JP6462924B1 - In-building management object management system, in-building management object management method, program - Google Patents

Abstract

The present invention provides a management object management system in a building that can easily manage a management object at a construction site. A management object management system in a building includes a transmitter 110 that transmits measurement data relating to air pressure, temperature, and humidity in the building as identification information, a management server 60 that collects the identification information via a network, The portable terminal 10 includes a management target information display unit that displays identification information from the management server 60. The management server 60 calculates the location floor and quantity of the management target in the building based on the measurement data transmitted from the transmitter 110, and the management target information regarding the location floor and quantity of the management target obtained by the computation unit And a storage unit that associates and stores the building information of the building in which the management target is accommodated, a screen data generation unit that generates screen data indicating the management target information and the building information stored in the storage unit, and the generated data Transmitting means for transmitting the screen data to the management target information display unit. [Selection] Figure 5

Description

  The present invention relates to an in-building management object management system, an in-building management object management method, and a program.

  IC tags are attached to workers working on construction sites and work vehicles and machines used on construction sites, and IC tag readers are installed in each space of the construction site or its entrance / exit so that workers and work on the construction site A system for managing movement of a car, a machine, or the like is known (see, for example, Patent Document 1).

JP 2005-326965 A JP 2016-057809 A

  At the construction site of a high-rise building, there was a waste of electric power because the floor where the worker was located was not managed and the lighting was turned on even when the worker was absent. Here, it is conceivable to manage the floors where workers and transported goods are located by using the system described in Patent Document 1 above. You can't figure out if you don't go

Further, in Patent Document 2, a pressure sensor that is held by a worker existing in a high-rise building under construction, measures atmospheric pressure and outputs measurement data, and is held by a worker or a work vehicle and outputs from the pressure sensor. A wireless chip that transmits measured data, a main receiver that is installed at the construction site and that receives measurement data transmitted from the wireless chip, and is installed at the reference height of the construction site and is at the reference height The reference air pressure sensor that measures and outputs the measurement data, the measurement data of the air pressure received by the main receiver, and the measurement data of the reference air pressure output from the reference air pressure sensor, the floor of the worker or work vehicle A construction site management system that demands is disclosed.
However, there are a large number of portable and non-transportable items on the construction site, and it is difficult to grasp and manage information such as the owner and number of those in the above configuration.

  The present invention has been made in view of at least one of the above-described problems, and an object thereof is to provide a system capable of easily grasping and managing the floor, affiliation, owner, number, etc. of a person or an object at a construction site. To do.

In order to solve the above-mentioned problem, one aspect of the management object management system in a building of the present invention is arranged in a management object in the building, and measures the atmospheric pressure and temperature in the building and outputs measurement data. A transmitter (110) that includes a sensor and transmits measurement data as identifiable identification information, a management target management server (60) that collects identification information from the transmitter via a network, and a management target management server Mobile terminal (10) including a management target information display unit (30) for displaying identification information provided from (60), and the management target management server (60) is transmitted from the transmitter (110). Calculation unit (80) for obtaining the location floor and quantity of the management target in the building based on the measurement data, management target information regarding the location floor and quantity of the management target obtained by the calculation unit (80), and management target A storage unit (90) that stores and stores building information of the housed building, a display control unit (100) that generates screen data indicating management target information and building information stored in the storage unit, and a screen A transmission means (72) for transmitting the screen data generated by the data generation means to the management target information display section (30), and further arranged at a predetermined position in the building , and the height at the arrangement position A reference weather sensor (12) that measures the atmospheric pressure, temperature, and humidity at the reference height and outputs reference data, and provides weather information including atmospheric pressure information, temperature information, and humidity information on a weather information providing site. And a weather information acquisition unit (71) that acquires via a network, and the calculation unit (80) calculates a sea level pressure and a reference sea level based on at least one of weather information and reference data. Out, and obtains the location floor and quantity managed in building based on the sea-level pressure and altitude.

