JP2011052851A - Cooperative airflow control device and its program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cooperative airflow control device effectively controlling airflow. <P>SOLUTION: This cooperative airflow control device for controlling the flow of indoor air in cooperation with one or more airflow generating devices 110, has: a device information receiving means 101 receiving device information of the airflow generating devices 110; a device information storage means 102 which stores the received device information, a priority order setting means 103 which sets priority order of the airflow generating devices 110; a control content determining means 104 which determines the control content of a device body and/or the control content of the cooperating airflow generating device 110 from the device information stored in the device information storage means 102 and from the priority order of the airflow generating devices 110 set by the priority order setting means 103; and a control content notification means 105 which transmits the control content determined by the control content determining means 104 to the cooperating airflow generating device 110. The effective airflow control content in accordance with indoor environment and users' need is determined on the basis of the device information and the priority order. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a cooperative airflow control device and a program for controlling the flow of indoor air while cooperating with one or more airflow generation devices in a home.

  As a conventional cooperative airflow control device of this type, for example, by operating an airflow generating device that can generate an airflow in a room such as an air conditioner, an air purifier, or a blower, By operating these plural devices in combination, there has been proposed one that controls the air flow in the entire room and effectively enhances the air conditioning effect and the cleaning effect.

For example, as shown in patent document 1, it arrange | positions so that the suction inlet of an air cleaner may face the arrival position of the blowing airflow of an air conditioner, and the blowing airflow of an air cleaner follows a floor surface and a wall surface of a room. A cooperative airflow control device has been proposed in which an air-conditioned atmosphere and a clean atmosphere are effectively generated by flowing and reaching the suction part of the air conditioner.
In addition, various indoor airflow control methods combining a plurality of devices have been proposed, such as the cooperative airflow control device described in Patent Literature 2, Patent Literature 3, and the like.

JP 2002-174441 A JP-A-7-63390 Japanese Utility Model Publication No. 6-59726

  However, in the configuration of the conventional cooperative airflow control device as described in Patent Documents 1 to 3, it is possible to combine a plurality of airflow generation devices to form a steady airflow. It has been difficult to control the airflow in accordance with the change timing of the indoor environment, such as the timing at which the dust is rolled up by the movement, the dust entering by the opening and closing of the door, and the occurrence of a temperature difference. For this reason, even if a change in the indoor environment occurs, the same operation is performed, so that when the indoor environment is different from the state set in the initial condition at the time of installation, there is a problem that the effect of the air current cannot be obtained. there were. Further, for example, it is difficult to effectively switch the airflow control in accordance with user needs such as when it is desired to enhance the air conditioning effect according to user needs or when it is desired to enhance the cleaning effect.

  The present invention solves the above-described conventional problems, and a cooperative airflow control device capable of effectively controlling airflow according to user needs according to changes in the indoor environment and operating conditions of an air conditioner, and the like. An object is to provide a program for causing a computer to realize the program.

In order to solve the above-described conventional problems, a cooperative airflow control device of the present invention is a cooperative airflow control device that controls the flow of indoor air by cooperating with one or more airflow generation devices. Device information receiving means for receiving device information, device information storage means for storing the device information received by the device information receiving means, and priority order setting means for setting a priority order of the one or more airflow generating devices; From the device information stored in the device information storage unit and the priority order of the airflow generation device set by the priority order setting unit, the control content of the main body and / or the control content of the airflow generation device to be linked Control content determination means for determining the control content, and control content notification means for transmitting the control content determined by the control content determination means to the airflow generating device to be linked. From the information and priority, depending on the room environment, can be further determines the control content of the effective airflow meet the needs of the user. In addition, since the control content can be transmitted to the airflow generation device that cooperates, the device that performs airflow control can operate in cooperation. For example, the temperature measured by the airflow generation device that cooperates The flow direction and flow rate are changed according to environmental information such as humidity, humidity, and human body detection information, and the flow of airflow is controlled according to the priority of the airflow generation device during air conditioning operation. Since more detailed airflow control is possible, an effective airflow adapted to environmental changes can be formed. By creating an effective airflow, for example, the air in the room can be agitated more efficiently than in the past, so it is possible to obtain an energy-saving effect that enhances the air conditioning effect with less power, and to reduce the amount of air blown out By doing so, it is possible to obtain an effect of increasing comfort by reducing direct user feeling of the wind.

  Moreover, the program of this invention is for making a computer implement | achieve at least one part of the cooperation airflow control apparatus of any one of Claims 1-9, Comprising: A cooperation airflow control apparatus using a general purpose computer All or part of the above can be easily realized.

  The cooperative airflow control device of the present invention can effectively control indoor airflow by operating a plurality of airflow generating devices in cooperation with each other according to the timing of changes in the indoor environment and further according to user needs. Therefore, it becomes possible to improve indoor comfort and energy saving performance as a whole operating device.

