KR101682008B1 - Apparatus and method for controlling heat source equipment according to sensory temperature variation by sunshine - Google Patents

Abstract

The present invention relates to an apparatus and a method to control a heat source facility in a building according to a sensory temperature of a user calculated by a temperature, a humidity and sunshine inside a building. According to the present invention, the apparatus comprises: one or more sensor modules to measure a temperature, a humidity, sunshine, motion, and a current position in each region inside a building; a temperature/humidity calculation unit using temperature, humidity and current position information measured in the sensor module to generate a temperature/humidity applied to each region inside the building, detected by being matched with building structure information and proper temperature/humidity information previously stored in a storage unit; a sensory temperature calculation unit using sunshine and motion detection information of each region together with the temperature, humidity and current position information measured in the sensor module to calculate a sensory temperature of a user placed in the building; an operation mode setting unit adjusting the temperature/humidity applied to each region inside the building, generated in the temperature/humidity calculation unit, based on the sensory temperature calculated in the sensory temperature calculation unit to set an operation mode of a heat source facility of each region inside the building; a heat source facility control unit to perform classified control of a heat source facility through individual control of the heat source facility inside the building based on the operation mode set in the operation mode setting unit; and the storage unit to store internal building structure information by position of an appearance, an outer cover, and an inner wall of the building, and a proper temperature/humidity value to be maintained inside the building by season/time.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for controlling a heat source facility according to a change in a sensation temperature due to an amount of sunshine,

The present invention relates to an apparatus and a method for controlling a heat source facility in a building of a public housing and a building, and more particularly, to an apparatus and a method for controlling a heat source facility according to a temperature sensed by a user due to temperature,

In recent years, interest in the environment has been increasing due to the global warming problem. In fact, the Kyoto Protocol, which mandates greenhouse gas reduction in 1997, was adopted. In 2007, Korea also participated in the reduction of greenhouse gas emissions with the adoption of the Bali Roadmap. Particularly, efforts are being made to reduce the energy efficiency of buildings and greenhouse gases generated in buildings, which led to the development of a building energy management system to enhance energy efficiency and provide a comfortable space.

Building Energy Management System (BEMS) is a computer-aided tool used to monitor building conditions, control equipment, and optimize buildings. Currently, most BEMS operations perform only simple control and monitoring functions of the whole facility, and they partially provide functions for energy management. Therefore, systematic energy management functions specific to buildings have been limited.

Korean Patent Laid-Open Publication No. 10-2012-001047 provides a simulation-based building energy management system through climate analysis and the like. However, energy management is not taken into consideration, There is a problem that it has a certain limit in increasing the efficiency.

In addition, it is difficult to meet the growing concern about the development of 'zero emission house', a futuristic environment house with the goal of minimizing carbon dioxide emissions during the building operation phase.

Japanese Patent Application Laid-Open No. 10-2013-0114965 (published on October 21, 2013). Open Patent Publication No. 10-2012-0073395 (Published on July 5, 2012) Published Japanese Patent Application No. 10-2012-0010474 (Published March 23, 2012)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an apparatus and a method for controlling a heat source facility in a building based on a sensed temperature of a user calculated by a temperature, a humidity, .

Another object of the present invention is to provide a detailed control of the amount of sunshine and indoor humidity in a building by operating a heat source device in relation to the outside temperature and humidity in an automatic control system of a current heat source equipment in a building.

Other objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a control apparatus for a heat source facility according to a change in a sensible temperature caused by an amount of sunshine, comprising at least one sensor module for measuring temperature, humidity, A temperature / humidity controller for generating a temperature / humidity to be applied to each building area detected and matched with building structure information and appropriate temperature / humidity information stored in advance in the storage unit using temperature, humidity, and current position information measured by the sensor module, An operation mode setting unit for setting an operation mode of the heat source equipment in the building based on the temperature / humidity to be applied to the in-building area generated by the temperature / humidity calculating unit; Controlling the heat source facility to control the subdivision of the heat source facility through individual control of the heat source facility in the building based on the operation mode And a storage unit for storing the building internal structure information for each location of the building, the external appearance of the building, the exterior of the building, and the internal temperature of the building, and an appropriate temperature and humidity value to be maintained in the building by season / time.

