JP5397945B2 - Environmental activity promotion system - Google Patents

Description

  The present invention relates to an environmental activity promotion system that promotes environmental load reduction activities by a plurality of users.

  In recent years, various techniques have been disclosed for the purpose of promoting activities for reducing the environmental load on the global environment (see, for example, Patent Document 1).

  In this prior art, the HDD of the environmental load evaluation device associates with the environmental load items that are classified into the actions that are assumed to give a load to the global environment among the actions assumed in the daily life of the individual, Environmental load value reference information representing information on the amount of CO2 emission per unit is stored. When the user (user) quantifies the environmental load given by his / her daily life behavior, the item and its time corresponding to the daily life behavior he / she took from the selection screen displayed on the display unit The length is selected and input via the input unit. Then, the environmental load evaluation apparatus, based on the item information selected and inputted and the time length information thereof, and the stored environmental load value reference information, the CO2 emission amount according to the contents of the item information and the time length information. Is calculated and displayed on the display unit.

JP 2006-58942 A

  In the above prior art, the user can refer to the environmental load as a CO2 emission amount with a specific numerical value by selecting and inputting an item in accordance with his / her action and its time length from items prepared in advance. Accordingly, the user can obtain an index for the environmental load reduction activity, and can support the user's environmental load reduction activity.

  On the other hand, in recent years, environmental load reduction activities performed by users are converted into environmental load reduction amounts, and rewards corresponding to the reduced environmental load reduction amounts are given to users. It is being considered to provide motivation for load reduction activities. In this case, if the reward is given by the user's input operation in the same manner as the above-mentioned conventional technology, the user forgets the report for granting the reward and the reward is not given, and the environmental load reduction activity is performed. There may be no motivation. In addition, there is a possibility that an act of acquiring a compensation by false is performed, such as pretending to carry out activities to reduce the environmental load, or reporting more than the number of times (time) of actually carrying out the environmental load reduction activities. is there.

  The objective of this invention is providing the environmental activity promotion system which can give the motivation to the mitigation activity of an environmental load with respect to a user, and can prevent the reward acquisition act by falsehood.

  To achieve the above object, a first invention provides a building having a plurality of floors, a stairway passage connecting the floors of the plurality of floors, and an elevator that moves up and down between the floors of the plurality of floors. An environmental activity promotion system that is provided and promotes an environmental load reduction activity by a plurality of users of the building, and is provided in the staircase passage, and is used for raising and lowering the user using the stairway passage without using the elevator First action detecting means for detecting an action based on an operation of the user, and first conversion means for converting the lifting action of the user detected by the first action detecting means into a reduction amount of the environmental load. And a first reward value assigning means for assigning a first reward value corresponding to the reduction amount converted by the first conversion means in association with the corresponding identification information of the user, and the first conversion means. By A first counting means for counting the calculated reduction amount and the first reward value given by the first reward value giving means for each user; and the first action detecting means in the step passage. And a first display terminal capable of displaying the result of counting by the first counting means.

  The environmental activity promotion system according to the first aspect of the present invention is provided in a building having a plurality of floors, a stairway, and an elevator. The staircase passage is provided with first action detecting means. And the said 1st action detection means detects the raising / lowering action of the user who uses a stairway passage without using an elevator based on the said user's operation. The detected ascending / descending behavior of the user's staircase passage is converted into an environmental load reduction amount by the first conversion means, and then the first reward value according to the reduction amount is converted by the first reward value giving means, It is given in association with corresponding user identification information. Further, the reduced amount of environmental load and the assigned first reward value are totalized for each user by the first totaling means, and the totaled result is displayed by the first display terminal. .

  As described above, in the first invention of the present application, the raising / lowering behavior of the user's stairway is detected based on the operation of the user. Thereby, when the user moves up and down the stairway, a reward according to the reduction amount of the environmental load is surely given to the user. In other words, it is possible to prevent a user from being given a reward by forgetting to report although an environmental load reduction activity has been performed. As a result, the user can be motivated to reduce the environmental load. In addition, it is possible to prevent a false acquisition action of a false act of swinging up and down the stairway or reporting more than the number of times of actually going up and down the stairway.

  In addition, for each user, by visualizing the reduced amount of environmental impact converted and the content and extent of the rewards given, each user will be made aware of their contribution to environmental impact reduction activities. You can also.

  According to a second invention, in the first invention, the first action detecting means is configured to be able to detect the user's ascending / descending action by identifying whether it is an ascending action or a descending action, The first conversion means is configured to convert the reduction amount in the ascending behavior of the user as a larger value than the reduction amount in the descending behavior of the user, and the first reward The value giving means has a larger first reward value corresponding to the ascending behavior of the user than the first reward value in the descending action of the user according to the conversion result by the first converting means. It is configured to be assigned as a value.

  Generally, in the ascending / descending behavior of the stairway, the burden on the user is greater in the ascending behavior than in the descending behavior. Therefore, in the second invention of the present application, the first action detecting means is configured to be able to detect and detect whether the user's ascending / descending action is an ascending action or a descending action. Thereby, a fair reward that reflects the burden on the user can be given to the user.

  In a third aspect based on the second aspect, the first behavior detection means includes first climbing behavior detection means that detects the climbing behavior of the user, and descending that detects the descending behavior of the user. First action detecting means.

  Thereby, it is possible to accurately distinguish and detect the ascending behavior and the descending behavior of the user.

  4th invention is the said 3rd invention. WHEREIN: The said stairway is the width direction one side part corresponding to the said user's ascending action, and the width direction other side part corresponding to the said user's said descending action, The first action detecting means for ascending is provided on the one side portion in the width direction, and the first action detecting means for descending is provided on the other side portion in the width direction. And

  For example, when the rising side and the descending side of the stairway are distinguished, such as left-hand traffic and right-hand traffic, by arranging the first action detecting means for ascending and the first action detecting means for descending on the corresponding side, The user's ascending behavior and descending behavior can be more accurately distinguished and detected.

  According to a fifth invention, in any one of the first to fourth inventions, the first behavior detecting means determines how many floors of the plurality of floors the elevator behavior of the user corresponds to. The first conversion means is configured to be able to identify and detect the reduction amount in the ascending / descending behavior of the user having a large number of raised / lowered floors, It is comprised so that it may convert as a bigger value than the said reduction amount, The said 1st reward value provision means respond | corresponds to the said user with many raised / lowered floors according to the conversion result by the said 1st conversion means. The first reward value is configured to be given as a larger value than the first reward value corresponding to the user with a small number of raised and lowered floors.

  Generally, in the raising / lowering behavior of the stairway, the burden on the user increases as the number of raised / lowered floors increases. Accordingly, in the fifth invention of the present application, the first behavior detecting means is configured to be able to identify and detect the number of floors of the plurality of floors corresponding to the lifting behavior of the user. Thereby, a fair reward that reflects the burden on the user can be given to the user.

  A sixth invention is characterized in that, in the fifth invention, a plurality of the first action detecting means are provided corresponding to each of the floors of the plurality of floors.

  Thereby, it is possible to accurately identify and detect how many floors of the plurality of floors the user's lifting and lowering actions correspond to. It is also possible for a user who goes up and down a plurality of floors to operate the first action detecting means for each floor.

  According to a seventh invention, in any one of the first to sixth inventions, the previous detection in the same first action detecting means is predetermined when the lifting action is detected by the first action detecting means. A first time range determining means for determining whether or not the determination was made within a predetermined time range, wherein the first conversion means performs a new detection when the determination by the first time range determining means is satisfied; The reduction amount is not converted, and the first reward value assigning means assigns the first reward value related to a new detection when the determination by the first time range determination means is satisfied. It is characterized by not performing.

  In the seventh invention of this application, the first time range determination means determines whether or not the previous lifting action of the user in the same first action detection means has been detected within a predetermined time range. As a result, it is possible to prevent an act of continuously detecting and illegally obtaining a reward.

  In order to achieve the above object, an eighth invention is provided in a building having a normal section that performs office work indoors and an outdoor section that can perform office work outdoors, and a plurality of the buildings are provided. It is an environmental activity promotion system that promotes an environmental load reduction activity by a user of the above, and is provided at the entrance / exit of the outdoor section or the outdoor section, and uses the outdoor section without using the normal section A second behavior detecting means for detecting the office work behavior of the user based on the operation of the user; and the office work behavior of the user detected by the second behavior detecting means is used as a reduction amount of the environmental load. A second conversion means for conversion, and a second reward value corresponding to the reduced amount converted by the second conversion means, in association with the corresponding identification information of the user. Compensation value giving means, the reduction amount converted by the second conversion means, and the second compensation means for summing up the second reward value given by the second reward value giving means for each user. And a second display terminal that is provided alongside the second action detecting means in the outdoor section or the entrance / exit, and is capable of displaying the result of the counting by the second counting means.

  The environmental activity promotion system of the eighth invention of the present application is provided in a building having a normal section and an outdoor section. Moreover, the 2nd action detection means is provided in the outdoor division or the entrance / exit to the outdoor division. And the said 2nd action detection means detects the office work action of the user who uses an outdoor division instead of a normal division based on the said user's operation. The detected office work behavior of the user in the outdoor section is converted into a reduction amount of the environmental load by the second conversion means, and then the second reward value corresponding to the reduction amount is given by the second reward value giving means. Is associated with the identification information of the corresponding user. Further, the reduced amount of the environmental load converted and the second reward value given are aggregated for each user by the second aggregation means, and the aggregation result is displayed on the second display terminal. .

  As described above, in the eighth invention of the present application, the office work behavior in the outdoor section of the user is detected based on the operation of the user. Thereby, when the user performs office work in the outdoor section, a reward according to the reduction amount of the environmental load is surely given to the user. In other words, it is possible to prevent a user from being given a reward by forgetting to report although an environmental load reduction activity has been performed. As a result, the user can be motivated to reduce the environmental load. In addition, it is possible to prevent a false act of acquiring a reward by pretending to perform an office work action in the outdoor section or reporting more than the time when the office work action was actually performed in the outdoor section.

  In addition, for each user, by visualizing the reduced amount of environmental impact converted and the content and extent of the rewards given, each user will be made aware of their contribution to environmental impact reduction activities. You can also.

  In a ninth aspect based on the eighth aspect, the second behavior detecting means is configured to detect entry and exit of each user with respect to the outdoor section, and the detection result by the second behavior detecting means And a second time range determining means for determining whether the detection of the user's exit and the detection of the user's entrance are performed within a predetermined time range. The second conversion means is configured not to convert the reduction amount when the determination by the second time range determination means is satisfied, and the second reward value giving means is configured to perform the second time range. When the determination by the determination means is satisfied, the second reward value is not assigned.

  In the ninth invention of the present application, the second behavior detecting means is configured to be able to detect entry and exit of each user to the outdoor section. Then, based on the detection result by the second behavior detecting means, the second time range determining means determines whether the user exit detection and the user entrance detection are performed within a predetermined time range. judge. As a result, each user's entry and exit from the outdoor section in a short period of time, which is not practically an environmental load reduction activity, should not be counted, and the environmental load reduction activity of each user can be reduced. The degree of contribution can be evaluated correctly. In addition, it is possible to prevent an act of continuously detecting and illegally obtaining a reward.