The figure which shows the structure of the cooperation airflow control apparatus and airflow generation apparatus in Embodiment 1 of this invention. The figure which shows the example which tells the control contents from the cooperation airflow control device to the airflow generation equipment The flowchart which shows the example which receives apparatus information and notifies the control content in the cooperation airflow control apparatus The figure which shows the example provided with the ventilation means in the cooperation airflow control apparatus The figure which shows the example which provided the dust collection means in the cooperation airflow control apparatus The figure which shows the structure of the cooperation airflow control apparatus and airflow generation apparatus in Embodiment 2 of this invention. The figure which shows the example which tells the control contents from the cooperation airflow control device to the airflow generation equipment The figure which shows the structure of the cooperation airflow control apparatus and airflow generation apparatus in Embodiment 3 of this invention. The figure which shows the example which tells the control contents from the cooperation airflow control device to the airflow generation equipment A top view of the room where the airflow control device is installed The figure which shows the structure of the cooperation airflow control apparatus and airflow generation apparatus in Embodiment 4 of this invention. The perspective view which shows the structure of the cooperation airflow control apparatus

1st invention is the cooperation airflow control apparatus which controls the flow of indoor air by cooperating with 1 or more airflow generation apparatuses, The apparatus information receiving means which receives the apparatus information of the said airflow generation apparatus, The said apparatus Device information storage means for storing the device information received by the information receiving means, priority order setting means for setting the priority order of the one or more airflow generating devices, and the device information stored in the device information storage means Control content determining means for determining the control content of the main body and / or the control content of the airflow generating device to be linked from the priority order of the airflow generating device set by the priority order setting means, and the control content determination Control content notifying means for transmitting the control content determined by the means to the airflow generating device to be linked, according to the indoor environment from the device information and priority. It is possible to determine the contents of control of effective airflow meet the needs of users. In addition, since the control content can be transmitted to the airflow generation device that cooperates, the device that performs airflow control can operate in cooperation. For example, the temperature measured by the airflow generation device that cooperates The air flow is controlled according to the operation content that prioritizes the air-conditioning operation at the time of air-conditioning operation according to the priority of the air-flow generating device, changing the wind direction and air volume according to environmental information such as humidity, human body detection information, etc. Since more detailed airflow control is possible, an effective airflow adapted to environmental changes can be formed. By creating an effective air flow, for example, the air in the room can be agitated more efficiently than before, so energy saving effect that enhances the air conditioning effect with less power can be obtained, and the amount of air blown out can be reduced By doing so, it is possible to obtain an effect of reducing the feeling of the wind directly by the user and enhancing the comfort.

  In the second invention, in particular, the priority setting means of the first invention changes the priority set according to the season and / or time zone, and controls the priority according to the season and / or time zone. For example, in the summer and winter, the air conditioner can be prioritized by increasing the priority of the air conditioner that is the airflow generator, and the air that is the airflow generator is used at midnight. By increasing the priority of the cleaner, it is possible to perform flexible control according to the season and time zone to be used so that the air cleaning atmosphere is preferentially performed.

  In the third invention, in particular, the device information receiving means of the first or second invention periodically receives device information of the airflow generating device, and the device information of the associated airflow generating device changes. The control content determining means determines the control content according to the changed device information, and even if the indoor environmental change occurs, the air flow can be effectively controlled according to the environmental change. It becomes like this.

  In particular, the fourth aspect of the invention is provided with the air blowing means for creating the airflow in the room according to any one of the first to third aspects of the invention so that it can be controlled while generating the airflow together with the associated airflow generation device. become. Further, even when the associated airflow generation device does not operate, the airflow can be controlled by operating alone.

  The fifth invention is particularly equipped with dust collecting means for collecting the dust floating in the air of any one of the first to fourth inventions and purifying the indoor air. By creating a flow that circulates the airflow in the cooperative airflow control device main body, dust can be collected effectively.

  In particular, the sixth invention includes position detection means for detecting the position of the airflow generation device according to any one of the first to fifth inventions, and in addition to the device information of the airflow generation device, the position detection means Based on the detected position information, the control content determining means determines the control content of the main body and / or the control content of the airflow generating device to be linked, and the effective airflow according to the position of the airflow generating device to be linked is determined. The control content can be determined.

In particular, the seventh invention comprises floor plan information acquisition means for acquiring floor plan information such as the shape of the empty space in any one of the first to sixth aspects of the invention, in addition to the device information of the airflow generation device, From the floor plan information, the control content determination means determines the control content of the main body and / or the control content of the airflow generation device to be linked, and the device information and the priority order acquired by the device information acquisition means In addition to the priority set by the setting means, the control content determination means determines the control content of the main body and / or the control content of the airflow generation device to be linked in consideration of the floor plan from the floor plan information. Will be able to.

