SU696521A2 - Light beacon control device/ - Google Patents

Description

This invention relates to the field of signaling. A special field of application is the control of automatic lights.

A device is known for controlling the light beam by aut. St. 495696, containing a light source, a control and alarm control unit, including a switching device, a light switch, a photoelectric sensor and a remote control unit, switching and switching lights, including a pulse-width modulator, a reference source, power amplifier, code device, actuator, an element of OR-NOT, a unit for changing the lamps. Light source maca Controlled by a switching unit and a lamp changer, at the output of which a power amplifier is installed. Received from a pulse-width modulator including signals through the prohibit element and switching off signals directly. If there is at least one control signal at the input of the element, the prohibition (from the actuator or the CODE device) does not pass the on signals of the IS-pulse modulator to the power amplifier, while the switching-off signals constantly follow from the pulse-width modulator to the power amplifier . The light source is turned off. In the absence of control signals at the input of the element, the inhibition path for the switching signals from the pulse-width modulator to the power amplifier is open and the light source operates with a stable supply voltage. This device works reliably when the power supply voltage of the beacon changes within the setting of the pulse-width modulator, which, by varying the duty cycle of the control pulses within certain limits, stabilizes the voltage at the light source terminals. With decreasing voltage in the mains network, the pulse width of the pulse-width modulator increases to the POSSIBLE limit, after which the modulator EXITs from the auto-oscillatory mode and does not generate control signals. This means that the ma- chi, operating in flashing or group-flashing mode, enters the emergency mode of continuous burning. since the switching signals do not produce a pulse width modulator. On the bottom of the day, when the light switch is triggered, the ma n does not turn off and it will light up. Such an emergency mode leads to a change in the characteristics of a fire tank and the wasted power consumption of an autonomous power source, whose resources are limited. Thus, a disadvantage of the known device according to the model, No. 495696 is the possibility of an emergency mode occurring when the supply voltage is lowered, as a result of which the given radiation characteristics of the beacon are broken and the power consumption is increased. This disadvantage does not allow using the known device on remote autonomous objects, for example, on automatically maca with radioisotope current sources. The purpose of the invention is to increase the reliability of the device. This is achieved by inserting a Vydt trigger into the device. The outputs of the pulse-width modulator and the element of the prohibition are connected with co

With the corresponding Schmidt trigger inputs, the first and second outputs of which are connected to the corresponding inputs of the power amplifier.

The drawing shows a block diagram of the device.

The device includes: 1 - a light source, 2 - a control, monitoring and alarm unit, 3 - a switching unit, 4 - a light switch, 5 - a photoelectric sensor, 6 - a remote control unit, 7 a switching and lamp changing unit, 8 - -pulse modulator, 9 - source of reference voltages, 10 - prohibition element, 11 - power amplifier, 12 - coding unit, 13 - execution unit, 14 - OR-NOT element 15 - automatic lamp changer unit, 16 - Schmidt trigger.

The device works as follows.

The radiation of the light source light 1 acts on the control, monitoring and signaling unit 2 and is received by its photoelectric sensor 5, from where it is transmitted as electrical signals synchronously with the beacon's operation simultaneously to remote control unit 6 (for control) and the element OR NOT 14 (for blocking the drive in the automatic lamp changer 15). The voltage applied to the light source 1 is stabilized by a pulse-width modulator 8, the input of which is connected to a source of reference voltages 9, and its two outputs are connected to a Schmidt trigger 16.

passing the switching signals from the pulse-width modulator 8 to the Schmidt trigger 16, which retransmit them to the power amplifier 11, including the light source 1. If the pulse-width modulator 8 does not generate modulating pulse signals (emergency mode), then its potential switching signal The prohibition 10 supplied to the input of the element is sufficient to continue the normal operation of the bead from code 12 and executive 13 blocks. The signals of the coding block 12 and the Executive unit

13 are brought simultaneously to the prohibition element 10 and to the OR-riE 14 element, ensuring continuous and reliable blocking of the automatic lamp changing unit 15. When the light source 1 fails during operation of the beacon, the signals of the photoelectric sensor 5 at the input of the ILINE 14 element to be absent, and blocking signals by command devices have not yet been identified, the OR-NOT 14 element issues a signal to turn on the automatic lamp changing unit 15, which begins to work. When this enters

feedback of the lamp changer, and to the input of the element OR-H

Claims (1)

14 and the executive unit 13 is given a signal that ensures the removal of the signal-switching mechanism of the lamp changing signal and the blocking of the remote commands to switch on the beacon. As a result, the lamp is switched and its circuit is switched off when the power supply is turned off (the amplifier has one output of a pulse-width modulator 8 using the channel of the switching-off signals directly to one input of the Schmidt trigger 16, and the other output is connected by a channel including signaling switches, through 10, - with another input of the latter. The switching on and off outputs of the Schmidt trigger 16 are connected to the corresponding inputs of the power amplifier 11. The element 10 of the ban has several inputs, at least one of which ensures the switching off of the power amplifier 11 and, therefore, the light source 1. At the same time, if (as a result of lowering the supply voltage or for any other reason) the pulse-width modulator 8 stops generating control pulses, the source is turned off light 1 will still occur, since the absence of an input switching signal from Schmidt’s trigger 16 will ensure its transition to the initial state with the output of a potential switching signal to the power amplifier 11. The absence of signals at the inputs This prohibition 10 ensures that the no 11 is turned off). After the automatic change of the lamp, the unit 15 switches itself off, removing the feedback signals from the actuator 13 and the OR-HE element 14, and the light emission from the new lamp is sensed by the photoelectric sensor 5, and the signals are again fed to the input of the OR-HE element 14 When the last backup lamp is put into operation by the unit 15, an alarm is sent to the remote control unit 6, alerting the operating personnel to the need for a gradual automatic light head to replenish the reserve of the reserve lamps. Depending on the voltage rating set in the beacon of the light source 1, the source voltage of the reference voltage 9 sets the corresponding reference voltage (for example, using zener diodes connected in series with a resistor that is fed to the input of the pulse width modulator 8. A change in the voltage rating of the light source 1 will require only a corresponding replacement of the reference voltage (replacement of the zener diode). During operation, the voltage of the power supply source is lower than the reference voltage, causing Breaking the generation of the pulse-width modulator 8 will not lead to failure of the beacon, since the function of switching the current in the light source control circuit 1 in this case is executed by Schmidt trigger 16, acting with its signals on the power amplifier 11. For translation It is enough to turn off the coding unit 12, which generated signals to the inputs of prohibition elements 10 and OR-NOT 14, when the beacon operates in code mode. At this, the prohibition element 10 remains connected to the executive NILM unit 13, which is controlled block in switch 3, for automatic switching off the beacon from the light switch 4 and operational control by means of the remote control unit 6. The economic efficiency of using the proposed device is determined by its technical advantages indicated above. The invention The device for controlling the light beacon by aut. St. W 495696, differing from the fact that, in order to increase the reliability of the device, a Schmidt trigger is inserted into it, the outputs of a pulse-width modulator and an inhibition element are connected to the corresponding inputs of a Schmidt trigger, the first and second outputs of which are connected to the corresponding inputs of a power amplifier. R T