  According to a tenth aspect of the present invention, in the ninth aspect of the present invention, a count for counting the number of users entering the outdoor section at that time according to the detection results of the second behavior detecting means for a plurality of users. Means, a number determination means for determining whether the number of users counted by the counting means is equal to or greater than a predetermined threshold, and when the determination by the number determination means is satisfied, Illumination control means for reducing or extinguishing illumination of a specific area included in the normal section is provided.

  Thereby, when the number of users who are performing office work actions in the indoor section is relatively small, it is possible to reduce or turn off the illumination of a specific area in the normal section. As a result, it is possible to reduce power consumption and contribute to environmental load reduction activities.

  An eleventh aspect of the invention is the first temperature / humidity detection according to any one of the eleventh to tenth aspects, wherein the first temperature / humidity detection is provided adjacent to the first action detection unit in the stairway and detects the temperature and humidity in the surrounding environment of the first action detection unit Or a second temperature / humidity detection means for detecting the temperature and humidity in the surrounding environment of the second action detection means at the entrance / exit of the outdoor section. On the other hand, when detecting the user's action by the first action detecting means or the second action detecting means, the detection result of the corresponding first or second temperature / humidity detecting means is acquired and the discomfort index for calculating the corresponding discomfort index Calculating means, wherein the first or second reward value assigning means is configured by the discomfort index calculating means when detecting the action by the first action detecting means or the second action detecting means. The first reward value or the second reward value corresponding to the user having a large discomfort index is set as a value larger than the first reward value or the second reward value corresponding to the user having the small discomfort index. It is comprised so that it may provide.

  In general, the burden on the user for the ascending / descending behavior of the staircase passage or the office work behavior in the outdoor section as described above varies depending on the difference in temperature and humidity in the surrounding environment. Therefore, in the eleventh invention of this application, the discomfort index calculating means calculates the discomfort index in consideration of the temperature and humidity in the surrounding environment detected by the first or second temperature / humidity detecting means. And the higher the discomfort index, the more rewarding you can get. Accordingly, a fair reward that reliably reflects the temperature and humidity in the surrounding environment can be given to the user.

  In order to achieve the above object, a twelfth aspect of the present invention is an environmental activity promotion system that is provided in a building in which a user performs office work, and that promotes environmental load reduction activities by a plurality of the users. A third behavior detecting means provided in the building for detecting the user's attendance and leaving behavior based on the operation of the user; and the user's detected by the third behavior detecting means. Time determination means for determining whether or not the time at the time of the leaving action is before a predetermined recommended leaving time, and when the determination by the time determination means is satisfied, the leaving action of the user A third conversion means for converting the environmental load to the reduced amount of environmental load, and a third reward value corresponding to the reduced amount converted by the third conversion means in association with the corresponding identification information of the user First Compensation value assigning means, the reduction amount converted by the third conversion means, and the third reward value given by the third reward value assigning means are summed up for each user. And a third display terminal that is provided in the building along with the third action detecting means and capable of displaying the result of the counting by the third counting means.

  The environmental activity promotion system according to the twelfth aspect of the present invention is provided in a building where a user performs office work. Moreover, the 3rd action detection means is provided in the building. And the said 3rd action detection means detects a user's attendance action and leaving work based on the said user's operation. Then, the time determination means determines whether or not the detected time of the user's retirement behavior is before a predetermined recommended retirement time (for example, a time that is treated as overtime (overtime), 17:00 in the above example). Determine. At this time, when the determination by the time determination means is satisfied (when the time when the user leaves the office is before the recommended time for leaving the office), in other words, there may be cases where the overtime is not performed. In this case, compared with the case where the determination by the time determination means is not satisfied (when the time when the user leaves the office is after the recommended time for leaving the office), in other words, compared with the case where overtime is performed, For example, power consumption due to, for example, a personal computer, lighting, and air conditioning used during the overtime is reduced.

  For this reason, in the above case, the third conversion means converts the user's retirement behavior into a reduction amount of the environmental load, and then the third reward value giving means determines the third reward according to the reduction amount. A value is assigned in association with the identification information of the corresponding user. Further, the reduced amount of the environmental load converted and the third reward value given are totaled for each user by the third totaling means, and the total result is displayed on the third display terminal. .

  As described above, in the twelfth aspect of the present invention, it is detected based on the operation of the user that the time at the time of the user's leaving work is before the recommended leaving time. Thereby, when the time when the user leaves the office is before the recommended leave time, a reward according to the reduction amount of the environmental load is surely given to the user. In other words, it is possible to prevent a user from being given a reward by forgetting to report although an environmental load reduction activity has been performed. As a result, the user can be motivated to reduce the environmental load. In addition, it is possible to prevent a false act of acquiring a reward by pretending that the time at which the retirement action was performed was before the recommended retirement time.

  In addition, for each user, by visualizing the reduced amount of environmental impact converted and the content and extent of the rewards given, each user will be made aware of their contribution to environmental impact reduction activities. You can also.

  In a thirteenth invention according to any one of the first to twelfth inventions, further comprising an IC card possessed by each user and storing the identification information of the user. The second behavior detection unit or the third behavior detection unit is an information reading unit that reads the identification information from the IC card by wireless communication according to the proximity operation of the IC card by the user. .

  In the thirteenth invention of this application, each user has an IC card. Therefore, each user simply moves the IC card within the predetermined communication range by the information reading means, as described above, ascending / descending behavior of the staircase passage, office work behavior in the outdoor section, or attendance behavior And leaving work can be reliably detected. As a result, the operation burden on the user can be reduced, and convenience can be improved.

  In a fourteenth aspect based on any one of the first to thirteenth aspects, the first totaling means, the second totaling means, or the third totaling means, for each user, or , Further comprising a calculation means for calculating an achievement rate for the target value of the reduction amount, which is predetermined for each group of a plurality of users or for all users, or the first display terminal, The second display terminal or the third display terminal displays the achievement rate calculated by the calculation means.

  Thereby, since the achievement rate with respect to the target value can be clearly recognized, the user can be highly motivated to reduce the environmental load that is the target for achieving the target.

  According to a fifteenth aspect of the present invention, in any one of the first to fourteenth aspects, for each user based on the totaled result by the first totaling unit, the second totaling unit, or the third totaling unit, or And a rank determining means for determining the ranking of the reduction amount for each group of a plurality of users, wherein the first display terminal, the second display terminal, or the third display terminal is configured to determine the rank. A ranking of the reduction amount determined by the means is displayed.

  Thereby, since the order in each user or between each group can be recognized clearly, a user's competitive spirit can be aroused. As a result, it is possible to give a high motivation to the environmental load reduction activity to be ranked.

  ADVANTAGE OF THE INVENTION According to this invention, the motivation to the environmental load reduction activity can be given with respect to a user, and the reward acquisition act by falsehood can be prevented.

It is explanatory drawing which shows roughly the whole structure of the environmental activity promotion system of the 1st Embodiment of this invention. It is a functional block diagram showing the function structure of the whole system of an environmental activity promotion system. 3 is an explanatory diagram conceptually illustrating an example of stored contents of an IC card T. FIG. It is explanatory drawing showing an example of the display screen displayed on the display part of a display terminal. It is a flowchart showing the control procedure which CPU of a server performs. It is explanatory drawing showing an example of CO2 reduction amount and a 1st point corresponding to the floor which the employee raised / lowered in the modification which provides the 1st point according to the floor raised / lowered. It is explanatory drawing which shows schematically the whole structure of an environmental activity promotion system in the modification which provides the 1st point according to whether it is a climbing action or a descending action. It is explanatory drawing showing an example of CO2 reduction amount and a 1st point corresponding to an employee's climbing action and descending action. It is explanatory drawing showing an example of the 1st point corresponding to the discomfort index calculated at the time of the employee's raising / lowering action detection by the leader in the modification which provides the 1st point according to the discomfort index. It is explanatory drawing showing an example of the screen containing the target achievement rate of the CO2 reduction amount displayed on the display part of a display terminal in the modification which enables a target achievement rate to be browsed with a display terminal. FIG. 10 is an explanatory diagram illustrating an example of a screen including a ranking of CO 2 reduction amounts displayed on the display unit of the display terminal in a modification example in which the ranking can be viewed on the display terminal. It is explanatory drawing which shows roughly the whole structure of the environmental activity promotion system of the 2nd Embodiment of this invention. It is a functional block diagram showing the function structure of the whole system of an environmental activity promotion system. It is a flowchart showing the control procedure which CPU of a server performs. It is a flowchart showing the detailed procedure of step S200. It is explanatory drawing which shows roughly the whole structure of the environmental activity promotion system of the 3rd Embodiment of this invention. It is a functional block diagram showing the function structure of the whole system of an environmental activity promotion system. It is a flowchart showing the control procedure which CPU of a server performs.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. First, a first embodiment of the present invention will be described.

  FIG. 1 is an explanatory diagram schematically showing the overall configuration of the environmental activity promotion system of the first embodiment.

  In FIG. 1, a building (in this example, a company building) includes a plurality of floors (only one floor is shown in the figure), a stairway passage S connecting the floors of the plurality of floors, and the plurality of floors. And an elevator EV that moves up and down between floors.

  The floor includes a management room Z1, a meeting room Z2, a living room Z3, a toilet Z4, a management room Z1, a meeting room Z2, a living room Z3, a toilet Z4, a stairway S, and an elevator EV. And a corridor communicating with an entrance / exit door (not shown).

  The stairway passage S is provided on the floor side of the staircase connection part SC provided on the floor, the landing part SL provided between the floors, and the lower landing side of the landing part SL. The landing part SL and the staircase connection part A staircase portion SD that connects the SC and a staircase portion SU that is provided on the upper floor side of the landing portion SL and connects the landing portion SL and the staircase connection portion SC.

  The environmental activity promotion system 1 of the present embodiment is provided in this company building, and is a system that promotes environmental load reduction activities by a plurality of employees P1 (users) in the company building. This environmental activity promotion system 1 includes a management server 100 provided in the management room Z1, a display terminal 200 (first display terminal), a reader 300 (information reading means, first action detecting means), and each employee P1. It has a personal terminal 400 that can be used, an IC card T carried by each employee P1, and a sensor 500 (first temperature and humidity detecting means; see FIG. 2 described later). The management server 100, the display terminal 200, and the personal terminal 400 are connected so as to be able to input and output information via a wired or wireless network NW such as a LAN or a wireless LAN.

  The reader 300 is provided in the staircase passage S, and reads the identification information (details will be described later) of the corresponding employee P1 stored in the IC card T by wireless communication. Thereby, the raising / lowering action of the employee P1 using the stairway passage S without using the elevator EV as the environmental load reduction activity is detected (details will be described later). In this example, the leader 300 is provided in the staircase connection portion SC of the stairway passage S, but the reader 300 is not limited thereto, and may be provided in the landing portion SL and the staircase portions SD and SU. In the present embodiment, the reader 300 is installed only in the staircase passage S corresponding to one floor shown in FIG.

  The display terminal 200 is provided alongside the reader 300 in the staircase passage S and performs various displays (details will be described later). Further, the reader 300 and the sensor 500 are connected to the display terminal 200.

