KR100806875B1 - Control panel for the gas leakage detectors having battery charging circuit - Google Patents

Abstract

A gas leakage detecting control panel equipped with a battery charging circuit is provided to guarantee uninterruptible operation by using constant voltage power transformed from external DC power as operational power of a receiver for a gas leakage detector and the power charging a rechargeable battery, and operating the receiver with the power charged in the battery. A constant voltage transformer(38) receives and transforms external DC power into first constant voltage power. A power supply/battery charging unit(36) supplies the constant voltage power to a control panel when the first constant voltage power is received from the constant voltage transformer, and supplies the power of the battery(37) to a receiver when the first constant voltage power is received. The battery is connected to a power supply/battery charging unit and is charged by the higher second constant voltage power than the first constant voltage power. Receiving ports(31) receive an output signal of the gas leakage detectors(1). A controller(35) calculates gas concentration according to the output signal of the gas leakage detectors. A display part(30) displays the gas concentration of the gas leakage detectors.

Description

Control panel for the gas leak detectors having battery charging circuit

1 is a block diagram of a gas leakage detector receiving panel 3 having a battery charging circuit and a gas leakage detector 1 connected to the receiving panel according to the present invention.

2 and 3 are circuit diagrams of a power supply and a battery charging unit 36 of a gas leakage detector receiving panel having a battery charging circuit according to the present invention, and FIG. 2 is a view illustrating the power supply of the receiving panel through the power input terminal 366. FIG. 3 illustrates a case in which the battery is simultaneously used as a power source and the battery is charged. FIG.

* Description of the symbols for the main parts of the drawings *

1: gas leak detector 2, 2a: signal wire

3: reception board 11: sensor

12: control unit 13: power supply unit

30: display unit 31: receiving port

32: concentration display section 33: alarm lamp

34: fault lamp 35: control unit

36: battery charger 37: battery

38: constant voltage converter 361: relay

361a: movable iron piece 361b: external constant voltage power supply terminal

361c: battery power terminal 362: relay drive unit

362a: OP Amplifier 363: Switching DC / DC Converter

364: power output terminal 365: battery connection terminal

366: power input terminal

The present invention relates to a gas leakage detector receiver having a battery charging circuit, and in particular, the battery is charged while operating by a constant voltage power source that converts an external alternating current power source, and in the case of a power failure, the power of the battery that is pre-charged is The present invention relates to a gas leakage detector receiving panel having a battery charging circuit which can be automatically supplied with power so that it can be operated without interruption even in the event of a power failure.

In modern society, fossil fuels such as petroleum, natural gas (LNG), and liquefied petroleum gas (LPG) are used as the main energy sources. It is widely used as a power source in industrial sites.

In recent years, the number of factories and industrial sites dealing with flammable gas is increasing, and the risk of leakage due to the handling of flammable gas also increases. If the flammable gas leaks, it can be greatly damaged by the explosion and fire.In general, the industrial sites that produce and manage the flammable gas are equipped with a gas detector that can detect the gas leak early. In the event of a leak, prompt action is required.

In factories such as factories where there is a risk of gas leakage, a number of gas leak detectors are installed along the gas flow path and connected to the receiving panel, and the receiving panel displays the operating status and gas concentration of the connected gas leakage detectors in the numerical display, lamp, or buzzer. It can be confirmed by such.

However, since the gas leakage detectors receive power from the receiving panel and operate the gas concentration, and transmit the gas concentration to the receiving panel in the form of a current signal, all of the gas leakage detectors are stopped if no power is supplied to the receiving panel due to a power failure. Therefore, emergency power should be provided so that the reception panel can operate normally even in the event of power failure.

It is preferable to install a battery in the receiving panel as such an emergency power source, but the conventional battery has a disadvantage in that a lot of losses in the case of a single use, and in the case of a rechargeable battery, requires a separate booster circuit for charging the battery. . The reason why the booster circuit for charging the battery should be separately installed is that, for example, when the voltage used in the gas leakage detector receiver is 24V, the output voltage of the battery may be 24V. This is because the voltage must be at least 30V.

Therefore, in the related art, when a rechargeable battery is installed as an emergency power source of a receiving panel, an expensive boosting circuit for charging the battery must be separately provided, thereby increasing the manufacturing cost.

In order to overcome the above problems, the constant voltage power which normally converts an external AC power is used as a power supply for charging a rechargeable battery while operating as a power supply for a gas leakage detector receiver, and is charged in advance during a power failure. It is an object of the present invention to provide a gas leakage detector receiving panel having a battery charging circuit which can be operated without interruption by automatically supplying power of a battery to a receiver.