One aspect of the management object management method in the building of the present invention is a step of measuring the atmospheric pressure and temperature in the building by a transmitter, outputting measurement data, and transmitting the measurement data as identification information that can be identified; In-building management object management comprising: a step of collecting identification information from a transmitter via a network by a management target management server; and a step of displaying identification information provided from the management target management server by a portable terminal. A method of obtaining a location floor and a quantity of a management target in a building based on measurement data transmitted from a transmitter by a management target management server, and the obtained floor and quantity of the management target obtained. Storing the management target information and the building information of the building in which the management target is stored in association with each other; Possess and generating screen data indicating the creation information, and transmitting the generated screen data to the managed information display unit, the weather information acquiring unit, disposed at a predetermined position in the building, the Measuring the atmospheric pressure, temperature and humidity at the reference height as the reference height and outputting the reference data, and providing weather information including atmospheric pressure information, temperature information and humidity information to the weather information providing site And calculating the sea level pressure and the standard sea level based on at least one of weather information and reference data, and managing the inside of the building based on the sea level pressure and sea level. It has the step which calculates | requires the target floor and quantity of object.

One aspect of the program of the present invention includes an atmospheric pressure sensor that is disposed on a management target in a building, measures the atmospheric pressure, temperature, and humidity in the building and outputs measurement data, and can identify the measurement data. A portable device including a transmitter to be transmitted as identification information, a management target management server that collects identification information from the transmitter via a network, and a management target information display unit that displays the identification information provided from the management target management server A program for causing a computer to execute a management target management method in a building in a management target management system in a building comprising a terminal, and the building based on measurement data transmitted from a transmitter by the management target management server A step of obtaining the location and quantity of the management target in the management information, the management target information regarding the obtained floor and quantity of the management target, and the management pair Storing the building information of the building in which the object is housed in association with each other, generating the screen data indicating the stored management object information and building information, and the generated screen data in the management object information display unit A process including a transmitting step, and a meteorological information acquisition unit arranged at a predetermined position in the building, and the height at the arrangement position is set as a reference height, and the atmospheric pressure, temperature, and humidity of the reference height are measured. Outputting the reference data, obtaining the weather information including the necessary atmospheric pressure information, temperature information, and humidity information from the weather information providing site via the network, and calculating the weather information and calculating a sea level as a sea level pressure and criteria based on at least one of the reference data, sea level pressure and location floor managed in a building on the basis of the altitude To execute a process including the steps of obtaining a fine quantity to the computer.

  According to the present invention, an in-building management object management system, an in-building management object management method, and a program that can easily grasp and manage the location floor, affiliation, owner, number, etc. of people and objects at a construction site. Can be provided.

It is the figure which showed the structure of the management object management system in a building. It is the block diagram which showed the structure of the portable terminal. It is the figure which showed the structure of the management server. It is the figure which showed the structure of the transmitter. It is a figure for demonstrating the process of the management object management system in a building. It is a figure for demonstrating the detail of a registration process. It is a sequence diagram which shows the example of the process in the management object management system in a building. It is the figure which showed the transition of the terminal display screen in the registration of a management object, and status confirmation. It is the figure which showed the transition of the terminal display screen when various settings are selected on a menu screen. It is the figure which showed the transition of the terminal display screen at the time of selecting user management and loan management on a menu screen.

  Hereinafter, an in-building management object management system, an in-building management object management method, and a program according to an embodiment of the present invention will be described with reference to the drawings. The in-building management object management method and program of the present invention will be described by taking the operation of the in-building management object management system and a program installed to function as the in-building management object management system as an example. However, the in-building management object management system, the in-building management object management method, and the program according to the embodiment of the present invention according to the present invention are not limited to the embodiments described below.

  As shown in FIG. 1, the management object management system 1 in a building according to the present embodiment is possessed by a user in a building and has a network access function, for example, a mobile terminal 10 such as a smartphone or a tablet, or an office Personal computer (PC) 11, the portable terminal 10, etc., and a network 15 (base station 5 and a communication network (hereinafter referred to as “network”) 17, 18) are communicably connected. A management server 60 that performs a cloud computing process, a function for notifying information on atmospheric pressure, temperature, and humidity, and identification information (ID) With the function of notifying a person to be sent and attached to a management target 13 (person, individual (operating carrier, non-operating carrier, etc.)) 110, and a weather information distribution server 16 has a function of notifying to acquire meteorological data from a variety of weather information providing site external. The transmitter 110 includes an atmospheric pressure sensor 130 that acquires atmospheric pressure information. The atmospheric pressure sensor 130 includes a temperature sensor 131 that acquires temperature information and a humidity sensor 132 that acquires humidity information. However, the temperature sensor 131 and the humidity sensor 132 may be provided in the transmitter separately from the atmospheric pressure sensor without being incorporated in the atmospheric pressure sensor. In addition, information on the location floor may be acquired only from the atmospheric pressure information and the temperature information. In the following description, the management server 60 that determines the location floor to be managed based on the atmospheric pressure, temperature, and humidity information will be described as an example. Moreover, although the following example uses the portable terminal 10, it cannot be overemphasized that it is the description including the personal computer 11. FIG.

