KR940000203Y1 - Maloperation preventing circuit used plc - Google Patents

Abstract

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Description

Malfunction prevention circuit of device using PLC

1 is a conventional circuit diagram.

2 and 3 are circuit diagrams of the present invention.

* Explanation of symbols for main parts of the drawings

1: PLC CPU 2, 2a: PLC output unit

3: PLC input unit MC ₁ -MC ₃ : Micro switch

R ₁ -R ₃ : Relay

The present invention relates to a malfunction prevention circuit of a device using a programmable logic controller (PLC). In particular, when initial power is simultaneously supplied to the PLC main body and the peripherals, the delay time and the rising time of the PLC main body and the peripherals are increased. It is a circuit to prevent the malfunction of peripheral electronics temporarily.

A conventional PLC-based device is input to a peripheral electronic device consisting of a PLC CPU 10 and an actuator such as a relay R ₁₀ or a solenoid valve and electromagnetic contactors MC ₁₀ , MC ₁₁ , as shown in FIG. 1. It is configured to be powered together.

Accordingly, the power supply of the PLC CPU 10 reaches 100% by simultaneously supplying power to the PLC CPU ₁₀ and the relay R ₁₀ , the solenoid valve, the solenoid valve, the magnetic contactor MC ₁₀ , and the MC ₁₁ . As a result, the unstable operation signal of the PLC itself is output as it is to the peripheral through the PLC output unit 11 for a time required before the PLC normally executes the program inside the PLC CPU 10.

As described above, according to the related art, the PLC output signal during the unstable area remains unchanged until the power supply is 100% after the power connected to the PLC CPU 10 is turned on, so that the PLC normally executes the internal program of the PLC CPU 10. There is a problem in that the electrical equipment is applied to the surrounding electrical equipment instantaneously causing an unwanted malfunction.

In particular, when the internal program processing speed of the PLC CPU 10 is slow, the probability of malfunction is higher.

The object of the present invention is to provide a circuit which can prevent the temporary unstable operation of the peripheral electronics at the time of initial power-up in a device using a PLC to eliminate the above problems.

In order to achieve the above object, the present invention is installed inside the PLC main body, and when the power is completely supplied to the PLC main body, a first relay indicating that the PLC is in normal operation, and installed between the PLC and the external actuator and the first relay A second switch for supplying power to an external actuator by being interlocked with the start switch, and a start switch connected in series with a contact of the second relay and manually turned on to start supplying power to an external actuator through the second relay And a series connection between the second relay and the start switch for self-maintaining a state in which the plurality of contacts are closed by being connected in series with the contact of the second relay and being interlocked with the start switch. Supplying power to an external actuator by opening a plurality of contacts of the microswitch. And comprising a stop switch for blocking in the shortest possible time.

This will be described with reference to FIGS. 2 and 3.

2 shows a circuit diagram when only alternating current is used as the supply power source, and shows a state in which the PLC CPU 1, the relay R ₃ , which is an external actuator, and the micro switches MC ₂ and MC ₃ are connected to the same AC power source.

3 is a circuit diagram when AC and DC power are shared as a supply power supply. The PLC CPU 1 and the external actuator relay R ₃ and the micro switches MC ₂ and MC ₃ are connected to the same power supply. It is shown.

In addition, when the initial power is turned on, the PLC is normally supplied through the internal relay R ₄ of the PLC CPU 1 and the relay R _{1 turned} on by the PLC output unit 2 without being directly supplied to the external actuator. After confirming that the program is being executed, the external actuator relay R ₃ and the micro switch MC ₂ and MC ₃ are closed by closing the contacts MC _a of the micro switch MC ₁ by the start switch SW ₁ . It is configured to control the power supply to the furnace.

Further, by opening the contacts MC _a of the micro switch MC ₁ by the stop switch SW ₂ , the relay R ₃ and the micro switch MC, which are external actuators, regardless of the program inside the PLC CPU 1. ₂ , MC ₃ ) to cut off the power supply.

Here, reference numeral 3 denotes a PLC input unit, and 2a denotes a PLC output unit for supplying power to an external actuator.

The operation of this is as follows.

When the power is first supplied, the PLC CPU 1 immediately executes the internal program.

At this time, it takes a predetermined time (several to several microseconds) for the PLC CPU 1 to normally execute the internal program immediately after the power is turned on. During this time, the external actuators, which are peripherals, may malfunction.

Therefore, as shown in FIG. 2 and FIG. 3, when the power is completely supplied to the PLC CPU 1 to confirm that the PLC is normally executing the program, the relay R ₁ of the special function installed thereafter is turned on. When the external relay R ₂ interlocked by the output unit 2 of the PLC is turned on, the contact R _2a of the relay R ₂ is closed.

That is, the external relay R ₃ and the micro switches MC ₂ and MC ₃ , which are peripherals, are completely separated from the power source until the PLC normally executes the internal program.

As such, when the start switch SW ₁ is pressed while the relay R ₂ is turned on, the micro switch MC ₁ is operated and the contact point of the micro switch MC ₁ connected in parallel with the start switch SW ₁ . (MC _a ) are obstructed and self-sustaining.

From this time, the external actuator relay R ₃ and the micro switches MC ₂ and MC ₃ can be controlled, and thus unstable operation during initial power-on is eliminated.

In addition, when the stop switch SW ₂ is turned on, the contact MC _a of the micro switch MC ₁ is opened regardless of the progress state of the internal program of the PLC CPU 1. Therefore, the relay switch R _{3, which} is a peripheral electric component, is opened. It is possible to stop the operation of the micro switches MC ₂ and MC ₃ in the shortest time.

As described above, according to the present invention, since the PLC CPU 1 normally controls the operation of the peripheral electronics after confirming through the relay R ₂ that the internal program is normally executed, the peripheral electrical components at the initial power-on are unstable. Since the operating area can be removed, the reliability of the equipment can be improved.

Claims (1)

In the device using the PLC, it is installed inside the PLC CPU and is connected between the first relay and the first relay which is turned on when the initial power is supplied and the power is completely supplied to the PLC and becomes a normal operation state. , The second relay which operates to supply power applied to the PLC to the external actuator when it is turned on, and is connected to the second relay and is manually turned on and off, and supplies power to the external actuator after confirming the on state of the second relay. PLC comprising a start switch for starting the switch, and a stop switch connected between the start switch and the second relay and manually turned on and off, and when turned on, to stop the power supply of the external actuator regardless of the PLC operation. Malfunction prevention circuit of device using