JP5357501B2 - Environmental control system - Google Patents

Description

  The present invention relates to an environmental control system.

2. Description of the Related Art Conventionally, in an office or the like in a building, an indoor environment such as an indoor air conditioning temperature and a blind angle for adjusting the amount of incident external light from a window is controlled by an environmental control system. The operation is managed by operations by the building manager, requests from users who live in the building, and complaints, so the indoor environment changes during operation (see, for example, Patent Document 1). ).
JP 2007-322097 A

  However, once the indoor environment such as the indoor temperature is set to the comfortable side, for example, excessive air conditioning, the user who wants to maintain a comfortable indoor environment is adjusted to an unpleasant environment for himself / herself. Building managers who were unwilling to make complaints and consumed complaints were wasting energy by leaving the settings on the comfortable side of the indoor environment as they were. Further, even if the building manager tries to set the energy saving setting, which is an unpleasant setting for the user, it is difficult to determine when to switch the indoor environment to the energy saving side so that the user is not aware of it.

  By the way, although indoor users are indirect to the outdoor environment, the comfort of indoor users is greatly affected by the outdoor environment in daily life. Specifically, even if the outdoor environment is unpleasant for the user, if the user gets used to the uncomfortable outdoor environment, the subsequent judgment as to whether the user is comfortable or not is unpleasant. It is done based on the outdoor environment. In other words, once a person gets used to an outdoor environment in which human comfort is unpleasant, the determination of comfort is performed based on the familiar outdoor environment. In other words, it can be said that it is insensitive to an environmental change from a state accustomed to a certain environment.

  For example, even in the severe cold season of winter, if the daily average outside air temperature rises by 3 ° C or higher, humans will experience “hot” as a bodily sensation, and meals for “cool” will become popular Is known.

  The present invention has been made in view of the above-mentioned reasons. The purpose of the present invention is to determine the feeling of comfort based on the familiar outdoor environment once the user is used to an uncomfortable outdoor environment. In view of this characteristic, it is an object of the present invention to provide an environment control system that can change an indoor environment without being noticed by a user.

According to the first aspect of the present invention, there is provided environmental control means for changing an indoor environmental state to a target state, initial target setting means for setting an initial target state that is a target state at the time of activation of the environmental control means, and an indoor environmental state. Outdoor environment measurement means that measures the corresponding outdoor environmental conditions, outdoor environment trend evaluation means that evaluates the fluctuation trend of the outdoor environmental conditions from the past to the present, and a goal that the user sets the target state of the environmental control means Setting means, and as an evaluation result of the outdoor environmental trend evaluation means, the current outdoor environmental state is compared with the past outdoor environmental state, and the energy consumption by the environmental control means is reduced in a predetermined state. If there is a divergence, the initial target setting means changes the initial target state in a direction that reduces the energy consumed by the environmental control means, and the initial target setting means If the setting of the target state is made by the target setting means within a predetermined time after changing, on the basis of the target state set by the target setting means to change the next initial target state at the time of activation of the environmental control unit It is characterized by that.

According to the present invention, since the initial target state is changed when the outdoor environment greatly deviates from the recent environment, once the user's comfort is used to the uncomfortable outdoor environment, the determination of comfort is used. Considering the characteristic that the outdoor environment is used as a reference, the indoor environment can be changed without being noticed by the user. Further, in consideration of human comfort characteristics, the indoor environment can be adjusted to the energy saving side without being noticed by the user. In addition, if a complaint occurs from the user within a predetermined time after resetting the initial target state, it is considered that the initial target temperature after resetting is dissatisfied. By changing the temperature to the comfortable side, user dissatisfaction can be reduced.

According to a second aspect of the present invention, in the first aspect, the outdoor environment measuring unit includes a request acquisition unit that acquires a request for an indoor environmental condition from a user, and the outdoor environment tendency evaluation unit is acquired by the request acquisition unit. It is characterized by evaluating the tendency of the outdoor environmental state from the past to the present based on the demand for the indoor environmental state.

  According to the present invention, the outdoor environment tendency evaluation means can evaluate the fluctuation tendency of the outdoor environment according to a request from the user, and further can determine whether or not the user has become accustomed to the indoor environment. Therefore, the evaluation process based on the user's sense can be performed.

