KR930001421Y1 - Metal detection time delay relay driving circuit - Google Patents

Abstract

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Description

Metal detection time delay relay drive circuit

1 is a conventional metal detection time delay relay drive circuit.

2 is a block diagram of a metal detection time delay relay driving circuit according to the present invention.

3 is a metal detection time delay relay driving circuit according to the present invention.

* Explanation of symbols for main parts of the drawings

1: proximity switch 2: relay

3: timer 4: metal object

A: Metal Object Detection Part B: Detection Distance Adjustment Part

C: Amplifier D: Time Delay

E: Delay time setting part F: Driving part

IC: Integrated Circuit SCR ₁ , SCR ₂ : Thyristor

LD1 ~ LD _3: light emitting diode PSW _1: push switch

RY ₁ : Relay PUT: Programmable Union Transistor

VR ₂ , R _d : Variable resistor R _n , R _L , R ₁ ~ R ₅ : Resistance

C ₀ , C _{1 to} C ₃ : Condenser L: Coil

d: reference voltage setting part

The present invention relates to a timer, and more particularly, to a metal detection time delay relay driving circuit for driving a relay after a predetermined time delay after metal detection.

In other words, the present invention is intended to simplify the system by replacing the use of a timer and a relay separately for a certain time delay after detecting a metal object with a proximity switch in an automobile system.

Conventionally, as shown in FIG. 1, a proximity switch 1 for detecting a metal object, a relay 2 driven by a signal detected by the proximity switch 1, and a start from the relay 2 are started. It consists of a timer 3 operated by a (Start) signal.

When the operation state of the configuration circuit is described, the proximity switch 1 detects the metal object 4, drives the relay 2 with the output signal, and applies the start signal to the timer 3 so that the timer 3 The drive outputs a signal from the timer 3 after a delay for the time set in the timer 3.

However, in the conventional circuit as described above, three separate products such as a proximity switch, a relay, and a timer may be miswired when the system is configured, and the area occupied by the component may be increased. In order to solve this disadvantage, the present invention is composed of one proximity switch, a relay and a timer. Hereinafter, described in detail with reference to the accompanying drawings. First, the configuration of the present invention will be briefly described with reference to the block diagram of FIG. It is applied to the time delay unit (D) through the delay time setting unit (E) is connected to the time delay unit (D) and the output of the time delay unit (D) is connected to the drive unit (F).

If this is described in detail with reference to the circuit diagram of FIG. The power supply is connected to the integrated circuit (IC) terminal 3 of the amplifier (C) consisting of the integrated circuit (IC), the capacitor (C ₁ ), and the resistor (R _L ) through the light emitting diode (LD ₁ ) and at the same time the push switch An anode of the relay RY ₁ and the thyristor SCR ₁ of the driving unit F composed of the relay RY ₁ , the light emitting diode LD ₂ , and the silicon lontrolled rectifier SCR ₂ through PSW ₁ . It is commonly connected to the wood, and the variable resistor R _d for detecting the detection distance of the detection distance adjusting unit B is connected to terminal 13 of the integrated circuit IC, and terminal 14 of the integrated circuit IC connects the resistor R _h . Connected to the '-' potential, and terminal 16 of the integrated circuit (IC) is connected to the '-' potential through the parallel connection of the coil (L) and condenser (C ₀ ), and terminal 4 of the integrated circuit (IC) Is connected to the '-' potential through the capacitor (C ₁ ), terminal 15 of the integrated circuit (IC) is directly connected to the '-' potential, and terminal 2 of the integrated circuit (IC) is the gate of the thyristor (SCR ₁ ). Wow At the same time it is connected to the '-' potential through the resistor (R _L ) and the cathode of the thyristor (SCR ₁ ) is connected to the resistor (R ₁ ) and the delay time setting variable resistor (VR ₂ ) and through the light emitting diode (LD ₃ ). It is connected to the resistor (R ₁ ) of the delay time setting unit (D) composed of the capacitor (C ₂ ) and consists of a resistor (R ₃ to R ₅ ) capacitor (C ₃ ) and a programmable unijuction transistor (PUT). The resistor R ₅ is simultaneously connected to the resistor R ₅ of the time delay unit D, and the resistor R ₁ is connected to the gate of the PUT through the variable resistor VR ₃ for setting the delay time, and at the same time the '-' potential Is connected to the connected capacitor (C ₂ ) of the PUT and the anode of the PUT is commonly connected to the resistor (R ₄ ) and the resistor (R ₅ ) connected to the '-' potential and at the same time through the capacitor (C ₃ ) Connected to the gate of (PUT) and the cathode of the PUT are connected to the gate of the thyristor (SCR ₂ ), and at the same time connected to the '-' potential through the resistor (R ₃ ) The cathode of SCR ₂ is connected to the '-' potential, the anode of the thyristor SCR ₂ is connected to the cathode of the light emitting diode LD ₂ , and the anode of the light emitting diode LD ₁ is connected to the relay ( RY ₁ ) is connected configuration.