  In the building management object management system 1 according to the present invention, communication is performed between the portable terminal 10 and the management server 60 and between the transmitter 110 and the management server 60 via the network 15 of a predetermined network standard. . Communication is performed between the management server 60 and the weather information distribution server 16 via the network 19 of a predetermined network standard. In addition, establishment of communication between the portable terminal 10 and the management server 60 and between the management server 60 and the weather information distribution server 16 is performed, for example, via the Internet using Wi-Fi as the networks 18 and 19 described later. The communication between the transmitter 110 and the management server 60 is established via, for example, a communication network 17 that is an LPWAN (Low-PowerWide-AreaNetwork) for M2M described later.

  Here, the network 15 is a concept including the base station 5 and the relay station (not shown) as described above, and the communication system has wide-area connectivity, bidirectional communication, and low power consumption. Anything that satisfies this requirement is acceptable. For example, LPWAN (Low-PowerWide-AreaNetwork) for M2M such as SigFox (registered trademark, same below), LoRa (registered trademark, same below), LTE-MTC (LTE-MachineTypeCommunications), etc. are preferable. Other than this, microwave radio (for example, Wi-Fi, Zigbee (registered trademark, the same applies below), Bluetooth (registered trademark, the same applies below), etc.), millimeter wave radio (eg, WIGIG (registered trademark, same applies below)) )), Sub-GHz band wireless (for example, Wi-SUN (Wireless Smart Utility Network) (registered trademark, the same applies hereinafter), Z-wave (registered trademark, the same applies hereinafter), Zigbee, Wi-HaLow (registered trademark, the same applies hereinafter), etc.) It may be.

[Transmitter]
FIG. 4 is a block diagram illustrating a schematic configuration of the transmitter 110. As shown in FIG. 4, the transmitter 110 includes a transmission processing unit 120, a pressure sensor 130 including a temperature sensor 131 and a humidity sensor 132, a correction unit and a battery unit (not shown), and an information storage medium 140. These are mounted on a substrate and stored in a case. In this embodiment, the transmission processing unit 120 is a 920 MHz band wireless communication module, and transmits a transmitter ID assigned in advance for each transmitter and measurement data (atmospheric pressure, temperature, humidity) output from the atmospheric pressure sensor 130 to the network 15. Is transmitted (wireless communication) to the management server 60. The network standard (communication method, communication standard) is as described above. As described above, the temperature sensor 131 and the humidity sensor 132 may be either those built in the atmospheric pressure sensor 130 or those that are not (a single temperature sensor or humidity sensor), but in this embodiment, the atmospheric pressure sensor An example in which the temperature sensor 131 and the humidity sensor 132 are built in 130 will be described.

  The information storage medium 140 is easily pasted to a transmitter such as a QR code or an IC tag, for example, and a different individual ID (transmitter ID) is assigned to each transmitter 110. As will be described later, the name of the management target to which the transmitter 110 is attached, and the name, address, etc. of the owner, user (handler), and the like are associated with the transmitter ID in the management server 60. Are registered (stored) in the database 90.

[Barometric pressure sensor]
The atmospheric pressure sensor 130 is a small absolute pressure sensor, and for example, LPS25H manufactured by ST-MICRO, 2SMPB-01 manufactured by OMRON, SCP1000, BME280 manufactured by VTITECHNOLOGIES, or the like can be used. The atmospheric pressure sensor 130 includes a temperature sensor 131 and a humidity sensor 132, and outputs temperature and humidity measurement data (temperature T1, humidity D1) together with pressure measurement data (pressure P1).
In addition to the atmospheric pressure sensor 130, weather data (reference atmospheric pressure P0, reference temperature T0, reference humidity D0) as a reference from the weather information distribution server 16 is acquired. The acquired weather data is output to the management server 60 . In addition, by installing the reference weather sensor 12 at the construction site, it is possible to measure the reference weather data (reference pressure P0 ′, reference temperature T0 ′, reference humidity D0 ′) as a substitute for the above-mentioned weather data. Measurement data measured by the reference weather sensor 12 is similarly output to the management server 60 . The reference weather sensor 12 may be provided on each floor depending on the situation. In addition, one or both of the weather data from the weather information distribution server 16 and the reference weather sensor 12 can be used, and in order to improve accuracy, the reference weather data is estimated using machine learning or the like. You can also.

