JP5504372B1 - Air conditioning system control device, air conditioning system and building - Google Patents

Abstract

A control device for an air conditioning system is provided that balances economy and comfort.
An air conditioning system control device (S) for controlling an on-floor space (6) inside a building (1) to be switched between a comfort priority mode (T1) and an economic priority state (T0) mode by an indoor unit (5) of an air conditioner. Time schedule operation control for switching between the two modes, and human sensor detection result reflecting operation control for switching between the two modes from the detection result of the presence or absence of a person by the presence sensor 12 provided in the space 6 on the floor In the comfort priority mode T1, if the absence of a person continues as a result of detection by the human sensor 12 for a predetermined time or longer, the control is changed to the economy priority mode T0. Even in the priority mode T0, even if a situation in which a person is present continues as a result of detection by the human sensor 12, the economy priority mode T0 is controlled. It has the structure.
[Selection] Figure 2

Description

  The present invention relates to a control device for an air conditioning system, an air conditioning system including the control device, and a building including the air conditioning system.

  2. Description of the Related Art Conventionally, there is known an air conditioning system capable of performing time schedule operation control according to a time schedule such as turning on / off an air conditioner in a building according to a time zone.

  A number of control devices that automatically and efficiently control an air conditioning system in a building using human sensors have been proposed (see, for example, Patent Document 1).

JP 2011-220608 A

  However, with only the air conditioning system capable of performing the above-described conventional time schedule operation control, the behavior of the occupants of a building or the like often does not always follow the time schedule. For example, in a certain time zone, the air conditioner However, there are cases in which there are no residents at all for a long time, and air conditioning during the entire time zone is wasted and it is not economical.

  On the other hand, in a control device for an air conditioning system using a conventional human sensor such as Patent Document 1, since the air conditioner is turned on after the human sensor detects that a resident or the like is present, When the temperature difference between the inside and outside of the house is severe, it takes time for the air-conditioned space to reach a comfortable temperature, which may be lacking in comfort.

  Accordingly, an object of the present invention is to provide a control device for an air conditioning system in which economic efficiency and comfort are balanced, an air conditioning system including the control device, and a building including the air conditioning system.

  In order to achieve the above object, the control device for an air conditioning system of the present invention controls an air-conditioned space inside a building so that the two modes of the comfort priority mode and the economy priority mode can be switched by the air conditioner. A control device for an air conditioning system, which detects whether a person is present or absent by time schedule operation control for switching between the two modes according to a time schedule and a human sensor provided in the air-conditioned space. The operation control of the air conditioner is performed in combination with the human sensor detection result reflecting operation control for switching the two modes from the result, and the detection result by the human sensor in the comfort priority mode in the time schedule operation control If the situation in which the person is absent continues for a predetermined time or longer, the control is changed to the economic priority mode, while the previous In the economic priority mode in the time schedule operation control, even if a situation in which a person is present continues as a result of detection by the human sensor, the economic priority mode is controlled, and the air conditioner is heated. And at least one of cooling is possible, the lower limit temperature of the economic priority mode during heating is lower than the lower limit temperature of the comfort priority mode, and the upper limit temperature of the economic priority mode during cooling is It is characterized by being higher than the upper limit temperature of the comfort priority mode.

  Here, the upper limit temperature is a temperature that is controlled to be lower than the temperature in the mode, and the lower limit temperature is a temperature that is controlled to be higher than the temperature in the mode. .

  The relationship between the lower limit temperature of the economy priority mode and the lower limit temperature of the comfort priority mode during heating and the relationship between the upper limit temperature of the economy priority mode and the upper limit temperature of the comfort priority mode during cooling are the same time. Relative relationship.

  That is, the lower temperature limit of the economy priority mode during heating is higher than the lower limit temperature of the comfort priority mode compared to different times, and the upper limit temperature of the economy priority mode during cooling is the upper limit temperature of the comfort priority mode. Lower ones are also included.

  Here, the lower limit temperature of the economy priority mode during heating is 15 to 20 ° C., and the lower limit temperature of the comfort priority mode is preferably 20 to 25 ° C.

  Moreover, the upper limit temperature of the said economy priority mode at the time of cooling is 28-31 degreeC, and the upper limit temperature of the said comfort priority mode is good in it being 25-28 degreeC.

