CS275653B6 - Connection of inductive proximity sensor of metal material - Google Patents

Abstract

The solution concerns the connection of an inductive sensor, in which the indication block is connected to a rectifier bridge, the first power supply output of which (2.3) is connected to the anode of the switching thyristor (Ty) and to the first terminal of the quenching resistor (R3). The second terminal of the quenching resistor (R3) is connected to the first measuring point (A), to the cathode of the isolating diode (D3), then to the cathode of the first Zener diode (Dl), to the positive pole of the filter capacitor (Cl), to the first terminal of the supply resistor (Rl) and to the positive power supply input (1.1) of the indication block (1). The control output (1»4) of the indicator block (1) is connected to the second terminal of the power supply resistor (Rl), to the control electrode of the switching thyristor (Tý), whose cathode is connected to the anode of the isolation diode (D3), to the fourth measuring point (D) and to the first terminal of the transfer resistor (R2). The connection is particularly useful in machine tools, automatic lines, metal material conveyors, cranes and other industrial equipment.

Description

The invention relates to the connection of an inductive distance sensor of a metal material, where an indication block is connected in parallel to the rectifying bridge.

For example, resonant sensors operating on the principle of comparing two frequencies have been used to sense the distance of metallic material. The disadvantage here is the considerable cost and unavailability for normal operational use. Another disadvantage is the indication of the metal material only up to a distance of about 15 mm. Another known device is an inductive sensor according to Czechoslovakia. author's certificate No. 266 547, which eliminates the above-mentioned disadvantages, but its compilation is complex and therefore expensive.

The above-mentioned drawbacks are largely eliminated by the connection of an inductive distance sensor of the metal material according to the invention, in which an indication block is connected in parallel to the rectifying bridge.

The essence of the invention lies in the fact that the first supply output of the bridge is connected to the anode of the switching thyristor and to the first terminal of the precipitation resistor. The second terminal of the precipitation resistor is connected to the first measuring point, to the cathode of the isolating diode, to the cathode of the first Zener diode, to the positive pole of the filter capacitor, to the first terminal of the supply resistor and to the positive supply input of the indication block. The control output of the indication block is connected to the second terminal of the supply resistor, to the control electrode of the switching thyristor, the cathode of which is connected to the anode of the isolating diode, to the fourth measuring point, to the first terminal of the conversion resistor. The second terminal of the conversion resistor is connected to the negative input of the indication block, to the negative pole of the balancing capacitor, to the negative pole of the filter capacitor, to the negative supply output of the rectifier bridge and to the anode of the second Zener diode. The cathode of the second Zener diode is connected to the anode of the first Zener diode, the positive pole of the balancing capacitor being connected to the correction output of the indication block.

The advantage of the arrangement according to the invention is the replacement of the limit switches and the fact that the sensor with the present connection is operable in the temperature range of about -20 ° C to +80 ° C and at a distance of more than 15 mm. The connection also has a positive effect on the dimensions of the sensor, so it can also be used on machine tools, transport lines, cranes of all kinds and elsewhere in light and heavy industry.

An example of an arrangement according to the invention is schematically shown in the accompanying drawing.

The indication block £ is formed of an integrated circuit, a capacitor, resistors and a coil. The supply bridge £ is formed of four diodes in a bridge connection. The first supply output 2.3 of the bridge is connected to the anode of the switching thyristor Ty and to the first terminal of the precipitation resistor R3. The second terminal of the precipitating resistor R3 is then connected to the first measuring point A and further to the cathode of the isolating diode D3, to the cathode of the first Zenrr diode D1, to the positive pole of the filter capacitor C1, to the first terminal of the supply resistor R1 and to the positive supply input 1.1 of the indication block £. The control output 1.4 of the indication block £ is connected to the second terminal of the supply resistor R1 and to the control electrode of the switching thyristor Ty. The cathode of the switching thyristor Ty is connected to the anode of the isolating diode D3 and further to the fourth measuring point D and to the first terminal of the conversion resistor R2. The second terminal of the conversion resistor R2 is connected to the negative input 1,2 of the indication block 6, the negative pole of the compensation capacitor C2, the negative pole of the filter capacitor C1, the negative supply output 2.4 of the rectifier bridge 6 and the anode of the second Zener diode D2. The cathode of the second Zener diode D2 is connected to the anode of the first Zener diode D1. Positive pole

CS 275653 06 of the compensating condensate C2 is connected to the correction output 1.3 of the indication block

The connection in question works as follows:

If a metal object approaches the coil in the display block 6, the circuit from the first measuring point A via the supply resistor R1 to the third measuring point C is closed by means of an integrated circuit in the display block 7, from there via the control electrode-cathode of the switching thyristors Tý to of the fourth measuring point D and via the transfer resistor R2 to the second measuring point J3. The magnitude of the resistance of the conversion resistor R2 determines the magnitude of the current in the circuit. As the current flows through the transition of the switching thyristors Ty, this switching thyristor Ty opens, thus closing a circuit depending on whether the half-wave is positive or negative. In the case of a positive half-wave, this is the circuit from terminal 0.1 via the first bridge diode in the rectifier bridge £ and via the switching thyristor Ty to the fourth measuring point D and then via the isolating diode D3 to the first measuring point A, thence via the first Zener diode D1 and the second Zener diode. D2 to the second measuring point B and via the fourth bridge diode in the rectifier block £ to the second terminal 0.2. In the case of a negative half-wave, the circuit from the second terminal 0.2 is closed via the second bridge diode in the rectifier block 2 and the open switching thyristor Ty to the fourth measuring point D. diode D2 to the second measuring point E1 and via the third bridge diode in the rectifier block 2 to terminal 0.1. This circuit increases the current flowing between terminals 0.1 and 0.2, causing an unlabeled relay or contactor connected in series to activate. Between the first measuring point A and the second measuring point B, the DC voltage required to supply the electronics remains.

The invention is used in particular, for example, in machine tools, on automatic lines, conveyors of metallic materials and other devices.

Claims (1)

PATENTS Connection of an inductive distance sensor of metal material, characterized in that the first supply output (2.3) of the bridge (2) is connected to the anode of the switching thyristor (Ty) and to the first terminal of the precipitation resistor (R3), the second terminal of which is connected to the first measuring point ( A), with the cathode of the isolating diode (D3), with the cathode of the first Zener diode (D1), with the positive pole of the filter capacitor (C1), with the first terminal of the supply resistor (R1) and with the positive supply input (1.1) of the indication block (1), whose control output (1.4) is connected to the second terminal of the supply resistor (R1), to the control electrode of the switching thyristors (Ty), whose cathode is connected to the anode of the isolating diode (D3), to the fourth measuring point (D), to the first terminal of the conversion resistor (R2), the second terminal of which is connected to the negative input (1.2) of the indication block (1), to the negative pole of the compensation capacitor (C2), to the negative pole of the filter capacitor (C1), to the negative supply output (2.4) of the rectifier bridge ( 2) and with the anode species é Zener diode (D2), the cathode of which is connected to the anode of the first Zener diode (D1), the positive pole of the balancing capacitor (C2) being connected to the correction output (1.3) of the indication block (1).