CS249403B1 - Staircase automaton connection - Google Patents

Abstract

and maintenance-free adjustable stair automatic and exclusively electronic elements e extended service life, which does not show unwanted radio interference and does not require changing the existing lighting distribution installation accordingly and in which the lighting cycle can continue for a certain period of time before going out weakened*The stated goal is achieved by a circuit controlled by a switch, with a push button, thyristors and constant current circuits. The circuit can be used for automatic control of one-time staircase lighting and the like.

Description

(54) Staircase automat

The aim of the solution is to create a simple, inexpensive and maintenance-free adjustable staircase machine and solely electronic components with a longer lifespan, which does not show unwanted radio interference and does not require to change the existing lighting distribution system randomly.

Said target is achieved by wiring controlled by a push button, with thrust, thyristors and constant current circuits. The wiring can be used for automatic control of disposable lighting at random and the like.

* · «I

The invention relates to the connection of a pedestrian-controlled automatic machine for automatic control of single-phase staircase lighting.

The stairway illumination is started by briefly pressing one of the parallel buttons on the stairwell. Today's staircase machines are designed in such a way that the electromagnet will tip over! mercury switch with dripping! mercury, which closes the power circuit of light bulbs illuminated staircase. After the mercury drips, this circuit is interrupted! and the selector switch aa returns to its original position.

In other staircase machines the lighting time is controlled by a small electric motor or pneumatic valve. The disadvantage of these staircase machines is that they use mechanical elements that are often disturbed and noisy. In the case of the former, there is another disadvantage: in that it is not possible to set the switching time.

These disadvantages are overcome by the wiring of the staircase machine according to the invention, which is based on the second triac anode being connected to the input terminal, the first triac anode being connected via a light bulb to the first terminal of the on / off button connected to the second input terminal. through the charging resistor to the anode of the first charging diode and to the anode of the second charging diode, the cathode of which is connected both through the second timer capacitor to the anode of the first polarizing diode and through the second constant current circuit on the driver of the electrode of the second excitation thyristor; via the first timing capacitor to the first input terminal, first through the first constant current circuit on the driver electrode of the first excitation thyristor, the cathode of which is connected to the first input terminal, and the anode of the first excitation thyristor is connected through the limiting resistor or a triac electrode driver, a cathode of a second polarizing doid whose anode is connected to a cathode of a second excitation thyristor and an anode of a first polarizing diode, a cathode of a first polarizing diode is connected to a first input terminal, anode of a second excitation thyristor is connected to a first input terminal wherein the control electrode and the cathode of the first excitation thyristor are optionally connected by the first damping resistor, the control electrode and the cathode of the second excitation thyristor are optionally connected by the second damping resistor, and the control electrode and the first triac anode are optionally connected by the third damping resistor.

The advantage of wiring the achodislove automat according to the invention is that it uses exclusively electronic elements and substantially longer service life, is simple, cheap and maintenance-free. The illumination cycle can be set so that the bulbs initially light in both half-cycles and before they go out, they light up some illumination for one half-period. The user of the service stations is thus warned of the need to press the on / off button again.

This also affects the reduction of electricity consumption. The seams of both avlcanl modes can be adjusted separately by two control elements, which are in constant current circuits. Changing the lighting mode is done by jumping so that there is no undesirable radio rose. Finally, there is no need to carry out the existing staircase lighting installation.

An example of wiring of the ayelod automata according to the invention is shown schematically in the attached drawing.

A second triac anode A2 is connected to a first input terminal X for connection to a power voltage. The first anode AL of the triac IK is connected via a bulb 2 * to the first terminal of the filling button. The first terminal of the button 60 is connected to the second input terminal 8 for connection to the power voltage.

