JP6776575B2 - Temperature monitoring device, temperature monitoring system and program - Google Patents

Description

The present invention relates to a technique for monitoring the internal temperature of a storage box to be transported.

Conventionally, a technique for controlling the temperature of a package to be delivered has been known. For example, Patent Document 1 includes a history meter that wirelessly transmits the history of temperature changes over time of the food to be monitored, and a data processing device that monitors the quality state of the food to be monitored based on the detection data of the history meter. The temperature monitoring system is disclosed.

Japanese Unexamined Patent Publication No. 09-330492

In a system in which luggage is housed in a heat insulating box and the temperature inside the heat insulating box is individually controlled by a temperature controlling material such as a cold insulating material, the inside of each heat insulating box is determined in order to determine whether the temperature controlling material is put into each heat insulating box. A sensor for measuring the temperature is provided, and the temperature is monitored based on the output of the sensor. In such a system, when the insulation box from which the package is taken out is collected again in the same delivery vehicle after the package contained in the insulation box is delivered, the sensor installed in the insulation box where the package is not contained. If the measurement information is continuously transmitted from, an unnecessary warning or the like may be output. On the other hand, if it is decided to manually turn off the power of the sensor installed in the heat insulating box in which the delivered package has been delivered, it takes time and effort, and erroneous operation may occur. Therefore, it is a main object of the present invention to provide a temperature monitoring device and a temperature monitoring system capable of suitably excluding unnecessary measurement information.

In one aspect of the present invention, the temperature monitoring device includes a storage unit that stores information on the delivery location of the package to be transported, a measurement information receiving unit that receives measurement information on the internal temperature of the box that houses the package, and the like. based on the measurement information, and a temperature monitoring unit for determining the necessity of warning about the abnormality of the internal temperature of the box, the position information receiving unit for receiving position information of a vehicle to transport the box, and information of the delivery location The temperature monitoring unit includes an estimation unit that estimates the delivery status of the package contained in the box based on the position information, and the temperature monitoring unit uses the box that is estimated to have delivered all the packages contained in the box. Exclude from the target of the warning .

The temperature monitoring device includes a storage unit, a measurement information receiving unit, a temperature monitoring unit, a position information receiving unit, and an estimation unit. The storage unit stores information on the delivery location of the package to be transported. The measurement information receiving unit receives the measurement information of the internal temperature of the box containing the luggage. Temperature monitoring unit based on the received measurement information, to determine the necessity of warning about the abnormality of the internal temperature of the box. The position information receiving unit receives the position information of the vehicle transporting the box. The estimation unit estimates the delivery status of the package contained in the box based on the delivery location information and the vehicle position information. Then, the temperature monitoring unit excludes the boxes in which all the packages to be contained are estimated to have been delivered from the warning target. According to this aspect, the temperature monitoring device preferably suppresses the continuous monitoring of the measured temperature of the internal temperature of the collected box when the box in which the delivered package is completed is collected by the vehicle. Can be done.

In one embodiment of the temperature monitoring device, the temperature monitoring unit, based on said measurement information, determines the necessity of warning about the abnormality of the internal temperature of the box than the box which has been excluded from the warning. In this case, the temperature monitoring device can suitably suppress giving an unnecessary warning about the internal temperature of the recovered box.

In another aspect of the temperature monitoring device, the temperature monitoring unit receives the measurement information regarding the internal temperature of the box other than the box excluded from the warning target when the measurement information receiving unit receives the measurement information. Is stored in the storage unit. In this case, the temperature monitoring device can suppress the recording of the history of unnecessary measured temperatures with respect to the internal temperature of the recovered box.

In another aspect of the temperature monitoring device, the storage unit further provides information on the delivery route of the vehicle including information on the delivery location and history information of the location information received by the location information receiving unit. The estimation unit estimates the delivery status of the package contained in the box based on the information of the delivery route and the history information. According to this aspect, the temperature monitoring device can more accurately estimate the delivery status of the package contained in the box.

In another aspect of the present invention, the temperature monitoring system includes the temperature monitoring device according to any one of the above and a terminal device for transmitting measurement information of the internal temperature of a box containing a load transported by a vehicle to the temperature monitoring device. The terminal device has a position information generation unit that generates the position information of the vehicle, and a position information transmission unit that transmits the position information together with the identification information of the vehicle to the temperature monitoring device. According to this aspect, the temperature monitoring device preferably estimates the delivery status of the package loaded on the vehicle based on the position information of the vehicle received from the terminal device, and preferably exists the box in which the delivered package is completed. Can be recognized.

In one aspect of the temperature monitoring system, when the temperature monitoring unit of the temperature monitoring device detects an abnormality in the internal temperature of the box other than the box excluded from the warning target based on the measurement information, the terminal The terminal device further has a warning output unit that transmits warning information designating the box to the device and outputs a warning based on the warning information when the warning information is received. According to this aspect, the temperature monitoring device can surely prevent the warning of the temperature abnormality for the box in which the package is delivered while the temperature abnormality warning for the box containing the package.