  In particular, the eighth invention includes notifying means for notifying the user of the device information of the airflow generating device according to any one of the first to seventh inventions, and notifies the user of the state of the airflow generating device associated with the user. Will be able to.

  In the ninth aspect of the invention, in particular, the control content notifying means of any one of the first to eighth aspects notifies the control content to the airflow generating device by radio communication using radio waves or infrared light. Can be easily linked with an airflow generating device installed in the machine, and installation work can be reduced.

  A program according to a tenth invention is a program for causing a computer to realize at least a part of the cooperative airflow control device according to any one of claims 1 to 9, and uses a general-purpose computer to perform cooperative airflow control. All or part of the apparatus can be easily realized.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the present embodiment.

(Embodiment 1)
FIG. 1 is a diagram showing the configuration of a cooperative airflow control device and an airflow generation device according to Embodiment 1 of the present invention, and FIG. 2 is a diagram showing an example in which control contents are transmitted from the cooperative airflow control device to an airflow generation device. 3 is a flowchart showing an example in which device information is received and the control content is notified in the cooperative airflow control device, FIG. 4 is a diagram showing an example in which the cooperative airflow control device is provided with air blowing means, and FIG. It is a figure which shows the example which provided the dust collection means in the cooperation airflow control apparatus.

  In FIG. 1, the cooperative airflow control device 100 according to the present embodiment cooperates with at least one airflow generation device 110 that can generate an airflow in a room such as an air conditioner, an air purifier, or a blower. By controlling the flow of indoor air, the device information of the air flow generation device 110, for example, sensor information such as human body detection, temperature, humidity, gas concentration, dust amount, air flow, wind direction, and operation mode The device information receiving unit 101 that receives operation information such as the device information, the device information storage unit 102 that stores the device information of the airflow generation device 110 received by the device information reception unit 101, and one or more linked airflow generation devices 110 Priority order setting means 103 for setting the priority order of the device information, and the device information stored in the device information storage means 102 and the priority order setting means 103. The control content determining means 104 for determining the control content of the main body and / or the control content of the airflow generating device 110 to be linked from the priority order of the current air flow generating device 110 and the control content determined by the control content determining means 104 are linked. The control content notifying means 105 to be transmitted to the airflow generating device 110 is determined, and the effective airflow control content that further meets the needs of the user is determined from the device information and priority according to the indoor environment. Will be able to.

  The airflow generation device 110 may have any configuration as long as it can generate airflow indoors. For example, the device information acquisition unit 111 that acquires device information of the airflow generation device 110 Control for receiving device information notification means 112 for notifying the device information acquired by the device information acquisition means 111 to the cooperative airflow control device 100 and control content information notified by the control content notification means 105 of the cooperative airflow control device 100 The contents receiving means 113 and the airflow generating means 114 for executing the control contents received by the control contents receiving means 113 can be configured. Details of each component will be described below.

The device information receiving means 101 is device information notified by the device information notifying means 112 of the airflow generating device 110, for example, human body detection information detected by a human body detection sensor (not shown),
Temperature information detected by a temperature sensor (not shown), humidity information detected by a humidity sensor (not shown), a gas concentration value detected by a gas concentration sensor (not shown), and a dust sensor (not shown) ), Sensor information such as the amount of dust detected, and the operation information such as the air volume, wind direction, and operation mode in which the airflow generation device 110 is operating, such as a specific low-power radio or a wireless LAN. Devices notified from the airflow generating device 110 such as wireless communication that performs communication using radio waves, PLC communication that sends information signals on home electrical wiring (power lines), and wired communication that uses telephone lines Any communication configuration may be used as long as it can receive an information signal.

  The device information storage unit 102 has a function of storing information on the airflow generation device 110 received by the device information receiving unit 101. In addition, by storing a history of device information received in the past, the control content determination means 104 can be used when determining the control content. Examples of the medium include a flash memory represented by an SD card, a DDR memory used in combination with a CPU, a hard disk, and an optical disk.

  Further, it is possible to configure at low cost by using a flash memory built in the CPU. In addition, by using a wireless technology such as a wireless LAN or Bluetooth, a memory provided outside a server or the like can be used. Furthermore, it is possible to deal with information on airflow generation devices newly added by connecting to an SD card or a server on the WEB from the outside.

  The priority order setting means 103 sets the priority order of the airflow generation devices 110 that cooperate with each other. For example, when an air conditioner, an air purifier, and a blower are set in the cooperative airflow control device 100 as an airflow generator to be linked, the first is the air conditioner, the second is the air cleaner, and the third is the airflow generator. For example, it is possible to store the priority order in advance in a memory such as software or EEPROM such as a blower, or display a list of devices on which the priority order can be set on the liquid crystal screen, and the user can set the priority order on the keyboard. The priority order of the airflow generation devices 110 that can be linked can be set, for example, by inputting with a touch panel or a touch panel.