In the database of the management server 60 , the difference between the pressure P1 and the reference pressure P0 (differential pressure (P0-P1)), the difference between the temperature T1 and the reference temperature T0 (differential temperature (T0-T1)), the humidity D1 and the reference Maps, arithmetic expressions, etc. showing the relationship with the floor N of the barometric pressure sensor 130 (that is, the floor of the management target 13) that has measured the difference from the humidity D0 (differential humidity (D0-D1), pressure P1, T1, D1) The calculation of the location floor N is performed by the calculation unit 80 of the management server 60, details of which will be described later.

[Mobile devices]
The mobile terminal 10 has functions implemented including hardware, such as an input control unit 20, a management target information display unit (touch panel, etc.) 30, a communication processing unit 40, a drawing processing unit 50, and the like in a memory (not shown). Various functions are realized by executing the recorded (installed) management application by a computer (not shown) (arithmetic unit such as a CPU, a register for storing instructions and information, a processor including peripheral circuits, etc.) Is possible. Further, the user terminal can execute (multitask) a plurality of management applications at a time.

  As illustrated in FIG. 2, the mobile terminal 10 includes an input control unit 20, a management target information display unit 30, a communication processing unit 40, and a drawing processing unit 50. Here, the management target information is a concept including all information such as a management target ID, a management target owner, a quantity of management targets, and a location floor, which will be described later. The input control unit 20 includes a management target registration request unit 21 that requests registration of information of a new management target, a management target information input unit 22 that inputs registration contents, and a management target confirmation request that requests confirmation of management target information. The unit 23 includes a management target ID acquisition unit (for example, a QR code reader) that acquires a management target ID. The management target information display unit 30 has a function of displaying management target information. The communication processing unit 40 transmits the registration request for the new registration information requested by the input control unit 20 and the input registration contents, the confirmation request for the management target information, the acquired management target ID, and the management requested for confirmation. It has a function to receive target information. The drawing processing unit 50 has a function of causing the management target information display unit 30 to display the received management target information.

  Among the functions of the mobile terminal 10, the part described in FIG. 2 is a function realized by executing a management application for using the management target management system in a building. When the in-building management target management system is used, the management application is activated, and the functions of the input control unit 20, the management target information display unit 30, the communication processing unit 40, and the drawing processing unit 50 are used.

  For example, when the touch panel is taken as an example of the management target information display unit 30, the touch panel is a combination of a display device such as a liquid crystal panel and a position input device such as a touch pad. The user can input an operation by touching the screen with a fingertip or the like.

  The communication processing unit 40 is configured to include hardware such as various antennas for performing communication processing. For example, the communication processing unit 40 is connected to the network 18 via the network 18 such as the Internet using wi-fi, and is used by various applications. Information is exchanged with an external device including the management server 60 based on the realized function.

[Management Server]
FIG. 3 is a block diagram illustrating a schematic configuration of the management server 60. As illustrated in FIG. 3, the management server 60 includes a communication processing unit 70, a calculation unit 80, a database (DB) 90, and a display control unit 100. The communication processing unit 70 transmits the transmitter ID, the pressure P1 and the temperature T1, the measurement data of the humidity D1 transmitted from the transmitter 110, the reference pressure P0 ′ and the reference temperature T0 ′ output from the reference weather sensor, and the reference humidity D0 ′. Measurement data and real weather data (reference pressure P0, reference temperature T0, reference humidity D0) from the weather information distribution server 16 to be described later, and registered corresponding to the management object ID stored in the database 90 It has a function of transmitting management target information to the mobile terminal 10.

