WO2012124850A1 - Mobile terminal for providing indoor environment information, and computer for controlling indoor environment - Google Patents

Abstract

The present invention provides a computer for controlling an indoor environment. One embodiment comprises: a communication unit which performs wireless communication with a mobile terminal providing indoor environment information; a user interface which receives a key input of a user and displays data; and a data processing unit which generates an indoor environment change request signal according to a key input of the user, and transmits the indoor environment change request signal to the computer for controlling the indoor environment through the communication unit. Accordingly, state information on an indoor temperature is provided directly from users located within a building, so that it is possible to maintain an optimum indoor temperature with respect to the users, not by a system.

Description

Providing indoor environment information Mobile terminal and indoor environment control computer

The present invention relates to a mobile terminal and an indoor environment control computer for providing indoor environment information, and more particularly, to an indoor environment information providing mobile terminal and an indoor environment control computer for saving energy while keeping the indoor environment comfortable. will be.

Smart Grid is an intelligent power grid system that improves efficiency by integrating information and communication technologies into the production, transportation, and consumption of electricity to enable suppliers and consumers to interact with each other.

Of these, an indoor temperature control system may be used for the electricity consumption process.

The conventional room temperature control system is connected to a cooling and heating device 10 for providing hot or cold air to adjust the temperature of the room as shown in FIG. 1, and a temperature sensor for detecting the room temperature to control the room temperature. It consists of a user controller (11).

In addition, the conventional indoor temperature control system is controlled based on the indoor temperature detected by a temperature sensor installed at a specific location such as a wall or a pillar in the building, so even if the optimal indoor temperature is maintained, There is a problem that can cause a difference in the room temperature.

In addition, although the reaction characteristics with respect to the temperature for each user is different, there is a problem that can only be maintained at a specific temperature.

In addition, since the conventional indoor temperature control system is collectively managed by a small number of operators in each building, there is a problem in that the indoor temperature cannot be optimally managed by the building user.

The present invention is to solve the above-mentioned problems, by receiving the state information on the indoor temperature directly from the user located in the building to control the optimal indoor environment, that is, the optimal indoor environment by the user center rather than on the system by controlling the indoor temperature It is an object of the present invention to provide a mobile terminal and an indoor environment control computer for providing indoor environment information.

In addition, the present invention does not put the server for each indoor temperature setting in the building through the cloud server to the outside through wired / wireless communication, the cloud server to manage the indoor temperature control in the building by integrated management of the room temperature for the building Another purpose is to provide a mobile terminal and an indoor environment control computer for providing indoor environment information that can be professionally performed.

One aspect of the indoor environment information providing mobile terminal of the present invention is a communication unit for performing wireless communication with the indoor environment control computer; A user interface for receiving a user's key input and displaying data; And a data processor for generating an indoor environment change request signal according to a user's key input and transmitting the indoor environment change request signal to the indoor environment control computer through the communication unit.

The indoor environment information providing mobile terminal further includes an indoor environment sensor for detecting indoor environment information, wherein the user interface displays the current indoor environment information provided from the indoor environment sensor to the user.

The indoor environment sensor may be at least one of a temperature sensor, a humidity sensor, an illumination sensor, and a door open / close sensor.

One aspect of the indoor environment control server of the present invention includes a communication unit for receiving an indoor environment change request signal transmitted from the mobile terminal providing indoor environment information and providing the indoor environment determination unit; An indoor environment determination unit configured to set indoor environment optimal information using an indoor environment change request signal provided by the communication unit; And an indoor environment controller which transmits a control signal for controlling the indoor environment to the indoor environment control device using the indoor environment optimum information set by the indoor environment determination unit.

The indoor environment controller calculates a time taken for the measured indoor environment temperature to change to a preset indoor environment temperature by the operation of the indoor environment control device, and is calculated from a preset time when the preset indoor environment temperature should be provided. A control signal is generated to cause the indoor environment control device to operate at a time earlier in time.

And it is installed on the outside of the management target building, the indoor environment change request information provided by the indoor environment information providing terminal is received through a repeater installed in the management target building, the indoor environment control control signal through the repeater to the indoor environment Transfer to the regulating device.

By the above-described configuration, the indoor environment information providing mobile terminal and the indoor environment control computer according to the present invention receive the state information on the indoor temperature directly from the user located in the building to maintain the optimal indoor temperature at the center of the user rather than on the system. There is an excellent effect that makes it possible.