  Furthermore, it is preferable that a time schedule operation control priority time zone in which operation control is performed only by time schedule operation control can be set without reflecting the detection result by the human sensor.

  The predetermined time may be set in plural.

  Further, the economical priority mode may be one that maintains a temperature at which a person is not uncomfortable without stopping the air conditioner.

  The air conditioning system of the present invention includes the above-described control device for an air conditioning system of the present invention.

  Here, the air conditioner may be installed in a space under the floor of the building.

  Moreover, the said air conditioner can perform the floor air conditioning and underfloor air conditioning which air-condition the floor space which is the said air-conditioned space, It is good to carry out operation control of the said floor air conditioning with the said control apparatus.

  The building of the present invention includes the above-described air conditioning system of the present invention.

  Such a control device for an air conditioning system of the present invention is a control device for an air conditioning system that controls an air-conditioned space inside a building so that the two modes of a comfort priority mode and an economic priority mode can be switched by the air conditioner. It is.

  Then, according to the time schedule, the time schedule operation control that switches between the two modes, and the human sensor that switches between the two modes from the detection result of the presence or absence of the person by the human sensor provided in the air-conditioned space The operation control of the air conditioner is performed in combination with the detection result reflecting operation control.

  In addition, in the comfort priority mode in the time schedule operation control, if the absence of a person continues for a predetermined time or longer as a result of detection by the human sensor, the control is changed to the economy priority mode, while the economy in the time schedule operation control. Even in the priority mode, even if a situation where a person is present continues as a result of detection by the human sensor, the economy priority mode is controlled.

  Further, the air conditioner can be at least one of heating and cooling, and the lower limit temperature of the economy priority mode during heating is lower than the lower limit temperature of the comfort priority mode, and the upper limit of the economy priority mode during cooling. The temperature is higher than the upper limit temperature of the comfort priority mode.

  Because of the above configuration, for example, the behavior of the occupants of the building does not follow the time schedule, and in the comfort priority mode in the time schedule operation control, if the occupants are not in the air-conditioned space for a while, the economic priority is given. Since it is controlled to change to the mode, it is more economical.

  Further, in the comfort priority mode in the time schedule operation control, when a resident or the like is in the air-conditioned space, the operation is controlled according to the time schedule, so that the comfort can be almost ensured.

  In addition, when the occupants are in the air-conditioned space in the economic priority mode in the time schedule operation control, the control is performed in the economic priority mode, so there is no unexpected air conditioning cost and the economy is excellent. Yes.

  Furthermore, if the economy priority mode is set to an operation that maintains a temperature at which the occupants are not uncomfortable rather than putting the air conditioner into a complete operation stop state, more comfort can be ensured.

  In other words, the economy and comfort are balanced as compared with the control device of the conventional air conditioning system.

  Here, when the lower limit temperature of the economic priority mode during heating is 15 to 20 ° C. and the lower limit temperature of the comfort priority mode is 20 to 25 ° C., the economical priority is given as the temperature environment during heating. Even in the mode, it is possible to ensure an environment in which many people feel uncomfortable, and in the comfort priority mode, it is possible to ensure an environment in which many people feel comfortable.

  Moreover, when the upper limit temperature of the economy priority mode during cooling is 28 to 31 ° C. and the upper limit temperature of the comfort priority mode is 25 to 28 ° C., the economy priority mode is used as the temperature environment during cooling. However, an environment in which many people feel uncomfortable can be ensured, and in the comfort priority mode, an environment in which many people feel comfortable can be ensured.

  In addition, when the time schedule operation control priority time zone that controls the operation only by the time schedule operation control is not set without reflecting the detection result by the human sensor, for example, most of the residents etc. in the midnight time zone If you set the economy priority mode in a living room, etc., you are more likely to leave in a short time even if a resident comes in. In addition, in the early morning hours, if the comfort priority mode is set, the living room is in a comfortable state when the resident wakes up.

  Further, when a plurality of predetermined times can be set, it is advantageous to balance economic efficiency and comfort in accordance with human behavior patterns.