According to another aspect of the present invention, there is provided an apparatus for controlling a temperature of a building, the apparatus comprising: a temperature sensor for detecting a temperature, a humidity, an amount of sunshine, A bodily sensation temperature calculating unit for calculating a bodily sensation temperature of a user located in a building using the temperature, humidity, and current position information measured by the sensor module, An operation mode setting unit for setting the operation mode of the heat source equipment according to the position in the building by adjusting the temperature / humidity to be applied to the in-building area based on the sensed temperature calculated by the temperature calculation unit; A heat source facility for controlling the subdivision of the heat source facility through the individual control of the heat source facility in the building Fishermen and can store consists including parts, which in appearance, coat, location-specific information, and structure-building season / time of the inside wall of the building stored the proper temperature and moisture levels to be maintained within a building.

According to another aspect of the present invention, there is provided an apparatus for controlling a temperature of a building, the apparatus comprising: A temperature to be applied to each building area detected and matched with building structure information and appropriate temperature / humidity information stored in advance in a storage unit using at least one sensor module, temperature, humidity, and current position information measured by the sensor module; A temperature / humidity calculation unit for generating a temperature / humidity of the user, a temperature / humidity calculation unit for generating a humidity, a temperature sensor for measuring a temperature sensed by the user, And a temperature / humidity calculation unit for calculating a temperature / humidity calculation unit based on the bodily sensation temperature calculated by the bodily sensation temperature calculation unit An operation mode setting unit for setting the operation mode of the heat source equipment for each location in the building by adjusting a temperature / humidity to be applied to each generated area of the building, and a control unit for controlling the individual control of the heat source equipment in the building based on the operation mode set in the operation mode setting unit And a storage unit for storing appropriate internal temperature and humidity values to be maintained in the building by season / time, and information on the internal structure of the building by the location of the exterior, the exterior, and the inner wall of the building, .

Preferably, the sensor module includes a temperature sensor for measuring an internal temperature in a specific area of a building, a humidity sensor for measuring an internal humidity in a specific area in the building, and a humidity sensor for measuring an amount of sunshine entering the building in a specific area in the building A movement sensor for detecting a movement of a user in a specific area within the building and measuring a population density of each area, and a position detector for detecting current position information of a specific area in the building.

Preferably, the sunlight amount sensor is installed in the vicinity of a window or a window capable of entering a set amount of sunlight into a building, and the size of a sunshine amount applied to the size of a specific area is applied.

Preferably, the bodily sensation temperature calculating unit calculates a sensation temperature of a user to be measured according to the size of a region corresponding to the amount of sunshine to be measured and applied as the size of a heat source applied thereto, and as the population density measured through motion sensing increases, .

를 통해 사용자의 체감온도를 산출하는 것을 특징으로 한다.Preferably, the bodily-

The sensed temperature of the user is calculated through the temperature sensor.

를 통해 사용자의 체감온도를 산출하는 것을 특징으로 한다.Preferably, the bodily-

The sensed temperature of the user is calculated through the temperature sensor.

Preferably, the operation mode setting unit adjusts the temperature / humidity to be applied to the in-building area to a low value if the calculated bodily sensation temperature is higher than the temperature measured by the sensor module, and if the calculated bodily sensation temperature is lower than the temperature measured by the sensor module , The temperature / humidity to be applied to each area within the building is adjusted to be high, and the degree of adjustment is adjusted to an average value of the difference between the bodily sensation temperature and the measurement temperature.