The second terminal of the fill button Xlt is connected via a charging resistor 81 on the anode of the first charging diode 1 1 and on the anode of the second charging diode £, whose cathode is connected both through the second timer capacitor £ 2 to the anode of the first polarizing diode 3 3 and through the second adjustable current constant current circuit K2 on the driver of the second excitation thyristor ££. The cathode of the first charging diode D1 is connected via a first timing capacitor £ 1 nm to a first input terminal 1, and via a first adjustable current circuit K4 to a control electrode of a first excitation thyristor £ 1, the cathode of which is connected to a first input terminal

1.

The anode of the first excitation thyristor 11 is connected via a limiting resistor R2 to the triac control electrode TK. on the cathode of the second polarizing diode D4. whose anode is connected to the cathode of the second excitation thyristor T2 and to the anode of the first polarization diode D3. The cathode of the first polarizing diode D3 is connected to the first input terminal 1. The anode of the second excitation thyristor T2 is connected to the first terminal 8.

The control electrode and the cathode of the first excitation thyristor T1 are connected by a first damping resistor R3. The control electrode and cathode of the second excitation thyristor 61 are connected by a second damping resistor R4. The control electrode and the first anode A1 of the triac TK are connected by a third damping resistor R§.

In series with the triac TK, a fuse (not shown) is normally connected to protect the triac £ from the effects of a short circuit or overload. If necessary, additional bulbs can be connected in parallel to the bulb J and additional switch buttons can be connected in parallel to the switch button TL.

The lighting cycle is started by briefly pressing the On / Off button. Through the charging resistor R1 and the first and second charging diodes P1 and D2, the first and second timing capacitors C1 and 2 are charged. The second timing capacitor C2 continues to run across the first polarizing diode. The first timing capacitor C1 slowly discharges through the first control circuit. constant current and excites the first excitation thyristor 61, which is in series with a limiting resistor R2 in the triac excitation circuit TK for one half period of the line voltage.

At the time of the second half-period of the line voltage, the triac is excited via a limiting resistor S2. a second polarizing diode D4; and a reverse polarized second excitation thyristor T2. This thyristor T2 is excited from the second timing capacitor 62 via a second DC constant current controllable circuit.

The first and second controllable circuit K1. The constant current K2s are provided with control resistors (not shown) for individually adjusting the discharge current and hence the illumination time in each half-period separately, thereby enabling the lamps to illuminate in both half-periods of the mains voltage for a certain period of illumination. in one half period. This reminds the user of the staircase to find and press the TL button again.

The invention can be used to automatically control disposable staircase lighting and the like.

Claims (1)

SUBJECT OF THE INVENTION Connection of a staircase machine with triac and thyristors, controlled by a switch button, characterized in that the second anode (A2) of the triac (TK) is connected to the first input terminal (1), the first anode (AI) of the triac (TK) is connected via a bulb ž) to the first switch-on button (TL) terminal which is connected to the second input terminal (2), the second switch-on button (TL) jq is connected via a charging resistor (R1) to the anode of the first charging diode (D1) and a diode (D2), the cathode of which is connected via the second timer capacitor (C2) to the anode of the first polarizing diode (D3) and through the second constant current circuit (K2) to the control electrode of the second excitation thyristor (T2); D1) is connected via the first timing capacitor (C1) to the first input terminal (I) and through the first constant current circuit (K1) to the control electrode of the first excitation thyristor (T1), whose the anode is connected to the first input terminal (1), the anode of the first excitation thyristor (T1) is connected via a limiting resistor (R2) to the triac control electrode (TK), jed249403 nok and the cathode of the second polarization diode (04) on the cathode of the second excitation thyristor (T2) and on the anode of the first polarization diode (03)> the cathode of the first polarization diode (03) is connected to the first input terminal (1), the anode of the second excitation thyristor (12) is connected to the first input terminal 1), wherein the control electrode and the cathode of the first excitation thyristor (T1) are optionally connected by the first damping resistor (R3), the control electrode and the cathode of the second excitation thyristor (T2) are optionally connected by the second damping resistor (R4) and the control electrode and the first anode ( A1) of the triac (TK) are optionally connected by a third damping resistor