KR101805758B1 - Automatic Temperature Control System for House - Google Patents

Abstract

The present invention relates to a method and apparatus for automatically controlling the opening and closing speed of a window for ventilation after detecting a temperature change in a vinyl house and efficiently controlling a set temperature of a house growing space, A house body forming a cultivation space in which a crop can be grown, so as to provide a composition compartment; A wind tunnel which is rotatably installed on the house main body and is openable and closable to one wall surface of the cultivation space, and is connected to one end of the wind tunnel and is capable of opening / closing the wind tunnel in a setting track so as to control the temperature in the cultivation space A temperature regulating unit for regulating the temperature of the fuel cell stack; A temperature sensing unit installed in the house main body and measuring and sensing a temperature change of the cultivation space; And a temperature control unit capable of setting temperature and orbit information in the cultivation space of the house body and applying a control signal for opening and closing the temperature control unit in accordance with a sensing signal input from the temperature sensing unit, And an opening / closing speed of the temperature control unit is set and controlled together with the reference set temperature and the opening / closing track information of the cultivation space.

Description

[0001] The present invention relates to an automatic temperature control system,

The present invention relates to a house automatic temperature control system, and more particularly, to a house automatic temperature control system that automatically detects whether a window is opened or closed for ventilation after sensing a temperature change in a plastic house, And at the same time, it is possible to homogenize the ideal growth environment of cultivated crops.

Generally, it is a structure for cultivating edible ornamental plants such as vegetables, fruits and flowers, regardless of season, or for cultivating various types of crops, and has a tunnel type frame using iron pipes and the like and a structure in which a vinyl- Various types and uses of vinyl houses (hereinafter referred to as Houses) are installed and used.

In the case of such a house, it is difficult to keep the proper internal temperature for growing the crop itself because the insulation function is insufficient and it is influenced by the outdoor temperature by season. However, in order to grow the crop in the house, A separate heating and cooling system is installed in the internal space to maintain the temperature inside the house.

However, in the case of installing and using the heating / cooling equipment in the house, the energy consumption of the petroleum energy or the electric energy is very heavy due to the nature of the house having a poor heat insulation function, which causes an economic burden to the owner of the house.

As a conventional technique disclosed for solving the above problems, Korean Patent Registration No. 1292628 (Jul. 23, 2013) discloses a house structure for forming a cultivation space for a hot land; An air curtain installed in the inside of the house structure and expanded when the air is blown into the inside of the house structure to form a temperature control film in the house structure and to control the temperature in the cultivation facility by heat exchange between air introduced into the house structure and air inside the house structure; A solar panel installed outside the house structure to condense solar energy; A capacitor connected to the solar panel to charge electric energy; And a cold / hot air fan for receiving the electric energy of the capacitor and blowing air into the air curtain, wherein the air curtain has a tube shape of an inner curtain and an outer curtain, There is known a thermostat hybrid house system capable of improving the cooling and heating efficiency by forming a fine hole through which air is finely discharged and the channel through which the air is discharged is bent or bent.

In addition, in the above-mentioned Japanese Patent No. 1292628, there is provided a temperature sensor for sensing the temperature in the cultivation space, and when the temperature sensed by the temperature sensor is lower than a set temperature, warm air is supplied into the air curtain, And a control unit for controlling the driving of the cold / hot air blower so that the cold air is supplied to the inside of the air curtain when the temperature becomes the set temperature or more.

However, since the above-mentioned prior art is made up of various facility structures such as a solar panel and a battery, it takes a lot of equipment space for installing the facility, and the installation cost is relatively high, , And the economic burden thereof is still difficult to apply to large farms.

In addition, in the above-mentioned conventional technology, the temperature inside the house is controlled according to the temperature sensed by the temperature sensor, while the temperature sensor is directly influenced by the direct sunlight transmitted through the vinyl layer of the house and is adversely affected It is difficult to accurately detect the temperature of the inside of the house, and there is a problem in that the temperature control efficiency in the house is lowered due to the lack of a function to compensate for the deviation of the temperature sensing result.

Korean Registered Patent No. 10-1292628 (Feb.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide an air conditioner which can automatically control the ventilation and ventilation amount in a ventilation window in a cultivating space of a plastic house, The present invention provides a house automatic temperature control system capable of minimizing the maintenance cost as well as the initial facility cost for controlling the temperature in the house and compensating the temperature deviation according to the temperature detection result in the process of controlling the temperature in the house, It has its purpose.