According to an aspect of the present invention, there is provided a method of controlling a heat source facility according to a change in a sensible temperature by a sunshine amount, the method comprising: sensing at least one sensor module installed in different areas of a building, Humidity, and current position information of the sensor module, receiving the measured temperature, humidity, and current position information from the sensor module through the temperature / humidity calculator, and storing the building structure information and the appropriate temperature / Adjusting a temperature / humidity to be applied to each of the in-building areas through the operation mode setting unit; and adjusting the temperature / humidity to be applied to the inside of the building based on the adjusted temperature / Setting the operation mode of the heat source equipment based on the set operation mode through the heat source equipment control unit There makin comprises the step of performing a fine-grained control of the heat source equipment via the individual control of the equipment within the building ten won.

According to another aspect of the present invention, there is provided a method of controlling a heat source equipment according to a change in the sensible temperature by the amount of sunshine, comprising the steps of: (a) (B) calculating the temperature, humidity, and current position information measured by the sensor module through the sensory temperature calculating unit, together with the population density measured by the sunshine amount and the motion sensing information per region (C) adjusting the temperature / humidity to be applied to the in-building area based on the calculated bodily sensation temperature through the operation mode setting unit; and (d) ) Setting an operation mode of the heat source equipment for each position in the building on the basis of the adjusted temperature / humidity, (e) There makin comprises the step of performing a fine-grained control of the heat source equipment via the individual control of the equipment within the building ten won based on the set operation mode.

According to another aspect of the present invention, there is provided a method of controlling a heat source facility according to a change in a sensible temperature caused by an amount of sunshine according to the present invention. The method includes the steps of: (A) (B) receiving temperature, humidity, and current position information measured by the sensor module through the temperature / humidity calculating unit, and storing the temperature, humidity, (C) determining temperature, humidity, and current position information measured by the sensor module through the sensory temperature calculating unit, and comparing the measured temperature and humidity information with the temperature and humidity information Calculating the sensible temperature of the user located in the building using the population density information measured by the amount of sunshine and the motion detection information, and (D) Adjusting a temperature / humidity to be applied to the predetermined in-building area based on the calculated bodily sensation temperature through the setting unit; and (E) adjusting a temperature / And (F) performing a subdivision control of the heat source equipment through individual control of the heat source facilities in the building based on the set operation mode through the heat source facility control unit.

Preferably, in the step (a) or (A), the larger the specific region, the smaller the size of the heat source applied in the same amount of sunlight, and the smaller the specific region, the larger the size of the heat source applied in the same amount of sunlight. And is applied when calculating the bodily sensation temperature.

Preferably, the step (b) or the step (C) increases the sensation temperature of the user calculated as the size of the heat source according to the amount of sunshine is applied to the user, and the sensed user movement in the specific area of the building And the sensible temperature of the user calculated as the population density becomes higher.

Preferably, in the step (c) or (D), if the calculated bodily sensation temperature is higher than the measured temperature in the sensor module, adjusting the temperature / humidity to be applied to the in- And adjusting the temperature / humidity to be applied to each area in the building to be higher when the measured temperature is lower than the temperature measured in the module, wherein the adjusted degree is adjusted by an average value of the difference between the sensible temperature and the measured temperature.

As described above, according to the present invention, an apparatus and a method for controlling a heat source facility according to a change in a bodily sensation temperature by controlling a heat source facility in a building based on a bodily sensation temperature calculated by a temperature, a humidity, Accurate and reasonable heating operation can be achieved.

Especially, by controlling the heat source equipments individually by calculating the sensation temperature of the user for each unit of the building in the apartment house, the heating unevenness due to the difference between the heating area and the amount of sunshine can be solved as well as a pleasant and individual heating state can be maintained .

As a result, it will contribute to the reduction of labor costs as a remote heating operation control device that shows energy saving effect by unnecessary operation removal and automatically terminates after it is operated according to changing temperature, humidity and sunshine amount.

