KR20140004300A - Auto control type temperature control apparatus - Google Patents

Abstract

Disclosed is an auto control type temperature control apparatus for a residence environment capable of effectively saving energy such as heating costs or cooling costs. A temperature control signal generation apparatus comprises a residence environment auto control unit for automatically generating a special operation mode control signal when the operation state of a lighting switch, illumination sensing state, and a residence sensing state are different from a normal condition and a communication unit for transmitting the special operation mode control signal to a cooler controller or a heater controller to optimize user convenience related to temperature control. [Reference numerals] (110) Residence environment auto control unit; (121) Light switch; (122) Light switch operation sensing unit; (123) Light switch driving unit; (130) Sensor interface; (140) Initial setup input unit; (150) Memory unit; (160) Camera unit; (170) Display unit (AMOLED); (180) Communication unit; (190) User selection input unit; (AA) Light; (BB) Illumination sensor; (CC) Moving body sensor; (DD) Temperature sensor; (EE) Humidity sensor; (FF) CO_2 sensor; (GG) Proximity sensor; (HH) Environment control unit; (II) Standby power control unit; (JJ) Wall pad; (KK) Room controller; (LL) Current temperature; (MM) Time information; (NN) Weather information

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a temperature control apparatus,

[0001] The present invention relates to a temperature control device, and more particularly, to a household environment control type temperature control device capable of reducing energy (cooling and heating costs) and user convenience without self-learning.

The cost of heating and cooling generated in each household such as a general house or an apartment complex can be saved even if household members care a little. Research has shown that power consumption can be reduced by 2 to 5% even if the temperature is changed by only 1 ° C at the set temperature.

However, since the temperature change or control is largely dependent on manual operation, it is inconvenient to use and it has been difficult to control the optimum energy.

On the other hand, a self-learning type thermostat which self-learns and adjusts the temperature without manual operation is known as a learning (cognitive) thermostat device developed by Nestlap Co., for example.

Here, the user manually adjusts the temperature manually in the first week of installation in the same manner as other thermostats. Then, based on the experience of the learning, the temperature control device recognizes the user's most preferred room temperature. For example, if family members warm up at 7 am and turn off the heater when they leave home to go to work or school, the thermostat recognizes these habits after the lessons are finished. In automatic mode, Automatically.

In the case of such thermostats, a learning period is required, and during the learning period, the user must manually manipulate the operation. If you do not carefully manipulate manual operations during the learning period, you can ruin your energy management rather than learn it. Furthermore, if the life pattern suddenly changes due to the user's vacation or the like, the temperature control according to the learning so far may be difficult to provide the optimal control.

Furthermore, it is difficult to say that temperature control is accurate because it is not to automatically determine the household environment by accurately determining the household environment by switching the temperature control mode to the sleep mode, depending on whether the person is indoors and sleeping alone.

And, in the automatic adjustment mode, it is not preferable from the viewpoint of energy saving to instantly change from one operation mode to another operation mode. For example, if the user goes out for a while and returns home, the heating temperature control may immediately start operating in the outgoing mode without checking the time, or immediately returning to the normal operation in the outgoing mode may waste energy have.

An object of the present invention is to provide a household environment automatic control type temperature control signal generating device capable of efficiently performing energy saving such as cooling rate and heating cost without self learning.

It is another object of the present invention to provide a thermostat for automatically controlling a household environment that can optimize user convenience related to temperature control.

According to an aspect of an embodiment of the present invention, there is provided an apparatus for generating a temperature control signal,

A household environment automatic control unit for automatically generating a special operation mode control signal when a special condition different from a normal condition is recognized by checking an operation state of a light switch for switching an indoor light, an illumination detection state, and a reed sensing state; And

And a communication unit for transmitting the special operation mode control signal to the heating controller or the cooling controller.

According to another aspect of the present invention, there is provided an apparatus for generating a temperature control signal,

A household environment automatic control unit for automatically generating a special operation mode control signal when it is recognized as a special condition different from the normal condition by checking the operation reservation state, the illumination detection state and the occupant detection state of the light switch for switching the indoor light; And

And a communication unit for transmitting the special operation mode control signal to the heating controller or the cooling controller.

According to another aspect of the present invention, there is provided an apparatus for generating a temperature control signal,

A household environment automatic control unit for checking the operation state of the light switch, the illumination detection state and the occupant detection state and generating a sleep operation mode control signal when it is recognized as a sleeping condition different from the normal condition; And

And a communication unit for transmitting the sleep mode control signal to the heating controller or the cooling controller.

