KR0124345Y1 - A circuit for using acb sequence in common - Google Patents

Abstract

The present invention, in the drive circuit of the ACB (Air Circuit Breaker) used as the parking circuit breaker (main circuit breaker) of the emergency generator operation panel, the common circuit of the ACB driving circuit is used, and different circuits by externally processing terminals and connectors The present invention relates to an ACB sequence common circuit that is applicable regardless of the type of ACB device and makes the relay board compatible with the sequence. The ACB device is connected between the terminal P and the terminal N of the ACB device 16 to control the ACB device. The ACB device drive signal transfer circuit 26 and the ACB device drive circuit transfer circuit 26 are controlled to the ACB device drive sequence circuit 28 for selectively inputting the commercial power and the generated power to the ACB device 16. Characterized in that configured.

Description

ACB sequence common circuit

1 is an ACB sequence common circuit diagram according to the present invention.

2 is a conventional ACB sequence driving circuit diagram.

3 is an ACB sequence driving circuit diagram in which a conventional input power source is a direct current power source.

* Explanation of symbols for main parts of the drawings

8: Automatic / manual selection switch 9,12: 1st and 2nd manual button

10: contact a a of the auxiliary relay 84X1 of the generation power detection timer 84T1

11: contact b of commercial power supply redundancy detection timer (27T1)

13: contact a of commercial power supply redundancy detection timer (84T1)

14 engine stop button 15 contact a contact of fault signal relay 86Y

16: ACB (52G) Device

17: contact a of the commercial power outage detection relay 27

18: auxiliary contact point of ACB device (52G)

19: contact a of the power generation detection relay 84

20: diode device group 22: light emitting diode device group

24: operation display lamp circuit 26: ACB device drive signal transmission circuit

28: ACB device driving sequence circuit

The present invention relates to the ACB sequence common circuit, in particular, in the drive circuit of the ACB (Air Circuit Breaker) used as the main circuit breaker of the emergency generator operating panel, the common circuit among the ACB driving circuits is used, The present invention relates to the ACB sequence common circuit, which is applied externally regardless of the type of the ACB device by externally processing terminals and connectors, and makes the relay board for the sequence compatible.

2 is a conventional ACB sequence driving circuit. In the ACB device driving signal transmission circuit, first, when the commercial power supply 220VAC is applied, if the automatic / manual selection switch 50 is automatically selected, the commercial power is automatically supplied. The automatic terminal 4 of the manual selection switch 50 and the contact point 57 of the auxiliary relay of the commercial power supply redundancy detection timer 27T1 are inputted to the terminal PT for the blocking signal of the ACB device 62.

When the automatic / manual selection switch 50 is manually selected, the commercial power supply is connected to the ACB device 62 through the manual terminal 3 of the automatic / manual selection switch 50 and the second manual button 57. The cutoff signal is input to the PT.

Further, in the ACB device drive circuit transfer circuit, if the automatic / manual selection switch 50 is automatically selected when the generation power source (220VAC) is applied, the commercial power is automatically set by the automatic / manual selection switch 50. Contact point a of the terminal 2, the generator contact point 84T1 a contact 54, the auxiliary contact point 55 of the commercial power supply redundancy detection timer 27T1, and the fault signal transmission relays 86-1 and 86-2. ) Is input to the input signal terminal PC of the ACB device 62 through the contact b.

When the automatic / manual selection switch 50 is manually selected, the generation power is supplied to the manual terminal 1 of the automatic / manual selection switch 50, the first manual button 52 and the failure signal transmission relay 86-1. Through the contact point 60 of the 86-2, input to the input signal terminal PC of the ACB device 62.

In addition, the commercial power supply and the generated power supply is a terminal for the blocking signal through a contact 58 of the auxiliary relay 86X of the fault signal transmission relay 86T and a contact 59 of the fault signal transmission relay 86-2. (PT) will be entered.

On the other hand, in the ACB device driving sequence circuit, when a commercial power source is applied, the battery power source P24 is connected to the commercial power recovery detection timer 27T1 and the commercial power source through the a contact point 80 of the commercial power failure detection relay 27. It is input to the auxiliary relay 27X3 of the sleep detection timer 27T3.