1 is a block diagram illustrating a configuration of a heat source facility control apparatus according to a change in bodily sensation temperature due to an amount of sunshine according to a preferred embodiment of the present invention
2 is a flowchart for explaining a method of controlling a heat source equipment according to a change in a bodily sensation temperature due to an amount of sunshine according to an embodiment of the present invention.
FIG. 3 is a view showing an embodiment in which the heat source facility is subdivided and controlled through the individual control of the heat source facilities in the building through the heat source facility control unit in FIG.

Other objects, features and advantages of the present invention will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

Preferred embodiments of an apparatus and a method for controlling a heat source equipment according to a change in a bodily sensation temperature by the amount of sunshine according to the present invention will be described with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. It is provided to let you know. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

FIG. 1 is a block diagram illustrating a configuration of a heat source facility control apparatus according to a bodily sensation temperature change according to a preferred embodiment of the present invention.

As shown in FIG. 1, at least one sensor module 100a (100b) for measuring temperature, humidity, sunlight, motion detection, and current position for each different area in a building, The temperature / humidity for generating the temperature / humidity to be applied to the in-building region detected and matched with the building structure information and the appropriate temperature / humidity information stored in advance in the storage unit 600 using the measured temperature, humidity, A sensory temperature calculation unit 200 for calculating a sensory temperature of a user located in a building using the temperature, humidity, and current position information measured by the sensor module 100, A temperature / humidity control unit 300 for controlling the temperature / humidity to be applied to the in-building area generated by the temperature / humidity calculation unit 200 based on the sensation temperature calculated by the sensation temperature calculation unit 300 The operation mode setting unit 400 for setting the operation mode of the heat source equipment according to the position in the building, and the subdivision control of the heat source equipment through the individual control of the heat source equipment in the building based on the operation mode set in the operation mode setting unit 400 A storage unit 600 for storing the internal structure information of buildings according to positions of the exterior, the exterior, and the inner wall of the building and the appropriate temperature and humidity values to be maintained in the building by season / time, . At this time, the size of the area can be confirmed for each area within the building through the internal structure information of each building.

The first and second sensor modules 100a and 100b include a temperature sensor 101 for measuring an internal temperature in a specific area in a building, a humidity sensor 102 for measuring an internal humidity in a specific area in the building, A daylight amount sensor 103 for measuring the amount of sunshine entering the building in a specific area within the building, a motion detection sensor 104 for detecting the movement of the user in a specific area of the building and measuring the population density for each area, And a position detector 105 for detecting current position information of a specific area.

At this time, the temperature sensor 101 and the humidity sensor 102 are two-wire type (power supply + communication overlap) room temperature and humidity sensor, and the measured value is transmitted to the analog input module.

The sunshine sensor 103 measures the amount of sunshine entering the building. The sunshine sensor 103 is installed around a window or a window capable of entering a sunlight into a building, and applies a magnitude of incident amount per unit time do. That is, the larger the specific region, the smaller the size of the heat source applied in the same amount of sunshine, and the smaller the specific region, the larger the size of the heat source applied in the same amount of sunshine. It is applied when calculating. That is, as the size of the heat source according to the amount of sunshine is applied, the sensible temperature of the user is increased.

In addition, the motion detection sensor 104 detects the number of people in a specific area and measures the population density by area. This is because the sensation temperature calculation unit 300 calculates the sensation temperature of the user together with the sunshine sensor 103 . This is because when a large number of people are present in a small space, the sensation temperature of the user in the same space is increased, and accordingly, the higher the population density, the higher the sensation temperature of the user.

The bodily sensation temperature calculating unit 300 calculates the bodily sensation temperature of the user based on the size of the specific region, the amount of sunshine, and the population density information detected by the sensor module 100 using the following equations (1) and (2). Equation (1) is a formula for calculating a user's sensation temperature in the case of summer, and Equation (2) is a formula for calculating a sensation temperature of a user in winter.