In order to achieve the above object, the gas leakage detector receiving panel including the battery charging circuit provided by the present invention includes: a constant voltage converting unit 38 that receives an external AC power and converts it into a first constant voltage power source; When the first constant voltage power is input from the constant voltage converter 38, the first constant voltage power is discharged to use power of the receiver. When the first constant voltage power is not input from the constant voltage converter 38, the battery is discharged. A power supply and battery charging unit 36 for supplying power from the power supply 37 to the power used by the receiver; A rechargeable battery 37 connected to the power supply and the battery charger 36; Receiving ports 31 for receiving output signals of the gas leakage detectors; A controller 35 calculating a gas concentration according to output signals of the gas leakage detectors received through the reception ports 31; And a display unit 30 which displays the gas concentration of the gas leakage detectors according to the output of the control unit 35.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and effect of the gas leakage detector receiving panel having a battery charging circuit according to the present invention.

1 is a block diagram of a gas leakage detector receiving panel 3 having a battery charging circuit and a gas leakage detector 1 connected to the receiving panel according to the present invention.

Referring to FIG. 1, gas leakage detectors 1 installed at a site where there is a risk of gas leakage are connected to respective channels of the reception panel 3 through a wire 2. The gas leak detectors 1 respectively calculate a gas concentration based on an output signal of the sensor 11 and the sensor 11 for measuring the concentration of flammable gas or carbon dioxide in air, and the current corresponding to the calculated gas concentration. The control unit 12 generates a signal and transmits the signal to the receiving panel 3 through the wire 2, and a power supply unit 13 supplying power required for the operation of the control unit 12 and the sensor 11.

Meanwhile, the receiving panel 3 includes receiving ports 31 for receiving output signals of the gas leakage detectors 1 for each channel, and the gas leakage detectors introduced through the receiving ports 31. The signal is converted into a gas concentration value by the control unit 35 and displayed on the display unit 30. The display unit 30 is provided with a concentration display unit 32 for displaying a gas concentration value numerically, an alarm lamp 33 for generating an alarm according to the gas concentration and a failure lamp 34 for displaying a fault state of the gas leakage detector. It is.
The gas leak detectors 1 shown in FIG. 1 operate by receiving power from the reception panel 3, although the power supply units 12 of the gas leakage detectors 1 are not shown in FIG. ) Is connected to a terminal (not shown) and a line (not shown) from the power supply and the battery charging unit 36 to receive a power supply (eg, 24V constant voltage) for the operation of the gas leakage detectors 1. This power line (not shown) is generally installed in the same cable line with the wires 2.

In addition, the constant voltage converter 38 of the receiving panel 3 receives an external AC power source (eg, 220V AC power source) and converts the first constant voltage power source (eg, 24V constant voltage power source) into a power supply and battery charger unit. 36, when the first constant voltage power is input from the constant voltage converter 38, the first constant voltage power is supplied to the power used by the receiver, and the first constant voltage power is not input from the constant voltage converter 38. In this case, the power of the battery 37 is discharged to use power of the receiver.

The rechargeable battery 37 connected to the power supply and the battery charging unit 36 is preferably a nickel-cadmium battery. Even though a memory effect is generated due to short-term use, the battery may be supplied with electricity during a power failure even though the capacity of the battery is gradually reduced. It doesn't matter much because it only takes about 20-30 minutes to use.

2 and 3 are circuit diagrams of a power supply and a battery charging unit 36 of a gas leakage detector receiving panel having a battery charging circuit according to the present invention, and FIG. 2 is a view illustrating the power supply of the receiving panel through the power input terminal 366. FIG. 3 illustrates a case in which the battery is simultaneously used as a power source and the battery is charged. FIG.

Referring to FIG. 2, the power supply and battery charging unit 36 boosts the first constant voltage power DC 24V transferred from the constant voltage converter 38 to a second constant voltage power DC 30V so that the battery 37 A relay for selecting one of a switching DC / DC converter 363 and a first constant voltage power transmitted from the constant voltage converting unit 38 and an output power of the battery 37 to supply power to the receiver. 361.

The relay driver 362 of the power supply and the battery charger 36 checks whether the first constant voltage power is applied from the constant voltage converter 38 using the OP amplifier 362a, and as a result, the first constant voltage power source. If it is shown that the transistor Q1 is turned on so that a current flows through the drive coil of the relay 361, if the first constant voltage power source is not applied, the transistor Q1 is turned off ( off). When the transistor Q1 is turned off, no current flows through the driving coil of the relay 361, and thus the movable iron piece 361a is attached to the second terminal 361c. On the other hand, when the transistor Q1 is turned on, a current flows through the driving coil of the relay 361, so that the movable iron piece 361a attaches to the first terminal 361b of the relay 361.