In addition, the present invention does not put a server for the indoor temperature control in each building, the cloud server on the outside through wired / wireless communication, the cloud server for the indoor temperature control in the building by integrated management of the room temperature for the building There are other outstanding effects that allow you to perform management professionally.

1 is a view showing the configuration of a conventional room temperature control system.

Figure 2 is a state diagram showing the configuration of the indoor environment information providing mobile terminal and the indoor environment control computer according to the present invention.

Figure 3 is a detailed configuration of the indoor environment information providing mobile terminal and the indoor environment control computer according to FIG.

Figure 4 is a state diagram showing the configuration of the indoor environment information providing mobile terminal and the indoor environment control computer according to another embodiment of the present invention.

[Description of the code]

100: indoor environment information providing mobile terminal

110: indoor environment sensor 120: user interface

130: data processing unit 140: communication unit

200: indoor environment control computer 210: communication unit

220: indoor environment judging unit 230: indoor environment control unit

240: indoor environment information collection unit 300: cloud server

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

2 is a functional block diagram showing the configuration of the indoor environment control server according to the present invention. As shown in FIG. 2, the indoor environment control server according to an embodiment of the present invention is connected to one or more indoor environment information providing mobile terminals 100 by wireless communication, and includes an indoor environment control function.

The indoor environment information providing mobile terminal 100 transmits the indoor environment change request information including the indoor environment information to the indoor environment control computer 200, as shown in FIG. 3, the indoor environment sensor 110, the user The interface 120, the data processor 130, and the communication unit 140 are included.

Providing indoor environment information The indoor environment sensor 110 of the mobile terminal 100 detects indoor environment information and provides the detected information to the user interface 120. In this case, the indoor environment sensor 110 may be a temperature sensor, a humidity sensor, an illuminance sensor, and a door open / close sensor.

In addition, the user interface 120 of the indoor environment information providing mobile terminal 100 receives indoor environment information through a user's key input, and displays data which is indoor environment information provided from the indoor environment sensor 110.

Providing indoor environment information The data processor 130 of the mobile terminal 100 transmits an indoor environment change request signal including indoor environment information provided from the user interface 120 to the indoor environment control computer 200 through the communication unit 140. send.

Here, any one of the indoor environment information providing mobile terminal 100 may be a reference terminal for providing indoor environment information (room temperature) to the server.

The indoor environment control computer 200 is connected to the air conditioner 10, which is an indoor environment control device, and receives an indoor environment change request signal from the mobile terminal 100 providing indoor environment information. It calculates the environmental optimum information (parameters) and controls the indoor environment by controlling the air-conditioning device 10 which is an indoor environment control device, as shown in Figure 3 communication unit 210, indoor environment determination unit 220 and indoor The environment control unit 230 is included.

The communication unit 210 of the indoor environment control computer 200 receives an indoor environment change request signal transmitted from the indoor environment information providing mobile terminal 100 and provides it to the indoor environment determination unit 220. Here, the indoor environment information providing mobile terminal 100 and the communication unit 140, 210 of the indoor environment control computer 200 performs wireless communication, Bluetooth, WiFi, Zigbee, 3G mobile communication network and the like can be used.

The indoor environment determination unit 220 of the indoor environment control computer 200 calculates indoor environment optimal information (parameters) by using a plurality of indoor environment change request signals. At this time, the indoor environment determination unit 220 may be calculated through a data mining technique using a past energy usage database (not shown) including temperature, humidity, operating time, and energy usage.

In addition, the indoor environment control unit 230 of the indoor environment control computer 200 controls the indoor environment control signal corresponding to the indoor environment control control signal to adjust the indoor environment with the indoor environment optimum information detected by the indoor environment control computer 200. It transfers to the air-conditioning apparatus 10 which is a apparatus.

Meanwhile, the indoor environment controller 230 of the indoor environment control computer 200 calculates a time taken for the measured indoor environment temperature to change to a preset indoor environment temperature by the operation of the indoor environment control device, and the preset indoor environment. A control signal for operating the indoor environment control device is generated at a time earlier than a predetermined time at which the temperature is to be provided, and is transmitted to the air conditioner 10 which is the indoor environment control device.

Hereinafter, an operation process for controlling the indoor temperature in the indoor environment control server according to the present invention will be described.

