JP6080436B2 - Indoor environmental management system - Google Patents

Description

  The present invention relates to an indoor environment management system.

  In a building such as a house, outside air and sunlight can be taken into the building space from outside by opening the sash door and shutter curtain in the window. In this case, the outdoor situation is taken into the building. For example, by opening the sash door and taking outside air from the window into the building space, it is possible to ventilate the building space and adjust the humidity and temperature (for example, Patent Document 1).

JP 2007-115041 A

  However, when the outdoor situation is taken in by taking outside air or sunlight from the window, there is a concern that an unintended outdoor situation may be taken into the building. For example, if the outside air contains a large amount of dust, pollen, smoke, etc., dust or pollen will increase in the building space despite the intake of outside air for the purpose of ventilation in the building space. The air quality in the building will deteriorate.

  An object of the present invention is to provide an indoor environment management system capable of suitably adjusting an indoor environment using an outdoor situation.

  Hereinafter, means and the like effective for solving the above-described problems will be described while showing functions and effects as necessary.

  An indoor environment management system according to a first aspect of the present invention is applied to a building provided with an outdoor condition capturing means that is shifted from a non-operation state to an operation state so as to capture an outdoor condition that is an outdoor condition into the building. An indoor environment management system for managing the indoor environment in the building that changes with the taking-in of the outdoor situation by a taking-in means, and an objective item for taking the outdoor situation into the building; Information acquisition means for predetermining inhibition items that change when the outdoor situation is changed and that change hinders the preparation of the indoor environment, and acquiring related information related to the target items and the inhibition items Assuming that the outdoor situation capturing means is shifted to the operation state, the inhibition items are determined based on the related information acquired by the information acquiring means. In accordance with the state change mode for the inhibition item predicted by the inhibition mode prediction unit and the inhibition mode prediction unit for predicting the state change mode, the outdoor situation capturing unit is shifted to the operation state. And a restriction processing means for performing a restriction process for restricting the movement.

  According to the first invention, it is possible to change the state of the target item by taking in the outdoor situation, but on the other hand, when it is predicted that the state of the inhibition item will change with the taking in the outdoor situation In addition, it is possible to prevent the outdoor situation from being taken in by performing a restriction process. In this case, it is possible to select which one of priority is given to preventing the occurrence of a disadvantage associated with taking in the outdoor situation and obtaining a merit accompanying taking in the outdoor situation. Therefore, when priority is given to not changing the state of the inhibition item over changing the state of the target item, it may be selected not to incorporate the outdoor situation into the building in order to maintain the state of the inhibition item. it can. As described above, the indoor environment can be suitably adjusted using the outdoor situation.

  In a second aspect of the invention, the apparatus includes an inhibition determination unit that determines whether or not a state change state of the inhibition item predicted by the inhibition mode prediction unit exceeds a predetermined allowable range, and the restriction processing unit includes the restriction processing unit, When the inhibition determination means determines that the prediction of the inhibition item exceeds the allowable range, the restriction processing is performed, and when the prediction is determined not to exceed the allowable range, the restriction processing is not performed. It is.

  According to the second aspect of the invention, even when it is predicted that the state of the inhibition item changes as the outdoor situation is taken in, if the prediction does not exceed the allowable range, the outdoor situation is allowed to be taken in. Thereby, if the state change of the inhibition item is not extremely large, it is possible to give priority to changing the state of the target item while allowing the state of the inhibition item to change.

  In 3rd invention, the said outdoor condition taking-in means has the 1st taking-in means and the 2nd taking-in means provided in the position different from this 1st taking-in means, These 1st The taking-in means and the second taking-in means take in the outdoor situation in the same space in the building, and the inhibition mode predicting means detects the case where the first taking-in means is shifted to the operation state. Assuming that the state change mode for the inhibition item is predicted, the restriction processing means assumes that the first capture means has been transferred to the operation state, and the inhibition determination means. When it is determined that the prediction of the inhibition item exceeds an allowable range, the restriction process is performed on the first capture means, and the restriction process is not performed on the second capture means.

  In the configuration in which the first capture means and the second capture means are provided as the outdoor condition capture means, the outdoor environment is captured by the first capture means when the outdoor environment is captured by the first capture means. It is considered that the state of the state change of the target item or the inhibition item may be different from the case where is taken in.

  Therefore, according to the third invention, it is predicted that the state of the inhibition item will change as the outdoor condition is captured by the first capturing means, and even if the prediction exceeds the allowable range, the second capturing is performed. It is allowed to capture outdoor conditions by means. In this case, by simply changing the outdoor situation capturing position, it is possible to suppress the state change of the inhibition item within the allowable range while achieving the objective of capturing the outdoor condition of changing the target item.

  In a fourth aspect of the invention, the inhibition mode prediction means predicts a state change state for the inhibition item on the assumption that the second capture means is shifted to the operation state. The restriction processing means assumes that the prediction about the inhibition item exceeds an allowable range by the inhibition determination means, assuming that the first acquisition means has been shifted to the operation state, and the second acquisition Assuming that the capture means has shifted to the operation state, when the inhibition determination means determines that the prediction of the inhibition item exceeds an allowable range, the first capture means and the second capture The restriction process is performed for both of the insertion means.

  According to the fourth invention, when it is predicted that the state change of the inhibition item exceeds the allowable range for both the outdoor situation capture by the first capture means and the outdoor situation capture by the second capture means, It is possible to prevent the outdoor situation from being taken in for both the first taking-in means and the second taking-in means. In order to maintain the state of the obstruction item, it is possible to select not to take the outdoor situation into the building.

  In 5th invention, when it determines with the prediction about the said inhibition item not exceeding the said tolerance | permissible_range by the said inhibition determination means, the taking-in process for making the said outdoor condition taking-in means transfer to the said operation state is performed. An acquisition processing means is provided.

  According to the fifth aspect of the invention, when it is predicted that the change in the state of the inhibition item accompanying the taking in of the outdoor situation does not exceed the allowable range, the outdoor situation is taken in, so the state of the target item can be changed.

  In a sixth aspect of the invention, the outdoor situation capturing means is shifted from the non-operation state to the operation state when a manual operation is performed on the outdoor situation capturing means. Stored in the storage means when the prediction about the inhibition item is determined not to exceed the permissible range by the storage execution means for storing the operation history for the storage means in a predetermined storage means, and the inhibition determination means. Notification execution means for informing recommended information recommending execution of the manual operation from a predetermined notification means based on the past operation history, and the storage execution means is stored in the storage means The past operation history is stored in the storage unit as a record indicating whether or not the manual operation has been performed with respect to the notification of the recommended information performed by the notification unit. That.

