KR20120051479A - Operation controlling method using light sensor in boiler - Google Patents

Abstract

PURPOSE: A boiler operation control method using a light sensor is provided to prevent the waste of gas by automatically reducing the heat of the heating water supplied to a room heating pipe when detecting sunlight in the day time. CONSTITUTION: A boiler operation control method using a light sensor(11) is as follows. When a boiler is turned on, a CPU(Central Processing Unit,21) of a boiler body(2) receives the output signal of the light sensor installed in a room controller(1) in real time and determines whether the output signal is equal to or greater than a predetermined voltage. If the output signal is equal to or greater than a predetermined voltage, the incidence of sunlight is judged and it is determined whether the room temperature detected by a thermistor(12) of the room controller is lower than the temperature set by a user. If the current room temperature is lower than the set temperature, the tapping temperature of the boiler is gradually increased.

Description

Operation controlling method using light sensor in boiler}

The present invention relates to a method for controlling the operation of a boiler using a light sensor, and more particularly, a method of automatically reducing the amount of heat supplied from a boiler to an indoor heating pipe by detecting the amount of light in the room (actually the amount of sunlight). It is possible to achieve a comfortable heating, to reduce the gas ratio, and also to reduce the standby power by controlling the amount of current in the display unit according to the amount of sunlight.

Generally, a boiler is used to heat water by using combustion heat and heat generated by burning it using fuel, coal or gas as fuel, or supplying electricity to a heater, and supplying hot water to various heating facilities In the case of a domestic boiler, hot water is supplied to the piping installed on the floor of the room or the like, and is used for supplying hot water through a water pipe or the like.

On the other hand, in buildings with several rooms, such as inns, test houses, and studios, each room is equipped with a separate room temperature controller, an energy-saving automatic heating system that separately controls the room temperature. Each room is equipped with a heating system.

Looking at the configuration of each room heating system, such as a heating source or individual boiler, each room controller and several room cones installed in each room, the living room installed in each room to monitor the status of hot water use, including the heating conditions of each room A central room cone for heating control of a room (for example, a living room) in which the room cone is installed, a valve for controlling the number of heating in each room (ie, a heating water supply control valve) and a valve driver for controlling opening and closing of the valve Doing.

By the way, most boilers in the related art use the room cone to control the room temperature, or when the heating is controlled by using a 24-hour timer, the heating is performed by supplying a constant amount of heat at the scheduled time. This well-known south-facing house or during the daytime, although it is safe to heat at low calorie, the heating is conducted at the desired calorie unconditionally, and it consumes unnecessary calories, thereby causing consumer inconvenience such as unnecessary waste of gas. I'm doing it.

The present invention has been made to solve such a conventional problem, by installing a light sensor to the room cone of the boiler to detect the amount of sunlight flowing into the room if the predetermined amount or more, the boiler body to supply to the heating pipes By automatically lowering the calorific value of the heating water, comfortable indoor heating is possible, and the gas cost can be greatly reduced, and if necessary, the standby power can be reduced by adjusting the amount of current flowing in the display unit according to the amount of sunlight. It is an object of the present invention to provide a control method of a boiler using a light sensor.

The present invention for solving the above problems, when the boiler is "on", the step of determining whether or not a predetermined voltage or more by receiving the output signal of the light sensor installed in the room cone in real time in the central processing unit in the main body; Determining that the indoor temperature detected by the thermistor installed in the room cone is lower than the user set temperature when the determined result is greater than or equal to a predetermined voltage; As a result of the above determination, if the current room temperature is lower than the user setting temperature, gradually raising the tapping temperature of the boiler.

In addition, if the output voltage of the light sensor is determined as a result above the predetermined voltage determines whether the 24 hour timer is provided in the room cone; As a result of the above determination, if the timer is provided for 24 hours, it is determined whether the current time is day time, and if it is not day, the method returns to the step of determining whether the output voltage of the light sensor is above a certain voltage. As a result, if the room cone is not provided with a 24-hour timer or if the current time is day time, the step of recognizing that sunlight is flowing is performed.

