KR100361152B1 - Method for controlling hot-water of boiler - Google Patents

Abstract

The present invention relates to a method for controlling hot water of a boiler that enables a minimum calorie operation to be made possible regardless of a set hot water temperature when using a small amount of hot water by a user's selection, thereby improving user convenience and safety. When a signal is input, a comparison / computation process for removing a signal error due to noise, and converting it into communicable data; transmitting data about the converted small hot water selection signal and receiving it from the main controller as controllable data Determining a current boiler operation state; outputting minimum calorie operation data when the boiler operation state is a heating operation state so that hot water is supplied at an appropriate temperature according to a small hot water selection signal; If the status is stopped, the maximum calorie operation data is output You step of determining whether the heating is completed; comprises the step of hot water to be supplied according to the proper temperature of the burner heating is completed, again at least to the amount of heat output operation data less hot water selection signal.

Description

Method for controlling hot-water of boiler

The present invention relates to a boiler, and more particularly, the hot water control of the boiler to increase the convenience and safety of the user by enabling a minimum amount of heat operation regardless of the set hot water temperature when using a small amount of hot water by the user's selection It is about a method.

In general, to maintain a constant temperature in a certain space to increase the efficiency of work is called air conditioning, the artificial means used at this time is called an air conditioning device.

This air conditioner has a cooling device for lowering the temperature of indoor air and a heating device for increasing the temperature. The cooling device cools the sucked air by using an endothermic action generated by the expansion of the compressed refrigerant, and cools the room by discharging the cooled air into the room.

In addition, the heating device is classified into an oil boiler using oil and a gas boiler using gas according to the energy source. Both oil and gas boilers use oil and gas as ignition materials to heat water using the heat generated by oxidization of the ignition materials, and circulate the heated water to increase the temperature in the room and at the same time hot water. To provide.

On the other hand, such a gas boiler is divided into various types according to the structure of the system, that is, the control method or the sealed state, and in particular, the air proportional control method is used so that a certain amount of air is always supplied by adjusting the air amount according to the temperature change of the outside air. If present, this is referred to as an air proportional gas boiler.

Hereinafter, an air proportional gas boiler, which is one of general gas boilers, will be described with reference to the accompanying drawings.

1 is a configuration diagram of a general gas boiler.

In the gas boiler 2 illustrated here, the blower 10 and the burner 12 are arrange | positioned on the flame detector 4 upper part. The flame detector 4 is provided with a burner 12 that burns the air and the gas sucked through the intake duct 6 in accordance with the operation of the blower 10, and under the burner 12, the sensible heat portion in turn. The heat exchanger 14 and the latent heat exchanger 16 are arranged. The sensible heat exchanger (14) heats the heating water in the process of exchanging heat by directly contacting the sensible heat generated from the burner, and the latent heat exchanger (16) uses latent heat generated during thermal contact with the exhaust gas. To heat the heating water.

The exhaust gas passing through the latent heat exchanger 16 is discharged to the outside through the exhaust duct 20, and the condensed water generated in the heat exchange process is collected in the exhaust hood 18 and then discharged to the outside.

In the lower left of the boiler, a circulation pump 22 for circulating the heating water is disposed. When the circulation pump 22 is operated, the heating water which has finished heating in the room enters the heating water filter 24 through the line L1.

In addition, the heating water filter 24 removes impurities contained in the heating water, and the filtered heating water is sent to the upper water separator 26. The water separator 26 is for discharging air contained in the heating water, and discharges the air through the upper air vent.

An overpressure prevention valve 32 is provided between the heating water filter 24 and the water separator 26 to prevent the pressure of the heating water from being excessively raised, and sends a portion of the heating water to the expansion tank 48 to supply pressure. Will be adjusted.

And the heating water passing through the water separator 24 is supplied to the latent heat exchanger 16 through the line (L2) by the operation of the circulation pump 22, and then heated while passing through the sensible heat exchanger (14). Discharged to line L3. Heating water discharged through the line (L3) is supplied to the room according to the operation of the three-way valve (28).

In the middle of the boiler is shown a heat exchanger that uses hot water for heating to obtain hot water. In accordance with the operation of the hot water flow switch 36, the cold water introduced through the line (L6) is heated in the process of passing through the hot water heat exchanger 34 and then discharged through the line (L7).

In the lower right part of the boiler, a gas supply device is installed. According to the operation of the gas valve 44, the gas introduced through the line L8 is supplied to the nozzle 8 above the flame detector 4 through the line L9.