  In a configuration in which outdoor situation capturing is recommended by notification of recommended information, the user actually performs an operation to capture outdoor conditions, so the content of the recommended information differs from the actual operation performed by the user. Cases are thought to arise. On the other hand, according to the sixth aspect of the invention, the recommended information is notified in consideration of the past performance of whether or not the user has operated the outdoor situation capturing means for the notification of the recommended information. The outside air condition capturing means can be shifted to the operation state based on the user's preference and the events not included in the related information.

  In the seventh invention, the outdoor situation capturing means can be shifted to a predetermined first mode and a second mode different from the first mode as a mode when shifted to the operation state. There are a plurality of items indicating the state of the indoor environment, the first item that may be the inhibition item but not the objective item, and both the inhibition item and the objective item Second item that may be included, and the inhibition mode prediction means is not the second item when the outdoor situation capturing means is assumed to be transferred to the first mode. While assuming that the first item is the inhibition item and predicting the inhibition item, it is assumed that the outdoor situation capturing means is transferred to the second mode, and the second item is the inhibition item. And predicting the inhibition items It is.

  Examples of the first item include air quality due to dust and pollen, rain intrusion on the outdoor side, and the like. These first items are obstructed items regardless of the situation, time zone, season, etc. in the building. Examples of the second item include temperature, humidity, and solar radiation of the space in the building. These second items can be both the target item and the inhibition item depending on the situation, time zone, season, etc. in the building. . For example, if it is solar radiation, it becomes a target item for warming the space in the building if the season to be taken in is winter, but if the season to be taken is in the summer, the space in the building is excessively heated and becomes an obstruction item .

  Therefore, according to the seventh aspect, since the second item is set as the target item or the inhibition item according to the mode in which the outdoor situation capturing means is shifted to the operation state, the second item is positively However, the second item may not be intentionally captured. That is, the state change of the second item can be suitably managed according to the outdoor environment or indoor environment.

  In an eighth aspect of the invention, the state change mode for the target item is based on the related information acquired by the information acquisition unit on the assumption that the outdoor situation capturing unit has shifted to the operation state. And a purpose determination means for determining whether or not a state change mode for the target item predicted by the target mode prediction unit is included in a predetermined target mode, The restriction processing means performs the restriction processing when it is determined by the purpose determination means that a prediction for the target item is not included in the purpose mode.

  According to the eighth invention, whether or not the state of the inhibition item changes in accordance with the taking in of the outdoor situation when it is predicted that the taking in the outdoor environment will change the target item so as not to meet the purpose. Regardless of the situation, the current indoor environment can be maintained by preventing the outdoor situation from being captured.

  In the ninth aspect of the invention, it is applied to a building having a ventilation part that takes in the outdoor situation by taking outside air from outside, and the outdoor situation capturing means can block the ventilation of the ventilation part. And both the objective item and the inhibition item are items that change due to outside air taken into the building through the ventilation portion when the ventilation blocking unit is in a non-blocking state. .

  According to the ninth aspect, since both the target item and the inhibition item are items that change due to the intake of the outside air into the building, it is preferable that the outside air is taken in according to the state change state of the inhibition item. Thereby, when taking in external air, the balance of the merit that the state of the target item can be changed and the demerit that the state of the inhibition item changes can be suitably achieved.

  In the tenth aspect of the invention, it is applied to a building having a window part that takes in the outdoor situation by taking solar radiation and outside air from outside, and the outdoor situation capturing means blocks ventilation of the window part. And sash doors capable of blocking the solar radiation taken into the building through the window, wherein one of the target item and the obstruction item is the sash door. The solar radiation is changed by outside air taken into the building through the window when in the open state, and the other is solar radiation taken into the building through the window when the solar shielding means is in an unshielded state. It is.

  According to the tenth invention, one of the target item and the inhibition item is an item that changes due to the intake of outside air into the building, and the other is an item that changes due to the intake of solar radiation into the building. It is preferable that outside air and solar radiation are taken in depending on the state change state for. Thereby, when taking in external air and solar radiation, the balance of the merit that the state of a target item can be changed and the demerit that the state of an inhibition item changes can be taken suitably.

Top view showing floor plan of building Block diagram showing the electrical configuration of the indoor environmental management system Flow chart showing the procedure of indoor environment management processing Flow chart showing the procedure of ventilation process

  Hereinafter, an embodiment embodying the present invention will be described with reference to the drawings. In this embodiment, the indoor environment management system of the present invention is embodied in a building such as a house, and the indoor environment is managed by the indoor environment management system for the first floor portion of the building. FIG. 1 is a plan view showing a floor plan of a building 10, and FIG. 2 is a block diagram showing an electrical configuration of an indoor environment management system.

  As shown in FIG. 1, on the first floor of a building 10, there are a room space 11 having a plurality of rooms such as a living room, a kitchen, and a dining room, and a non-room room 12 having a plurality of non-rooms such as an entrance, a hallway, and a toilet. An indoor space on the first floor is formed by the living room space 11 and the non-living room space 12.

  The outer wall 15 of the building 10 includes a pair of first wall portions 16a and 16b facing each other and a pair of second wall portions 17a and 17b extending in a direction intersecting the first wall portions 16a and 16b. Yes. The first wall portions 16a and 16b and the second wall portions 17a and 17b each divide (partition) the living room space 11 with respect to the outdoor space, and a window portion 21 is provided in each of the divided portions. . In this case, the window part 21 is provided in each of each wall part 16a, 16b, 17a, 17b. Each window portion 21 is provided with a sash door 22 as an opening / closing body, and for the opening / closing method of the sash door 22, a sliding type or a single opening type is appropriately used for each window portion 21.

  In addition, the 1st wall parts 16a and 16b are extended in the east-west direction, and the 1st wall part 16a is arrange | positioned to the north side rather than the 1st wall part 16b. The second wall portions 17a and 17b extend in the north-south direction, and the second wall portion 17a is disposed on the east side of the second wall portion 17b.

  Each window portion 21 provided on the outer wall 15 includes a sweep window 21a extending upward from the floor surface of the living room space 11, and the sweep window 21a includes the first wall portion 16b and the second wall portion 17a. Are provided respectively. In this case, the sweep window 21a is provided with a plurality of sliding sash doors 22, and the sash door 22 opens the sweep window 21a, so that residents and the like can find the living room space 11 through the sweep window 21a from the outside. You can go in and out.

  A shutter device 31 is provided for each sweep window 21a. As shown in FIG. 2, the shutter device 31 includes a shutter curtain 32 that moves up and down along the outdoor surface of the sash door 22, and a shutter case 33 that houses the shutter curtain 32. The shutter case 33 is attached to the outdoor surface of the outer wall 15 above the sweep window 21a, and the shutter curtain 32 shifts to an open state by being wound around a winding drum provided in the shutter case 33. And it can shift to a closed state by being drawn out from the shutter case 33.

  The shutter curtain 32 is a slat curtain, and includes a plurality of long plate-like slats 35. The slats 35 are arranged side by side in the vertical direction in a state of extending along the horizontal direction. Further, each slat 35 is rotatable about an axis extending in the horizontal direction. By rotating, each slat 35 can be ventilated through a gap between the slats 35 and between the slats 35. It shifts to the ventilation blockage state which blocks the ventilation through.