  In addition, any configuration may be used as long as priority can be set, such as setting of priority by a DIP switch for setting. Further, the priority order setting means 103 has a built-in calendar function and clock function, or is configured to automatically switch the priority order according to the season and time zone by referring to the other structure. Is also possible. For example, in summer and winter, to prioritize the air-conditioning effect, increase the priority of the air conditioner, and to prioritize the cleaning effect at night time, prioritize the air cleaner. Can be high.

  The control content determination means 104 is composed of, for example, a CPU and a memory. In accordance with the device information stored in the device information storage unit 102 and / or the priority order setting of the priority order setting unit 103, the control content of the airflow generation device 110 to be linked is determined.

  For example, when the apparatus information from the airflow generation device 110 (air conditioner and air purifier) is received as the airflow generation device 110 as shown in FIG. If the air cleaner is higher than the priority of the air purifier, the air purifier is controlled to operate so as to weaken the air flow generated by the air conditioner so as not to disturb the air flow generated by the air conditioner. Depending on the wind direction of the air conditioner, for example, in the case of heating, when the wind direction of the air conditioner is facing downward, It can be configured to control so as to avoid collisions.

  In addition, about the composition content of air current, for example, when giving priority to the air conditioning effect (air conditioning atmosphere), to make the control content to stir the air of the entire room, or when giving priority to the cleaning effect (clean atmosphere) It is configured so as to obtain an effect of enhancing the cleaning ability of the air purifier by generating an air flow that transfers dust in the air to the air purifier side, such as blowing the air flow of the air conditioner on the floor surface etc. It is possible.

  In addition, depending on the purpose, for example, when the human body detection information of the air conditioner detects a human body, it is operated to increase the air conditioning effect, or when the human body detection information stops detecting the human body It is also possible to operate to enhance the cleaning effect, and by controlling the airflow generation device 110 in cooperation with the combination of device information and priority, it is possible to create an airflow that meets the purpose. Thus, an air-conditioned atmosphere, a clean atmosphere, and the like can be generated effectively.

  Other configurations such as a one-chip microcomputer with a single CPU and memory, and other computations such as an FPGA and a DSP may be used. Further, by configuring with a recording device such as an HDD, a DVD, or a flash memory, it is possible to perform complicated processing that uses a large amount of memory capacity.

  The control content notifying means 105 transmits a signal that can be received as operation information by the airflow generation device 110. For example, in the case of the airflow generation device 110 that can receive an infrared remote control signal, an infrared ray such as an infrared LED is transmitted. It is possible to select an electronic component that can be used. In addition, any device that can be operated with a radio signal can select an electronic component that transmits the radio signal, and power line carrier communication using an existing power line may be used. Any device can be used as long as the airflow generation device 110 can output a signal that can be received as operation information. In addition, the device information receiving unit 101 and the control content notifying unit 105 can be configured as a single unit by providing a configuration with notification (transmission) and reception functions.

  The device information acquisition unit 111 acquires device information of the airflow generation device 110. For example, human body detection information by a human body detection sensor (not shown), temperature information by a temperature sensor (not shown), humidity Sensors such as humidity information by a sensor (not shown), a gas concentration value by a gas concentration sensor (not shown), a dust amount by a dust sensor (not shown), and the airflow generation device 110 are operating. It is a memory or CPU that controls and holds operation information such as air volume, wind direction, and operation mode.

  The device information notification means 112 transmits a signal that can be received by the cooperative airflow control device 100 as device information. For example, in the case of the cooperative airflow generation device 100 that can receive an infrared remote control signal, an infrared ray such as an infrared LED is used. It is possible to select an electronic component capable of transmitting. In addition, any device that can be operated with a radio signal can select an electronic component that transmits the radio signal, and power line carrier communication using an existing power line may be used. Any device may be used as long as the cooperative airflow control device 100 can output a signal that can be received as operation information.

The control content receiving means 113 is control content information notified from the control content notification means 105 of the cooperative airflow control device 100, for example, the air volume that generates the airflow, the wind direction, the operation mode of the airflow generation device 110 such as cooling or heating, and the like. For example, wireless communication that communicates using radio waves such as specific low-power radio and wireless LAN, PLC communication that sends information signals on home electrical wiring (power lines), telephone lines, etc. If it is a form that can receive the signal of the control content information notified from the cooperative airflow control device 100, such as wired communication using the
Any communication configuration may be used.

  The airflow generation means 114 is for generating airflow by moving the air in the room, for example, generating airflow by rotating a fan (not shown) such as a cross flow fan or an axial fan, What can generate airflow in the room, such as those that generate an airflow using a potential difference such as an ion wind, or those that generate an airflow by creating a difference in atmospheric pressure with a pump (not shown), etc. It may be a simple configuration.

  Next, the flow of operation of the cooperative airflow control device 100 will be described with reference to FIG.