First, the plurality of indoor environment information providing mobile terminals 100 are wirelessly connected to the indoor environment control computer 200, and the indoor environment control computer 200 is connected to the air-conditioning and heating device 10, which is an indoor environment control device, by wire. It is.

Each indoor environment information providing mobile terminal 100 transmits the indoor environment change request information including the user's sensation room temperature information among the indoor environment information to the indoor environment control computer 200. Herein, when the indoor terminal providing the indoor environment information includes a temperature sensor among the indoor environment sensor 110, the indoor temperature provided from the temperature sensor may be displayed to the user through the user interface 120.

Then, the indoor environment-providing mobile terminal 100 displays the indoor temperature information provided from the indoor environment sensor 110 through the user interface 120 to the user, and the indoor environment including the user sensation indoor temperature information selected by the user. The change request signal is transmitted to the indoor environment control computer 200 through the communication unit 140. That is, the indoor terminal 100 provides the current indoor temperature (20 ° C.) to the user interface 120 through the indoor environment sensor 110, and the user interface 120 provides the current indoor temperature (20 ° C.). ) Display the information to the user.

If the current indoor temperature (20 ° C.) feels cold to the user, the user inputs a temperature change, ie, user feel indoor temperature information (change request temperature 21 ° C.) through the user interface 120.

Then, the data processor 130 transmits the indoor environment change request signal including the user's haptic room temperature information (change request temperature 21 ° C.) provided through the user interface 120 through the communication unit 140 to the indoor environment control computer 200. To send.

On the other hand, the users located in other places are also provided with the indoor environment information providing the current indoor temperature (20 ℃) information through the mobile terminal 100, the indoor environment containing each user's sensation indoor temperature information through the user interface 120 The change request signal may be transmitted to the indoor environment control computer 200. At this time, the indoor environment change request signal may include the change request temperature required by the user or may include state information such as proper, high, and low.

When the indoor environment change request signal is received from the at least one indoor environment information providing mobile terminal 100, the indoor environment control computer 200 calculates the optimal indoor environment temperature through the received indoor environment change request signals, By controlling the air conditioning system 10 to adjust the room temperature.

More specifically, the communication unit 210 of the indoor environment control computer 200 receives the indoor environment change request signal transmitted from the indoor environment-providing mobile terminal 100 and provides the indoor environment determination unit 220. .

Then, the indoor environment determination unit 220 of the indoor environment control computer 200 calculates the optimal indoor environment information by using a plurality of indoor environment change request signals.

On the other hand, the indoor environment control unit 230 of the indoor environment control computer 200 controls the indoor environment control signal corresponding to the indoor environment control control signal to adjust the indoor environment with the indoor environment optimal information detected by the indoor environment control computer 200. It transfers to the air-conditioning apparatus 10 which is a apparatus.

In this case, the indoor environment control computer 200 may further include a common energy information indicator connected as shown in FIG. 3 to provide indoor environment information.

In addition, the indoor environment control computer 200 may control the air-conditioning device 10 that is an indoor environment control device that is an energy consuming device, and may control the humidity control device 11 and the lighting equipment device 12.

That is, the indoor environment control computer 200 receives indoor environment information from the indoor environment information providing mobile terminal 100. In this case, when the received indoor environment information is indoor temperature information, the present invention compares the present temperature with the set temperature and controls the air conditioner 10 that is the indoor environment control device when the temperature is lower than the set temperature.

The present invention can control not only room temperature, but also humidity and illuminance, opening and closing of the door. That is, the indoor environment control computer 200 compares the current humidity and the set humidity when the received indoor environment information is indoor humidity information, and controls the humidity control device 11 to adjust the indoor humidity when it is lower than the set humidity.

And the indoor environment control computer 200 controls the lighting equipment device 12 if the received indoor environment information is the brightness of the light.

Meanwhile, the indoor environment controller 230 of the indoor environment control computer 200 calculates a time taken for the measured indoor environment temperature to change to a preset indoor environment temperature by the operation of the indoor environment control device, and the preset indoor environment. A control signal for operating the indoor environment control device is generated at a time earlier than a predetermined time at which the temperature is to be provided, and is transmitted to the air conditioner 10 which is the indoor environment control device.

As such, the indoor environment control computer 200 may control the operation of unnecessary equipment to save energy, and may reduce energy by minimizing power leakage by blocking standby power. In addition, the indoor environment control computer 200 can control the unnecessary air conditioning system operation to save energy.

