WO2013118885A1 - Air conditioning control system and method - Google Patents
Air conditioning control system and method Download PDFInfo
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- WO2013118885A1 WO2013118885A1 PCT/JP2013/053124 JP2013053124W WO2013118885A1 WO 2013118885 A1 WO2013118885 A1 WO 2013118885A1 JP 2013053124 W JP2013053124 W JP 2013053124W WO 2013118885 A1 WO2013118885 A1 WO 2013118885A1
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- air conditioner
- communication terminal
- mobile communication
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- air conditioning
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/50—Control or safety arrangements characterised by user interfaces or communication
- F24F11/56—Remote control
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/64—Electronic processing using pre-stored data
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2120/00—Control inputs relating to users or occupants
Definitions
- the present invention relates to an air conditioning control system and method.
- Air conditioning systems that provide air conditioning functions for multiple rooms are already widely used in residential and commercial facilities. Based on a kind of existing normal design, a building can have a set of large central air conditioning systems that provide unified heating or cooling for each independent room in the building be able to. In addition, for many ordinary homes, each home usually has a plurality of air conditioning rooms such as a bedroom, a study, and a living room. Based on another existing normal design, residents will install a separate air conditioner in each room that needs to be air-conditioned, considering the normal cost of use. For example, an air conditioner having power suitable for each area is installed in a bedroom, a study, and a living room.
- the present invention presents a new air conditioning control system and method, and an object thereof is to provide an air conditioning control system and method that allows a user to experience personalized and intelligent air conditioning control.
- the present invention can be applied not only to personalized air conditioning in general households but also to large central air conditioning systems.
- an air conditioning control system includes an air conditioner partially installed in a room and a mobile communication terminal that communicates with the air conditioner, of which the air conditioner is It is composed of at least one outdoor unit and at least one indoor unit, and the mobile communication terminal further includes a communication module, a position determination module, and a control module, and the mobile communication terminal is connected to the air conditioner via the communication module.
- a communication connection is established, the position determination module determines the positional relationship between the mobile communication terminal and the air conditioner, and the control module transmits a control command to the air conditioner based on the positional relationship from the position determination module.
- the mobile communication terminal includes a GPS module and an input interface, and a user sets and stores in advance geolocation data of the air conditioner via the input interface, and the position determination module.
- a distance between the mobile communication terminal and the air conditioner is calculated based on the geographical position data of the communication terminal.
- the control module compares the distance calculated by the position determination module with a distance threshold stored in advance in the mobile communication terminal, and turns on or off the air conditioner based on the comparison result. Send the control command.
- the user sets the distance threshold via the input interface.
- the mobile communication terminal includes a mobile communication terminal that reads the geographical position information of an air conditioner, the mobile communication terminal collects its own geographical position information, and the mobile communication terminal A distance between the mobile communication terminal and the air conditioner is determined based on the geographical position information and the geographical position information of the air conditioner, and the mobile communication terminal transmits a control command to the air conditioner based on the distance.
- the step in which the mobile communication terminal transmits a control command to the air conditioner based on the distance further compares the distance with a distance threshold stored in advance in the mobile communication terminal. And when the distance is less than or equal to the distance threshold, the mobile communication terminal issues an ON control command to the air conditioner, and when the distance is greater than the distance threshold, the mobile communication terminal Send an OFF control command to the machine.
- the distance threshold is set by a user via an input interface of the mobile communication terminal.
- the geolocation information of the air conditioner is set and stored in advance by the user via the input interface of the mobile communication terminal.
- the air conditioner can be turned on or off more intelligently based on the relative position of the user.
- Such a design can turn on the air conditioner in advance when the user approaches the house, providing a more comfortable indoor air environment, and at the same time automatically when the user forgets to stop the air conditioner
- the air conditioner can be shut down and power waste and potential hidden hazards can be avoided.
- FIG. 1 is a schematic structural diagram of an air conditioning control system according to the present invention.
- the air conditioning control system of the present invention mainly includes an air conditioner 101, a mobile communication terminal 102, a communication module 103, a position determination module 104, and a control module 105.
- the air conditioner 101 is a separate type air conditioner, and includes an indoor unit installed indoors and an outdoor unit installed outdoors.
- the number of indoor units and outdoor units is not limited and can be arbitrarily set.
- the mobile communication terminal 102 communicates with the air conditioner, and further includes a communication module 103, a position determination module 104, and a control module 105.
- the mobile communication terminal 102 establishes a communication connection with the air conditioner 101 via the communication module 103.
- the position determination module 104 determines the positional relationship between the mobile communication terminal 102 and the air conditioner 101.
- the control module 105 transmits a control command to the air conditioner 101 based on the positional relationship from the position determination module 104.
- the mobile communication terminal 102 may be a mobile phone such as iphone (registered trademark), and may be a tablet computer such as ipad (registered trademark) or a mobile communication device already known.
- the mobile communication terminal 102 can include a GPS module 106 and an input interface 107.
- the GPS module 106 may be a conventional GPS component for providing GPS geolocation data.
- the user sets and stores in advance the geolocation data of the air conditioner 101 via the input interface 107. For example, based on one type of plan, the user manually inputs and stores in advance geolocation data of the air conditioner 101, such as longitude and latitude data, through the input interface 107 such as a touch panel.
- the user installs the mobile communication terminal 102 at the position of the air conditioner 101 in advance, and the GPS module 106 of the mobile communication terminal 102 identifies the current geolocation data (for example, longitude and latitude data).
- the user sets the geolocation data of the air conditioner 101 to the current geolocation data through the input interface 107 such as a touch panel, and saves it beforehand.
