JP2023156046A - Accommodation status management device, accommodation status management system, and accommodation status management method - Google Patents

Abstract

To improve recovery efficiency while considering an environment where paper diapers are accommodated.SOLUTION: An accommodation status management device capable of communicating with a terminal device includes: an acquisition part which is provided in a recovery foothold and acquires a detection result from a detection part for detection of an environment of an accommodation container for accommodation of paper diapers where paper diapers are accommodated; and a browsing control part for supplying acquired detection results from the terminal device in a manner capable of browsing.SELECTED DRAWING: Figure 1

Description

The present invention relates to an accommodation situation management device, an accommodation situation management system, and an accommodation situation management method.

In the paper diaper recycling business, the efficiency of collection and transportation has a major impact on the success or failure of the business. Diaper dischargers are scattered. Therefore, it is effective to set up a storage container at the collection base and have each diaper user bring the diapers to the collection base and place them in the storage container for collection.
It is preferable that the waste can be put into the storage container at the collection site at any time from the viewpoint of convenience for the waste generator and improvement of ownership ratio.
Patent Document 1 discloses a system that recycles used paper diapers by collecting them.

Japanese Patent Application Publication No. 2006-289154

However, if a person goes out to collect paper diapers even though there is only a small amount of disposable diapers stored in the storage container, the efficiency of collection and transportation will decrease. On the other hand, if you try to collect the disposable diapers after the storage capacity of the storage container has increased to a certain extent, the storage container will be full and you will not be able to store the disposable diapers you brought.
Further, depending on the environment of the storage container, there is a possibility that used paper diapers may emit odor, so it is preferable to be able to collect them in consideration of this point of view.

The present invention has been made in view of the above circumstances, and aims to provide a storage situation management device, a storage situation management system, and a storage situation management system that can improve collection efficiency while taking into consideration the environment in which disposable diapers are stored. The purpose is to provide a method for managing the situation.

In order to solve the above problems, one aspect of the present invention is a storage status management device capable of communicating with a terminal device, which is installed at a collection base and detects the environment in which disposable diapers are stored in a storage container that stores disposable diapers. This accommodation situation management device includes an acquisition section that acquires detection results from a detection section that detects the detection results, and a viewing control section that supplies the acquired detection results so that they can be viewed from the terminal device.

Further, one aspect of the present invention is a storage situation management method in a storage situation management device capable of communicating with a terminal device, in which the acquisition unit is a storage container provided at a collection base, and the acquisition unit is a storage container that stores disposable diapers. In this accommodation situation management method, a detection result is acquired from a detection unit that detects an accommodation environment, and a viewing control unit supplies the acquired detection result so that it can be viewed from the terminal device.

As explained above, according to the present invention, collection efficiency can be improved while taking into consideration the environment in which the disposable diapers are stored.

1 is a schematic block diagram showing the configuration of a housing situation management system S according to an embodiment of the present invention. 1 is a schematic configuration diagram showing the configuration of a storage container 10. FIG. 2 is a schematic functional block diagram showing the configuration of an accommodation situation management device 20. FIG. 2 is a diagram showing an example of data stored in a storage unit 23. FIG. 3 is a diagram showing an example of a display screen displayed on the terminal device 30. FIG. It is a figure which shows an example of the detailed screen of a graph. 3 is a diagram showing an example of a display screen of list data generated by the viewing control unit 24. FIG. The operation of the accommodation situation management system S will be explained. FIG. 3 is a diagram showing an example of a screen on which alert contents are displayed. It is a figure showing an example of the screen which performs alert setting.

Hereinafter, a housing situation management system using a housing situation management device according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a schematic block diagram showing the configuration of a housing situation management system S according to an embodiment of the present invention.
The accommodation situation management system S includes a accommodation container 10, an access point AP, a base station BS, an accommodation situation management device 20, and a terminal device 30.

