KR910002456B1 - Voltage relay - Google Patents

Abstract

This is designed specifically for protection function to phase reversal, over voltage, under-voltage and fireezing as well as indicating function of operations. Also it is possible to indicate voltage using LED and putentiometer, and to show sign "NOVOLT RELEASES". This meter has also battery back-up (BD) to LEDs for the electricity failure. The meter is composed of three principal sensing circuits, i.e. over-voltage, under-voltage sensing circuits connected to dc out-port of diode bridge (BD2) with TR1 and TR2, ad phase reversal sensing circuit connected to the R.T.S. terminal of 30 source through three transistors (TR3). The detector signal output TR1 and TR2 are inverted by 'NOT' gate to turn-on LEDS. The phase reversal circuits ends up with emitting photocoupler (PC) through zenordiode (ZD3) inverting NOT gate O4.

Description

Electronic voltage relay

The accompanying drawings are circuit diagrams of embodiments for explaining the invention.

* Explanation of symbols for main parts of the drawings

L ₁ , L ₂ : Operation power supply terminal TR: Power supply transformer

BD ₁ , BD ₂ : Bridge diode VR ₁ , VR ₂ , VR ₃ , VR ₄ : Variable resistor

R ₁ -R ₂₆ : Resistor TR ₁ -TR ₅ : Transistor

C ₁ -C ₁₀ : condenser D ₁ -D ₁₈ : diode

Z ₁ -Z ₄ : Zener diode G ₁ -G ₆ : NOT gate

A ₁ -A ₄ : AND gate LED ₁ -LED ₃ : Light emitting diode

PC: Photocoupler RS: Reset Switch

SW: Selection switch RY: Relay

Ta, Tb: Tc: Contact terminal of relay (RY)

R.T.S: Three phase power supply terminal BT: It means battery.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic voltage relay, and in particular, to have a display function during operation while having functions such as reverse phase prevention, phase loss prevention, overvoltage protection and undervoltage prevention.

In addition, it is possible to know the voltage value by the light emitting diode and the variable resistor for setting the voltage, and to provide a voltage relay having the function of NO VOLT RELEASE.

In the past, in order to have the same function as the present invention, a separate overvoltage relay, undervoltage relay, or anti-phase relay, etc. should be installed, thereby finding inconvenience and a lot of space. There was a burden.

Therefore, according to the present invention, it is possible to achieve compactness and compactness while achieving the above object, and thus to have a low cost and a function of a voltmeter.

In addition, when the operating power is turned off due to a power failure, the battery is connected and the battery is normally in a charging state. When an abnormality occurs in the operating power supply, the operating power is supplied continuously to turn on the light emitting diode to continuously operate the operation indicator. It also has a function to turn on, and the operating power is applied to the operating power terminals L ₁ and L ₂ , and the coil of the auxiliary relay is excited, and the contact between the common contact terminal (Tc) and the b contact terminal (Tb) is the common contact terminal ( By moving toward Tc) and a contact terminal (Ta), even if there is an abnormality in the operation power supply side, the electronic voltage relay of the present application operates to protect the device, so that the voltage is always operated at any time and almost close to perfection. It has the function of a protective relay. Hereinafter, the present invention will be described in detail with reference to the circuit diagram of the attached embodiment.

The bridge diode BD ₁ is provided on the secondary side of the power supply transformer TR having the power terminals L ₁ and L ₂ , and the filter capacitor C ₁ , the resistor R ₁ , and the capacitor C ₂ are provided on the DC output side thereof. ) And Zener diode (Z ₁ ) are configured to supply power to each circuit, and resistor (R ₁₆ ) and capacitor (C ₉ ) are arranged in parallel to the input 1 side of AND gate (A ₁ ). It is supplied and simultaneously biased through the reset switch RS, and is connected to the input side of the NOT gates G ₁ and G ₂ through resistors R ₆ and R ₁₁ , respectively, and an emitter grounded transistor TR ₁ and TR ₂ ) are connected to the collector.

In addition, the DC output power of the bridge diode BD ₁ is connected to the collector of the photocoupler PC. At the same time, the DC power is emitter grounded through the diode D ₁₄ and the resistor R ₂₆ . ₅ ) and through the resistor R ₂₄ and the zener diode Z ₄ to the base of the transistor TR ₅ .

On the other hand, the bridge diode BD ₂ is connected between the R phase and the S phase of the signal input terminal RTS, and the resistor R ₂ , the variable resistor VR ₁ , and the resistor R ₃ on the DC output side for overvoltage detection. the ground and the movable terminal of the variable resistor (VR ₁₎ via a resistor (R ₄₎ as soon ground via being connected to the base of the transistor (TR ₁₎ in hanba above through a co-current-limiting resistor (R ₅₎ in the transistor (TR ₁ Condenser (C ₇ ) is connected between the base and the collector of) to constitute an overvoltage detection circuit.