- the geographical position data is obtained by inputting an address through a web map service (for example, Google (registered trademark) map), whereby the position determination module 104 reads the pre-stored geographical position data of the air conditioner 101.
- the position determination module 104 can further read the geographical position data of the mobile communication terminal 102 collected by the GPS module 106. It can be understood that the position determination module 104 calculates the distance between the mobile communication terminal 102 and the air conditioner 101 based on the geographical position data of the air conditioner 101 and the geographical position data of the mobile communication terminal 102.
- the control module 105 compares the distance calculated by the position determination module 104 with a distance threshold value stored in advance in the mobile communication terminal 102.
- the distance threshold can be used to distinguish between indoors and outdoors. For example, when the distance is less than or equal to the distance threshold, the user can be determined to be currently in the room, and thus the control module 105 sends an ON control command to the air conditioner 101. When the distance is greater than the distance threshold, it can be determined that the user is currently outdoors, and the control module 105 transmits an OFF control command to the air conditioner 101.
- the air conditioning control system of the present invention turns on the air conditioner 101 in advance when the user approaches the house. Thus, a more comfortable indoor air environment can be provided when the user arrives at home.
- the air conditioning control system of the present invention has the mobile communication device 102.
- the distance between the air conditioner 101 and the air conditioner 101 is larger than the distance threshold stored in advance, that is, when it is determined that the user is already in the room, the air conditioner 101 is automatically stopped, thereby wasting power and potential.
- the user can set the distance threshold via the input interface 107 of the mobile communication terminal 102.
- the user can also set other operation parameters via the input interface 107.
- the user can set personalization based on the relationship between the temperature difference and the output power or the air volume.
- FIG. 4A shows a flowchart according to the air conditioning control method of the present invention.
- the air conditioning control method 400 of the present invention first includes a step of reading the geographical position information of the air conditioner 101 by the mobile communication terminal 102 (step 401). Subsequently, the mobile communication terminal 102 reads its own geographical position information (step 402). For example, as described above, the geographical position information of the air conditioner 101 is preferably set and stored in advance by the user via the input interface of the mobile communication terminal.
- the distance between the mobile communication terminal 102 and the air conditioner 101 is determined based on the geographical position information of the mobile communication terminal 102 and the geographical position information of the air conditioner 101 (step 403).
- the mobile communication terminal 102 can transmit a control command to the air conditioner 101 based on the distance (step 404).
- step 404 further includes a distance between the mobile communication terminal 102 and the air conditioner 101, and a threshold of the distance previously stored in the mobile communication terminal 102. And comparing with.
- the mobile communication terminal 102 transmits an ON control command to the air conditioner 101 (step 406).
- the mobile communication terminal 102 transmits an OFF control command to the air conditioner 101.
- the distance threshold can be set by the user via the input interface of the mobile communication terminal. That is, the user can arbitrarily set a distance threshold value for distinguishing between indoors and outdoors.
- the present invention is useful as an air conditioning control system and an air conditioning control method that can provide a user with a long-distance control experience for the air conditioning system.
- Air conditioner 101
- Mobile communication terminal 102
- Communication module 104
- Position determination module 105
- Control module 106
- GPS module 107
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- General Engineering & Computer Science (AREA)
- Signal Processing (AREA)
- Physics & Mathematics (AREA)
- Fuzzy Systems (AREA)
- Mathematical Physics (AREA)
- Human Computer Interaction (AREA)
- Air Conditioning Control Device (AREA)
- Telephonic Communication Services (AREA)
Abstract
The present invention provides an air conditioning control system. The air conditioning control system is provided with an air conditioner, part of which is installed in a room, and a mobile communication terminal for communicating with the air conditioner, of which, the air conditioner is composed of at least one outdoor unit and at least one indoor unit. The mobile communication terminal is provided with a communication module, a position determination module, and a control module. The mobile communication terminal creates a communication connection with the air conditioner via the communication module. The position determination module determines the positional relationship between the mobile communication terminal and the air conditioner. The control module sends control instructions to the air conditioner on the basis of the positional relationship from the position determination module. The present invention is capable of using the position information that has been collected to determine whether a user is indoors or outdoors and to determine air conditioning operating conditions, and is thus able to automatically control the air conditioner.
Description
本発明は空調制御システム及び方法に関する。
The present invention relates to an air conditioning control system and method.
複数の部屋に空気調節機能を提供する空調システムは、既に住宅や商業施設において広く応用されている。一種の既存の通常設計に基づき、一棟の建築物においてワンセットの大型セントラル空調システムを有することができ、当該セントラル空調システムは当該建築物における各独立した部屋に統一した暖房又は冷房を供給することができる。このほか、多くの一般住宅にとって、各家庭には通常、例えば、寝室、書斎、リビングルーム等複数の空気調節を行うべき部屋がある。もう一種の既存の通常設計に基づき、住民は通常使用コストを考慮して、空気調節を行う必要がある各部屋にそれぞれ独立した空調機を設置する。例えば、寝室、書斎とリビングルームにそれぞれの面積に適応するパワーを有する空調機を設置する。
空調 Air conditioning systems that provide air conditioning functions for multiple rooms are already widely used in residential and commercial facilities. Based on a kind of existing normal design, a building can have a set of large central air conditioning systems that provide unified heating or cooling for each independent room in the building be able to. In addition, for many ordinary homes, each home usually has a plurality of air conditioning rooms such as a bedroom, a study, and a living room. Based on another existing normal design, residents will install a separate air conditioner in each room that needs to be air-conditioned, considering the normal cost of use. For example, an air conditioner having power suitable for each area is installed in a bedroom, a study, and a living room.
