KR20170063206A - Boiler automatic control apparatus based body temperature and method thereof - Google Patents

Abstract

The present invention relates to a human body temperature-based automatic boiler control apparatus and method for automatically controlling the heating temperature according to the temperature of a human body, thereby improving the customer satisfaction with heating by heating control considering the sensed temperature per person, A human body temperature sensing unit for sensing a temperature of the human body; A bodily sensation temperature analyzer for analyzing a bodily sensation temperature based on a human body temperature sensed by the human body temperature sensing unit to generate a sensible temperature difference; And a heating controller for automatically controlling the room temperature according to the sensed temperature difference analyzed by the sensation temperature analyzer. The controller controls the heating according to the sensible temperature by implementing the automatic temperature controller based on the human body temperature.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a boiler automatic control apparatus based on human body temperature,

The present invention relates to an automatic control of a boiler based on a human body temperature, and more particularly, to a boiler control method and system for controlling a boiler of a human body which can improve the customer's satisfaction with heating by automatically controlling the heating temperature according to the human body temperature, Temperature boiler automatic control apparatus and method therefor.

In general, boilers are used as a means for receiving heating and hot water, and these boilers are divided into various types depending on their usage and capacity.

The boiler includes a combustion unit for igniting and burning the supplied fuel, a heat exchange unit for transferring the heat generated in the combustion unit to the heating water and performing heat exchange in a high temperature state, and a heating water heat exchanged in a high temperature state, And a heating pipe circulated or supplied for supply. In addition, the boiler is divided into a gas boiler and an oil boiler depending on the fuel used in the combustion.

A general domestic gas boiler 1 is shown in Fig. The general gas boiler 1 disclosed in FIG. 1 generates heating water by heating the water supplied from the water tank 2 through the heat exchanger 3, and supplies the generated heating water through the three-way valve 5 And supplies it to the piping 200 for heating. In addition, when hot water is used, the hot water passed through the three-way valve 5 is heat-exchanged through the hot water heat exchanger 4 and supplied to the hot water.

The room temperature control method of such a general domestic gas boiler controls the room temperature based on a specific environment (for example, a set temperature). For example, the current heating temperature is detected, the detected heating temperature is compared with the temperature set by the user, and the heating temperature is controlled by controlling the boiler according to the magnitude of the detected heating temperature.

Prior arts for gas boilers are disclosed in Patent Documents 1 and 2 below.

The prior art disclosed in Patent Document 1 can recognize the fact that the burner is turned on / off repeatedly within a predetermined time by detecting the number of repetitions of the rising and falling of the heating water supply temperature. Therefore, Thereby solving the problem caused by the repeated on / off operation of the burner by requesting the extension of the off period of the burner.

In the prior art disclosed in Patent Document 2, in the hot water and heating water control device by supplying water to the condensing gas boiler, the water heat exchanger is configured to be firstly passed through the hot water heat exchanger after supplying the water, Thereby improving the temperature and efficiency of the heating water.

Korean Registered Patent Registration No. 10-0753582 (Registered on Mar. 23, 2007) Korean Patent Publication No. 10-2005-0006862 (published on Jan. 17, 2005)

However, since the conventional domestic gas boiler is a method of controlling the indoor temperature through comparison between the temperature set by the user and the heating temperature, it is an indoor temperature control method that does not reflect the perceived temperature for each person. Therefore, Can not be said to be the heating control of the air conditioner.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a heating control apparatus and a heating control method for controlling the heating temperature according to the human body temperature, The present invention has been made in view of the above problems, and it is an object of the present invention to provide a boiler automatic control apparatus based on human body temperature and a method thereof.

It is another object of the present invention to provide a heating control system for detecting a human body temperature, averaging bodily sensation temperature when a plurality of detected human body temperatures are present, and automatically controlling the heating temperature according to the averaged bodily sensation temperature, The present invention provides a boiler automatic control apparatus based on a human body temperature and a method thereof that can improve customer satisfaction with heating.

According to an aspect of the present invention, there is provided an apparatus for automatically controlling a boiler based on a human body temperature, including a human body temperature sensing unit for sensing a temperature of the human body; A bodily sensation temperature analyzer for analyzing a bodily sensation temperature based on a human body temperature sensed by the human body temperature sensing unit to generate a sensible temperature difference; And a heating controller for automatically controlling the room temperature according to the sensed temperature difference analyzed by the sensation temperature analysis unit.

