KR101108543B1 - Indoor environmental management system that individually controls environmental control devices - Google Patents

Abstract

The indoor environment management system for individually controlling the environmental control device of the present invention, the environmental measurement sensor unit for measuring each of the plurality of indoor environmental elements, the respective signals measured by the environmental measurement sensor unit, and controls the respective environmental conditions A centrally controlled environment management system including a control system to display and a wired and wireless module capable of transmitting and receiving the signal with an external interface; And

Each wired / wireless module for receiving each signal transmitted from the wired / wireless module unit, an environmental control device for adjusting each of the plurality of indoor environmental elements, and the environmental control device can be individually controlled through each of the received signals. It provides an individually controlled environmental management system comprising an environmental control unit control.

According to the present invention, by setting various condition setting values corresponding to the measured values and transmitting the condition setting values to the environmental control device control unit by wire or wireless, the device is operated unnecessarily by individually controlling each environmental control device. Not only can it be prevented, there is an advantage that can maintain a pleasant environment in a short time.

Environmental Management, Sensing, Control, Transceiver Module

Description

INTERIOR ENVIRONMENT SYSTEM OF INDIVIDUALLY CONTROLLING THE EQUIPMENT FOR ADJUSTING THE SURROUNDINGS}

The present invention relates to an indoor environmental management system, and more particularly, to measure each environmental element, to provide a condition setting value corresponding to the measured value, and to individually control the environmental control device according to the condition setting value. To an indoor environmental management system.

In order to improve indoor environment, researches on indoor environment management system for measuring indoor environment through sensors and improving indoor environment using the measurement results are actively conducted.

More specifically, the indoor temperature, humidity, gas concentrations such as carbon dioxide and fine dust is measured, and when ventilation is required, the ventilation fan is used for ventilation. In the past, when a person pulls a switch directly attached to the fan The vent was opened and power was supplied to the fan.

However, the conventional method does not control each environmental control device individually, so it continuously operates regardless of the state of internal ventilation until the next switch operation, resulting in problems such as energy consumption and noise. In addition, if the fan does not operate when the ventilation opening is open, harmful animals such as insects and mice enter the gap between the ventilation openings, thereby polluting the indoor environment.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide an indoor environment management system that more accurately measures various environmental conditions, variously sets condition setting values corresponding to measured values, and individually controls each environmental control device. .

Indoor environment management system for individually controlling the environmental control device according to the present invention for achieving the technical problem, the environmental measurement sensor 110 for measuring each of the plurality of indoor environmental elements, each measured by the environmental measurement sensor A centrally controlled environmental management system (100A) comprising a control system (120) for controlling a signal of and displaying a respective environmental state and a wired / wireless module (130) capable of transmitting and receiving the signal with an external interface; And each wired / wireless module 151, 161, 171 for receiving each signal transmitted from the wired / wireless module unit 130, an environmental controller 150b for adjusting each of the plurality of indoor environment elements, and the received signals. Provides an individually controlled environmental management system (100B) comprising an environmental control unit controller (150a) that can individually control the environmental control device (150b).

Control method of the indoor environmental management system to individually control the environmental control device according to the present invention for achieving the above technical problem, (a) control the value measured by the environmental measurement sensor unit 110 for each of the indoor environmental conditions Receiving at system 120; (b) comparing and determining the first threshold value preset by the controller 125 with the value measured in step (a); (c) outputting that the indoor environment is not in a normal state when the measured value is greater than or equal to the first threshold as a result of the comparison determination; (d) comparing and determining a second threshold value preset by the controller 125 with the value measured in step (a); (e) transmitting the preset condition setting value from the controller 125 to the environmental controller when the measured value is greater than or equal to the second threshold as a result of the comparison determination in the step (d); And (f) individually operating the environmental control device to change the indoor environment to normal.

The present invention has the advantage of more accurately measuring a variety of environmental conditions using a plurality of mobile or fixed sensors.

In addition, the present invention is to set a variety of condition setting value corresponding to the measured value and transmit the condition setting value to the environmental control device control unit by wire or wireless to prevent the unnecessary operation of the device by individually controlling each environmental control device. Not only that, there is an advantage that can maintain a pleasant environment in a short time.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

1 illustrates a configuration of an environment management system according to the present invention.

Referring to FIG. 1, the environmental management system 100 of the present invention includes a centrally controlled environmental management system 100A and an individually controlled environmental management system 100A.

Hereinafter, the centralized environmental management system 100A will be described in detail. The centralized environmental management system 100A controls an environmental measurement sensor unit 110 for detecting and measuring each of a plurality of indoor environmental elements, a signal measured by the environmental measurement sensor unit, and displays a display of each environmental state. System 120, the individual controlled environmental management system (100A) and a wired and wireless module unit 130 that can transmit and receive signals.