上記の二種類の空調システムについて、現段階では、ユーザーは各台の空調機又は空調システムに対し手動制御を行うしかない。しかし、このような制御手段はユーザーのより快適な使用環境に対する高い需要を満たすことができない。特に、ユーザーは益々より個性化とインテリジェント化の制御を求めている。
For the above two types of air conditioning systems, at this stage, the user has no choice but to manually control each air conditioner or air conditioning system. However, such a control means cannot satisfy the high demand for a more comfortable use environment of the user. In particular, users are increasingly demanding control of personalization and intelligentization.
上記の従来技術に対する高い需要について、本発明では新しい空調制御システムと方法を提示し、ユーザーにより個性化とインテリジェント化の空調制御を体験できる空調制御システムと方法を提供することを目的としている。本発明は、一般家庭の個性化空調に応用できるだけではなく、大型セントラル空調システムにも適用可能である。
With respect to the high demand for the above-described conventional technology, the present invention presents a new air conditioning control system and method, and an object thereof is to provide an air conditioning control system and method that allows a user to experience personalized and intelligent air conditioning control. The present invention can be applied not only to personalized air conditioning in general households but also to large central air conditioning systems.
具体的には、本発明の一つの側面に係わる空調制御システムは、その一部が部屋内に設置された空調機及び前記空調機と通信を行う移動通信端末を備え、そのうち、前記空調機は少なくとも一台の室外機と少なくとも一台の室内機から構成され、前記移動通信端末はさらに通信モジュール、位置判断モジュール、制御モジュールを備え、前記移動通信端末は前記通信モジュールを介して前記空調機と通信接続を構築し、前記位置判断モジュールは前記移動通信端末と前記空調機の位置関係を確定し、前記制御モジュールは前記位置判断モジュールからの位置関係に基づき前記空調機に制御指令を送信する。
Specifically, an air conditioning control system according to one aspect of the present invention includes an air conditioner partially installed in a room and a mobile communication terminal that communicates with the air conditioner, of which the air conditioner is It is composed of at least one outdoor unit and at least one indoor unit, and the mobile communication terminal further includes a communication module, a position determination module, and a control module, and the mobile communication terminal is connected to the air conditioner via the communication module. A communication connection is established, the position determination module determines the positional relationship between the mobile communication terminal and the air conditioner, and the control module transmits a control command to the air conditioner based on the positional relationship from the position determination module.
好ましくは、上記空調制御システムにおいて、前記移動通信端末はGPSモジュールと入力インターフェースを備え、そのうち、ユーザーは前記入力インターフェースを介して前記空調機の地理位置データを設定且つ予め保存し、前記位置判断モジュールは予め保存した前記空調機の地理位置データを読み取ると同時に、前記GPSモジュールが採集した前記移動通信端末の地理位置データを読み取り、そのうち、前記位置判断モジュールは前記空調機の地理位置データ及び前記移動通信端末の地理位置データに基づき前記移動通信端末と前記空調機の間の距離を計算する。
Preferably, in the air conditioning control system, the mobile communication terminal includes a GPS module and an input interface, and a user sets and stores in advance geolocation data of the air conditioner via the input interface, and the position determination module. Reads the geo-location data of the air conditioner stored in advance and at the same time reads the geo-location data of the mobile communication terminal collected by the GPS module, of which the position determination module includes the geo-location data of the air conditioner and the movement A distance between the mobile communication terminal and the air conditioner is calculated based on the geographical position data of the communication terminal.
好ましくは、上記空調制御システムにおいて、前記制御モジュールは前記位置判断モジュールにより算出した距離と前記移動通信端末内に予め保存した距離の閾値を比較し、且つ比較した結果に基づき空調機にON又はOFFの制御指令を送信する。
Preferably, in the air conditioning control system, the control module compares the distance calculated by the position determination module with a distance threshold stored in advance in the mobile communication terminal, and turns on or off the air conditioner based on the comparison result. Send the control command.
好ましくは、上記空調制御システムにおいて、ユーザーは前記入力インターフェースを介して前記距離の閾値を設定する。
Preferably, in the air conditioning control system, the user sets the distance threshold via the input interface.
このほか、本発明のもう一つの側面に係わる空調制御方法において、空調機の地理位置情報を読み取る移動通信端末を備え、前記移動通信端末は自身の地理位置情報を採集し、前記移動通信端末の地理位置情報と前記空調機の地理位置情報に基づき前記移動通信端末と前記空調機間の距離を判断し、及び前記移動通信端末は前記距離に基づき前記空調機に制御指令を送信する。
In addition, in the air conditioning control method according to another aspect of the present invention, the mobile communication terminal includes a mobile communication terminal that reads the geographical position information of an air conditioner, the mobile communication terminal collects its own geographical position information, and the mobile communication terminal A distance between the mobile communication terminal and the air conditioner is determined based on the geographical position information and the geographical position information of the air conditioner, and the mobile communication terminal transmits a control command to the air conditioner based on the distance.
好ましくは、上記空調制御方法において、前記移動通信端末が前記距離に基づき前記空調機に制御指令を送信する前記ステップは、さらに、前記距離と移動通信端末に予め保存した距離の閾値とを比較するステップと、前記距離が前記距離の閾値より小さい又は等しい時に、前記移動通信端末は前記空調機にONの制御指令を出し、前記距離が前記距離の閾値より大きい時、前記移動通信端末は前記空調機にOFFの制御指令を送信する。
Preferably, in the air conditioning control method, the step in which the mobile communication terminal transmits a control command to the air conditioner based on the distance further compares the distance with a distance threshold stored in advance in the mobile communication terminal. And when the distance is less than or equal to the distance threshold, the mobile communication terminal issues an ON control command to the air conditioner, and when the distance is greater than the distance threshold, the mobile communication terminal Send an OFF control command to the machine.