The calculating part 80 calculates | requires the corresponding floor N based on the atmospheric pressure P1, the temperature T1, and the humidity D1. Then, the transmitter ID as the transmission source and the obtained floor N are stored in the database 90 in association with each other. Here, in order to improve the calculation accuracy of the above-mentioned floor N, for example, when the temperature T1 is higher than T0, the pressure P1 and the reference pressure P0 are lower than the actual measurement values according to the difference. Or, when the temperature T1 is lower than T0, the atmospheric pressure P1 and the reference atmospheric pressure P0 may be corrected so as to be higher than the actual measurement values according to the difference.
Note that the database 90 stores in advance information (correction information such as maps and arithmetic expressions) about how much to correct according to the magnitude relationship between the temperature T1 and the reference temperature T0 and the difference value.

  In the database 90, the name of the management object to which the transmitter 110 was originally attached, the name of the owner, the user (handler), the address, the management target information such as the quantity to be managed, and the transmitter ID are stored. Since the associated information is stored, in the calculation unit 80, the transmitter ID that is the transmission source, the floor N of the management target 13 to which the transmitter ID is attached, the name of the management target, and the owner The information such as the name and address of the user (handler) and the management target information are associated (associated) and stored in the database 90. The stored display control unit 100 associates the location floor N of the management target 13 with information (management target information) such as the name of the management target, the name of the owner, the user (handler), and the address (management target information) ( Screen data indicating the information) is generated, and the generated screen data is displayed on the management target information display unit 30.

[Meteorological information distribution server]
The weather information distribution server 16 acquires real-time weather information (atmospheric pressure, temperature, humidity, and other information) from various external weather information providing sites via the network 19, and calculates the acquired real-time weather information by the management server 60. To the unit 80.

[Standard weather sensor]
The reference weather sensor acquires real-time weather information (atmospheric pressure, temperature, humidity, and other information) from a sensor installed at a reference position on the ground floor of the construction site via the network 15, and acquires the acquired real-time weather information. It is transmitted to the calculation unit 80 of the management server 60. Needless to say, the reference weather sensor may be acquired via the network 19.

(System processing flow)
Next, the specific contents and processing flow of 1 according to the first embodiment will be described with reference to FIGS.

[Login Operation for Mobile Terminal 10]
Before the operator uses the mobile terminal 10, the operator of the mobile terminal 10 activates the management application. When the management application is activated, a login screen (see a1 in FIG. 8) is displayed. When logging in, the user ID and password notified as described above are entered in the user ID and password input fields ( Step S201 in FIG. Thereafter, the authentication button (see a1 in FIG. 8) is selected (pressed), and the authentication information from the mobile terminal 10 matches the authentication information (user ID, password hash value, etc.) registered in the database. If the login is successful, the mobile terminal 10 is notified of this, and if they do not match, the mobile terminal 10 is notified that the authentication has failed (step S202 in FIG. 6).

  When the login is successful, the communication processing unit 40 of the mobile terminal transmits the user ID of the currently logged-in operator and information about the mobile terminal 10 (terminal ID, IP address, etc.) to the management server 60, and the management application Is requested (step S203 in FIG. 7). The display control unit 100 of the management server 60 displays a menu screen (see b1 in FIG. 8) on which a button for selecting QR code reading, management target confirmation, various settings, user management, and loan management is displayed as a management target of the mobile terminal 10 The information is displayed on the information display unit 30 (step S204 in FIG. 7). The menu screen is displayed on the management target information display unit 30 by the drawing processing unit 50. Needless to say, other information may be displayed on the menu display screen or other operation buttons may be prepared.

[QR code reading sequence (registration sequence)]
When “QR code reading” is selected on the menu screen, the QR code reading reader of the mobile terminal 10 is activated and becomes ready for reading. A QR code affixed in advance to a management target (person, object, etc.) is read by a reader, and the name and user of the management target are registered (steps S100 in FIG. 5 and steps S205 and S208 in FIG. 7). Here, when the QR code affixed in advance to the transmitter 110 is read by a reader, a registration screen as shown in FIG. 8 (C1) is displayed on the management target information display unit 30. In the upper window (pull-down screen), for example, a screen for selecting a cart, a chair, and the like is displayed. For example, when the read management target is a cart, “cart” is selected on the pull-down screen, and the lower registration button is pressed. Next, for example, when the read management object is a chair, “chair” is selected on the pull-down screen, and the lower registration button is pressed. In this way, an arbitrary management target can be newly registered.