Subsequently, when the commercial power recovery detection timer 27T1 is operated, the battery power supply P24 is the auxiliary relay of the commercial power recovery detection timer 27T1 through a contact 82 of the commercial power recovery detection time 27T1. It is inputted as (27X1).

In addition, in the ACB device driving sequence circuit 28, when the generation power is applied, the battery power supply P24 generates power through the contact a of the auxiliary relay 84X of the generation clock detection point 84T 84A. It is input to the power detection timers 84T1 and 84T2.

Then, the battery power source P24 is inputted to the opening / closing indicator lamp GL (group) of the ACB device through the auxiliary contact 86 of the ACB device 62.

3 is a conventional input power supply is a direct current power supply is an ACB sequence driving circuit, where reference numeral 100 is an automatic / manual selection switch, 102 and 106 are first and second manual buttons, and 104 is a a of a power supply detection timer 84T1. Contact point 105 is contact b of auxiliary relay of commercial power supply detection timer 27T1, point 107 is point a contact of auxiliary relay of commercial power supply detection timer 27T1, 108 is contact a of auxiliary relay 86X, and 109 is faulty. Contact a of signal transmission relay 86-2, 110, contact b of fault signal transmission relays 86-1 and 86-2, 112, ACB device, 130, contact a of commercial power failure detection relay 27, 132 is a contact point of the commercial power supply redundancy detection timer 27T1, 134 is a contact point of the auxiliary relay 84X of the power generation power detecting delay time clock 84T, and 136 is an auxiliary contact point of the ACB device 62.

As described above, in the conventional ACB driving circuit, the internal sequence operates differently according to the type of power input to the ACB device, for example, DC and AC power.

In addition, circuits such as a trip circuit of an ACB device and an ACB drive power input circuit have different terminal processing methods for each manufacturer. Therefore, when the drive sequence is configured for each manufacturer for each ACB device, the number of relay boards for the ACB sequence increases by the type of ACB, resulting in a problem of compatibility of the product in terms of management, thereby degrading efficient operation.

In addition, there are various types of circuits in terms of maintenance and management, resulting in confusion for workers.

The present invention is to solve the above problems, the common circuit of the ACB driving circuit in the drive circuit of the ACB (Air Circuit Breaker) used as the main circuit breaker of the non-use generator operating panel is used and different The purpose of the circuit is to provide an ACB sequence common circuit that can be applied regardless of the type of ACB device by externally processing terminals and connectors, and that the relay board for sequence is compatible.

The present invention for achieving the above object, the ACB device drive signal transmission circuit for controlling the ACB device while being connected between the terminal and the terminal of the ACB device, and the ACB device drive signal transmission circuit to control the commercial power and Characterized in that it consists of a drive sequence circuit of the ACB device for selectively inputting the generation power to the ACB device.

The ACB device drive signal transmission circuit further includes a first manual button connected between a manual terminal of an automatic / manual selection switch and an input signal terminal of the ACB device, and a terminal between a manual terminal of an automatic / manual selection switch and a terminal for a disconnect signal of the ACB device. Contact point a of the auxiliary relay of the generator power detection timer connected in series between the second manual button to be connected, the automatic terminal of the automatic / manual selection switch, and the input signal terminal of the ACB device, and the contact b of the commercial power recovery detection timer, and automatic / manual Contact point a of the commercial power supply redundancy detection timer connected between the automatic terminal of the selector switch and the terminal for disconnection signal of the ACB device, and the engine stop button connected in parallel between the input power and charging terminal (P) of the ACB unit and the terminal for the disconnection signal. Characterized in that it consists of a contact of the signal relay.

In addition, the ACB device driving sequence circuit applies a commercial power supply redundancy detection timer and a generation power supply in which the battery power is applied from the contact a of the commercial power outage detection relay turned on when the commercial power is applied, and the contact a of the commercial power outage detection relay. From the contact a of the generator detection relay to be turned on, from the contact a of the generator detection relay, the generator power supply timer to which the battery power is applied, and from the contact b of the auxiliary contact of the ACB unit during operation of the generator power detection timer. It is characterized in that it is configured to include an operation display lamp circuit for the battery power is input and the battery power is input through the auxiliary relay of the power generation power detection timer to which power is input, and the auxiliary contact of the ACB device.