According to another aspect of the present invention, there is provided an apparatus for generating a temperature control signal,

If the detection signal of the fuselage sensor is not present for a predetermined period of time or when the batch unlit operation of the batch unlit switch is detected and the door open signal of the household is received, it generates the outgoing operation mode control signal, A home environment automatic control unit for generating a home operation mode control signal in the home environment; And

And a communication unit for transmitting the outgoing and returning operation mode control signals to the heating controller and the cooling controller so that the room temperature is adjusted to the set temperature according to each operation mode in accordance with the set time.

According to another aspect of the present invention for solving the above-described technical problem, a temperature control device is provided for detecting whether a detection signal of a body sensor is not present for a predetermined time or when a batch unlit operation of a batch unlit switch is detected and a door open signal of a household is received A home environment automatic control unit for generating a home operation mode control signal by recognizing that the home operation mode is a home driving mode and generating a home operation mode control signal when a home returning home is a home; And

And a communication unit for transmitting the outgoing and returning operation mode control signals to the heating controller and the cooling controller so that the room temperature is adjusted to the set temperature according to each operation mode in accordance with the set time.

According to the embodiments of the present invention as described above, it is possible to efficiently perform the energy saving such as the cooling ratio and the heating cost without self-learning, thus solving all the problems of the self-learning control.

Further, the user convenience related to the temperature control is more optimized.

1 is a block diagram of a device according to an embodiment of the present invention;
FIG. 2 is a concrete block diagram of a household environment automatic controller in FIG. 1,
Fig. 3 is a view exemplarily showing an outer shape of Fig. 2,
Figure 4 is a block diagram of a device according to another embodiment of the present invention;
FIG. 5 is a concrete block diagram of the household environment automatic controller in FIG. 4,
Fig. 6 is a flowchart showing the temperature control operation control of Fig. 2 or Fig. 5,
Figure 7 is an exemplary table of operating condition judgments according to Figure 6,
8 is a data communication format used in operation according to Fig. 6,
FIG. 9 is a concrete control flowchart related to automatic sleep setting in FIG. 6,
FIG. 10 is a specific control flowchart related to automatic setting of outgoing conditions in FIG. 6,
FIG. 11 is a specific control flowchart related to automatic remote control condition automatic setting in FIG. 6,
Fig. 12 is a concrete control flow chart related to automatic return setting of Fig. 6,
Fig. 13 is a table showing control-related steps in the temperature control operation of Fig. 6, and Fig.
Figure 14 is a block diagram of a cooling system in accordance with another embodiment of the present invention;

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, and advantages of the present invention will become more apparent from the following description of preferred embodiments with reference to the attached drawings. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments disclosed herein are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art, without intention other than to provide an understanding of the present invention.

In this specification, when it is mentioned that some element or lines are connected to a target element block, it also includes a direct connection as well as a meaning indirectly connected to the target element block via some other element.

In addition, the same or similar reference numerals shown in the drawings denote the same or similar components as possible. In some drawings, the connection relationship of elements and lines is shown for an effective explanation of the technical contents, and other elements or circuit blocks may be further provided.

Each embodiment described and exemplified herein may include a complementary embodiment thereof, and may include a home network server and a wall pad (household installation device) installed in an apartment complex, a temperature control controller installed in a room of each household, Note that the details of the basic operations and functions of the control unit and the boiler control unit are not described in detail in order to avoid obscuring the gist of the present invention.

1 is a block diagram of a device according to an embodiment of the present invention.

Referring to the drawings, for example, the heating apparatus includes a central controller 30-1 installed in a household, room controllers 30-2, 30-3, and 30-n installed in each room of a household, And environmental automatic controllers (HEAC) 10-1, 10-2, and 10-n.

The number of the household environment automatic controllers 10-1, 10-2, and 10-n is determined by a combination of the central controller 30-1 and the room controllers 30-2, 30-3, May be the same as the number.

Any household environment automatic controller 10-2 can communicate wirelessly with the corresponding room controller 30-2 via a wired line. Zigbee communication can be performed in case of wireless, and RS232 or RS485 communication can be performed in case of wire.

The central controller 30-1 and the room controllers 30-2, 30-3, and 30-n may correspond to a manual type temperature control controller installed in each household.

The central controller 30-1 and the room controllers 30-2, 30-3 and 30-n may be connected to a valve control unit 200 for controlling the room distribution valve unit 400 in the case of heating control have. The valve control unit 200 may be connected to a known boiler 300 in the case of individual heating.

The above-mentioned household environment automatic controller (HEAC) can have a block configuration as shown in FIG. 2 in order to efficiently perform energy saving such as cooling ratio and heating cost without self-learning and to optimize user convenience related to temperature control .

FIG. 2 is a concrete block diagram of a household environment automatic controller in FIG. 1; FIG.

