KR950003817B1 - Lamp apparatus for boiler - Google Patents

Abstract

The apparatus for easily confirming the consumption amount of the electric battery without driving the warm water supplier and preventing the warm water supplier from exploding, comprises a power supplier(1); a low voltage detector(2) detecting whether or not the voltage of the power supplier(1) is lower than a predefined low limit valtage in the case of no load; a lamp driver(3) noticing the state of the low voltage ig a signal is generated from the low volage detector(2); a rectification circuit(4); the other low voltage detector(5) driven in the case of load; the other lamp driver noticing the state of the low voltage if a signal is generated from the low volage detector(5).

Description

Battery identification lamp driving method of water heater and its device

1 is a block diagram of an apparatus of the present invention.

2 is a detailed circuit diagram of the device of the present invention.

3 is a flowchart for explaining the method of the present invention.

* Explanation of symbols for main parts of the drawings

1: Power supply unit 2: Low voltage detection unit at no load

3: Battery check lamp driving unit at no load 4: Constant voltage circuit unit

5: Under voltage detection part under load 7: Safety circuit part

6: Battery check lamp driver under load 8: Battery electronic reset unit

9: sparker reset part

The present invention relates to a method and a device for driving a battery check lamp of a water heater, and in particular, to prevent the explosion of the water heater by integrating the function of indicating the battery consumption and driving the circuit in driving the battery check lamp at no load. The present invention relates to a method and a device for driving a battery check lamp of a water heater to improve the power consumption and at the same time to allow a user to easily recognize and replace a battery consumption without necessarily operating the water heater.

In the conventional water heater, even if the battery is depleted at the time of load and the battery check lamp is turned on, the function of the battery check lamp and the operation of the mechanism are separate, and the sparker operates or the battery electronic switch operates even when the battery check lamp is lit. Not only does the battery electronic valve turn on with the spark cycle's discharge cycle drastically reduced, but it also has a problem of explosive ignition, and the user still uses the battery because the sparker operates even when the battery check lamp is turned on. There was a problem of applying for after-sales service several times due to mistaken as sufficient.

In addition, when no water heater is not used, it is impossible to know whether the battery is exhausted at all, so you must check the battery consumption by running the water heater, and the hot water faucet is far from the water heater and you cannot see the water heater visually. When installed in the place, the user turned on the hot water faucet, but when the hot water does not come out, most users lock the faucet to check the abnormality of the device and go to the device to check it. There was a problem that can not recognize the consumption of the battery efficiently.

The object of the present invention is to prevent the explosion of the water heater by integrating the function of the battery and the driving of the circuit when driving the battery check lamp at no load, as well as the consumption of the battery without the user operating the water heater It is to improve the reliability of the product by making it easy to recognize.

The purpose of the above is to connect the low voltage detector under no load / load with the battery check lamp driver, the safety circuit unit, the front circuit and the reset circuit unit of the sparker, and detect the battery consumption frequently. When the battery voltage is determined to be lower than or equal to the predetermined voltage, the battery check lamp is turned on and the operation of the water heater is stopped.

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

The battery check lamp driving apparatus of the present invention, as shown in Figs. 1 and 2, a power supply unit (1) consisting of a battery for supplying a power voltage to each part of the water heater; No-load, consisting of a voltage detection IC (IC1) and a transistor (Tr1) when no load is detected when the output voltage of the power supply unit 1 is below a predetermined voltage (for example, when VDD is 3V and drops to about 1.8V). A low voltage detection section 2; The transistor Tr2, the resistors R1-R3, and the light emitting diode LED1 are configured to output a predetermined signal (e.g., 'low') from the low voltage detection unit 2 at no load, and then turn on the light emitting diode. A battery identification lamp driving unit (3) at no load indicating a low voltage of the battery; A constant voltage circuit unit 4 including condensers C1 and C2, a reverse voltage preventing diode D1, and a recirculator IC2 for converting a voltage output from the power supply unit 1 into a constant voltage under load; An on-load low voltage detection unit (5) for detecting whether an output voltage of the voltage supply unit (1) is below a predetermined voltage during load; It is composed of a plurality of inverters (I1-I5), resistors (R4-R9), diodes (D2, D3), capacitors (C3), and light-emitting diodes (LED2) so that a predetermined signal is output from the low voltage detector (5) under load. The on-load battery check lamp driver 6 indicating that the battery voltage under load is in a low voltage state by blinking the light emitting diode; When a predetermined signal is output from the low voltage detection unit 5 under load, a safety circuit unit 7 for blocking the operation of the electromagnetic valve and the sparker through the battery electronic reset unit 8 and the sparker reset unit 9 is provided. It is.