The house automatic temperature control system proposed by the present invention includes: a house body forming a cultivation space in which crops can be grown; A wind tunnel which is rotatably installed on the house main body and is openable and closable to one wall surface of the cultivation space, and is connected to one end of the wind tunnel and is capable of opening / closing the wind tunnel in a setting track so as to control the temperature in the cultivation space A temperature regulating unit for regulating the temperature of the fuel cell stack; A temperature sensing unit installed in the house main body and measuring and sensing a temperature change of the cultivation space; And a temperature control unit capable of setting temperature and orbit information in the cultivation space of the house body and applying a control signal for opening and closing the temperature control unit in accordance with a sensing signal input from the temperature sensing unit, And the control unit sets and controls the opening / closing speed of the temperature control unit together with the reference set temperature and the opening / closing track information of the cultivation space.

A drive means for connecting the shaft to a shaft of the wind tunnel rotatably installed on the house body to apply rotational force to the setting track in a rotatable manner on the axis of the wind power window, And a guide member for guiding the rotational trajectory of the wind tunnel according to the driving means.

The temperature control unit includes an outer housing, a control panel fixedly installed on one surface of the outer housing, forming a control button for inputting setting information from a user, and a display window do.

Wherein the temperature control unit includes a temperature setting unit configured to input a set temperature in the cultivation space and to store a reference set temperature, an orbit setting unit configured to store a set trajectory by inputting a set trajectory of the temperature adjusting unit, A speed setting unit that is provided to store a set opening / closing speed of the temperature adjusting unit so as to compensate for a temperature deviation with respect to an internal temperature measured from the temperature sensing unit; And a temperature comparator for calculating a temperature change value in comparison with the temperature.

The temperature setting unit includes open setting means for setting an open reference temperature for opening the temperature adjusting unit and closing setting means for setting a closing reference temperature for closing the temperature adjusting unit.

The trajectory setting unit may set the trajectory of the temperature adjusting unit within an angle range of 0 to 100 degrees, and the trajectory value of the trajectory setting unit may be set to at least four levels.

The speed setting unit includes relay circuit means configured to be capable of repeatedly switching-driving the temperature control unit in an operation state and a standby state in the course of applying a control signal to the temperature control unit.

The speed setting unit includes an operation setting unit configured to be set by inputting an operation time of the temperature adjusting unit, and a standby setting unit configured to be set by inputting a standby time of the temperature adjusting unit.

The temperature control unit compares the open reference temperature value of the reference set temperature set by the temperature setting unit with the temperature value measured by the temperature sensing unit in the temperature comparison unit. If the measured temperature is higher than the open reference temperature, The operation control signal for opening the wind tunnel is applied.

The temperature control unit compares the closed reference temperature value of the reference set temperature set by the temperature setting unit with the temperature value measured by the temperature sensing unit in the temperature comparator, and if the measured temperature is lower than the closed reference temperature, And an operation control signal for closing the windshield is applied to the windshield.

The temperature control unit forms a channel setting unit for collectively setting temperature and orbit information by dividing the temperature control units for the plurality of the house bodies.

The temperature control unit may further include a high temperature setting unit configured to apply an operation control signal for immediately opening the windshield to the temperature control unit when an external signal indicating a high temperature environment is input from the user.

Further, the present invention may further include a rainfall sensing unit installed on the house main body to detect whether or not rainfall has occurred, and in the temperature control unit, when a rainfall sensing signal is input from the rainfall sensing unit, It is also possible to apply an operation control signal to be closed.

According to the household automatic temperature control system according to the present invention, the wind tunnel for ventilating the cultivation space of the house main body is installed to be openable and closable and the trajectory and speed of the wind tunnel can be controlled along with the temperature in the cultivation space. It reduces the economic burden on the farmhouse by greatly reducing the maintenance cost and improves the generalization of the facility, improves the accuracy of the temperature control in the cultivation space by compensating the temperature deviation according to the temperature detection result, And the cultivation environment of the plant is obtained.

In addition, the house automatic temperature control system according to the present invention is configured to open the wind window in the high temperature environment immediately from the direct control signal of the user, so that the temperature control efficiency according to the sudden environment change can be further improved.

