CS260419B1 - Connection for selective switching electrical appliances especially luminous ones - Google Patents

Abstract

The solution allows you to selectively turn on lighting appliances in a predetermined time with bulbs when using existing electric two conductors. First part of the circuit it forms a three-phase rectifier where it is in Dependence on take-off and time by tripping thyristors interrupted current from third phase clamps. The timer is powered off voltage on second resistor on switch on and off after a set time thyristor. There are circuitry memory thyristors are used which when the control button is opened turn on the memory thyristor. Bulb Lamps it is lit and after the set time it is memory the thyristor is switched off by short-time interruption current from the third phase terminal. On can be just the section that was activated by pressing.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a circuitry for selectively switching on electrical appliances, in particular lighting devices with bulbs.

The previous wiring, which solves the switching on of light appliances in common areas and staircases of buildings, uses three wires to connect control buttons and light appliances. One conductor is common and is connected to the neutral conductor of the mains. The second wire connects all control buttons and is connected to the coil of the staircase automat. The third conductor connects all light appliances and is connected to the phase conductor of the mains. In some new buildings with larger floors, horizontal distribution is used, which reduces consumption but in most of the existing buildings, the above-described staircase lighting is used, the main disadvantage is that pressing any control button illuminates all light appliances, even if functionally unnecessary. It is only necessary to illuminate the areas where the person who pressed the control button is moving. For example, part of a corridor, staircase or lift platform. Unnecessary lighting throughout the building wastes electricity.

These disadvantages are eliminated by the circuitry according to the invention, consisting of a timer and switching circuits, wherein the first phase terminal is connected to the cathode of the first diode, the second phase terminal is connected to the cathode of the second diode, and the third phase terminal is connected to the cathode of the third diode. The anode of the first diode and the anode of the second diode are connected to a common node. The anode of the third diode is connected via a serial connection of the first resistor and the second resistor to the cathode of the fourth diode, the anode of which is connected to a common node. A common timing terminal and a tripping thyristor cathode are connected to the first terminal of the second resistor, and a timing input terminal is connected to the second terminal of the second resistor, the output terminal of which is connected to a tripping thyristor control electrode whose anode is connected to the neutral terminal. This part of the wiring consists of a three-phase rectifier which, after switching on the light appliance, ie its light bulb and after the time set on the timer has elapsed, interrupts the current from the third phase terminal via the trip thyristor. The invention furthermore relates to the connection of the anodes of the memory thyristors to the neutral terminal, whereby their cathodes are connected to a common node by means of respective bulbs. The respective input terminals of the switching circuits and the first terminals of the control buttons are connected to the individual anodes.

Their second terminals are connected to the cathodes of the memory thyristors simultaneously with the common terminals of the respective switching circuits, the output terminals of which are connected to the control electrodes of the respective memory thyristors. This part of the wiring is used to selectively switch on the light bulbs with the memory and the previous part of the wiring central switch-off after a set time.

The advantage of the circuitry according to the invention is that, when using existing lighting systems, it is possible to selectively switch on the light appliances only in the locations of actual consumption and thus reduce the waste of electricity caused by unnecessary lighting throughout the building. The wiring according to the invention can be used in all existing buildings. Another advantage is the elimination of unreliable contacts of the automatic controls and the extension of the lamp life.

An example of a circuit according to the invention is shown in the attached figure.

The first, second and third phase terminals L1, L2, Lj are connected to the 3 x 220 V 50 Hz three-phase mains with neutral terminal N ‘. In the first branch of the rectifier is connected the first diode 12, in the second branch the second diode 11. In the third branch the series combination of the third diode 10, the first resistor 8, the second resistor 7 and the fourth diode 9 is connected. The second resistor 7 senses the current drawn and is connected in parallel to the common and input terminals 64 and S1 of the timer 6. The cathode of the trip thyristor 5 is also connected to the first terminal 71 of the second resistor 7. whose control electrode is connected to the output terminal 63 of the timer 6. The anodes of the first, second and fourth diodes 1.2, 11 and 9 are connected to a common node 3.3.

This first part of the circuit consists of a three-phase rectifier, where the current from the third phase terminal 1.3 is interrupted by a tripping thyristor as a function of the current consumption and, over time. The individual sections formed by the bulb 4.1, .. 4.N connected to the cathode of the respective memory thyristor 2.1, "2.N, together with the terminal 3.13, .. 3.N3 of the switching circuit 3.1, .. 3.N and the second terminal of the control button are connected to the neutral terminal N 'by the anode of the memory thyristor 2.2, .. 2.N, to which the corresponding input terminal 3.12, .. 3.N2 of the switching circuit is connected in parallel

3.1 .. .3.N and the first terminal of the control button

1.1 .. .1.N. Incandescent lamps 4.1, .. 4.N are connected to a common node 13. This wiring part enables, by means of a memory thyristor 2.1, "2, N" to realize the memory function of the control button 1.1, ..N and at the same time to switch off remotely by interrupting current from the third phase terminal L3.