2, in order to function as a temperature control signal generator, the household environment automatic controller includes a light sensing driver 120 for sensing an operation state of a light switch and driving a light switch, an indoor environment sensing unit, A control unit 110, and a communication unit 180.

Here, the indoor environment sensing unit includes an illuminance sensor, a body sensor, a temperature / humidity sensor, and a carbon dioxide sensor, and a sensor interface 130 for interfacing the sensed sensed signals.

The household environment automatic control unit 110 checks the operation state of the light switch 121, the illumination detection state and the occupant detection state, and when it recognizes a special condition different from the normal condition, the generation environment automatic control unit 110 displays the current temperature and time information, And generates a special operation mode control signal based on the information. Here, the household environment automatic control unit 110 may be implemented by ATMega2560.

The communication unit 180 applies the special operation mode control signal to a room controller, which is a heating controller, through a wired or wireless network. The communication unit 180 may be connected to a ventilation control unit for controlling indoor ventilation, a standby power control unit for interrupting standby power in the room, or a wall pad communicating with external and home network servers. The communication unit 180 may be implemented as a MAX485 in the case of RS-485 communication and a MAX232 in the case of RS-232 communication. It can also be implemented as HBG2X3N for Bluetooth and RP-M100-Stack for ZigBee. The communication unit 180 receives various kinds of information required for the operation of the household environment automatic control unit 110, such as the current heating or cooling operation temperature, the current room temperature, the time information, the weather information, or the season information from the room controller And provides the generated data to the household environment automatic control unit 110.

The special condition may be one of a sleeping condition, a weather condition, a returning condition, or a leaving condition. When recognizing the special condition, the household environment automatic control unit 110 separately generates an operation mode control signal according to each mode according to the time interval, and controls the generation environment control signal so that the adjustment target temperature is reached stepwise according to the respective conditions can do.

The household environment automatic controller may further include an initial setting input unit 140, a display unit 170, a memory unit 150, and a user selection input unit 190.

The initial setting input unit 140 is provided for inputting initial setting values related to temperature control. Here, the initial setting input unit 140 may be implemented as ANRGO8FB.

The display unit 170 is for displaying various information to the user and receives display information of the household environment automatic control unit 110. Here, the display unit 170 may be implemented as XLINK 1602A0-BL.

The memory unit 150 functions as a program memory or a work memory of the generation environment automatic control unit 110 and may be implemented as a volatile or nonvolatile memory. Illustratively, the memory unit 150 may be implemented as an FSST39VF800 memory.

The user selection input unit 190 receives various selections related to temperature control by a user and may be implemented as a touch screen on the display unit 170. [ Illustratively, the user selection input 190 may be implemented as ANRG08FB.

In addition, a motion detector camera unit 160 may be further installed to more specifically perform crime prevention or indoor motion sensing.

The light sensing drive unit 120 includes a light switch 121 and a light switch operation sensing unit 122 connected between the household environment automatic control unit 110 and the light switch 121 to sense the operation state of the light switch 121 And a light switch driving unit 123 for driving the light switch 121.

The light switch 121 may be implemented as a JE10-2 / 12-HT-L2, and the light switch operation sensing unit 122 may be implemented as a WCS2750. Meanwhile, the light switch driver 123 may be implemented as ULN2803W.

The generation environment automatic control unit 110 receives the fact that the operation state of the light switch is off state through the light switch operation detection unit 122 for a predetermined time while the temperature environment control is performed under the normal condition, When the illumination sensing state is dark through the display unit 130 and the occupant sensing state indicating that the user is indoors is checked from the body sensor, it is recognized as a sleeping condition different from the normal condition. In this case, the household environment automatic control unit 110 generates a sleep mode control signal different from the normal operation mode control signal and applies it to the communication unit 180. The communication unit 180 transmits the sleep mode control signal applied from the household environment automatic control unit 110 to the heating controller or the cooling controller so that the room temperature reaches the set sleeping temperature step by step.

On the other hand, when recognizing the sleeping condition, the household environment automatic control unit 110 receives the sensing output of the carbon dioxide sensor and can more surely determine the sleeping condition.

Fig. 3 is a view exemplarily showing an outer shape of Fig. 2, and may include a screen displayed on the display unit 170. Fig.