Also, since the house automatic temperature control system according to the present invention is configured to separately set and set the setting information for the various consent houses, it is possible to easily set the temperature of the user and to improve the management efficiency of the house There is an effect.

In addition, the house automatic temperature control system according to the present invention is configured to detect the rainfall of the outside environment and to close the wind window immediately so that damage to cultivated crops due to rainfall can be prevented in advance.

1 is a block diagram schematically illustrating an embodiment according to the present invention;
2 is a cross-sectional view schematically showing an embodiment according to the present invention.
3 is a partially enlarged view showing a temperature regulating part in an embodiment according to the present invention.
FIG. 4 is a perspective view schematically showing a temperature control unit according to an embodiment of the present invention; FIG.
5 is a block diagram showing a first embodiment of a temperature control unit in an embodiment according to the present invention;
6 is an exemplary diagram schematically showing an operating circuit state of a speed setting section in an embodiment according to the present invention.
7 is a block diagram showing a second embodiment of a temperature control unit in an embodiment according to the present invention;
8 is a block diagram illustrating another embodiment of an embodiment in accordance with the present invention;

The present invention relates to a plant having a house body forming a cultivation space in which a crop can be grown, A wind tunnel which is rotatably installed on the house main body and is openable and closable to one wall surface of the cultivation space, and is connected to one end of the wind tunnel and is capable of opening / closing the wind tunnel in a setting track so as to control the temperature in the cultivation space A temperature regulating unit for regulating the temperature of the fuel cell stack; A temperature sensing unit installed in the house main body and measuring and sensing a temperature change of the cultivation space; And a temperature control unit capable of setting temperature and orbit information in the cultivation space of the house body and applying a control signal for opening and closing the temperature control unit in accordance with a sensing signal input from the temperature sensing unit, And the control unit sets the opening / closing speed of the temperature control unit together with the reference set temperature and the opening / closing track information of the cultivation space, thereby controlling the house automatic temperature control system.

Next, a preferred embodiment of a house automatic temperature control system according to the present invention will be described in detail with reference to the drawings.

1 and 2, a house automatic temperature control system according to the present invention includes a house body 10, a temperature control unit 20, a temperature sensing unit 30, (100).

The house body 10 forms a cultivation space 11 in which various types of crops can be grown, as shown in Fig.

The house body 10 may be constructed in the same manner as a general vinyl house structure composed of a framing frame and an outer covering material. In the case of the house body 10, a tunnel type, , Or a roof type.

And a frame structure in which the temperature control unit 20 can be installed on at least one of the surfaces of the house body 10.

The temperature control unit 20 controls the temperature of the cultivation space 11 in the house body 10 by driving according to a sensing signal of the temperature sensing unit 30 and a control signal of the temperature control unit 100. [ .

As shown in FIG. 3, the temperature regulating unit 20 includes a ventilation window 25 provided on the house body 10 and having a structure capable of being closed on one wall surface of the cultivation space 11, The wind tunnel (25) is rotatably installed on the house body (10).

One side of the ventilation window 25 is fixed by a shaft. In the case of the ventilation window 25, the ventilation window 25 is formed so as to be rotatable with a constant orbit around the axis and to open and close the opposite side.

The ventilating window 25 is preferably made of a transparent material such as tempered glass or plastic.

The temperature regulating unit 20 is connected to one end of the ventilation window 25 to transmit rotational driving force. That is, the temperature regulating unit 20 is configured to be able to open and close the wind tunnel 25 on the setting track so as to adjust the temperature in the cultivation space 11, and includes a driving unit 21 and a guide member 23 .

The driving means 21 is coupled to the shaft of the wind tunnel 25 rotatably installed on the house body 10 and applies a rotational force to the wind tunnel 25 so as to be rotatable in a predetermined trajectory.

The guide member 23 is fixedly installed on the house body 10 in correspondence with a side end of the ventilating window 25. [

The guide member 23 movably supports a rotational trajectory of the wind tunnel 25 along the driving means 21. [ That is, the guide member 23 constitutes a guide for opening and closing the wind window 25 within an angular range (0 to 100 °) according to the rotatable orbit of the wind window 25.

The temperature sensing unit 30 is installed inside the house body 10 to detect and measure the temperature change of the cultivation space 11.

The temperature sensing unit 30 may be constructed using a temperature sensor or the like and may be constructed using a digital temperature sensor so as to effectively transmit a measurement signal toward the temperature control unit 100. [

The temperature control unit 100 controls the temperature control unit 20 to control the temperature in the cultivation space 11 of the house body 10.