Wherein the sensory temperature analyzer comprises: a sensory temperature determining unit for determining sensible sensible temperature based on the human body temperature when the sensed human body temperature is single; A bodily sensation temperature averaging section for averaging respective human body temperatures to calculate a bodily sensation temperature when the detected human body temperature is a plurality of sensed human body temperatures; And a bodily sensation temperature difference generator for generating a bodily sensation temperature difference by comparing the bodily sensation temperature calculated by the bodily sensation temperature determiner or the sensation temperature averager with the reference bodily sensation temperature stored in the memory.

The heating control unit controls the heating by automatically adjusting the room temperature according to the sensed temperature difference generated in the sensation temperature analysis unit.

According to another aspect of the present invention, there is provided a method of automatically controlling a human body temperature based on human body temperature, comprising the steps of: (a) starting heating when heating is requested according to operation of a heating switch; (b) sensing a human body temperature; (c) setting the sensed human body temperature to the bodily sensation temperature, and automatically controlling the room temperature by controlling the heating according to the set sensation temperature.

In the step (c), the step (c1) includes the steps of: (c1) checking whether the sensed human body temperature is unity; (c2) setting the sensed human body temperature to the bodily sensation temperature and analyzing the bodily sensation temperature when the sensed human body temperature is single; (c3) comparing the reference bodily sensation temperature with the analyzed bodily sensation temperature when it is determined that the bodily sensation temperature is inappropriate, and controlling the heating by controlling the room temperature according to the generated bodily sensation temperature difference .

In the step (c), if the sensed human body temperature is a plurality of sensed human body temperatures, the sensed human body temperature is set as a bodily sensation temperature, the respective bodily sensation temperatures are averaged to reset the sensible bodily sensation temperature, And a step of moving to the step of moving to the next step.

According to the present invention, the heating temperature is automatically controlled according to the temperature of the human body, thereby improving the customer's satisfaction with the heating by the heating control considering the sensible temperature per person.

Further, according to the present invention, when the detected human body temperature is large, the sensation temperature is averaged and the heating temperature is automatically controlled according to the averaged sensation temperature, thereby improving the customer satisfaction with the heating by the heating control considering the perceived temperature There is an effect that can be done.

1 is a schematic cross-sectional view of a conventional gas boiler,
FIG. 2 is a block diagram of a human body temperature-based automatic boiler control apparatus according to a preferred embodiment of the present invention.
3 is a flowchart illustrating a method for automatically controlling a human body temperature based boiler according to a preferred embodiment of the present invention.

Hereinafter, an apparatus for automatically controlling a human body temperature based boiler according to a preferred embodiment of the present invention and a method thereof will be described in detail with reference to the accompanying drawings.

First, the domestic gas boiler to which the present invention is applied is the same as that of the general domestic gas boiler shown in FIG. The present invention is characterized in that a human body temperature sensing device capable of detecting a human body temperature is added to the domestic gas boiler shown in FIG. 1, and a domestic gas boiler is controlled by a sensible temperature control method according to the sensed human body temperature, .

FIG. 2 is a block diagram of a human body temperature based boiler automatic control apparatus according to the present invention.

The human body temperature based boiler automatic control apparatus includes a human body temperature sensing unit 110, a sensation temperature analysis unit 120, a heating control unit 130, a heating switch 150, a combustion unit 140, and a memory 160 ).

The human body temperature sensing unit 110 serves to detect the temperature of the human body. The temperature of the human body can be detected using an infrared camera or an infrared camera.

The sensation temperature analyzing unit 120 analyzes the sensation temperature based on the human body temperature sensed by the sensation unit 110 to generate a sensible temperature difference.

The sensory temperature analyzer 120 includes a sensory temperature determining unit 121 for determining a sensible temperature based on the human body temperature when the sensed human body temperature is a single sensed temperature sensed by the sensed temperature sensing unit 110; A bodily sensation temperature averaging unit (122) for calculating a bodily sensation temperature by averaging each human body temperature when the detected human body temperature is plural; And a bodily sensation temperature difference generation unit 123 for generating a bodily sensation temperature difference by comparing the bodily sensation temperature calculated by the bodily sensation temperature determination unit 121 or the sensation temperature averaging unit 122 with the reference bodily sensation temperature stored in the memory 160 do.