  The shutter device 31 includes a shutter curtain drive unit 37 that is driven to move the shutter curtain 32 up and down, and a slat drive unit 38 that is driven to rotate the slat 35. These drive units 37 and 38 are configured to include an electric motor, and are respectively provided in the shutter case 33. The shutter curtain drive unit 37 is a drive unit for rotating the take-up drum in the shutter case 33, and the slat drive unit 38 can rotate each slat 35 individually.

  When the shutter curtain 32 is in an open state, and when the slat 35 is in a vented state even when the shutter curtain 32 is in a closed state, the living room space 11 can be ventilated through the window portion 21. The state of the shutter device 31 is referred to as a ventilation state. On the other hand, when the shutter curtain 32 is in the closed state and each slat 35 is in the ventilation cut-off state, the ventilation of the living room space 11 through the window portion 21 is not performed, and the state of the shutter device 31 in this case is the ventilation cut-off state. Called.

  Further, when the shutter curtain 32 is in the open state, when the shutter curtain 32 is in the closed state and each slat 35 is at an angle through which the solar radiation passes, the solar space is irradiated into the living room space 11 through the window portion 21. The state of the shutter device 31 in these cases is referred to as a daylighting state. On the other hand, when the shutter curtain 32 is in the closed state and the slat 35 is at an angle that blocks the solar radiation, the solar radiation to the living room space 11 through the window portion 21 is blocked by the shutter curtain 32, and the shutter device 31 in this case The state is referred to as a non-lighting state. Note that when the shutter device 31 is in a non-ventilated state, it is also in a non-lighting state.

  Further, an awning device 41 is provided for each sweep window 21a. The awning device 41 includes an awning 42 that extends laterally toward the side away from the outer wall 15 above the sweep window 21a, and a support arm 43 that supports an end portion on the outdoor side of the awning 42. It is attached to 15 outdoor surfaces. The awning 42 is formed in a sheet shape from cloth or a synthetic resin material, and is installed with each sheet surface facing up and down.

  In the awning device 41, the extension dimension of the awning 42 from the outer wall 15 is variable. Specifically, the support arm 43 can be expanded and contracted along the direction in which the awning 42 extends. The awning 42 is wound around the rotating shaft 44 by the contraction of the support arm 43, and the support arm 43. Is extended from the rotating shaft 44. The awning device 41 includes an awning drive unit 45 that is driven to extend and contract the support arm 43. The awning drive unit 45 includes an electric motor.

  When the solar radiation is blocked by the awning 42, the solar radiation to the living room space 11 through the window portion 21 is blocked, and the state of the awning device 41 in this case is referred to as a non-lighting state. On the other hand, even if part of the solar radiation is blocked by the awning 42, the solar radiation to the living room space 11 is performed through the window portion 21, and the state of the awning device 41 in this case is referred to as a daylighting state.

  In FIG. 2, the sweep window 21 a provided in the first wall portion 16 b is illustrated, but the sweep window 21 a provided in the second wall portion 17 a has the same configuration.

  Incidentally, the sash door 22 and the shutter device 31 correspond to the ventilation blocking means, and the shutter device 31 and the awning device 41 correspond to the solar radiation shielding means. Further, in the shutter device 31, the shutter curtain 32 and the slat 35 constitute a ventilation blocking means and a solar radiation shielding means, and in the awning device 41, the awning 42 constitutes a solar radiation shielding means.

  Next, the electrical configuration of the indoor environment management system will be described.

  The indoor environment management system has a home server 51 as control means. The home server 51 includes a microcomputer including a CPU, various memories, and the like, and is attached to, for example, an inner wall surface of a living room. The home server 51 includes a storage unit 52 that stores the opened / closed state of the window unit 21, the operating state of the shutter device 31, and the state of the awning device 41.

  The home server 51 includes an outdoor air temperature sensor 61 that detects outdoor air temperature, an outdoor air humidity sensor 62 that detects outdoor air humidity, a noise sensor 63 that detects outdoor noise, and outdoor air quality. Is connected to an outdoor air quality sensor 64 that detects the presence of a person and an outdoor human sensor 65 that detects that a person is outdoors. These sensors 61 to 65 are attached to the outer wall 15 outdoors, and each output a detection signal to the home server 51. The noise sensor 63 and the outdoor human sensor 65 are arranged around the window 21 for each of the window parts 21, and the noise sensor 63 detects the magnitude of noise around the window 21, and the outdoor human sensor 65 detects that there is a person around the window 21.

  The home server 51 also includes a room temperature sensor 71 that detects the air temperature of the room space 11, a room humidity sensor 72 that detects the air humidity of the room space 11, and a room air quality that detects the air quality of the room space 11. A sensor 73 and a sash door sensor 74 that detects the open / closed state of the sash door 22 are connected. These sensors 71 to 74 are attached to, for example, an inner wall surface in the building 10, and each output a detection signal to the home server 51. The sash door sensor 74 is attached to each of the window portions 21 and individually detects that the sash door 22 is opened for each window portion 21.

  Further, the home server 51 includes a shutter curtain drive unit 37, a slat drive unit 38, an awning drive unit 45, an air conditioner 81 such as an air conditioner that air-conditions the living room space 11, and the air in the living room space 11 to the outside. A ventilation device 82 for ventilating the building 10 by discharging, a notification device 83 having a speaker and a display panel, a communication device 84 capable of wireless communication and wired communication, and watering for watering outdoors around the building 10 The devices 85 are respectively connected as actuators, and the home server 51 controls the operation of these actuators by outputting a command signal.

  The watering device 85 is installed in a garden or the like on the outdoor side of the window part 21 and can spray water on the ground. When water is sprayed on the ground by the water sprinkler 85, the temperature of the outside air around the window portion 21 is lowered by the heat of vaporization of water on the ground, and the outside air in a state where the temperature is lowered may flow into the living room space 11 from the window portion 21. It becomes possible.

  The communication device 84 can wirelessly communicate with the remote controller 86. The remote controller 86 is an operating device that is operated by a resident or the like, and outputs an operation signal in response to the input operation, and the operation signal is input to the home server 51 via the communication device 84, so that the home server 51 can control the operation of each actuator according to an operation signal. That is, the user can perform remote operation of each actuator as a manual operation using the remote controller 86. In addition, about the sash door 22, a user directly performs manual operation instead of remote operation.

  The communication device 84 can be connected to the Internet or the like, and the home server 51 can acquire weather information from the Internet or the like.

  In the living room space 11, when the sash door 22 of the window portion 21 is opened and the shutter device 31 is in a vented state, outside air can be taken in through the window portion 21. Further, when the awning 42 and the shutter curtain 32 are in a daylighting state, it is possible to capture sunlight through the window portion 21. Here, outside air and sunlight influence the outdoor situation. Taking outside air and sunlight into the living room space 11 takes the outdoor situation into the living room space 11.

