CS250293B1 - Connection of three-state staircase automat - Google Patents

Abstract

The connection of a three-state staircase automat is intended for automatic switching off of lighting in corridors and other rooms. The three-state staircase automat has a state that signals the approaching switching off of lighting. It is composed of a time relay (KT) with a delay when switching off, the closing contact of which (1KT) is bridged by a thyristor (VS).

Description

The invention relates to the connection of a staircase machine having an additional condition in which the light of the bulbs shines noticeably less, indicating the approaching switch-off of the light.

The current known circuitry of staircase automation circuits has two states: on state and off state. The disadvantage is that the user is not notified of the impending light switch-off, which sometimes makes it difficult to turn the lights back on. Other known wiring draws attention to the approaching shutdown by dimming the lighting. The disadvantage is the complexity of these wiring and the necessity to use relatively large heatsinks at higher power of installed bulbs and control by electronic element.

The above mentioned drawbacks are eliminated by the wiring of the three-state staircase automat according to the invention. It is based on the fact that the switching contact of the timing relay is bridged by a thyristor whose control electrode is connected via a first resistor and a first capacitor to the thyristor cathode.

According to a further embodiment of the invention, the thyristor control electrode is connected to a common point of the second resistor and the transistor emitter whose collector is connected to a common point of the second capacitor and the cathode of the Zener diode, the anode of which is connected to the thyristor cathode. an thyristor anode, the base of the transistor is connected via a first resistor and a first capacitor to a thyristor cathode, which is also connected to a second terminal of the second resistor.

The basic advantage of the circuitry according to the invention is that the staircase controller includes a circuit that provides signaling of the approaching switching off of the light by reducing the brightness of the illumination, which makes it easy to switch the illumination back on. Another advantage of the wiring is that this additional circuit is simple and the power electronic element used does not require large heatsinks even with a large number of light bulbs, since it is loaded only for a short time.

The circuit according to the invention is explained in more detail below with reference to the accompanying drawing, in which Fig. 1 shows the basic circuit and Fig. 2 shows the variant of the circuit with longer intervals of the third state.

As shown in FIG. 1, the circuit is comprised of a time relay KT that trips with a delay, a thyristor VS, a capacitor C1 and a limiting resistor R1. The coil of the KT timing relay is connected in parallel to the powered EL lamps. The normally open contact 1KT of this relay is bridged by the SB button and also by the VS thyristor. The capacitor C1 is connected in parallel to the timing relay KT via a 2KT make contact.

Pressing the SB button turns on the light and turns on the KT timing relay. The 1KT contact will hold this state for the time set by the timer circuit. Contact 2KT connects capacitor C1 to the stabilized DC voltage circuit and charges to a certain value. After the selected time, the time relay KT switches off. Contact 1KT disconnects the lamps from the mains. The changeover contact 2KT energizes the charged capacitor C1 to the thyristor control electrode VS via a resistor R1. This causes the VS thyristor to be switched on while the capacitor C1 is discharging. At this time, light bulbs shine less brightness because they are powered by a single pulse rectified voltage. After the capacitor C1 is discharged, the thyristor VS closes and the light goes out.

FIG. 2 shows a circuit that allows to obtain longer intervals of the third state at a low capacitance of capacitor C1. The capacitor C1 is connected via resistor R1 to the base of transistor VT. The emitter of this transistor is connected via resistor R2 to the second terminal of capacitor C1 and also to the control electrode VS of the thyristor. The collector of the VT transistor is supplied from a source which is made of RC protection of the thyristor. A capacitor C2, a resistor R3 and a Zener diode VD2 are connected in parallel to the thyristor VS. In such a circuit, the capacitor C1 discharges substantially more slowly, opening the transistor VT, which allows the VS thyristor to be energized by the energy drawn from the RC protection. A diode VD1 is connected to the resistor R1.

A flip-flop circuit, such as a Schmitt or threshold component, may be used instead of the VT. This use is particularly suitable for larger installed lamp capacities because it does not cause electromagnetic interference, such as radio and the like.

The wiring according to the invention can be used to automatically switch off lighting in corridors and other rooms.

Claims (2)

1. Connection of a three-state staircase controller with a delayed switch-off time, characterized in that the make contact (1KT) of the time relay is bridged by a thyristor (VS) whose control electrode is connected via a first resistor (R1) and a first capacitor (Cl) to a thyristor (VS) cathode. Wiring according to Claim 1, characterized in that the thyristor control electrode (VSj) is connected to a common point of the second resistor (R2J and the emitter of the transistor (VT), the collector of which is connected to the common point of the second capacitor (C2J and the cathode of the Zener diode). whose anode is connected to the cathode of the thyristor (VSj) and the second electrode of the second capacitor (C2) is connected through the third resistor (R3) to the anode of the thyristor (VS), the base of the transistor (VT) is connected through the first resistor (R1) ) to the thyristor (VS) cathode, to which the second terminal of the second resistor (R2) is also connected.