RU2289163C1 - Device for contact sensor control - Google Patents

Abstract

FIELD: signaling engineering.

SUBSTANCE: device for contact sensor control consist of electromagnetic relay (1), first (2) and second (3) diodes, first (4) and second (5) resistors, switch (6), toggle (7), communications channel (8) with controlled contact sensor (9), bus (10), (13) supply, front contact (12) of electromagnetic relay (1), device outputs (11) and (14). Technical result is achieved by introducing switch (6), toggle (7), two resistors (4) and (5), second diode (3), two (11) and (14) device outputs and new connections between elements.

EFFECT: increased functional reliability and extended functional capabilities of the device.

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Description

The invention relates to techniques for signaling and can be used in systems of various alarm systems for monitoring the state of contact sensors.

A device for monitoring a contact sensor (see AS USSR No. 296133 of 09/18/1969, MKI: G 08 B 13/12, "Device for alarm", V.D. Bespalenko, publ. 12.02.1971 G., BI No. 8), containing a signal wire located on the guarded object, a thyristor and a signaling device connected in series with the thyristor, between the cathode and the control electrode of which a signal wire is connected stretched to the protected object, and the anode and the control electrode of the thyristor interconnected via a resistor.

The disadvantages of the device are:

a) low functional reliability due to the direct connection of the semiconductor key element, that is, the thyristor, with the communication line, which is especially true for a long communication line between the device and the protected object, where interference from powerful pulsed electromagnetic fields is possible (for example, when switching the load of high-voltage lines power transmission lines, electrified railways, tram lines, during lightning discharges, etc.), which can lead to unstable operation of the device or its failure thyristor;

b) the lack of the ability to quickly verify operability without violating the integrity of the signal wire (or without opening the contacts of the sensor located on the guarded object and included in the break of the wired communication line).

In addition, when using a large number of these devices and when they are directly connected to communication lines, interference interfering with the operation or dangerous for their thyristors arising in the communication line of one device can also affect other devices through communication lines (for example, when laying them , at least partially, in one cable), and along common power circuits, which increases the likelihood of their unreliable operation.

The closest set of essential features to the claimed invention is a device for monitoring a contact sensor (see AS USSR No. 442500 dated 04/11/1973, MKI: G 08 B 13/12, "Device for alarm", B. V. Protsyuk, published on 09/05/1974, BI No. 33), containing a signal wire extended to the guarded object, a signaling device, a switch made on two transistors, and a diode. The collector of the first transistor of the switch is connected to the anode of the diode connected in parallel with the detector. The cathode of the diode is connected to the positive pole of the power source. The emitter of the first transistor is connected to the base of the second transistor and to one end of the signal wire, the other end of which is connected to the negative pole of the power source and to the collector of the second transistor, the emitter of which is connected to the base of the first transistor.

From the description of the device it follows that its signaling device with a diode connected in parallel with it is, in fact, an electromagnetic relay with a make contact, the winding of which is shunted by a diode to protect the switch transistors from the emf. self-induction of the winding of the relay, occurring at the time of termination of current through the winding. From the description of the device it also follows that the signal wire is practically a communication line between the device and the protected object, in the gap of which the contact sensor with the opening contact is connected to this object.

The disadvantages of this device are:

a) low functional reliability due to the presence of direct connection of the transistors of the switch with the communication line; with such a connection between transistors and a sensor, pickups arising in a communication line, especially in a long communication line, from powerful pulsed electromagnetic fields (when switching the load of high-voltage power lines, electrified railways, tram lines, during lightning discharges, etc.) can lead to unstable operation of the device or its failure;

b) the lack of the ability to quickly verify operability without opening the contacts of the sensor itself, located on the guarded object and included in the break of the communication line;

c) the lack of the ability to turn off, if necessary, turned on when the sensor alarm (for example, howler, siren) or disarm the object without disconnecting the power source; disconnecting the latter is not always possible or advisable, in particular in the case when several similar devices are powered from one power source;

d) the presence of a significant restriction on the distance to the protected object, since the resistance of the signal wire should not exceed 5-10 Ohms.

These disadvantages of this device significantly limit its scope.

The problem to which the claimed device is directed is to create a device for monitoring a contact sensor with higher functional reliability and significantly expanded functionality.