4 is a functional block diagram showing the configuration of the indoor environment control server according to another embodiment of the present invention. As shown in FIG. 4, the indoor environment control method according to another embodiment of the present invention performs wireless communication with the indoor environment-providing mobile terminal 100, and controls the indoor environment control computer 200 and the cloud server 300. Include.

The plurality of indoor environment information providing mobile terminals 100 transmit indoor environment change request information including indoor environment information. As illustrated in FIG. 3, the indoor environment sensor 110, the user interface 120, and the communication unit are provided. 140.

Providing indoor environment information The indoor environment sensor 110 of the mobile terminal 100 detects indoor environment information and provides the detected information to the user interface 120. In this case, the indoor environment sensor 110 may be a temperature sensor, a humidity sensor, an illuminance sensor, and a door open / close sensor.

In addition, the user interface 120 of the indoor environment information providing mobile terminal 100 displays the indoor environment information provided from the indoor environment sensor 110 to the user, and provides an indoor environment change request signal including the indoor environment information selected by the user. It transmits to the indoor environment control computer 200 through the communication unit 140.

Therefore, the indoor environment change request signal is received from the plurality of indoor environment information providing mobile terminals 100, and the indoor environment control computer 200 connected to the air conditioning system 10, which is an indoor environment control device, receives the plurality of indoor environment changes. By grouping the request signal and transmitting to the cloud server 300, according to the indoor environment control signal received from the cloud server 300 by controlling the air-conditioning device 10, the indoor environment control device to adjust the indoor environment, As shown in FIG. 3, the communication unit 210 includes an indoor environment control unit 230 and an indoor environment information collection unit 240.

In this case, the communication unit 210 of the indoor environment control computer 200 receives the indoor environment change request signal from the indoor environment providing mobile terminal 100 and provides the indoor environment information collection unit 240.

In addition, the indoor environment information collecting unit 240 of the indoor environment control computer 200 groups a plurality of indoor environment change request signals input from the indoor environment information providing mobile terminal 100 and transmits them to the cloud server 300.

In addition, the indoor environment control unit 230 of the indoor environment control computer 200 transmits the indoor environment control signal transmitted from the cloud server 300 to the indoor environment control device to control the indoor environment.

Meanwhile, the indoor environment controller 230 of the indoor environment control computer 200 calculates a time taken for the measured indoor environment temperature to change to a preset indoor environment temperature by the operation of the indoor environment control device, and the preset indoor environment. A control signal for operating the indoor environment control device is generated at a time earlier than a predetermined time at which the temperature is to be provided, and is transmitted to the air conditioner 10 which is the indoor environment control device.

When the indoor environment change request signal transmitted from each indoor environment control computer 200 is received, the cloud server 300 calculates an indoor environment optimum control setting value for each indoor environment control computer 200 and the corresponding indoor environment control computer. Send to 200.

Hereinafter, an operation process for controlling the indoor temperature of the indoor environment control server according to another embodiment of the present invention will be described.

First, a plurality of indoor environment information providing mobile terminal 100 is connected to the indoor environment control computer 200, the indoor environment control computer 200 is a heating and cooling device 10, a humidity control device 11 which is an indoor environment control device ) And the lighting fixture 12.

In such an environment, each of the indoor environment information providing mobile terminals 100 detects indoor temperature information through a temperature sensor of each indoor environment sensor 110 and provides the detected temperature information to the user interface 120.

Then, the indoor environment-providing mobile terminal 100 displays the indoor temperature information provided from the indoor environment sensor 110 through the user interface 120 to the user.

Subsequently, when the user selects the user experience indoor temperature setting information through the user interface 120 to adjust the indoor temperature, the user interface 120 transmits the indoor environment change request signal including the user experience indoor temperature setting information to the communication unit ( Through the 140, and transmits to the indoor environment control computer 200. That is, the indoor environment-providing mobile terminal 100 provides the current indoor temperature (20 ° C.) to the user interface 120 through the temperature sensor among the indoor environment sensor 110, and the user interface 120 provides the current indoor temperature. (20 ° C) Information is displayed to the user.

Thus, when the current indoor temperature (20 ° C.) provided through the user interface 120 feels cold, the user changes the indoor environment including user sensation indoor temperature setting information (change request temperature 21 ° C.) through the user interface 120. The request signal is transmitted to the indoor environment control computer 200.

