SU796883A1 - Process signalling device - Google Patents

Description

(54) DEVICE FOR TECHNOLOGICAL SIGNALS

The invention relates to systems for centralized control of parameters in a power plant. According to the main auth. No. 595754, a device for technological signaling is known, comprising parallel-connected signal cells made of series-connected sensor contacts, a signal lamp and a switch, a cell. A sound alarm system made of a parallel-connected sound signaling device and the first multivibrator connected to the control relay contact, one the output of the winding of which is connected to the negative terminal of the power source, and the cathode of the diode is connected to the other output of the control relay winding cavitating monitors and a control unit for signal lamps, the device also contains a second multivibrator and a resistor connected by one output to the positive terminal of the power supply source, and the other through the first closing contact of the first multivibrator is connected to the connection point of the control winding and the diode whose anode connected to the closing contact of the switch of each signal cell and through the second closing contact of the first multivibrator to the contact of the switch of each signal cell, and the connection point ontact sensor and signal lamps each signal through the cell kavitirovani button below. Connected to the make contact of the second multivibrator connected to the positive power supply terminal l. The disadvantage of the device is that the return of the monitored parameter to the working area (the contact of the sensor is opened) is accompanied only by a light signal, which can remain unnoticed by the operator for a long time, while the repeated signal that this parameter goes beyond the normal limits will not be noticed. The purpose of the invention is to increase the information capacity by sending a sound signal about the return of the monitored parameter within the working area. This goal is achieved by introducing a negative bias source, shunt, diodes and a locking key into the device, connecting the positive terminal of the power source and the second multivibrator contact through the negative bias source, and connecting the second multivibrator with the button closing contact Cavitating is performed through a serially connected shunt and a diode; the shunt is connected to the input of the closing key by a point of the acoustic alarm and the second multivibrator. The drawing shows a schematic diagram of the device. The device contains a multivibrator 1, a buzzer 2, a multivibrator 3 and a control relay 4. Relay 4 is connected to the positive terminal of the power source through the first closing contact 3.1 of the multivibrator 3 and the additional resistor 5. In addition, the device has a control and flashing bus 6 and a diode 7. Concurrently connected signaling cells (in the drawing two cells are shown ) contain the closing contact of the sensor 8.1, the signal lamp. 9.1 and the pushbutton switch 10.1 without self-return (the return is performed by repeated pressing), which simultaneously with the cavitating button, the device is also equipped with a relay 11 for checking signal lamps with contacts 11.1-11.p, the shunt 13 is turned on at the input terminals of the closing key 12 One of the terminals of which through pin 1.1 of the multivibrator 1 is connected to a source of 14-negative bias, and the other through buses 15 to the anodes of diodes 16 .... 16, Negative bias source 14 can be performed, for example, in series d Since iodines 17, 18 and resistor 19, a diode can be used as a shunt, the device contains a lamp test button 20. The key 12 may be composed of a transistor 21 and a relay 22, the control unit of the signal lamp includes a button 20 and a relay 11 for checking the lamps. The device works as follows. When one contact and sensors are closed, for example 8.1, a control relay 4 power supply circuit is created through the sensor 8.1 contact, signal lamp 9.1, the disconnecting contact of switch 10.1 shown in the initial position in the drawing, common control and blinking bus 6 and diode 7. Relay 4 is activated , with its closing contact, an alarm device 2 and a multivibra 1h. In this case, an acoustic signal is supplied. Multivibrator 3 periodically closes and opens its contacts. Switching the output contact of the multivibrator 3, connected between the negative terminal of the source and bus 6, ensures the flashing of the signal lamp 9.1. This contact in a closed state bypasses the winding of the control relay 4. In order to avoid relaying the relay 4 to this time, the contact of the multivibrator 3 connected between resistor 5 and relay 4 creates an additional power supply for the latter. Cavitating is accomplished by pressing the switch 10.1, which acts as the cavitating button. In this case, one end of the lamp 9.1 switches from the control and blinking bus to the power supply minus, the other end is connected to the cathode of the diode 16.1. In this case, two power circuits of the signal lamp 9.1 are formed. First circuit: positive power supply terminal, sensor contact 8.1, lamp 9.1, switch contact 10.1, negative power supply terminal. This circuit provides equal luminescence of the lamp. Second circuit: positive power supply terminal, negative bias source 14, multivibrator 1 constantly operating contact, shunt 13, bus 15, diode 16. if switch contact 10.1, lamp 9.1, second switch contact 10.1, negative power supply terminal. As long as the sensor contact 8.1 remains closed, the current in the second circuit does not flow. This is ensured by selecting the negative bias source at which the negative bias exceeds the voltage drop across the cable leading from the sensor 8.1 to the central station (i.e. between the positive terminal, the power supply and the junction point of the sensor 8.1 contact and the lamp 9.1). In this case, the diode 16.1 is locked. The current through the indicated circuit, including through the shunt 13, does not flow, and therefore, the key 12 remains in the open state. When the monitored parameter returns to the working contact area, the sensor 8.1 opens, the diode 16.1 opens and a pulsating current flows through the lamp 9.1 with a pulsation frequency determined by the frequency of the multivibrator 1, which constantly switches to its output contact. With this bias voltage, being greater than the maximum possible voltage drop on the cables going from the sensors to the central station, is chosen small enough that the difference between the voltage taken from the power supply terminals and the bias voltage is sufficient