The temperature control unit 100 configures temperature and orbit information in the cultivation space 11 of the house body 10 so that it can be set. That is, as shown in FIG. 4, the temperature control unit 100 is configured to include an external housing 170 and a control panel 180 as a structure capable of setting various control information from a user.

The outer housing 170 has a structure that can be installed in the house body 10 and is selectively applicable to a buried type or a protruded type.

The control panel 180 is fixed to one surface of the outer housing 170 and includes a plurality of operation buttons 181 and a display window 183. [

The operation button 181 is configured to be able to input setting information and functions from a user and the display window 183 is configured to allow the user to input various information such as a setting state input from the user through the operation button 181, For example, temperature, time, etc.).

As shown in FIG. 5, the temperature control unit 100 includes a temperature setting unit 110 configured to input a set temperature in the cultivation space 11 to store a reference set temperature, And a trajectory setting unit 120 that is provided to store a set trajectory of the trajectory setting unit 120 so as to store the set trajectory.

The temperature setting unit 110 is configured to be able to set the opening or closing reference temperature of the temperature adjusting unit 20 separately. That is, the temperature setting unit 110 includes an open setting unit 111 for setting an open reference temperature for opening the temperature adjusting unit 20, and a closing reference temperature setting unit for setting the closing reference temperature for closing the temperature adjusting unit 20 And a closure setting means 113 for setting the closure setting means.

For example, when the temperature setting unit 110 sets the temperature of the cultivation space 11 to 20 to 30 ° C, the open reference temperature through the open setting unit 111 is set to 30 ° C, The closing reference temperature is set to 20 deg. C through the closing setting means 113 so that individual temperature information can be input and stored.

The trajectory setting unit 120 can set the trajectory of the temperature regulating unit 20 within an angle range of 0 to 100 degrees and can configure the trajectory value of the trajectory setting unit 120 in stages. It is possible to control the temperature so that the speed of the temperature change can be flexibly adjusted according to the trajectory.

In the above, the trajectory value of the trajectory setting unit 120 can be set to at least four levels.

For example, it is possible to set the trajectory value in 25 ° steps at a large angle. It can be set from 25 ° trajectory with the lowest ventilation amount to 50 ° and 75 ° midway, to 100 ° to set the maximum amount of ventilation So that the user can set the trajectory and store the input.

As described above, when the trajectory of the temperature regulating unit 20 is divided into stages and set and controlled, the speed of the temperature change in the cultivation space 11 according to the seasonal external environment or the internal conditions of the cultivated crops is flexibly regulated, 10). It is possible to optimize the cultivation environment.

The temperature controller 100 controls the temperature controller 20 based on temperature and trajectory information set by a user through the control panel 180 and controls the temperature controller 20 So that the control signal can be applied

The temperature control unit 100 includes a temperature comparing unit 140 for controlling the temperature adjusting unit 20 together with the temperature setting unit 110 and the orbit setting unit 120.

The temperature comparator 140 compares the measured temperature input from the temperature detector 30 with the reference set temperature of the temperature controller 110 to calculate a temperature change value. (20) is controlled to be controllable.

The temperature control unit 100 applies a control signal to change the ventilating window 25 of the temperature regulating unit 20 to the open state when the measured value input from the temperature sensing unit 30 is equal to or higher than the reference set temperature. That is, the temperature control unit 100 compares the open reference temperature value among the reference set temperatures set by the temperature setting unit 110 and the temperature value measured by the temperature sensing unit 30 in the temperature comparing unit 140 And if the measured temperature is higher than the open reference temperature, an operation control signal for opening the wind window 25 is applied to the temperature regulating unit 20. [

The temperature control unit 100 applies a control signal to change the ventilation window 25 of the temperature regulating unit 20 to the closed state when the measured value input from the temperature sensing unit 30 is lower than the set temperature. That is, the temperature control unit 100 compares the closed reference temperature value of the reference set temperature set by the temperature setting unit 110 and the temperature value measured by the temperature detection unit 30 in the temperature comparison unit 140 And to apply an operation control signal for closing the wind window 25 to the temperature controller 20 when the measured temperature is lower than the reference temperature for closing.

The temperature control unit 100 includes a speed setting unit 130 for performing a function of setting and controlling the opening and closing speed of the temperature regulating unit 20 together with the reference set temperature and opening and closing track information of the cultivation space 11, Respectively.