Here, reference numerals SW1 and SW2 are interlocked switches, and the switch SW1 remains 'ON' at no load, the switch SW2 is 'ON' under load (ie, driving the water heater), and SW3 is water flow. Switch.

In addition, in the method of the present invention, as shown in FIG. 3, when a predetermined battery is mounted in the power supply unit and the operation switch is turned off (S1), the output voltage of the power supply unit 1 becomes a predetermined voltage X ( V)) If the abnormality is continuously detected (S2), and if it is less than the predetermined voltage, the battery check lamp is driven at no load to inform the battery replacement time, stop the operation of the water heater (S3), and output voltage of the power supply unit 1 above. As a result of the detection, when the operation switch is "on" while the predetermined voltage (X (V)) or more (S4) and the water flow switch is 'ON' and the load state (S5), the output voltage of the power supply unit 1 is predetermined When the voltage (X (V)) is detected again (S6) and below the predetermined voltage, the battery check lamp blinks to inform the battery replacement time and stop the operation of the water heater (S7). 'ON' to perform the ignition operation (S8), then the battery electronic valve When the sparker is 'off' (S9, S10), while the load is under the condition that the output voltage of the power supply unit 1 is more than a predetermined voltage (X (V)) continues to detect (S11) and when the predetermined voltage is less than the battery check lamp By blinking to inform the time of replacement of the battery in the load state is made of a process of stopping the operation of the water heater (S12).

Referring to the operation and effect of the present invention made of such a process and configuration as follows.

First, at no load, that is, when the switch SW1 of the interlocking switches SW1 and SW2 is in the 'on' state and the switch SW2 is in the 'off' state, the output voltage of the power supply unit 1 in which the battery is built It is applied only to the low voltage detection section 2 at no load and the battery check lamp driving section 3 at no load, and is applied to the constant voltage circuit section 4, the low voltage detection section 5 at load, the battery check lamp driving section 6 at load, and the battery electronic transformer reset section ( 8), the sparker reset part 9 and the safety circuit part 7 are not supplied.

At this time, in the voltage detection IC (IC1) in the low voltage detection unit 2 at no load, the output voltage of the power supply unit 1 falls below a predetermined voltage (X (V)) (for example, VDD is about 3V and is about 1.8 The case of falling below V).

That is, when the output voltage of the power supply unit 1 is 1.8V or more, the output thereof becomes 'high', so that the transistor Tr1 is turned 'on', so that the base of the transistor Tr2 in the battery check lamp driving unit 3 is unloaded. Since the bias voltage becomes 'low', the light emitting diode LED1 indicating the depleted state of the battery is kept off (ie, in a normal state) at no load.

However, when the output voltage of the power supply unit 1 falls below a predetermined voltage and the output of the voltage detection IC IC1 in the low voltage detection unit 2 becomes low when the output voltage of the power supply unit 1 falls below a predetermined voltage, the transistor Tr1 is turned off. Since the bias voltage applied to the base of Tr2 is turned on by being 'high' by the distribution voltages of the resistors R1 and R2, the light emitting diode LED1 is turned on.

Therefore, the user can easily replace the batteries by recognizing that the battery voltage in the no-load state is consumed below a predetermined voltage only by looking at the lighting state of the light emitting diode LED1 without operating the water heater.

On the other hand, when the interlocking switches SW1 and SW2 are switched to drive the water heater, the switch SW1 is 'off' and the switch SW2 is 'on', so the output voltage of the power supply unit 1 with the built-in battery is no load. The low voltage detector 5 and the load are converted into a constant voltage (for example, VDD and 1.5V) through the constant voltage circuit unit 4 without being supplied to the battery low voltage detector 2 and the battery check lamp driver 3 at no load. Battery identification lamp driving section 6, battery electronic reset section 8, sparker reset section 9, safety circuit section 7 and water flow switch SW3.