  In FIG. 3, the operation starts from step S301. In step S301, the priority order setting means 103 sets the priority order. Specifically, for example, a list of airflow generating devices 110 whose priority can be set is displayed on a liquid crystal screen or the like, and the user arbitrarily sets the priority by inputting the priority with a keyboard or a touch panel. The prioritization method can be determined in accordance with the usage and specifications of the cooperative airflow control device 100. For example, the priority can be set in the internal memory of the cooperative airflow control device 100 in advance.

  Next, in step S302, the apparatus waits for reception of device information from the airflow generation device 110. In addition, the timing which notifies apparatus information from the airflow generation apparatus 110 matches with the timing of the content which wants to notify as apparatus information of the airflow generation apparatus 110, such as the timing which the human body detection sensor detected, for example, The control content notifying unit 105 can be used to respond by sending a device information inquiry signal. For example, the control content notification unit 105 can be configured according to the usage scene.

  In step S303, it is determined whether device information has been received from the airflow generation device 110. If device information has not been received, the operation returns to step S302. If device information has been received, the operation proceeds to step S304.

  In step S304, the received device information is stored in the device information storage unit 102. When device information from a plurality of airflow generation devices 110 is received, the operation is returned to step S302 until the device information is accumulated for a certain time or more than a certain time, and the device information is repeatedly accumulated. Is also possible.

  Next, in step S305, the control contents of the main body and / or the airflow to be linked are determined from the device information stored in the device information storage unit 102 and the priority of the airflow generation device 110 set by the priority order setting unit 103. The control content of the generator 110 is determined. In step S306, the control content transmission unit 105 transmits the control content determined in step S305 to the airflow generation device 110, so that the airflow generation device 110 can be controlled in cooperation.

  By configuring in this way, the airflow generation device 110 that generates the airflow can operate in cooperation with the device information and the priority order. More detailed airflow control, such as controlling the flow of the airflow according to the blow-out temperature of the machine, becomes possible, so that it is possible to generate an effective airflow that matches the environmental change. Furthermore, by receiving the device information of the airflow generation device 110 that cooperates periodically, even if the device information of the main body and the airflow generation device 110 that cooperates changes, it is possible to perform control according to the device information. As a result, effective airflow control can be performed.

In addition to configuring the cooperative airflow control device 100 as a single unit, the cooperative airflow control device 100 can be installed on a ceiling or the like. It can also be configured to control the airflow that has been produced, leading to a reduction in overall installation costs.

  In addition, if the illumination function is added to the cooperative airflow control device 100, the cooperative airflow is easy to use by combining with other functions, such as a configuration in which the cooperative airflow is controlled while being used as a lighting device. The control device 100 can be used.

  In addition, as shown in FIG. 4, the airflow control device 100 may include a blowing unit 406. The air blowing means 406, like the air flow generation device 110, generates a flow of indoor air. For example, an air flow such as an air conditioner fan, an air purifier fan, a ceiling fan, or a circulator is generated. Is. In addition, any device that generates an air flow in the room, such as a device that uses an ion wind that generates an air flow due to a potential difference, may be used.

  As described above, during the cooperative airflow control, the control content of the cooperative airflow control device 100 itself is also determined, and the cooperative airflow control is performed. Since the air blowing means 406 of the airflow control device 100 can be controlled, effective airflow control can be automatically performed automatically in accordance with device information from other airflow generation devices 110.

  In addition, as shown in FIG. 5, a dust collecting means 506 may be provided in the cooperative airflow control device 100. The dust collecting means 506 has a function of collecting dust floating in the room, and is, for example, a filter provided in an air purifier or the like. In addition, it may be something like electric dust collection that collects dust by static electricity. By providing the dust collecting means 506, dust can be effectively collected by creating a flow that circulates the air flow in the main body of the cooperative air flow control device 100 by controlling the air flow.

  With this configuration, the control content can be transmitted to the airflow generation device 110 that cooperates, so that the airflow generation device 110 that performs the airflow control can operate in cooperation. In accordance with the environmental information such as temperature, humidity, and human body detection information measured by the airflow generation device 110 that cooperates, or according to the priority order of the airflow generation device 110, the airflow operation device 110 More detailed airflow control, such as controlling the flow of airflow according to the operation content prioritizing the air conditioning operation, becomes possible, so that an effective airflow can be formed in accordance with environmental changes.

  By forming an effective air flow, for example, the air in the room can be agitated more efficiently than in the past, so it is possible to obtain an energy saving effect that enhances the air conditioning effect with less power, and to reduce the amount of air blown out By reducing the number, it is possible to reduce the feeling of the wind directly by the user and to obtain an effect of enhancing comfort.

  In addition, the control content notification means 105 notifies the airflow generation device 110 that cooperates by wireless communication using radio waves or infrared light, so that an air conditioner, an air purifier, or a circulator installed in the room in advance. Thus, it is possible to easily cooperate with the airflow generation device 110, and to reduce the installation effort.