  In addition, the sash door 22, the shutter device 31, and the awning device 41 that open and close the window part 21 allow the outdoor situation to be taken into the living room space 11 from the window part 21, and the outdoor situation that can regulate the taking in the outdoor situation. Corresponds to taking-in means. In these outdoor situation capturing means, a state where the outdoor situation is not captured corresponds to a non-operation state, and a state where the outdoor situation can be captured corresponds to an operation state. For example, for the sash door 22, the closed state corresponds to the non-operating state, and the open state corresponds to the operating state. As for the shutter device 31, the ventilation blocking state and the non-lighting state correspond to the non-operation state, and the ventilation state and the lighting state correspond to the operation state. As for the awning device 41, the non-lighting state corresponds to the non-operation state, and the lighting state corresponds to the operation state.

  The home server 51 can execute indoor environment management processing. Here, the indoor environment management process executed by the home server 51 will be described with reference to the flowcharts of FIGS. The home server 51 repeatedly executes the indoor environment management process at a predetermined cycle.

  In FIG. 3, in step S <b> 101, indoor information such as the temperature, humidity, and air quality of the living room space 11 is acquired based on the detection signals of the sensors 71 to 73 provided in the building 10. In step S102, outdoor information such as outdoor temperature, humidity, air quality, presence / absence of noise, and presence / absence of people is acquired based on detection signals of the sensors 61 to 65 provided outdoors. Further, weather information such as outdoor wind direction, wind speed, and weather is acquired as outdoor information through the communication device 84. Indoor information and outdoor information correspond to related information.

  In step S <b> 103, it is determined whether the living room space 11 is ventilated through the window portion 21. Here, based on the detection signal of each sash door sensor 74, it is determined whether or not the sash door 22 is in an open state for each of the window portions 21, and the window portion in which the sash door 22 is in an open state. It is assumed that the living room space 11 is ventilated when there is even one 21. However, for the sweep-out window 21a in which the shutter device 31 is installed, it is determined whether or not the shutter device 31 is in the ventilation blocking state. If the shutter device 31 is in the ventilation blocking state, the sash door 22 is opened. However, it is assumed that ventilation is not performed in the sweep-out window 21a.

  When the ventilation of the living room space 11 is not performed, the process proceeds to step S104, and it is determined whether there is a request for ventilation of the living room space 11. Here, it is determined whether or not an input operation indicating a ventilation request has been performed on the remote controller 86, and it is assumed that there is a ventilation request when the input operation is performed. The ventilation request includes a request for opening the sash door 22 and a request for opening the shutter curtain 32. In addition, when the resident or the like returns after the absence state has continued for a predetermined time or longer, the request for ventilation may be that the locking device of the front door is unlocked. In the living room space 11, an air flow is generated by ventilation, and thus the air flow corresponds to a target item.

  If there is a ventilation request for the living room space 11, the process proceeds to step S105 to perform a ventilation process. The ventilation process will be described with reference to the flowchart of FIG.

  In FIG. 4, in step S <b> 201, the window portion 21 that performs ventilation in the living room space 11 is selected. Here, a wind direction is acquired based on outdoor information (related information), and a portion of the window portion 21 extending in a direction intersecting the wind direction on the outer wall 15 is selected as an opening target. For example, when the wind direction is a direction (for example, east-west direction) intersecting with the wall surfaces of the second wall portions 17a and 17b in the outer wall 15, the window portion 21 of the second wall portions 17a and 17b is selected as an opening target.

  In addition to the related information, the selection of the window unit 21 to be opened is performed based on information not included in the related information and information on user preferences. This will be described later in the description of step S108.

  In step S202, the flow of air generated in the living room space 11 is predicted by opening the window 21 and performing ventilation. Here, generating a flow in the air of the living room space 11 causes a change in the target item, so that a change in the target item is predicted. In step S <b> 203, it is determined whether or not the prediction result indicates that an air flow is generated in the living room space 11 due to ventilation. When ventilating, determine whether the outdoor wind strength is within the allowable range, and if the wind is too weak or too strong (if the wind speed is not between the upper and lower reference values) ) Makes a negative determination in step S203 that ventilation is not performed.

  When it becomes a prediction result that an air flow will occur in the living room space 11, the process proceeds to step S204, and a change in the inhibition item caused by the ventilation is predicted. Here, among a plurality of items included in the indoor environment, an item that is predicted to be a hindrance in preparing the indoor environment is specified as an inhibition item. For example, the air quality around the window portion 21 is calculated based on outdoor information, and when the amount of dust or pollen contained in the outside air is greater than a predetermined amount, the air quality is specified as an inhibition item. And the air quality in the living room space 11 is calculated based on the indoor information, the outdoor air quality is compared with the air quality of the living room space 11, and the air quality of the living room space 11 is reduced by performing ventilation. Predict.

  Moreover, based on outdoor information, the solar radiation state to the window part 21 selected as opening object is acquired, and when there is much solar radiation amount inserted into the living room space 11 from the window part 21, solar radiation is specified as an obstruction item. Here, even if a curtain is provided in the window portion 21 to be opened, the curtain is opened when ventilation is performed through the window portion 21, so that the sunlight cannot be blocked by the curtain, and the Is inserted into the living room space 11. Then, how much the temperature of the living room space 11 rises is predicted by the amount of solar radiation inserted into the living room space 11. By the way, it is considered that the morning sun and the western sun can be easily inserted into the living room space 11.

  In addition, examples of the inhibition items include temperature, humidity, noise, line of sight from the outside, and rain. As changes in temperature and humidity, it is predicted that the temperature and humidity of the room space 11 will rise or fall excessively due to the outside air temperature and outside air humidity. As a change in the noise, it is predicted that by opening the window portion 21, outdoor noise can easily enter the room, and the volume of the noise transmitted to the room is increased.

  As for the line of sight from the outside, the curtains block the line of sight from the outdoors if there is no ventilation, but if ventilation is performed, the curtains are opened and the line of sight from the outside is not blocked. The Incidentally, based on the outdoor information, it is determined whether or not there is a person around the window part 21 to be opened, and when there is a person around the window part 21, the line of sight from the outside is specified as an obstruction item.

  Of the multiple items included in the outdoor environment, the first items that may be blocked but not the target items are air quality, noise, gaze from the outdoors, rain There is a. Moreover, as a 2nd item which may be made into both an obstruction item and a target item, solar radiation, temperature, humidity, etc. are mentioned.

  In this case, when the shutter curtain 32 is in the closed state, the shutter device 31 can block the line of sight from the outside among the first items by changing the angle of each slat 35 (first mode). And it is possible to shift to a state (second mode) in which solar radiation can be captured in the second item.