  The sensor 500 is provided alongside the reader 300 in the staircase passage S, and detects the temperature and humidity in the environment around the reader 300 (for details, refer to a modification example (1-3) described later).

  FIG. 2 is a functional block diagram showing the functional configuration of the entire system of the environmental activity promotion system 1.

  In FIG. 2, the environmental activity promotion system 1 includes the management server 100, the display terminal 200, the reader 300, the personal terminal 400, the IC card T, and the sensor 500 as described above.

  The management server 100 includes a CPU 101, an operation unit 102 for performing various operation inputs, a display unit 103 for performing various displays, a network communication control unit 104, a memory 105 including, for example, a RAM and a ROM, and a hard disk device, for example. And a large-capacity storage device 106.

  The network communication control unit 104 controls network communication performed between the display terminal 200 and the personal terminal 400 via the network NW.

  The CPU 101 performs signal processing according to a program stored in advance in the large-capacity storage device 106 while utilizing the temporary storage function of the RAM in the memory 105. As a result, the CPU 101 performs various controls of the entire management server 100.

  The display terminal 200 includes a CPU 201, an operation unit 202 for performing various operation inputs, a display unit 203 for performing various displays, a network communication control unit 204, a memory 205 such as a RAM or a ROM, and a hard disk, for example. A large-capacity storage device 206 including a device and a communication control unit 207 are included.

  The network communication control unit 204 controls network communication performed between the management server 100 and the personal terminal 400 via the network NW.

  The communication control unit 207 controls communication performed with the reader 300.

  The CPU 201 performs signal processing according to a program stored in advance in the large-capacity storage device 206 while using the temporary storage function of the RAM in the memory 205. Thereby, the CPU 201 performs various controls of the entire display terminal 200.

  The reader 300 includes an RF communication control unit 301, an antenna 302, and a communication control unit 303.

  The antenna 302 exchanges signals with the IC card T within a predetermined communication range by wireless communication.

  The RF communication control unit 301 accesses the IC card T via the antenna 302 by wireless communication to read information, and processes a signal read from the IC card T. Information may be written to the IC card T.

  The communication control unit 303 controls communication performed with the display terminal 200.

  The personal terminal 400 includes a CPU 401, an operation unit 402 for performing various operation inputs, a display unit 403 for performing various displays, a network communication control unit 404, a memory 405 including, for example, a RAM and a ROM, and a hard disk, for example. And a mass storage device 406 including a device.

  The network communication control unit 404 controls network communication performed between the management server 100 and the display terminal 200 via the network NW.

  The CPU 401 performs signal processing according to a program stored in advance in the mass storage device 406 while utilizing the temporary storage function of the RAM in the memory 405. As a result, the CPU 401 performs various controls of the personal terminal 400 as a whole.

  FIG. 3 is an explanatory diagram conceptually showing an example of the contents stored in the IC card T.

  In FIG. 3, the IC card T stores “tag ID”, which is unique identification information of the IC card T, “name” of the corresponding employee P1, and “employee ID” unique to the corresponding employee P1. Has been. The tag ID, the name of the employee P1, and the employee ID of the employee P1 correspond to the user identification information described in each claim.

  In addition, you may memorize | store the reduced amount (after-mentioned) converted environmental load, the provided 1st point (after-mentioned), etc. in IC card T.

  Here, the feature of the present embodiment is that the raising / lowering behavior of the employee P1 using the stairway passage S detected by the reader 300 based on the operation of the employee P1 is converted into a CO2 reduction amount (described later), and The first point (to be described later) corresponding to the converted CO2 reduction amount is to be given to the employee P1.

  FIG. 4 is an explanatory diagram illustrating an example of a display screen displayed on the display unit 203 of the display terminal 200.

  FIG. 4A shows an example of a standby state screen displayed on the display unit 203 of the display terminal 200. As shown in FIG. 4A, a message prompting the user to hold the IC card T within the communication range of the antenna 302 of the reader 300 is displayed in the center ellipse of this screen. In this example, “Please hold your IC card” is displayed.

  Here, returning to FIG. 1, the display terminal 200 and the reader 300 are provided in the staircase passage S. When the employee P1 moves up and down between the floors using the stairway passage S without using the elevator EV, the employee P1 puts the IC card T within the communication range in accordance with the message on the standby screen displayed on the display terminal 200. Hold it over. Then, the reader 300 reads the identification information of the employee P1 from the IC card T according to the proximity operation of the IC card T by the employee P1 when the IC card T is held over the communication range by the employee P1. . Thereby, the raising / lowering action of the employee P1 using the stairway passage S without using the elevator EV (hereinafter simply referred to as “elevating action of the employee P1” as appropriate) is detected. A detection result (including identification information of the employee P1) by the reader 300 is output to the management server 100 via the display terminal 200 and the network NW.

  When the detection result by the reader 300 is input, the management server 100 converts the raising / lowering behavior of the employee P1 into a carbon dioxide reduction amount (hereinafter referred to as “CO2 reduction amount”) as an environmental load reduction amount. For example, it is converted into a CO2 reduction amount of 20 g per one raising / lowering action of the employee P1. Thereafter, a first point (first reward value) corresponding to the converted CO2 reduction amount is assigned in association with the identification information of the corresponding employee P1. For example, 1 point is given for 1 g of CO2 reduction amount. Then, the converted CO2 reduction amount and the given first point are added to the CO2 reduction amount and the first point corresponding to the identification information of the employee P1 accumulated at the present time, and each employee P1 is added. Aggregate every. Then, the count result is output to the display terminal 200 via the network NW. When the count result is input from the management server 100, the display terminal 200 displays a screen including the count result on the display unit 203.

  FIG. 4B shows an example of a screen including the above-described total result displayed on the display unit 203 of the display terminal 200. As shown in FIG. 4B, a message including the first point given by the current raising / lowering action is displayed in the ellipse on the left side of the screen. In this example, “20 points have been earned” is displayed. In the table on the right side of this screen, “user name”, “current CO2 reduction amount”, “total number of acquired points”, and “total CO2 reduction amount” are displayed.

  The “user name” is the name of the employee P1 holding the IC card T within the communication range, that is, the employee P1 moving up and down the stairway S. In this example, “Eco Taro” is displayed.

  The “current CO2 reduction amount” is the CO2 reduction amount converted by the current raising / lowering action of the employee P1. In this example, “20 g” is displayed.

  The “total number of acquired points” is a total value of the first points given in association with the employee P1 (specifically, identification information of the employee P1), which is totaled by the management server 100. In this example, “500 pts” is displayed.

  The “cumulative CO2 reduction amount” is a total value of the CO2 reduction amount calculated by the raising / lowering behavior of the employee P1 and totalized by the management server 100. In this example, “500 g” is displayed.

  FIG. 5 is a flowchart illustrating a control procedure executed by the CPU 101 of the management server 100.

  In FIG. 5, for example, when the power of the management server 100 is turned on by a system administrator, this flow is started (“START” position).

  First, in step S <b> 10, the CPU 101 inputs a detection result by the reader 300 (including identification information of the employee P <b> 1 moving up and down using the stairway S) via the display terminal 200, the network NW, and the network communication control unit 104.

  After that, in step S20, the CPU 101 determines in advance that when the reader 300 detects the raising / lowering action of the employee P1 (when reading the identification information of the employee P1), the previous detection of the raising / lowering action of the employee P1 by the reader 300 is predetermined. It is determined whether or not it was performed within a predetermined time range (in this example, within 5 minutes) (function as a first time range determination means). In this determination, whether or not the input interval between the detection result related to the employee P1 input in the above step S10 and the detection result related to the employee P1 input in the previous step S10 was within 5 minutes. Can be determined. If the input interval exceeds 5 minutes, the determination is not satisfied and the routine goes to Step S30.

  In step S30, the CPU 101 converts the raising / lowering behavior of the employee P1 detected by the reader 300 into a CO2 reduction amount (function as a first conversion means).

  In step S40, the CPU 101 assigns the first point corresponding to the CO2 reduction amount converted in step S30 in association with the identification information of the employee P1 input in step S10 (first reward). Function as value giving means). Thereafter, the process proceeds to step S50.

  On the other hand, if the input interval is within 5 minutes in step S20, the determination in step S20 is satisfied, the conversion of the CO2 reduction amount related to the new detection in step S30, and the above The process proceeds directly to step S50 without giving the first point for new detection in step S40.

  In step S50, the CPU 101 stores the CO2 reduction amount converted in step S30 and the first point assigned in step S40, and the identification information of the employee P1 input in step S10 accumulated at the present time. Is added to the amount of CO2 reduction and the first point, and totalized for each employee P1 (function as a first totaling means). If the determination in step S20 is satisfied and the conversion of the CO2 reduction amount and the provision of the first point are not performed, it corresponds to the identification information of the employee P1 input in step S10 accumulated at the present time. Based on the CO2 reduction amount and the first point, the data is counted for each employee P1.

  Thereafter, in step S60, the CPU 101 outputs the counting result obtained in step S50 to the display terminal 200 via the network communication control unit 104 and the network NW. Thereby, the screen (refer FIG.4 (b)) containing the said total result is displayed on the display part 203 of the display terminal 200. FIG.

  Then, the process proceeds to step S70, where the CPU 101 determines whether or not a predetermined end operation, for example, powering off the management server 100 has been performed. If the end operation has not been performed, the determination is not satisfied and the routine returns to step S10 and the same procedure is repeated. If an end operation has been performed, the determination is satisfied and this flow ends.

  As described above, the environmental activity promotion system 1 according to the first embodiment is provided in a company building having a plurality of floors, a staircase passage S, and an elevator EV, and the staircase passage S is provided with a leader 300. ing. The reader 300 detects the raising / lowering action of the employee P1 using the staircase passage S based on the operation of the employee P1 (in the above example, the action of holding the employee P1 within the communication range). The detected raising / lowering behavior of the employee P1 is converted into an environmental load reduction amount (CO2 reduction amount in the above example), and then the first point corresponding to the CO2 reduction amount is the identification information of the corresponding employee P1. It is given in association with. The converted CO2 reduction amount and the assigned first point are totalized for each employee P1, and the totaled result is displayed on the display unit 203 of the display terminal 200.

  As described above, in the present embodiment, the raising / lowering behavior of the employee P1 is detected based on the operation of the employee P1. Thereby, when the employee P1 moves up and down the staircase passage S, that is, when the environmental load reduction activity is performed, the first point corresponding to the CO2 reduction amount is reliably given to the employee P1. That is, it is possible to prevent the first point from being given to the employee P1 by forgetting to report it even though the environmental load reduction activity has been performed. As a result, it is possible to give motivation to the environmental load reduction activity to the employee P1. In addition, it is possible to prevent a false reward acquisition act of swinging up and down the stairs passage S or reporting more than the number of times the stairs passage S is actually moved up and down.

  In addition, for each employee P1, by visualizing the converted CO2 reduction amount and the contents and extent of the first point assigned, each employee P1 is made aware of the contribution to the environmental load reduction activities. You can also.