In addition, the operation table lamp circuit is characterized by consisting of a diode element group and a light emitting diode element group.

The present invention configured as described above relates to the form of the ACB apparatus by using a common circuit among the ACB driving circuits in the ACB driving circuit used as the parking terminal of the emergency generator operation panel and externally processing terminals and connectors for different circuits. In addition to being applied without, the sequence relay board becomes compatible.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an ACB sequence shared circuit according to the present invention, the circuit being connected between the terminal (P) and the terminal (N) of the ACB device 16 and the ACB device drive signal transmission circuit 26 for controlling the ACB device; And the ACB device drive sequence circuit 28 which controls the ACB device drive signal transmission circuit 26 to selectively input the commercial power and the generated power to the ACB device 16.

Further, the ACB device drive signal transmission circuit 26 has a first manual button 9 connected between the manual terminal 1 of the automatic / manual selection switch 8 and the input signal terminal PC of the ACB device 16. And automatic of the second manual button 12 and the automatic / manual selection switch 8 connected between the manual terminal 1 of the automatic / manual selection switch 8 and the terminal PC for disconnection signal of the ACB device 16; Contact a of the auxiliary relay 84X1 of the power generation power detecting timer 84T1 and the commercial power supply double sensing time 27T1 connected in series between the terminal 2 and the input signal terminal PC of the ACB device 16 in series. Contact a of the commercial power supply redundancy detection timer 27T1 connected between the contact b of the contact 11, the automatic terminal 2 of the automatic / manual selection switch 8, and the terminal PC for the blocking signal of the ACB device 16. And an abutment 15 of the engine stop button 14 and the fault signal transmission relay 86Y connected in parallel between the input power supply and the charging terminal P of the ACB device 16 and the terminal PT for the blocking signal. It is composed.

In addition, the ACB device driving sequence circuit 28 has a contact 17 of the commercial power failure detection relay 27 which is turned on when commercial power is applied, and a contact 17 of the commercial power failure detection relay 27. A contact point 19 of the commercial power supply redundancy detection timer 27T1 to which the battery power supply P24 is applied from the power supply detection relay 84, which is in the ON state when the generation power supply is applied, and the a of the power generation power detection relay 84. The battery from the contact b of the auxiliary contact 18 (52G) of the ACB device 16 during operation of the power generation power detecting timer 84T1 to which the battery power source P24 is applied from the contact 19, and the power generation power detecting timer 84T1. The battery power P24 is input through the auxiliary relay 84X1 of the power generation power detecting timer 84T1 to which the power P24 is input, and the auxiliary contact 18 of the ACB device 16, and the battery power P25 is supplied. And an operation display lamp circuit 24 to be input.

The operation table lamp 24 is composed of a diode element group 20 and a light emitting diode element group 22.

First, in the ACB device drive signal transmission circuit 26, if the automatic / manual selection switch 8 is automatically selected when commercial power is applied, the commercial power is an automatic terminal of the automatic / manual selection switch 8; (2) and a contact signal (PT) of the ACB device 16 through the contact a 13 of the auxiliary relay of the commercial power supply detection timer 27T1.

When the automatic / manual selection switch 8 is manually selected, the commercial power source is connected to the ACB device 16 through the manual terminal 1 and the second manual button 12 of the automatic / manual selection switch 8. Input to cutoff signal terminal PT.

Further, in the ACB device drive signal transmission circuit, if the automatic / manual selection switch 8 is automatically selected when generating power is applied, the commercial power supply is automatically connected to the automatic terminal 2 of the automatic / manual selection switch 8. ) And the input signal terminal of the ACB device 16 through the contact a of the auxiliary relay 84X of the generation power detecting delay clock relay 84T and the contact b of the commercial power supply detection timer 27T1. (PC) will be entered.

When the automatic / manual selection switch 8 is manually selected, the generation power is input to the input signal terminal PC of the ACB device 16 through the manual residue 1 of the automatic / manual selection switch 8. Will be.