As shown in FIG. 2, when the first constant voltage power supply DC 24V of the constant voltage conversion unit 38 is input through the power input terminal 366, a switching DC / DC converter ( A constant voltage of 24V is applied to the Vcc terminal of 364), and a constant voltage of 30V is output through the output terminal SW_C of the switching DC / DC converter 364. The constant voltage output from the first output terminal SW_C flows to the battery connection terminal 365 through the first diode D3 and the second diode D2 and is then used to charge the battery.

 The 24V constant voltage power supplied through the power input terminal 366 is transferred to the first terminal 361b of the relay 361, and the positive voltage of the OP amplifier 362a of the relay driver 362 is positive. Passed to the input terminal. When the high level signal is output from the OP amplifier 362a, the transistor Q1 is turned on and the relay 361 is turned on, and the movable iron piece 361a is attached to the first input terminal 361b. Through this process, the constant voltage power supply of the DC 24V supplied from the constant voltage converter 38 is transferred to the power output terminal 364, and is then used as a power source for the operation of the receiving panel.

On the other hand, during a power failure, as shown in FIG. 3, the constant voltage power does not enter through the power input terminal 366. In this case, since there is no current flowing into the (+) input terminal of the OP amplifier 362, the output of the OP amplifier 362 comes out low, and the transistor Q1 is maintained in the off state. At this time, since no current flows through the drive coil of the relay 361, the movable iron piece 361a is attached to the second input terminal 361c. Since the battery power is applied to the second input terminal 361c, the battery power flows to the power output terminal 364 through the second input terminal 361c and the movable iron piece 361a of the relay 361c.

Therefore, in case of power failure, the supply path of the external power is automatically cut off, and instead, the power of the battery built in the receiver is connected, so that the gas leakage detectors powered through the receiver and the receiver can operate normally without interruption.

Gas leakage detector receiving panel having a battery charging circuit according to the present invention is normally operated by a constant voltage power source that converts external AC power to charge the battery and in the case of power failure automatically power the battery of the pre-charged battery to the receiver The advantage is that it can be operated without interruption despite a power outage.

In addition, the gas leakage detector receiving panel having a battery charging circuit according to the present invention enables the automatic charging and discharging of the battery only by a circuit configuration implemented on a printed circuit board, thereby adding an expensive chip or device for charging the battery. There is an advantage that can reduce the manufacturing cost of the receiver for gas leakage detector because it does not need to use.

Claims (4)

In a receiving panel for supplying power to a plurality of gas leak detectors installed in a place where there is a risk of gas leakage and receiving a signal from the gas leak detectors to collectively display the gas concentration detected by each gas leak detector , A constant voltage converter 38 which receives an external AC power and converts the same into a first constant voltage power; When the first constant voltage power is input from the constant voltage converter 38, the first constant voltage power is discharged to use power of the receiving panel. When the first constant voltage power is not input from the constant voltage converter 38, the battery is discharged. A power supply and battery charging unit 36 for discharging the power of the power supply 37 to the use power of the reception panel; A rechargeable battery (37) connected to the power supply and battery charger (36) and capable of being charged by a second constant voltage power supply having a voltage higher than the first constant voltage power supply; Receiving ports 31 for receiving output signals of the gas leakage detectors; A controller 35 calculating a gas concentration according to output signals of the gas leakage detectors received through the reception ports 31; And a display unit 30 which displays the gas concentration of the gas leakage detectors according to the output of the controller 35. The power supply and battery charging unit 36 includes: a switching DC / DC converter 363 which boosts the first constant voltage power transferred from the constant voltage converter 38 to a second constant voltage power and applies it to the battery 37; A relay 361 which selects one of a first constant voltage power transmitted from the constant voltage converter 38 and an output power of the battery 37 and supplies it to the power used by the receiver, and a movable iron piece of the relay 361 A relay driver 362 for controlling the position of the 361a, The relay driver 362 detects whether the first constant voltage power is output from the constant voltage converter 38 by comparing the output signal of the constant voltage converter 38 with a predetermined reference voltage. And a transistor (Q1) for connecting the output of the OP amplifier 362a to a base and connecting the driving coil of the relay 361 to a collector to drive the relay 361 according to the output of the OP amplifier 362a. By including The relay driver 362 checks whether the first constant voltage power is applied from the constant voltage converter 38, and when the first constant voltage power is applied, the movable iron piece 361a of the relay 361 receives the first constant voltage power. Generates a relay driving signal to be connected to the applied terminal 361b, and when the first constant voltage power is not applied, the movable iron piece 361a of the relay 361 is applied to the terminal 361c to which the output power of the battery is applied. Generates a relay drive signal to be connected to And the first constant voltage power supply is a constant voltage power supply of 24 V, and the second constant voltage power supply is a constant voltage power supply of 30 V. delete delete delete

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