The storage container 10 stores objects to be collected. The objects to be collected are disposable diapers. At least one storage container 10 is installed at the collection base F. The collection base F is a base where the storage container 10 is installed, and may be, for example, any of a nursery school, kindergarten, nursing care facility, hospital, commercial facility, public facility, etc. The storage container 10 is installed, for example, at the entrance of the building of the collection base F.
Furthermore, the number of collection bases F is not limited to one, but may be multiple.

The storage container 10 is provided with a sensor unit. The sensor unit detects the environment in which the paper diapers are stored in the storage container, and wirelessly transmits the detection results to the access point AP.

The access point AP can communicate wirelessly with the sensor unit of the container 10, and can also communicate wirelessly with the base station BS.
The base station BS can communicate with the access point AP wirelessly, and can communicate with the accommodation status management device 20 via a communication network. This communication network is a communication network that allows communication via at least one of wireless and wired communication. The communication network may include, for example, the Internet, a LAN (local area network), a communication line provided by a communication carrier, and the like.

The accommodation status management device 20 is communicably connected to the base station BS, and is communicably connected to the terminal device 30. The accommodation status management device 20 receives and stores the detection results transmitted from the sensor unit of the accommodation container 10, and supplies the detection results to the terminal device 30 so that they can be viewed.
The terminal device 30 is communicably connected to the accommodation status management device 20 via at least one of a wireless or wired communication network. The terminal device 30 may be, for example, at least one of a computer, a smartphone, a tablet, and the like. Moreover, the number of terminal devices 30 may be plural.
The terminal device 30 is used, for example, by a manager at the collection base F. Further, the terminal device 30 is used by a collection company or a management company that collects paper diapers stored at each collection site F.

The collection company's vehicle V patrols the collection base F, takes out the paper diapers 15 housed in the container 10, and transports them to the recycling base. Thereby, paper diapers can be recycled at the recycling base.

FIG. 2 is a schematic configuration diagram showing the configuration of the storage container 10.
The storage container 10 stores objects to be collected. Here, the storage container 10 is shown housing a paper diaper 15, which is an object. A door 10a is provided on the upper surface of the storage container 10, and by opening the door 10a, objects can be thrown into the storage area of the storage container 10 from the opening of the storage container 10. A user at the collection point F opens the door 10a, inserts the disposable diaper 15, and closes the door 10a. Thereby, the paper diaper 15 can be accommodated.
A sensor unit 11 is attached inside the container 10 near the top surface.

The sensor unit 11 includes a sensor (a distance sensor 11a, a temperature sensor 11b) that detects the environment in which the paper diaper is stored in a storage container that contains the paper diaper, and a communication unit 11c. Sensors that detect the environment include a distance sensor 11a and a temperature sensor 11b. Although the distance sensor 11a and the temperature sensor 11b will be described as sensors that detect the environment, they may also be an odor sensor that detects odor in the container 10, a humidity sensor that detects humidity, or the like. Further, although the storage capacity is detected by measuring the distance using a distance sensor, a weight sensor may be provided at the bottom of the storage container 10 and the storage capacity may be detected by measuring the weight. .
The distance sensor 11a measures the distance L to an object present in the direction toward the bottom of the container 10. The measurement timing of the distance sensor 11a may be at regular intervals or at a predetermined time. The distance sensor 11a measures the distance to the bottom of the storage container 10 when nothing is stored in the storage container 10, and when the paper diaper 15 is stored in the storage container 10, the distance sensor 11a measures the distance to the bottom of the storage container 10. Measure the distance to the top of the screen. When nothing is stored in the storage container 10, the longest distance L is detected. When the paper diapers 15 are stored in the storage container 10, as the amount of paper diapers 15 to be stored increases, the paper diapers 15 are piled up, so the height of the upper part of the paper diapers 15 increases. Therefore, as the amount of paper diapers 15 that are accommodated increases, the distance sensor 11a detects a shorter value as the distance L.
By measuring the distance L, the distance sensor 11a measures the environment indicating how much paper diapers 15 are accommodated in the container 10.
For example, an ultrasonic distance sensor can be used as the distance sensor 11a.