In addition, the commercial power and the power generation power are input to the blocking signal terminal P-T through the contact point 15 of the engine stop button 14 and the failure signal transmission relay 86Y.

On the other hand, in the ACB device driving sequence circuit 28, when a commercial power source is applied, the battery power source P24 passes through the a contact point 17 of the commercial power failure detection relay 27, and the commercial power recovery detection timer 27T1. Will be entered.

In addition, in the ACB device driving sequence circuit 28, when generation power is applied, the battery power supply P24 is input to the generation power detection timer 84T1 through the contact a19 of the generation power monitoring relay 84. Will be.

In addition, the auxiliary relay 84X1 of the generation power detection timer 84T1 to which the battery power supply P24 is input from the b contact of the auxiliary contact 18 (52G) of the ACB device 16 during the operation of the generation power detection timer 84T1. Will be entered.

The battery power source P24 is input to the operation display lamp circuit 24 through the auxiliary contact 18 of the ACB device 16, and the battery power source P25 is input to the operation display lamp circuit 24. By operating the operation display lamp circuit 24, it is possible to know the type of power applied to the light emitting diode.

As described above, according to the present invention, in the ACB driving circuit used as the parking short circuit of the emergency generator operation panel, the common circuit among the ACB driving circuits is used, and the different circuits are externally connected to the terminal and the connector to relate to the shape of the ACB apparatus. In addition to being applied without, the sequence relay board becomes compatible.

Claims (4)

The ACB device drive signal transmission circuit 26, which is connected between the terminal P and the terminal N of the ACB device 16 and controls the ACB device, controls the ACB device drive signal transmission circuit 26 to control the commercially available. ACB sequence common circuit, characterized in that consisting of the ACB device driving sequence circuit 28 for selectively inputting the power and the generated power to the ACB device (16). 2. The first manual drive of claim 1, wherein the ACB device drive signal transmission circuit (26) is connected between a manual terminal (1) of the automatic / manual selection switch (8) and an input signal terminal (PC) of the ACB device (16). Second manual button 12 and automatic / manual selection switch connected between the button 9 and the manual terminal 1 of the automatic / manual selection switch 8 and the terminal PC for disconnection signal of the ACB device 16; Contact a of the auxiliary relay 84X1 of the generation power detection timer 84T1 and the commercial power return detection of the generation power supply timer 84T1 connected in series between the automatic terminal 2 of 8) and the input signal terminal PC of the ACB device 16. Of the commercial power supply redundancy detection timer 27T1 connected between the b contact 11 of the timer 27T1, the automatic terminal 2 of the automatic / manual selection switch 8 and the terminal PC for disconnection signal of the ACB device 16; aa contact of the engine stop button 14 and the fault signal transmission relay 86Y connected in parallel between the contact 13 and the input power supply and charging terminal P of the ACB device 16 and the disconnection signal terminal PT. Consisting of (15) ACB sequence common circuit, characterized in that. 2. The ACB device driving sequence circuit 28 according to claim 1, wherein the ACB device driving sequence circuit 28 is the contact a of the commercial power failure detection relay 27, which is turned on when commercial power is applied, and a of the commercial power failure detection relay 27. Contact point a of the commercial power supply redundancy detection timer 27T1 to which the battery power supply P24 is applied from the contact point 17, the power generation power detecting relay 84 to be turned on when the power supply power is applied, and this power generation power detecting relay ( Of the auxiliary contact point 18 (52G) of the ACB device 16 during operation of the generation power source detection timer 84T1 to which the battery power source P24 is applied from the contact point a of the base unit 84). The battery power supply P24 is input through the auxiliary relay 84X1 of the generation power detection timer 84T1 to which the battery power supply P24 is input from the contact b, and the auxiliary contact 18 of the ACB device 16, and the battery power supply P24 is input. And an operation display lamp circuit 24 to which (P25) is inputted. 4. The ACB sequence shared circuit according to claim 3, wherein the operation table lamp circuit (24) comprises a diode device group (20) and a light emitting diode device group (22).