  Specifically, about 10 minutes is usually appropriate as the predetermined time. In other words, if the situation in which the person is absent from the detection result of the human sensor continues for about 10 minutes or more, the mode is switched from the comfort priority mode to the economic priority mode. However, the reason why it is possible to switch from the economy priority mode to the comfort priority mode in the timer schedule operation control is that there is a high probability that a person will be present after the switch and it is desired to make a comfortable environment in advance. Therefore, after switching to the comfort priority mode, if this predetermined time is longer than 10 minutes, for example, about 60 minutes, it is prevented that the economy priority mode is switched (returned) in a short time. be able to.

  Such an air conditioning system of the present invention is configured to include the control device for the air conditioning system of the present invention described above.

  Since it is an above-mentioned composition, it can be set as an air-conditioning system which has an effect of a control device of an above-mentioned air-conditioning system of the present invention.

  Here, when the air conditioner is installed in the under-floor space of the building, it is possible to effectively use the space where the above-floor space is not occupied by the air-conditioner.

  In addition, the air conditioner can perform on-floor air-conditioning and under-floor air-conditioning that air-conditions the space above the floor to be air-conditioned. If the operation is performed only by the schedule operation control, the comfort is further increased in the economical priority mode due to the residual heat due to the underfloor air conditioning.

  Such a building of the present invention is configured to include the above-described air conditioning system of the present invention.

  Since it is an above-mentioned composition, it can be considered as a building which has an effect of an above-mentioned air-conditioning system of the present invention.

It is explanatory drawing which shows schematic structure of the building provided with the air conditioning system of the Example. It is a block diagram which shows schematic structure of the control apparatus of the air conditioning system of an Example. It is a time chart which shows the specific example of the standard specification setting by the control apparatus of the air conditioning system of an Example.

  DESCRIPTION OF EMBODIMENTS Hereinafter, modes for carrying out the present invention will be described based on examples shown in the drawings.

  First, the configuration of the embodiment will be described.

  Drawing 1 shows the schematic structure of building 1 provided with the air-conditioning system of an example.

  The building 1 includes a foundation bottom concrete 1b constructed as a heat insulating foundation, a foundation side wall concrete 1c erected on the side edge, an outer wall part 1d erected on the foundation side concrete, and an upper end of the outer wall part 1d. It is mainly comprised from the ceiling part 1e which plugs up opening.

  The space surrounded by the ceiling portion 1e and the outer wall portion 1d has a configuration in which a floor space 1 and a floor space 6 as an air-conditioned space used for a living room or the like are partitioned by the floor portion 1a.

  Further, a heat insulating material 2 such as glass wool is attached to the underfloor space 3 side of the foundation side wall concrete 1c so that heat in the underfloor space 3 is prevented from leaking to the outside as much as possible.

  In the underfloor space 3, an indoor unit 5 of an air conditioner as a blow-out type air conditioner is installed.

  Here, the indoor unit 5 of this air conditioner is a heat pump type, and is connected to the outdoor unit 4 installed outside the building 1 by a heat medium circulation conduit.

  Further, the indoor unit 5 of this air conditioner has a dehumidifying function and is provided with a drain 7 for drainage that penetrates from the underfloor space 3 to the outdoors.

  Furthermore, the indoor unit 5 of this air conditioner has a suction part 51, floor blowing parts 52, 52, and a floor blowing part 53.

  The indoor unit 5 of the air conditioner includes a fan (not shown) capable of blowing air with various strengths from the blowout units 52 and 52 and the blowout unit 53 under the floor, and a control unit 54. And a storage unit 55 are incorporated.

  Furthermore, on-floor blowing parts 52, 52 and under-floor blowing part 53 are provided with on-off valves 52a, 53a made of an electric damper or the like, respectively.

  The indoor unit 5 of the air conditioner is provided with a temperature sensor 5a that sends the temperature data of the underfloor space 3 to the control unit 54 by wire or wirelessly.

  Further, the floor portion 1a is provided with an exhaust port 9 and two types of air supply ports 10, 10, 11 with a grill.

  Here, the air inlets 10 and 10 are respectively connected to the blowout part 52 on the floor of the indoor unit 5 of the air conditioner by the duct 82, and the other air inlet 11 is not connected to the underfloor space 3 via the duct. Communicate directly with.

  Further, the duct 81 also connects between the suction portion 51 of the indoor unit 5 of the air conditioner and the exhaust port 9.