the luminous lamp 9.1 at the time when the contact of the multivibrator 1 is closed. Thus, the lamp 9.1 flashes with the frequency of the multivibrator 1.

The current flowing in the circuit causes a voltage drop on the shunt 13, which in turn, arriving at the input terminals of the closing key 12, causes it to periodically operate (latch the output contact) with the frequency of operation of the multivibrator 1.. The closing key 12 can be included in the power circuit additional buzzer, or, as shown in the drawing, into the buzzer 2, causing its intermittent sound

At the simultaneous arrival of an alarm on any parameter and a signal on the return of another parameter within the working area, the control relay contact 4 bypasses the contact of the key 12, providing a continuous sound signal. In this way, the priority of the alarm signal is performed in relation to the signal about the return of the monitored parameter within the working area.

Having received an acoustic and light signal on the return of the monitored parameter to the limits of the working zone, the operator will cavitate this signal by pressing the cavitating button of the switch 10.1, which will then return to its original position. The power supply circuit of the lamp 9.1 is broken, it goes out, the buzzer 2 loses power. The cell is again ready to receive a signal. The frequencies of the multi: bratr, ov 1 and 3 are chosen such that the blinks of the various frequencies of the signal lamps caused by them are reliably distinguished by the operator.

An example of the implementation of the source of negative bias 14, the shunt 13 and the closing key 12. shown in the drawing. The bias voltage is created by decreasing the voltage on open diodes 17 and 18 (the number of diodes is selected depending on the required bias value). A resistor 19 creates a diode power circuit. When current flows through the shunt 13, made in the form of a diode, the transistor 21 is opened, the collector circuit of which has the relay 22 turned on. The relay 22 operates, turning on the buzzer 2

the absence of current in the bus 15 is missing and the base current of the transistor 21, the transistor is locked, the relay contact 22 is open. Shunt 13, designed for. supplying a current in the busbar 15 with a signal in the form of a voltage at the input of the closing switch 12 can also be implemented as a low-resistance resistor. However, in this case with increasing current through the resistor

Q (with simultaneous presence in many cells of signals about the return of monitored parameters to the limits of the working zone) the voltage drop across the shunt increases proportionally and the voltage on the signal lamps accordingly decreases, which leads to a decrease in the luminance of their luminescence.

The control unit of signal lamps, made on the plate 11 and button 20,

0 allows periodical monitoring of the health of signal lamps.

In the proposed device, the availability of a sound signal for the return of the monitored parameter within the working area significantly increases the reliability of receiving signals by the operator. The scheme is simple, reliable.

thirty

Claims (1)

Invention Formula A device for technological signaling according to avtov.Sv.№ 595754, characterized in that In order to increase the information capacity of the device, a negative bias source, shunt, diodes and an additional closing key are inserted in the circuit connecting the positive terminal of the power source and the second multivibrator make contact and a negative bias source is included, and the second multivibrator making the closing contact the cavitation buttons are connected in series with the shunt and the diode; the shunt is connected to the input of the closing key, which is connected to the negative bus. power supply and common point of the sound alarm device and the second multivibrator. Sources of information taken into account in the examination 1. USSR author's certificate I 595754, cl. G 08 B 23/00, 1976 (prototype). 17 w t + w4