The speed setting unit 130 is configured to store the set opening / closing speed of the temperature adjusting unit 20 so as to compensate for the temperature deviation with respect to the internal temperature measured by the temperature sensing unit 30. [ The opening and closing speed of the temperature regulating part 20 is set to the speed setting part 20 so as to compensate the difference between the actual temperature of the cultivation space 11 in the house body 10 and the temperature measured by the temperature sensing part 30 130).

For example, since the actual temperature of the cultivation space 11 is 27 ° C but the temperature sensing unit 30 senses a measurement temperature of 30 ° C higher than room temperature under the influence of direct light directly irradiated, The speed control unit 130 controls the opening and closing speed of the temperature control unit 20 to be slowed down and driven.

6, in the course of applying a control signal to the temperature regulating unit 20, the speed regulating unit 130 repeatedly switches and operates the operation state and the standby state And relay circuit means (131) formed to be connected to the relay circuit means (131).

The speed setting unit 130 periodically controls whether the electric current to be transmitted to the temperature regulating unit 20 through the relay circuit unit 131 is energized or not.

The speed setting unit 130 sets a time according to the operation and the wait through the operation button 181 of the control panel 180 and sets the operation time of the temperature control unit 20 Setting means 133, and wait setting means 135 which is configured to be set by inputting a waiting time of the temperature adjusting portion.

For example, if the operation time is input as 2 seconds through the operation setting means 133 of the speed setting unit 130 and the waiting time through the waiting setting means 135 is inputted as 3 seconds, The control unit 130 repeatedly applies a control signal to maintain the power-off state for 3 seconds after the temperature control unit 20 maintains the normal power-on state for 2 seconds through the speed setting unit 130. [

In addition, the temperature control unit 100 is configured to collectively manage a plurality of the house bodies 10. That is, the temperature control unit 100 is provided with the channel setting unit 150 so that the temperature control unit 20 is divided into a plurality of the house bodies 10 and temperature and orbit information can be set collectively do.

For example, the channel setting unit 150 divides the two house bodies 10 into one channel and two channels, sets the corresponding temperature and orbit information from the temperature control unit 100 in a set state of one channel, And the temperature and the orbit information are set from the temperature control unit 100 after changing to the two-channel set state.

The setting contents according to the channel setting unit 150 are outputted through the display window 183 of the control panel 180 and the plurality of display windows 183 are displayed .

As described above, when the channel setting unit 150 is configured in the temperature control unit 100, the outflow window 25 in the high-temperature environment can be opened immediately from the user's direct control signal, so that the temperature control efficiency Can be further improved.

7, the temperature control unit 100 is provided with a control unit (not shown) for controlling the opening of the wind window 25 in response to an abrupt temperature change in the cultivation space 11 of the house body 10 to a high temperature, It is also possible to configure the setting unit 160.

The high temperature setting unit 160 is provided with an external signal indicating a high temperature environment from the user, that is, when an operation signal is inputted by pressing a corresponding operation button 181 on the control panel 180, ) Is immediately applied.

When the input signal is applied by setting operation of the high temperature setting unit 160, a control signal for opening the wind window 25 is applied immediately without ignoring all setting contents inputted on the temperature control unit 100 .

As described above, when the high-temperature setting unit 160 is configured in the temperature control unit 100, the setting information for the plural consent houses can be separately set and controlled collectively, It is possible to further improve the management efficiency of the system.

That is, according to the automatic house temperature control system according to the present invention configured as described above, a ventilating window 25 for ventilating the cultivation space 11 of the house body 10 is provided so as to be openable and closable, And the trajectory and speed of the wind tunnel 25 can be controlled so as to greatly reduce the equipment cost and the maintenance cost so as to reduce the economic burden on the farmhouse while realizing generalization of the facility, It is possible to improve the accuracy of temperature control in the cultivation space and to optimize the cultivation environment for each crop.

8, another embodiment of the house automatic temperature control system according to the present invention further includes a rainfall sensing unit 40 installed on the house body 10 and capable of detecting rainfall .

The rainfall sensing unit 40 is constructed using a rainfall amount sensor, a rainfall detection sensor, or the like.

The temperature control unit 100 controls the temperature control unit 20 so that the wind tunnel 25 can be operated while ignoring all the setting contents inputted on the temperature control unit 100. [ So as to apply an operation control signal for immediately closing the battery.