The heating switch 150 is an operation switch for selecting heating on / off. The heating control unit 130 automatically controls the indoor temperature according to the sensed temperature difference analyzed by the sensation temperature analysis unit 120 Thereby controlling the heating.

Preferably, the heating controller 130 controls the heating by automatically adjusting the room temperature according to the sensed temperature difference generated by the sensation temperature analyzer 120. The heating control unit 130 may be implemented by a controller such as a controller, a microprocessor, a microcomputer, and a central processing unit. It can be said that it is a controller applied in a conventional domestic gas boiler.

The combustion unit 140 is typically provided in a domestic gas boiler and serves to heat-exchange the heating water.

The operation of the human body temperature based boiler automatic control apparatus according to the present invention will now be described in detail.

First, when the user turns on the heating switch 150 provided in the controller for heating, the heating control unit 130 drives the combustion unit 140 and other boiler equipment by the same operation as the normal boiler drive , The heating water is heated, and the heated water is circulated to the heating pipe to be heated.

In this case, the conventional room temperature control method of the boiler compares the set temperature set by the user with the room temperature, and controls the heating by controlling the temperature according to the difference. At this time, the sensible temperature sensed separately for each person is different even at the same temperature. For example, at the same temperature a person feels cold and a person feels hot, and this sensation temperature can be known by the human body temperature. This results in different satisfaction levels for each person at the same temperature.

Therefore, the present invention aims to improve the satisfaction of the consumers for the heating by optimizing the indoor temperature control for the human sensation temperature, and to achieve the optimized heating by avoiding the simple temperature control method.

When the heating is started, the human body temperature sensing unit 110 senses the temperature of the human body existing in the heating area. Here, the human body temperature detection can be performed using a normal infrared camera or a thermal imaging camera. The method of detecting the human body temperature by using the infrared camera or the thermal imaging camera is a known technique, so a detailed description thereof will be omitted.

The human body temperature sensing unit 110 converts the sensed human body temperature into numerical values (for example, 36 DEG C, 36.5 DEG C, 36 DEG C, 37 DEG C, and the like) and transmits the data to the sensory temperature analysis unit 120. If the detected human body is one person, the human body sensing temperature for one person is transmitted to the sensory temperature analysis unit 120. If the sensed human body is several persons, (120).

The sensation temperature analyzer 120 analyzes the sensed temperature of the human body, and analyzes the sensed temperature sensed by the sensed person. Here, if only one human body sensing temperature is transmitted, it is assumed that one human body has been sensed, and the human body sensed by the sensation temperature determination unit 121 is set as a bodily sensation temperature and transmitted to the sensory temperature difference generation unit 123.

If a plurality of human body sensing temperatures are transmitted, it is determined that a large number of people are present in the heating space, and the sensation temperature averaging unit 122 extracts a sensation temperature average value based on the plurality of sensed human body temperatures. For example, the body temperature sensed by a plurality of sensors is set as a bodily sensation temperature, and the set bodily sensation temperatures are averaged to reset the sensible temperature. That is, if the human body detection temperature is 36, 3, 36, 36, 37, and 37, it is set to the respective sensible temperature, and averaged (36.3 + 36.5 + 36.5 + 37 = 146.3 / ), The bodily sensation temperature is reset. The bodily sensation temperature thus reset is transmitted to the bodily sensation temperature difference generation unit 123.

The sensed temperature difference generation unit 123 generates a sensed temperature sensation temperature by using a single sensing sensation temperature transmitted from the sensing sensation temperature determination unit 121 or a reset sensation sensation temperature transmitted from the sensation temperature averaging unit 122, (Reference bodily sensation temperature-bodily sensation temperature (reset bodily sensation temperature)) and transmits the same to the heating control unit 130. Here, the reference temperature for the most people It is preferable to obtain the sensation temperature data by sensing the human body temperature of the person who feels warm and to acquire a large amount of sensation temperature data in a big data format and average them to prepare a reference sensation temperature.

When the value of the bodily sensation temperature difference is -, it is a state in which the person feels that the sensation-sensing temperature is high, and the greater the value, the hotter the sensation. In addition, when the value of the sensed temperature difference is +, the sensed temperature is higher than the actual sensation temperature and the person feels cold. The larger the sensed temperature difference is, the colder the sensation is.