  Similarly, a window for selecting A trader, B trader, and C trader is displayed in the window (pull-down screen) in the center of the screen. The trader who uses the read management object can be registered as described in the upper window. In selecting the number of management targets, the number of newly registered management targets is totaled by the arithmetic unit of the management server 60 to determine the number. Note that the number shown in FIG. 8 (b2) is the number determined by the above process.

  Each time the registration button is pressed, information such as a management target ID (ID corresponding to a QR code), name, and name is transmitted to the calculation unit 80 of the management server 60 via the communication processing unit 40 ( Step S208 in FIG. Information on the atmospheric pressure and temperature from the atmospheric pressure sensor 130 (and / or the reference atmospheric pressure sensor) built in the transmitter 110 is transmitted to the calculation unit 80 of the management server 60 via the network 15 (step S207 in FIG. 7). Further, weather information is also extracted via the weather information distribution server 16, and the extracted weather information is transmitted to the calculation unit 80 of the management server 60 (step S206 in FIG. 7).

  The calculation unit 80 receives the management target ID information (step S101 in FIG. 5), information on the atmospheric pressure, temperature, and humidity (measured data of the atmospheric pressure P1, the temperature T1, and the humidity D1) from the atmospheric pressure sensor 130, and the reference weather sensor. Information on atmospheric pressure, temperature and humidity (measurement data of reference atmospheric pressure P0 ′, reference temperature T0 ′, reference humidity D0 ′) and real-time weather information (reference atmospheric pressure P0 ′, reference temperature T0 ′) from the weather information distribution server 16 (Measurement data of reference humidity D0 ′) (step S110 in FIG. 5 and steps S206 and S207 in FIG. 7), and the location floor (N) of each management target 13 is obtained based on the weather information (in FIG. 6). Step S106). Next, the received management target ID information, information such as name, name, quantity, and floor (N) are associated with each other (step S107 in FIG. 7) and stored in the database 90 (step S108 in FIG. 5, FIG. 8 (b4)).

[Managed object confirmation sequence]
Next, when “confirm management object” is selected on the menu screen, a management object confirmation request is transmitted to the management server 60 (step S116 in FIG. 5 and step S209 in FIG. 7), and the management object confirmation process by the arithmetic unit 80 is executed. (Step S118 in FIG. 5). The location floor of the management target 13 stored in association with the database 90 in the registration process in step S104 is totaled for each floor (step S118 in FIG. 5), and the display control unit 100 classifies the management target in each floor display column. The number of units counted every time is displayed on the display unit (step S120 in FIG. 5), and other information such as the site name, temperature, and humidity is also displayed on the display unit (see (b2) in FIG. 8). In addition, communication NG can be displayed about what cannot receive communication from the transmitter 110 for some reason.

  Furthermore, when the management target in the display is individually selected, more detailed information on the management target is displayed (see FIG. 8 (c2)). Thus, it is possible to search for the transmitter ID corresponding to the name of the management target registered in advance and the management target information such as the name, address, quantity of the management target, etc. of the owner, user (handler), etc. Yes, those search results can be displayed.

  Further, on the same display screen, it is possible to search for each type of user, user, and management target, and for each item, the target management target can be displayed for each floor. When the floor number display is pressed, the management objects 13 located on the corresponding floor are listed and displayed. The displayed contents are the type of management target and the user.

[various settings]
Next, when “various settings” (see FIG. 9 (a3)) is selected on the menu screen, various setting processes are executed, and the display control unit 100 can perform management target pull-down settings on the management target information display unit 30, for example. Displays a registration screen (see FIG. 9 (b3)) and a user information management screen (see FIG. 9 (b4)) that can register user information and confirm user information. An information setting screen (not shown) is displayed.

[User Management]
Next, when “user management” (see FIG. 10A5) is selected on the menu screen, the user management processing is executed, and the display control unit 100 displays the user management screen on the management target information display unit 30 (FIG. 10 ( see b5)). On this user management screen, it is possible to update registered contents and register new users (see FIG. 10 (c5)). The new user registration screen in FIG. 10C5 is displayed when the new user registration button on the user management screen is clicked.

