SU879312A1 - Level indicator - Google Patents

Description

(54) LEVEL SIGNALIZER

Claims (2)

The invention relates to the field of instrumentation, in particular, to control devices and can be used to signal the position of the level of an electrically conductive fluid in vessels under atmospheric or excessive pressure. Known level switches for electrically conductive liquids are known, which contain a contact sensor and a sensor signal processing circuit made on thyristors l. A disadvantage of the known device is that a unipolar pulsating current passes through the contact sensor in the presence of a liquid level, which leads to the destruction of the sensor during operation due to electrocorrosion. The closest to the proposed device according to the technical essence is a level indicator of electrically conductive liquids, which contains a contact sensor, two thyristors, the control electrodes of which are connected to the diodes, interconnected by anodes, two alternating current sources and a load f2J. A disadvantage of the known device is its complexity. The aim of the invention is to simplify the design. The goal is achieved by the fact that the level indicator is equipped with two diode bridges, with a series-connected contact sensor and a variable voltage sensor power supply unit included in the diagonal of the first diode bridge, in the opposite diagonal of which the thyristor is connected. cut the control electrode and the cathode, and the anode and cathode of the thyristor, are connected via a second diode bridge with a blog for supplying an alternating current to the load circuit and the load, and that the load is connected in series with the thyristor to the diagonal of the second diode bridge, opposite 3. the diagonal of which includes the power supply unit of the alternating current circuit, sensor, and in addition .; The fact that the load is connected in series with the AC power supply unit is included in the diagonal of the diode bridge, the opposite of which is connected between the anode and the cathode of the thyristor. FIG. 1 is a schematic of a level lyser signal for a DC load; in fig. 2 - the same, alternating current. The signalizer contains a thyristor 1 DC load 2, which is connected via a diode bridge 3 to a power source 4. A sensor 5 connected in series with a power source 6 and through a diode bridge 7 is connected to the control electrode and to the thyristor circuit. In the signaling device for the load of the time current, the power source 4, connected in series with the load 2, is connected via a diode bridge to the thyristor 1. All other connections are made similarly to FIG. 1, the circuit operates as follows. In the absence of liquid, the sensor 5 is open, the thyristor 1 is locked and there is no current through the load 2. When the liquid reaches a controlled level, the electrodes of the sensor 5 and the following are closed through the liquid: power source 6, sensor 5, diode bridge 3: the control electrode-cathode transition of the thyristor 1 flows current, and an alternating 7 OK flows through the sensor thyristor electrode - full-wave rectified current, through the load - direct current or alternating current depending on the connection according to the circuits shown in fig. 1 or FIG. 2. When the monitored liquid level drops below the control point, the circuit through the sensor opens and when the current through the thyristor drops to a value less than the current holding the thyristor, the thyristor turns off. Thus, the proposed solution, while retaining the advantages of the prototype (the flow of alternating current through the electrodes), significantly simplifies the design by reducing the number of active semiconductor elements (thyristors). Since both half-waves of a voltage are switched by one thyristor, then 4 no additional pulsations occur on the DC load, and in the case of an AC load, the DC current is not allowed to flow through the transformer winding. In this scheme, it is permissible to use a thyristor with any allowed reverse voltage, as a result of which any type of thyristors produced by industrial type can be used. The cost of semiconductor elements in current prices is 2.5 times lower than for the prototype. Claim 1. A level indicator comprising a thyristor contact sensor, a load, an alternating current power supply unit of the sensor circuit, a power supply unit of the transient current of the load circuit, so that, in order to simplify the design, it is equipped with diode bridges, with the series-connected contact sensor and the AC power supply unit of the sensor circuit included in the diagonal of the first diode bridge, in the opposite diagonal of which the thyristor is connected with its control electrode and cathode, and the anode and cathode of the thyristor are connected Nena through a second diode bridge with a block alternating current power load circuit and the load. 2. The level alarm device according to claim 1, which means that, in order to operate with a DC load, the load is connected in series with the thyristor to the diagonal of the second diode bridge, the diagonal of which is opposite an AC power supply unit of the sensor circuit, 3. A level alarm device in accordance with claim 1, characterized in that, in order to operate with an AC load, the load is connected in series with the AC power supply unit, and is connected to the diagonal of the diode bridge, the opposite of which VC The connection between the anode and the cathode of the thyristor. Sources of information taken into account in the examination 1.US Patent W3,066,615, cl. 307-885, published. 1965. 2. Authors certificate of the USSR 779814, cl. G 01 F 23/24, 1979 (prototype). R fug. /