Referring to FIG. 3, the status display unit 171 may display current temperature control mode and current temperature through letters and numbers. S1, S2, and S3 denote an illuminance sensor, a body sensor, and a temperature sensor, respectively. A temperature / humidity sensor or a carbon dioxide sensor may be added if necessary. The mode touch unit 141 is a touch or push key connected to the initial setting input unit 140 of FIG. 2, and is responsible for inputting initial setting values and various operation mode settings. Reference numeral 146 denotes an acknowledge key. Reference numeral 143 denotes an up key. Reference numeral 145 denotes a down key. Reference numeral 142 denotes a left shift key. Reference numeral 144 denotes a right shift key. Reference numerals 125-1, 125-2, and 125-3 denote indoor light switches, respectively.

Reference numeral 172 denotes a key for indicating a standby power cut-off state in the automatic mode, and standby power is interrupted each time the user manually presses it.

Reference numeral 173 denotes a ventilation operation state in the automatic mode. Ventilation is performed whenever the user manually depresses the ventilation operation state.

The emergency switch 191 is a key for crime prevention, and is a switch for notifying an emergency situation to a security guard room, a security company, or a police station of an apartment when the emergency is closed.

The kids button 192 is a separately operated light switch for allowing the child to easily turn the light on / off.

Reference numeral 174 denotes a lighting unit which automatically emits light when the illumination lamp is turned off and the indoor illumination is dark, thereby indicating the position of the household environment automatic controller. Therefore, the user can check the operation status even during the night, and the emergency switch can be pressed and searched immediately even when the illumination lamp is off.

4 is a block diagram of an apparatus according to another embodiment of the present invention. Unlike FIG. 1, the central controller 30-1, the room controllers 30-2, 30-3, and 30 -n) is removed.

Referring to FIG. 4, a plurality of household environment automatic controllers 100-1, 100-2, 100-3, and 100-n are installed to correspond to each room in a household.

The optional household environment automatic controller 100-1 is connected to the valve control unit 200 through a wire line.

Accordingly, the household environment automatic controller 100-1 is a structure in which one of the central controller 30-1 and the room controllers 30-2, 30-3, and 30-n shown in FIG. 1 is incorporated.

The household environment automatic controller 100-1 may be connected to a valve control unit 200 for controlling the individual room distribution valve unit 400 in the case of heating control. The valve control unit 200 may be connected to a known boiler 300 in the case of individual heating.

The HEAC 100-i is a temperature control device that efficiently performs energy saving such as a cooling ratio and a heating cost without self-learning and optimizes user convenience related to temperature control. 5 < / RTI >

FIG. 5 is a concrete block diagram of the household environment automatic controller in FIG. 4, and is similar to or the same as the block configuration of FIG. 2 except that the heating temperature of the heating water sensor is sensed through the sensor interface 130. When a private household environment automatic controller is installed in a living room or a living room, a hot water sensor may be further connected to the sensor interface 130 in addition to the heating water sensor.

Apartment houses, etc., have adopted a floor heating system based on hot water. When classified according to the production method of heat source, the individual heating system that performs heating operation by boilers installed for each household and the individual heating system The central heating system that supplies the heat source to each household through the heat exchanger and the district heating system which continuously supplies to the large apartment house using cogeneration or industrial waste heat for 24 hours. The household environment automatic controller of FIG. 5 can be applied to the individual heating system, the central heating system, or the district heating system to function as a room temperature controller.

FIG. 6 is a flowchart of the temperature control operation control of FIGS. 2 and 5. FIG.

Referring to FIG. 6, the household environment automatic control unit 110 performs initialization in step S61, and checks in step S62 whether the automatic environment control mode is the automatic control mode. If the automatic control mode is selected in step S62, the current temperature is received in step S63, and the illuminance, the body, and the lamp detection output are received in step S64. In this case, the household environment automatic control unit 110 may receive the time information, the weather information, and the season information to more accurately recognize the condition.

The household environment automatic control unit 110 checks whether or not the corresponding condition is satisfied in step S65. In this case, a check of time synchronization can be performed together.

In step S66, the normal condition, the power saving condition, the sleeping condition, the weather condition, or the outgoing condition are automatically set according to whether the condition is satisfied or not. In addition, the remote control condition to be performed from the outside through a smart phone or a computer can be automatically set. Further, on / off control of the light switch can be automatically performed at the time of going out or returning home.

If one of the above conditions is set, the temperature control data is transmitted through the communication unit in step S67. In this case, in addition to the temperature control, ventilation control or standby power cutoff control can be performed. Also, the light switch on / off control signal may be applied to the light switch driver 123 in accordance with the light switch on / off control.

In step S68, the control status is confirmed and the current information is stored. Here, the current information may be stored in the memory unit 150.