The connection function according to the invention is as follows: A three-phase voltage of 3 x 220 V 50 Hz is connected to the first, second and third phase terminals L1, L2, L3 and the neutral terminal N ‘. Between common node 13 and null terminal N ‘, a DC voltage is generated by rectifying the three-phase voltage through the first diode 12, second diode 11, and the third and fourth diodes 10 and 9. If no current flows between common node 13 and null terminal260419

With N N, ie no lamp is switched on

There is no voltage between the first 71 and the second 72 terminals of the second resistor 7 and the connected timer 6 does not provide any current to the control electrode of the trip thyristors 5. This ensures rectification of all three half periods of the three-phase voltage. If you press the control button in any section

1.1 .. .1.N the bulb 4.1, .. 4.N lights up and the switching circuit is activated at the same time

3.1 .. .3.N. After disconnecting the control button

1.1 .. .1.N there will be a steep rise in the voltage between the cathode and the anode of the memory thyristor 2.1, .. 2.N, which is derived from the switching circuit 3.1, -. 3.N, from whose output terminals

3.12 .. .3.N2, the control electrode of the memory thyristors 2.1, .. 2.N is energized and is thus switched on.

The lamp 4.1, 4.N is fed from the first L1 and second L2 phase terminals with full line voltage, and in the third half period the third phase terminal L3 flows through the first S and second 7 resistor holding current for the memory thyristor 2.1, 2.N . At the same time, a voltage switch 6 is fed to the second resistor 7, which, after a set time has elapsed, sends a pulse to the control electrode of the tripping thyristor 5 and connects the first terminal of the second resistor 7 to the terminal N ‘. The team. the holding current for the memory thyristor 2.1, .. 2.N is interrupted, its opening and switching off of the bulb 4.1, .. 4.N. In this connection, due to the tripping of the thyristors when the current drops to zero, no currents are generated which would interfere with the telecommunications equipment. The other sections are only switched on when activated with the control button

1.1, ..N.

The circuitry according to the invention can be used wherever it is necessary to selectively control electrical appliances, in particular light-powered devices with a two-wire line. The greatest benefit of using the wiring according to the invention is in controlling the lighting of corridors and staircases in buildings. The equipment can be applied in all existing buildings without costly reconstruction of wiring. In a specific embodiment, a memory thyristor with a switching circuit is embedded in a 14 x 14 x 35 mm Lukopren prism and can be connected directly under the control button. In addition to energy savings, there are other benefits of extending lamp life in luminaires, longer trouble-free operation and lower maintenance costs.

Multiple control buttons and bulbs can be connected to each memory thyristor.

Claims (1)

Wiring for selectively switching on electrical appliances, in particular lighting, consisting of a timer and switching circuits, wherein the first phase terminal is connected to the cathode of the first diode, the second phase terminal is connected to the cathode of the second diode, and the third phase terminal is connected to the cathode of the third diode. the anode of the first diode and the anode of the second diode are connected to a common node characterized in that the anode of the third diode (10) is connected via a serial connection of the first resistor (8) and the second resistor (7), the second terminal (72) of which is connected to the cathode a fourth diode (9), the anode of which is connected to a common node (13), the common terminal (64) of the timer (6) and the tripping thyristor cathode (5) connected to the first terminal (71) of the second resistor (7); the second terminal (72) of the second resistor (7) is connected to the input terminal (61) of the timer OF THE INVENTION (6), the output terminal (63) of which is connected to the control electrode of the tripping hardener (5), the anode of which is connected to a neutral terminal (N ') to which the anodes of the memory thyristors (2.1, ... 2) are connected. N), the cathodes of which are connected to the common node (13) via respective bulbs (4.1, ... 4.N), the respective input terminals (3.12) are connected to the individual anodes of the memory thyristors (2.1, ... 2.N) .... 3.N2) the switching circuits (3.1, ... 3.N) and the first terminals of the control buttons (1.1, ... lN), the second terminals of which are connected to the cathodes of the memory thyristors (2.1, ... 2) .N) together with the common terminals (3.13, ... 3.N3) of the respective switching circuits (3.1, ... 3.N), whose output terminals (3.14 ... 3.N4) are connected to the control electrodes of the respective memory thyristors (2.1, ... 2.N).