  In step S205, in the living room space 11, it is determined whether or not the prediction result indicates that the state of the inhibition item changes with the execution of ventilation. And when it becomes a prediction result that the state of an inhibition item does not change, it progresses to Step S206. Even when it is predicted that the state of the inhibition item changes, it is assumed that the state of the inhibition item is predicted not to change if the change mode does not exceed the allowable range. If the state change mode of the inhibition item does not exceed the allowable range, the air quality is not lower than the predetermined value, the range of the temperature rise due to solar radiation is smaller than the predetermined value, the temperature or humidity due to the outside air temperature or the outside air humidity For example, the range of change is smaller than a predetermined value, and the volume of noise is smaller than a predetermined value.

  In step S206, a process for recommending opening the sash door 22 of the window portion 21 to be opened is performed. In this process, the notification device 83 notifies the recommended information that it is recommended to ventilate the window 21 to be opened by voice output or image display. Incidentally, this process corresponds to a capture process for shifting the outdoor situation capture means to the operation state.

  As a result of the notification of the recommended information, the user can open the window portion 21 in which the air flow easily occurs in the living room space 11. In addition, since the inhibition items do not change, an event that hinders the preparation of the indoor environment does not occur.

  On the other hand, when the inhibition item changes, the process proceeds to step S207, and the change of the inhibition item can be reduced without changing the window portion 21 selected as the opening target (without changing the outdoor situation capturing means). It is determined whether or not. For example, when air quality is included in the inhibition items, it is determined whether or not the cause of the air quality change is dust generated in the garden, and if it is determined that the dust is generated in the garden, the watering device It is assumed that generation of dust in the garden can be reduced if watering is performed by 85. Further, even when the inhibition item includes temperature and humidity, it is determined whether the change of the inhibition item is a temperature increase or a humidity decrease of the living room space 11, and it is determined that the change is a temperature increase or a humidity decrease. In this case, since the outside air around the window portion 21 is cooled or moisture is given to the outside air by performing watering with the watering device 85, it is assumed that the temperature rise and the humidity reduction of the living room space 11 due to ventilation can be reduced.

  Further, if the obstruction item includes solar radiation or rain falling, it is determined whether the shutter device 31 or the awning device 41 is installed for the window 21 to be opened, and the shutter device 31 or the awning is determined. If it is determined that the device 41 is installed, the amount of solar radiation and the amount of rain falling into the living room space 11 can be reduced by moving the shutter device 31 and the awning device 41 to a non-lighting state. However, the shutter device 31 is shifted to the ventilation state in the non-lighting state.

  Further, when the line of sight from the outside is included in the obstruction item, it is determined whether or not the shutter device 31 is installed for the window portion 21 to be opened, and it is determined that the shutter device 31 is installed. In this case, the shutter curtain 32 of the shutter device 31 is shifted to the closed state and the slats 35 are shifted to the ventilation state, so that the space where the line of sight from the outside enters the living room space 11 is the gap between the slats 35. It is limited, and it is possible to reduce outdoor gaze and rain.

  When it is determined that the change in the inhibition item can be reduced without changing the window 21 to be opened, the process proceeds to step S208, and the notification apparatus 83 uses the method for reducing the change in the inhibition item as advice information. To inform. As advice information, when air quality, temperature, and humidity are included in the inhibition items, information that prompts the watering device 85 to perform watering, and when the inhibition items include solar radiation, the shutter device 31 Information that prompts the user to operate the awning device 41, information that prompts the user to operate the shutter device 31 when the obstructing item includes a line of sight from the outside, or raining down.

  Then, after notifying the advice information for reducing the change of the inhibition item, the process of step S206 is executed.

  Further, if it is not possible to reduce the change in the inhibition items without changing the window part 21 to be opened (when step S207 is NO), the process proceeds to step S209, and the window part 21 to be opened is changed to another one. When the window portion 21 is changed, a change in the inhibition item caused by the ventilation is predicted. For example, when the window portion 21 of the second wall portions 17a and 17b is selected as an object to be opened in step S201 and air quality is included in the obstruction item, dust or dirt is generated from the window portion 21 of the second wall portion 17a. If pollen flows and the air quality changes beyond the allowable range, the object to be opened is changed from the window portion 21 of the second wall portion 17a to the window portion 21 of the first wall portion 16b. Assuming that ventilation is performed, the air quality change mode of the living room space 11 is predicted.

  In this case, the sash door 22 of the window portion 21 of the second wall portion 17a before the change corresponds to the first take-in means, and the sash door 22 of the window portion 21 of the first wall portion 16b after the change is changed. This corresponds to the second taking-in means. In addition, if the shutter apparatus 31 is installed with respect to the window part 21 before and after a change, the shutter apparatus 31 will also correspond to a 1st taking-in means or a 2nd taking-in means.

  Moreover, if solar radiation (for example, the western sun) is included in the inhibition item, the opening object is changed from the window part 21 to which the solar radiation hits to the window part 21 to which the solar radiation does not hit, and the living room space 11 is changed depending on the amount of solar radiation taken in that case. Predict how much the temperature will rise. If the obstruction item includes noise, the window portion 21 closer to the noise generation source is changed to the window portion 21 farther from the noise generation source, and in that case, the amount of noise transmitted to the living room space 11 is large. To predict. If the line of sight from the outside is included in the obstruction item, the window 21 on the side where the person is outdoors is changed to the window 21 on the side where there is no person, and the line of sight from the outside to the room space 11 in that case is changed. Presence or absence is predicted. If rain impingement is included in the obstruction item, the window 21 is changed from the window 21 where it is easy to rain on the windward to the window 21 where it is difficult to rain on the leeward, and the amount of rain in that case is predicted. To do.

  In step S210, it is determined whether or not the prediction result that the inhibition item is changed with the ventilation is obtained when the window 21 to be opened is changed. And when it becomes a prediction result that the state of an inhibition item does not change, it progresses to Step S211. In step S210, as in step S205, even if the state of the inhibition item is predicted to change, if the change mode does not exceed the allowable range, the state of the inhibition item is predicted not to change. To do.

  In step S211, the window part 21 to be opened is changed. For example, when each of the window portions 21 of the second wall portions 17a and 17b is to be opened, the window portion 21 of the second wall portion 17a among the window portions 21 is opened from the window portion 21 of the first wall portion 16b. To change.

  In step S212, the process which recommends opening the sash door 22 of the window part 21 after changing opening object (performing ventilation | gas_flowing in the window part 21) is performed. In this process, similar to step S206, the notification device 83 notifies the recommended information that recommends ventilation through the window portion 21 after changing the opening target. This process also corresponds to a capture process for shifting the outdoor situation capture means to the operating state.

  In the prediction result that the flow of air does not occur in the living room space 11 (in the case of NO determination in step S203), or the prediction result that the state of the inhibition item changes after changing the window 21 to be opened. When it becomes (when step S210 is YES determination), it progresses to step S213 and notifies the recommendation information which recommends not opening the window part 21 of opening object from the alerting | reporting apparatus 83. FIG.