7 is an exemplary table diagram of operating condition determination according to FIG. Referring to the reference numeral C1, it is detected that a constant illuminance is maintained through the illuminance sensor at a time of day, a person is present in the room through the body sensor, and a light switch state for switching the indoor light is in a turn-on state Is detected, and an example of the condition judgment is shown in the case where it is understood that each sensing state is maintained for, for example, 30 seconds. In this case, the cooling or heating setting is recognized as a normal condition, and a lamp switch off control signal for turning off the lamp is applied to the lamp switch driving section 123. In this case, weather interlocking control using weather information can be performed. For example, in the case of a good weather condition, even in a normal condition, it can be adjusted to the lowest temperature among the normal set temperatures in the case of heating.

Referring to reference numeral C2, it is detected that a constant illumination is maintained through the illuminance sensor at night time, a person is present in the room through the body sensor, and the light switch state for switching the indoor light is in a turn-on state Is detected, and an example of the condition judgment is shown in the case where it is understood that each sensing state is maintained for, for example, 30 seconds. Even in this case, the cooling or heating setting is recognized as the normal condition, and the lamp on condition is maintained. In this case as well, weather interlocking control using weather information can be performed. For example, in the case of a bad weather condition, even in the normal condition, it can be adjusted to the highest temperature among the normal set temperatures in the case of heating.

Referring to reference character C5, it is sensed that the constant illumination is not maintained through the illuminance sensor at night, the presence of a person is detected through the body sensor, and the state of the light switch for switching the indoor light is turned off Is detected, and an example of the condition judgment is shown in the case where it is judged that each sensing state is maintained for, for example, 30 seconds. Even in this case, the cooling or heating setting is recognized as the sleeping condition, and the light-off state is maintained. In this case as well, weather interlocking control using weather information can be performed. The temperature at the sleeping condition may be initially low compared to the temperature at the normal condition, but may be high at dawn time.

Referring to reference numeral C7, it is detected that the constant illumination is not maintained through the illuminance sensor at day or night time, the absence of a person is detected through the body sensor, and the state of the light switch for switching the indoor light is turned off State is detected, and an example of the condition judgment is shown in the case where it is judged that each sensing state is maintained for, for example, 30 seconds. Even in this case, the cooling or heating setting is recognized as the power saving or outgoing condition, and the lamp off state is maintained. In this case as well, weather interlocking control using weather information can be performed. The temperature in the power saving condition may be significantly lower than the temperature in the normal condition. And may be recognized as a going out condition when the power saving condition is maintained for a certain period of time.

8 is a data communication format diagram used in operation according to Fig.

Referring to the drawings, a data communication format can be largely divided into a head area SE1, a data area SE2, and a tail area SE3.

The head area SE1 includes an STX area for indicating the start of a packet, a DEV area indicating a type of a terminal or a module that sends a packet, an STS area indicating whether a response state exists, a CMD area indicating a status request and various event requests, A TDEV area indicating the type of the terminal / module to be received, and an ID area indicating the ID of the terminal / module receiving the packet. Here, the size of each of the areas may be allocated by 1 byte.

The data area SE2 may include a CLK area indicating the current time, a WTR area indicating weather information, and an RMD area indicating normal, power saving, sleeping, waking up, going out, or a return operation mode. Here, the size of each area can be sequentially allocated to 3 bytes, 1 byte, and 4 bytes.

The tail region SE3 may include a CRC region for error correction and an ETX for indicating the end of the packet data, one byte at a time.

FIG. 9 is a specific control flowchart related to automatic sleeping condition setting in FIG.

Referring to the drawing, the household environment automatic control unit 110 performs initialization in step S90, and checks in step S91 whether the automatic environment control mode is an automatic control mode. If it is the automatic control mode in step S91, the current temperature, the time information, and the weather information are read in step S92, and the illuminance, the body, and the light sensing output are read in step S93.

In step S94, the generation environment automatic control unit 110 checks whether the judgment result of the condition is the sleeping condition entry.

Whether the entry of the sleeping condition is maintained for a predetermined time ST is checked in step S95. As a result, when the sleeping condition is satisfied, a check of the time synchronization is performed at the same time.

If the sleep condition is set, the sleep temperature control data is transmitted through the communication unit in step S96. Here, the sleeping temperature control data may be transmitted step by step according to a time interval as shown in FIG. In this case, in addition to the temperature control, ventilation control or standby power cutoff control can be performed. Also, the light switch on / off control signal may be applied to the light switch driver 123 in accordance with the light switch on / off control. For example, when an unnecessary light is turned on, a light switch off control signal can be outputted.

In step S97, the control status is confirmed and the current information is stored. Here, the current information may be stored in the memory unit 150.

10 is a specific control flowchart related to automatic setting of outgoing conditions in FIG.