On the other hand, users located elsewhere also receive the current indoor temperature (20 ℃) information through the indoor terminal providing indoor environment information mobile terminal 100, and changes the indoor environment including the user experience indoor temperature setting information through the user interface 120 The request signal may be transmitted to the indoor environment control computer 200. At this time, the indoor environment change request signal may include the change request temperature required by the user or may include state information such as proper, high, and low.

Subsequently, the indoor environment control computer 200 receiving the indoor environment change request signal including the user's haptic room temperature information from the at least one indoor environment information providing mobile terminal 100 provides the user with the indoor environment information providing mobile terminal 100. The indoor environment change request signal including haptic indoor temperature information is grouped and transmitted to the cloud server 300.

In more detail, the communication unit 210 of the indoor environment control computer 200 receives the indoor environment change request signal including the user's sensation indoor temperature information transmitted from the indoor environment information providing mobile terminal 100 to receive the indoor environment. The information collector 240 is provided.

Then, the indoor environment information collecting unit 240 of the indoor environment control computer 200 groups the indoor environment change request signal including the user experience indoor temperature setting information provided from the indoor environment information providing mobile terminal 100 to the cloud server. Send to 300.

Subsequently, when the indoor environment change request signal including the user experience indoor temperature setting information is received from each indoor environment control computer 200, the cloud server 300 sets an optimal indoor environment setting value for each indoor environment control computer 200. The calculated indoor environment control signal including the detected indoor environment optimal information is transmitted to the corresponding indoor environment control computer 200.

Thereafter, the indoor environment control unit 230 of the indoor environment control computer 200 transmits the indoor environment control signal transmitted from the cloud server 300 to the air conditioner 10 which is the indoor environment control device to control the indoor temperature.

In this case, the indoor environment control computer 200 may provide room temperature information to the connected common energy information indicator as shown in FIG. 3.

The indoor environment control computer 200 may control the optimal number of energy consuming devices, that is, the air conditioning and heating device 10 that is the indoor environment control device, control the operation of the air conditioner, and perform final departure and standby power cutoff control. .

Meanwhile, the indoor environment controller 230 of the indoor environment control computer 200 calculates a time taken for the measured indoor environment temperature to change to a preset indoor environment temperature by the operation of the indoor environment control device, and the preset indoor environment. A control signal for operating the indoor environment control device is generated at a time earlier than a predetermined time at which the temperature is to be provided, and is transmitted to the air conditioner 10 which is the indoor environment control device.

Although the foregoing detailed description has shown, described, and mentioned the basic novel features of the invention as applied to various embodiments, various omissions, substitutions, and changes in the form and details of the illustrated system may be made without departing from the intention of the invention. It will be appreciated that changes may be made by those skilled in the art. For example, in the present invention, only the temperature is controlled, but may be controlled by receiving information such as humidity, illuminance, and door state.

Claims (6)

Communication unit for performing wireless communication with the indoor environment control computer; A user interface for receiving a user's key input and displaying data; And And a data processing unit for generating an indoor environment change request signal according to a user's key input and transmitting the signal to the indoor environment control computer through the communication unit. The method of claim 1, It further includes an indoor environment sensor for detecting indoor environment information, The user interface, indoor environment information providing mobile terminal, characterized in that for displaying the indoor environment information provided from the indoor environment sensor. The method of claim 2, The indoor environment sensor, Indoor environment information providing mobile terminal, characterized in that at least one of temperature sensor, humidity sensor, illumination sensor. A communication unit for receiving indoor environment change request signals transmitted from the mobile terminal and the cloud server and providing the indoor environment information to the indoor environment determination unit; An indoor environment determination unit configured to set indoor environment optimal information using an indoor environment change request signal provided by the communication unit; And An indoor environment control computer including an indoor environment control unit for transmitting a control signal for controlling the indoor environment to the indoor environment control device with the indoor environment optimum information set by the indoor environment determination unit. The method of claim 4, wherein The indoor environment control unit, The time taken for the measured indoor environment temperature to change to the preset indoor environment temperature by the operation of the indoor environment control device is calculated, and the time is earlier than the time calculated before the preset time at which the preset indoor environment temperature should be provided. An indoor environment control computer, characterized in that for generating a control signal for operating the indoor environment control device. It is connected to the indoor environment control computer and the communication relay network, is installed outside the management target building, receives the indoor environment change request information provided by the indoor environment information providing terminal through the communication relay network, and receives the indoor environment control signal Cloud server, characterized in that for transmitting to the indoor environment control computer via the communication relay network.

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