The temperature sensor 11b measures the temperature inside the container 10. The temperature sensor 11b measures the temperature environment in which the paper diaper 15 is accommodated by measuring the temperature inside the container 10, and outputs the measurement result as a temperature T. The measurement timing of the temperature sensor 11b may be at regular intervals or at a predetermined time.

The communication unit 11c transmits at least one of the results measured by the distance sensor 11a and the results measured by the temperature sensor to the access point AP as measurement data. When transmitting measurement data, the communication unit 11c transmits it together with a unit ID that identifies the communication unit 11c. By specifying this unit ID, the accommodation status management device 20 can identify from which accommodation container 10 the measurement data is transmitted, even if there are a plurality of accommodation containers 10 .
The transmission timing of the communication unit 11c may be at regular intervals or at a predetermined time.
The communication unit 11c may use a module that communicates according to the LPWA (Low Power Wide Area) wireless communication standard.
In this way, the measurement data is received by the accommodation status management device 20 via the access point AP and the base station BS.

FIG. 3 is a schematic functional block diagram showing the configuration of the accommodation situation management device 20. As shown in FIG.
The accommodation status management device 20 includes a communication section 21 , an acquisition section 22 , a storage section 23 , a viewing control section 24 , a determination section 25 , and an alert section 26 .
The communication unit 21 has a function of communicating with a terminal device and a function of receiving measurement data from the sensor unit 11 via the access point AP and base station BS.

The acquisition unit 22 acquires measurement data, which is a detection result detected by the sensor unit 11, via the communication unit 21.
The acquisition unit 22 acquires a detection result in which at least one of the amount of paper diapers stored in the storage container 10 and the odor is detected by the sensor unit 11 .
The acquisition unit 22 acquires detection results including the temperature or odor in the storage container 10.

The storage unit 23 stores the measurement data acquired by the acquisition unit 22.
Furthermore, the storage unit 23 stores reference values corresponding to items of targets for detecting the environment. When the item to be detected in the environment is capacity, the reference value may be an upper limit of capacity (lower limit of distance), a lower limit of capacity (upper limit of distance), or the like. By using the upper limit value of the storage capacity, it can be determined that the paper diapers 15 are accumulated in the storage container 10 in excess of a certain amount. By using the lower limit of the storage capacity, it can be determined that the paper diapers 15 have disappeared from the storage container 10, that is, the paper diapers 15 have been collected from the storage container 10 by a collection company.

The storage unit 23 includes a storage medium such as a hard disk drive (HDD), a flash memory, an electrically erasable programmable read only memory (EEPROM), and a random access read/write memory (RAM). te Memory), ROM (Read Only Memory), or these Constructed by any combination of storage media.
This storage unit 23 can use, for example, a nonvolatile memory.

The viewing control unit 24 supplies the acquired detection results so that they can be viewed from the terminal device 30. The viewing control unit 24 may publish the information so that it can be viewed from the browser of the terminal device 30. Moreover, when the accommodation status management device 20 is a cloud server, the viewing control unit 24 may publish the information so that it can be viewed from the terminal device 30 on the cloud.
The viewing control unit 24 provides the acquired detection results of the storage capacity and odor so that they can be viewed.
The viewing control unit 24 supplies a value representing the odor in the storage container 10 to the terminal device 30 in a viewable manner based on the temperature or odor.
The viewing control unit 24 supplies the terminal device 30 with list data on which the detection results for each collection site can be viewed.

The determination unit 25 determines the magnitude relationship between the detection result and the reference value.

The alert unit 26 transmits an alert signal to the terminal device 30 based on the determination result of the determination unit 25. For example, the alert unit 26 transmits an alert signal to the terminal device 30 when the detection result exceeds the upper limit in the determination result of the determination unit 25. Further, the alert unit 26 transmits an alert signal to the terminal device 30 when the detection result is below the lower limit value.