The environmental measurement sensor unit 110 includes a gas sensor 111 for measuring gas such as carbon dioxide (CO2), a temperature sensor 112 for measuring the temperature of the indoor environment, a humidity sensor 113 for measuring the humidity of the indoor environment, and the like. Shall be provided. Of course, the environmental measurement sensor unit 110 of the present invention is not limited to this, and may further include a dust sensor, an illuminance sensor, etc. according to the needs of environmental management.

Preferably, the gas sensor 111 uses an optical gas sensor, and even when measuring a gas such as carbon dioxide, the gas sensor 111 may be fixed and measured at a specific place in the room. Preferably, the gas sensor 111 is attached to a robot or the like. It is desirable to measure the concentration of gas in every corner of the room while moving the robot.

According to the present invention, the gas sensor 111 can measure the concentration of carbon dioxide from 0 ppm to 10,000 ppm using an infrared non-permanent infrared sensor (NDIR), and the temperature sensor 112 uses a semiconductor IC temperature sensor. Can measure up to -20 degrees to 60 degrees Celsius, the humidity sensor 112 can measure 0% to 90% RH in the capacitance type.

The control system 120 may determine the indoor environmental state from the signals measured by the gas sensor 111, the temperature sensor 112, and the humidity sensor 113, and display an environmental state. The controller 125 may control the measured signal.

The control unit 125 provides a condition setting value corresponding to each of the measured indoor environment elements, and adjusts the condition setting value to the measurement management control unit 126 to adjust the environmental control device according to the condition setting value. A condition setting unit 127 for storing the adjusted condition setting value and a condition storing unit 128 for storing the adjusted condition setting value.

For example, the set value is 'heating' if the measured environmental factor is temperature, less than 15 degrees Celsius, 'keep temperature' if more than 15 degrees Celsius and less than 25 degrees Celsius, or 'need cooling' if it exceeds 25 degrees Celsius For example, if it exceeds 35 degrees Celsius, it can be designated as 'warning warning'. Similarly, conditional setting values can be specified for carbon dioxide concentration, humidity, and the like. Naturally, the condition setting value may be designated to be optimal environmental management in consideration of environmental conditions and user needs.

 The condition setting unit 127 sets a threshold value defined as a threshold indicating a degree of malaise for each environmental element, and a plurality of threshold values may be designated by the user. For example, the first threshold may be defined as a preset threshold for carbon dioxide concentration, temperature, humidity, etc., in which a person generally feels uncomfortable for each environmental state, and the second threshold may be defined for each environmental state. Beyond the sense, it can be defined as a preset limit for carbon dioxide concentration, temperature, humidity, etc. that would threaten health such as headache. Although the first threshold value and the second threshold value may be determined uniformly by the designer of the system, it is preferable to allow the user to set arbitrarily so that each user can maintain an optimal indoor environment.

The wired / wireless module 130 is a communication module capable of transmitting and receiving with each wired / wireless module 151, 161, or 171 of the individually controlled environmental management system 100B. In the case of wireless communication, zigbee (zibee) and Bluetooth (blue tooth) , RF (radio frequency) module, ultra wideband (UWB, ultra wideband) and the like can be used.

The centrally controlled environment management system 100A is implemented in a form embedded in a television, a computer, a home network device, a set top box, or a mobile device.

Hereinafter, the individual controlled environmental management system 100B will be described in detail in connection with the central controlled environmental management system 100A.

The individual controlled environmental management system 100B receives a signal including information on each environmental state measured by the centralized environmental management system 100A through each of the wired / wireless modules 1, 2, and 3 (151, 161, 171). It is provided with an environmental control device controller 150a that can control the environmental control device (150b). The environmental control device 150b is a device for controlling each of a plurality of indoor environmental elements such as gas concentration, temperature, and humidity, such as a fan 155, an air conditioner 165a, a heater 165b, a humidifier 175a, and a dehumidifier 175b. ) Is used in indoor environments.

The environmental controller 150a includes a ventilation management system 153, a temperature management system 163, and a humidity management system 173. The environmental control unit 150a receives a unique number (ID) by the control system 120 and registers each of the ventilation management system 153, the temperature management system 163, and the humidity management system 173. Unique number (ID) is used to distinguish the system in wired and wireless communication between the control system 120 and the environmental control unit controller 150a. When the control system 120 transmits a unique number (ID) and signal information for the operation, it receives and operates the respective ventilation management system 153, the temperature management system 163, and the humidity management system 173 individually. To control accordingly.

The ventilation management system 153 receives a preset condition setting value through the wired / wireless module 1 (130, 151) to adjust the environmental control device (150b) in accordance with the signal measured by the gas sensor 111, the It manages to operate or stop the fan individually according to the received condition setting value. One or more fans can be installed depending on the size of the indoor environment.

In the same manner, the temperature management system 163 receives a preset condition setting value through the wired / wireless module 2 (130, 161) to adjust the environmental control device according to the signal measured by the temperature sensor 112, The air conditioner or heater can be individually operated or stopped according to the received condition setting value. Air conditioners or heaters can be installed one or more depending on the size of the indoor environment.