As described above, in the present invention, in consideration of the characteristic that once a person gets used to an uncomfortable outdoor environment, the comfort is determined based on the familiar outdoor environment. There is an effect that the indoor environment can be changed without being noticed. Further, in consideration of human comfort characteristics, the indoor environment can be adjusted to the energy saving side without being noticed by the user. In addition, if a complaint occurs from the user within a predetermined time after resetting the initial target state, it is considered that the initial target temperature after resetting is dissatisfied. By changing the temperature to the comfortable side, user dissatisfaction can be reduced.

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

(Embodiment 1)
FIG. 1 shows a configuration of an environmental control system according to the present embodiment, in which an air conditioner 1, an environmental control unit 2, and a management terminal 3 as equipment are connected indoors such as a building via a network. The outside temperature sensor 4 (outdoor environment measuring means) thus connected is connected to the environment control unit 2 via a signal line.

  The air conditioner 1 has an air conditioning function and changes the indoor temperature, and is controlled by the environment control unit 2. Here, the indoor temperature corresponds to the indoor environmental state of the present invention.

  The management terminal 3 is composed of a personal computer or the like installed in an indoor management room such as a building, and is operated by a manager. And the management terminal 3 performs the transmission process after inputting the data of the below-mentioned initial target temperature or target temperature on the air-conditioning temperature setting screen, so that the input initial target temperature or target temperature data becomes the environment control unit 2. (Target setting means).

  The environmental control unit 2 includes a device control unit 21 (environment control unit), a target value storage unit 22, an initial target value setting unit 23 (initial target setting unit), an initial target value storage unit 24, and an outdoor environmental trend evaluation unit 25 (outdoors). Environmental trend evaluation means), and stores initial target temperature data received from the management terminal 3 in the initial target value storage unit 24 such as a nonvolatile memory. When the environmental control unit 2 starts the air conditioning operation, the initial target value setting unit 23 resets the target temperature in the target value storage unit 22 and then reads the initial target temperature from the initial target value storage unit 24 to store the target value. Stored in the unit 22. Thereafter, the device control unit 21 performs the air conditioning operation by controlling the operation of the air conditioning device 1 so that the indoor temperature matches the target temperature stored in the target value storage unit 22. At this time, the target temperature stored in the target value storage unit 22 is the initial target temperature. The initial target temperature is data that is initially set as the air conditioning target temperature when the environmental control system starts the air conditioning operation, and corresponds to the initial target state of the present invention.

  When the device control unit 21 performs air conditioning operation using the initial target temperature as the target temperature, when the target temperature data is received from the management terminal 3, the received target temperature data is stored in the target value storage unit 22. To do. The device control unit 21 controls the operation of the air conditioning device 1 so that the indoor temperature matches the new target temperature stored in the target value storage unit 22.

  When the air conditioning operation is started again after the environmental control unit 2 stops the air conditioning operation, the initial target value setting unit 23 resets the target temperature in the target value storage unit 22 and then starts the initial target value storage unit 24 from the initial target value storage unit 24. The target temperature is read out and stored in the target value storage unit 22, and thereafter the air conditioning operation is performed again using the initial target temperature as the target temperature.

  However, the setting of the initial target temperature by the management terminal 3 is normally set on the comfortable side for the user, and the initial target temperature once set on the comfortable side is changed to the energy saving side as described above. But as explained, it is difficult. In the setting of the initial target temperature, the comfortable side means that the indoor temperature is set to a low eye during cooling in summer and the indoor temperature is set to a high eye during heating in winter.

  Therefore, in this embodiment, the initial target value setting unit 23 resets (changes) the initial target temperature of the initial target value storage unit 24 based on the evaluation result of the outdoor environment tendency evaluation unit 25. The initial target temperature resetting process will be described with reference to the flowchart shown in FIG.

  First, in general, when the outside air temperature decreases when the indoors are being cooled at a comfortable constant temperature in the summer, indoor users feel "cold" and the indoors are heated at a comfortable constant temperature in the winter When the outside air temperature rises, indoor users feel “hot”.