好ましくは、上記空調制御方法において、前記距離の閾値はユーザーが前記移動通信端末の入力インターフェースを介して設定する。
Preferably, in the air conditioning control method, the distance threshold is set by a user via an input interface of the mobile communication terminal.
好ましくは、上記空調制御方法において、前記空調機の地理位置情報はユーザーが前記移動通信端末の入力インターフェースを介して設定と予め保存する。
Preferably, in the air conditioning control method, the geolocation information of the air conditioner is set and stored in advance by the user via the input interface of the mobile communication terminal.
本発明において、移動通信端末と空調機の間で位置連動を構築することにより、よりインテリジェント的にユーザーの相対位置に基づき空調機をON又はOFFにすることができる。このような設計はユーザーが家に近づいた時に予め空調機をONにし、より快適な室内の空気環境を提供することができると同時に、ユーザーが空調機を停止することを忘れて離れた時に自動的に空調機を停止させることができ、電力の浪費と潜在的な隠れた危険を避けることができる。
上記本発明の上記全体的な説明と以下の詳細な説明は、何れも例示的な説明であり、請求項に記載の本発明を更に解釈するためのものであることを理解すべきである。
図面も本発明をさらに理解するために提供したものであり、これらは本出願の一部を構成する。図面には本発明の実施例が示され、且つ本明細書と共に本発明の原理を解釈する役割を果たしている。 In the present invention, by constructing the position linkage between the mobile communication terminal and the air conditioner, the air conditioner can be turned on or off more intelligently based on the relative position of the user. Such a design can turn on the air conditioner in advance when the user approaches the house, providing a more comfortable indoor air environment, and at the same time automatically when the user forgets to stop the air conditioner The air conditioner can be shut down and power waste and potential hidden hazards can be avoided.
It is to be understood that both the foregoing general description of the invention and the following detailed description are exemplary and are intended to further interpret the invention as claimed.
The drawings are also provided for a further understanding of the invention, which forms part of the present application. The drawings illustrate embodiments of the invention and, together with the description, serve to interpret the principles of the invention.
上記本発明の上記全体的な説明と以下の詳細な説明は、何れも例示的な説明であり、請求項に記載の本発明を更に解釈するためのものであることを理解すべきである。
図面も本発明をさらに理解するために提供したものであり、これらは本出願の一部を構成する。図面には本発明の実施例が示され、且つ本明細書と共に本発明の原理を解釈する役割を果たしている。 In the present invention, by constructing the position linkage between the mobile communication terminal and the air conditioner, the air conditioner can be turned on or off more intelligently based on the relative position of the user. Such a design can turn on the air conditioner in advance when the user approaches the house, providing a more comfortable indoor air environment, and at the same time automatically when the user forgets to stop the air conditioner The air conditioner can be shut down and power waste and potential hidden hazards can be avoided.
It is to be understood that both the foregoing general description of the invention and the following detailed description are exemplary and are intended to further interpret the invention as claimed.
The drawings are also provided for a further understanding of the invention, which forms part of the present application. The drawings illustrate embodiments of the invention and, together with the description, serve to interpret the principles of the invention.
以下、図面を参照しながら本発明の実施形態についてさらに詳しく説明する。以下、本発明の好ましい実施例を参考にするが、これらの例は図面に示されている。如何なる可能な情況下、全ての図面で同じ符号で同一又は類似する部分を表記する。このほか、本発明で使用される専門用語は公知公用の専門用語から選択したものであるが、本発明の明細書で提示した一部の専門用語は出願者が彼又は彼女の判断により選択した可能性もあり、詳細な意味は本文で記載の関連部分で説明する。また、使用した実際の専門用語のみならず、各専門用語が含む意義で本発明を理解すべきである。
Hereinafter, embodiments of the present invention will be described in more detail with reference to the drawings. Reference will now be made to preferred embodiments of the invention, examples of which are illustrated in the drawings. In any possible situation, identical or similar parts are denoted by the same reference symbols in all drawings. In addition, the technical terms used in the present invention are selected from publicly known technical terms, but some technical terms presented in the specification of the present invention are selected by the applicant at his or her discretion. There is a possibility, and the detailed meaning will be explained in the relevant part described in the text. In addition, the present invention should be understood not only by the actual technical terms used, but also by the meanings included in each technical term.
空調制御システムの基本構造
図1には本発明による空調制御システムの構造概略図が示されている。図1に示されるように、本発明の空調制御システムは主に、空調機101、移動通信端末102、通信モジュール103、位置判断モジュール104及び制御モジュール105を含む。 Basic Structure of Air Conditioning Control System FIG. 1 is a schematic structural diagram of an air conditioning control system according to the present invention. As shown in FIG. 1, the air conditioning control system of the present invention mainly includes anair conditioner 101, a mobile communication terminal 102, a communication module 103, a position determination module 104, and a control module 105.