If the calculated bodily sensation temperature is higher than the temperature measured by the sensor module 100, the operation mode setting unit 400 adjusts the temperature and humidity to be applied and maintained for each in-building area. If the calculated bodily sensation temperature is lower than the temperature measured by the sensor module 100, the temperature and humidity to be applied to the in-building area are adjusted to be high. At this time, the degree of adjustment is preferably adjusted to an average value of the difference between the bodily sensation temperature and the measurement temperature. That is, the temperature and humidity are adjusted to be lower or higher by an average value of the difference between the bodily sensation temperature and the measurement temperature.

On the other hand, the operation mode setting unit 400 is for adjusting the temperature and humidity to be applied and maintained for each in-building area on the basis of the bodily sensation temperature, as one embodiment, In order to maintain the temperature and humidity to be maintained, the operation mode of the heat source equipment for each location in the building is set, or the bodily sensation temperature calculated by the bodily sensation temperature calculation unit 300 It is also possible to set the operation mode of the heat source equipment according to the position in the building so that the temperature and the humidity are maintained in the building area. This may be achieved through mode selection or the like, or may be configured as any one from the beginning.

Hereinafter, the operation of the heat source equipment control apparatus according to the change in the sensible temperature due to the amount of sunshine according to the present invention will be described in detail with reference to the accompanying drawings. The same reference numerals as those in Fig. 1 designate the same members performing the same function.

FIG. 2 is a flowchart illustrating a method of controlling a heat source facility according to a change in bodily sensation temperature due to the amount of sunshine according to an embodiment of the present invention.

Referring to FIG. 2, at least one sensor module 100 installed in different areas of a building is used to measure temperature, humidity, sunlight, motion information, The current location information is received (S10).

In this case, the amount of sunshine is a measurement value of the amount of sunshine entering into a building in a specific area within a building. The larger the specific area in the building, the smaller the size of the heat source applied in the same amount of sunshine. Is applied to the bodily sensation temperature calculation unit 300 to calculate the bodily sensation temperature of the user. That is, as the size of the heat source according to the amount of sunshine is applied, the sensible temperature of the user is increased. In addition, the motion information measures a population density of each area by using the detected user movement in a specific area in a building. The higher the population density, the higher the sensation temperature of the user measured.

Next, the temperature, humidity, and current position information measured by the sensor module 100 are inputted through the temperature / humidity calculation unit 200 (S30), and the building structure information S40, which is stored in advance in the storage unit 600, And temperature / humidity information (S50) are matched with each other to set a temperature / humidity to be applied to each in-building area (S60).

Also, by using the temperature, humidity, and current position information measured by the sensor module 100 through the sensation temperature calculating unit 300 and using the population density information measured as the sunshine amount and the motion sensing information per area (S70) The sensation temperature of the user is calculated (S80).

Here, the calculation of the sensation temperature of the user is calculated using Equation (1) or Equation (2) described above, and a detailed description thereof is described above.

After adjusting the temperature / humidity to be applied to the set in-building area based on the calculated bodily sensation temperature through the operation mode setting unit 400 (S90), the operation mode of the heat source equipment is set for each location in the building (S100).

At this time, if the calculated bodily sensation temperature is higher than the temperature measured by the sensor module 100, the temperature / humidity to be applied to the in-building area is adjusted to be low. If the calculated bodily sensation temperature is lower than the temperature measured by the sensor module 100, the temperature / humidity to be applied to the in-building area is adjusted to be high.

On the other hand, in order to adjust the temperature and humidity to be applied and maintained for each in-building area on the basis of the bodily sensation temperature, the temperature and humidity to be applied and maintained for each in- , The operation mode of the heat source equipment is set for each location in the building or the temperature and humidity are maintained in the building area by using only the calculated sensation temperature irrespective of the temperature and humidity to be applied for each in- It should be noted that the operation mode of the star heat source facility can also be set. This may be achieved through mode selection or the like, or may be configured as any one from the beginning.