In addition, the DC output side of the bridge diode BD ₂ is grounded through a resistor R ₇ , a variable resistor VR ₃ and a resistor R ₈ , and the movable terminal of the variable resistor VR _{3 is} connected through a resistor R ₉ . The ground voltage is connected to the base of the transistor TR _{2 that} is emitter grounded through the current-limiting resistor R ₁₀ , and a capacitor C ₈ is connected between the base and the collector to form an undervoltage sensing circuit.

The R terminal of the three-phase power supply terminal (RTS) is connected to the collector of the transistor TR ₃ through the resistor R ₁₉ , the emitter is connected to the S terminal through the resistor R ₂₁ , and the T terminal is connected to the capacitor C. ₁₂ ) is connected to the base of the transistor TR ₃ through a resistor R ₂₀ to form a reverse phase detection circuit. In such a reverse-phase detection circuit ₁₇ has a diode D and a resistor R ₂₇ Z ₂ is a Zener diode. In addition, the zener diode Z ₃ and the resistor R ₂₂ are connected to the S terminal in series with the emitter and the S terminal of the transistor TR ₃ , and the light emitting portion of the simultaneous resistor R ₂₂ and the photocoupler PC is Connected in parallel.

On the other hand, the output signal of the overvoltage sensing circuit is connected to the light emitting diode LED ₁ which is an indicator light through the king diode D ₇ and the resistor R ₁₂ through the NOT gate G ₁ for amplification and phase inversion. And a part thereof is connected to one input side of the AND gate A ₄ through the variable resistor VR ₂ and the diode D ₁₈ , and the output of the AND gate A ₁ for the overvoltage indicating latch circuit is connected to the diode D ₄ . Is fed back to one of the inputs and at the anode of diode D ₇ and the other input of AND gate A _{1 together with} the other input side of AND gate A ₃ and A ₂ AND gate A ₄ . It is connected to the output side of.

On the other hand, the under-voltage amplifier and the phase half-only NOT gate (G ₂₎ outputs the time constant variable resistor (VR ₄₎ and parts of King diode with a gate _{AND (D 10) (A 4} ) through the NOT gate (G ₃₎ of the Accumulation prevention diode (D ₂ ) is connected in parallel with the variable resistor (VR ₄ ) as described above. The diode (D ₈ ) is connected to the light emitting diode (LED ₂ ), which is a low voltage indicator, through a resistor (R ₁₃ ). It is grounded. The anode of diode D ₈ is connected to the input side of AND gate A ₂ and its output is bended back through diode D ₅ and the output of NOT gate G ₄ for reverse phase amplification and phase reversal is partially Is grounded through resistor (R ₁₅ ) and capacitor (C ₅ ), and partly grounded through negative locking diode (D ₉ ), resistor (R ₁₄ ) and light emitting diode (LED ₃ ), an image indicator, and diode (D ₆ ) Is feedbacked between the output side and the input side of the AND gate A ₃ . In the drawings, reference numerals C ₃ , C ₄ , C ₅ , C ₆ are capacitors, D ₁ , D ₃ are accumulation preventing diodes, D ₁₃ , D ₁₄ , D ₁₅ , D ₁₆ are diodes, G ₅ , G ₆ is NOT Gate, TR ₄ means transistor SW means select switch, BT means battery, and R ₁₇ , R ₂₂ , R ₂₅ means resistance.

)을 여자하여 접점은 콤폰(Tc)에서 접점(Ta 또는 Tb)로 변환시켜 여기에 연결되는 도시하지 않은 차단기를 제어시킬 수가 있게 되는 것이다.When the overvoltage is detected between the terminals R and S, the signal sensed above the value set by the variable resistor VR ₁ turns on the transistor TR ₁ so that the output of the NOT gate G ₁ is obtained. Becomes " H " to turn on the light emitting diode LED ₁ through the diode D ₇ and simultaneously to the input side of the AND gate A ₄ through the variable resistor VR ₂ and diode D ₁₇ . As a result, the output side becomes "H" and the NOT gate (G ₅ ) is also inverted to "L" and back to "H" again to NOT gate (G ₆ ). Coil of relay (Ry)

Excitation) is converted into a contact (Ta or Tb) from the comb (Tc) to be able to control the breaker (not shown) connected thereto.

When normalized again, the charge charged in the capacitor C ₃ is immediately discharged by the diode D ₁ to invert one side input of the AND gate A ₄ to "L" so that the output of the NOT gate G ₅ is " H ", on the contrary, the output of the NOT gate G ₆ becomes" L ", and the coil 1t of the relay Ry is demagnetized.

Therefore, of course, the contact of the compon terminal (Tc) also changes.