FIG. 4 is a diagram showing an example of data stored in the storage unit 23.
The storage unit 23 stores collection base IDs, storage container IDs, measurement data, reference values, and alert setting values.
The collection base ID is identification information that individually identifies a collection base.
The storage container ID is identification information that individually identifies the storage container 10. For example, the unit ID of the sensor unit attached to the storage container 10 is used as the storage container ID.
The measurement data is measurement data obtained from the sensor unit 11. A distance L and a temperature T are stored in the measurement data. This measurement data is accumulated as a log by sequentially storing measurement data measured at predetermined time intervals.
The reference value is a reference value set for each storage container 10 or each collection base. As the reference values, an upper limit value Lu of the capacity, a lower limit Ll of the capacity, and an upper limit Tu of the temperature T are stored. The reference value can be set to a different value for each collection base F, and can also be set to a different value for each storage container 10.

The alert setting value can be set to a different value for each storage container 10 or for each collection base. As the alert setting value, a value indicating whether or not to send an alert can be set. Furthermore, when sending an alert, the time interval for sending the alert can be set. Any time interval can be set, for example, every 5 minutes, every hour, or every day. When "every 5 minutes" is set as the alert setting value, if the detection result (measurement data) exceeds the upper limit value that is the reference value, or if the detection result falls below the lower limit value that is the reference value, the normal value An alert will be sent every 5 minutes until it returns.

When the storage container 10 is installed at the collection base F, the unit ID of the sensor unit attached to the storage container 10 and the identification information of the collection base F to be installed are associated and stored in the storage unit 23. . Thereby, the storage container 10 and the collection base F can be specified based on the unit ID.

FIG. 5 is a diagram showing an example of a display screen displayed on the terminal device 30. This figure shows a measurement data display screen based on measurement data measured for one storage container 10.
Such a measurement data display screen can be viewed by the terminal device 30 used by the administrator at the collection site F. Further, the measurement data display screen can also be viewed by a terminal device 30 used by a collection agency or a management agency.
On the measurement data display screen, the unit ID "U001047" of the sensor unit attached to the storage container 10 and the location "Left of entrance" where the storage container 10 corresponding to the unit ID is installed are displayed at the top of the screen. (Symbol 500), and the base name "〇〇Nursery School" of the collection base F based on the unit ID is displayed (Symbol 501). Further, the remaining amount of battery of the sensor unit is also displayed (numeral 502).

On the measurement data display screen, the middle part of the screen shows the measurement date and time “December 1, 2021 03:37:44” (code 510), the status “distance abnormal” (code 511), the distance “422”, and the temperature “9”. " is displayed. Here, regarding the distance, it is possible to display the distance itself, but it is also possible to display the storage capacity level, which is expressed by a level corresponding to the distance, as to how much storage capacity there is. It can be understood that the lower the storage capacity level is, the smaller the storage capacity is, and the higher the storage capacity level is, the larger the storage capacity is.
Regarding the temperature, it is possible to display the temperature itself, but it is also possible to display the temperature level, which is expressed by a level corresponding to the temperature. Here, when the temperature inside the storage container 10 rises, the temperature around the stored paper diaper 15 rises, so the temperature of the dirt adhering to the paper diaper 15 also rises, and the odor tends to become stronger. Therefore, by knowing the temperature inside the storage container 10, it is possible to estimate whether the odor is getting stronger or not.

In the measurement data display screen, a graph (reference numeral 520) representing changes in distance L and temperature T based on measurement data according to elapsed time is displayed at the bottom of the screen. The horizontal axis represents time, and the vertical axis represents distance L and temperature T. By referring to this graph, it is possible to grasp the tendency of the change in the storage capacity based on the distance L, and it is possible to grasp the tendency of the temperature change in the storage container 10 based on the temperature T.