図1には本発明による空調制御システムの構造概略図が示されている。図1に示されるように、本発明の空調制御システムは主に、空調機101、移動通信端末102、通信モジュール103、位置判断モジュール104及び制御モジュール105を含む。 Basic Structure of Air Conditioning Control System FIG. 1 is a schematic structural diagram of an air conditioning control system according to the present invention. As shown in FIG. 1, the air conditioning control system of the present invention mainly includes an
図2及び図3に示すように、空調機101の一部は部屋内に設置されている。例えば、空調機101はセパレート型空調機であって、屋内に設置された室内機と屋外に設置された室外機を有する。特に、室内機と室外機の数は限定せず、任意に設置可能である。
移動通信端末102は空調機と通信を行うためのものであり、さらに通信モジュール103、位置判断モジュール104及び制御モジュール105を備える。移動通信端末102は通信モジュール103を介して空調機101と通信接続を構築する。位置判断モジュール104は移動通信端末102と空調機101との位置関係を確定する。制御モジュール105は位置判断モジュール104からの位置関係に基づき空調機101に制御指令を送信する。当該移動通信端末102は例えばiphone(登録商標)といった携帯電話であってもよく、例えばipad(登録商標)といったタブレット型コンピューター又は既に知られている移動通信装置であってもよい。 As shown in FIGS. 2 and 3, a part of theair conditioner 101 is installed in a room. For example, the air conditioner 101 is a separate type air conditioner, and includes an indoor unit installed indoors and an outdoor unit installed outdoors. In particular, the number of indoor units and outdoor units is not limited and can be arbitrarily set.
Themobile communication terminal 102 communicates with the air conditioner, and further includes a communication module 103, a position determination module 104, and a control module 105. The mobile communication terminal 102 establishes a communication connection with the air conditioner 101 via the communication module 103. The position determination module 104 determines the positional relationship between the mobile communication terminal 102 and the air conditioner 101. The control module 105 transmits a control command to the air conditioner 101 based on the positional relationship from the position determination module 104. The mobile communication terminal 102 may be a mobile phone such as iphone (registered trademark), and may be a tablet computer such as ipad (registered trademark) or a mobile communication device already known.
移動通信端末102は空調機と通信を行うためのものであり、さらに通信モジュール103、位置判断モジュール104及び制御モジュール105を備える。移動通信端末102は通信モジュール103を介して空調機101と通信接続を構築する。位置判断モジュール104は移動通信端末102と空調機101との位置関係を確定する。制御モジュール105は位置判断モジュール104からの位置関係に基づき空調機101に制御指令を送信する。当該移動通信端末102は例えばiphone(登録商標)といった携帯電話であってもよく、例えばipad(登録商標)といったタブレット型コンピューター又は既に知られている移動通信装置であってもよい。 As shown in FIGS. 2 and 3, a part of the
The
好適な実施例
本発明の一つの好適な実施例に基づき、移動通信端末102はGPSモジュール106と入力インターフェース107とを有することができる。当該GPSモジュール106はGPS地理位置データを提供するための従来のGPSコンポーネントであっても良い。
ユーザーは当該入力インターフェース107を介して空調機101の地理位置データを設定且つ予め保存する。例えば、一種類の方案に基づき、ユーザーはタッチパネル等のような入力インターフェース107を通じて空調機101の地理位置データ、例えば経緯度データを手動入力且つ予め保存する。又はもう一種類の方案に基づき、ユーザーは予め移動通信端末102を空調機101の位置に設置し、当該移動通信端末102のGPSモジュール106が現在の地理位置データ(例えば、経緯度データ)を識別した時、ユーザーはタッチパネル等のような入力インターフェース107を通じて当該空調機101の地理位置データを現在の地理位置データに設定し、且つ予め保存する。或いは、ウェブマップサービス(例えば、Google(登録商標) map等)を通じて住所を入力することにより地理位置データを獲得し、これにより、位置判断モジュール104は予め保存した空調機101の地理位置データを読み取ることができ、当該位置判断モジュール104はさらにGPSモジュール106が採集した移動通信端末102の地理位置データを読み取ることもできる。当該位置判断モジュール104は空調機101の地理位置データ及び移動通信端末102の地理位置データに基づき移動通信端末102と空調機101の間の距離を計算すると理解することができる。 Preferred Embodiment In accordance with one preferred embodiment of the present invention, themobile communication terminal 102 can include a GPS module 106 and an input interface 107. The GPS module 106 may be a conventional GPS component for providing GPS geolocation data.
The user sets and stores in advance the geolocation data of theair conditioner 101 via the input interface 107. For example, based on one type of plan, the user manually inputs and stores in advance geolocation data of the air conditioner 101, such as longitude and latitude data, through the input interface 107 such as a touch panel. Alternatively, based on another method, the user installs the mobile communication terminal 102 at the position of the air conditioner 101 in advance, and the GPS module 106 of the mobile communication terminal 102 identifies the current geolocation data (for example, longitude and latitude data). At this time, the user sets the geolocation data of the air conditioner 101 to the current geolocation data through the input interface 107 such as a touch panel, and saves it beforehand. Alternatively, the geographical position data is obtained by inputting an address through a web map service (for example, Google (registered trademark) map), whereby the position determination module 104 reads the pre-stored geographical position data of the air conditioner 101. The position determination module 104 can further read the geographical position data of the mobile communication terminal 102 collected by the GPS module 106. It can be understood that the position determination module 104 calculates the distance between the mobile communication terminal 102 and the air conditioner 101 based on the geographical position data of the air conditioner 101 and the geographical position data of the mobile communication terminal 102.