  Therefore, regardless of whether the air conditioning operation is on or off, the outdoor temperature sensor 4 always measures the outdoor outdoor temperature, and the outdoor environment evaluation unit 25 always collects the measurement results of the outdoor temperature sensor 4 and stores them for a certain period. (S1). That is, the outside air temperature sensor 4 constitutes an outdoor environment measuring unit that measures an outdoor environment called an outside air temperature corresponding to an indoor environment called an indoor temperature.

  And the outdoor environment evaluation part 25 evaluates the fluctuation tendency from the past of the outdoor environmental state to the present based on the measurement result of the outside air temperature. For example, when the air conditioning operation is started in the morning (for example, 8:00), the outdoor environment evaluation unit 25 calculates the average outside air temperature of today's morning (for example, 4:00 to 8:00) (S2), and the morning of the previous day (for example, By calculating the difference (outside air temperature difference) between the average outside air temperature (from 4 to 8 o'clock) and the average outside air temperature in the morning (outside air temperature difference), fluctuations such as the rise or fall of the outside air temperature from the previous day to today and the amount of change Evaluate trends.

  The initial target value setting unit 23 stores the map M shown in FIG. 3, and refers to the map M to determine the initial target temperature of the initial target value storage unit 24 based on the evaluation result of the outdoor environment evaluation unit 25. It is determined whether or not to reset (S3). The set values of the outside air temperature and the outside air temperature difference described in the map M are examples, and may be set to other values depending on the use environment, the use method, and the like of the environment control system.

  The map M in FIG. 3 corresponds to the cooling operation in summer. The horizontal outside temperature of today's morning is taken on the horizontal axis, and the difference between the outside air temperatures of today and the previous day (average morning temperature of today's morning minus the average of the morning of the previous day). The outside temperature is taken as the vertical axis, and is divided into a reset permission region R1 in which the initial target temperature is reset and a reset prohibition region R2 in which the initial target temperature is not reset. And if today's morning average outside air temperature is 26 degrees C or less, it will become reset permission area | region R1 which resets initial target temperature irrespective of outside temperature difference. And if today's morning average outside air temperature exceeds 26 ° C, the range in which the outside air temperature difference becomes a predetermined negative value or less becomes the reset permission region R1, and today's morning average outside air temperature exceeds 26 ° C and becomes high. Indeed, the outside air temperature difference, which is a condition for permitting the resetting of the initial target temperature, increases linearly in the negative direction.

  Here, the reset permission region R1 in which the outside air temperature of today's morning exceeded 26 ° C. indicates that the outside air temperature of the present day is an outdoor environment that is lower than the previous day, which was a hot outdoor environment in summer, by a predetermined value or more. Yes. That is, when the average outside air temperature of today's morning deviates by a predetermined value or more in a lower direction compared to the average outside air temperature of the previous day, the initial target value setting unit 23 increases the initial target temperature and sets the device control unit The energy consumed by 21 is reduced.

  Indoor users who have become accustomed to the hot outdoor environment in summer feel “cold” because the outdoor air temperature has fallen by a predetermined value or more from the previous day, which was a hot outdoor environment in summer. Therefore, even if the initial target temperature of the indoor temperature is increased and reset in the energy saving direction, discomfort is reduced. That is, the initial target temperature is changed in the energy saving direction when the outside air temperature deviates by a predetermined value or more from the recent outside air temperature. In this way, once a person gets used to an outdoor environment where human comfort is unpleasant, the comfort is judged based on the familiar outdoor environment. The temperature can be changed in the energy saving direction.

  In the present embodiment, the current outside air temperature is lower than the outdoor temperature of the previous day by a predetermined value or more, and the outside air temperature difference is located in the reset permission region R1 where the outside air temperature exceeds 26 ° C. on the map M. In the present invention, this corresponds to the current outdoor environmental state deviating more than a predetermined state compared to the past outdoor environmental state.

  In addition, the reset permission region R1 in which the outdoor air temperature of today's morning is 26 ° C. or lower is an outdoor environment in which the outdoor air temperature is low in the summer, and indoor users can use the outdoor air temperature regardless of fluctuations in the outdoor air temperature from the previous day. I feel “cold”. Therefore, also in this case, even if the initial target temperature of the indoor temperature is increased and reset in the energy saving direction, the discomfort is reduced.