(Embodiment 2)
FIG. 6 is a diagram illustrating the configuration of the cooperative airflow control device and the airflow generation device according to Embodiment 2 of the present invention, and FIG. 7 is a diagram illustrating an example in which control content is transmitted from the cooperative airflow control device to the airflow generation device. . In addition, the same code | symbol is attached | subjected to the same part as the cooperation airflow control apparatus in the said Embodiment 1, and the description is abbreviate | omitted.

  In FIG. 6, the cooperative airflow control device 600 in the present embodiment cooperates with at least one airflow generation device 110 that can generate an airflow in a room such as an air conditioner, an air purifier, or a blower. The device information receiving unit 101 that receives the device information of the airflow generation device 110 and the device information of the airflow generation device 110 that is received by the device information reception unit 101. Device information storage means 102, priority order setting means 103 for setting the priority order of one or more linked airflow generation devices 110, and device information stored in the device information storage means 102. , Position detection means 606 for detecting the position of the airflow generation equipment 110 to be linked, the equipment information stored in the equipment information storage means 102 and the priority Control for determining the control content of the main body and / or the control content of the associated airflow generation device 110 from the priority order of the airflow generation device 110 set by the position setting means 103 and the position information detected by the position detection means 606. A content determination unit 104 and a control content notification unit 105 that transmits the control content determined by the control content determination unit 104 to the airflow generation device 110 that cooperates. From the device information and the priority and position information, In accordance with the indoor environment and the position of the airflow generation device 110, it is possible to determine effective airflow control contents that further meet the needs of the user.

  Note that the device information receiving unit 101, the device information storage unit 102, the priority order setting unit 103, the control content determination unit 104, and the control content notification unit 105 of the cooperative airflow control device 600 are the same as those in FIG. The same as described above. Further, the airflow generation device 110 is the same as that described in FIG. 1 of the first embodiment.

  The position detection unit 606 detects the position of the airflow generation device 110 that performs cooperative control. For example, the position detection unit 606 stores the device information by using an image sensor (not shown) used in a digital camera or the like. By comparing with the device information including the characteristics of the airflow generation device 110 stored in advance in the means 102, the target airflow generation device 110 is present at which position of the image data of the image sensor and in what size. By detecting whether or not it is possible to estimate the direction and distance, the position can be detected.

  For example, in the configuration as shown in FIG. 7, when image data can be captured at 360 degrees with a fisheye lens at one time, a matching place is identified by comparing with specific device information from 360 degrees images. The direction can be obtained by Furthermore, by registering distance data for the standard image size as device information in the device information storage means 102 in advance, the distance from the associated airflow control device 600 can be calculated by comparing with the size of the matched image. Since it can be estimated, the position can be detected.

  Many methods have already been proposed in the field of image processing, such as the template matching method, to extract from image data in comparison with device information, which is a specific feature. In addition, it is possible to select an image processing method in consideration of necessary processing time and accuracy.

  Also, by registering information such as markers and barcodes as device information stored in the device information storage means 102 in advance, for example, information such as markers and barcodes may be stored in the airflow generation device 110. It is possible to configure the position of the marker and barcode information to be detected by sensor information such as an image sensor, so that an airflow generator such as an air conditioner that has already been installed. 110 can also enable cooperative control.

In addition to the image sensor, for example, a transmitting element (not shown) that transmits infrared light, radio waves, laser light, or the like is provided in a plurality of directions, and further an element that receives a signal from the airflow generation device 110 is provided. By transmitting the signal of the transmitting element in a plurality of directions at intervals, by receiving a response of a specific signal such as infrared light, radio wave or laser from the airflow generating device 110, the airflow generating device It can be configured to detect the direction of 110. In addition, any configuration may be used as long as it detects the position of the airflow generation device 110 that cooperates.

  By configuring as described above, it is possible to perform cooperation control in accordance with the position of the airflow generation device 110. For example, it is possible to change the airflow direction or the airflow, or to adjust the airflow according to the blowout temperature of the air conditioner. Since more detailed airflow control, such as controlling the flow, becomes possible, it becomes possible to generate an effective airflow in accordance with environmental changes.

  Further, by detecting the position of the airflow generation device 110 that cooperates regularly, even if the position of the main body or the airflow generation device 110 that cooperates changes, the control according to the relative position with the airflow generation device 110 that cooperates Therefore, even if the position where the user arranges is changed, it is possible to effectively control the airflow according to the arranged position.

(Embodiment 3)
FIG. 8 is a diagram illustrating the configuration of the cooperative airflow control device and the airflow generation device according to Embodiment 3 of the present invention, and FIG. 9 is a diagram illustrating an example in which control content is transmitted from the cooperative airflow control device to the airflow generation device. 10 is the figure which looked at the room where the cooperation airflow control device was installed from the top. In addition, the same code | symbol is attached | subjected to the same part as the cooperation airflow control apparatus in the said Embodiment 1, and the description is abbreviate | omitted.