本発明の一つの好適な実施例に基づき、移動通信端末102はGPSモジュール106と入力インターフェース107とを有することができる。当該GPSモジュール106はGPS地理位置データを提供するための従来のGPSコンポーネントであっても良い。
ユーザーは当該入力インターフェース107を介して空調機101の地理位置データを設定且つ予め保存する。例えば、一種類の方案に基づき、ユーザーはタッチパネル等のような入力インターフェース107を通じて空調機101の地理位置データ、例えば経緯度データを手動入力且つ予め保存する。又はもう一種類の方案に基づき、ユーザーは予め移動通信端末102を空調機101の位置に設置し、当該移動通信端末102のGPSモジュール106が現在の地理位置データ(例えば、経緯度データ)を識別した時、ユーザーはタッチパネル等のような入力インターフェース107を通じて当該空調機101の地理位置データを現在の地理位置データに設定し、且つ予め保存する。或いは、ウェブマップサービス(例えば、Google(登録商標) map等)を通じて住所を入力することにより地理位置データを獲得し、これにより、位置判断モジュール104は予め保存した空調機101の地理位置データを読み取ることができ、当該位置判断モジュール104はさらにGPSモジュール106が採集した移動通信端末102の地理位置データを読み取ることもできる。当該位置判断モジュール104は空調機101の地理位置データ及び移動通信端末102の地理位置データに基づき移動通信端末102と空調機101の間の距離を計算すると理解することができる。 Preferred Embodiment In accordance with one preferred embodiment of the present invention, the
The user sets and stores in advance the geolocation data of the
続いて、当該算出した距離は制御モジュール105に伝送される。当該制御モジュール105は位置判断モジュール104により算出された距離と移動通信端末102内に予め保存した距離の閾値を比較する。当該距離の閾値は室内又は室外であるかを区分するのに用いることができる。例えば、当該距離が距離の閾値より小さい又は等しい時に、ユーザーは現在室内にいると確定することができ、よって制御モジュール105は空調機101にONの制御指令を送信する。当該距離が距離の閾値より大きい時に、ユーザーは現在室外にいると確定することができ、よって制御モジュール105は空調機101にOFFの制御指令を送信する。
言い換えれば、例えば図2に示される情況では、移動通信装置102を持ったユーザーが家に戻る際、当該ユーザーが家に近づいた時に本発明の空調制御システムは予め空調機101をONにすることにより、ユーザーが家に到着した時により快適な室内の空気環境を提供することができる。 Subsequently, the calculated distance is transmitted to thecontrol module 105. The control module 105 compares the distance calculated by the position determination module 104 with a distance threshold value stored in advance in the mobile communication terminal 102. The distance threshold can be used to distinguish between indoors and outdoors. For example, when the distance is less than or equal to the distance threshold, the user can be determined to be currently in the room, and thus the control module 105 sends an ON control command to the air conditioner 101. When the distance is greater than the distance threshold, it can be determined that the user is currently outdoors, and the control module 105 transmits an OFF control command to the air conditioner 101.
In other words, for example, in the situation shown in FIG. 2, when the user with themobile communication device 102 returns to the house, the air conditioning control system of the present invention turns on the air conditioner 101 in advance when the user approaches the house. Thus, a more comfortable indoor air environment can be provided when the user arrives at home.
言い換えれば、例えば図2に示される情況では、移動通信装置102を持ったユーザーが家に戻る際、当該ユーザーが家に近づいた時に本発明の空調制御システムは予め空調機101をONにすることにより、ユーザーが家に到着した時により快適な室内の空気環境を提供することができる。 Subsequently, the calculated distance is transmitted to the
In other words, for example, in the situation shown in FIG. 2, when the user with the
逆に、例えば図3に示された情況下、例えば、移動通信装置102を持ったユーザーが外出したが空調機101を停止させることを忘れた際、本発明の空調制御システムは移動通信装置102と空調機101間の距離が予め保存した距離の閾値より大きい時、即ち、ユーザーが既に室外にいると確定した時に、自動的に当該空調機101を停止させることで、電力の浪費と潜在的な電気関連事故を避けることができる。
このほか、図1に示された実施例において、ユーザーは移動通信端末102の入力インターフェース107を介して上記距離の閾値を設定することができる。勿論、ユーザーは当該入力インターフェース107を介して他の操作パラメータを設定することもできる。例えば、ユーザーは上記温度差と出力パワー又は風量間の関係に基づいて、個性化設定を行うことができる。 On the other hand, for example, in the situation shown in FIG. 3, for example, when the user who has themobile communication device 102 goes out but forgets to stop the air conditioner 101, the air conditioning control system of the present invention has the mobile communication device 102. When the distance between the air conditioner 101 and the air conditioner 101 is larger than the distance threshold stored in advance, that is, when it is determined that the user is already in the room, the air conditioner 101 is automatically stopped, thereby wasting power and potential. To avoid electrical accidents.
In addition, in the embodiment shown in FIG. 1, the user can set the distance threshold via theinput interface 107 of the mobile communication terminal 102. Of course, the user can also set other operation parameters via the input interface 107. For example, the user can set personalization based on the relationship between the temperature difference and the output power or the air volume.
このほか、図1に示された実施例において、ユーザーは移動通信端末102の入力インターフェース107を介して上記距離の閾値を設定することができる。勿論、ユーザーは当該入力インターフェース107を介して他の操作パラメータを設定することもできる。例えば、ユーザーは上記温度差と出力パワー又は風量間の関係に基づいて、個性化設定を行うことができる。 On the other hand, for example, in the situation shown in FIG. 3, for example, when the user who has the
In addition, in the embodiment shown in FIG. 1, the user can set the distance threshold via the
空調制御方法
以下、図4A~図4Bに基づいて、本発明の空調制御方法を詳しく述べる。図4Aには本発明の空調制御方法によるフローチャートが示されている。図4Aに示されているように、本発明の空調制御方法400は、まず移動通信端末102により空調機101の地理位置情報を読み取るステップを含む(ステップ401)。続いて、移動通信端末102が自身の地理位置情報を読み取る(ステップ402)。例えば、上記のように、当該空調機101の地理位置情報は、好ましくはユーザーが移動通信端末の入力インターフェースを介して設定且つ予め保存したものである。その後、移動通信端末102の地理位置情報と空調機101の地理位置情報に基づき移動通信端末102と空調機101の間の距離を判断する(ステップ403)。最後に、当該移動通信端末102は当該距離に基づき空調機101に制御指令を送信することができる(ステップ404)。 Air Conditioning Control Method Hereinafter, the air conditioning control method of the present invention will be described in detail based on FIGS. 4A to 4B. FIG. 4A shows a flowchart according to the air conditioning control method of the present invention. As shown in FIG. 4A, the airconditioning control method 400 of the present invention first includes a step of reading the geographical position information of the air conditioner 101 by the mobile communication terminal 102 (step 401). Subsequently, the mobile communication terminal 102 reads its own geographical position information (step 402). For example, as described above, the geographical position information of the air conditioner 101 is preferably set and stored in advance by the user via the input interface of the mobile communication terminal. Thereafter, the distance between the mobile communication terminal 102 and the air conditioner 101 is determined based on the geographical position information of the mobile communication terminal 102 and the geographical position information of the air conditioner 101 (step 403). Finally, the mobile communication terminal 102 can transmit a control command to the air conditioner 101 based on the distance (step 404).