In addition, the heat source facility control unit 500 controls the heat source equipment to be separately controlled based on the set operation mode (S110).

FIG. 3 is an embodiment showing that the heat source equipment is subdivided and controlled through the individual control of the heat source facilities in the building through the heat source facility control unit. As shown in FIG. 3, It is possible to separately control the heat source equipment by dividing the heat source device according to the temperature and humidity according to the area, so that the heating unevenness due to the difference between the heating area and the amount of sunshine can be solved, and a pleasant and uniform heating state can be maintained.

Therefore, energy saving effect can be shown by unnecessary operation elimination.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent to those skilled in the art that various modifications may be made without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

Claims (15)

delete At least one sensor module for measuring the temperature, the humidity, the amount of sunshine, the motion detection and the current position for each different area in the building,
A bodily sensation temperature calculation unit for calculating a bodily sensation temperature of a user located in a building using temperature, humidity, and current position information measured by the sensor module,
An operation mode setting unit for setting the operation mode of the heat source equipment according to the position in the building by adjusting the temperature and humidity to be applied to the in-building area based on the bodily sensation temperature calculated by the bodily sensation temperature calculating unit,
A heat source equipment control unit for performing subdivision control of the heat source equipment through individual control of the heat source equipment in the building based on the operation mode set by the operation mode setting unit;
And a storage unit for storing information on the internal structure of the building by the location of the exterior, the exterior, and the inner wall of the building and the appropriate temperature and humidity values to be maintained in the building by season /
At this time, the bodily sensation temperature calculating unit
In the case of summer,

The sensed temperature of the user is calculated using the sensed temperature,
In the case of winter,

Wherein the sensible temperature of the user is calculated using the sensed temperature of the user. At least one sensor module for measuring the temperature, the humidity, the amount of sunshine, the motion detection and the current position for each different area in the building,
A temperature / humidity controller for generating temperature and humidity to be applied to each building area detected and matched with building structure information and appropriate temperature and humidity information stored in advance in the storage unit using the temperature, humidity, and current position information measured by the sensor module, A humidity calculator,
A bodily sensation temperature calculation unit for calculating a bodily sensation temperature of a user located in a building using temperature, humidity, and current position information measured by the sensor module,
A driving mode setting unit for setting the operation mode of the heat source equipment according to the position in the building by adjusting the temperature and humidity to be applied to the in-building area generated by the temperature / humidity calculating unit based on the bodily sensation temperature calculated by the bodily sensation temperature calculating unit; ,
A heat source equipment control unit for performing subdivision control of the heat source equipment through individual control of the heat source equipment in the building based on the operation mode set by the operation mode setting unit;
And a storage unit for storing information on the internal structure of the building by the location of the exterior, the exterior, and the inner wall of the building and the appropriate temperature and humidity values to be maintained in the building by season /
At this time, the bodily sensation temperature calculating unit
In the case of summer,

The sensed temperature of the user is calculated using the sensed temperature,
In the case of winter,