At this time, assuming that the output voltage of the power supply unit 1 is above a predetermined voltage (X (V)) and is in a normal state, when the user turns on the hot water faucet and the water flow switch SW3 is 'on', the constant voltage circuit unit ( Since the output voltage of 4) is supplied to the battery electronic valve and the sparker through the safety circuit unit 7, sparks are generated in the sparker, and the battery electronic valve is adsorbed and ignited, so that hot water comes out of the hot water faucet. The on-load low voltage detector 5 continues to detect the output voltage of the power supply 1.

However, in the state where the water flow switch SW3 is 'on' or the normal ignition is performed and the water heater is normally driven, a lot of batteries are consumed and the output voltage of the power supply unit 1 in the low voltage detection unit 5 under load As a result of detecting a value below the predetermined voltage, a predetermined control signal (e.g., a 'high' signal) is output from the output terminal of the undervoltage detecting part 5 under load.

Therefore, since a predetermined signal is output from the safety circuit 7 under the control of the low voltage detection unit 5 under load, the battery electronic reset unit 8 and the sparker reset unit 9 are reset to force the electronic shift. Since the sparker oscillation is stopped at the same time as 'off', it is possible to prevent the explosion ignition due to the sharp drop in the sparker discharge frequency caused by the low voltage.

In addition, when the output voltage of the power supply unit 1 is detected below the predetermined voltage and the predetermined signal is output from the low voltage output unit 5 under load, the plurality of inverters I1-I5 and the resistors R4-R9 are provided. And the oscillation operation is performed in the on-battery check lamp driving unit 6 including the diodes D2 and D3 so that the light emitting diode LED2 is flickering, so the user sees the flashing state of the light emitting diode LED2 in the load state. The battery can be easily replaced by recognizing that the battery voltage is below a predetermined voltage.

In other words, even if the consumer operates the water heater without ignoring the battery when the battery is not loaded, if the battery voltage under the load is lower than the predetermined voltage, the operation of the heater is cut off and the light emitting diode (LED2) blinks. You can know the status immediately.

As described above, according to the present invention, whether or not under no load or under load, when a battery voltage is lower than a predetermined voltage, a predetermined light emitting diode, which is a battery check lamp, lights up and blinks to visually indicate that the battery is exhausted and to simultaneously By preventing the ignition of the water heater by blocking the operation of the user can easily recognize the consumption of the battery without necessarily operating the water heater is a useful design that can further improve the reliability of the product.

Claims (3)

When the output voltage of the power supply is detected under the no-load state in which the operation switch is 'off' or the operation switch is 'on' and the water flow switch is 'on', the battery check lamp is detected when the output voltage is below a predetermined voltage (X (V)). Lights up and flashes to inform the battery replacement time under no load and load condition and stops the operation of the water heater.If the output voltage of the power supply is over the predetermined voltage, the water heater is operated in the normal operation state by driving the sparker and battery electronic valve. Battery identification lamp driving method of the water heater, characterized in that consisting of a process. According to claim 1, wherein the output voltage of the power supply is continuously detected while the water heater is operating normally and when the predetermined voltage (X (V)) is less than the battery check lamp flashes to inform the replacement time of the battery under load and the water heater Battery check lamp driving method of the water heater, characterized in that consisting of the process of stopping the operation of. A power supply unit 1 for supplying a power voltage to each part of the water heater; A no-voltage low voltage detector (2) for detecting whether the output voltage of the power supply unit (1) is below a predetermined voltage at no load; A no-load battery checking lamp driver 3 which lights up a light emitting diode when the predetermined signal is output from the low-voltage detecting unit 2 at no-load to indicate that the battery voltage at no-load state is low-voltage state; A constant voltage circuit unit 4 for converting a voltage output from the power supply unit 1 into a constant voltage when loaded; An on-load low voltage detection unit (5) for detecting whether an output voltage of the voltage supply unit (1) is less than or equal to a predetermined voltage at load; An on-load battery check lamp driver 6 which flashes a light emitting diode when the predetermined signal is output from the low-voltage detection unit 5 under load to indicate that the battery voltage under load is in a low voltage state; When a predetermined signal is output from the low voltage detection unit 5 under load, a safety circuit unit 7 for blocking the operation of the electronic valve and the sparker through the battery-specific reset unit 8 and the sparker reset unit 9 is provided. Battery check lamp driving device of the water heater, characterized in that.