[Loan management]
Next, when “loan management” (see FIG. 10A6) is selected on the menu screen, the management target loan management process is executed, and the display control unit 100 causes the management target information display unit 30 to display the management target loan management screen. (See FIG. 10 (b6)). On this management object lending management screen, it is possible to search by registration ID, object management type, and user. In addition, comments can be left for each management target. (See Fig. 10 (c6))

(effect)
According to the management object management system in the building according to the present embodiment, the person who manages the management object grasps the status of the location, type, quantity, etc. of the management object on the spot only by looking at the display screen of the mobile terminal. be able to.

  In addition, since registration processing and update processing on the mobile terminal are automatically updated to the database in the management server, central management of the mobile terminal and the management server is possible, and the management server owner, The user, location floor, type, quantity, information on whether or not in use, etc. can be grasped, and management targets can be managed efficiently.

  In addition, a transmitter with a pressure sensor and a temperature sensor is attached to the management target, and information is transmitted via a two-way communication network such as an LPWAN for M2M, so a transmitter such as a beacon is provided for each floor of the building. Etc. may not be provided.

  The present invention supplies a software program (the flowcharts of FIGS. 9 and 10) that realizes the functions of the above-described embodiments to a computer or CPU, and the computer or CPU reads and executes the supplied program. Can be achieved.

  In this case, the program is supplied directly from a storage medium storing the program or downloaded from another computer or database (not shown) connected to the Internet, a commercial network, a local area network, or the like. Supplied.

  The present invention also supplies a computer or CPU with a storage medium storing a software program that implements the functions of the above-described embodiments, and the computer or CPU reads and executes the program stored in the storage medium. Can also be achieved.

  Furthermore, the present invention can be achieved by downloading a software program for realizing the above-described embodiment from a database on the Internet or a homepage by a communication program, and reading and executing this program.

  The above program can also be supplied by connecting to a homepage on the Internet using a browser of a client computer and downloading the computer program itself or a compressed file including an automatic installation function from the homepage to a storage medium such as a hard disk. .

  The above program distributes a storage medium such as a CD-ROM stored after encrypting the program code to the user, and provides a key for decrypting the encryption from the homepage via the Internet to the user who has cleared a predetermined condition. It can also be provided by downloading the information and using the key information to execute the encrypted program code and install it on the computer.

  The functions of the embodiments described above can also be realized by dividing the program code into a plurality of files and downloading each file from a different home page. That is, a WWW server that allows a plurality of users to download a program file for realizing the functional processing of the present invention on a computer also constitutes the present invention.

  Further, the functions of the above-described embodiment are obtained by writing a program read from a storage medium into a function expansion board inserted in a computer or a memory provided in a function expansion unit connected to the computer, and It can also be realized by the CPU or MPU provided in the function expansion board or function expansion unit executing part or all of the actual processing based on the instructions of the program.

DESCRIPTION OF SYMBOLS 1 Management object management system in a building, 5 base station, 10 portable terminal, 11 personal computer (PC), 12 reference | standard weather sensor, 13 management object, 15 network, 16 weather information distribution server, 17, 18, 19 communication network ( Network), 20 input control unit, 30 management target information display unit, 40 communication processing unit, 50 drawing processing unit, 60 management server, 70 communication processing unit, 80 arithmetic unit, 90 database (DB), 100 display control unit, 110 Transmitter, 120 transmission processing unit, 130 atmospheric pressure sensor, 131 temperature sensor, 132 humidity sensor, 140 information storage medium

Claims (9)