  In this embodiment, in particular, each employee P1 possesses an IC card T that stores the identification information of the employee P1. Therefore, each employee P1 can reliably detect the ascending / descending behavior of the staircase passage S only by positioning the IC card T within a predetermined communication range by the reader 300. As a result, the operational burden on the employee P1 can be reduced, and convenience can be improved.

  In the present embodiment, in particular, it is determined whether or not the previous raising / lowering behavior of the employee P1 in the same reader 300 has been detected within a predetermined time range (in the above example, within 5 minutes). As a result, it is possible to prevent the act of continuously detecting and illegally obtaining the first point.

  The present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit and technical idea of the present invention. Hereinafter, such modifications will be described in order.

(1-1) When giving the first point according to the number of raised and lowered floors In other words, based on the number of floors where the employee P1 has moved up and down the staircase passage S, the employee P1 is converted into a CO2 reduction amount, and the conversion result Accordingly, the first point may be given.

  A plurality of readers 300 according to the present modification are provided corresponding to each of the floors of the plurality of floors. In this example, the leader 300 is provided in each staircase passage S corresponding to each floor. The reader 300 is provided with a display terminal 200 and a sensor 500, respectively. The configuration of the environmental activity promotion system 1 other than the above is the same as that shown in FIG.

  Here, in general, in the raising / lowering action of the employee P1, the burden on the employee P1 differs depending on how many floors of the plurality of floors correspond to the raising / lowering action, and the burden on the employee P1 depends on the number of raised / lowered floors. The larger the number, the larger. In this modified example, it is identified and detected how many of the floors the lifting / lowering action of the employee P1 corresponds to, and a first point reflecting the burden on the employee P1 is given. .

  In this modification, the reader 300 is provided in each stairway passage S corresponding to each floor, so that the identification information of the employee P1 is the reader 300 corresponding to the floor of any one of the floors of the plurality of floors. Based on whether or not it has been read, it is possible to identify and detect how many floors of the plurality of floors the lifting action of the employee P1 corresponds to. That is, in this modification, when the employee P1 moves up and down the staircase passage S, it corresponds to the leader 300 corresponding to the floor of the floor used as the starting point of the stairway S and the floor of the floor used as the end point of use of the stairway S. It is predetermined that the IC card T is held over both the reader 300. Therefore, when the employee P1 moves up and down the staircase passage S, the identification information of the employee P1 is read by the reader 300 corresponding to the floor of the floor that is the starting point and the ending point. As a result, it is identified and detected how many steps of the plurality of floors the lifting action of the employee P1 corresponds to.

  When the employee P1 moves up and down the stairway S, the IC card T is held only over the reader 300 corresponding to the floor at the end point, and the number of floors corresponding to the floor at the end point (for example, the end point) If the floor is the third floor, the third floor) may be regarded as the number of floors raised by the employee P1. Alternatively, when the employee P1 moves up and down the staircase passage S, the IC card T may be held over the reader 300 corresponding to the floor of each floor.

  When the management server 100 inputs the identification information of the employee P1 from the reader 300, the management server 100 converts the raising / lowering behavior of the employee P1 into a CO2 reduction amount according to the number of floors where the employee P1 has moved up and down. Specifically, the CO2 reduction amount in the raising / lowering action of the employee P1 with a large number of raised / lowered floors is converted as a larger value than the CO2 reduction amount in the raising / lowering action of the employee P1 with a lower number of raised / lowered floors (the CPU 101 at this time executes The control contents to function as the first conversion means). Then, according to the conversion result, the first point corresponding to the employee P1 with a large number of raised / lowered floors is given as a larger value than the first point corresponding to the employee P1 with a lower number of raised / lowered floors (at this time) The control contents executed by the CPU 101 function as first reward value giving means).

  FIG. 6 is an explanatory diagram showing an example of the CO2 reduction amount and the first point corresponding to the number of floors where the employee P1 has moved up and down.

  In FIG. 6, in this example, the CO2 reduction amount converted when the raised floor is the first floor is 10 g, and the CO2 reduction amount converted when the raised floor is the second floor is 15 g. The amount of CO2 reduction converted when the number of floors is the third floor is 20 g (the same is set when the number of floors raised and lowered is four or more). Also, the first point given to employee P1 who was raised and lowered on the first floor was 10 points, and the first point given to employee P1 who was raised and lowered was 15 points, and was raised and lowered The first point given to the employee P1 whose number of floors is the third floor is 20 points (the same is set when the number of raised and lowered floors is four or more).

  Here, as described above, in general, in the ascending / descending behavior of the staircase passage S, the burden on the employee P1 increases as the number of raised / lowered floors increases. Therefore, in this modified example, the reader 300 is configured to be able to identify and detect the number of floors of the plurality of floors corresponding to the lifting / lowering behavior of the employee P1. Thereby, a fair first point reflecting the burden on the employee P1 can be given to the employee P1.

  In the present modification, a plurality of readers 300 are provided corresponding to each of a plurality of floors. Thereby, it is possible to accurately identify and detect the number of floors of the plurality of floors corresponding to the lifting / lowering action of the employee P1. It is also possible for the employee P1 who moves up and down a plurality of floors to operate the reader 300 for each floor.

(1-2) A case where a first point is given according to whether the action is an ascending action or a descending action. That is, based on whether the employee P1 ascends or descends the staircase passage S, the ascending / descending action of the employee P1 is reduced by CO2. You may make it convert into a quantity and give a 1st point according to the conversion result.

  FIG. 7 is an explanatory diagram schematically showing the overall configuration of the environmental activity promotion system 1 in the present modification. FIG. 7 corresponds to FIG. 1 described above. Portions equivalent to those in FIG.

  As shown in FIG. 7, in this modification, the direction of passage of the employee P1 in the staircase passage S is determined in advance. In this example, as indicated by the block arrow in the figure, the direction of travel of the employee P1 in the staircase passage S is determined to be the left side, that is, the left side. And this stairway passage S is distinguished by the ascending side and the descending side. That is, in the staircase passage S, a portion corresponding to the ascent behavior of the employee P1 is defined as an ascending side portion U-S (one side portion in the width direction), and a portion corresponding to the descending behavior of the employee P1 is defined as a descending side portion DS The other side portion in the width direction).

  The ascending side portion US is provided with a reader 300A (information reading means, ascending first action detecting means, first action detecting means). The reader 300A detects the ascending behavior of the employee P1 using the staircase passage S. The reader 300A is provided in the staircase connection portion SC of the ascending side portion US in this example, but is not limited to this, and the leader 300A is not limited to the landing portion SL or the ascending side portion US of the ascending side portion US. You may provide in staircase part SD and SU.

  On the other hand, the descending part DS is provided with a reader 300B (information reading means, first action detecting means for descending, first action detecting means). The reader 300B detects the descending action of the employee P1 using the staircase passage S. The leader 300B is provided in the staircase connection portion SC of the descending portion DS in this example, but is not limited to this, and the leader 300B is not limited to the landing portion SL of the descending portion DS or the descending portion DS. You may provide in staircase part SD and SU.

  The configuration of the environmental activity promotion system 1 other than the above is the same as that shown in FIG. The functional configuration of the readers 300A and 300B is substantially the same as the functional configuration of the reader 300 (see FIG. 2) in the above-described embodiment.

  Here, in general, in the raising / lowering action of the employee P1, the burden on the employee P1 differs depending on whether the action is an ascending action or a descending action. Bigger than. In this modified example, whether or not the employee P1 is ascending or descending is identified and detected, and a first point reflecting the burden on the employee P1 is given.

  In this modification, since the direction of travel of the employee P1 in the staircase passage S is determined to be left-hand traffic, based on which of the readers 300A and 300B the identification information of the employee P1 is read, The raising / lowering behavior of the employee P1 can be detected by identifying whether it is an ascending behavior or a descending behavior. That is, when the identification information of the employee P1 is read by the reader 300A, the raising / lowering action of the employee P1 is detected as an ascending action, and when the identification information of the employee P1 is read by the reader 300B, the raising / lowering action of the employee P1 is lowered. Detect as.

  When the management server 100 inputs the identification information of the employee P1 from the reader 300A or the reader 300B, the raising / lowering action of the employee P1 is reduced by CO2 depending on whether the raising / lowering action of the employee P1 is an ascending action or a descending action. Convert to quantity. Specifically, the CO2 reduction amount in the ascent behavior of the employee P1 is converted as a value larger than the CO2 reduction amount in the descending behavior of the employee P1 (the control content executed by the CPU 101 at this time functions as the first conversion means. To do). And according to this conversion result, the 1st point corresponding to the above-mentioned climbing action is given as a value larger than the 1st point corresponding to the above-mentioned descending action (the control content which CPU101 at this time performs is the 1st reward. Functions as a value assigning means).

  FIG. 8 is an explanatory diagram illustrating an example of the CO2 reduction amount and the first point corresponding to the ascending behavior and the descending behavior of the employee P1.

  In FIG. 8, in this example, the CO2 reduction amount converted when the employee P1 moves down is 10 g, and the CO2 reduction amount converted when the employee P1 moves up is 15 g. Further, the first point given to the employee P1 who has made the descending action is 10 points, and the first point given to the employee P1 who has made the ascending action is 15 points.

  Here, as described above, generally, in the ascending / descending behavior of the staircase passage S, the burden on the employee P1 is greater in the ascending behavior than in the descending behavior. Therefore, in the present modification, the readers 300A and 300B are configured to be able to detect and detect whether the employee P1 moves up or down as an up or down action. Thereby, a fair first point reflecting the burden on the employee P1 can be given to the employee P1.

  Further, as in this modification, by providing the reader 300A that detects the ascent behavior of the employee P1 and the reader 300B that detects the descending behavior of the employee P1, the ascent behavior and the descending behavior of the employee P1 can be accurately distinguished. It can be detected separately.

  Moreover, when the ascending side and the descending side of the staircase passage S are distinguished as in this modification, the ascending behavior and descending behavior of the employee P1 are arranged by arranging the readers 300A and 300B on the corresponding sides. Can be more accurately distinguished and detected.

(1-3) When the first point corresponding to the discomfort index is given In other words, the discomfort index is calculated based on the temperature and humidity in the surrounding environment of the leader 300 when the lifting / lowering behavior of the employee P1 by the leader 300 is detected. You may make it give a 1st point according to an index | exponent.

  The configuration of the environmental activity promotion system 1 of the present modification is the same as that shown in FIG.

  Here, in general, when the employee P1 moves up and down, the burden on the employee P1 varies depending on the temperature and humidity in the surrounding environment of the staircase passage S. In this modification, when detecting the raising / lowering behavior of the employee P1 by the reader 300, a discomfort index (described later) is calculated by detecting the temperature and humidity in the environment around the reader 300, and the burden on the employee P1 is reflected. 1st point is awarded.

  In this modification, a sensor 500 capable of detecting temperature and humidity in the surrounding environment of the reader 300 (in other words, the surrounding environment of the staircase passage S) is provided in the reader 300 (see FIGS. 1 and 2). Therefore, when reading the identification information of the employee P1 by the reader 300 (when the raising / lowering behavior of the employee P1 is detected by the reader 300), the temperature and humidity in the surrounding environment of the staircase passage S can be detected by the sensor 500.