That is, according to the present invention configured as in the above-described other embodiments, it is possible to detect the rainfall of the outside environment and to close the wind window immediately so that it is possible to prevent damage to cultivated crops due to rainfall.

In the other embodiments described above, the same configuration as that of the above-described embodiment can be employed, so that detailed description is omitted.

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 embodiments, but, on the contrary, And falls within the scope of the present invention.

10: House body 11: Cultivation space
20: temperature control unit 21: driving means 23: guide member
25: Entrance window 30: Temperature sensing part 40: Rain sensing part
100: temperature control unit 110: temperature setting unit 111: open setting unit
113: Closing setting means 120: Trajectory setting means 130: Speed setting means
131: Relay circuit means 133: Operation setting means 135: Standby setting means
140: temperature comparison unit 150: channel setting unit 160: high temperature setting unit

Claims (13)

A house body forming a cultivation space in which a crop can be grown; A wind tunnel which is rotatably installed on the house main body and is openable and closable to one wall surface of the cultivation space, and is connected to one end of the wind tunnel and is capable of opening / closing the wind tunnel in a setting track so as to control the temperature in the cultivation space A temperature regulating unit for regulating the temperature of the fuel cell stack; A temperature sensing unit installed in the house main body and measuring and sensing a temperature change of the cultivation space; And a temperature control unit capable of setting temperature and orbit information in the cultivation space of the house body and applying a control signal for opening and closing the temperature control unit in accordance with a sensing signal input from the temperature sensing unit, And setting and controlling the opening / closing speed of the temperature adjusting unit together with the reference set temperature and the opening / closing track information of the cultivation space,
A drive means for connecting the shaft to a shaft of the wind tunnel rotatably installed on the house body to apply rotational force to the setting track in a rotatable manner on the axis of the wind power window, And a guide member for guiding the rotational trajectory of the wind tunnel according to the driving means,
The temperature control unit includes a control panel including an outer housing, a display window fixedly installed on one surface of the outer housing, forming a control button for inputting setting information from a user, and a display window In addition,
Wherein the temperature control unit includes a temperature setting unit configured to input a set temperature in the cultivation space and to store a reference set temperature, an orbit setting unit configured to store a set trajectory by inputting a set trajectory of the temperature adjusting unit, A speed setting unit that is provided to store a set opening / closing speed of the temperature adjusting unit so as to compensate for a temperature deviation with respect to an internal temperature measured from the temperature sensing unit; And a temperature comparator for calculating a temperature change value in comparison with the temperature,
Wherein the temperature setting section includes open setting means for setting an open reference temperature for opening the temperature adjusting section and closing setting means for setting a closing reference temperature for closing the temperature adjusting section,
The trajectory setting unit may set the trajectory of the temperature adjusting unit within an angle range of 0 to 100 degrees. The trajectory value of the trajectory setting unit may be input in four steps, and may be selected from 25 degrees, 50 degrees, 75 degrees, 100 degrees And the like,
The speed setting unit may include relay circuit means for repeatedly switching-driving the temperature control unit in an operation state and a standby state in a process of applying a control signal to the temperature control unit, And a standby setting unit configured to be settable by inputting a waiting time of the temperature adjusting unit,
The temperature control unit compares the open reference temperature value of the reference set temperature set by the temperature setting unit with the temperature value measured by the temperature sensing unit in the temperature comparison unit. If the measured temperature is higher than the open reference temperature, And the temperature control unit controls the temperature comparing unit to calculate the temperature of the air outlet by comparing the closed reference temperature value set by the temperature setting unit and the temperature value measured by the temperature detecting unit, And to apply an operation control signal for closing the wind tunnel to the temperature controller if the measured temperature is lower than the closed reference temperature,
The temperature control unit may include a channel setting unit for collectively setting temperature and orbit information by dividing the temperature control units for the plurality of the house bodies, And a high-temperature setting unit configured to apply an operation control signal for immediately opening the ventilation window.
delete delete delete delete delete delete delete delete delete delete delete The method according to claim 1,
Further comprising a rainfall sensing unit installed on the house body and being capable of detecting rainfall,
Wherein the temperature control unit is configured to apply an operation control signal for immediately closing the wind window to the temperature control unit when a rain detection signal is input from the rain detection unit.

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