Wherein the sensible temperature of the user is calculated using the sensed temperature of the user. The sensor module according to any one of claims 2 and 3, wherein the sensor module
A temperature sensor for measuring an internal temperature in a specific area in the building,
A humidity sensor for measuring an internal humidity in a specific area in the building,
A daylight amount sensor for measuring an amount of sunshine entering into a building in a specific area within the building,
A motion detection sensor for detecting user movement in a specific area in the building and measuring population density by area,
And a position detector for detecting current position information of a specific area in the building. 5. The method of claim 4,
Wherein the amount of sunshine sensor is installed around a window or a window capable of entering a set amount of sunshine into a building and a size of a sunshine amount applied to a size of a specific area is applied. 5. The method of claim 4,
The sensible temperature calculating unit calculates the sensible temperature of the user to be measured according to the size of the region corresponding to the amount of sunshine to be measured and applied as the size of the applied heat source, The heat source facility control device according to the change in the bodily sensation temperature due to the amount of sunshine. delete delete 4. The method according to claim 2 or 3, wherein the operation mode setting unit
If the calculated bodily sensation temperature is higher than the temperature measured by the sensor module, the temperature and humidity to be applied to the in-building area are adjusted to be low,
If the calculated bodily sensation temperature is lower than the temperature measured by the sensor module, the temperature and humidity to be applied to the in-building area are adjusted to be high,
Wherein the degree of adjustment is adjusted by an average value of the difference between the bodily sensation temperature and the measurement temperature. delete (a) receiving temperature, humidity, sunlight, and motion information for each location in a building using at least one sensor module installed in different areas of the building;
(b) calculating the sensory temperature of the user located in the building using the temperature, humidity, and current position information measured in the sensor module through the sensation-feeling-temperature calculating unit, and population density information measured as the sunshine amount and the motion- Wow,
(c) adjusting temperature and humidity to be applied to the in-building area based on the calculated bodily sensation temperature through the operation mode setting unit,
(d) setting an operation mode of the heat source equipment for each location in the building based on the adjusted temperature and humidity,
(e) performing a subdivision control of the heat source equipment through individual control of the heat source facilities in the building based on the set operation mode through the heat source facility control unit,
At this time, the step (b)
In the case of summer,

The sensed temperature of the user is calculated using the sensed temperature,
In the case of winter,

Wherein the sensory temperature of the user is calculated using the sensed temperature of the user. (A) receiving temperature, humidity, sunlight, and motion information for each location in a building using at least one sensor module installed in different areas of the building;
(B) receives the measured temperature, humidity and current position information from the sensor module through the temperature / humidity calculating unit, and matches the building structure information and the appropriate temperature and humidity information stored in advance in the storage unit with each other to be applied to the in- Setting a temperature / humidity,
(C) calculating the sensation temperature of the user located in the building using the temperature, humidity, and current position information measured by the sensor module through the sensation temperature calculating unit, and the population density information measured by the sunshine amount and the motion sensing information per region Wow,
(D) adjusting a temperature and a humidity to be applied to the set in-building area based on the calculated bodily sensation temperature through an operation mode setting unit,
(E) setting an operation mode of the heat source equipment for each location in the building based on the adjusted temperature and humidity,
(F) performing a subdivision control of the heat source equipment through individual control of the heat source facilities in the building based on the set operation mode through the heat source facility control unit,
At this time, the step (C)
In the case of summer,

The sensed temperature of the user is calculated using the sensed temperature,
In the case of winter,

Wherein the sensory temperature of the user is calculated using the sensed temperature of the user. The method as claimed in claim 11 or 12, wherein the step (a) or the step (A)
The larger the specific region, the smaller the size of the heat source applied in the same amount of sunshine, and the larger the specific region, the larger the size of the heat source applied in the same amount of sunshine, A method of controlling a heat source facility according to a change in a sensation temperature by a temperature sensor. The method as claimed in claim 11 or 12, wherein the step (b) or the step (C)
As the size of the heat source according to the amount of sunshine is applied, the sensed temperature of the user is increased, and the sensible temperature of the user, which is calculated as the population density of each region measured using the sensed user movement in the specific region of the building, And controlling the heat source equipment according to the change of the sensible temperature by the amount of sunshine. The method as claimed in claim 11 or 12, wherein the step (c) or the step (D)
Adjusting the temperature and humidity to be applied to the in-building area to a low level if the calculated bodily sensation temperature is higher than the temperature measured by the sensor module;
And adjusting the temperature and humidity to be applied to each area within the building to a higher level if the calculated bodily sensation temperature is lower than the temperature measured by the sensor module,
Wherein the degree of adjustment is adjusted by an average value of the difference between the bodily sensation temperature and the measurement temperature.

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