At the top right of the measurement data display screen, there is a log reference button (reference numeral 530), which allows you to move to the graph details screen.
FIG. 6 is a diagram showing an example of a graph details screen. On the graph details screen, the graph is displayed along with the unit ID and installation position. In the graph, the horizontal axis represents time, and the vertical axis represents distance L and temperature T. For example, it is possible to grasp the tendency for the temperature to rise during the day and to fall at night. Here, by selecting a date, a graph for the specified day will be displayed.

FIG. 7 is a diagram showing an example of a display screen of list data generated by the viewing control unit 24.
Such list data can be viewed from the terminal device 30 used by the collection agency or management agency.
On the list data display screen, measurement data from a plurality of collection points are displayed side by side. Here, measurement data at three collection points are displayed, and by scrolling up and down, measurement data for other collection points are displayed and can be viewed.

FIG. 8 explains the operation of the accommodation situation management system S.
After each device of the accommodation information management system S is powered on, the distance sensor 11a measures the distance L within the accommodation container 10 and outputs the result to the communication unit 11c (step S101). The temperature sensor 11b measures the temperature T inside the container 10 and outputs the result to the communication unit 11c (step S102). The communication unit 11c transmits the distance L obtained from the distance sensor 11a and the temperature T obtained from the temperature sensor 11b as measurement data to the accommodation situation management device 20 (step S103).

The acquisition unit 22 of the accommodation status management device 20 acquires the measurement data received by the communication unit 21 and writes it into the storage unit 23 (step S104).

When checking the environment of the storage container 10, the administrator at the collection base F inputs the collection base ID and password into the service site for viewing the storage status on the terminal device 30, logs in, and then inputs a viewing request. Upon receiving the input of this viewing request, the terminal device 30 transmits the viewing request to the accommodation status management device 20 (step S105). here. The collection center ID when logged into the service site is also sent.
Upon receiving the viewing request, the viewing control unit 24 of the accommodation status management device 20 refers to the data stored in the storage unit 23 to determine the storage container ID corresponding to the collection base ID of the terminal device 30 that has made the viewing request. is specified, the measurement data corresponding to the storage container ID is read out, and data on the measurement data display screen is generated (step S106). The viewing control unit 24 then transmits the data of the generated measurement data display screen to the terminal device 30 via the communication unit 21 (step S107).

When the terminal device 30 receives the data on the measured data display screen from the accommodation status management device 20, it displays the measured data display screen on a display unit such as a liquid crystal display panel (step S108). Thereby, the administrator of the collection base F can grasp the storage capacity and temperature of the storage container 10. Furthermore, the degree of odor can be estimated by referring to the temperature.

Note that in step S105 described above, a case has been described in which the viewing request is made from the terminal device 30 of the administrator of the collection base F, but the viewing request can also be made from the terminal device 30 of the collection agent. In this case, a different account (including collection company ID) is issued for each management company in advance, and the collection company logs into the terminal device 30 using the account. The terminal device 30 reads measurement data for the plurality of collection points F based on the collection agent ID, generates display screen data of the list data, and transmits it to the collection agent's terminal device 30 via the communication unit 21.

When the collection agent's terminal device 30 receives the list data display screen data from the accommodation status management device 20, it displays the list data display screen on a display unit such as a liquid crystal display panel. Thereby, the collection agent can confirm the storage capacity of the storage container 10 at each collection base F. Then, the collection company selects the target collection base F for collection based on the storage capacity of the container 10 at each collection base F, and determines a patrol route according to the location of the selected collection base F. Can be done. Here, you can tour collection bases F that have a large capacity. Furthermore, if the temperature in the storage environment tends to remain high for a certain amount of time, collection can be carried out even if the storage capacity is not so large. Thereby, the collection efficiency can be improved while taking into consideration the environment in which the paper diapers are stored (at least one of the storage capacity and odor).