  Here, if the predicted result indicates that the flow of air as a target item does not change even when the window 21 is opened, it is included in the recommended information to inform the user to that effect. In addition, when the window 21 is opened, it is predicted that the air quality, solar radiation, temperature, humidity, noise, line of sight from the outside, rainfall, etc. as the obstruction items change beyond the allowable range. Is included in the recommended information to inform the user to that effect. The window portion 21 to be opened here includes a window portion 21 when the opening subject is changed.

  Returning to the description of FIG. 3, after completion of the ventilation process in step S <b> 105, the process proceeds to step S <b> 106, and a recommendation notification that ventilation is performed or not performed in the window portion 21 (processing in steps S <b> 206, S <b> 212, S <b> 213). In the case of performing the above, information on whether or not ventilation is actually executed is acquired. Here, information about whether or not the sash door 22 has transitioned from the closed state to the open state after a predetermined time (for example, 5 minutes) from the execution of the recommended notification, and whether or not the shutter device 31 has transitioned from the ventilation blocking state to the ventilation state. Get the information. In other words, information is acquired as to whether or not outdoor state capturing means such as the sash door 22 and the shutter device 31 has been shifted from the non-operation state to the operation state.

  In step S107, the state of ventilation through the window 21 after a predetermined time is compared with the content of the recommended information. For example, it is determined whether or not ventilation is performed in the living room space 11 after a predetermined time while the recommended information is a content that recommends ventilation. Further, even when ventilation is performed after a predetermined time, it is determined whether or not the ventilation is performed in the window portion 21 to be opened. That is, it is determined whether the window portion 21 that is to be opened is opened or whether the window portion 21 that is not to be opened is opened.

  In step S <b> 108, the recommended information is associated with the execution / non-execution results of ventilation for the recommended information and stored in the storage unit 52. In this case, the operation history for the outside air condition capturing means such as the sash door 22 and the shutter device 31 is stored in the storage unit 52. As a result, it is possible to calculate the probability that the user has actually opened the window 21 recommended by the recommended information as a past record. For example, when the window portion 21 of the first wall portion 16a is recommended as an opening target, the probability that the user actually opens the window portion 21 of the first wall portion 16a can be calculated. Thereby, it is possible to acquire user preference information and estimated information that there is some obstacle such as a tree or a neighboring house on the outdoor side of the window portion 21 of the first wall portion 16a.

  Here, in the process of selecting the window part 21 to be opened in step S201, the user's operation history is read from the storage unit 52, and the window part 21 set as the opening object based on the related information is used by the user. In the history, it is determined how much the actual opening has been performed, and when the probability is higher than a predetermined value, the operation history is not reflected in the selection of the window 21 to be opened, and the probability is less than the predetermined value. If it is, the operation history is reflected in the selection of the window 21 to be opened.

  For example, even when the window portion 21 of the first wall portion 16a is selected as a candidate for opening based on the relevant information each time, the probability that the window portion 21 of the first wall portion 16a is opened in the user's operation history is more than a predetermined value. If it is lower than the first wall portion 16a, the window portion 21 of the other wall portion is selected as the object to be opened. In this case, in the operation history, when the opening of the window portion 21 of the first wall portion 16a is recommended, the probability of opening the window portion 21 of the second wall portion 17b instead of the window portion 21 is greater than a predetermined value. Is higher, the window portion 21 of the second wall portion 17b is selected as an opening target.

  When ventilation of the living room space 11 is performed (when Step S103 is YES), or when there is no ventilation request (when Step S104 is NO), the ventilation process is not performed and the process proceeds to Step S109. It is determined whether or not solar radiation is taken into the living room space 11 through the unit 21. Here, for each of the sweep windows 21a, it is determined whether or not the shutter device 31 and the awning device 41 are in a non-lighting state, and when at least one of the shutter device 31 and the awning device 41 is in a non-lighting state, It is assumed that no lighting is performed at the sweep window 21a.

  When the lighting from the sweep window 21a is not performed, the process proceeds to step S110, and it is determined whether there is a lighting request for the living room space 11. Here, it is determined whether or not an input operation indicating a lighting request is performed on the remote controller 86, and it is assumed that there is a lighting request when the input operation is performed. In addition, as a lighting request | requirement, the opening request | requirement of the shutter curtain 32 or the awning 42 is mentioned. Further, when a resident or the like comes home, the ventilation request may be that the locking device of the front door has been unlocked, or the ventilation request may be that the resident or the like has woken up. Note that lighting corresponds to the target item.

  If there is a daylighting request for the living room space 11, the process proceeds to step S111 to perform daylighting processing. In the daylighting process, various processes are executed in the same procedure as the aeration process. Therefore, the daylighting process will be briefly described focusing on the differences from the aeration process.

  In the daylighting process, the target item is daylighting, the obstruction item is the line of sight from the outside, and the outside air condition capturing means is the shutter device 31 and the awning device 41. And each sweep window 21a can be selected as a lighting object to perform the lighting, and any one of the sweep windows 21a is selected based on the amount of solar radiation and the irradiation angle of sunlight in the outdoor information. Select as the daylighting target.

  As a process of reducing the change in the inhibition items without changing the sweep window 21a that is the subject of lighting, when the shutter device 31 is shifted to the lighting state, the shutter curtain 32 is not shifted to the open state, but the shutter A process of shifting the curtain 32 to the closed state and shifting each slat 35 to an angle through which the solar radiation passes is given. In this case, the line of sight from the outside can be reduced by the slats 35 in a state where the solar radiation can be taken into the living room space 11 from the gaps between the slats 35.

  Then, a notification process that recommends lighting at the sweep window 21a selected as the lighting target, a notification process that recommends lighting at the sweep window 21a when the lighting target is changed to another sweep window 21a, and a lighting target One of the notification processes recommending not to perform daylighting at the sweep window 21a is executed.

  After the daylighting process in step S111 is completed, the processes in steps S106 to S108 are executed in the same manner as after the ventilation process is completed. In step S106, information indicating whether or not the lighting has actually been performed is acquired after performing the recommendation notification that the lighting is performed or not performed in the window portion 21. In step S107, the state of lighting through the window 21 after a predetermined time is compared with the content of the recommended information. In step S <b> 108, the recommended information is associated with execution and non-execution of lighting for the recommended information and stored in the storage unit 52.

  According to the embodiment described in detail above, the following excellent effects can be obtained.