In a preferred example of the temperature monitoring system, the temperature monitoring system is installed in each of the boxes, and further includes a slave unit that generates the measurement information and a master unit that receives the measurement information from the temperature measuring device. The terminal device transmits the measurement information received from the master unit to the temperature monitoring device.

Another aspect of the present invention is a program executed by a computer that refers to a storage unit that stores information on the delivery location of the package to be transported, and is a measurement that receives measurement information of the internal temperature of the box containing the package. an information receiving unit, on the basis of the measurement information, and a temperature monitoring unit for determining the necessity of warning about the abnormality of the internal temperature of the box, the position information receiving unit for receiving position information of a vehicle to transport the box, the Based on the delivery location information and the location information, the computer functions as an estimation unit that estimates the delivery status of the package contained in the box, and the temperature monitoring unit determines that all the packages contained in the box have been delivered. The estimated box is excluded from the warning . By executing this program, the computer preferably suppresses the continuous monitoring of the measured temperature of the internal temperature of the collected box when the box in which the delivered package is completed is collected by the vehicle. can do.

According to the present invention, the box for which the delivered package has been delivered can be suitably excluded from the target of temperature monitoring, and unnecessary warning output and the like can be suitably suppressed.

It is a figure which shows the schematic structure of the temperature monitoring system which concerns on embodiment. An example of the configuration of the heat insulating box is shown. It is a block diagram of a terminal device. It is a block diagram of a master unit. It is a block diagram of a slave unit. It is a block diagram of a server device. The data structures of the delivery schedule DB, the location history DB, and the route management DB are shown. The data structures of the temperature control DB and the temperature storage DB are shown. It is a flowchart which shows the procedure of abnormality determination processing. It is a flowchart which shows the procedure of the monitoring exclusion processing. It is a figure which shows the schematic structure of the temperature monitoring system which concerns on the modification.

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

[Overview of temperature monitoring system]
FIG. 1 is a diagram showing a schematic configuration of a temperature monitoring system 100 according to an embodiment. The temperature monitoring system 100 is a system for monitoring the internal temperature of the heat insulating box 5 loaded on the loading platform (container) 10 of the delivery vehicle 1, and as shown in FIG. 1, mainly the delivery vehicle 1 and the delivery vehicle. A terminal device 2 existing in 1, a master unit 3 existing in a loading platform 10, a heat insulating box 5 forming an internal space with a heat insulating material such as a vacuum heat insulating material, and a server device 9 communicating with the terminal device 2. Has. The loading platform 10 may be provided with a temperature controller that adjusts the temperature inside the loading platform 10.

The heat insulating box 5 accommodates one or more packages to be stored in the same temperature zone, and a slave unit 7 described later is attached to the heat insulating box 5. In the heat insulating box 5, an internal temperature band (also referred to as “allowable temperature zone”) to be maintained in order to prevent deterioration of the luggage to be stored is defined for each heat insulating box 5, and the internal temperature of the heat insulating box 5 is determined. A temperature adjusting material 8 such as a cold insulating material for adjusting is appropriately housed. In the present embodiment, the driver adds the temperature adjusting material 8 as appropriate so that the internal temperature of the heat insulating box 5 is maintained in the predetermined allowable temperature range. As a result, the internal temperature of the heat insulating box 5 is adjusted without requiring a power source. Further, in the present embodiment, the heat insulating box 5 is temporarily taken out from the loading platform 10 when the delivery vehicle 1 arrives at the delivery location of the package to be accommodated, and is collected in the loading platform 10 after the package is delivered.

The terminal device 2 functions as a mobile router and performs wired serial communication with the master unit 3 and wireless communication with the server device 9. In the present embodiment, the terminal device 2 transmits information regarding the current position and the like of the delivery vehicle 1 (also referred to as “vehicle information Sa”) to the server device 9. The vehicle information Sa includes position information indicating the current position of the delivery vehicle 1, a truck ID which is identification information of the delivery vehicle 1, and date and time information. Further, when the terminal device 2 receives the measurement information (also referred to as “measurement information Sb”) generated by the slave unit 7 from the master unit 3, the terminal device 2 transfers the measurement information Sb to the server device 9.

The master unit 3 is installed in the loading platform 10 and is connected to the terminal device 2 via a cable or the like. Further, the master unit 3 receives the measurement information Sb transmitted by the slave unit 7 installed in the heat insulating box 5. Then, the master unit 3 transmits the received measurement information Sb to the terminal device 2.