  Therefore, the initial target value setting unit 23 increases the initial target temperature in the initial target value storage unit 24 and resets it to the energy saving side if the evaluation result of the outdoor environment evaluation unit 25 exists in the reset permission region R1 of the map M. Then, the reset initial target temperature is stored in the target value storage unit 22 (S5). Further, the initial target value setting unit 23 sets the target value without resetting the initial target temperature in the initial target value storage unit 24 if the evaluation result of the outdoor environment evaluation unit 25 exists in the reset prohibition region R2 of the map M. The data is stored in the storage unit 22 (S5).

  For example, during summer cooling, as shown by the broken line X1 in FIG. 4, the average outside air temperature in the morning (for example, 4 o'clock to 8 o'clock) is D1 day: 35 ° C., D2 day: 34 ° C., D3 day: 29 ° C. , D4: When the temperature fluctuates to 31 ° C, first, on D1 day, a user who feels hot with respect to an average outside air temperature of 35 ° C seeks comfort and indoors via the manager's management terminal 3 The initial target temperature and the target temperature are changed from 28 ° C. to 26 ° C. The initial target temperature is indicated by a solid line X2.

  Next, when the air-conditioning operation is stopped on the night of D1 and the air-conditioning operation is started on the morning of the next D2, the average outside air temperature of 35 days from D1 to 34 ° C from the average outside air temperature of D2 on the morning of D2. The outdoor environment tendency evaluation unit 25 derives an outdoor air temperature difference of −1 ° C., which is reduced by 1 ° C., as an evaluation result.

  Then, the initial target value setting unit 23 refers to the map M, and the point of the outside temperature on the horizontal axis: the average outside air temperature of 34 days on D2 and the outside temperature difference on the vertical axis: −1 ° C. is the reset prohibition region R2. Therefore, the initial target temperature in the initial target value storage unit 24 is read out without resetting and stored in the target value storage unit 22. In this case, the initial target temperature is the same as the initial target temperature 26 ° C. of the previous day, and the device control unit 21 controls the air conditioner 1 so that the same target temperature 26 ° C. as that of the previous day is obtained.

  Next, when the air conditioning operation is stopped on the night of D2, and the air conditioning operation is started on the morning of the next D3, the average outside air temperature of 34 ° C. on D2 day to 29 ° C. on the D3 day in the morning of D3 The outdoor environment tendency evaluation unit 25 derives an outside air temperature difference of −5 ° C., which has decreased by 5 ° C., as an evaluation result.

  Then, the initial target value setting unit 23 refers to the map M, and the point where the horizontal axis outside air temperature: D3 day average outside air temperature 29 ° C. and the vertical axis outside air temperature difference: −5 ° C. is the reset permission region R1. Therefore, the initial target temperature in the initial target value storage unit 24 is reset from 26 ° C. to 28 ° C. and then read out and stored in the target value storage unit 22. The initial target temperature after resetting is the initial target temperature before resetting + 2 ° C.

  Therefore, the device control unit 21 controls the air conditioner 1 so that the target temperature is 28 ° C. higher than the previous day. However, the outdoor air temperature decreases by a predetermined value or more than the previous day, which is a hot outdoor environment in summer. Indoor users who are accustomed to the hot outdoor environment feel “cold”. Therefore, even if the target temperature is increased and reset to the energy saving side (uncomfortable side), there is little discomfort and no complaints are issued. As described above, the environmental control system according to the present embodiment takes into consideration the characteristic that once a person gets used to an uncomfortable outdoor environment, the determination of comfort is made based on the familiar outdoor environment. The indoor environment can be adjusted to the energy saving side without being noticed by the user.

  Next, when the air conditioning operation is stopped on the night of D3 and the air conditioning operation is started on the morning of the next D4, in the morning of D4, the average outside air temperature of 29 days from D3 to 31 ° C of the average outside air temperature on D4 The outdoor environment tendency evaluation unit 25 derives an outside air temperature difference of + 2 ° C. increased by 2 ° C. as an evaluation result.

  Then, the initial target value setting unit 23 refers to the map M, and the point of the outside temperature on the horizontal axis: the average outside temperature 31 ° C. on D4 and the outside temperature difference on the vertical axis: + 2 ° C. is in the reset prohibition region R2. Since it exists, the initial target temperature in the initial target value storage unit 24 is read without resetting and stored in the target value storage unit 22. In this case, the initial target temperature is the same as the initial target temperature of 28 ° C. of the previous day, and the device control unit 21 controls the air conditioner 1 so as to be the same target temperature of 28 ° C. as the previous day.