The technical result, which consists in increasing the functional reliability and expanding the functional capabilities of the device, is achieved by the fact that in the device for monitoring a contact sensor containing an electromagnetic relay with a closing contact, a first diode, a wire line with a break for connecting the opening contact of the sensor, plus and negative power bus, introduced a switch, a switch, two resistors and a second diode, the cathode of the first diode connected to one end of the communication line, the other end through the switch contact is connected to the negative power bus and the first output of the relay winding, the second output of which is connected to the first. the output of the first resistor and the cathode of the second diode, the anode connected to the anode of the first diode and the first output of the second resistor, the second output of the first resistor is connected directly to the newly introduced first output of the device, and through the make contact of the electromagnetic relay with the second output of the second resistor connected through the disconnect and a switch contact with a positive power bus, the make contact of which is connected to the second output of the device.

The specified set of features allows to increase functional reliability and expand the functionality of the device. At the same time, an increase in the functional reliability of the device was achieved by eliminating transistors directly connected to the communication line from its structure and implementing it, with the appropriate circuitry, based only on more noise-resistant, and more reliably working in real-life operating devices (when exposed to powerful pulse electromagnetic interference) elements - electromagnetic relays, resistors and diodes. The expansion of functionality was achieved by providing new properties of the device: the ability to quickly verify operability without opening the sensor contacts by simulating the operation of a controlled sensor by opening the switch contact, the ability to turn off the alarm or disarm the object (if necessary) without disconnecting the power source (which can be common for several similar devices), by opening the closed contact of the switch and the possibility of removing a fundamental limitation of the distance to the guarded object by using another method of monitoring the state of the sensor (by constant transmission of current through the normally closed NC contact of the sensor).

The drawing shows a diagram of a device for monitoring a contact sensor. The device contains an electromagnetic relay 1, first 2 and second 3 diodes, first 4 and second 5 resistors, a switch 6, a switch 7 and a communication line 8 with a controllable contact sensor 9. The cathode of the diode 2 through a communication line 8, opening the contact of the sensor 9 included in open line 8, and the NC contact of the switch 6 is connected to one of the terminals of the winding of the electromagnetic relay 1 and to the negative bus 10 of the power supply. Another terminal of the coil of the electromagnetic relay 1 is connected to the first terminal of the resistor 4 and to the cathode of the diode 3, the anode of which is connected to the anode of the diode 2 and to the first terminal of the resistor 5. The second terminal of the resistor 4 is directly connected to the first 11 output of the device, and through the make contact 12 of the electromagnetic relay 1 with the second output of the resistor 5, connected through the NC contact of the switch 7 with the positive power bus 13. The closing contact of the switch 7 is connected to the second 14 output of the device.

The switch 6 is designed to simulate the fact of opening the NC contact of the sensor 9 during operational verification of the operation of the device. It can be implemented as a button with an NC contact (for example, type PKn105-1), it can also be implemented on a toggle switch with the same contact group (for example, type PT8-1).

The switch 7 is designed to disarm the object on which the sensor 9 is located, without turning off the power source (not shown) of the device and to put the device into standby mode (and removing the alarm signal from output 11 of the device) after checking the operability in the self-monitoring mode. It can be implemented on a toggle switch with switching contacts (for example, ПТ8-1), can be implemented (in the case of using a switch to disarm the protected object for a short time) on a push-button switch with the same contact group (for example, type Пн105-1) .

The device operates as follows.

In the initial state, when the make contact 12 of the electromagnetic relay 1 is open and the make contact of the switch 7, the sensor 9 and the switch 6 is closed, from the plus power bus 13 to the negative power bus 10 through the closed contact of the switch 7, resistor 5, diode 2, closed sensor contacts 9 and switch 6, a current flows, determined by the voltage of the device’s power source and the resistance of the resistor 5. In this case, the diode 3 and the coil of the electromagnetic relay 1 connected in series are under a voltage equal to the direct voltage drop yazheniya diode 2 and to a winding of the electromagnetic relay 1 voltage is practically zero, owing to the diode 3 connected in series with a winding of an electromagnetic relay 1, and the electromagnetic relay 1 and apparatus are described in the initial state.