Referring to FIG. 3, when the household environment automatic control unit 110 detects that there is no output of the body sensor in step S100, it checks in step S101 whether a door open signal is received. If the door open signal is received in step S101, it is checked in step S102 whether the door is open or closed. In step S102, it is checked whether a predetermined time is maintained in step S103. When the constant time is maintained, it is confirmed that the outgoing condition is satisfied, and the outgoing temperature control data is transmitted in step S104. In this case, the outgoing temperature control data can be transmitted step by step according to the time interval as shown in FIG.

If it is determined in step S105 that the light is on, the household environment automatic control unit 110 applies a light switch off control signal to the light switch driving unit 123 in step S106. In this case, in addition to the temperature control, ventilation control or standby power cutoff control can be performed.

In step S107, the control status is confirmed and the current information is stored.

11 is a specific control flowchart related to automatic setting of remote control conditions in FIG.

Referring to the drawing, the household environment automatic control unit 110 performs initialization in step S111 and checks in step S112 whether the remote control mode is the remote control mode. Here, the remote control mode means receiving a remote control command from the outside through the communication unit in an operation mode such as going out.

If the remote control mode is set to the remote control mode in step S113, the control unit 100 releases the previously set outgoing condition (when the previous mode is the outgoing mode) in step S113 and directly receives the control start information, The location information transmitted by the location app operation of the mobile terminal 100 can be received. Here, the arrival information may be generated by driving the location app program contained in the smartphone of the user, or may be generated by the home network server tracking the location of the location of the smartphone of the user. Upon receipt of the arrival information, the household environment automatic control unit 110 can recognize that the user arrives, for example, after 40 minutes.

In step S114, the presence or absence of the start point is checked. If it is programmed that the temperature control should be started 20 minutes before arrival at the arrival after 40 minutes, it will be the starting point 20 minutes before the expected arrival time.

If the start time is checked, the temperature control data is transmitted through the communication unit in step S115. Here, the temperature control data may be transmitted step by step according to the time interval as shown in FIG. In addition, weather interlocking can be linked to temperature control.

In step S116, the control status is confirmed and the current information is stored. Here, the current information may be stored in the memory unit 150.

12 is a specific control flowchart related to the automatic return setting of FIG.

Referring to the drawing, the household environment automatic control unit 110 checks in step S121 whether an operation is performed under the outgoing condition in step S120 and a return condition. If it is determined in step S121 that a returning condition is satisfied, it is checked in step S122 whether the mode is the automatic control mode.

In the automatic control mode, the current temperature, illuminance, body, light, weather, and season information are read in step S122, and it is determined whether the normal or power saving condition is satisfied in step S124.

If the normal or power-saving condition has been met, a light switch on / off control signal for light switch on / off control may be applied to the light switch driver 123 in step S125.

In step S126, the temperature control data of the normal or power saving condition at the time of return judgment can be transmitted step by step according to the time interval as shown in FIG.

In step S127, the control status is confirmed and the current information is stored. Here, the current information may be stored in the memory unit 150.

FIG. 13 is a table relating to control at each step in the temperature control operation of FIG. 6; FIG.

Referring to FIG. 13, it is shown that the low temperature of hot water is set at 37 degrees Celsius and the high temperature is set at 60 degrees Celsius. In this case, the initial value is 40 degrees Celsius. Here, the control section step is set to 1 degree to 4 degrees.

On the other hand, it is seen that the low temperature of the heating water is set at 60 degrees Celsius and the high temperature is set at 80 degrees Celsius. In this case, the initial value is 70 degrees Celsius. Here, the control section is set to 1 degree to 3 degrees.

On the other hand, in the case of the carbon dioxide concentration, the upper limit is set to be 1200 ppm or more.

For example, when an operating condition for raising the temperature of the initial temperature 60 by 70 degrees occurs, the temperature may be raised in three steps. The first step of raising 62 degrees is performed for 10 minutes. Also, the second stage of raising to 66 degrees runs for 20 minutes. Finally, the third step of raising to 70 degrees runs for 30 minutes. This step-by-step temperature control eliminates energy wastage due to sudden temperature transitions and thus provides optimal energy savings.

FIG. 14 is a block diagram of a cooling system according to another embodiment of the present invention. In the household, a household environment automatic controller 10 is installed. Here, the household environment automatic controller 10 may be installed for each room

The communication unit in the household environment automatic controller 10 communicates with the communication unit 520 installed in the controller of the air conditioner 500 such as an air conditioner in a wired or wireless manner. The cooler 500 is connected to an outdoor unit 600 equipped with a fan for exchanging heat of the refrigerant, and turns on / off the fan of the outdoor unit during the cooling operation.