Further, the determining unit 25 of the accommodation situation management device 20 determines the magnitude relationship between the reference value and the measured data each time a determination timing arrives (step S200). The determination timing may be at regular intervals or at a predetermined time. For example, the determination unit 25 compares the distance L of the latest measurement data with the upper limit value of the capacity (lower limit value of the distance), and if the distance L exceeds the upper limit value of the capacity capacity (less than the lower limit value of the distance). ), the alert unit 26 transmits an alert signal to the terminal device 30 of the collection base F corresponding to the storage container ID that is the source of the measurement data (step S201). Here, an alert signal is also transmitted to the terminal device 30 of the collection agency. This allows the administrator of the terminal device 30 or the collection company to understand that the storage capacity has exceeded a certain level.
For example, the alert signal may be sent to the terminal device 30 as an e-mail in which the content of the alert is described.

Further, the determining unit 25 determines the magnitude relationship between the distance L of the latest measurement data and the lower limit value of the capacity (upper limit value of the distance), and when the distance L is less than the lower limit value of the capacity capacity (the upper limit value of the distance value), an alert signal is transmitted to the terminal device 30 of the collection base F corresponding to the storage container ID from which the measurement data was transmitted. Here, an alert signal is also transmitted to the terminal device 30 of the collection agency. Thereby, the administrator of the terminal device 30 or the collection company can understand that the paper diapers have been collected.

Further, the determination unit 25 determines the magnitude relationship between the temperature T of the latest measurement data and the temperature reference value, and when the temperature T exceeds the reference value, the determination unit 25 determines the magnitude relationship between the temperature T of the latest measurement data and the temperature reference value. An alert signal is transmitted to the terminal device 30 of the corresponding collection base F. Here, an alert signal is also transmitted to the terminal device 30 of the collection agency. As a result, the administrator of the terminal device 30 or the collection company can understand that the temperature around the disposable diapers is rising, and can understand that the environment is likely to generate odor. .

FIG. 9 is a diagram showing an example of a screen on which alert contents are displayed.
The content of the alert includes the name of the collection base where the container 10 in which the alert occurred is installed, the installation position at the collection base, the unit ID, and the like. Furthermore, as the measurement item for which an alert has occurred, for example, it is described that an abnormality has occurred in the detection result of the distance sensor.

FIG. 10 is a diagram showing an example of a screen for setting alerts.
Alert settings can be made from the terminal device 30 of the administrator of the collection base F, the collection agent or the management agent.
Here, the unit ID of the sensor unit for which the alert is to be set is displayed (code 600), a setting field for setting the alert time interval (code 601), and a setting field for setting the reference value for the alert (code 602). be. The operator of the terminal device 30 can set arbitrary values from these items.

According to the embodiment described above, the distance sensor or the weight sensor is used in the storage container 10 to sense the accumulation of disposable diapers. Therefore, by accessing the cloud or the like, the storage container 10 can be You can view the status of
Further, according to the embodiment described above, the collection agent can remotely grasp the environment of the storage container 10 at the collection base F without directly going to the collection base F. Further, the collection agent can collect the paper diapers in response to receiving the alert signal on the terminal device 30. This eliminates the need to make rounds to collect paper diapers even though there are not many paper diapers accumulated in the storage container 10, so it is possible to suppress a reduction in collection efficiency and improve efficiency.

At the collection base F, only the disposable diapers generated within the facility of the collection base F may be stored in the storage container 10, or a person who goes to the facility of the collection base F may bring disposable diapers and put them into the storage container 10. You may also do so. For example, a parent who visits a nursery school to pick up and drop off an infant can bring disposable diapers generated at home and throw them in. In this case, it becomes possible to collect paper diapers from a wider range, and therefore it is also possible to increase the amount collected.
Additionally, in recent years, parents have sometimes taken back the diapers used by each child at daycare centers when the child leaves the school, and daycare centers have had to spend a lot of time preparing and managing the diapers that children take home. However, by using the above-mentioned storage container 10, there is no need for parents to take the child home, and it is possible to save time and effort in preparation and management for taking the child home at the nursery school.