The slave unit 7 is a module having a function of measuring temperature and a communication function, and transmits measurement information Sb. As will be described later, the measurement information Sb includes information on the temperature measured by the slave unit 7 and the measurement date and time, as well as the slave unit ID corresponding to the slave unit 7.

The server device 9 manages the delivery schedule of the package delivered by the delivery vehicle 1 and monitors the temperature of the package. The server device 9 stores the history of the internal temperature of each heat insulating box 5 based on the measurement information Sb received from the terminal device 2, and monitors the presence or absence of an abnormality in the internal temperature of each heat insulating box 5. Further, when the server device 9 receives the vehicle information Sa from the terminal device 2, the heat insulating box 5 loaded on the delivery vehicle 1 is collected based on the position information included in the vehicle information Sa (that is, the luggage to be accommodated is collected. It is estimated whether or not all the items have been delivered), and the heat insulating box 5 estimated to have been recovered is excluded from the target of temperature monitoring. The server device 9 is an example of the "temperature monitoring device" in the present invention.

[Structure of insulation box]
2 (A) and 2 (B) show a configuration example of the heat insulating box 5. The mode of the heat insulating box 5 applicable to the present invention is not limited to the mode shown in FIGS. 2 (A) and 2 (B), and may be any mode other than those shown in FIGS. 2 (A) and 2 (B). ..

The heat insulating boxes 5 shown in FIGS. 2 (A) and 2 (B) are mainly composed of a top panel 11, front panels 12L and 12R, a left panel 13, a rear panel 14, a right panel 15, and a bottom panel 16. And. A plurality of holding portions 19 capable of accommodating objects are provided on the inner wall surface of the back panel 14 and the like. For example, the slave unit 7 or the temperature adjusting material 8 is housed in the holding unit 19. The top panel 11, the left panel 13, the back panel 14, the right panel 15, and the bottom panel 16 are covered with an outer bag (not shown).

As shown in FIG. 2A, the front panel 12L is rotatably connected to the left panel 13, and the front panel 12R is rotatably connected to the right panel 15. Further, the top panel 11 can be folded in half to open the heat insulating box 5. In the example of FIG. 2B, the top panel 11 is composed of a front top panel 11F and a rear top panel 11R, and the front top panel 11F has a connecting portion with the rear top panel 11R. It is inverted outward as an axis. Similarly, the rear top panel 11R can be inverted outward with the connecting portion with the front top panel 11F as an axis. The heat insulating box 5 is configured to be foldable, and may be managed in a folded state after all the packages to be accommodated have been delivered.

[Terminal device configuration]
FIG. 3 is a block diagram of the terminal device 2. The terminal device 2 mainly includes a display unit 21 such as a display or a lamp, an input unit 22, a storage unit 23, a communication unit 24, a control unit 25, a GPS receiver 26, and a sound output unit such as a speaker. 27 and. Each of these elements is connected to each other via a bus line 20.

The input unit 22 is, for example, a touch panel, a button, a voice input device, or the like, and receives input from a driver or the like. The storage unit 23 stores information necessary for the program executed by the control unit 25 and the processing executed by the control unit 25. For example, the storage unit 23 stores in advance the truck ID of the delivery vehicle 1 to be included in the vehicle information Sa. The communication unit 24 performs data communication with the master unit 3 and the server device 9 based on the control of the control unit 25. The GPS receiver 26 generates position information indicating the current position of the delivery vehicle 1. The GPS receiver 26 is an example of the "position information generation unit" in the present invention.

The control unit 25 includes a CPU, a ROM, a RAM, and the like (not shown), and executes various controls for each component in the terminal device 2 by executing a program stored in the storage unit 23. For example, the control unit 25 transfers the measurement information Sb received from the master unit 3 to the server device 9 by controlling the communication unit 24. Further, the control unit 25 transmits the vehicle information Sa including the current position information generated by the GPS receiver 26, the truck ID stored in the storage unit 23, and the date and time information indicating the current date and time to the server device 9 by the communication unit 24. To do. At this time, the control unit 25 may transmit the vehicle information Sa to the server device 9 at the same timing as the measurement information Sb, or may transmit the vehicle information Sa to the server device 9 at a timing different from the measurement information Sb. .. Further, when the communication unit 24 receives the warning information regarding the internal temperature of the heat insulating box 5 loaded on the loading platform 10 from the server device 9, the control unit 25 warns the display unit 21 or the temperature abnormality based on the warning information. / And output by the sound output unit 27. The control unit 25 is an example of the “position information transmission unit” and the “warning output unit” in the present invention.

[Configuration of master unit]
FIG. 4 is a block diagram of the master unit 3. The master unit 3 mainly includes a storage unit 33, a communication unit 34, and a control unit 35. Each of these elements is connected to each other via a bus line 30.

The storage unit 33 stores information necessary for the program executed by the control unit 35 and the processing executed by the control unit 35. The communication unit 34 performs data communication with the terminal device 2 and the slave unit 7 based on the control of the control unit 35.