When the sensor 9 is activated, that is, when its contact is opened, the current in the specified circuit stops and current flows from the plus power bus 13 to the negative power bus 10 through the closed contact of switch 7, resistor 5, diode 3, and the coil of electromagnetic relay 1. A sufficient voltage is applied to the winding of the electromagnetic relay 1 to turn on this electromagnetic relay 1. As a result, the contact 12 of the electromagnetic relay 1 closes, while the output of the device 11 gives a signal about the operation of the monitored sensor ka 9 in the form of a DC voltage, and the electromagnetic relay 1 itself becomes self-locking by the current flowing through the resistor 4 and its winding. Therefore, the signal at the output 11 of the device is subsequently saved, even if after that the initial state of the contact of the sensor 9 itself is restored or will be restored by the maintenance personnel after eliminating the cause of the sensor 9. After restoring the closed state of the contact of the sensor 9 to put the device into control mode of the state of the contact of the sensor 9 it is necessary to open, at least for a short time, the opening contact of switch 7 (that is, turn on the corresponding toggle switch). In this case, the power to the device is turned off, the electromagnetic relay 1 is turned off, the contact 12 of this electromagnetic relay 1 is broken and the signal from the output 11 of the device is removed. After restoring the initial state of the contacts of the switch 7 (turning off the corresponding toggle switch), the power of the device is restored and thereby restored to its original state and monitoring the state of the contact of the sensor 9 of the controlled object.

To control the operability of the device, it is enough to first open and close the contact of switch 6 (press and release the corresponding button), then switch 7 (turn on and turn off the corresponding toggle switch). In this case, by opening the contact of the switch 6, the operation (opening of the contact) of the sensor 9 is simulated, so the device operates, as in the case of the operation of the sensor 9, and outputs the mentioned output signal to the output 11. When the closed contact of the switch 7 is opened, the device operates in the same way as when its initial state was restored after the sensor 9 was triggered, that is, the power is cut off in turn, the electromagnetic relay 1 is turned off and the state of the sensor 9 is restored.

Removing from control the object on which the sensor 9 is located is made by opening the closed opening contact of the switch 7 (by turning on the corresponding toggle switch), after which the device’s power is interrupted and it does not respond to the change in the state of the sensor 9 contact. When opening the opening contact of the switch 7, it closes a make contact and, as a result, a signal in the form of a DC voltage appears at the output of the device 14, indicating the removal of the sensor 9 of the controlled object from the control but. When the contacts of the switch 7 return to their original state (when the corresponding toggle switch is turned off), the device is restored to its original state, as in the cases considered, and thereby the control of the state of the sensor 9 is restored.

From the description of the operation of the device it follows that it has all the functionality of the prototype, but has a higher functional reliability and wider functionality. Improving the functional reliability of the device is achieved by eliminating transistors from its composition, which have a direct connection with communication lines with a sensor of a controlled object. The expansion of the device’s functionality was achieved by providing an operational check (self-monitoring) of operability without breaking the contact of the sensor itself and violating the integrity of the wires of the communication line with the sensor, by removing the object from monitoring (if necessary) or by disabling the alarm signal when the sensor was triggered without disconnecting the power source devices and by removing the fundamental restrictions on the length of the communication line to the sensor of the controlled object.

In order to confirm the feasibility of the claimed object and the achieved technical result, a mock-up of a device for monitoring a contact sensor was assembled and tested, which was made on the basis of relay 80, buttons PKn105, toggle switch PT8-1, diodes 2D510A and resistors C3-33N, with the length of the communication line with a sensor up to 1 km.

The tests of the layout showed the efficiency of the inventive device for monitoring a contact sensor and confirmed its practical value.

Claims (1)

A device for monitoring a contact sensor comprising an electromagnetic relay with a make contact, a first diode, a wired communication line with a gap for connecting a break contact of said sensor, plus and minus power buses, characterized in that a switch, a switch, two resistors and a second diode are introduced, the cathode of the first diode is connected to one end of the communication line, the other end of which is connected to the negative power bus and the first output of the relay winding through the NC contact of the switch, the second output of which it is single with the first output of the first resistor and the cathode of the second diode, the anode connected to the anode of the first diode and the first output of the second resistor, the second output of the first resistor is connected directly to the newly introduced first output of the device, and through the make contact of the electromagnetic relay with the second output of the second resistor connected through the opening contact of the switch with the positive power bus, the making contact of which is connected to the newly introduced second output of the device.