SU860164A1 - Device for automatic control of illumination - Google Patents

Description

(54) DEVICE FOR LITHERIC CONTROL LIGHTING

The invention relates to electrical engineering, in particular, to discharging devices for automatic control of an electric lighting load depending on the level of illumination (for example, lighting of storage and production areas and premises). There are known devices for automatic control of illumination, commercially produced by our advanced technology, containing a measurement circuit — a photosensitive element (for example, a photoresistor) with an adjustable setpoint resistor, a direct current amplifier, an actuating electromagnetic relay J. However, for detuning from the 1st. small fluctuations in illumination, instability of the supply voltage, etc., these devices have a significant difference between the illumination of the disconnection. switching on (width of the hysteresis loop), and this difference increases with an increase in the response setpoint. This leads to a delay in shutting down the installation and an excessive duration of the illumination operation, i.e., an overspending of electricity. Also known are devices in which there is a delay in response, which allows for short-term interference and therefore reduces the difference between the release and trigger parameters 2 1. However, since the ratio of this difference to the setpoint is almost constant, the difference increases in absolute value with an increase in the setpoint. Therefore, it is normal for small settings that the hysteresis loop width is unacceptable for large settings due to energy saving considerations. The closest in technical essence to the proposed device is a photo relay consisting of a sensing element connected to a differential DC amplifier of a second sensitive element illuminated by a lamp connected to the output of the power amplifier, a parallel circuit regulating the setting of the time relay actuation, the power supply of the adjusting elements and actuator. When the illumination changes, the voltage on the light bulb and at the input of the transistor time relay, in the collector circuit of which the actuating relay | 3 is switched on, changes. A disadvantage of the known device is that it is designed to operate at low levels of illumination (0.2-1.0 lux). The purpose of the invention is the expansion of the working illumination area (up to hundreds of lux) with a relatively small difference between on and off illumination (narrow hysteresis loop). This goal is achieved by the fact that in a known device comprising a circuit of a photosensitive element (for example, a photoresistor) and a parallel circuit consisting of two resistors, one of which is adjustable, and its movable contact is connected to the input of a differential DC amplifier , the response delay circuit, the actuator and the power supply unit, the output of the differential amplifier is connected to the common point of the mentioned resistors. Under the influence of this feedback, the difference in the lighting off and on as a percentage of the setpoint) decreases with increasing setpoint, ensuring a clear and economical operation of the installation. The drawing shows the electrical circuit of the proposed device. The device contains an illumination measurement circuit consisting of a photosensitive element 1 (for example, a photoresistor) with a constant resistor 2 and a circuit with a constant resistor 3 and a regulating resistor 4, which smoothly changes the setpoint in a wide range of illumination. The signals from the photoresistor and the moving contact of the adjustable resistor are fed to the inputs of the differential amplifier 5, the output of which is connected to the common point of resistors 3 and 4. The darkened photosensitive element has a large resistance and the voltage on the resistor 2 is small. In this case, the voltage across the resistors 6 and 3 and 44 of the capacitor 7, charged through the resistor 8, is close to the supply voltage. The amplifier 9 is in a state where the voltage on the relay 10 is maximal, and the resistors I and 12 of the divider are connected in parallel to the zener diode 13 and set a small voltage on the second input of the amplifier 9. The relay U is turned on, its contact 14 is closed and provides voltage lighting feeder, for example, by turning on the starter. The device is powered from the AC mains through the power supply unit 15. Zener diodes 16 and 13 provide a constant supply voltage to the circuit when the voltage of the network is different and serve as a divider for the feedback circuit of amplifier 9. With increasing illumination, the voltage on resistor 2 increases. When it compares to voltage on resistor 3 and part of the alternating voltage the resistor 4 (from the resistor 3 to the slider), the amplifier 5 due to the large gain and feedback passes to the state in which the voltage on the resistors 6 and 3 is minimum. The discharge of capacitor 7 begins. Positive feedback on resistor 3 provides hysteresis, and with increasing setpoint level (moving the slider of resistor 4 to the negative power supply pole), the feedback voltage reduced to the input of amplifier 5 decreases. This ensures a reduction in the relative value of the hysteresis with increasing setpoint. When the voltage on the capacitor 7 decreases to the level specified by divider II, 12, 16, the amplifier 9 enters a state where the voltage on the relay 10 is minimal and the resistors 11 and 12 switch in parallel to the zener diode 16. Thus, at the second input of the amplifier 9 high voltage is set. Relay 10 turns off and shuts off the voltage on the light feeders. The discharge time of the capacitor 7 from maximum voltage to low at the second input of amplifier 9 (or charge from minimum voltage to high) determines the delay in the operation of relay 10 relative to the moment the signal from amplifier 5 is generated. For short-term interferences, switching on of relay 10 does not occur , because it does not have time to charge (discharge) the capacitor 7. Using the invention to aistomatize the control of the lighting

Claims (1)

Claim A device for automatic lighting control, containing a differential DC amplifier connected through its delay to the input of the actuating element, a power supply unit and two parallel circuits connected to the differential amplifier, one of which contains a photosensitive element, and the other consists of two resistors , 5, one of which is adjustable, and its movable contact is connected to the input of the differential amplifier, characterized in that, in order to expand the range of working illumination with a small difference between the illumination on and off, the output of the differential amplifier is connected to the common point of the mentioned resistors.