  However, when the initial target value setting unit 23 resets the initial target temperature from 26 ° C. to 28 ° C. on the day D3, and the device control unit 21 controls the air conditioner 1 so that the target temperature is 28 ° C. higher than the previous day, Some users feel that the current indoor temperature is high. Therefore, after the initial target value setting unit 23 resets the initial target temperature from 26 ° C. to 28 ° C., for example, before a predetermined time of about 2 hours elapses, a user who feels hot seeks comfort. When the indoor target temperature is changed from 28 ° C. to 26 ° C. via the manager's management terminal 3, the device control unit 21 controls the air conditioner 1 so that the target temperature becomes 26 ° C. and the initial target. The value setting unit 23 changes the initial target temperature in the initial target value storage unit 24 from 28 ° C. to 26 ° C.

  Therefore, if there is a complaint from the user within a predetermined time after resetting the initial target temperature to the energy saving side, it is considered that the initial target temperature after resetting is dissatisfied. By changing the initial target temperature to a comfortable side, user dissatisfaction is reduced.

  The outdoor environment trend evaluation unit 25 obtains weather forecast data via the Internet or the like, and uses the measurement result of the outside air temperature sensor 4 and the weather forecast data together to show the fluctuation tendency of the outside air temperature from the past to the present. You may evaluate. For example, by using forecasts such as “Sunny”, “Cloudy”, and “Rain” in the weather forecast data, the outside air temperature is likely to rise on a clear day, and the outside temperature decreases when it is “cloudy” or “rainy”. Considering the tendency to be easy, the fluctuation tendency of the outside air temperature can be evaluated more accurately. Furthermore, an illuminometer may be used in addition to the outside air temperature sensor 4 as an outdoor environment measuring means for measuring an outdoor environmental state.

  Further, the management terminal 3 acquires image data obtained by plotting the evaluation result of the outdoor environment evaluation unit 25 on the map M from the initial target value setting unit 23 of the environment control unit 2, and a monitor (not shown) provided in the management terminal 3. Display on the screen. As shown in FIG. 5, the image data is arranged on the map M so that the evaluation point P by the outdoor environment evaluation unit 25 can be recognized, and the validity of the reset processing of the initial target temperature can be confirmed. In particular, when a complaint from the user is generated by resetting the initial target temperature to the energy saving side, user dissatisfaction can be suppressed by using this image data for explanation to the user.

  In the above example, the case of the cooling operation in the summer is described. In the case of the heating operation in the winter, the average outside air temperature of today's morning is a predetermined value higher than the average outside air temperature of the previous morning. When the above deviation occurs, the initial target value setting unit 23 lowers the initial target temperature and reduces the energy consumed by the device control unit 21, so that the same effect as in the cooling operation can be obtained. .

(Embodiment 2)
FIG. 6 shows the configuration of the environmental control system of the present embodiment. Instead of the outside air temperature sensor 4 of the first embodiment, a user terminal 5 operated by a user in an indoor room whose temperature is adjusted by the air conditioner 1 is provided. In addition, an outdoor environment measuring unit is configured by providing the environment control unit 2 with a request acquisition unit 26 that acquires each user's request for the indoor environment from the user terminal 5. In addition, the same code | symbol is attached | subjected to the structure similar to Embodiment 1, and description is abbreviate | omitted.

  First, the user operates the user terminal 5 to transmit a request for the current indoor temperature to the environment control unit 2, and the request acquisition unit 26 of the environment control unit 2 collects the request from the user terminal 5. It has been stored for a certain period. The user's request is expressed by an individual sense of indoor temperature such as “hot”, “cold”, “a little hot”, “a little cold”, “too hot”, “too cold”.

