CS256799B1 - Three-state echodolate automat - Google Patents

Abstract

It is called a digital automaton signaling by decreasing the illumination that the light is about to be turned off. An unstable switch and the input circuit of a current sensor are connected in series with the bulb. In parallel to the series combination of this unstable switch and the input circuit of the sensor, a triac and a power supply are connected, which are connected to the first and second switching flip-flop circuits, the inputs of which are connected to the output circuit of the current sensor and the outputs to the control electrode of the triac. The power supply is formed by a series combination of a resistor, a capacitor and two Zener diodes, connected by cathodes or anodes. Their unconnected electrodes, i.e. anodes or cathodes, are connected to the switching flip-flop circuits.

Description

The invention relates to a three-state staircase machine whose third state, in which the light intensity of the bulbs decreases, signals that the light is approaching turning off.

The known connections of staircase machines are two-state, where one state is off and the other one is on. The disadvantage of these vending machines is that the user is not alerted to the imminent switching off of the light and this sometimes creates problems with switching on the lighting and thus increases the risk of injury when moving on an unlit staircase.

In addition, there are wiring alerts that indicate the impending illumination of the lighting by introducing a third state of dimmed illumination.

Other known wiring draws attention to the imminent switching off of light by continuously dimming the illumination. However, their disadvantage is the complexity of the control circuits and the necessity of using filter circuits.

The above-mentioned disadvantages are overcome by the three-state staircase automat according to the invention, which is connected to the circuit of a bulb and an unstable switch and consists of a triac, switching flip-flops and a power supply. Its essence is that the input circuit of the current sensor is connected in series with a bulb and an unstable switch. A triac and power supply are connected in parallel to the serial combination of the unstable switch and the current sensor input circuit. This power supply is connected to the first and second switching flip-flop, the outputs of which are 256799

- 2 ny with triac control electrode. The inputs of the switching flip-flops are connected to the output circuit of the current sensor. Capacitors are connected at the input of the first and second switching flip-flops.

Preferably, the power supply is a series combination of a resistor, a capacitor, and two Zener diodes connected by anodes or cathodes. The unconnected electrodes of these Zener diodes, i.e. the cathode or the anode, are connected to the first and second switching flip-flops.

The main advantage of this three-state staircase automat according to the invention is that this wiring signaling the approaching switching off of the light by decreasing the brightness of the illumination, which enables easy re-switching of the illumination. Another advantage of this machine is that it contains no mechanical parts and is fully electronic. In addition, the triac used does not need to be sized for the high incandescent lamp currents, since these are wired when the filament filaments are heated and have a relatively high resistance. It is also advantageous that the wiring does not have to include anti-interference filters, since the triac switching on occurs at approximately zero line voltage.

. An example of a three-state staircase automat according to the invention is schematically shown in Fig. 1. Fig. 2 shows the connection of a power supply for triac switching circuits.

The circuit consists of a circuit of a bulb 2 ^{and an} unstable switch 6, a current sensor 4, which in this case consists of a current transformer, a triac 2, a first and a second switching flip-flop 8 and 9 and a power supply 10. and a first terminal 1 between which and a third terminal 2 an unstable switch 6 is connected. This unstable switch 6 is further connected via the input circuit of the current sensor 4, in this case through the primary circuit of the current transformer, to the second terminal 2 connected to the network. A triac 7 and a power supply 10 are connected in parallel to the first terminal 1 and the second terminal 2. This power supply 10 is connected to the first switching flap256799

3 with a second switching flip-flop 9, which may consist, for example, of Schmidt flip-flops. At the input of each of the two switching flip-flops 8 and 2 are input capacitors which are connected via diodes to the output circuit of the current sensor 4, in this case the secondary winding of the current transformer. These input capacitors and diodes are not shown in the diagram. The current sensor 4, which is intended to charge the input capacitors of the first and second switching flip-flops 8 and can be formed in another way, for example as photoelectric. ’

The power supply 10 itself consists of a series combination of resistor 11, capacitors 12 and first and second Zener diodes 13 and 14, which are connected to each other by cathodes or anodes. Unconnected electrodes of these Zener diodes 15 and 14, i.e., anodes or cathodes, are connected to the first and second switching flip-flops in circuits 8 and 2, respectively.

The above-described three-state staircase automat works as follows. Pressing the unstable switch 6 causes current to pass through the bulb 2 ^and through the primary winding of the transformer, which here forms the input circuit of the current sensor 6. The bulb 5 lights up and its resistance increases ee. At the same time, a voltage is induced on the secondary winding of the current transformer forming the output circuit of the current sensor 6, which causes the input capacitors of the first and the second to be charged. The release of the unstable circuit breaker 6 causes the current sensor 6 to be disconnected, that is to say in this case the current transformer and the triac connection wires in both directions as long as the input capacitors of both switching flip-flops 8 are not discharged. Discharge times are determined by the capacitance of these input capacitors and the resistance of the discharge circuits and vary by about 10 to 15 seconds. As a result, the triac 7 leads in this direction in only one direction, causing a sudden decrease in the illumination intensity of the lamp 2 »

This indicates that the light is coming off. Further pressing of the unstable switch 6 causes further charging of the input capacitors of the first and second switching flip-flops 8 and 9 and repeating the entire described duty cycle.

Claims (2)

SUBJECT OF THE INVENTION 1. A three-state staircase circuit-breaker and an unstable circuit breaker comprising a triac, switching flip-flops and a power supply, characterized in that the input circuit of the current sensor (4) is connected in series with the bulb (5) and the unstable switch (6). , in parallel to the series combination of the unstable switch (6) and the input circuit of the current sensor (4), a triac (7) and a power supply (10) connected to the first and second switching flip-flops (8 and 9) are connected; are connected to the triac control electrode (7) and the inputs are connected to the output circuit of the current sensor (4), with capacitors connected at the input of the first and second switching flip-flops (8 and 9); 2. A three-stage staircase machine according to claim 1, wherein the power supply is a series combination of a resistor, a capacitor, and two Zener diodes connected with cathodes or anodes, with unconnected electrodes. These zener diodes (13, 14), i.e. anodes or cathodes, are connected to the first and second switching flip-flops (8 and 9).