  It is possible to change the air flow and the amount of solar radiation in the living room space 11 by taking in outside air and solar radiation, but on the other hand, dust, pollen, noise, and the line of sight from the outside with taking in outside air and solar radiation. When it is predicted that the state of the inhibition item such as raining will change, it is possible to prevent the intake of outside air and solar radiation. In this case, it is possible to select whether to give priority to preventing the occurrence of disadvantages associated with the intake of outside air or solar radiation and obtaining the benefits associated with the intake of ambient air or solar radiation. Therefore, if priority is given to keeping the state of obstructing items such as dust and pollen uptake, rather than taking in outside air and solar radiation, outside air and solar radiation should be kept in the room to maintain the state of the obstructing items. It can be selected not to be taken into the space 11. As described above, the indoor environment can be suitably adjusted using the outdoor situation.

  Even when it is predicted that the state of the inhibition item will change with the intake of outside air or solar radiation, if the predicted change in the state of the inhibition item does not exceed the allowable range, it is allowed to take in the outside air or solar radiation. Thereby, if the state change of the inhibition item is not extremely large, the state of the inhibition item is allowed to change, and priority can be given to taking in outside air or solar radiation.

  In the configuration in which a plurality of window portions 21 are provided in the living room space 11 and a sash door 22 is provided for each of the window portions 21, when outside air and solar radiation are taken in from the window portion 21 selected as an opening target. Even if the state of the inhibition item is predicted to change beyond the allowable range, the state of the inhibition item is allowed to be changed even if outside air or solar radiation is taken into the living room space 11 by changing the open target to another window portion 21. It becomes possible to keep within the range. In this case, it is possible to achieve both the benefits associated with capturing outside air and solar radiation, and the suppression of the disadvantages associated with capturing outside air and solar radiation, by simply changing the position for capturing outside air and solar radiation. .

  In addition, when it is predicted that the state of the inhibition item will change beyond the allowable range even if outside air or solar radiation is taken in from any of the window portions 21, the opening of the sash door 22 of each window portion 21 is restricted, so that the outside air It is possible to give priority to suppressing the disadvantages associated with the intake of outside air and solar radiation rather than obtaining the advantages associated with the intake of solar radiation and solar radiation. That is, it can be avoided that the state of the inhibition item changes beyond the allowable range.

  If the state of the inhibition item does not change with the intake of outside air or the day difference, or if it does not exceed the allowable range even if it changes, outside air and solar radiation are taken in, so the outside air does not have to worry about the change in the state of the inhibition item And the benefits associated with capturing solar radiation.

  In some cases, solar radiation may be a target item, but when ventilation is a target item, solar radiation is a hindrance item. However, when the solar radiation is an obstructive item, the solar radiation is not intentionally captured. For this reason, the change in the state of solar radiation as the second item that can be both the target item and the inhibition item can be suitably managed according to the outdoor environment and indoor environment.

  If the wind is too weak or too strong, or if the amount of solar radiation is too small, the outside air and solar radiation will be taken in regardless of whether the state of the obstructing item changes with the intake of outside air or solar radiation. Therefore, it is possible to avoid the situation where the air flow and the solar radiation state of the room space 11 of the outside air and solar radiation do not meet the purpose. That is, the current indoor environment of the living room space 11 can be maintained.

  In a configuration in which recommended notification regarding the intake of outside air and solar radiation is performed, the actual outside air and solar radiation intake state for the recommended notification is stored in the storage unit 52 as an operation history, and the outside air and solar radiation are based on both related information and the operation history. Therefore, the sash door 22, the shutter device 31, the awning device 41, and the like can be suitably operated based on user preferences and events not included in the related information. .

[Other Embodiments]
The present invention is not limited to the description of the above embodiment, and may be implemented as follows, for example.

  (1) In the above embodiment, after predicting the state change state of the target item when the outdoor situation is taken into the living room space 11, the change of the inhibition item is predicted, but the prediction of the change of the inhibition item is performed. May be performed before the target item is predicted. Even in this case, among the plurality of items included in the indoor environment, for the first item that may be an inhibition item but not the target item, it is preferable that the room environment 11 does not change the indoor environment. Since it is unchanging that it is preferable in arranging, it is possible to predict the change of the inhibition item when the first item is the inhibition item.

  (2) In the above embodiment, when the air flow in the living room space 11 is the target item, the solar radiation is included in the inhibition item, but the solar radiation may not be included in the inhibition item. This is because, if the temperature and humidity of the living room space 11 are not adjusted by taking in the outside air, the room temperature can be raised by taking in the outside air in the same manner that the room temperature may rise due to solar radiation. It is because there is sex.

  (3) In the above-described embodiment, the window unit 21 is selected as the opening target or the lighting target based on the related information and the user's operation history. The window portion 21 only needs to be selected as a lighting target, and the user's operation history may not be included in the selection parameters.

  (4) In the above-described embodiment, the notification device 83 is used as an intake process for shifting the outside air state taking unit to the operating state and a restricting process for restricting the outside air state taking unit to move to the operating state. However, the operation control of the outside air condition taking-in means may be performed. For example, the sash door drive part which can open and close the sash door 22 with respect to the window part 21 is provided, and a sash door drive part sets the sash door 22 of the window part 21 to be opened as an intake process. A process for forcibly opening is performed. In this configuration, as the restricting process, a process is performed in which the sash door driving unit holds the closed state so that the sash door 22 of the window part 21 to be opened is not opened.

  (5) The related information including outdoor information and indoor information may include information indicating a time zone, information indicating a resident's schedule, and the like. In short, the related information may be information related to the purpose item and the inhibition item of the living room space 11.

  (6) In the above embodiment, ventilation and solar radiation are taken into the living room space 11 through the window portion 21, but it may be taken into the living room space 11 through an entrance and a vent provided in the outer wall 15. In the configuration in which ventilation and solar radiation are taken in from the doorway, the door provided at the doorway corresponds to the outside air state taking-in means, and the opening and closing of the door can be switched between execution and non-execution of outside air and solar radiation. . In the configuration in which ventilation is taken in from the ventilation port, the ventilation fan (fan) provided in the ventilation port corresponds to the outside air condition taking-in means, and execution / non-execution of taking in outside air is switched by operating and stopping the ventilation fan. It will be.

  (7) The related information used for the determination of taking in the outdoor situation may include a user's health condition and constitution. For example, the user's health condition and constitution may include dryness of eyes and skin due to air flow, outdoor noise, TV sound, children's voice, etc., hay fever, asthma, and cold. For example, there is a tendency to be sensitive to air quality such as cigarette smoke.

  (8) A configuration may be adopted in which capturing of outdoor conditions in a plurality of buildings 10 is centrally managed by a central management center or the like. For example, when an outdoor situation is taken in any one of a plurality of buildings 10 that are centrally managed, if a merit due to a change in the target item is suitably obtained, the other building 10 is also recommended to capture outdoor conditions. In addition, when there are a plurality of buildings 10 that have taken summer heat countermeasures by taking in outside air or sprinkling with a watering device 85, indoor environments such as floor plan, temperature, and humidity belong to the same range. The building 10 may be configured such that the building 10 that has taken the heat countermeasure with the highest effect is identified and the heat countermeasure is proposed to the other building 10.