  Furthermore, a human sensor 12 is provided in the floor space 6, and the human sensor 12 is connected to the control unit 54 in a wired or wireless manner.

  A remote controller 13 as a controller is also provided in the floor space 6.

  Further, the remote controller 13 incorporates a temperature sensor 13 a that sends temperature data of the floor space 6 to the control unit 54 by wire or wirelessly.

  Next, the control device S of the air conditioning system according to the first embodiment will be described.

  FIG. 2 shows a schematic configuration of the control device S of the air conditioning system according to the first embodiment.

  The control device S of the air conditioning system according to the first embodiment includes a control unit 54 and a storage unit 55, a human sensor 12 and a temperature sensor 13a built in the indoor unit 5 of the air conditioner as a blowout type air conditioner. And a remote controller 13 as a controller.

  And the memory | storage part 55 has memorize | stored control patterns, such as automatic control setting which is a standard specification setting, and time schedule operation control at the time of this automatic control setting.

  Here, at the time of the automatic control setting, basically, the conditioned air (warm air or cold air) is blown out from the blowout units 52 and 52 on the floor, and the conditioned air is blown out from the air supply ports 10 and 10 to the floor space 6. Underfloor air conditioning, in which air-conditioned air (warm air or dehumidified air) is blown out from the air-conditioning and under-floor blowing section 53 and the air-conditioned air blows out into the under-floor space 3, both a comfort priority mode and a human-friendly comfort temperature mode, Time schedule operation control is performed to switch between the two modes, the economic priority mode, in which the temperature environment is not uncomfortable.

  Further, in the floor air conditioning, the human sensor 12 provided in the floor space 6 as the air-conditioned space reflects the human sensor detection result that switches between these two modes from the detection result of the presence or absence of the person. In combination with the operation control, the operation of the indoor unit 5 of the air conditioner as an air conditioner is controlled.

  More specifically, in the floor air conditioning, when the situation in which the person is absent from the detection result of the human sensor 12 continues for a predetermined time (for example, 10 minutes) or more in the comfort priority mode in the time schedule operation control, the economy priority mode On the other hand, in the economic priority mode in the time schedule operation control, even if a situation in which a person is present continues as a result of detection by the human sensor 12, the control is performed in the economic priority mode.

  Moreover, the detection result by the human sensor 12 is not reflected, and the time schedule operation control priority time zone for performing the operation control only by the time schedule operation control can be set.

  In the control of the air conditioning on the floor, it is made based on the temperature data in the floor space 6 detected by the temperature sensor 13a, and the opening with the lower limit temperature (or the upper limit temperature) is taken into account to turn on / off the operation and Control is made.

  In the control of underfloor air conditioning, it is made based on the temperature data in the underfloor space 3 detected by the temperature sensor 5a, and the opening with the lower limit temperature (or the upper limit temperature) is taken into account, and the operation is turned on / off and the strength is reduced. Control is made.

  Furthermore, a part of the conditioned air blown into the underfloor space 3 by the underfloor air conditioning is blown out from the air supply port 11 to the above-floor space 6.

  In addition, the standard setting can be turned on / off, adjusted, and changed by the remote controller 13. In particular, when there is an adjustment or change, the storage unit 55 stores the setting. When the frequency is high, it has a learning function to be reflected in the standard specification setting.

  Next, the control by the control device S of the air conditioning system of the embodiment will be described more specifically.

  FIG. 3 is a time chart showing a specific example of standard specification setting (one day from 23:00 on the previous day to 23:00 on the next day) by the control device S of the air conditioning system of the embodiment.

  Here, the standard specification setting is a model case in which the space 6 on the floor is a living room and heating in winter is assumed.

  In this time chart, the upper part shows time schedule operation control, the middle part shows the detection result by the human sensor 12, and the lower part shows the operation control of the air conditioning on the floor reflecting the detection result by the human sensor 12. Yes.

  In the upper and lower diagrams, the mountain portion indicates the comfort priority mode T1, and the valley portion indicates the economic priority mode T0.

  First, in the underfloor air conditioning, only the time schedule operation control for switching between the two modes of the comfort priority mode T1 (lower limit temperature 25 ° C.) and the economy priority mode T0 (lower limit temperature 20 ° C.) is performed.