In addition, if the output voltage of the light sensor is less than a predetermined voltage as a result of the determination above, the step of recognizing the light by the other lighting fixtures and determining whether the room temperature detected by the thermistor installed in the room cone is lower than the user set temperature; As a result of the determination, if the current room temperature is lower than the user setting temperature, increasing the tapping temperature of the boiler to the maximum;

On the other hand, if the indoor temperature detected by the thermistor installed in the room cone is higher than the user set temperature as a result of the determination as described above, characterized in that for performing the step of lowering the current flowing in the display unit of the room cone.

As described above, according to the operation control method of the boiler using the light sensor according to the present invention, when sunlight is detected during the day by the light sensor installed in the room cone, the amount of heat of the heating water supplied from the boiler body to the indoor heating pipe is measured. By automatically lowering, comfortable indoor heating is possible, unnecessary waste of gas can be prevented, and if necessary, the amount of sunlight flowing to the display can be reduced according to the amount of sunlight, which greatly reduces standby power. It is a useful invention.

1 is a block diagram of a boiler to which the present invention method is applied.
2 is a flowchart for explaining the method of the present invention.

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

1 shows a block diagram of a boiler to which the method of the present invention is applied, and FIG. 2 shows a flowchart for explaining the method of the present invention.

According to the present invention,

When the boiler is "on" (S1) receiving the output signal of the light sensor 11 installed in the room cone 1 in the central processing unit 21 in the main body in real time to determine whether the predetermined voltage or more (S2) )Wow;

If it is determined as above that the predetermined voltage is above the sunlight is recognized (S5) and the step of determining whether the room temperature detected by the thermistor 12 installed in the room cone (1) is lower than the user set temperature (S6) and ;

As a result of the determination, if the current room temperature is lower than the user set temperature, step S7 of gradually increasing the supply heat to gradually increase the tapping temperature of the boiler;

In addition, when the output voltage of the light sensor 11 is determined as above, if the predetermined voltage is equal to or greater than the predetermined time, the room cone 1 is provided with a 24-hour timer 13 (S3);

As a result of the determination, if the 24-hour timer 13 is provided, it is determined whether the current time is a day time, and if it is not day, the method returns to step S2 of determining whether the output voltage of the light sensor 11 is above a certain voltage. Further performing step S4, but as a result of the above determination, if the room cone is not provided with the 24-hour timer 13 or if the current time is low, the step S5 is performed to recognize that sunlight is flowing. It is done.

In addition, if the output voltage of the light sensor is less than a predetermined voltage as a result of the determination (S2) above, it is recognized as light by other lighting equipment (S8) and the room temperature detected by the thermistor 12 installed in the room cone (1). Determining whether S is lower than a user set temperature (S9);

As a result of the determination, if the current room temperature is lower than the user set temperature, increasing the supply heat amount to the maximum to increase the tapping temperature of the boiler to the maximum (S10).

On the other hand, if the indoor temperature detected by the thermistor 12 installed in the room cone 1 is higher than the user set temperature as a result of the determination (S6) (S9) in the above (S11) and shuts off the operation of the boiler (S11) It is characterized in that the step (S12) for lowering the current flowing through the display unit 14 is carried out.

Here, reference numeral 2 is a boiler body, 15 is a room cone control part, 22 is a power supply part, 23 is a three-way drive part, 24 is a pump drive part, 25 is an igniter drive part, 26 is a gas valve drive part, and 27 is It is a fan drive part, and 28 is a thermistor for detecting tapping temperature.

Referring to the operation and effect according to the present invention consisting of these steps are as follows.

First, in the central processing unit 21 in the boiler to which the present invention method is applied, when the boiler is normally turned on (S1), the output of the light sensor 11 provided in the room cone 1 installed in each room or a specific room. The signal is received in real time to determine whether the predetermined voltage or more (S2).