  When the management server 100 inputs the identification information of the employee P1 from the reader 300, the management server 100 converts the raising / lowering action of the employee P1 into a CO2 reduction amount. At the same time, the detection result by the sensor 500 is acquired from the sensor 500, and the discomfort index is calculated based on the acquired detection result (the control content executed by the CPU 101 at this time functions as the discomfort index calculating means. ). In this example, the discomfort index is an index obtained by quantifying the degree of comfort / discomfort felt by humans according to temperature and humidity. This discomfort index increases as the temperature and humidity increase. Then, the first point corresponding to the employee P1 having a large discomfort index calculated when the reader 300 detects the raising / lowering behavior of the employee P1 is larger than the first point corresponding to the employee P1 having the small discomfort index. (The control content executed by the CPU 101 at this time functions as a first reward value giving means).

  FIG. 9 is an explanatory diagram illustrating an example of the first point corresponding to the discomfort index calculated when the reader 300 detects the raising / lowering behavior of the employee P1.

  In FIG. 9, in this example, the first point given to the employee P1 when the calculated discomfort index is less than 75 is 10 points, and the calculated discomfort index is 75 or more and less than 80. Sometimes the first point given to the employee P1 is 12 points, and when the calculated discomfort index is 80 or more and less than 85, the first point given to the employee P1 is 14 points. The first point given to the employee P1 when the discomfort index is 85 or more is 16 points.

  Here, as described above, generally, the burden of the employee P1 on the ascending / descending behavior of the staircase passage S varies depending on the temperature and humidity in the surrounding environment of the staircase passage S. Therefore, in this modification, the discomfort index is calculated in consideration of the temperature and humidity in the surrounding environment detected by the sensor 500. Then, the higher the discomfort index, the thicker the first point can be obtained. Thereby, a fair first point that reliably reflects the temperature and humidity in the surrounding environment can be given to the employee P1.

(1-4) When the target achievement rate can be viewed on the display terminal That is, the achievement rate for the target value of the CO2 reduction amount predetermined for each employee P1 is displayed on the display unit 203 of the display terminal 200. It may be.

  In this modified example, when an appropriate operation of the display terminal 200 is performed by the employee P1 (for example, logging in via the operation unit 202 or holding the IC card T), the operation information is output to the management server 100. The When the management server 100 inputs the operation information, the CO2 reduction amount determined in advance for each employee P1 based on the totaled CO2 reduction amount converted as described above and the aggregated first point. (Hereinafter, referred to as “CO2 reduction amount target achievement rate” as appropriate) is calculated (the control content executed by the CPU 101 at this time functions as calculation means). Then, the calculated target achievement rate of the CO2 reduction amount is output to the display terminal 200.

  When the target achievement rate of the CO2 reduction amount is input from the management server 100, the display terminal 200 displays a screen including the target achievement rate of the CO2 reduction amount.

  FIG. 10 is an explanatory diagram illustrating an example of a screen including the target achievement rate of the CO2 reduction amount displayed on the display unit 203 of the display terminal 200. As shown in FIG. 10, “user name”, “company-wide CO2 reduction amount”, and “cumulative CO2 reduction amount” are displayed in the upper table of this screen.

  The “user name” is the name of the employee P1 who performed the appropriate operation on the display terminal 200. In this example, “Eco Taro” is displayed.

  The “company-wide CO2 reduction amount” is a total value of the CO2 reduction amount calculated by the raising / lowering behavior of all the employees P1, which is aggregated by the management server 100. In this example, “150,000 g” is displayed.

  The “cumulative CO2 reduction amount” is a total value of the CO2 reduction amount calculated by the raising / lowering behavior of the employee P1 and totalized by the management server 100. In this example, “500 g” is displayed.

  In the table on the lower side of this screen, “eco-activity”, “total number of acquired points”, “total CO2 reduction amount”, and “target achievement rate” are displayed.

  “Eco-activity” is the name of the environmental load reduction activity described above. In this example, “staircase” representing the ascending / descending behavior using the stairway passage S without using the elevator EV is displayed.

  The “total number of acquired points” is the total value of the first points assigned in association with the employee P1 and totalized by the management server 100. In this example, “500 pts” is displayed.

  The “cumulative CO2 reduction amount” is a total value of the CO2 reduction amount calculated by the raising / lowering behavior of the employee P1 and totalized by the management server 100. In this example, “500 g” is displayed.

  The “target achievement rate” is a target achievement rate of the CO2 reduction amount that is calculated by the management server 100 and is predetermined for each employee P1. In this example, “80%” is displayed.

  According to this modification, it is possible to clearly recognize the target achievement rate of the CO2 reduction amount determined in advance for each employee P1, so that the employee P1 can reduce the environmental load that is a target for achieving the target. High motivation for activities can be given.

  In this modification, the target achievement rate of the CO2 reduction amount determined in advance for each employee P1 is calculated. However, the present invention is not limited to this, and is determined in advance for each group (for example, a department or the like) composed of a plurality of employees P1. Alternatively, the target achievement rate of the CO2 reduction amount may be calculated. Or you may make it calculate the target achievement rate of the CO2 reduction amount predetermined with respect to all the employees P1. In this case, the same effect is obtained. Moreover, although the display terminal 200 displays the target achievement rate of the CO2 reduction amount, the present invention is not limited to this, and the personal terminal 400 may display it instead of the display terminal 200.

(1-5) When the ranking can be viewed on the display terminal In other words, the ranking of the CO2 reduction amount determined for each employee P1 may be displayed on the display unit 203 of the display terminal 200.

  In this modified example, when an appropriate operation of the display terminal 200 is performed by the employee P1 (for example, logging in via the operation unit 202 or holding the IC card T), the operation information is output to the management server 100. The When the management server 100 inputs the operation information, the management server 100 determines the ranking of the CO2 reduction amount for each employee P1 based on the totaled result of totalizing the CO2 reduction amount converted and the assigned first point as described above. (The control content executed by the CPU 101 at this time functions as a rank determining means). Then, the ranking of the determined CO2 reduction amount is output to the display terminal 200.

  When the ranking of the CO2 reduction amount is input from the management server 100, the display terminal 200 displays a screen including the ranking of the CO2 reduction amount.

  FIG. 11 is an explanatory diagram illustrating an example of a screen including the ranking of the CO2 reduction amount displayed on the display unit 203 of the display terminal 200. As shown in FIG. 11, “rank”, “name”, “total number of acquired points”, and “total CO2 reduction amount” are displayed in the table of this screen.

  “Rank” is the ranking of the CO2 reduction amount determined by the management server 100. “Name” is the name of the employee P1. The “total number of acquired points” is the total value of the first points assigned in association with the employee P1 and totalized by the management server 100. The “cumulative CO2 reduction amount” is a total value of the CO2 reduction amount calculated by the raising / lowering behavior of the employee P1 and totalized by the management server 100.

  According to this modification, since the rank of the CO2 reduction amount among the employees P1 can be clearly recognized, the competitiveness of the employees P1 can be aroused. As a result, it is possible to give a high motivation to the environmental load reduction activity to be ranked.

  In this modification, the ranking of the CO2 reduction amount is determined for each employee P1, but the present invention is not limited to this, and the ranking of the CO2 reduction amount is determined for each group (for example, a department or the like) composed of a plurality of employees P1. It may be. In this case, the same effect is obtained. Further, the ranking of the CO2 reduction amount is displayed on the display terminal 200, but the present invention is not limited to this, and the personal terminal 400 may display it instead of the display terminal 200.

  Next, a second embodiment of the present invention will be described.

  FIG. 12 is an explanatory diagram schematically showing the overall configuration of the environmental activity promotion system of the second embodiment.

  In FIG. 12, a building (in this example, a company building) has a normal section D1 for performing office work indoors and an outdoor section D2 for performing office work outdoors. Further, the normal section D1 is provided with a management room Z5 for a system administrator, an entrance / exit E1 to / from the outdoor section D2, and an illumination L.

  The environmental activity promotion system 1 ′ of the present embodiment is provided in this company building, and is a system that promotes environmental load reduction activities by a plurality of employees P2 (users) in the company building. This environmental activity promotion system 1 ′ includes a management server 100 provided in the management room Z5, an illumination control unit (illumination control means) 107 connected to the management server 100 for controlling the illumination L, and a display terminal 200 ′. (Second display terminal), reader 300 '(information reading means, second action detecting means), personal terminal 400 usable by each employee P2, IC card T possessed by each employee P2, and sensor 500 '(Second temperature and humidity detecting means; see FIG. 13 described later). Note that the management server 100, the display terminal 200 ′, and the personal terminal 400 are connected via the network NW so as to be able to input and output information.

  The reader 300 ′ is provided in the outdoor section D2, and reads identification information (described later) of the corresponding employee P2 stored in the IC card T by wireless communication. As a result, the office work behavior of the employee P2 who uses the outdoor section D2 without using the normal section D1 as the environmental load reduction activity is detected. Specifically, the entry and exit of each employee P1 with respect to the outdoor section D2 is detected (details will be described later). Note that the reader 300 ′ is provided in the outdoor section D2 in this example, but is not limited thereto, and may be provided in the entrance / exit E1.

  The display terminal 200 'is attached to the reader 300' in the outdoor section D2 (however, when the reader 300 'is provided at the entrance / exit E1), performs various displays (display contents). Is substantially the same as the display terminal 200 described above). Further, the reader 300 'and the sensor 500' are connected to the display terminal 200 '.

  The sensor 500 'is attached to the reader 300' in the outdoor section D2 (however, when the reader 300 'is provided at the entrance / exit E1), the temperature in the ambient environment of the reader 300' And the humidity are detected (for details, refer to a later-described modification).

  FIG. 13 is a functional block diagram showing the functional configuration of the entire system of the environmental activity promotion system 1 ′, and corresponds to FIG. 2 described above. Portions equivalent to those in FIG.

  In FIG. 13, the environmental activity promotion system 1 ′ includes the management server 100, the lighting control unit 107, the display terminal 200 ′, the reader 300 ′, the personal terminal 400, the IC card T, and the sensor 500 ′ as described above. doing.

  The functional configuration of the management server 100 is the same as that in FIG. Further, the illumination control unit 107 is connected to the CPU 101 of the management server 100 via a communication control unit (not shown). The CPU 101 exchanges control signals with the illumination control unit 107 via the communication control unit, and controls the illumination via the illumination control unit 107.

  The functional configuration of the display terminal 200 ′ is the same as that of the display terminal 200 shown in FIG. The functional configuration of the reader 300 ′ is the same as that of the reader 300 shown in FIG. The functional configuration of the personal terminal 400 is the same as that in FIG.

  In addition, the above-described tag ID, the name of the corresponding employee P2, and the employee ID of the corresponding employee P2 are stored in the IC card T in this modification. The tag ID, the name of the employee P2, and the employee ID of the employee P2 correspond to the user identification information described in each claim.

  Here, the feature of this embodiment is that the office work behavior of the employee P2 using the outdoor section D2 detected by the reader 300 ′ based on the operation of the employee P2 is converted into a CO2 reduction amount, and the conversion The second point (described later) corresponding to the CO2 reduction amount is given to the employee P2. Hereinafter, this outline will be described with reference to FIG.

