RU159353U1 - CONTROL SENSOR DEVICE - Google Patents

Abstract

A device for monitoring a contact sensor, comprising a first channel, including a first make contact, a first wire line with a break for connecting a disconnect contact of said sensor, a negative power line of the first channel, a first electronic key, a first current regulator, a first current recorder, and the output of the first regulator current is connected to the input of the first current recorder, the first output of which is the first output of the device for monitoring the contact sensor, while the first electronic key, the first circuit the contact is bridged by the second and third bilateral zener diodes, respectively, the second output of the first zener diode is connected to the second output of the first current recorder, the second channel contains a second make contact, a second wire line with a break for connecting the NC contact of the contact sensor, the negative power bus of the second channel, the second an electronic key, a second current regulator, a second current recorder, and the output of the second current regulator is the input of the second current recorder, the first output is Horn is the second output of the device for monitoring the contact sensor, while the second make contact, the second electronic key are bridged by the fifth and sixth two-sided zener diodes, respectively, the second output of the fourth zener diode is connected to the second output of the second current recorder, characterized in that the series-connected the first and second diodes, while the cathode of the first diode is connected to the second terminal of the first electronic switch and the first terminal of the first make contact, Torah CONCLUSIONS

Description

The utility model relates to alarm technology and can be used to monitor the state of voltage-sensitive contact sensors.

A device for monitoring a contact sensor, adopted as an analogue (RF patent No. 2419160 for an invention dated 05/20/2011), which contains an electronic relay with a make contact, a wired communication line with a gap to connect the NC contact of the contact sensor, plus and minus bus power supply, first and second diodes, first and second resistors, second switch, electronic key. Moreover, 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 through the NC contact of the first switch. In addition, the first terminal of the second resistor is connected to the anodes of the first and second diodes, and the second terminal of the second resistor is connected to the second input of the electronic key. The first output of the first resistor is connected to the second output of the electronic relay and is the output of the device for monitoring the contact sensor, its second output is connected to the cathode of the second diode either directly or through an additional zener diode, with the first input of the electronic relay and through the make contact of the second switch with the second input electronic relay. The first and second inputs of the electronic key are the first and second inputs of the device for monitoring the contact sensor, and its first output is connected to the positive power bus and the first output of the electronic relay. The second input of the electronic relay is connected to the negative power bus.

The disadvantage of this device is the lack of the ability to maintain operability in the presence of one possible malfunction (channel redundancy), the inability to verify the integrity of the circuit of one channel, while the other is working simultaneously, the inability to automatically control the operability, the inability to control a contact sensor powered by voltage, low functional reliability, due to the fact that the state of the contact sensor is controlled by voltage.

A device for monitoring a contact sensor, adopted as a prototype (RF patent No. 2500034 for the invention of 11/27/2011), which contains the first, second control channels of the contact sensor and a controlled contact sensor. The first channel of the known device comprises a first and second make contact, a first wired communication line with a break for connecting the make contact of the contact sensor, plus and minus power buses of the first channel, a first electronic switch, a first current regulator, and a first current recorder. In this case, the first output of the second make contact is connected to the second output of the first make contact, and the second output to the negative power line of the first channel. The input of the first current regulator is connected to the output of the first electronic key, the input of which is connected to the positive power bus of the first channel. The output of the first current regulator is connected to the input of the first current recorder. The first output of the current recorder is connected to the first output of the first make contact, and the second output is the first output of the device for monitoring the contact sensor. In addition, the first and second make contacts, the first electronic switch, the first current regulator, and the first current recorder are shunted by two-sided zener diodes. In the second channel of the known device, the positive power supply bus of the second channel through the second electronic switch, the second current regulator, the second current recorder, the second wire communication line with a break for connecting the NC contact of the contact sensor is connected to the negative power bus of the second channel. The output of the second electronic key is connected to the input of the second current regulator. The output of the second current regulator is the input of the second current recorder. The first output of the second current recorder is the second output of the device for monitoring the contact sensor. The second output of the second current recorder is connected to the second wire communication line and the first output of the third make contact, the second output of which is connected to the first output of the fourth make contact. The second terminal of the fourth make contact is connected to the negative power bus of the second channel. In this case, the second electronic switch, the second current regulator, the second current recorder, the third and fourth make contacts are shunted by bilateral zener diodes.

The disadvantage of this device is the lack of control of the contact sensor, powered by voltage and the possible false signal to the current recorders of both channels, monitoring the state of the contact sensor and the integrity of the circuit while the operation of one of the channels and checking the integrity of the circuit of the other channel.

The technical result of the claimed utility model is aimed at solving the problem of monitoring a contact sensor powered by voltage, and at eliminating the influence of one channel on another during their simultaneous operation.