The sensed temperature difference information calculated according to the sensed temperature is transmitted to the heating control unit 130. The heating control unit 130 recognizes the sensed temperature difference information as a sensed temperature sensed by the person, The control unit 140, and other heating and driving devices to control the room temperature. That is, the heating is automatically terminated when the sensed temperature difference is -, and when the sensed temperature difference is +, the room temperature is controlled to be differently increased according to the sensed temperature difference to control the heating.

If the room temperature is controlled in accordance with the sensed temperature of the person, the sensed state, which is a cold state covering the actual feelings of the person, is reflected in the heating control as it is, thereby maximizing the satisfaction of the customer.

FIG. 3 is a flowchart illustrating a method for automatically controlling a boiler based on human body temperature according to the present invention, wherein (a) starts heating when heating is requested according to operation of a heating switch (S101 to S102); (b) detecting a human body temperature (S103); (c) setting the sensed human body temperature to the bodily sensation temperature, and controlling the heating according to the set sensation temperature to automatically control the room temperature (S104 to S109).

The step (c) comprises: (c1) confirming whether the sensed human body temperature is single (S104); (c2) setting the detected human body temperature to the bodily sensation temperature and analyzing the bodily sensation temperature when the sensed human body temperature is single (S105); (c3) comparing the reference bodily sensation temperature with the analyzed bodily sensation temperature to generate a bodily sensation temperature difference, and controlling the indoor temperature according to the sensed bodily sensed temperature difference (S107 to S108) .

In the step (c), when the sensed human body temperature is a plurality of sensed human body temperatures, the sensed human body temperature is set as a bodily sensation temperature, the respective sensible bodily sensations are averaged to reset the sensible bodily sensation temperature, (S106). ≪ / RTI >

A method for automatically controlling a human body temperature based boiler according to the present invention will now be described in detail.

First, in step S101, when the user operates the heating switch 150 provided in the controller for heating, the heating control unit 130 proceeds to step S102 and performs the same operation as the normal boiler drive, And other boiler equipment are driven to heat the heating water, and the heating water is circulated to the heating pipe to be heated.

In this case, the conventional room temperature control method of the boiler compares the set temperature set by the user with the room temperature, and controls the heating by controlling the temperature according to the difference. At this time, the sensible temperature sensed separately for each person is different even at the same temperature. For example, at the same temperature a person feels cold and a person feels hot, and this sensation temperature can be known by the human body temperature. This results in different satisfaction levels for each person at the same temperature.

Therefore, the present invention aims to improve the satisfaction of the consumers for the heating by optimizing the indoor temperature control for the human sensation temperature, and to achieve the optimized heating by avoiding the simple temperature control method.

When the heating is started, the human body temperature sensing unit 110 senses the temperature of the human body in the heating area in step S103. Here, the human body temperature detection can be performed using a normal infrared camera or a thermal imaging camera.

The human body temperature sensing unit 110 converts the sensed human body temperature into numerical values (for example, 36 DEG C, 36.5 DEG C, 36 DEG C, 37 DEG C, and the like) and transmits the data to the sensory temperature analysis unit 120. If the detected human body is one person, the human body sensing temperature for one person is transmitted to the sensory temperature analysis unit 120. If the sensed human body is several persons, (120).

The sensation temperature analyzer 120 analyzes the sensed temperature of the human body, and analyzes the sensed temperature sensed by the sensed person. If only one human body detection temperature is transmitted, it is assumed that one human body is sensed in step S104. In step S105, the human body temperature sensed by the sensation temperature determination unit 121 is set as a bodily sensation temperature, 123).

If a plurality of human body sensed temperatures are transmitted, it is determined that a large number of people are present in the heating space, and the sensation temperature averaging unit 122 averages the sensed temperature values based on the plurality of human sensed temperatures transmitted in step S106 . For example, the body temperature sensed by a plurality of sensors is set as a bodily sensation temperature, and the set bodily sensation temperatures are averaged to reset the sensible temperature. That is, if the human body detection temperature is 36, 3, 36, 36, 37, and 37, it is set to the respective sensible temperature, and averaged (36.3 + 36.5 + 36.5 + 37 = 146.3 / ), The bodily sensation temperature is reset. The bodily sensation temperature thus reset is transmitted to the bodily sensation temperature difference generation unit 123.