In this case, the voltage output from the light sensor 11 has different voltages according to sunlight and light of other lighting equipment (for example, fluorescent lamps), and of course, is detected as pulses of different frequencies. The central processing unit 21 detects the voltage output from the light sensor 11 installed in the room cone 1 and the frequency thereof, and detects whether the signal currently being detected by the light sensor 11 is caused by sunlight. It is possible to determine whether or not by the light of the lighting fixture.

As a result of judging the voltage output from the light sensor 11 as described above, it is determined whether or not the room cone 1 is equipped with a 24-hour timer 13 (S3), and if the room cone 1 has a 24-hour timer ( If 13) is provided, it is determined whether the time currently indicated by the 24-hour timer 13 is day time (for example, from 09:00 to 17:00). In step S4, the method returns to step S2 of determining whether it is abnormal or not, and as a result of the determination S3, if the room cone does not have a 24-hour timer 13 or the current time is low, Recognizing that the light detected by the sensor 11 is sunlight (S5) and determines whether the room temperature detected by the thermistor 12 installed in the room cone (1) is lower than the temperature set by the user (S6).

As a result, when the current room temperature is lower than the user set temperature, the heat supply is gradually increased to raise the tapping temperature of the boiler gradually (S7). It is possible not only to prevent the waste of gas and the waste of gas accordingly, but also to perform comfortable indoor heating.

On the other hand, if the output voltage of the light sensor is less than a predetermined voltage as determined in step (S2) described above (S8) and the room detected by the thermistor (12) installed in the room cone (1) is recognized as light by other lighting equipment (S8) It is determined whether the temperature is lower than the user set temperature (S9), and if the current indoor temperature is lower than the user set temperature, the heat quantity supplied to the heat exchanger is maximized to maximize the tapping temperature of the heat exchanger as in a normal boiler. Will increase (S10).

However, if the indoor temperature detected by the thermistor 12 installed in the room cone 1 is higher than the user set temperature as a result of judging in each of the steps S6 and S9, the room temperature has already reached the user's set temperature. Therefore, the operation of the boiler is blocked (S11) and the current flowing in the display unit 14 of the room cone 1 is lowered (S12), thereby significantly reducing standby power.

It should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

1: Room cone
11: light sensor 12: thermistor
13: 24 hour timer 14: display unit
15: room cone control unit
2: boiler body
11: central processing unit 22: power supply unit
23: tri-directional drive 24: pump drive
25: igniter driving unit 26: gas valve driving unit
27: fan drive unit 28: tapping temperature detection thermistor

Claims (4)

Determining whether the boiler is “on” by receiving the output signal of the light sensor installed in the room cone in real time from the central processing unit in the main body to be above a predetermined voltage;
Determining that the indoor temperature detected by the thermistor installed in the room cone is lower than the user set temperature when the determined result is greater than or equal to a predetermined voltage;
And judging from the above, if the current room temperature is lower than the user setting temperature, gradually raising the tapping temperature of the boiler.
The method according to claim 1,
Determining whether the room cone has a 24-hour timer when the output voltage of the light sensor is determined to be equal to or higher than a predetermined voltage;
As a result of the above determination, if the timer is provided for 24 hours, it is determined whether the current time is day time, and if it is not day, the method returns to the step of determining whether the output voltage of the light sensor is above a certain voltage. As a result, if the room cone is not equipped with a 24-hour timer, or if the current time is day time, the step of recognizing that the sunlight is being introduced, the operation control method of the boiler using a light sensor.
The method according to claim 1,
If the output voltage of the light sensor is less than the predetermined voltage, determining that the indoor temperature detected by the thermistor installed in the room cone is lower than the user set temperature if the output voltage of the light sensor is less than the predetermined voltage; As a result of the determination, if the current room temperature is lower than the user setting temperature, increasing the tapping temperature of the boiler to the maximum; and controlling the operation of the boiler using a light sensor.
The method according to claim 1 or 3,
As a result of the above determination, if the room temperature detected by the thermistor installed in the room cone is higher than the user set temperature, the operation of shutting down the boiler and lowering the current flowing in the display unit of the room cone is performed. Boiler motion control method.

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