To achieve the specified technical result in the device for monitoring the contact sensor, the first and second channel control the contact sensor, powered by a third voltage source, the positive output of which is connected to the second terminal of the NC contact of the contact sensor. In this case, the first channel contains a first make contact, a first wired communication line with a break for connecting the make contact of the said sensor, a negative supply bus of the first channel, a first electronic switch, a first current regulator, and a first current recorder. The output of the first current regulator is connected to the input of the first current recorder. Moreover, the input of the first current regulator is connected to the output of the third current regulator, the input of which is connected to the first output of the first electronic switch and the first output of the first zener diode. The second output of the first zener diode is connected to the second output of the first current recorder. The first output of the first current recorder is the first output of the device for monitoring the contact sensor. The first electronic key, the first make contact are shunted by the second and third bilateral zener diodes, respectively. To achieve the technical result, the first channel of the claimed device is additionally introduced in series with the first and second diodes, the first voltage source. In this case, the cathode of the first diode is connected to the second terminal of the first electronic switch and the first terminal of the first make contact, the second terminal of which is connected to the positive output of the first voltage source. The negative output of the first voltage source is connected to the negative bus of the first channel, the second input of the first current recorder and the negative output of the third voltage source. In this case, the anode of the second diode is connected through the first wire communication line to the first output of the NC contact of the contact sensor. The second channel of the claimed device contains a second make contact, a second wired communication line with a gap for connecting the make contact of the contact sensor, a negative power line of the second channel, a second electronic switch, a second current regulator, and a second current recorder. The output of the second current regulator is the input of the second current recorder. Moreover, the input of the second current regulator is connected to the output of the fourth current regulator, the input of which is connected to the first output of the second electronic key and the first output of the fourth zener diode. The second output of the fourth zener diode is connected to the second output of the second current recorder. The first output of the second current recorder is the second output of the device for monitoring the contact sensor. The second make contact, the second electronic key are shunted by the fifth and sixth two-sided zener diodes, respectively. To achieve the specified technical result, a third and fourth diodes, a second voltage source, are additionally connected in series to the second channel of the claimed device. The cathode of the third diode is connected to the second terminal of the second electronic switch and the first terminal of the second make contact, the second output of which is connected to the positive output of the second voltage source. The negative output of the second voltage source is connected to the negative bus of the second channel, the second output of the second current recorder and the negative output of the third voltage source. In this case, the anode of the fourth diode is connected through the second wire communication line to the first output of the NC contact of the contact sensor.

The utility model is illustrated by the block diagram shown in FIG. one.

A device for monitoring a contact sensor contains:

1 - the first channel;

2 - the second channel.

Channel 1 shows:

3 - the first output of the device for monitoring the contact sensor;

4 - negative power bus of the first channel;

5 - the third current regulator;

6 - the first current regulator;

7 - the first current recorder;

8 - the second two-sided zener diode;

9 - the first electronic key;

10 - the first two-sided zener diode;

11 - the first make contact;

12 - the third two-sided zener diode;

13 - the first voltage source;

14 - the first diode;

15 - second diode;

16 - the first communication line.

Channel 2 shows:

19 - second communication line;

20 - fourth diode;

21 - the third diode;

22 - fifth bilateral zener diode;

23 - second make contact;

24 - a second voltage source;

25 - sixth two-sided zener diode;

26 - second electronic key;

27 - the fourth two-sided zener diode;

28 - the fourth current regulator;

29 - the second current regulator;

30 - second current recorder;

31 - the second output of the device for monitoring the contact sensor

32 - negative power bus of the second channel;

17 - NC contact of the contact sensor;

18 is the third voltage source.

The operation of the inventive device for monitoring a contact sensor is as follows.

The first electronic key 9, the first make contact 11 are controlled by a microcontroller (not shown in the figure) according to a predetermined algorithm.

In the main operation mode of the first channel 1 from the positive output of the third voltage source 18 to its negative output through the NC contact of the contact sensor 17, the first wire communication line 16, the second 15 and first 14 diodes connected in series, the first electronic key 9 is closed, the third 5 and the first 6 current regulators, the first current recorder 7, the negative power line of the first channel 4 flows current, the parameters of which are determined by the elements of the first 6 and third 5 current regulators. Duplication of the first current regulator 6 with the third 5, and the first diode 14 with the second 15 ensures the operation of the device for monitoring the contact sensor in the presence of one possible malfunction of the first channel 1.

When the contact sensor 17, i.e. when its contact opens (closes), this circuit breaks (closes), and the current flow through it stops (resumes). As a result, the first current recorder 7 gives a signal about the operation of the contact sensor 17 to the first output 3 of the device for monitoring the contact sensor to the microcontroller (not shown in the figure).