The sensed temperature difference generator 123 generates a sensed temperature sensed by the sensed temperature sensation unit 122 and the sensed temperature sensed by the sensed temperature sensed temperature averaging unit 122 in step S107 and step S108, (Reference bodily sensation temperature-bodily sensation temperature (reset bodily sensation temperature)) and transmits it to the heating control unit 130 . Here, a method of averaging the sensory temperature for most people is to acquire the sensory temperature data by sensing the human body temperature of the person who feels warm, to obtain a large amount of the sensory temperature data in a big data format, .

When the value of the bodily sensation temperature difference is -, it is a state in which the person feels that the sensation-sensing temperature is high, and the greater the value, the hotter the sensation. In addition, when the value of the sensed temperature difference is +, the sensed temperature is higher than the actual sensation temperature and the person feels cold. The larger the sensed temperature difference is, the colder the sensation is.

The sensed temperature difference information calculated according to the sensed temperature is transmitted to the heating control unit 130. The sensed temperature difference information is transmitted to the heating control unit 130 in step S102, And controls the combustion unit 140 and other heating and driving devices to control the room temperature. That is, the heating is automatically terminated when the sensed temperature difference is -, and when the sensed temperature difference is +, the room temperature is controlled to be differently increased according to the sensed temperature difference to control the heating.

If the sensible temperature difference is zero, it is determined that the room temperature is appropriate, and the process goes to step S109 to turn off the heating.

This control process is repeatedly and continuously performed until the user forcibly turns off the heating switch.

If the room temperature is controlled in accordance with the sensed temperature of the person, the sensed state, which is a cold state covering the actual feelings of the person, is reflected in the heating control as it is, thereby maximizing the satisfaction of the customer.

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

The present invention is applied to a technique for automatically controlling a room temperature according to a human sensation temperature in a boiler.

110: human body temperature sensing unit
120:
121:
122:
123: sensible temperature difference generator
130:
140:
150: Heating switch
160: Memory

Claims (7)

An apparatus for automatically controlling a boiler using a human body temperature as a bodily sensation temperature,
A human body temperature sensing unit for sensing a temperature of the human body;
A bodily sensation temperature analyzer for analyzing a bodily sensation temperature based on a human body temperature sensed by the human body temperature sensing unit to generate a sensible temperature difference; And
And a heating controller for automatically controlling the room temperature according to the sensed temperature difference analyzed by the sensation temperature analysis unit.
The sensory temperature analyzer of claim 1, wherein the sensory temperature analyzer comprises: a sensible temperature determining unit for determining sensible sensible temperature based on a human body temperature when the sensed human body temperature is single; A bodily sensation temperature averaging section for averaging respective human body temperatures to calculate a bodily sensation temperature when the detected human body temperature is a plurality of sensed human body temperatures; And a bodily sensation temperature difference generator for generating a bodily sensation temperature difference by comparing the bodily sensation temperature calculated by the bodily sensation temperature averaging unit or the sensation temperature averaging unit and the reference bodily sensation temperature stored in the memory, .
The method according to claim 2, wherein the reference bodily sensation temperature is determined by acquiring bodily sensation temperature data by sensing a human body temperature of a person who feels warm, massively acquiring bodily sensation temperature data in a big data format, Temperature - based boiler automatic control system.
The apparatus of claim 1, wherein the heating controller controls heating by automatically adjusting a room temperature according to a sensed temperature difference generated by the sensation temperature analyzer.
A method for automatically controlling a boiler based on human body temperature,
(a) starting heating when heating is requested according to the operation of the heating switch;
(b) sensing a human body temperature; And
(c) setting the detected human body temperature to the bodily sensation temperature, and controlling the heating according to the sensed temperature to automatically control the room temperature.
[6] The method of claim 5, wherein the step (c) comprises: (c1) checking whether the sensed human body temperature is unity; (c2) setting the sensed human body temperature to the bodily sensation temperature and analyzing the bodily sensation temperature when the sensed human body temperature is single; (c3) comparing the reference bodily sensation temperature with the analyzed bodily sensation temperature when it is determined that the bodily sensation temperature is inappropriate, and controlling the heating by controlling the room temperature according to the generated bodily sensation temperature difference A method for automatic control of boiler based on human body temperature.
[6] The method of claim 6, wherein the step (c) comprises: (c4) when the sensed human body temperature is a plurality of sensed human body temperatures, setting the sensed human body temperature as a bodily sensation temperature, Further comprising the step of moving to a step of analyzing the temperature.

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