Similarly to the heating control, the household environment automatic controller 10 controls the air conditioner at a predetermined cooling temperature upon recognition of various operating conditions such as normal, sleep, wake, out, return, remote control,

As described above, an optimal embodiment has been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. For example, without departing from the technical idea of the present invention, when the matters are different, it is possible to variously change and modify the form of the detailed connection configuration of the apparatus or the condition setting method of the temperature control.

110: household environment automatic control unit 180: communication unit

Claims (38)

A temperature control signal generating apparatus comprising:
A generation environment automatic control unit which automatically generates a special operation mode control signal when the operation state of the light switch for switching the indoor light and the illumination detection state and the room detection state are recognized as a special condition different from the normal condition; And
And a communication unit for transmitting the special operation mode control signal to the heating controller or the cooling controller.
The apparatus according to claim 1, wherein the special condition is at least one of a sleeping condition, a power saving condition, a weather condition, and a going out condition.
A temperature control signal generating apparatus comprising:
A generation environment automatic control unit which automatically generates a special operation mode control signal when the operation reservation state, illuminance detection state, and occupancy detection state of the light switch for switching indoor lights are checked as a special condition different from the normal condition; And
And a communication unit for transmitting the special operation mode control signal to the heating controller or the cooling controller.
The apparatus according to claim 3, wherein the operation reservation state is a time at which the lamp is automatically turned off.
A temperature control signal generating apparatus comprising:
A generation environment automatic control unit which checks an operation state, an illuminance detection state, and an occupancy detection state of the light switch and generates a sleep operation mode control signal when it recognizes a sleep condition different from the normal condition; And
And a communication unit which transmits the sleep mode control signal to a heating controller or a cooling controller.
The method of claim 5,
Wherein the household environment automatic control unit further receives a sensing output of the carbon dioxide sensor when the sleeping condition is recognized.
The apparatus of claim 5, wherein the illuminance sensing state is obtained from an illuminance sensor.
The apparatus of claim 5, wherein the occupant sensing state is obtained from a moving body sensing sensor.
6. The apparatus according to claim 5, wherein the household environment automatic control unit further recognizes at least one of a power save condition, a weather condition, and a going out condition.
The communication system according to claim 5, wherein the communication unit includes at least one of a ventilation control unit for controlling indoor ventilation, a standby power control unit for interrupting standby power in a room, a wall pad for communicating with external and home network servers, Connected thermostatic signal generator.
10. The apparatus according to claim 9, wherein the generation environment automatic control unit generates a light switch control signal for turning off the light switch when recognizing the outgoing condition.
The apparatus of claim 9, wherein the household environment automatic control unit receives weather and seasonal information and performs seasonal temperature control by weather.
10. The apparatus according to claim 9, wherein the generation environment automatic control unit includes a temperature control signal for checking whether the operation state of the light switch, the illumination sensing state and the room sensing state are maintained for a set time at the time of recognizing the sleeping condition, Generating device.
The system of claim 9, wherein the generation environment automatic control unit separately generates an operation mode control signal according to each mode when the sleeping condition, the weather condition, and the outgoing condition are recognized according to time, So that the temperature of the temperature control signal is gradually reached to the adjustment target temperature.
If the detection signal of the fuselage sensor does not exist for a certain time or if the batch off operation of the batch off switch is detected and the door open signal of the generation is received, it recognizes that it is the outing condition and generates the outgoing operation mode control signal, and recognizes the return condition returning to the household. A generation environment automatic control unit for generating a return home operation mode control signal; And
And a communication unit which transmits the outing and returning operation mode control signals to a heating controller or a cooling controller so that the indoor temperature is adjusted step by step according to a set time according to a set temperature according to each operation mode.
16. The method of claim 15,
Wherein the controller is operable to detect whether the door is in the home condition when door lock, door open signal detection, or return of the batch off switch is detected.
The air conditioner according to claim 15, wherein the communication unit comprises at least one of a ventilation control unit for controlling indoor ventilation, a standby power control unit for interrupting standby power in a room, a wall pad for communicating with an external and home network server, Connected thermostatic signal generator.
In the temperature control device,
A generation environment automatic control unit which checks an operation state, an illuminance detection state, and an occupancy detection state of the light switch and generates a sleep operation mode control signal when it recognizes a sleep condition different from the normal condition; And
And a communication unit for transmitting the sleep operation mode control signal to a valve control unit of a heater or a cooling control unit of a cooler.
19. The method of claim 18,
Wherein the household environment automatic control unit further receives a sensing output of the carbon dioxide sensor when the sleeping condition is recognized.
19. The temperature control device according to claim 18, wherein the illumination sensing state is obtained from an illuminance sensor, and the accommodation sensing state is obtained from a moving body sensing sensor.
