RU1801251C - Lighting unit - Google Patents

Abstract

Usage: in the lighting schemes of stairwells and floor corridors in residential buildings with high floors. SUMMARY OF THE INVENTION: in a lighting installation comprising an electric stand with first and second wires, incandescent lamps 7-10, control buttons 11-14, a switching unit with first and second power terminals, and first 4 and second 6 terminals for connecting to a power network; a photorelay 5 with a power output contact was introduced, the electric switch to three-wire, the second leads of all lamps are connected to the third wire of the drain, the switching unit is made on three thyristors 15, 16.29, six diodes 18.21-24.27. capacitor 26, two variables 17, 25 and at least one constant resistor 20 and is equipped with a remote control input 3 to which the output of the second wire of the rack is connected, which allows to expand functionality, increase reliability and reduce the energy consumption for lighting. 1 ill. with C

Description

The invention relates to automatic electronic systems and is intended for switching (switching), regulating and controlling the power consumed in the electrical racks of lighting stairwells and floor corridors in residential buildings with high floors (up to 16 floors).

The aim of the invention is to expand the functionality, increase operational reliability and reduce the energy consumption of lighting.

The drawing shows a general diagram of switching and regulating lighting in the electric rack of one of the stairwells of a multi-storey building (up to 16 floors).

The lighting installation contains a hundred of electric lighting with electric incandescent lamps and remote control buttons for lighting, an electric semiconductor time relay connected to each other via output terminals 1, 2, 3 of the relay terminal block and photo relay 5, connected in parallel with a wire 4, 6 of the electrical input a lot of lighting. The phase wire 4 from the power supply bus (220 V) of the device is connected to the output terminal 1. As the neutral wire 6, a common bus is used, passing through the light from the electrical distribution panel or assembly in which the relay is installed. The electric lamps 7, 8, 9, 10, which are in the stand, are connected in parallel with respect to the neutral wire 6 and the output terminal 2. Normally open contacts

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electrical buttons 11-14 of the remote control of the relay, on the one hand connected in series with their respective lamps 7-10 and parallel to each other relative to the neutral wire 6. On the other hand, the contacts of the buttons 11-14 are connected in parallel with each other and connected to the output terminal 3.

The time relay contains three main working links:

1) load switching unit (in economy or normal operation mode); 2) time specifying the control circuit; 3) relay remote control circuit.

The load switching unit consists of switching elements-semiconductor thyristors 15, 16, a thyristor 15 control current control circuit composed of a variable resistor 17 and a rectifier diode 18, shunt resistors 19, 20, and also blocking pairs of rectifier diodes 21, 22 and 23, 34.

A timing control circuit of a variable resistor 25 and an electrolytic capacitor 26.

The relay remote control circuit consists of a rectifier diode 27, a resistor 28, a semiconductor thyristor 29, and a resistor 30.

A switch (toggle switch) 31 bypasses the relay circuit in case of damage or malfunction, which ensures that the supply voltage is directly supplied to the light. Fuse 32 is designed to protect the relay from electrical overloads.

Thyristors 15,16 in the relay circuit are turned on counter-wise, that is, the positive and negative terminals of the thyristors are connected on the output terminal 2 on the one hand, and on the normally open contact of the photo relay 5 and the switch 31, through the fuse 32.

The serial control circuit 17.18 is connected to the control electrode of the thyristor 15 on the positive side of the diode 18.

Shunt resistors 19, 20 are connected respectively between the negative terminals and the control electrodes of the thyristors 16, 15.

The blocking diodes 21, 22 are interconnected by positive leads. The terminals of the negative polarity of the diodes 21, 22 are connected respectively to a normally open contact of the photo relay 5 through a fuse 32 and to an output terminal 2. Blocking diodes 23; 24 are interconnected negative

terminals that are connected to the terminals of the negative polarity of the capacitor 26 and thyristor 29, and their positive terminals are connected respectively to the control electrodes of the thyristors 16, 15.

The timing of the control circuit, from the series-connected elements 25, 26, from the output side of the negative polarity of the capacitor 26, is included in

a node formed by connecting the negative terminals of the diodes 23, 24 and thyristors 29, and on the opposite side, the output of a variable resistor 25, is included in the node formed by connecting the positive terminals of the blocking diodes 21, 22.

The remote control circuit of the relay 27, 28, 29, 30 from the negative terminal of the diode 27 is connected to the output terminal 3. The positive terminal of the diode 27, through the resistor 28, is connected to the control electrode of the thyristor 29. The positive terminal of the thyristor 29, through the resistor 30, connected to the node formed by the connection of the positive terminal of the capacitor 26 and the output of the resistor 25. The normally open contacts of the switch 31 are connected on one side to terminal 2, and on the other to normal

0 open contact photocell 5 and fuse 32.

Lighting installation works as follows.