A transmitter that is disposed on a management object in the building, includes a pressure sensor that measures the atmospheric pressure and temperature in the building and outputs measurement data, and transmits the measurement data as identifiable identification information;
A management target management server that collects identification information from the transmitter via a network;
A portable terminal including a management target information display unit that displays identification information provided from the management target management server;
A management object management system in a building,
The management target management server includes:
An operation unit for obtaining the location floor and quantity of the management target in a building based on the measurement data transmitted from the transmitter;
A storage unit for storing the management target information regarding the location floor of the management target and the quantity obtained by the calculation unit, and the building information of the building in which the management target is stored;
A display control unit that generates screen data indicating the management target information and the building information stored in the storage unit;
Transmission means for transmitting the screen data generated by the screen data generation means to the management target information display unit,
A reference meteorological sensor that is arranged at a predetermined position in the building, sets the height at the arrangement position as a reference height, measures the pressure, temperature, and humidity of the reference height and outputs reference data; A weather information acquisition unit that acquires weather information including information, temperature information, and humidity information from a weather information providing site via a network;
The computing unit is
Calculating a sea level pressure and a reference sea level based on at least one of the weather information and the reference data, and obtaining a location floor and a quantity of the management target in a building based on the sea level pressure and the sea level ;
The management object management system in the building characterized by this. The transmitter is directly or indirectly attached to a person who operates the mobile terminal.
The in-building transport body management system according to claim 1. The management target management server includes:
Registration confirmation indicating the management target information and the building information stored in the storage unit and associated with each other by a new registration request for the management target or a confirmation (search) request for registered management target information from the mobile terminal A display control unit for generating screen data;
The transmission means transmits the generated registration confirmation screen data to the management target information display unit,
The management object carrier management system in a building according to claim 1 or 2 , wherein a registration confirmation screen is displayed on the management object information display unit based on the transmitted registration confirmation screen data. The portable terminal is
A reading unit that reads readable code information obtained by encoding the management target identification information related to the management target; and a code information transmission unit that transmits the read code information to the management target management server via a network.
The management target management server includes:
When receiving the code information, the user information of the user who manages the management target and the location floor and quantity of the management target are extracted, and the user information, the location floor and quantity of the management target are associated with the code information. Store and manage in the management database,
The management object management system in a building of any one of Claims 1-3 characterized by the above-mentioned. The management target management server includes:
A display control unit that causes the terminal device to display the management target information regarding the floor and quantity of the management target;
The management object management system in a building of any one of Claims 1-4 characterized by the above-mentioned. The management target information is information on the owner, lender, borrower, or user of the management object when the management target is a thing.
The in-building management object management system according to any one of claims 1 to 5, wherein The code information is a QR code or a barcode.
The management object management system in a building of Claim 4 characterized by the above-mentioned. Measuring the atmospheric pressure and temperature in the building by a transmitter, outputting measurement data, and transmitting the measurement data as identifiable identification information;
Collecting identification information from the transmitter via a network by a management target management server;
A management target management method in a building comprising the step of displaying identification information provided from the management target management server by a portable terminal,
By the managed management server,
Obtaining the location floor and quantity of the management target in the building based on the measurement data transmitted from the transmitter, the management floor information regarding the location floor and quantity obtained of the management target, and the Associating and storing the building information of the building in which the management target is stored, generating the screen data indicating the stored management target information and the building information, and managing the generated screen data possess and transmitting the target information display unit,
By the weather information acquisition unit,
A step of measuring the atmospheric pressure, temperature, and humidity of the reference height by measuring the atmospheric pressure, temperature, and humidity of the reference height disposed at a predetermined position in the building, and outputting the reference data; Obtaining weather information including humidity information from a weather information providing site via a network,
By the arithmetic unit,
Calculating a sea level pressure and a reference sea level based on at least one of the weather information and the reference data, and determining a location floor and a quantity of the management target in a building based on the sea level pressure and the sea level. The management object management method in a building characterized by this. A transmitter that is arranged for management in the building, includes a pressure sensor that measures the pressure, temperature, and humidity in the building and outputs measurement data; and transmits the measurement data as identification information that can be identified;
In a building comprising a management target management server that collects identification information from the transmitter via a network, and a portable terminal that includes a management target information display unit that displays identification information provided from the management target management server A program for causing a computer to execute a management target management method in a building in a management target management system,
By the managed management server,
Obtaining the location floor and quantity of the management target in the building based on the measurement data transmitted from the transmitter, the management floor information regarding the location floor and quantity obtained of the management target, and the Associating and storing the building information of the building in which the management object is accommodated, generating the screen data indicating the stored management object information and the building information, and the generated screen data and processing and transmitting the management target information display unit,
By the weather information acquisition unit,
A step of measuring the atmospheric pressure, temperature, and humidity of the reference height by measuring the atmospheric pressure, temperature, and humidity of the reference height disposed at a predetermined position in the building, and outputting the reference data; Obtaining weather information including humidity information from a weather information providing site via a network;
By the arithmetic unit,
Calculating a sea level pressure and a reference sea level based on at least one of the weather information and the reference data, and determining a location floor and a quantity of the management target in a building based on the sea level pressure and the sea level. Processing and
A program that causes a computer to execute.

Images