In the circuit, the PUT is a programmable unit transistor, and when the gate voltage is higher than the anode voltage based on the voltage set in the anode, the PUUT is 'on' so that the current charged in the gate is transferred to the cathode. Discharged. Referring to the operation state of the configuration circuit, first, by adjusting the detection distance of the metal object with the variable resistor (R _d ), the delay time is set by the variable resistor (VR ₂ ), and when power is applied to the light emitting diode (LD ₁ ). Lights up to indicate the product's operating status. When the metal object is detected by the coil L of the metal object detecting unit A, the output terminal (terminal 2) of the integrated circuit IC is high in a low state via the internal circuit of the integrated circuit IC. ) State. "Hi" of integrated circuit (IC) according to the output signal is thereby driving the riseuteon (SCR ₁₎ between is applied to the gate (Gate) terminals of the thyristor (SCR ₁₎ between the less (SCR ₁₎ When the on-resistance (R ₁ , R ₅ , R ₄ ) Variable resistor (VR ₂ ) Capacitor (C ₂ ) is supplied with power, but the power by resistors (R ₅ , R ₄ ) is the standard for the operation of PUT (PUT: Programmable unijuction Transistor) and the electric potential, the resistance (R ₁₎ and a capacitor (C ₂₎ by the power supply applied through a variable resistor (VR ₂₎ is charged. At this time, the time for the capacitor C ₂ to be charged and equal to the potential of the resistor R ₄ is a time delay time. When the potential of the capacitor C ₂ and the resistor R ₄ is equal to each other, when the PUT operates, the current charged in the capacitor C ₂ is discharged and applied to the gate of the thyristor SCR ₃ , so that the thyristor SCR ₂ ) Is driven.

When the thyristor SCR ₂ is driven, current flows from the '+' potential to the '-' potential through the relay RY ₁ and the light emitting diode LD ₂ thyristor SCR ₂ so that the relay RY ₁ operates and emits light. The diode LD ₂ is lit to indicate the operating state of the relay RY ₁ . At this time, the relay RY ₁ maintains the conduction state until the power is cut off by the push switch PSW ₁ .

Therefore, the present invention is composed of three products, such as proximity switch, relay, timer, etc. into one product, so there is an effect of eliminating erroneous wiring and reducing the area occupied by parts.

Claims (2)

A detection distance adjusting unit (B) for freely adjusting the proximity distance of the metal object, a metal object detecting unit (A) for detecting a metal object whose detection distance is adjusted by the detection distance adjusting unit (B), and an integrated circuit (IC). And an amplifying unit (C) for operating the time delay unit (D) by receiving an output of the metal object detecting unit (A) and operating the time delay unit (D), a delay time setting unit (E) for setting a delay time, and the amplifying unit A signal delayed and output by the time delay unit D, which is operated by the output of (C) and delays for a time set by the delay time setting unit E, and then outputs a signal; And a push switch (PSW ₁ ) for driving the drive unit (F) and the relay (RY ₁ ) of the drive unit (F) to an initial state. The power supply unit of claim 1, wherein the time delay unit D is applied through a reference voltage setting unit d for setting a reference voltage of the PUT, a resistor R ₁ , and a variable resistor VR ₂ . When the gate terminal applied voltage is higher than the reference voltage of the anode terminal compared with the reference voltage applied to the anode terminal receiving the charging voltage of the capacitor (C ₂ ) of the delay time setting unit (E) to receive the charge A metal detection time delay relay driving circuit comprising a PUT (PUT) which is electrically connected and drives the driving unit (F).