  Specifically, the economy priority mode T0 is set from 23:00 on the previous day to 4 o'clock the next day, the comfort priority mode T1 is set from 4 to 9 o'clock, and the economy priority mode T0 is set from 9 o'clock to 12 o'clock. From 12:00 to 14:00, the comfort priority mode T1 is set. From 14:00 to 16:00, the economy priority mode T0 is set. From 16:00 to 23:00, the comfort priority mode T1 is set.

  On the other hand, in the air conditioning on the floor, the time schedule operation control (switching between two states of the comfort priority mode T1 (lower limit temperature 22 ° C.) and the economic priority mode T0 (lower limit temperature 17 ° C.)) is performed. The sensor 12 is controlled in combination with human sensor detection result reflecting operation control for switching between the two modes based on the detection result of the presence or absence of a person.

  Specifically, from 23:00 on the previous day to 7:00 on the next day, the time schedule operation control priority time zone in which the operation control is performed only by the time schedule operation control without reflecting the detection result by the human sensor 12 is set. .

  And from 7 o'clock to 23 o'clock, the human sensor detection result reflecting operation control functions.

  In the example shown in the figure, a person enters the living room (floor space 6) at 6 o'clock, and the detection result by the motion sensor 12 continues the situation where the person is present from 6 o'clock to 8 o'clock, and the person comes out at 8 o'clock. Since the situation where there was no person continued for 10 minutes from 8 o'clock to 8:10, control to change from the comfort priority mode T1 to the economy priority mode T0 is performed at 8:10. ing.

  In the time schedule operation control, the situation in which the person is absent continues as a result of detection by the human sensor 12 until 9 o'clock, which is scheduled to be controlled in the comfort priority mode T1, so the economy priority mode T0. It is controlled as it is.

  In addition, since a person came in at 10:00 and went out at 11:00, the situation where a person is present from 10 o'clock to 11 o'clock continues as a result of detection by the human sensor 12, but time schedule operation Since this is the time zone in which the economy priority mode T0 is set by control, the economy priority mode T0 is controlled during this time.

  In addition, according to the time schedule operation control at 12:00, control is performed to switch from the economy priority mode T0 to the comfort priority mode T1, but the detection result by the human sensor 12 indicates that the person is in 60 minutes from 12:00 to 13:00. Since the absence situation has continued, control is performed to change from the comfort priority mode T1 to the economy priority mode T0 at 13:00.

  In the time schedule operation control, the situation in which the person is absent continues as the result of detection by the human sensor 12 until 14:00, which is scheduled to be controlled in the comfort priority mode T1, and thus the economy priority mode T0. It is controlled as it is.

  Also, the control is switched from the economic priority mode T0 to the comfort priority mode T1 according to the time schedule operation control at 16:00, and a person comes in at 16:30. Since the current situation has continued for more than 1 minute, the comfort priority mode T1 is continuously controlled.

  And a person goes out at 20:00, and because the detection result by the presence sensor 12 has been absent for 10 minutes from 20:00 to 20:10, it is comfortable at 20:10. Control is performed to change from the sex priority mode T1 to the economic priority mode T0.

  Furthermore, a person came in at 21:00, and the detection result by the motion sensor 12 continued the situation where the person was present for 1 minute from 21:00 to 21: 1, so at 21: 1 The control to change from the economy priority mode T0 to the comfort priority mode T1 is performed, and the situation where a person is present continues after 21: 1. Therefore, the comfort priority mode T1 continues according to the time schedule operation control. It is controlled as it is.

  Next, functions and effects of the embodiment will be described.

  The control device S of the air conditioning system of such an embodiment uses the comfort space priority mode T1 and the economical priority by using the indoor space 5 of the air conditioner as the air conditioning space on the floor space 6 as the air-conditioned space inside the building 1. It is a control device of an air conditioning system that controls to switch between two modes of mode T0.

  Then, according to the time schedule, the time schedule operation control for switching between the two modes, and the human feeling for switching between the two modes from the detection result of the presence or absence of the person by the human sensor 12 provided in the floor space 6 In combination with the sensor detection result reflecting operation control, the operation of the indoor unit 5 of the air conditioner is controlled.