  In FIG. 8, the associated airflow control device 800 in the present embodiment cooperates with at least one airflow generation device 110 that can generate an airflow in a room such as an air conditioner, an air purifier, or a blower. Thus, a device for controlling the flow of indoor air, device information receiving means 101 for receiving device information of the airflow generating device 110, and device information of the airflow generating device 110 received by the device information receiving means 101. Device information storage means 102 to be stored, priority order setting means 103 for setting the priority order of one or more linked airflow generation devices 110, and floor plan information acquisition means 806 for acquiring floor plan information such as the shape of an empty space in a room. The device information stored in the device information storage unit 102 and the airflow generation device 110 set by the priority order setting unit 103. The control content determining means 104 for determining the control content of the main body and / or the control content of the airflow generation device 110 to be linked from the floor order information detected by the priorities and the floor plan information acquiring means 806, and the control content determining means 104 A control content notification means 105 for transmitting the determined control content to the airflow generation device 110 to be linked is provided. From the device information, the priority order, and the floor plan information, according to the indoor environment and the floor plan, the user's needs are further met. It becomes possible to determine the control content of the combined effective airflow.

  Note that the device information receiving unit 101, the device information storage unit 102, the priority order setting unit 103, the control content determination unit 104, and the control content notification unit 105 of the cooperative airflow control device 800 are respectively the same as those in FIG. The same as described above. Further, the airflow generation device 110 is the same as that described in FIG. 1 of the first embodiment.

  The floor plan information acquisition unit 806 acquires floor plan information such as the shape of an empty space in the room, and for example, scans the room with a laser such as a laser range finder, or takes an image of the room with an image sensor. Or a plurality of distance measuring sensors to measure the distance in each direction.

In addition, the configuration may be such that the floor plan information provided can be acquired, for example, a communication function that acquires floor plan information from other devices. Moreover, by using together with the position detection by the position detection means 606 like an image sensor,
It can be configured at a lower cost.

  Next, operation | movement of the cooperation airflow control apparatus 800 is demonstrated using FIG. Coordinated airflow control apparatus 800 in the present embodiment uses a laser range finder as floor plan information acquisition means 806. By scanning the shape of the room with the laser range finder, it is possible to obtain information on the floor plan of the room. In addition to the device information acquired by the device information receiving means 101 and the priority order set by the priority order setting means 103, the control content determining means 104 takes into account the control content and / or Or the control content of the airflow generation apparatus 110 used as cooperation object can be determined.

  For example, as shown in FIG. 10, when the pillar 1001 exists in the center of the room, the airflow of a plurality of airflow generation devices 110 (in the example of FIG. 10, an air conditioner and an air purifier) is inhibited by the pillar 1001. For example, the airflow can be efficiently generated by controlling the airflow of the air conditioner and the air purifier so as to flow in the direction indicated by the white arrow in FIG.

  As described above, according to the present embodiment, the control content determined by the control content determination means 104 can be more effectively matched to the room by using the floor plan information in the room, or highly accurate. It becomes possible to make the control content that can meet the user's request.

(Embodiment 4)
FIG. 11 is a diagram illustrating the configuration of the cooperative airflow control device and the airflow generation device according to Embodiment 4 of the present invention, and FIG. 12 is a perspective view illustrating the configuration of the cooperative airflow control device. In addition, the same code | symbol is attached | subjected to the same part as the cooperation airflow control apparatus in the said embodiment, and the description is abbreviate | omitted.

  In FIG. 11, the associated airflow control device 1100 according to the present embodiment cooperates with at least one airflow generation device 110 that can generate an airflow in a room such as an air conditioner, an air purifier, or a blower. Thus, a device for controlling the flow of indoor air, device information receiving means 101 for receiving device information of the airflow generating device 110, and device information of the airflow generating device 110 received by the device information receiving means 101. Device information storage means 102, priority order setting means 103 for setting the priority order of one or more linked airflow generation devices 110, device information stored in the device information storage means 102 and priority order setting From the priority order of the airflow generation device 110 set by the means 103, the control content of the main body and / or the airflow generation device 1 associated with the main body is controlled. Control content determination means 104 for determining the control content of 0, control content notification means 105 for transmitting the control content determined by the control content determination means 104 to the associated airflow generation device 110, and reception by the device information reception means 101 In addition, a notification means 1106 for notifying the user of the contents of the device information is determined, and effective control of airflow is further determined in accordance with the user's needs from the device information and priority order according to the indoor environment. Will be able to.

  Note that the device information receiving unit 101, the device information storage unit 102, the priority order setting unit 103, the control content determination unit 104, and the control content notification unit 105 of the cooperative airflow control device 1100 are the same as those in FIG. The same as described above. Further, the airflow generation device 110 is the same as that described in FIG. 1 of the first embodiment.