  DESCRIPTION OF SYMBOLS 10 ... Building, 21 ... Window part as ventilation part, 22 ... Sash door as ventilation blocking means, 31 ... Shutter apparatus as ventilation blocking means and solar radiation shielding means, 32 ... Shutter which comprises ventilation shielding means and solar radiation shielding means Curtain, 35... Slat constituting the air blocking means and the sun shielding means, 41... Awning device as the sun shielding means, 42... Awning constituting the sun shielding means, 51 .. Inhibition mode prediction means, restriction processing means, inhibition judging means , Target mode prediction means, capture processing means, purpose determination means, home execution server as storage execution means and notification execution means, 52 ... storage section as storage means, 61 ... outside temperature sensor as information acquisition means, 62 ... information Outside air humidity sensor as acquisition means, 63 ... Noise sensor as information acquisition means, 64 ... Outdoor air quality sensor as information acquisition means 65, outdoor human sensor as information acquisition means, 71 ... room temperature sensor as information acquisition means, 72 ... room humidity sensor as information acquisition means, 73 ... room air quality sensor as information acquisition means, 83 ... A notification device as a notification means.

Claims (9)

Applicable to buildings with outdoor situation capture means that is shifted from the non-operation state to the operation state in order to capture the outdoor situation that is an outdoor situation into the building,
An indoor environment management system for managing an indoor environment in the building that changes in accordance with the capturing of the outdoor condition by the outdoor condition capturing unit,
Predetermined objective items that are intended to capture the outdoor situation into the building, and obstructing items that, when changed in accordance with the incorporation of the outdoor situation, impedes changes in the indoor environment. Information acquisition means for acquiring related information related to the target item and the inhibition item,
Assuming that the outdoor situation capturing unit is shifted to the operation state, based on the related information acquired by the information acquisition unit, an inhibition mode prediction that predicts a mode of state change for the inhibition item Means,
Restriction processing means for performing restriction processing for restricting the outdoor state capturing means from being shifted to the operation state according to the state change state of the inhibition item predicted by the inhibition aspect prediction means; ,
Inhibition determination means for determining whether or not the state change state of the inhibition item predicted by the inhibition aspect prediction means exceeds a predetermined allowable range;
With
The regulation processing means is
When it is determined that the prediction about the inhibition item made by the inhibition determination unit exceeds the allowable range, the change in the inhibition item is reduced even when the outdoor state capturing unit is shifted to the operation state. While it is determined whether or not it is possible, and when it is determined that it is possible, a method for reducing the change in the inhibition item without performing the restriction process is notified from the predetermined notification means as advice information If it is determined that it is not possible, the regulation process is performed,
The indoor environment management system is characterized in that, when it is determined that the prediction does not exceed the allowable range, the restriction process is not performed . The outdoor situation taking-in means has first taking-in means and second taking-in means provided at a position different from the first taking-in means. These first taking-in means and second taking-in means The capturing means captures the outdoor situation in the same space in the building,
The inhibition mode prediction means predicts a state change state for the inhibition item, assuming that the first capture means is transferred to the operation state.
The restriction processing means assumes that the first capture means has been moved to the operation state, and when the inhibition determination means determines that the prediction of the inhibition item exceeds an allowable range, 2. The indoor environment management system according to claim 1 , wherein the restriction process is performed on the first capture means and the restriction process is not performed on the second capture means. The inhibition mode prediction means predicts a state change state for the inhibition item assuming that the second capture means is shifted to the operation state.
The restriction processing means determines that the prediction of the inhibition item exceeds an allowable range by the inhibition determination means on the assumption that the first capture means has shifted to the operation state, and the second Assuming that the take-in means is shifted to the operation state, when the inhibition determination means determines that the prediction of the inhibition item exceeds an allowable range, the first take-in means and the second take-in means The indoor environment management system according to claim 2 , wherein the restriction process is performed for both of the capturing means. A capture processing means for performing a capture process for shifting the outdoor condition capture means to the operation state when the inhibition determination means determines that the prediction of the inhibition item does not exceed the allowable range; The indoor environment management system according to any one of claims 1 to 3 , wherein the indoor environment management system is provided. The outdoor situation capturing means is shifted from the non-operation state to the operation state by performing a manual operation on the outdoor situation capturing means.
Storage execution means for storing an operation history for the outdoor situation capturing means in a predetermined storage means;
When the inhibition determination unit determines that the prediction of the inhibition item does not exceed the allowable range, it is recommended to execute the manual operation based on the past operation history stored in the storage unit. Notification executing means for informing the recommended information from the predetermined notification means;
With
The storage execution means, as a result indicating whether or not the manual operation has been executed for the notification of the recommended information performed by the notification means, the past operation history stored in the storage means, The indoor environment management system according to claim 4 , wherein the indoor environment management system is stored in the storage unit. The outdoor situation capturing means can be shifted to a predetermined first mode and a second mode different from the first mode as a mode when the operation mode is shifted to the operation state,
The plurality of items indicating the state of the indoor environment are both the first item that may be the inhibition item but not the objective item, and both the inhibition item and the objective item. Second item that may be included,
The inhibition mode prediction means assumes that the first item is not the second item but the inhibition item and predicts the inhibition item when the outdoor situation capturing means is assumed to be transferred to the first mode. On the other hand, when it is assumed that the outdoor situation capturing means is transferred to the second mode, the second item is set as the inhibition item, and the inhibition item is predicted. The indoor environment management system according to any one of claims 1 to 5 . Assuming that the outdoor situation capturing means has been shifted to the operation state, a target aspect prediction that predicts a state change state for the target item based on the related information acquired by the information acquisition means. Means,
Purpose determination means for determining whether or not a state change state for the target item predicted by the target aspect prediction means is included in a predetermined target aspect;
With
The restriction processing means of claims 1 to 6, characterized in that the said object determining means prediction for the target item and performs the control process when it is determined to be not included in the target mode The indoor environment management system according to any one of the above. Applicable to buildings with vents that will take in the outdoor situation by taking outside air from outside,
The outdoor condition capturing means has ventilation blocking means capable of blocking ventilation of the ventilation section,
Both of the target item and the inhibition item, claims 1 to 7, characterized in that ventilation cut-off means is an item for changing the outside air taken into the building through the vent when in the non-blocked state The indoor environment management system according to any one of the above. Applicable to buildings with windows that capture the outdoor conditions by capturing solar radiation and outside air from outside,
The outdoor situation capturing means is:
A sash door capable of blocking the ventilation of the window,
Solar radiation shielding means capable of shielding the solar radiation taken into the building through the window,
One of the objective item and the inhibition item is changed by outside air taken into the building through the window when the sash door is in an open state, and the other is the non-shielding state of the solar radiation shielding means The indoor environment management system according to any one of claims 1 to 8 , wherein the indoor environment management system is solar radiation that is taken into the building through the window portion.

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