以下、図4A~図4Bに基づいて、本発明の空調制御方法を詳しく述べる。図4Aには本発明の空調制御方法によるフローチャートが示されている。図4Aに示されているように、本発明の空調制御方法400は、まず移動通信端末102により空調機101の地理位置情報を読み取るステップを含む(ステップ401)。続いて、移動通信端末102が自身の地理位置情報を読み取る(ステップ402)。例えば、上記のように、当該空調機101の地理位置情報は、好ましくはユーザーが移動通信端末の入力インターフェースを介して設定且つ予め保存したものである。その後、移動通信端末102の地理位置情報と空調機101の地理位置情報に基づき移動通信端末102と空調機101の間の距離を判断する(ステップ403)。最後に、当該移動通信端末102は当該距離に基づき空調機101に制御指令を送信することができる(ステップ404)。 Air Conditioning Control Method Hereinafter, the air conditioning control method of the present invention will be described in detail based on FIGS. 4A to 4B. FIG. 4A shows a flowchart according to the air conditioning control method of the present invention. As shown in FIG. 4A, the air
第一実施例
好ましくは、図4Bに示されているように、上記の手順において、ステップ404はさらに上記移動通信端末102と空調機101間の距離と予め移動通信端末102に保存した距離の閾値と比較するステップを含む。上記距離が当該距離の閾値より小さい又は等しい時、移動通信端末102は空調機101にONの制御指令を送信する(ステップ406)。逆に、上記距離が当該距離の閾値より大きい時、移動通信端末102は空調機101にOFFの制御指令を送信する First Embodiment Preferably, as shown in FIG. 4B, in the above procedure, step 404 further includes a distance between themobile communication terminal 102 and the air conditioner 101, and a threshold of the distance previously stored in the mobile communication terminal 102. And comparing with. When the distance is smaller than or equal to the distance threshold, the mobile communication terminal 102 transmits an ON control command to the air conditioner 101 (step 406). Conversely, when the distance is larger than the distance threshold, the mobile communication terminal 102 transmits an OFF control command to the air conditioner 101.
好ましくは、図4Bに示されているように、上記の手順において、ステップ404はさらに上記移動通信端末102と空調機101間の距離と予め移動通信端末102に保存した距離の閾値と比較するステップを含む。上記距離が当該距離の閾値より小さい又は等しい時、移動通信端末102は空調機101にONの制御指令を送信する(ステップ406)。逆に、上記距離が当該距離の閾値より大きい時、移動通信端末102は空調機101にOFFの制御指令を送信する First Embodiment Preferably, as shown in FIG. 4B, in the above procedure, step 404 further includes a distance between the
(ステップ407)。
前に述べたように、上記実施例において、距離の閾値はユーザーが移動通信端末の入力インターフェースを介して設定することができる。即ち、ユーザーは室内にいるか又は室外にいるかを区分するための距離の閾値を任意に設定することができる。 (Step 407).
As described above, in the above embodiment, the distance threshold can be set by the user via the input interface of the mobile communication terminal. That is, the user can arbitrarily set a distance threshold value for distinguishing between indoors and outdoors.
前に述べたように、上記実施例において、距離の閾値はユーザーが移動通信端末の入力インターフェースを介して設定することができる。即ち、ユーザーは室内にいるか又は室外にいるかを区分するための距離の閾値を任意に設定することができる。 (Step 407).
As described above, in the above embodiment, the distance threshold can be set by the user via the input interface of the mobile communication terminal. That is, the user can arbitrarily set a distance threshold value for distinguishing between indoors and outdoors.
当該分野の技術者は、本発明に係わる上記の例示的実施例について発明の要旨を逸脱しない範囲で変更と取替えを行うことができることをはっきりと分かる。このため、請求項及び同様な効果を有する技術方案範囲内で本発明に対する改善と取替えは何れも本発明の保護範囲に属していると理解すべきである。
Those skilled in the art clearly understand that the above exemplary embodiments according to the present invention can be changed and replaced without departing from the spirit of the invention. Therefore, it should be understood that all improvements and replacements of the present invention belong to the protection scope of the present invention within the scope of the claims and the technical solution having the same effect.
本発明はユーザーに空調システムに対する遠距離制御体験を提供できる空調制御システム及び空調制御方法として有用である。
The present invention is useful as an air conditioning control system and an air conditioning control method that can provide a user with a long-distance control experience for the air conditioning system.