  In addition, in the comfort priority mode T1 in the time schedule operation control, if the situation in which the person is absent from the detection result of the human sensor 12 continues for a predetermined time or more, the control is changed to the economic priority mode T0 while the time schedule is controlled. Even in the economic priority mode T0 in the operation control, even if a situation in which a person is present continues as a result of detection by the human sensor 12, the economic priority mode T0 is controlled.

  Furthermore, the indoor unit 5 of the air conditioner as an air conditioner can be heated, and the lower limit temperature of the economic priority mode T0 during heating is lower than the lower limit temperature of the comfort priority mode T1.

  Because of the configuration described above, for example, the behavior of the occupants of the building 1 does not follow the time schedule, and the occupants temporarily enter the floor space 6 as the air-conditioned space during the comfort priority mode T1 in the time schedule operation control. If it is not present, the control is changed to the economic priority mode T0, so that the economy is excellent accordingly.

  In addition, in the comfort priority mode T1 in the time schedule operation control, when a resident or the like is in the floor space 6 as the air-conditioned space, the operation is controlled according to the time schedule, so that comfort can be almost ensured. .

  Further, when the occupants are in the floor space 6 as the air-conditioned space in the economic priority mode T0 in the time schedule operation control, since the control is performed in the economic priority mode T0, an unexpected air conditioning cost is generated. It is economical.

  In addition, the economy priority mode T0 is set to an operation in which the indoor unit 5 of the air conditioner as the air conditioner is not completely stopped, but is maintained at a temperature at which the occupants are not uncomfortable. Sex can be secured.

  In other words, the economy and comfort are balanced as compared with the control device of the conventional air conditioning system.

  Here, a detection result by the human sensor 12 is not reflected, and a time schedule operation control priority time zone for performing operation control only by time schedule operation control can be set.

  For this reason, for example, in a living room where there are few residents in the midnight hours, if the economic priority mode T0 is set, there is a possibility that the residents will leave in a short time even if they come in. Because it is expensive, it is economical to be controlled in the economic priority mode T0, and in the early morning hours, if it is set to the comfort priority mode T1, the living room is comfortable when a resident wakes up. It is in a state.

  In addition, a plurality of predetermined time settings for switching from the comfort priority mode T1 to the economic priority mode T0 can be set.

  For this reason, it is advantageous to balance economic efficiency and comfort according to the behavior pattern of a person such as a resident.

  Specifically, as described above, about 10 minutes is usually appropriate as described above. That is, when the situation in which the person is absent from the detection result of the human sensor 12 continues for about 10 minutes or more, the comfort priority mode T1 is switched to the economy priority mode T0. However, the reason why it is possible to switch from the economic priority mode T0 to the comfort priority mode T1 in the timer schedule operation control is that there is a high probability that a person will be present after the switch, and it is desired to create a comfortable environment in advance. Therefore, after switching to the comfort priority mode T1, if the predetermined time is longer than 10 minutes, for example, about 60 minutes as described above, the mode is switched to the economic priority mode T0 in a short time ( It can be prevented from returning).

  The air conditioning system of such an embodiment is configured to include the control device S for the air conditioning system of the above-described embodiment.

  Since it is an above-mentioned composition, it can be considered as an air-conditioning system which has an operation effect of control device S of an air-conditioning system of an above-mentioned example.

  Here, the indoor unit 5 of the air conditioner as the air conditioner is installed in the underfloor space 3 of the building 1.

  For this reason, the space for the floor space 6 not occupied by the indoor unit 5 of the air conditioner as the air conditioner can be used effectively.

  In addition, the indoor unit 5 of the air conditioner air conditioner is capable of floor air conditioning and underfloor air conditioning for air conditioning the floor space 6 that is the air-conditioned space, and the control device S controls the operation of the floor air conditioning.

  For this reason, if the underfloor air conditioning is operated only by the same time schedule operation control as that of the underfloor air conditioning, the comfort is further increased in the economical priority state T0 due to the residual heat due to the underfloor air conditioning.

  The building 1 of such an example is configured to include the air conditioning system of the above-described example.

  Since it is an above-mentioned structure, it can be set as the building which show | plays the effect of the air conditioning system of an above-described Example.

  As mentioned above, although the form for implementing this invention was explained in full detail based on the Example with reference to drawings, the concrete structure is not limited to this Example, and is a grade which does not deviate from the summary of this invention. Design changes are included in the present invention.

