SU838380A1 - Level gage - Google Patents

Description

The invention relates to instrumentation, and in particular to level switches of conductive media conductometric method. ,

Level switches are known that contain an electrode sensor and are connected in series behind it an amplifier element and an output relay [1].

The disadvantage of such level switches is the lack of monitoring the state of the electrode circuits.

The closest in technical essence to the proposed one is a level switch containing an electrode sensor, an amplifier connected through 1 relay to a power source [2].

The disadvantage of this signaling device is the lack of control of a break in the electrode sensor circuit, which does not allow its use in the conditions of periodic monitoring.

The aim of the invention is to increase the reliability of measurement.

This goal is achieved by the fact that the level switch is equipped with a breaker for the open circuit in the electrode sensor circuit, consisting of an AND-logic element, a signal level amplifier and a threshold element, while the output of the AND-NOT logic element is connected to the amplifier input the first input of which is connected to the electrode sensor via a level signal amplifier, and the second input is connected to the said sensor through a threshold element, wherein the input of the level signal amplifier and the input of the threshold element are connected to the electrode sensor nymi wires.

The drawing schematically shows a level switch.

The level switch in the vessel 1 contains an electrode sensor 2, an open signal conditioner in the electrode sensor circuit, including a level signal amplifier 3, a threshold element 4, an NAND gate 5, a power supply 6 with a stabilizer 7, and the open signal conditioner is connected between the electrode sensor 2 and an amplifier 8, which is connected to the relay 9.

Amplifier 3 level signal is designed to supply a zero signal. to the first input of the AND-NOT 5 logic element in the case of contact of the level of the controlled liquid with the electrode sensor 2 and a single signal in its absence.

The threshold element 4 is intended to supply a zero signal to the second input of the AND-NOT 5 logic element in case of an open in the electrode sensor circuit.

During normal operation, a single signal is generated at the output of the threshold element 4. As element 4 can be used, for example, a triode included in the key mode. The offset of the triode is carried out by a voltage divider at the resistances R _f and ft, respectively included in the signal amplifier 3 and element 4.

As a logical element AND-NOT 5 can be used, for example, a standard integrated circuit K1LB553.

The operation of the proposed detector is that with an acceptable level of controlled environment, for example, water in the drum of a ship’s boiler, when the electrode sensor 2 is exposed and there is no contact with the conductive medium, a zero signal appears at the input of the amplifier 3 of the level signal. After double inversion on elements 3 and 5, a zero signal is fed to the input of amplifier 8, which transfers it to the cutoff state. In this case, the relay 9 is de-energized, including a signal of normal level.

When the level of the controlled medium rises above the installation of the electrode sensor 2, the circuit closes through the conductive medium and an alternating current voltage appears at the input of the level signal amplifier 3, where it is rectified and inverted. After inverting on a logical element AND-NOT 5, a single signal is input to the amplifier 8. The amplifier goes into saturation and turns on the relay 9, which turns on the alarm signal. At any position of the controlled level, in the absence of an open circuit in the circuit of the electrode sensor 2, the bias voltage at the input of the element 4 provides a cut-off mode for the triode included in it.

A single signal from the output of the threshold element 4 is supplied to the second input of the element 5 and does not affect the operation of the circuit when the level of the conductive medium changes.

In the event of an open circuit in the electrode sensor circuit, regardless of the level position, the bias voltage at the input of the threshold element 4 changes due to disconnection of the resistance Rj of the amplifier 3 of the level signal in the voltage divider of element 4 and provides a saturation mode of the triode. The zero signal from the output of the threshold element is fed to the input of the logic element 5, which provides a single signal at its output regardless of the signal level at its other input.

From the output of the AND-NOT 5 element, a single signal is fed to the input of amplifier 8, which goes into saturation and turns on relay 9, which includes an alarm.

Thus, in the proposed signaling device, an open circuit alarm is carried out in the electrode sensor circuit.