At this time, the supply amount of gas is changed according to the operation of the air proportional control solenoid valve 46 to compensate for the supply amount according to the change of fire. The gas thus supplied is ignited and combusted by the spark delivered through the ignition transformer 42 and the ignition rod, and this series of combustion processes the main controller 40 which receives an input signal from the room cone 38 that the user operates. Controlled by

Such boilers have improved performance and control methods, and use heating and hot water. However, fuel costs can be reduced compared to the past, and environmental improvements are also being made.

Rather than simply turning the boiler burner on and off, it is constantly being improved to provide consumers with the features and performance they desire while being more convenient to use.

In particular, the boiler, which was mainly used for heating purposes, has developed a bath culture in modern times, and the hot water function is also important. Various hot water control methods and functions have been presented, and one of them is to set the hot water temperature in the room cone to improve the inconvenience in the way that the hot water temperature can be set in the main controller or set to an arbitrary temperature. Proportional control is possible for the set temperature.

However, such a conventional boiler and a room cone for controlling it have the following problems.

According to the season or the purpose of use, the room cone is moved to the place where it is installed, or it is mostly designed for the shower, and the set temperature is high, and the inconvenience of having to adjust the cold water valve of the faucet every time.

In addition, when the amount of hot water used is small, especially in the kitchen sink, even if the cold water valve is adjusted, hot water may suddenly flow out and burn, and the boiler may be turned on / off more than necessary to burn boiler fuel and water. There was a problem wasted.

The present invention is to solve the problem of such a conventional boiler and the system for controlling the same, and when using a small amount of hot water by the user's selection to enable a minimum calorie operation regardless of the set hot water temperature, the user's convenience and The purpose is to provide a hot water control method of the boiler to increase the safety.

1 is a configuration diagram of a typical gas boiler

Figure 2a is a block diagram of the configuration of the room cone according to the present invention

2b is a block diagram of a main controller according to the present invention;

3 is a flow chart showing a hot water control method of the boiler according to the present invention.

-Explanation of symbols for the main parts of the drawing-

200. 300. Micom 201. 301. Input unit

202. Display unit 208. 303. Communication unit

The hot water control method of the boiler according to the present invention for achieving the above object comprises the step of performing a comparison / operation to remove a signal error due to noise when a small amount of hot water selection signal is input, and converting into communicable data; Transmitting data about the less hot water selection signal and processing it as controllable data received by the main controller; Determining the current boiler operation state; If the boiler operation state is heating operation state outputs minimum calorie operation data Allowing hot water to be supplied at an appropriate temperature according to the hot water selection signal; Outputting maximum calorie operation data and determining whether burner heating is completed when the current boiler operation state is stopped; outputting the minimum calorie operation data again when burner heating is completed, and according to a suitable temperature according to a small amount of hot water selection signal. Characterized in that it comprises the step of being supplied.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the hot water control method of the boiler according to the present invention.

Figure 2a is a block diagram of the configuration of the room cone according to the present invention, Figure 2b is a block diagram of the configuration of the main controller according to the present invention.

Referring to the configuration and function of the room cone and the main controller according to the present invention.

First, as shown in FIG. 2A, the room cone is configured to remove noise of the input unit 201 for inputting a small hot water (optional selection mode) selection signal by the user's selection to the microcomputer 200 and the input small hot water selection signal. An operation mode block 203 for performing comparison / operation processing, a control mode block 204 for receiving, comparing / determining and outputting the value compared / operated in the operation mode block 203, and the control mode block. The display unit 202 for displaying the value output from the display 204 to the user so as to be recognized by the user, and the storage mode block 205 for storing the value output from the control mode block 204 to store the currently selected operation mode. ), A communication data processing mode block 206 for converting the value output from the control mode block 204 into communicable data, and processing data sent from the main controller; Via the communication unit 208, the communication data including comprises including communication mode block 207 to transmit / receive data required for the main controller and the hot water control.

In addition, as shown in FIG. 2B, the main controller performs input / output of data necessary for driving the boiler by the control of the microcomputer 300.

When the communication time is reached, the communication mode block 307 for transmitting data and receiving data from the room cone through the communication unit 303 and the noise and error data of the data received in the communication mode block 307 are removed and the microcomputer ( The minimum amount of heat by comparing / operating the communication data processing mode block 306 and the data processed in the communication data processing mode block 306 and the data processed by the controllable data at 300 and determining that the room cone is presently selected as the hot water selection state. An operation mode block 304 for calculating and outputting operation data, and a control mode block 305 for outputting the minimum calorie operation data to the output unit 302 to control the boiler.

The main controller further includes an input unit 301 for directly inputting a control signal to the main controller in addition to the control using the room cone.