  Then, the outdoor environment evaluation unit 25 statistically derives the degree of “hot” and “cold” of the indoor environment based on the collection results of requests from users. Then, based on the derived statistical results of the indoor environment, the tendency of fluctuation of the outdoor environmental state from the past to the present is evaluated. For example, in summer cooling operations, there are many requests for “cold”, “slightly cold”, and “too cold”, and if the degree of statistically derived “cold” increases, the outside air temperature may change in a decreasing direction. Therefore, today, it is determined that the outdoor environment has a lower outdoor temperature than the previous day, which was a hot outdoor environment in summer. That is, when the statistically derived degree of today's “cold” deviates by a predetermined value or more in an increasing direction compared to the degree of “cold” on the previous day, the initial target value setting unit 23 increases the initial target temperature. Thus, the energy consumed by the device control unit 21 is reduced.

  And since the outdoor air temperature has decreased by more than a predetermined value compared to the previous day, which was a hot outdoor environment in summer, indoor users who are used to the hot outdoor environment in summer feel “cold”, so the initial target temperature is increased. And even if it is reset to the energy saving side (uncomfortable side), the uncomfortable feeling is reduced.

  Furthermore, if it is determined that the user has become accustomed to the initial target temperature after resetting, according to a request from the user, if it is determined that the user is not accustomed ("hot", "slightly hot", "too hot" If the degree of “heat” statistically derived increases), it is possible to change the target temperature to the comfortable side.

  In the case of heating operation in winter, there are many requests for “hot”, “slightly hot”, and “too hot”, and if the degree of “heat” statistically derived increases, the outside air temperature will increase. It is determined that the outdoor environment has fluctuated and the outdoor temperature has increased by a predetermined value or more from the previous day when the outdoor temperature was cold in winter. That is, when the statistically derived degree of today's “heat” is deviated by a predetermined value or more in an increasing direction compared to the degree of “hot” on the previous day, the initial target value setting unit 23 The energy consumed by the device control unit 21 is reduced.

  As described above, the outdoor environment tendency evaluation unit 25 can evaluate the fluctuation tendency of the outdoor environment according to a request from the user, and further can determine whether or not the user has become accustomed to the indoor environment. Evaluation processing based on the user's sense can be performed.

  In the first and second embodiments, the illuminance sensor that measures the outdoor illuminance and the blind that adjusts the amount of outside light entering the indoor are opened and closed according to the measurement result of the outdoor illuminance by the illuminance sensor. By doing so, auxiliary adjustment of the indoor temperature by external light can be performed, and the power consumption of the air conditioner 1 can be further reduced.

It is a figure which shows the block configuration of the environmental control system of Embodiment 1. It is a figure which shows the flowchart of the reset process of initial target temperature same as the above. It is a figure which shows the map used for the reset process of initial target temperature same as the above. It is a figure which shows the relationship between external temperature same as the above and initial target temperature. It is a figure which shows the screen data displayed on a management terminal same as the above. It is a figure which shows the block configuration of the environmental control system of Embodiment 2.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Air conditioning equipment 2 Environmental control unit 21 Equipment control part 22 Target value memory | storage part 23 Initial target value setting part 24 Initial target value memory | storage part 25 Outdoor environment tendency evaluation part 3 Management terminal 4 Outside temperature sensor

Claims (2)

Environmental control means for changing the indoor environmental state to the target state;
Initial target setting means for setting an initial target state which is a target state at the time of activation of the environmental control means;
An outdoor environment measuring means for measuring an outdoor environmental state corresponding to an indoor environmental state;
Outdoor environmental trend evaluation means for evaluating the trend of outdoor environmental conditions from the past to the present ,
And a target setting means for the user to set a target state of the environment control means,
As an evaluation result of the outdoor environmental trend evaluation means, if the current outdoor environmental state deviates more than a predetermined state in the direction in which the energy consumed by the environmental control means can be reduced compared to the past outdoor environmental state , the initial state The target setting means changes the initial target state in a direction in which the energy consumed by the environmental control means is reduced,
When the target state is set by the target setting unit within a predetermined time after the initial target state is changed, the initial target setting unit performs the next time of the environmental control unit based on the target state set by the target setting unit. An environmental control system characterized by changing an initial target state at the start-up of the machine . The outdoor environment measuring means includes a request acquisition means for acquiring a request for an indoor environmental condition from a user, and the outdoor environment tendency evaluation means is based on the request for the indoor environmental condition acquired by the request acquisition means. The environmental control system according to claim 1, wherein a fluctuation tendency of the environmental state from past to present is evaluated.

Images