zero, the triac is held across the control circuit in the open position. Since triac 4 is open, light source 1 is turned on. Diode 5 serves to flow a reverse polarity through light source 1, as a result of which an alternating current flows through the electrical installation.

The triac is locked and the light source is disconnected by shunting the series-connected capacitor 2 and diode 3 with the pushbutton switch 8 or 12. At the same time, the capacitor 2 is not recharged, but only discharged through the resistor 11 to the triac control circuit. As a result, the triac 4 is locked. The light source can also be shut off by opening the triac power supply using the pushbutton switch contacts 10. When the supply voltage disappears, the triac is locked, the capacitor 2 is discharged, and when the supply voltage on the terminals 6.7 appears again, the triac remains locked and the light source is off, i.e. The device protects the light source from self-switching.

The device is characterized by simplicity of the circuit, a wide range of switching power and reliability of operation, which ensures its application to control and protect various lighting electrical installations.

Claims (1)

Invention Formula A device for controlling a light source, containing the first and second output terminals for connecting the light source to the terminals of the electrical network through the terminals, and a diode whose anode is connected to the first terminals of a resistor and a capacitor, and the cathode is used as the first output terminal and connected to the anode a zener diode, the cathode of which is connected to the first output of the key element, the second output of the capacitor and the cathode of the triac, the anode of which is used as the second output terminal and connected to the first output A pushbutton house, characterized in that in order to simplify the design and extend the functionality, the second lead of the key element is connected to the cathode of the diode, and the second lead of the pushbutton switch is connected to the cathode of the thyristor, the control electrode of which is connected to the second lead of the resistor, and the key element is made in the form of an additional push-button switch. 7 BUT  one . I I ) one I i i I -I