)을 여자하게 되며, 또 역상 감지회로에 있어서는 삼상전원단자(R.T.S)에 역상으로 전류가 흐르는 경우 콘덴서(C₁₂)와 저항(R₂₀)을 통해 트랜지스터(TR₃)의 베이스를 트리거함으로서 단자 R와 S 사이의 전류가 흐르게 되며 제너다이오드(Z₃)를 통해 포토커플러(PC)의 발광축을 발광시키게 되고 수광축에는 도통 상태가 됨으로서 그 신호는 NOT 게이트(G₄)의 출력을 "H"로 반전되어 신호는 다이오드(D₉)를 통해 발광다이오드(LED₃)에 표시됨과 동시 상술한 바와같이 저항(R₁₅)와 다이오드(D₁₁)를 통해 AND 게이트(A₄)의 입력측을 "H"가 되어 과전압 또는 저전압시와 같은 작용을 하게 되는 것이다.In addition, when current below the adjustment value of the variable resistor VR ₃ flows between the terminals RS, this time, the transistor TR ₂ is turned off so that the output of the NOT gate G ₂ becomes “L” and the NOT gate G ₃ is applied. Since the output of "H" becomes the light emitting diode LED ₂ through the diode D ₈ and at the same time the variable resistor VR ₄ and the diode D _{10 of the} AND gate (A ₄ ) as described above. By setting the input shaft on one side to "H", the gravity also becomes "H", and as described above, the coil of the relay Ry (

In the reverse phase detection circuit, when the current flows in the reverse phase to the three-phase power supply terminal (RTS), the terminal R is triggered by triggering the base of the transistor TR ₃ through the capacitor C ₁₂ and the resistor R ₂₀ . The current flows between and S and emits the light emission axis of the photocoupler PC through the zener diode (Z ₃ ), and the conduction state is applied to the light reception axis. Therefore, the signal turns the output of the NOT gate (G ₄ ) to "H". The inverted signal is displayed on the light emitting diode (LED ₃ ) through the diode (D ₉ ) and at the same time as described above, the input side of the AND gate (A ₄ ) through the resistor (R ₁₅ ) and diode (D ₁₁ ) is "H". Will be the same as when overvoltage or undervoltage.

In addition, the battery BT, which is a DC power source, normally has the output of the bridge diode BD ₁ charged through the diode D ₁₄ and the resistor R ₂₅ , and when overcharged, the resistor R ₂₄ and the zener diode ( Z ₄₎ by the emitter triggers the base of the grounding transistor (TR ₅₎ by a resistor (jumyeo discharge through R _25, R ₂₆₎ through a diode (D ₁₆₎ when the AC power supply contacts to control power to each of the gate By supplying light, the LED is kept on and the operation indicator can be maintained for a certain time.

)의 여자 상태를 리셋트코저하는 경우 리세트스위치(RS)를 누름으로서 AND 게이트(A₄)의 입력을 "L"로 함으로서 복구할 수 있고 또 선택스위치(SW)에 의해 극성을 바꾸어 줄 수도 있는 것이다.The coil of the relay

In the case of resetting the exciting state of), it is possible to restore the input of the AND gate (A ₄ ) to "L" by pressing the reset switch (RS) and change the polarity by the selection switch (SW). It could be.

Therefore, according to the present invention, not only can the voltage value be read by the display light emitting diode and the variable resistor for voltage setting, but also the NO VOLT RELEASE function can be obtained. And it is characterized in that it is possible to prevent the loss of the device by the planting voltage.

Claims (5)

Overvoltage detection circuit and undervoltage detection circuit by variable resistor are composed on DC secondary side of bridge diode between Samsung power supply terminal RS, and reverse phase detection circuit is composed, and the output of each circuit is inverted by NOT gate to light LED. At the same time, the AND gate, which is fed back to the diode, is connected, and the signal is supplied to one input of the AND gate (A ₄ ) to invert the generated signal to the NOT gate to excite the coil of the relay. An electronic voltage relay, characterized in that to supply power to the circuit. The overvoltage sensing circuit of claim ₁ is configured to conduct an emitter grounded transistor TR ₁ through a resistor R ₅ to a movable terminal of the variable resistor VR ₁ , and outputs the NOT gate G _1. And inverts to the input side of the light emitting diode (LED ₁ ) and the AND gate (A ₄ ). The undervoltage detection circuit of claim 1, wherein the undervoltage detecting circuit has a resistor R ₁₀ connected between the movable terminal of the variable resistor VR ₃ and the base of the emitter grounded transistor TR ₂ and its output is a NOT gate. An electronic voltage relay inverted into (G ₂ ) and (G ₃ ) to be sent to the input side of the light emitting diode (LED ₂ ) and the AND gate (A ₄ ). The reverse phase sensing circuit of claim 1 has a capacitor C ₁₂ and a resistor R ₂₀ connected to a base of a transistor TR ₃ at a terminal T, and an emitter connected to a photodiode through a zener diode ZD ₃ . An electronic voltage relay that emits light from a coupler (PC) to invert the NOT gate (G ₄ ). The method according to claim 1, wherein the battery BD is charged with the DC output power of the bridge diode BD ₁ between the operation power sources L ₁ and L ₂ and the power is supplied to each circuit by the DC power supply of the battery. Electronic voltage relay.

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