Receives through the humidity control system 173 is a humidity sensor corresponds to the signal measured at 113 by wired or wireless module, a pre-set condition setting value to adjust the light adjuster ring 3 (130, 171), the received The humidifier or dehumidifier can be individually operated or stopped according to the condition setting value. Humidifiers or dehumidifiers can be installed one or more depending on the size of the indoor environment.

Figure 2 shows a control method of the indoor environmental management system to individually control the environmental control apparatus according to the present invention.

2 will be described in detail with reference to FIG. 1.

In the first step S10, the control system 120 receives a value measured for each environmental condition of the room by the environmental measurement sensor unit 110.

In the second step S15, the first threshold value preset by the controller 125 is compared with the value measured in the first step S10. The first threshold is defined as a preset threshold for carbon dioxide concentration, temperature, humidity, etc., in which a person generally feels guilty for each environmental condition. Although the first threshold may be determined uniformly by the designer of the system, it is desirable to allow the user to set arbitrarily so that each user can maintain an optimal indoor environment.

The third step S30 outputs that the indoor environment is not in a normal state when the measured value is greater than or equal to the first threshold as a result of the comparison determination.

A screen output for displaying a warning or a sound output for displaying a warning sound may be used to output an indoor environment that is not normal.

In the fourth step S25, the second threshold value preset by the controller 125 is compared with the value measured in the first step S10. The second threshold is defined as a preset threshold for carbon dioxide concentration, temperature, humidity, and the like, for each of the environmental conditions, which may threaten human health beyond headaches. The second threshold may be determined uniformly by the designer of the system, but it is desirable to allow the user to set arbitrarily so that each user can maintain an optimal indoor environment.

In the fifth step S30, when the measured value is greater than or equal to the second threshold value, the controller 125 transmits a preset condition setting value to the environmental controller. The environmental control device operates individually according to the condition setting value, and the condition setting value is set in advance by the system designer or the user so as to control each environmental control device corresponding to each environmental element.

The sixth step (S40) operates the environmental control device individually to change the indoor environment to normal.

In the above description, the technical idea of the present invention has been described with the accompanying drawings. However, the present invention has been described by way of example only, and is not intended to limit the present invention. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope of the present invention.

1 illustrates a configuration of an environment management system according to the present invention.

Figure 2 shows a control method of the indoor environmental management system to individually control the environmental control apparatus according to the present invention.

Claims (16)

In the indoor environmental management system, An environmental measurement sensor unit for measuring each of the plurality of indoor environmental elements, a control system for controlling each signal measured by the environmental measurement sensor unit, and display each environmental state and a wired or wireless wire that can transmit and receive the signal with an external interface A centrally controlled environmental management system including a module; And Each wired / wireless module for receiving each signal transmitted from the wired / wireless module unit, an environmental control device for adjusting an environment corresponding to each of the plurality of indoor environmental elements, and the environmental control device individually through the received signals. Equipped with an individual controlled environmental management system including an environmental control unit control unit that can be controlled by The control system, A measurement management control unit for providing a condition setting value corresponding to each of the measured indoor environment elements to allow a user to select a desired condition setting value; The condition setting unit may be configured to adjust the condition setting value, and to set a threshold value defined as a limit value indicating a degree of discomfort for each of the environmental elements, and the user may specify a plurality of threshold values. And a control unit for controlling each signal measured by the environmental measurement sensor unit, including a condition storage unit for storing the adjusted condition setting value. The method of claim 1, wherein the environmental sensor, Gas sensor for measuring the concentration of gas in the indoor environment, Indoor environment management system for individually controlling the environmental control device, characterized in that it comprises a temperature sensor for measuring the temperature of the indoor environment and a humidity sensor for measuring the humidity of the indoor environment.  The method of claim 2, wherein the environmental sensor,  Ambient light sensor for measuring the illuminance of the indoor environment, Dust sensor to measure dust in indoor environment, Indoor environment management system for individually controlling the environmental control device, characterized in that it further comprises any one or more of the odor sensor for measuring the smell of the indoor environment. delete delete delete The method of claim 1, wherein the condition setting unit sets a threshold value defined as a threshold value indicating a degree of discomfort for each of the environmental elements, and the threshold value can be individually designated by a user. Indoor environmental management system to control the device. According to claim 1, wherein the wired and wireless module unit and each of the wired and wireless modules for wireless communication Zigbee (zibee), Bluetooth (blue tooth), RF (radio frequency) module, ultra wideband (UWB, ultra wideband) Indoor environmental management system for individually controlling the environmental control device, characterized in that using any one of. The indoor environmental management system of claim 1, wherein the centrally controlled environmental management system is embedded in a television, a computer, a home network device, a set-top box, or a mobile device. According to claim 1, wherein the environmental control unit controller is assigned a unique number (ID) for identifying each of the environmental control device from the control system, characterized in that for controlling each of the environmental control device for each unique number (ID). Indoor environmental management system that individually controls the environmental control device. The indoor environment management system of claim 10, wherein the environment control device controller automatically controls each environment control device for each unique number (ID). delete delete delete delete delete

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