19. The temperature control device according to claim 18, wherein the household environment automatic control unit further recognizes at least one of a power save condition, a weather condition, and a going out condition.
19. The air conditioner according to claim 18, wherein the communication unit includes at least one of a ventilation control unit for controlling indoor ventilation, a standby power control unit for interrupting standby power in a room, a wall pad communicating with an external and home network server, Connected thermostats.
22. The temperature control device according to claim 21, wherein the generation environment automatic control unit generates a light switch control signal for turning off the light switch when recognizing the outgoing condition.
22. The temperature controller of claim 21, wherein the household environment automatic control unit receives weather and season information through the communication unit and performs seasonal temperature control by weather.
22. The system of claim 21, wherein the household environment automatic control unit includes a temperature control device for checking whether the operation state of the light switch, the illumination detection state and the occupant detection state are maintained for a set time at the time of recognizing a sleeping condition, .
22. The system of claim 21, wherein the generation environment control unit separately generates an operation mode control signal according to each mode at each time of recognizing the sleeping condition, the weather condition, and the outgoing condition, A temperature regulator that allows the regulated target temperature to be reached step by step.
If the detection signal of the fuselage sensor does not exist for a certain time or if the batch off operation of the batch off switch is detected and the door open signal of the generation is received, it recognizes that it is the outing condition and generates the outgoing operation mode control signal, and recognizes the return condition returning to the household. A generation environment automatic control unit for generating a return home operation mode control signal; And
And a communication unit configured to transmit the outgoing and returning home operation mode control signals to a heating controller or a cooling controller so that the indoor temperature is adjusted step by step according to a set time according to a set temperature according to each operation mode.
28. The method of claim 27,
Wherein the controller is operable to detect whether the door is in the home state when door lock, door open signal detection, or return of the batch off switch is detected.
28. The communication system according to claim 27, wherein the communication unit includes at least one of a ventilation control unit for controlling indoor ventilation, a standby power control unit for interrupting standby power in a room, a wall pad for communicating with an external and home network server, Connected thermostats.
The lighting apparatus as claimed in claim 29, wherein the temperature control device further comprises a light switch operation detection unit connected between the household environment automatic control unit and the light switch to sense an operation state of the light switch, and a light switch driving unit for driving the light switch Thermostats.
A temperature control signal generating apparatus comprising:
A light sensing drive unit for sensing an operation state of the light switch and driving the light switch;
An indoor environment sensing unit including an ambient light sensor, a body sensor, a temperature and humidity sensor, and a carbon dioxide sensor;
Generates a special operation mode control signal based on the current temperature and time information, weather and season information when the light switch is checked the operation state, the illuminance detection state and the occupancy detection state as a special condition different from the normal condition. Generation environment automatic control unit; And
And a communication unit for transmitting the special operation mode control signal to the heating controller or the cooling controller.
32. The system of claim 31, wherein the communication unit comprises at least one of a ventilation control unit for controlling indoor ventilation, a standby power control unit for interrupting standby power in a room, a wall pad for communicating with external and home network servers, And a temperature control signal generator connected to the temperature control signal generator.
A temperature control signal generating apparatus comprising:
An indoor environment sensing unit including an illuminance sensor and a body sensor;
A generation environment automatic control unit which checks the illuminance detection state and the occupancy detection state through the indoor environment detection unit in a time-linked manner and generates an automatic operation mode control signal step by step or immediately; And
And a communication unit for transmitting the automatic operation mode control signal to a heating controller or a cooling controller.
34. The system of claim 33, wherein the communication unit comprises a ventilation control unit for controlling indoor ventilation, a standby power control unit for interrupting standby power in the room, and a temperature control signal generation unit connected to at least one of a wall pad communicating with external and home network servers Device.
The temperature control signal generator according to claim 34, wherein the automatic operation mode control signal is instantaneously generated at each predetermined time unit in a predetermined temperature unit when the sleeping condition and the outgoing condition are satisfied, and at the target temperature if the condition is a wakeup condition and a return condition.
The apparatus of claim 35, wherein the communication unit is connected to the latch relay in the standby power control unit in a wired or wireless manner.
The apparatus of claim 35, wherein the household environment automatic control unit is connected to a kids button for helping children to turn on and off a light or to an emergency switch for notifying an emergency situation in a room.
A temperature control signal generating apparatus comprising:
A light switch for switching an indoor lighting lamp;
A generation environment automatic control unit spaced apart from the light switch and automatically generating a special operation mode control signal when the illumination detection state and the occupancy detection state are checked and recognized as a special condition different from the normal condition; And
And a communication unit for transmitting the special operation mode control signal to the heating controller or the valve control unit.

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