To prevent the control current from flowing from the first channel 1 to the second 2, the third 21 and fourth 20 diodes are connected in series.

The operability of the first channel 1 of the device is diagnosed by the following checks:

1) The opening of the contact of the first electronic key 9 when the contact sensor 17 is closed should be accompanied by a change in the signal of the first current recorder 7, which is monitored at the first output 3 of the device for monitoring the contact sensor.

2) The closure of the first make contact 11 with the open contact sensor 17 and the closed first electronic key 9 should provide a closed circuit: from the positive output of the first voltage source 13 to its negative output through the closed contact of the first make contact 11, the first electronic switch 9, the third 5 and the first 6 current regulators, the first current recorder 7, the negative bus of the first channel 4 - for the flow of the control current, and, accordingly, a change in the signal of the first current recorder 7, monitored on the first the output device 3 to control the contact sensor. Subsequent opening of the first make contact 11 imitates the opening of the contact sensor 17, as a result, the signal generated by the first current recorder 7 at the first output 3 of the device should change.

To protect against overvoltage during opening, the first electronic switch 9, the first make contact 11 are bridged by the second 8 and third 12 two-sided zener diodes, respectively, and the first 6, third 5 current regulators and the first current recorder 7 are bridged by the first two-sided zener diode 10.

When checking the operability of the first channel 1, the effect of the first voltage source 13 on the contact sensor 17 or on the second channel 2 of the device is excluded by the first 14 and second 15 diodes connected in series.

In the event of detection of incorrect operation of the first channel 1, control over the state of the contact sensor 17 is transferred to the second channel 2.

In the main operation mode of the second channel 2, from the positive output of the third voltage source 18 to its negative output through the NC contact of the contact sensor 17, the second wire communication line 19, the fourth 20 and third 21 diodes connected in series, the second electronic key 26 is closed, the fourth is 28 and the second 29 current regulators, a second current recorder 30, a negative power line of the second channel 32 current flows, the parameters of which are determined by the elements of the fourth 28 and second 29 current regulators. Duplication of the second current regulator 29 with the fourth 28, and the third diode 21 with the fourth 20 ensures the operation of the device in the presence of one possible malfunction of the second channel 2.

When the contact sensor 17, i.e. when its contact opens (closes), this circuit breaks (closes), and the current flow through it stops (resumes). As a result, the second current recorder 30 gives a signal about the operation of the contact sensor 17 to the second output 31 of the device for monitoring the contact sensor to the microcontroller (not shown in the figure).

To prevent the control current from flowing from the second channel 2 to the first 1, the first 14 and second 15 diodes are connected in series.

The operability of the second channel 2 of the device is diagnosed by the following checks:

1) The opening of the contact of the second electronic key 26 when the contact sensor 17 is closed should be accompanied by a change in the signal of the second current recorder 30, which is monitored at the second output 31 of the device for monitoring the contact sensor.

2) The closure of the second make contact 23 when the contact sensor 17 is open and the second electronic key 26 is closed should provide a closed circuit: from the positive output of the second voltage source 24 to its negative output through the closed contact of the second make contact 23, the first electronic switch 26, fourth 28 and the second 29 current regulators, the second current recorder 30, the negative bus of the second channel 32 for the flow of the control current, and, accordingly, the signal change of the second current recorder 30, controlled by the second output device 31 to control the contact sensor. The subsequent opening of the second make contact 23 imitates the opening of the contact sensor 17, as a result, the signal generated by the second current recorder 30 at the second output 31 of the device should change

To protect against overvoltage during opening, the second electronic switch 26, the second make contact 12 are bridged by the sixth 25 and fifth 22 bilateral zener diodes, respectively, and the second 29, fourth 28 current regulators and the second current recorder 30 are bridged by the fourth two-sided zener diode 27.

When checking the operability of the second channel 2, the effect of the second voltage source 24 on the contact sensor 17 or on the first channel 1 of the device is excluded by the third 21 and fourth 20 diodes connected in series.

The advantage of using the first 6, second 29, third 5 and fourth 28 current regulators in the claimed utility model in comparison with the voltage source is that they allow you to have undefined parameters of the contact sensor circuits 17.

Thus, the connection of the elements of the first 1 and second 2 channels, described below, allows you to control the NC contact of the contact sensor 17, powered by the third voltage source 18. In this case, the positive output of the third voltage source 18 is connected to the second terminal of the NC contact of the contact sensor 17.