  As shown in FIG. 12, the display terminal 200 ′ and the reader 300 ′ are provided in the outdoor section D2. When the employee P2 performs office work using the outdoor section D2 instead of the normal section D1, the employee P2 responds to the message on the standby screen displayed on the display terminal 200 ′ (similar to the above-described FIG. 4A). Then, hold the IC card T within the communication range. Then, the reader 300 'moves the IC card T over the predetermined communication range of the antenna 302 of the reader 300' by the employee P2, in other words, in response to the proximity operation of the IC card T by the employee P2. The identification information of the employee P2 is read. Thereby, the office work behavior of the employee P2 who uses the outdoor section D2 without using the normal section D1 (hereinafter simply referred to as “the office work behavior of the employee P2” as appropriate) is detected. Specifically, when the identification information of a new employee P2 (an employee who has not yet entered) is read, the entry of the employee P2 into the outdoor section D2 is detected, and the same employee P2 (an employee who has already entered) is detected. ) Is detected, the exit of the employee P2 from the outdoor section D2 is detected. The detection result (including the identification information of the employee P2) by the reader 300 ′ is output to the management server 100 via the display terminal 200 ′ and the network NW.

  When the management server 100 inputs the detection result by the reader 300 '(in this example, the detection result of the employee P2 leaving the outdoor section D2), the office work behavior of the employee P2 is reduced as the amount of CO2 reduction as an environmental load reduction amount. Convert to quantity. For example, each office work action of the employee P2 is converted into a CO2 reduction amount of 20 g. Or you may convert into the CO2 reduction amount according to the time (time from an entrance detection to an exit detection) when the said employee P2 performed office work action. Thereafter, a second point (second reward value) corresponding to the converted CO2 reduction amount is assigned in association with the identification information of the corresponding employee P2. For example, 1 point of 2nd points is given per 1 g of CO2 reduction amount. Then, the converted CO2 reduction amount and the assigned second point are added to the CO2 reduction amount and the second point corresponding to the identification information of the employee P2 accumulated at the present time, and each employee P2 is added. Aggregate every. Then, the counting result is output to the display terminal 200 ′ via the network NW. The display terminal 200 ′ displays a screen (similar to FIG. 4B described above) including the total result on the display unit 203 when the total result is input from the management server 100.

  FIG. 14 is a flowchart illustrating a control procedure executed by the CPU 101 of the management server 100.

  In FIG. 14, for example, when the power of the management server 100 is turned on by a system administrator, this flow is started (“START” position).

  First, in step S100, the CPU 101 uses the display terminal 200 ′, the network NW, and the network communication control unit 104 to display the detection result of the reader 300 ′ (including identification information of the employee P2 who performs office work using the outdoor section D2). To enter.

  Thereafter, in step S200, the CPU 101 executes a predetermined illumination control process (refer to FIG. 15 described later for the detailed procedure).

  Then, the process proceeds to step S110, and the CPU 101 determines whether or not the detection result by the reader 300 ′ input in step S100 is a detection result of the employee P2 leaving the outdoor section D2. If it is an entry detection result, the determination is not satisfied, and the routine goes to Step S170 described later. On the other hand, if it is a detection result of leaving, the determination is satisfied and the routine goes to Step S120.

  In step S120, the CPU 101 detects the exit of the employee P2 and the entrance of the employee P2 based on the detection result (detection result of entrance and exit of the same employee P2) input by the reader 300 ′ input in step S100. Is determined within a predetermined time range (in this example, within 30 minutes) (function as second time range determination means). In this determination, the input interval between the detection result of the exit related to the employee P2 input in the above step S100 and the detection result of the entrance related to the employee P2 input in the previous step S100 is within 30 minutes. What is necessary is just to determine whether it was. If the input interval exceeds 30 minutes, the determination is not satisfied and the routine goes to Step S130.

  In step S130, the CPU 101 converts the office work behavior of the employee P2 detected by the reader 300 'into a CO2 reduction amount (function as a second conversion means).

  In step S140, the CPU 101 assigns the second point corresponding to the CO2 reduction amount converted in step S130 in association with the identification information of the employee P2 input in step S100 (second reward). Function as value giving means). Thereafter, the process proceeds to step S150.

  On the other hand, if the input interval is within 30 minutes in step S120, the determination in step S120 is satisfied, the conversion of the CO2 reduction amount in step S130, and the first step in step S140. Without giving 2 inches, the process directly proceeds to step S150.

  In step S150, the CPU 101 stores the CO2 reduction amount converted in step S130 and the second point assigned in step S140, and the identification information of the employee P2 input in step S100 accumulated at the present time. Is added to the CO2 reduction amount and the second point corresponding to the above, and totalized for each employee P2 (function as a second totaling means). If the determination in step S120 is satisfied and the conversion of CO2 reduction amount and the addition of the second point are not performed, it corresponds to the identification information of employee P2 input in step S100 accumulated at the present time. Based on the CO2 reduction amount and the second point, the data is tabulated for each employee P2.

  Thereafter, in step S160, the CPU 101 outputs the counting result obtained in step S150 to the display terminal 200 ′ via the network communication control unit 104 and the network NW. Thereby, the screen (refer FIG.4 (b)) containing the said total result is displayed on the display part 203 of display terminal 200 '.

  Then, the process proceeds to step S170, where the CPU 101 determines whether a predetermined end operation, for example, powering off the management server 100 has been performed. If the end operation has not been performed, the determination is not satisfied and the routine returns to step S100 and the same procedure is repeated. If an end operation has been performed, the determination is satisfied and this flow ends.

  FIG. 15 is a flowchart showing the detailed procedure of step S200 in FIG.

  In FIG. 15, first, in step S210, the CPU 101, based on the detection result of the reader 300 'for a plurality of employees P2 input in step S100 of FIG. Count the number of people in P2 (function as counting means).

  Thereafter, in step S220, the CPU 101 determines whether or not the number of employees P2 counted in step S210 is equal to or greater than a predetermined threshold value (5 in this example) (as the number determination means). function). If it is less than five, the determination is not satisfied and this routine is terminated. On the other hand, if the number is five or more, the determination is satisfied, and the routine goes to Step S230.

  In step S230, the CPU 101 outputs a control signal to the lighting control unit 107 to reduce (or turn off) the lighting L in a specific area (for example, an area where the employee P2 does not exist) included in the normal section D1. Good). Then, this routine ends.

  As described above, the environment promotion system 1 ′ of the second embodiment is provided in a company building having a normal section D1 and an outdoor section D2, and the reader 300 ′ is provided in the outdoor section D2. The reader 300 ′ detects the office work behavior of the employee P2 using the outdoor section D2 based on the operation of the employee P2 (in the above example, the act of holding the employee P2 within the communication range). The detected office work behavior of the employee P2 is converted into an environmental load reduction amount (CO2 reduction amount in the above example), and then the second point corresponding to the CO2 reduction amount identifies the corresponding employee P2. It is given in association with information. The converted CO2 reduction amount and the assigned second point are totalized for each employee P2, and the totaled result is displayed on the display unit 203 of the display terminal 200 ′.

  As described above, in the present embodiment, the office work behavior of the employee P2 is detected based on the operation of the employee P2. Thereby, when the employee P2 performs office work in the outdoor section D2, the second point according to the CO2 reduction amount is surely given to the employee P2. That is, it is possible to prevent the second point from being given to the employee P2 by forgetting to report it even though the environmental load reduction activity has been performed. Thereby, the motivation to the environmental load reduction activity can be given to the employee P2. In addition, it is possible to prevent a false acquisition of a reward by pretending to perform an office work action in the outdoor section D2 or reporting more than the time when the office work action was actually performed in the outdoor section D2.

  In addition, for each employee P2, by visualizing the converted CO2 reduction amount and the contents and extent of the second point given, each employee P2 is made aware of the contribution to the environmental load reduction activities. You can also.

  In the present embodiment, the reader 300 ′ is particularly configured to be able to detect entry and exit of each employee P2 to the outdoor section D2. Then, based on the detection result by the reader 300 ′, whether or not the employee P2 exit detection and the employee P2 entry detection are performed within a predetermined time range (within 30 minutes in the above example). judge. As a result, it can be said that the entry and exit of each employee P2 to the outdoor section D2 in a short time, which is not practically an activity for reducing the environmental load, is not counted, and the environmental load of each employee P2 is reduced. Can be evaluated correctly. In addition, it is possible to prevent an act of continuously detecting and illegally obtaining a reward.

  In the present embodiment, in particular, the number of employees P2 who have entered the outdoor section D2 at that time is counted according to the detection results of the reader 300 'for a plurality of employees P2, and the number of employees P2 thus counted is counted. However, it is determined whether or not the threshold value (5 people in the above example) has reached or exceeded. At this time, when the counted number of employees P2 is equal to or greater than the threshold value, the illumination of the specific area included in the normal section D1 is reduced or turned off. Thereby, when the number of employees P2 who are performing office work actions in the indoor section D2 is relatively small, the illumination of the specific area in the normal section D1 can be reduced or turned off. As a result, it is possible to reduce power consumption and contribute to environmental load reduction activities.

  In this embodiment, in particular, each employee P2 possesses an IC card T that stores identification information of the employee P2. Therefore, each employee P2 can reliably detect the office work behavior in the outdoor section D2 only by positioning the IC card T within a predetermined communication range by the reader 300 ′. As a result, the operation burden on the employee P2 can be reduced, and convenience can be improved.

  The present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit and technical idea of the present invention. Hereinafter, such modifications will be described in order.

(2-1) When giving the second point according to the discomfort index In other words, the discomfort index is calculated based on the temperature and humidity in the surrounding environment of the leader 300 'when the office work behavior of the employee P2 by the leader 300' is detected. The second point may be given according to the discomfort index.

  According to this modification, the same effects as those of the modification (1-3) described above are obtained. That is, in this modification, the discomfort index is calculated by taking into account the temperature and humidity in the surrounding environment of the reader 300 ′ detected by the sensor 500 ′ (in other words, the surrounding environment of the outdoor section D2). The higher the discomfort index, the thicker the second point is obtained. Specifically, the second point corresponding to the employee P2 having a large discomfort index calculated when the leader 300 ′ detects the office work behavior of the employee P2 is set to be higher than the second point corresponding to the employee P2 having the small discomfort index. , Give as a large value. Thereby, a fair second point that reliably reflects the temperature and humidity in the surrounding environment can be given to the employee P2.

(2-2) When the target achievement rate can be viewed on the display terminal That is, the achievement rate for the target value of the CO2 reduction amount predetermined for each employee P2 is displayed on the display unit 203 of the display terminal 200 ′. (The display screen is the same as in FIG. 10 described above).

  According to this modification, the same effect as that of the modification (1-4) is obtained. In other words, since the target achievement rate of the CO2 reduction amount determined in advance for each employee P2 can be clearly recognized, the employee P2 is highly motivated to reduce the environmental load that is the target for achieving the target. You can give a date. Although the display terminal 200 ′ displays the CO2 reduction target achievement rate, the present invention is not limited to this, and the personal terminal 400 may display it instead of the display terminal 200 ′.