The hot water control device of the boiler according to the present invention is to allow the selection of 'less hot water' (random selection mode) function, such as 'hot water' selection function in the room cone, using hot water for washing and spring / summer / autumn If you want to use hot water in the kitchen or if you select the 'less hot water' function, the room cone will send a 'less hot water' selection to the main controller.

At this time, if hot water is used, the boiler is operated in hot water mode. However, when the boiler is in heating operation, the boiler is controlled to the minimum calorific value regardless of the set hot water temperature. After controlling the maximum heat for a time (until the burner heats up), the boiler can be controlled to operate with the minimum heat.

Such a hot water control method using the hot water control device of the boiler according to the present invention will be described in detail as follows.

3 is a flowchart illustrating a method of controlling hot water of a boiler according to the present invention.

When a small amount of hot water selection signal is input through the input unit 201 (S301), a comparison / operation process is performed to remove a signal error due to noise of the small amount of hot water selection signal input from the calculation mode block 203 of the room cone. S302)

Subsequently, the communication data processing mode block 206 converts the compared / computed values into communicable data (S303) and determines whether it is time to communicate (S304), and transmits communication data regarding a small amount of hot water selection (S305).

When the data is input, processed, and transmitted in the room cone, the main controller operates for less hot water control as follows.

First, noise and error data of the received data are removed (S306), and processed as data that can be controlled by the microcomputer 300 (S307).

In addition, it is determined whether the heating operation state by determining the current boiler operation state (S308).

As a result of the determination, if the boiler is currently in the heating operation state, the minimum calorie operation data is output (S309), and the hot water is used for the washbasin and the spring / summer / autumn, where the hot water is used, or the hot water according to the proper temperature when the hot water is used in the kitchen. Operate the boiler so that it is supplied. (S310)

If the result of determining the current boiler operation state is not the heating operation state, and outputs the maximum calorie operation data (S311).

When the burner heating is completed by operating the boiler by outputting the maximum calorie operation data (S312), the minimum calorie operation data is output again (S313) to use the hot water for washing and spring / summer / autumn using less hot water or in the kitchen Operate the boiler to supply hot water at the proper temperature when using hot water.

The minimum calorie operation according to such a small hot water selection signal is continued until the small hot water selection signal is released through data transmission and reception with the room cone every communication time.

Here, it is also possible to increase the user's selectivity according to the use purpose and the use environment by being able to set the small hot water selection signal in multiple stages to have a temperature difference from each other.

The hot water control method of the boiler according to the present invention is to control the boiler in the hot water operation mode, but in a state in which the boiler is heating operation to control the minimum amount of heat unconditionally regardless of the set hot water temperature, the boiler is stopped In the case of the initial ignition, the control is performed at the maximum calorific value for a predetermined time (until the burner is heated) and then at the minimum calorific value.

In the case of hot water control as described above, it is not necessary to change the hot water temperature every time according to the purpose of use, and it is possible to prevent the boiler from being turned on / off more than necessary, thereby saving fuel and using hot water safely.

Such a hot water control method of the boiler according to the present invention has the following effects.

First, it is possible to use the hot water at the proper temperature according to the use of hot water and the environment, and move to the place where the room cone is installed according to the season or the purpose of using the hot water, or mostly designed for the shower. It is high because it eliminates the inconvenience to use by adjusting the cold water valve of the faucet each time, it is effective to increase the user's convenience.

Second, since hot water is supplied according to the use and the use environment, there is an effect of increasing the safety of the user.

Third, the boiler is prevented from being turned on and off more than necessary, thereby preventing unnecessary waste of boiler fuel and water, thereby increasing environmental friendliness, thereby increasing the competitiveness of the product.

Claims (2)

In the control of the boiler having a main controller for controlling the entire boiler system and a room controller for transmitting and receiving a boiler control signal by the user's selection, Performing a comparison / computation process for removing a signal error due to noise when a small amount of hot water selection signal is input, and converting the data into communicable data; Transmitting data regarding the converted small hot water selection signal and receiving the same at the main controller to process the controllable data; Determining a current boiler operation state; Outputting minimum calorie operation data when the boiler operation state is a heating operation state so that hot water is supplied at an appropriate temperature according to a small amount of hot water selection signal; Outputting maximum calorie operation data and determining whether burner heating is completed when the current boiler operation state is stopped; And outputting the minimum calorie operation data again when the burner heating is completed, so that hot water is supplied at an appropriate temperature according to a small hot water selection signal. The method of claim 1, wherein the hot water selection signal can be set in multiple stages so as to have a temperature difference from each other.