SU1597581A1 - Device for signalling level of loose materials - Google Patents

Abstract

The invention relates to instruments and automation means for monitoring and adjusting the level of solids, as well as pressure and other quantities that allow the movement of the contacts of the sensors. The level indicator contains an actuator - a relay 1 connected to the network via a diode bridge 4, a thyristor 5, the control electrode of which is connected through a voltage threshold element to the first terminals of the capacitor 14 and the RC circuit resistor, and a contact sensor 10. To increase reliability operation and expansion of the field of application; three diodes 11, 12, 13 are inserted into the detector; a resistor 6 is connected between the cathode of the thyristor 5 and the diagonal of the diode bridge 4. A capacitor 14 is connected to the resistor through the first diode 11, which is connected through the second diode 12 5. The anode of the thyristor 2 yl.

Description

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The invention relates to automation and is intended for pulse-width control of the level of granular media, as well as pressure and other quantities that ensure the movement of the contacts of sensors,

The purpose of the invention is to expand the field of use and increase reliability in operation.

Fig. 1 is a diagram of the proposed detector with a voltage threshold element made in the form of a dynistor; figure 2 - the same, with a threshold element in the form of a single junction transistor.

The indicator device contains an executive relay 1, for example, a magnetic starter, an electromagnet of a gate or damper, a valve, an electric motor, etc., terminals 2 and 3 of the AC network, a diode bridge 4, a thyristor 5, the time setting RC circuit 6 and 7 , resistors 8 and 9, a level 10 contact sensor, made, for example, as a plate deflected by a material with a permanent magnet closing the reed switch contacts, the first 11, second 12 and third 13 diodes and capacitor 14. The threshold element can be used dinistor 15 (figure 1) or one-way bottom transistor (OPT) 16 (figure 2). In the second case, for supplying the OPT 16 with bases, there is a power source composed of a filter capacitor 17 and a limiting resistor 18. To increase the thyristor immunity against interference, its transition is driven by a control electrode-cathode resistor 19. In the case of the execution relay, it is a magnetic starter, electromagnet alternating current, etc. parallel to the resistor 9 is connected to the Zener diode 20.

The operation of the detector is considered if it uses contact materials, for example, a reed switch, closed as a permanent magnet plate when the bulk material deviates as a sensor 10, but the principle of its operation does not change even if contact pressure sensors, temperature positions and t are used. .P.

The level indicator works as follows.

When the signaling device is turned on, when the material level is below the limit value, sensor contacts 10 are open, thyristor 5 is locked, executive relay 1 is disconnected and starts through its winding, one of the diodes of bridge 4, resistors 6 and 8, resistor 9 and others of bridge diodes charge capacitor 7. Once a certain time interval capacitor

is charged before the voltage of the uning of the dynistor 15, the latter is unlocked and through it into the resistor 8 to the transition of the cathode-control electrode of the thyristor 5 is discharged

the capacitor 7. Under the action of this pulse, the thyristor 5 is unlocked and held in the open position for 1-2 half-periods due to the discharge current of the capacitor 7 to the control gap

the thyristor electrode-cathode 5. The thyristor 5 shunts one diagonal of the diode bridge, and an alternating current flows through the second diagonal of this bridge and the executive relay 1 under the action of mains voltage,

5 causing a relay 1 to turn on and some voltage drop across resistor 9. Up to the amplitude value of this voltage drop, capacitor 14 is charged through diode 12. Under the influence of voltage, capacitor 14 is charged through diode 12. Under action of voltage on capacitor 14 through separation diode 11 and the transition of the anode-cathode of the thyristor B to the resistor 9 in the pauses between the pulses of the pulsating current are discharged the capacitor 14, and the thyristor 5 is maintained in the open position and after the discharge of the capacitor 7 to the control circuit due to the discharge through its anode circuit to the resistor 9 of the capacitor 14. At the same time, the diode 12 eliminates the discharge of the capacitor 14 directly to the resistor 9, allows the discharge current of the capacitor 14 to flow through the anode circuit of the thyristor 5, and thus creates the condition for holding the thyristor open and the relay 1 included. The diode 11 eliminates the charge of the capacitor 14 to the amplitude value of the mains voltage when the thyristor 5 is locked. An open thyristor 5 shunts RC0 circuit 6 and 7, excluding the charge of its capacitor,

When the contacts of the sensor 10 are closed when the preset level is exceeded, the resistor 9 is shunted through the diode 13 contacts of the sensor 10, the capacitor 14 is discharged, the thyristor 5 is closed, and the relay 1 is turned off. Since the closed contacts 10 are bridged simultaneously with the resistor 9 and the capacitor 7, not only the thyristor 5 is turned off, but the charge of the capacitor 7 also stops. Therefore, when the material level decreases and the contacts 10 close again, only after a certain time delay set by RC time -Circuit 6 and 7-55 and the unlock threshold of the dynistor 15, turns on re 1. This time delay eliminates private switching of the executive relay and its premature shutdown. Further, the operation of the level indicator repeats.

It is possible to use the signaling device as a threshold element of the OPT 16 (FIG. 2). In this case, the filter capacitor 17 is used to supply the OPT 16 through the bases, through a limiting resistor 18 connected to a diode bridge 4. When an electromagnet, a contactor or an electric motor are used as a load, the starting current of which is several times higher than the permanently set current To limit the voltage drop across the resistor 9 at the time of the load is triggered, the Zener diode 20. In the proposed circuit, both AC and DC loads can be applied. In the latter case, the load is connected to the output of the diode bridge through a series-connected thyristor and resistor 9.

Claims (1)

Invention Formula Bulk material level detector containing a winding of the executive relay, a threshold element, two capacitors, three resistors, sensor contacts and a diode bridge, the first diagonal of which in series with the winding, the relay is connected to a power source, and the second to the thyristor, with the cathode of which the first capacitor plate is connected, and to the control electrode — the output of the threshold element, to the input of which the output of the first resistor is connected, expanding the field of use and increasing reliability; three diodes are introduced into it, with the first resistor, the second resistor and the first capacitor connected in series and connected between the anode and the cathode of the thyristor, between the cathode of which and the second The third resistor is switched on by the bridge's bridge, one terminal of the third resistor is connected to the first plate of the second capacitor and to the sensor contact, the other contact of which is connected to the input of the threshold element m to the cathode of the first diode, the anode of which is connected to the thyristor cathode and the second diode connected to the second plate of the second capacitor and to the anodutretoy diode, the cathode of which is connected to the anode of the thyristor. 2 o