(2-3) When ranking can be viewed on a display terminal That is, the ranking of the CO2 reduction amount determined for each employee P2 may be displayed on the display unit 203 of the display terminal 200 ′ (display) The screen is the same as in FIG.

  According to this modification, the same effect as that of the modification (1-5) is obtained. That is, since the rank of the amount of CO2 reduction among the employees P2 can be clearly recognized, the competitiveness of the employees P2 can be aroused. As a result, it is possible to give a high motivation to the environmental load reduction activity to be ranked. The ranking of the CO2 reduction amount is displayed on the display terminal 200 ′. However, the present invention is not limited to this, and the personal terminal 400 may display it instead of the display terminal 200 ′.

  Next, a third embodiment of the present invention will be described.

  FIG. 16 is an explanatory diagram schematically showing the overall configuration of the environmental activity promotion system of the third embodiment.

  In FIG. 16, a building (in this example, a company building) is an office work performed by an employee P3 (user) of the company building, and includes a management room Z6 for system administrators, a conference room Z7, and a living room. Z8, toilet Z9, and the management room Z6, conference room Z7, living room Z8, and a corridor connecting the toilet Z9.

  The environmental activity promotion system 1 ″ of this embodiment is a system that is provided in this company building and promotes the environmental load reduction activities by a plurality of employees P3. This environmental activity promotion system 1 ″ is located in the management room Z6. Management server 100 provided, display terminal 200 ″ (third display terminal), reader 300 ″ (information reading means, third action detecting means), personal terminal 400 that can be used by each employee P3, and each employee IC card T possessed by P3. The management server 100, the display terminal 200 ″, and the personal terminal 400 are connected via the network NW so as to be able to input and output information.

  The reader 300 ″ is provided in this company, and reads the identification information (described later) of the corresponding employee P3 stored in the IC card T by wireless communication. An action is detected (details will be described later).

  The display terminal 200 ″ is installed in the reader 300 ″ inside the company, and performs various displays (the display contents are substantially the same as those of the display terminal 200 described above). Further, the reader 300 ″ is connected to the display terminal 200 ″.

  FIG. 17 is a functional block diagram showing the functional configuration of the entire system of the environmental activity promotion system 1 ″, and is a diagram corresponding to FIG. 2 and FIG. 13. The same parts as those in FIG. The description is omitted.

  17, the environmental activity promotion system 1 ″ includes the management server 100, the display terminal 200 ″, the reader 300 ″, the personal terminal 400, and the IC card T as described above.

  The functional configuration of the management server 100 is the same as that in FIG. The functional configuration of the display terminal 200 ″ is the same as that of the display terminal 200 shown in FIG. 2. The functional configuration of the reader 300 ″ is the same as that of the reader 300 shown in FIG. The functional configuration of the personal terminal 400 is the same as that in FIG.

  The IC card T in the present modification stores the tag ID, the name of the corresponding employee P3, and the employee ID of the corresponding employee P3. The tag ID, the name of the employee P3, and the employee ID of the employee P3 correspond to the user identification information described in each claim.

  Here, a feature of the present embodiment is that it is determined whether or not the time when the employee P3 leaves the office is detected based on the operation of the employee P3 is a predetermined recommended leave time (described later). When this determination is satisfied, the employee P3's retirement behavior is converted into a CO2 reduction amount, and a third point (described later) corresponding to the converted CO2 reduction amount is given to the employee P3. Hereinafter, the outline will be described with reference to FIG.

  As shown in FIG. 16, the display terminal 200 ″ and the reader 300 ″ are provided inside the company. When the employee P3 goes to work or leaves the office, the IC card T is transferred to the communication range in accordance with the message on the standby screen displayed on the display terminal 200 ″ (similar to FIG. 4A). Then, the reader 300 ″ moves the IC card T over the predetermined communication range of the antenna 302 of the reader 300 ″ by the employee P3, in other words, in response to the proximity operation of the IC card T by the employee P3. Then, the identification information of the employee P3 is read from the IC card T. Thereby, the attendance behavior and the leaving behavior of the employee P3 are detected, specifically, the identification information of the new employee P3 (an employee who has not yet attended work). Is read, the attendance behavior of the employee P3 is detected, and when the identification information of the same employee P3 (an employee who has already attended work) is read, the employee P3 Detecting the clock-out action. Reader 300 'according to the detection result (including the identity of the employee P3) is output to the management server 100 via the display terminal 200 "and the network NW.

  When the management server 100 inputs the detection result by the reader 300 ″ (in this example, the detection result of the employee P3's leaving work), the time when the employee P3 leaves the house is set to a predetermined recommended recommended leaving time (for example, It is determined whether it is before overtime (overtime in this example, 17:00 in this example), or if the time when the employee P3 is leaving is before 17:00, in other words, overtime. In this case, compared with the case where the time when the employee P3 leaves the office is after 17:00, in other words, compared to the case where the employee works overtime, for example, a personal computer used for the overtime Thus, power consumption due to lighting, air conditioning, etc. is reduced, so in this embodiment, if the time when the employee P3 leaves the office is before 17:00, the employee P3's leaving office For example, if the time when the employee P3 leaves the office is before 17:00, the employee P3 is once converted to a CO2 reduction amount of 20 g. The third point (third reward value) corresponding to the CO2 reduction amount is given in association with the identification information of the corresponding employee P3, for example, one third point is given for each CO2 reduction amount of 1 g. The converted CO2 reduction amount and the given third point are added to the CO2 reduction amount and the third point corresponding to the identification information of the employee P3 accumulated at the present time, and totaled for each employee P3. Then, the totaling result is output to the display terminal 200 ″ via the network NW. When the aggregation result is input from the management server 100, the display terminal 200 ″ displays a screen including the aggregation result (similar to FIG. 4B described above) on the display unit 203.

  FIG. 18 is a flowchart illustrating a control procedure executed by the CPU 101 of the management server 100.

  In FIG. 18, for example, when the management server 100 is turned on by the system administrator, this flow is started (“START” position).

  First, in step S300, the CPU 101 inputs a detection result by the reader 300 ″ (including identification information of the employee P3 who goes to work and leaves) via the display terminal 200 ″, the network NW, and the network communication control unit 104.

  Then, the process proceeds to step S310, and the CPU 101 determines whether or not the detection result by the reader 300 ″ input in step S300 is a detection result of the employee P3 leaving work. In such a case, the determination is not satisfied, and the process proceeds to step S370, which will be described later, whereas if it is the detection result of the employee P3 leaving work, the determination is satisfied and the process proceeds to step S320.

  In step S320, the CPU 101 determines whether or not the time of the employee P3's leaving behavior is before 17:00 based on the detection result of the employee P3's leaving behavior input by the reader 300 ″ input in step S300. If the time when the employee P3 leaves the office is before 17:00, the determination is satisfied and the routine goes to Step S330.

  In step S330, the CPU 101 converts the leaving behavior of the employee P3 detected by the reader 300 ″ into a CO2 reduction amount (function as a third conversion unit).

  Then, the process proceeds to step S340, and the CPU 101 assigns the third point corresponding to the CO2 reduction amount converted in step S330 in association with the identification information of the employee P3 input in step S300 (third reward). Function as value giving means). Thereafter, the process proceeds to step S350.

  On the other hand, in step S320, if the time when the employee P3 leaves the office is after 17:00, the determination in step S320 is not satisfied, and the conversion of the CO2 reduction amount in step S330 and the step described above are performed. Without giving the third int in S340, the process directly goes to step S350.

  In step S350, the CPU 101 uses the CO2 reduction amount converted in step S330 and the third point assigned in step S340 to store the identification information of the employee P3 input in step S300 accumulated at the present time. Is added to the CO2 reduction amount and the third point corresponding to the above, and totalized for each employee P3 (function as third totaling means). If the determination in step S320 is not satisfied and the conversion of the CO2 reduction amount and the provision of the third point are not performed, it corresponds to the identification information of the employee P3 input in step S300 accumulated at the present time. Based on the CO2 reduction amount and the third point, the data is tabulated for each employee P3.

  Thereafter, in step S360, the CPU 101 outputs the counting result in step S350 to the display terminal 200 ″ via the network communication control unit 104 and the network NW. A screen (see FIG. 4 (b)) including the total result is displayed.

  Then, the process proceeds to step S370, where the CPU 101 determines whether a predetermined end operation, for example, powering off the management server 100 has been performed. If the end operation has not been performed, the determination is not satisfied and the routine returns to step S300 and the same procedure is repeated. If an end operation has been performed, the determination is satisfied and this flow ends.

  As described above, the environment promotion system 1 ″ according to the third embodiment is provided in a company building where the employee P3 performs office work, and the reader 300 ″ is provided in the company. This reader 300 ″ detects the attendance behavior and the leaving behavior of the employee P3 based on the operation of the employee P3 (in the above example, the act of holding the employee P3 within the communication range by the employee P3). It is determined whether or not the time of the employee's retirement behavior is before a predetermined recommended retirement time (17:00 in the above example), where the time of the employee P3's retirement behavior was before the recommended retirement time. In other words, there is a case where the employee P3 has not worked overtime, in which case the time when the employee P3 leaves the office is after the recommended time to leave, in other words, compared with the case where the employee works overtime. The power consumed by, for example, a personal computer, lighting, and air conditioning used during the overtime is reduced.

  For this reason, in the above case, the employee P3's retirement behavior is converted into an environmental load reduction amount (CO2 reduction amount in the above example), and then the third point corresponding to the CO2 reduction amount corresponds. It is given in association with the identification information of employee P3. The converted CO2 reduction amount and the assigned third point are totalized for each employee P3, and the totaled result is displayed on the display unit 203 of the display terminal 200 ″.

  As described above, in the present embodiment, it is detected based on the operation of the employee P3 that the time when the employee P3 leaves the office is before the recommended leave time. Thereby, when the time when the employee P3 leaves the office is before the recommended leave time, the third point corresponding to the CO2 reduction amount is surely given to the employee P3. In other words, it is possible to prevent the third point from being given to the employee P3 by forgetting to report it even though the environmental load reduction activity has been performed. As a result, the employee P3 can be motivated to reduce the environmental load. In addition, it is possible to prevent a false act of acquiring a reward by pretending that the time at which the retirement action was performed was before the recommended retirement time.

  In addition, for each employee P3, by visualizing the converted CO2 reduction amount and the contents and extent of the third point given, each employee P3 is made aware of the contribution to the environmental load reduction activities. You can also.

  In this embodiment, in particular, each employee P3 possesses an IC card T that stores the identification information of the employee P3. Accordingly, each employee P3 can reliably detect the work-in behavior and the work-out behavior only by positioning the IC card T within the predetermined communication range by the reader 300 ″. As a result, the operation burden on the employee P3 is reduced. It is possible to improve convenience.

  The present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit and technical idea of the present invention. Hereinafter, such modifications will be described in order.

(3-1) When the target achievement rate can be viewed on the display terminal In other words, the achievement rate with respect to the target value of the CO2 reduction amount predetermined for each employee P3 is displayed on the display unit 203 of the display terminal 200 ″. (The display screen is the same as in FIG. 10 described above).