  For example, in the above-described embodiment, the building 1 has a simple structure so that the description is easy. Of course, the building 1 is not limited to this and may be implemented as a more complicated structure.

  In the above-described embodiment, the two air supply ports 10 are provided. However, the present invention is not limited to this. The number of air supply ports 10 may be set according to the size of the space 6 on the floor.

  Further, in the above-described embodiments, only the heating operation has been described, but the present invention is not limited to this, and the present invention can also be applied to the cooling operation.

  At the time of cooling, the upper limit temperature of the economy priority mode T0 is preferably 28 to 31 ° C, and the upper limit temperature of the comfort priority mode T1 is preferably 25 to 28 ° C.

  In the above-described embodiment, the lower limit temperature is set to 17 ° C. in the economical priority mode T0 of the on-floor air conditioning. However, the present invention is not limited to this. For example, the conditioned air is completely blown out from the on-floor blowing section 52. It may be implemented as off.

  Furthermore, in the above-described embodiment, the control device S of the air conditioning system of the present invention is applied to the floor air conditioning by the indoor unit 5 of the air conditioner as the air conditioning device installed in the underfloor space 3, but the present invention is not limited thereto. For example, the present invention may be applied to a normal indoor installation type air conditioner.

DESCRIPTION OF SYMBOLS 1 Building 1a Floor part 1b Foundation bottom base concrete 1c Foundation side wall concrete 1d Outer wall part 1e Ceiling part 2 Heat insulating material 3 Underfloor space 4 Outdoor unit of an air conditioner 5 Indoor unit (air conditioner) of an air conditioner
51 Suction part 52 Blowing part for floor 52a Open / close valve 53 Blowing part for floor 53a Open / close valve 54 Control part 55 Storage part 5a Temperature sensor 6 Floor space (air-conditioned space)
7 Drain 81 Duct 82 Duct 9 Exhaust port 10 Air supply port 11 Another air supply port 12 Human sensor 13 Remote controller (controller)
13a Temperature sensor S Controller T1 Comfort priority mode T0 Economic priority mode

Claims (9)

A control device for an air conditioning system that controls an air-conditioned space inside a building so that the two modes of a comfort priority mode and an economic priority mode can be switched by an air conditioner,
Time schedule operation control for switching between the two modes according to the time schedule;
The air conditioner is operated in combination with the human sensor detection result reflecting operation control for switching the two modes from the detection result of the presence or absence of a person by the human sensor provided in the air-conditioned space. Control,
In the comfort priority mode in the time schedule operation control, when a situation in which a person is absent from the detection result by the human sensor continues for a predetermined time or longer, the control to change to the economic priority mode,
At the time of the economic priority mode in the time schedule operation control, even if a situation in which a person is present continues with the detection result by the human sensor, the economic priority mode is controlled.
The air conditioner can be at least one of heating and cooling,
The lower limit temperature of the economic priority mode during heating is lower than the lower limit temperature of the comfort priority mode,
The control apparatus for an air conditioning system, wherein an upper limit temperature of the economy priority mode during cooling is higher than an upper limit temperature of the comfort priority mode.   The lower limit temperature of the economical priority mode during heating is 15 to 20 ° C, and the lower limit temperature of the comfort priority mode is 20 to 25 ° C. Control device.   The air conditioning according to claim 1 or 2, wherein an upper limit temperature of the economy priority mode during cooling is 28 to 31 ° C, and an upper limit temperature of the comfort priority mode is 25 to 28 ° C. System control unit.   4. The time schedule operation control priority time zone in which operation control is performed only by time schedule operation control without reflecting the detection result by the human sensor is settable. 5. The control apparatus of the air conditioning system as described in 2.   The control device for an air conditioning system according to any one of claims 1 to 4, wherein a plurality of the predetermined times can be set.   An air conditioning system comprising the control device for an air conditioning system according to any one of claims 1 to 5.   The air conditioning system according to claim 6, wherein the air conditioner is installed in an underfloor space of the building.   The air conditioner according to claim 6, wherein the air conditioner is capable of on-floor air-conditioning and under-floor air-conditioning that air-conditions the space above the floor that is the air-conditioned space, and the operation of the on-floor air-conditioning is controlled by the control device. system.   A building comprising the air conditioning system according to any one of claims 6 to 8.