SU746766A1 - Inductive change-over switch - Google Patents

Description

(54) INDUCTIVE SWITCH

The invention relates to reference measurement technology and can be used in devices controlling the traveling positions of the working bodies of mechanisms.

A device for monitoring travel positions is known, which contains movable ferromagnetic measles, an inductive sensor to which the primary winding of a magnetic element with a fixed core, the secondary winding of which is connected to the thyristor junction, which is connected to the AC source 1J, is connected.

However, this device is not reliable enough.

An inductive switch is also known, containing an L-sensor with a movable ferromagnetic core and a winding connected by the first terminal to the first bus of the alternating voltage source, and the second output to its second bus through

a capacitor, and through the winding of the throttles to the first output of the input winding of the pulse transformer, the first output of the output winding of which the diode is connected to the second bus of the AC source and to the cathodes of two thyristors, the anodes of which are connected to the first bus of the AC source. Aprons, up10 equalizing electrodes of the first and second thyristors are connected respectively with the closing and closing fixed contacts of the first contact group f 2.

15

However, this device is not distinguished by simplicity and reliability.

The aim of the invention is to simplify and increase the reliability of the device.

To do this, in an inductive switch body containing i. sensor, with a movable ferromagnetic shell and a winding connected by the first output to the first terminal of the alternating voltage source, and the second output to its second bus through a capacitor, and through the throttle of the village to the first output of the input winding of the pulse transformer, the first output of the output winding of which through the diode it is connected to the second bus of the source of the mixed voltage and to the cathodes VIR thyristor, an; which through appropriately U4OTKH; two relay relays are connected to the source of the tribal power source, the first one and the second and the third contactors are connected with the contact terminal of the first contact group, the output winding, and the one is not used with the one another; the movable contact of the first pin of the group, the output of the input .WIOTKH is connected to the movable contact of the second contact group, and the fixed contacts of the contact face are connected to the corresponding aynas HCTe48Bkek ttep @ yE H rd 8a1f nseki. In addition, each winding of a dual-relay relay is clamped by a corresponding off-line diode. , thyristor 8, two rpm windings 9 and 10 of the two-pole circuit, less often, contact terminals 11 and 12 of the two-pole relay, shunt diodes 13 and 14. The inductance of the winding of the sensor 2 is tuned to resonance with a series connected to it With the bark 1 removed from sensor 2. The oil droplets 4 and the input winding of the pulse transformer 5 are wired sequentially between themselves and the parallel capacitor 3 through the changeover contact 12 or parallel to the winding of the sensor 2 through the same changeover contact 12, The secondary winding of the impulse tran of the formatter 5 is connected by the first output through diode 6 to the cathodes of the thyristors 7 and 8, and through the second contact to the control electrode of the thyristor 7 or to the control electrode of the thyristor 8, the nominal voltage of the windings 9 and IP two A posed relay is selected lower than the AC mains voltage. This speeds up the speed of the relay. The device works as follows. The device receives power from the network. When core 1 is removed from sensor 2, sensor 2 winding is small, choke 4 is unsaturated, there are no impulses in the output winding of pulse transformer 5, thyristor 7 is closed, thyristor 8 is also closed, windings 9 and 10 are de-energized. The proximity switch is in the off state when the sensor is removed from the core 2. When core 1 is introduced into sensor 2, the voltage on capacitor 3 abruptly drops, and on sensor 2 winding increases abruptly due to the output from the resonance of the voltage on the capacitor 3 capacitance and on the inductance of sensor 2 winding. With an increased voltage on the sensor 2 winding 4 goes into an on-state state, b the secondary winding of the pulse transformer 5 produces pulses that turn on each positive half of the thyristor 7. The winding 9 of the relay receives pulsed high-voltage power, and the relay is activated. After the relay trips, the changeover contact 11 connects the output winding of the transformer 5 to the control electrode of the thyristor 8, and the changeover contact 12 connects the input winding of the transformer 5 to the first output of the network and the output of the capacitor 3. The contactless switch is in the on (triggered) state. Switching change-over contacts 11 and 12 of the circuits of the input output windings of the transformer 5 leads to de-energizing the throttles 4, the transformer 5, the thyristor 7, the windings 9 of the relay. The two-relay relay is in the de-energized actuated position corresponding to the state of inserting the core 1 into sensor 2. After the operation, the device consumes the minimum power only of the series inductance winding of sensor 2 and capacitor 3. The remaining elements in the TOW number and winding 9 and Yu of the two-position HINGE relay, de-energized. When removing the core 1 from the sensor 2, the voltage on the capacitor 3 abruptly increases, and on the winding of the sensor 2

it drops abruptly due to the voltage of the capacitor 3 capacitance 3 and the winding inductance 2 of the capacitor 2 entering into resonance.

When the voltage on the capacitor 3 increases, the choke 4 goes into a saturated state, in the secondary winding of the impedance transformer 5 pulses are generated that turn on every positive half-wave S. The winding of the relay 10 receives a pulsing half-wave power, and the relay is triggered.

After the relay trips, the changeover contact 11 connects the output winding of the transformer 5 to the thyristor 7 control electrode, the changeover contact 12 connects the input winding of the transformer 5 to the second output of the network and to the output winding of the sensor 2. The non-contact switch is in the disconnected state.

The relay coils 9 and 10 and the thyristors 7 and 8 are energized only for Bp vieHH of the two-position relay, which is a fraction of a second, the rest of the relay winding time and the thyristors are de-energized. increases their reliability with long exploitation.

The proposed circuit is considerably simpler compared to the prototype circuit, by eliminating the additional thyristor and the elements of its control peep.

Formula and 3 o bre shadow

Claims (2)

1. An inductive switch containing an LI sensor with a movable ferromagnetic sncopeM and a winding, including the first output to the first bus of the source of the first1-1 voltage), and the second output to its second bus through the capacitor, and through the winding of the chokes to the first output of the pulse input winding transformer, the first output of the output winding of which through the diode is connected to the second bus of the source of alternating voltage and to the cathodes of two thyristors, the anodes of which through the corresponding windings of the two-position relay podklk1 to the first not a source of alternating voltage, control electrodes of the first and second. the thyristors are connected respectively to the closing and; Dispersed fixed contacts of the first contact. group, characterized in that, in order to simplify and increase the reliability of the device, the second output of the output winding of the pulse transformer is connected to the mobile to the contact of the first contact group, the second output of the input winding is connected to the moving contact of the second contact group, and fixed contacts of the second contact rpyioibi with the corresponding tires of the alternating voltage source. 2. An inductive switch according to claim 1, characterized in that each winding of a two-relay relay is enclosed by a corresponding reverse switch. Sources of information taken into account in the examination 1. Automatic registration USSR certificate No. 289433, kp. O8 C 9 / O4, 1964. 2. Authors {USSR certificate № 597О23, cl. 73/36, O8.01.76 (prototype). 746766