  The notifying unit 1106 notifies the device information received by the device information receiving unit 101 of the cooperative airflow control device 1100. For example, as shown in FIG. 12, it is displayed by characters on the LCD module, a lighting / blinking display of a state by an LED or the like, or a notification by a sound effect or voice by a speaker. In addition, any device that can notify the user such as an image display using a liquid crystal display or an organic EL may be used.

  As described above, according to the present embodiment, since it is possible to confirm at a glance what the device information of the associated airflow generation device 110 is, the user can safely perform the associated airflow control. The device 1100 can be used.

  Note that if a computer executes all or part of the cooperative airflow control device 100 (or 600, 800, or 1100) using a program, a general-purpose computer can be used easily. It becomes possible to easily correspond to platforms of various cooperative airflow control devices 100 (or 600 or 800 or 1100).

  Further, for example, by making a part of the program usable by a general-purpose computer, communication is performed between the general-purpose computer and the cooperative airflow control device 100 (or 600, 800, or 1100) using a communication function such as a wireless LAN. By controlling the device information receiving means 101 and the control content determining means 104 on the general-purpose computer side, the capability of functions such as the CPU and memory of the cooperative airflow control device 100 (or 600 or 800 or 1100) is reduced. Therefore, the associated airflow control device 100 (or 600, 800, or 1100) can be provided at a lower cost. Furthermore, it is also possible to allow the user to operate the cooperative airflow control device 100 (or 600 or 800 or 1100) from the outside via a communication function with the outside such as the Internet connected to the general-purpose computer. Easy to do.

  The cooperative airflow control device according to the present invention is operated in cooperation with one or more airflow generation devices by transmitting the control content to each airflow generation device from the device information and priority order of the airflow generation devices, thereby improving efficiency. The airflow can be controlled in general, so it is possible to remotely control general air conditioners, air purifiers and fans, such as air conditioners, control devices such as remote controllers, lighting fixtures and fires to be installed on the ceiling, etc. Useful for alarms and gas alarms.

DESCRIPTION OF SYMBOLS 100, 600, 800, 1100 Cooperation airflow control apparatus 101 Apparatus information receiving means 102 Equipment information storage means 103 Priority order setting means 104 Control content determination means 105 Control content notification means 110 Airflow generation equipment 111 Equipment information acquisition means 112 Equipment information notification means 113 Control Content Receiving Unit 114 Airflow Generation Unit 406 Blowing Unit 506 Dust Collection Unit 606 Position Detection Unit 806 Layout Information Acquisition Unit 1001 Column 1106 Notification Unit

Claims (10)

In a cooperative airflow control device that controls the flow of indoor air by cooperating with one or more airflow generating devices, device information receiving means for receiving device information of the airflow generating devices, and the device information receiving means Device information storage means for storing the device information, priority order setting means for setting the priority order of the one or more airflow generating devices, the device information stored in the device information storage means, and the priority order setting means The control content determining means for determining the control content of the main body and / or the control content of the airflow generating device to be linked from the priority order of the airflow generating device set in the above, and the control content determined by the control content determining means A coordinated airflow control device comprising control content notifying means for transmitting the information to the airflow generating device that cooperates. The cooperative airflow control device according to claim 1, wherein the priority order setting means changes the priority order set according to a season and / or a time zone. The device information receiving means periodically receives the device information of the airflow generating device, and the control content determining means responds to the changed device information even if the device information of the airflow generating device to be linked changes. The cooperative airflow control device according to claim 1 or 2, wherein control content is determined. The cooperative airflow control device according to any one of claims 1 to 3, further comprising a blowing unit that creates an airflow in the room. The cooperative airflow control device according to any one of claims 1 to 4, further comprising dust collecting means for collecting dust floating in the air and purifying indoor air. A position detecting means for detecting the position of the airflow generating device, and in addition to the device information of the airflow generating device, the control content determining means uses the control content determining means based on the position information detected by the position detecting means, and / or The control content of the said airflow generation apparatus to cooperate is determined, The cooperation airflow control apparatus of any one of Claims 1-5 characterized by the above-mentioned. Provided with floor plan information acquisition means for acquiring floor plan information such as the shape of an empty space in the room, in addition to the device information of the airflow generating device, the control content determination means from the floor plan information, and the control content and / or cooperation of this main body The control content of the said airflow generation apparatus used as object is determined, The cooperation airflow control apparatus of any one of Claims 1-6 characterized by the above-mentioned. The cooperative airflow control device according to any one of claims 1 to 7, further comprising notification means for notifying a user of device information of the airflow generation device. The linked content air flow control device according to any one of claims 1 to 8, wherein the control content notifying means notifies the air flow generating device of the control content by radio communication using radio waves or infrared light. The program for making a computer implement | achieve at least one part of the cooperation airflow control apparatus of any one of Claims 1-9.