With the onset of the dark,

5 when the photo relay 5 is activated and the supply voltage is turned on through its normally closed contact, positive pulses of alternating current flowing through circuit 32-21-25-26 through diodes, 23, 24

0 arrive at the control electrodes of thyristors 15 and 16. Simultaneously, positive current pulses alternately directly pass to the anodes of thyristors 15 and 16, which provides an open

5 the state of the thyristors for the period of the charge of the capacitor 26. The open thyristors 15 and 16, turned on in the opposite direction, operate in the key mode and pass the load current in both directions, the lighting lamps 7, 8, 9, 10

In this case, 0 stairwells burn completely. The burning time of the lamps 7, 8, 9, 10 in full heat (relay exposure time) is determined by the value of the installed resistance on the variable resistor 25.

5 the end of the exposure time, i.e. when the capacitor 26 is fully charged, the supply of positive pulses to the control circuit of the thyristors 15 and 16 is stopped. The thyristor 16 closes, and the thyristor 15 goes into a half-closed state due to current

the control flowing through the control circuit 17, 18. The relay automatically switches to the mode of economical energy consumption, while the staircase lamp lights up to 1/4 of the full heat. If necessary, the relay is forced out of the economical consumption mode by pressing any of the electric buttons 11, 12, 13, 14, connecting the neutral wire 6 to the relay remote control circuit, while a positive current pulse arrives at the control electrode of the thyristor 29, which opens the thyristor In this case, the capacitor 26 is discharged along the circuit 30-29-23-24, the positive pulses are fed to the control electrodes of the thyristors 15 and 16. The illumination lamps are again turned on to full glow, for the set relay holding time.

In case of damage or failure of the circuit elements, in order to ensure uninterrupted power supply to the lighting of the entrance, the relay is disconnected from the mains by the switch 31, and the lighting is controlled only by the photo relay 5 through its closed contact.

To protect the relay from overload and short circuits in the load circuit, the supply (phase) wire is connected to the relay circuit through fuse 32. The cross section of the fuse 32 is calculated depending on the maximum current in the switched load.

The proposed technical solution comprehensively solves the problem of controlling lighting in the entrances of residential buildings in the presence in its circuit diagram of a relatively small number of control elements and load switching, i.e. with a high degree of reliability. In addition, the inventive installation has a number of additional features that are not provided for in the known device: high economic efficiency up to 75% of the consumed load power due to the possibility of adjusting the illumination current of the lamps to 1/4 of the incandescence in an intermittently continuous (economical ) mode, which provides emergency and evacuation lighting provided by the standards. and eliminates the need for illumination of control buttons; short-term inclusion of lighting in full glow (in normal mode) for the period of the set relay exposure time using the control buttons located at each stage of the stairwell; the ability to adjust and set certain values of the delay time within the settings from 1-5 minutes. automatic switching on of lighting depending on changes in natural lighting during the day using a photo relay, redundant power supply to the lighting lighting in case of damage to the time relay by switching it off and bypassing with a switch located in the relay circuit, the universality of the device, i.e. the possibility of its installation and operation in residential buildings of mass development, with a height of 2 to 16 floors, subject to established requirements and lighting standards; low cost of manufacturing and installation of the installation due to the use of a smaller (compared to the known device) number of components in its circuit, as well as due to the absence of diodes and elimination of illumination in the lighting control circuits provided in the known device.

Claims (1)

SUMMARY OF THE INVENTION A lighting installation comprising an electrical stand with first and second wires, incandescent lamps, control buttons, a switching unit with first and second power terminals, and first and second terminals for connecting to a mains supply. moreover, the first conclusions of the incandescent lamps are connected to the first wire of the electric rack, their second 4 conclusions are connected via the control buttons to the second wire of the rack, the first power terminal of the switching unit is connected to the power supply of the first wire of the rack, characterized in that, in order to To expand the functionality, increase reliability and reduce the energy consumption for lighting, a photorelay with a power output contact is introduced into the installation, and the electrical circuit is made of three-wire. moreover, the second terminals of all lamps are connected to the third wire of the drain, and the switching unit is made of three thyristors, six diodes, a capacitor, two variables and at least one constant resistor and is equipped with a remote control input, and in the switching unit to the first power output of this the unit is connected to the first power terminal of the first and second power terminal of the second thyristor, the first terminal of the first diode, the first terminal of the series connected second diode and the first variable resistor, the second terminal of which connected to the control terminal of the first thyristor and to the first terminal of the first constant resistor, the second terminal of which is connected with the second power output of the first and first power output of the second thyristor, the first output of the third diode and the second power output of the switching unit, the second terminals of the first and third diodes are connected to the first terminal of the second variable resistor, the second terminal of which is connected through the capacitor to the first terminals of the fourth and the fifth diode, and the second terminals of these diodes are connected to the control terminals of the second and first thyristors, respectively, between the first and second terminals of the capacitor a bit circuit containing and tre0 a thyristor, the control output of which through the sixth diode is connected to the remote control input of the switching unit, while the electric input of the photo relay is connected between the first and second terminals to connect to the mains, the first of which is connected to the first power output of the photo relay through the power output contact of the photo relay and to the second, the power terminal of the third wire of the electric stand, the terminal of the second wire of which is connected to the remote control input of the switching unit.  f a K8N-H