CS217542B1 - Contactless switch wiring for thyristor circular counter with cathode output - Google Patents

Abstract

The invention relates to the connection of a contactless switch for a thyristor ring counter with an output in the cathode. The connection according to the invention is characterized in that the output from the thyristor cathode is connected via a diode to the beginning of the primary winding of the isolating transformer. The end of the transformer is connected via a common interrupter to the second pole of the source, while the secondary winding of the transformer is connected to the control electrode of the triac, which has an output at the terminals. Thyristor ring counters are used in simpler automatics, such as in the program control of machines and devices, where the emphasis is placed primarily on reliability and economic aspects, i.e. for example in the control of assembly lines for the production of radial car tires.

Description

The present invention relates to a contact-less switch for a thyristor ring counter with a cathode output.

The circuit according to the invention is characterized in that the output of the thyristor cathode is connected via a diode to the beginning of the primary winding of the isolation transformer.

The end of the transformer is connected via a common breaker to the second pole of the source, the secondary winding of the transformer being connected to a triac control electrode having an output at the terminals.

Thyristor circular counters are used in simpler automation, such as in program control of machines and equipment, where the emphasis is primarily on reliability and economic aspects, ie for example in the production of ready-made lines for the production of radial car tires.

The present invention relates to a contact-less switch for a thyristor ring counter with a cathode output.

Thyristor circular counters are used in simpler automation, such as in program control of machines and equipment, where the emphasis is primarily on reliability and economic aspects, ie for example in the production of ready-made lines for the production of radial car tires.

The thyristor counter according to AO 183 501 is supplied by a low DC voltage, in the range of 12 to 48 V, and its outputs can be loaded with a considerable current limited only by the type of thyristors.

If there is a need for counter outputs to control loads at a higher voltage level or directly on the 220 V mains voltage, relays or thyristor switches must be used for galvanic isolation of the switching circuits.

In the first case, the disadvantage is the use of a contact element, in the second case the cost and size of the device when using a plurality of these switches.

The thyristor switches in a conventional circuit consist of an oscillator with a power supply, an isolation transformer and a switching element itself. This of course increases the cost and dimensions of the switch.

The above-mentioned drawbacks are substantially eliminated by the wiring of a contactless switch for a thyristor counter with an output in the cathode according to the invention. The circuitry is characterized in that the output of the thyristor cathode is connected via a diode to the beginning of the primary winding of the isolation transformer, the end of which is connected via a common breaker to the second source field.

The invention solves the problem by substantially reducing the number of parts required. Each switch contains a isolation transformer and a switching element - triac or thyristor. Oscillators are replaced by an electronic interrupter common to all switches used.

This saves parts and simplifies wiring.

An exemplary embodiment of a contactless switch circuit for a thyristor circular counter with a cathode output according to the invention is further schematically shown in the attached drawing.

The contactless switch with the third and fourth output terminals 2, 8 is realized by a triac 6, whose control electrode is connected to the secondary winding of the isolation transformer 4.

This ensures galvanic separation of the control input of the switch from the switched load. The start of the primary winding of the isolation transformer 43 is connected via diode J and the first output terminal 2 to the cathode of the thyristors J, which is simply one stage of a thyristor ring counter.

The end of the primary winding is connected to a common breaker 2. At this point the ends of the primary windings of the transformers of all connected switches are also connected, as shown in the attached drawing. The breaker 2 forms a transistor self-oscillating switch. The breaker periodically disconnects the primary winding of the isolation transformers from the grounded pole of the power supply supplying the thyristor ring counter. If the output of counter ring 2 has a voltage, the current passing through the diode J, and the primary winding of an isolation transformer 4 periodically interrupted interrupter 2- ^{T he} at the secondary winding of the transformer 4 shows alternating hjapětí which cause the triac 6 connects the third and fourth Output terminal 2) § ·

If the voltage at the first output terminal 2 is lost, the alternating voltage on the secondary winding of the transformer 4 also ceases and the triac 6 disconnects the third and fourth output terminals 2, 8. The diode J prevents the output from being influenced by the common node of the reverser! 2 · ^if using diode matrix program replaces diode J programming pin.

Claims (1)

Contactless switch wiring for a thyristor ring counter with cathode output, characterized in that the first output terminal (2) of the thyristor cathode (1) is connected via a diode (3) to the start of the primary winding of the isolation transformer (4) a transformer secondary winding (4) is connected to a triac control electrode (6) having an output at the third and fourth output terminals (7, 8).