In this case, the first channel 1 contains a first make contact 11, a first wired communication line 16 with a gap for connecting the make contact of the contact sensor 17, a negative supply bus of the first channel 4, the first electronic switch 9, the first current regulator 6, the first current recorder 7. The output of the first the current regulator 6 is connected to the input of the first current recorder 7. Moreover, the input of the first current regulator 6 is connected to the output of the third current regulator 5, the input of which is connected to the first output of the first electronic key 9 and the first output of the first stable itron 10. The second output of the first zener diode 10 is connected to the second output of the first current recorder 7. The first output of the first current recorder 7 is the first output 3 of the device for monitoring the contact sensor. The first electronic switch 9, the first make contact 11 are shunted by the second 8 and third 12 bilateral zener diodes, respectively. The first 14 and second 15 diodes, a first voltage source 13, are additionally introduced into the first channel 1 of the inventive device. The cathode of the first diode 14 is connected to the second terminal of the first electronic switch 9 and the first terminal of the first make contact 11, the second terminal of which is connected to the positive the output of the first voltage source 13. The negative output of the first voltage source 13 is connected to the negative bus of the first channel 4, the second input of the first current recorder 7 and the negative output of the third and voltage source 18. In this case, the anode of the second diode 15 is connected through the first wire communication line 16 to the first terminal of the NC contact of the contact sensor 17.

The second channel 2 of the inventive device contains a second make contact 23, a second wired communication line 19 with a gap for connecting the make contact of the contact sensor 17, the negative supply bus of the second channel 32, the second electronic switch 26, the second current regulator 29, the second current recorder 30. The output of the second the current regulator 29 is the input of the second current recorder 30. Moreover, the input of the second current regulator 29 is connected to the output of the fourth current regulator 28, the input of which is connected to the first output of the second electronic key 26 and the first the water of the fourth zener diode 27. The second output of the fourth zener diode 27 is connected to the second output of the second current recorder 30. The first output of the second current recorder 30 is the second output 31 of the device for monitoring the contact sensor. The second make contact 23, the second electronic key 26 are shunted by the fifth 22 and sixth 25 bilateral zener diodes, respectively. A third 21 and fourth 22 diodes, a second voltage source 24, are additionally introduced into the second channel 2 of the claimed device. In this case, the cathode of the third diode 21 is connected to the second terminal of the second electronic key 26 and the first terminal of the second make contact 23, the second output of which is connected to the positive the output of the second voltage source 24. The negative output of the second voltage source 24 is connected to the negative bus of the second channel 32, the second output of the second current recorder 30 and the negative output of a voltage source 18. In this case, the anode of the fourth diode 21 is connected via a second wire communication line 19 to the first terminal of the NC contact of the contact sensor 18.

Thus, the use of the proposed technical solution is aimed at solving the problem of monitoring a contact sensor powered by voltage, and at eliminating the influence of one channel on another during their simultaneous operation.

Claims (1)

A device for monitoring a contact sensor, comprising a first channel, including a first make contact, a first wire line with a break for connecting a disconnect contact of said sensor, a negative power line of the first channel, a first electronic key, a first current regulator, a first current recorder, and the output of the first regulator current is connected to the input of the first current recorder, the first output of which is the first output of the device for monitoring the contact sensor, while the first electronic key, the first circuit the contact is bridged by the second and third bilateral zener diodes, respectively, the second output of the first zener diode is connected to the second output of the first current recorder, the second channel contains a second make contact, a second wire line with a break for connecting the NC contact of the contact sensor, the negative power bus of the second channel, the second an electronic key, a second current regulator, a second current recorder, and the output of the second current regulator is the input of the second current recorder, the first output is Horn is the second output of the device for monitoring the contact sensor, while the second make contact, the second electronic key are bridged by the fifth and sixth two-sided zener diodes, respectively, the second output of the fourth zener diode is connected to the second output of the second current recorder, characterized in that the series-connected the first and second diodes, while the cathode of the first diode is connected to the second terminal of the first electronic switch and the first terminal of the first make contact, the second output of which is connected to the positive output of the first voltage source, the negative output of which is connected to the negative bus of the first channel, the second output of the first current recorder and the negative output of the third voltage source supplying the contact sensor, the input of the first current regulator is connected to the output of the third current regulator, the input of which connected to the first output of the first electronic key and the first output of the first zener diode, the anode of the second diode is connected through the first wire line to the first the output terminal of the NC contact of the contact sensor, the third and fourth diodes are connected in series to the second channel of the device, while the cathode of the third diode is connected to the second terminal of the second electronic key and the first terminal of the second NO contact, the second terminal of which is connected to the positive output of the second voltage source, negative the output of which is connected to the negative bus of the second channel, the second output of the second current recorder and the negative output of the third voltage source, the input of the second of the current regulator is connected to the output of the fourth current regulator, the input of which is connected to the first output of the second electronic switch and the first output of the fourth zener diode, the anode of the fourth diode is connected via the second wire line to the first output of the NC contact of the contact sensor, the positive output of the third power source is connected to the second the output of the NC contact of the contact sensor.

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