Each function of the accommodation situation management device 20 in the embodiment described above may be realized by a computer. In that case, a program for realizing this function may be recorded on a computer-readable recording medium, and the program recorded on the recording medium may be read into a computer system and executed. Note that the "computer system" herein includes hardware such as an OS and peripheral devices. Furthermore, the term "computer-readable recording medium" refers to portable media such as flexible disks, magneto-optical disks, ROMs, and CD-ROMs, and storage devices such as hard disks built into computer systems. Furthermore, a "computer-readable recording medium" refers to a storage medium that dynamically stores a program for a short period of time, such as a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line. It may also include a device that retains a program for a certain period of time, such as a volatile memory inside a computer system that is a server or client in that case. Further, the above-mentioned program may be one for realizing a part of the above-mentioned functions, or may be one that can realize the above-mentioned functions in combination with a program already recorded in the computer system. It may be realized using a programmable logic device such as an FPGA (Field Programmable Gate Array).

Although the embodiments of the present invention have been described above in detail with reference to the drawings, the specific configuration is not limited to these embodiments, and includes designs within the scope of the gist of the present invention.

DESCRIPTION OF SYMBOLS 10... Storage container, 10a... Door, 11... Sensor unit, 11a... Distance sensor, 11b... Temperature sensor, 11c... Communication unit, 20... Accommodation status management device, 21... Communication unit, 22... Acquisition unit, 23... Storage unit , 24... Viewing control section, 25... Judgment section, 26... Alert section, 30... Terminal device

Claims (7)

It is a containment status management device that can communicate with terminal devices,
an acquisition unit that is installed at the collection base and acquires a detection result from a detection unit that detects an environment in which the disposable diapers are stored in a storage container that stores the disposable diapers;
a viewing control unit that provides the acquired detection results so that they can be viewed from the terminal device;
A containment situation management device with The acquisition unit acquires a detection result in which at least one of an amount of disposable diapers stored in the storage container and an odor is detected by the detection unit,
The accommodation status management device according to claim 1, wherein the viewing control unit provides the acquired detection results of the storage capacity and odor in a viewable manner. The collection bases are multiple;
The accommodation status management device according to claim 2, wherein the viewing control unit supplies list data that allows viewing of detection results for each collection site to the terminal device. a storage unit that stores reference values corresponding to items to be detected in the environment;
a determination unit that determines a magnitude relationship between the detection result and the reference value;
The accommodation situation management device according to claim 3, further comprising: an alert section that transmits an alert signal to the terminal device based on the determined result. The acquisition unit acquires a detection result including temperature or odor in the storage container,
The storage status management according to any one of claims 1 to 4, wherein the viewing control unit supplies a value representing the odor in the storage container to the terminal device so as to be viewable based on the temperature or the odor. Device. A storage status management system in which a sensor unit attached to a storage container provided at a collection base and a storage status management device that can communicate with a terminal device are communicably connected,
The sensor unit is
a detection unit that detects the environment of the disposable diaper stored in the storage container;
a communication unit that transmits the detection result of the detection unit to the accommodation situation management device;
The accommodation situation management device includes:
an acquisition unit that acquires the detection result of the detection unit transmitted from the communication unit;
a viewing control unit that provides the acquired detection results so that they can be viewed from the terminal device;
A containment situation management system with A accommodation situation management method in an accommodation situation management device capable of communicating with a terminal device,
the acquisition unit acquires a detection result from a detection unit that detects an environment in which the disposable diapers are stored in a storage container provided at the collection base and that stores the disposable diapers;
An accommodation situation management method, wherein a viewing control unit provides the acquired detection results so that they can be viewed from the terminal device.

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