  According to this modification, the same effect as that of the modification (1-4) is obtained. In other words, since the target achievement rate of the CO2 reduction amount determined in advance for each employee P3 can be clearly recognized, the employee P3 is highly motivated to reduce the environmental load that is the target for achieving the target. You can give a date. Although the display terminal 200 ″ displays the CO2 reduction target achievement rate, the present invention is not limited to this, and the personal terminal 400 may display it instead of the display terminal 200 ″.

(3-2) When the ranking can be viewed on the display terminal In other words, the ranking of the CO2 reduction amount determined for each employee P3 may be displayed on the display unit 203 of the display terminal 200 ″ (display) The screen is the same as in FIG.

  According to this modification, the same effect as that of the modification (1-5) is obtained. That is, since the rank of the amount of CO2 reduction among the employees P3 can be clearly recognized, the competitiveness of the employees P3 can be aroused. As a result, it is possible to give a high motivation to the environmental load reduction activity to be ranked. The ranking of the CO2 reduction amount is displayed on the display terminal 200 ″, but the present invention is not limited to this, and the personal terminal 400 may display it instead of the display terminal 200 ″.

(4) Others In the above, the ascending / descending behavior of the employee P1 using the staircase passage S without using the elevator EV (first embodiment), the office work behavior of the employee P2 using the outdoor section D2 without using the normal section D1 (Second embodiment), and the employee's P3 retirement behavior (third embodiment) when the time at which the retirement behavior is before a predetermined recommended retirement time is detected and converted into a CO2 reduction amount, Although the case where the corresponding 1st, 2nd, or 3rd point was provided was shown, it is not restricted to this. For example, the behavior of executing double-sided printing or reduced printing at the time of printing by a printing press, the behavior of executing a video conference or Internet conference instead of a business trip or going out, and the like are detected, converted into CO2 reduction amount, and the corresponding reward A value may be given.

  Further, the flowcharts shown in FIGS. 5, 14, 15, and 18 do not limit the present invention to the procedure shown in the above-described flow, and additional procedures / additions can be made without departing from the spirit and technical idea of the invention. You may delete or change the order.

  In addition to those already described above, the methods according to the above-described embodiments and modifications may be used in appropriate combination.

  In addition, although not illustrated one by one, the present invention is implemented with various modifications within a range not departing from the gist thereof.

1, 1 ', 1 "Environmental Activity Promotion System 100 Management Server 107 Lighting Control Unit (Lighting Control Means)
200 display terminal (first display terminal)
200 'display terminal (second display terminal)
200 ″ display terminal (third display terminal)
300 reader (information reading means, first action detecting means)
300A Ascending reader (information reading means, ascending first action detecting means, first action detecting means)
300B descending reader (information reading means, first action detecting means for rising, first action detecting means)
300 'reader (information reading means, second action detecting means)
300 ″ reader (information reading means, third action detecting means)
400 Personal terminal 500 Sensor (first temperature / humidity detection means)
500 'sensor (second temperature and humidity detection means)
DS Ascending side part (width direction one side part)
D1 Normal section D2 Outdoor section EV Elevator L Lighting P1-3 Employees (users)
S Stairway T IC card US Exit part (width direction other side part)

Claims (15)

Provided in a building having a plurality of floors, a stairway passage connecting the floors of the plurality of floors, and an elevator that moves up and down between the floors of the plurality of floors,
An environmental activity promotion system for promoting an environmental load reduction activity by a plurality of users of the building,
First action detecting means provided in the stairway passage, for detecting the user's lifting and lowering behavior using the stairway passage without using the elevator, based on the operation of the user;
First conversion means for converting the ascending / descending behavior of the user detected by the first behavior detection means into a reduction amount of the environmental load;
First reward value assigning means for assigning a first reward value corresponding to the reduction amount converted by the first conversion means in association with the corresponding identification information of the user;
A first counting means for counting the amount of reduction converted by the first conversion means and the first reward value given by the first reward value giving means for each user;
A first display terminal that is provided alongside the first action detecting means in the staircase passage and is capable of displaying a counting result by the first counting means;
Environmental activity promotion system characterized by having. In the environmental activity promotion system according to claim 1,
The first behavior detecting means includes
The user's ascending / descending behavior is configured to be detected by identifying whether it is an ascending behavior or a descending behavior,
The first conversion means includes
The amount of reduction in the ascending behavior of the user is configured to be converted as a larger value than the amount of reduction in the descending behavior of the user,
The first reward value giving means is:
According to the conversion result by the first conversion means, the first reward value corresponding to the ascending behavior of the user is given as a larger value than the first reward value in the descending behavior of the user. Environmental activity promotion system characterized by being configured to In the environmental activity promotion system according to claim 2,
The first behavior detecting means includes
First ascending behavior detecting means for detecting the ascending behavior of the user;
First behavior detecting means for descending that detects the descending behavior of the user;
Environmental activity promotion system characterized by including In the environmental activity promotion system according to claim 3,
The stairway is
A width direction one side portion corresponding to the ascending behavior of the user, and a width direction other side portion corresponding to the user's descending behavior,
The first action detecting means for ascending is provided on the one side portion in the width direction,
The environmental action promotion system, wherein the first action detecting means for descending is provided on the other side portion in the width direction. The environmental activity promotion system according to any one of claims 1 to 4,
The first behavior detecting means includes
The user's lifting and lowering behavior is configured to be able to identify and detect how many floors of the plurality of floors correspond to the lifting and lowering behavior,
The first conversion means includes
The amount of reduction in the ascending / descending behavior of the user with a large number of raised / lowered floors is configured to be converted as a larger value than the amount of reduction in the ascending / descending behavior of the user with a lower number of floors previously raised and lowered,
The first reward value giving means is:
According to the conversion result by the first conversion means, the first reward value corresponding to the user with a large number of raised and lowered floors is larger than the first reward value corresponding to the user with a lower number of raised and lowered floors. An environmental activity promotion system characterized by being configured to be granted as In the environmental activity promotion system according to claim 5,
The first behavior detecting means includes
An environmental activity promotion system comprising a plurality of floors corresponding to each of the plurality of floors. In the environmental activity promotion system according to any one of claims 1 to 6,
A first time range determination for determining whether or not the previous detection by the same first action detection means is performed within a predetermined time range when the lifting action is detected by the first action detection means. Further comprising means,
The first conversion means is configured not to convert the reduction amount related to new detection when the determination by the first time range determination means is satisfied,
The first reward value giving means is configured not to give the first reward value related to a new detection when the determination by the first time range determination means is satisfied. Environmental activity promotion system. Provided in a building having a normal section that performs office work indoors and an outdoor section that can perform office work outdoors;
An environmental activity promotion system for promoting an environmental load reduction activity by a plurality of users of the building,
A second action that is provided at the entrance or exit of the outdoor section or the outdoor section and detects the user's office work behavior using the outdoor section without using the normal section based on the operation of the user. Detection means;
Second conversion means for converting the office work behavior of the user detected by the second behavior detection means into a reduction amount of the environmental load;
Second reward value assigning means for assigning a second reward value corresponding to the reduction amount converted by the second conversion means in association with the corresponding identification information of the user;
A second counting means for counting the amount of reduction converted by the second conversion means and the second reward value given by the second reward value giving means for each user;
A second display terminal that is provided alongside the second behavior detecting means in the outdoor section or the entrance / exit, and is capable of displaying the counting results by the second counting means;
Environmental activity promotion system characterized by having. The environmental activity promotion system according to claim 8,
The second behavior detecting means is configured to detect entry and exit of each user with respect to the outdoor section,
Based on the detection result by the second behavior detecting means, it is determined whether the detection of the user's exit and the detection of the user's entrance are performed within a predetermined time range. A second time range determination means;
The second conversion means is configured not to convert the reduction amount when the determination by the second time range determination means is satisfied,
The environmental activity promotion system, wherein the second reward value assigning unit is configured not to assign the second reward value when the determination by the second time range determining unit is satisfied. In the environmental activity promotion system according to claim 9,
In accordance with the detection results of the second behavior detection means for a plurality of users, counting means for counting the number of users who are currently entering the outdoor section,
A number determination means for determining whether the number of users counted by the counting means is equal to or greater than a predetermined threshold;
When the determination by the number determination means is satisfied, an illumination control means for reducing or turning off the illumination of a specific area included in the normal section;
Environmental activity promotion system characterized by having established. The environmental activity promotion system according to any one of claims 1 to 10,
The first temperature / humidity detection means that detects the temperature and humidity in the surrounding environment of the first action detection means in the staircase passage, or the second in the outdoor section or the entrance / exit to the outdoor section. Any one of a second temperature / humidity detection unit that is provided along with the behavior detection unit and detects temperature and humidity in the surrounding environment of the second behavior detection unit;
A discomfort index calculating means for acquiring a detection result of the corresponding first or second temperature / humidity detecting means and calculating a corresponding discomfort index when the user's action is detected by the first action detecting means or the second action detecting means; ,
Further comprising
The first or second reward giving means is
The first reward value or the second reward value corresponding to the user whose discomfort index calculated by the discomfort index calculating means at the time of detecting the action by the first action detecting means or the second action detecting means is smaller than the discomfort index. An environmental activity promotion system, characterized in that the system is configured to give a larger value than the first reward value or the second reward value corresponding to the user. An environmental activity promotion system that is provided in a building where a user performs office work internally, and that promotes environmental load reduction activities by a plurality of the users,
A third behavior detecting means provided in the building, for detecting the attendance behavior and the leaving behavior of the user based on the operation of the user;
A time determination means for determining whether or not the time of the user's leaving work detected by the third action detecting means is before a predetermined recommended leaving time;
A third conversion unit that converts the leaving behavior of the user into a reduction amount of the environmental load when the determination by the time determination unit is satisfied;
Third reward value assigning means for assigning a third reward value corresponding to the reduction amount converted by the third conversion means in association with the corresponding identification information of the user;
Third reduction means for totalizing the reduced amount converted by the third conversion means and the third reward value given by the third reward value giving means for each user;
A third display terminal that is provided alongside the third action detecting means in the building and capable of displaying a result of the counting by the third counting means;
Environmental activity promotion system characterized by having. In the environmental activity promotion system according to any one of claims 1 to 12,
It further has an IC card possessed by each user and storing the identification information of the user,
The first action detecting means, the second action detecting means, or the third action detecting means is:
An environmental activity promotion system, comprising information reading means for reading the identification information from the IC card by wireless communication in response to a proximity operation of the IC card by the user. The environmental activity promotion system according to any one of claims 1 to 13,
For each user, for each group of multiple users, or for all users based on the results of counting by the first counting means, the second counting means, or the third counting means And a calculation means for calculating an achievement rate with respect to a predetermined target value of the reduction amount,
An environmental activity promotion system, wherein the first display terminal, the second display terminal, or the third display terminal displays the achievement rate calculated by the calculation means. The environmental activity promotion system according to any one of claims 1 to 14,
Ranking of the reduction amount is determined for each user or for each group of users based on the result of aggregation by the first aggregation means, the second aggregation means, or the third aggregation means. A rank determining means for
An environmental activity promotion system, wherein the first display terminal, the second display terminal, or the third display terminal displays a ranking of the reduction amount determined by the rank determination means.

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