Claims (2)

The invention relates to instrumentation, in particular to a level indicator of conductive media by conductometric method. Level gauges are known, containing an electrode sensor and an amplifier element connected in series with it and an output relay D-. The disadvantage of such level gauges is the lack of monitoring of the state of the electrode circuits. The closest in technical essence to the present invention is a level detector, containing an electronic sensor, a microphone connected via a relay to a power source 2. The disadvantage of this alarm device is the lack of control of an open circuit in the electrode sensor, which prevents its use under periodic control conditions. The aim of the invention is to improve the measurement reliability. This goal is achieved by the fact that the level detector is equipped with an open circuit shaper in an electrode sensor consisting of an NAND logic element, a level signal amplifier and a threshold element, and the output of the NAND logic element is connected to the amplifier input. the input of which is connected to the electrode sensor through a level signal amplifier, and the second input is connected to said sensor through a threshold element, wherein the input of the level signal amplifier and the input of the threshold element are connected to the electrode sensor wired wires. The drawing schematically shows a level indicator. The level detector in the vessel 1 contains an electrode sensor 2, an open circuit signal conditioner in the electrode sensor circuit, including an amplifier 3 level signal, a threshold element 4, an NAND gate 5, a power supply 6 with a stabilizer 7, and the abort signal conditioner is connected between the electrode sensor 2 and an amplifier 8, which is connected to the relay 9. The amplifier 3 level signal is designed to supply a zero signal. to the first input of the logical element IS-NOT 5 in the case of contact of the level of the controlled liquid with the electrode or sensor 2 and a single signal in its absence. The threshold element 4 is designed to supply a zero signal to the second input of the AND-NE 5 logic element in case of an open circuit in the electrode sensor. In normal operation, a single signal is generated at the output of the threshold element 4. As an element, for example, a triode included in the key mode can be used. The triode offset is carried out by a voltage divider on the resistances R and fL, entering respectively the amplifier 3 signals and the element. As a logical element AND-HE 5, for example, the standard integrated circuit K1LB553 can be used. The operation of the proposed alarm device is that with an acceptable level of the controlled medium, for example, water in the drum of the ships of the boiler, when the electrode sensor is bare and there is no contact with the electrically conductive medium, a zero signal appears at the input of the level signal amplifier. After double inversion on elements 3 and 5, a zero signal is applied to the input of amplifier 8, which translates it into a cut-off state. In this case, the relay 9 de-energizes the switching on of the normal level signal. When the level of the monitored medium rises above the installation of the electrode sensor 2, the circuit closes through an electrically conductive medium and a variable voltage appears at the input of the amplifier 3 level signal, where it is rectified and inverted. After inverting, the AND-HE 5 logical element receives a single power at the input of the amplifier 8. The amplifier goes into saturation and turns on relay 9, which turns on the alarm signal. At any position of the monitored level, in the absence of an interruption in the circuit of the electrode sensor 2, the bias voltage at the input of the element 4 ensures the cut-off mode of the triode entering it. The single signal from the output of the threshold element 4 is fed to the second input of the element b and does not affect the operation of the circuit when the position of the level of the electrically conductive medium changes. In the event of an interruption in the electrode sensor circuit, regardless of the position of the level, the bias voltage at the input of the threshold element 4 changes due to the disconnection of the resistance R of the amplifier 3 of the level signal in the voltage divider of the element 4 and provides for the triode mode. The zero signal from the output of the threshold element is fed to the input of logic element 5, which provides a single signal at its output regardless of the signal level at its other input. From the output of the element AND-NOT 5 unit. the signal is fed to the input of amplifier 8, which becomes saturated and turns on relay 9, which turns on the alarm. Thus, in the proposed detector, a break in the circuit of the electrode sensor is signaled. Claims A level detector comprising an electrode sensor, an amplifier coupled via a relay to a power source, characterized in that. in order to improve measurement reliability, it is equipped with a breaker shaper in an electrode sensor circuit consisting of an AND-HH logic element, a level signal amplifier and a threshold element, the output of the NAND logic element, the first input of which is connected to the amplifier input, electrode sensor through the signal level amplifier, and the second input is connected to the above sensor through a threshold element. Sources of information taken into account during the examination 1. Author's certificate of the USSR No. 169817, cl. G 01 F 23/24, 01.11.64. 2. USSR author's certificate number 627341, cl. G 01 F 23/24, 15.02.77 (prototype). J