101 空調機
102 移動通信端末
103 通信モジュール
104 位置判断モジュール
105 制御モジュール
106 GPSモジュール
107 入力インターフェース101 Air conditioner 102 Mobile communication terminal 103 Communication module 104 Position determination module 105 Control module 106 GPS module 107 Input interface
102 移動通信端末
103 通信モジュール
104 位置判断モジュール
105 制御モジュール
106 GPSモジュール
107 入力インターフェース
Claims (8)
- 一種の空調制御システムにおいて、その特徴は
一部は部屋内に設置された空調機であって、前記空調機は少なくとも一台の室外機と少なくとも一台の室内機とから構成されたものと、
前記空調機と通信を行う移動通信端末と、を備え、
そのうち、前記移動通信端末はさらに、
通信モジュールと、
前記移動通信端末と前記空調機の位置関係を確定する位置判断モジュールと、
前記位置判断モジュールからの位置関係に基づき前記空調機に制御指令を送信する前記制御モジュールと、を備え、
前記移動通信端末は前記通信モジュールを介して前記空調機と通信接続を構築する空調制御システム。 In one type of air conditioning control system, the feature is partly an air conditioner installed in a room, the air conditioner comprising at least one outdoor unit and at least one indoor unit,
A mobile communication terminal for communicating with the air conditioner,
Among them, the mobile communication terminal further
A communication module;
A position determination module for determining a positional relationship between the mobile communication terminal and the air conditioner;
The control module that transmits a control command to the air conditioner based on the positional relationship from the position determination module,
The mobile communication terminal is an air conditioning control system that establishes a communication connection with the air conditioner via the communication module. - 前記移動通信端末はGPSモジュールと入力インターフェースとを有し、
そのうち、ユーザーは前記入力インターフェースを介して前記空調機の地理位置データを設定且つ予め保存し、前記位置判断モジュールは予め保存した前記空調機の地理位置データを読み取り、且つGPSモジュールで採集した前記移動通信端末の地理位置データを読み取り、
そのうち、前記位置判断モジュールは前記空調機の地理位置データ及び前記移動通信端末の地理位置データに基づき、前記移動通信端末と前記空調機との間の距離を計算する、ことを特徴とする請求項1に記載の空調制御システム。 The mobile communication terminal has a GPS module and an input interface,
Among them, the user sets and stores in advance the geo-location data of the air conditioner through the input interface, the position determination module reads the geo-location data of the air-conditioner stored in advance, and the movement collected by the GPS module Read the geolocation data of the communication terminal,
The position determination module calculates a distance between the mobile communication terminal and the air conditioner based on the geographical position data of the air conditioner and the geographical position data of the mobile communication terminal. 1. The air conditioning control system according to 1. - 前記制御モジュールは、前記位置判断モジュールにより算出した距離と前記移動通信端末内に予め保存した距離の閾値を比較し、且つ比較した結果に基づき前記空調機にON又はOFFの制御指令を送信する、ことを特徴とする請求項2に記載の空調制御システム。 The control module compares the distance calculated by the position determination module with a threshold of a distance stored in advance in the mobile communication terminal, and transmits an ON or OFF control command to the air conditioner based on the comparison result. 3. The air conditioning control system according to claim 2, wherein
- ユーザーは前記入力インターフェースを介して前記距離の閾値を設定する、ことを特徴とする請求項3に記載の空調制御システム。 4. The air conditioning control system according to claim 3, wherein a user sets a threshold value of the distance via the input interface.
- 一種の空調制御方法であって、
移動通信端末により空調機の地理位置情報を読み取るステップと、
前記移動通信端末が自身の地理位置情報を採集するステップと、
前記移動通信端末の地理位置情報と前記空調機の地理位置情報に基づき前記移動通信端末と前記空調機との間の距離を判断するステップと、
前記移動通信端末が前記距離に基づき前記空調機に制御指令を送信するステップと、を含むことを特徴とする空調制御方法。 A kind of air conditioning control method,
Reading the geolocation information of the air conditioner by the mobile communication terminal;
The mobile communication terminal collecting its own geolocation information;
Determining a distance between the mobile communication terminal and the air conditioner based on the geolocation information of the mobile communication terminal and the geolocation information of the air conditioner;
The mobile communication terminal includes a step of transmitting a control command to the air conditioner based on the distance. - 前記移動通信端末が前記距離に基づき前記空調機に制御指令を送信するステップはさらに、
前記距離と移動通信端末に予め保存した距離の閾値とを比較するステップと、
前記距離が前記距離の閾値より小さい又は等しい時に、前記移動通信端末は前記空調機にONの制御指令を出し、
前記距離が前記距離の閾値より大きい時、前記移動通信端末は前記空調機にOFFの制御指令を送信するステップを含む、ことを特徴とする請求項5に記載の空調制御方法。 The step of transmitting a control command to the air conditioner based on the distance by the mobile communication terminal further includes
Comparing the distance with a distance threshold previously stored in the mobile communication terminal;
When the distance is less than or equal to the distance threshold, the mobile communication terminal issues an ON control command to the air conditioner,
6. The air conditioning control method according to claim 5, further comprising a step of transmitting an OFF control command to the air conditioner when the distance is greater than the distance threshold. - 前記距離の閾値はユーザーが前記移動通信端末の入力インターフェースを介して設定する、ことを特徴とする請求項6に記載の空調制御方法。 The air-conditioning control method according to claim 6, wherein the user sets the threshold value for the distance via an input interface of the mobile communication terminal.
- 前記空調機の地理位置情報はユーザーが前記移動通信端末の入力インターフェースを介して設定し、且つ予め保存する、ことを特徴とする請求項6に記載の空調制御方法。 The air conditioning control method according to claim 6, wherein the geo-location information of the air conditioner is set by a user via the input interface of the mobile communication terminal and stored in advance.
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