The control unit 35 includes a CPU, ROM, RAM, and the like (not shown), and executes various controls for each component in the master unit 3 by executing a program stored in the storage unit 33. For example, when the control unit 35 receives the measurement information Sb from the slave unit 7, the control unit 35 transfers the received measurement information Sb to the terminal device 2.

[Slave unit configuration]
FIG. 5 is a block diagram of the slave unit 7. The slave unit 7 mainly has a temperature sensor 71, a communication unit 72, a storage unit 73, and a control unit 75. Each of these elements is connected to each other via a bus line 70.

The temperature sensor 71 measures the temperature and supplies the measured temperature information to the control unit 75. Based on the control of the control unit 75, the communication unit 72 transmits the measurement information Sb including the temperature information measured by the temperature sensor 71 to the terminal device 2.

The storage unit 73 stores information necessary for the program executed by the control unit 75 and the processing executed by the control unit 75. In the present embodiment, the storage unit 73 stores the slave unit ID and the like of the slave unit 7 in advance.

The control unit 75 includes a CPU, ROM, RAM, etc. (not shown), and controls the entire slave unit 7 by executing a program stored in the ROM or the like. In the present embodiment, the control unit 75 transmits the measurement information Sb including the measurement temperature and measurement date and time information generated by the temperature sensor 71 and the slave unit ID stored in the storage unit 73 by the communication unit 72.

[Server device configuration]
FIG. 6 is a block diagram of the server device 9. As shown in FIG. 6, the server device 9 mainly includes a storage unit 91, a communication unit 92, and a control unit 93.

The storage unit 91 stores information necessary for the program executed by the control unit 93 and the processing executed by the control unit 93. In the present embodiment, the storage unit 91 includes a delivery schedule DB 94 that records information about the delivery schedule of the package to be delivered, a position history DB 95 that records the position information of the delivery vehicle 1, and a route management DB 96 that records the route of the delivery vehicle 1. A temperature control DB 97 that records the permissible temperature zone and the like of the heat insulating box 5 to be delivered, and a temperature storage DB 98 that records the history of the measured temperature are provided. Specific examples of each data structure of the delivery schedule DB 94, the position history DB 95, the route management DB 96, the temperature management DB 97, and the temperature storage DB 98 will be described later. The communication unit 92 performs data communication with the terminal device 2 based on the control of the control unit 93.

The control unit 93 includes a CPU, ROM, RAM, etc. (not shown), and controls the entire server device 9 by executing a program stored in the ROM, the storage unit 91, or the like. For example, the control unit 93 updates the temperature storage DB 98 with the measurement information Sb received by the communication unit 92 from the terminal device 2, and determines the presence or absence of a temperature abnormality with reference to the temperature management DB 97. Further, the control unit 93 updates the position history DB 95 based on the vehicle information Sa received by the communication unit 92 from the terminal device 2, completes delivery of the package loaded on the delivery vehicle 1, and a heat insulating box containing the package. It is determined whether or not 5 is collected. Then, the control unit 93 updates the temperature control DB 97 and the like based on the determination result of whether or not the heat insulating box 5 is recovered, and excludes the recovered heat insulating box 5 from the temperature monitoring target. The control unit 93 is an example of the “measurement information receiving unit”, the “temperature monitoring unit”, the “position information receiving unit”, the “estimating unit”, and the “computer” that executes the program in the present invention.

[data structure]
Next, the data structure of each database will be described with reference to FIGS. 7 and 8.

FIG. 7A is an example of the data structure of the delivery schedule DB94. The delivery schedule DB 94 shown in FIG. 7 (A) has each of "luggage ID", "truck ID", "box ID", "slave unit ID", "scheduled delivery date and time", "delivery location", and "delivery status". Has an item.

In the item of "baggage ID", a baggage ID which is identification information of the baggage to be transported is recorded. In the item of "truck ID", the truck ID of the vehicle that transports the luggage of the corresponding luggage ID is recorded. In the item of "box ID", the box ID which is the identification information of the heat insulating box 5 in which the luggage of the corresponding luggage ID is stored is recorded. In the item of "slave unit ID", the slave unit ID of the slave unit 7 installed in the heat insulating box 5 indicated by the corresponding box ID is recorded. In the item of "scheduled delivery date and time", the scheduled date and time when the delivery of the package with the corresponding package ID is completed is recorded. In the item of "delivery place", the information of the delivery destination of the package of the corresponding package ID is recorded. Here, in order to link with the route management DB 96 described later, information indicating the order in which the delivery vehicle 1 of the corresponding truck ID stops is recorded in the item of "delivery place" together with the address of the delivery destination. Here, "destination X (X is a positive integer)" indicates the delivery location where the delivery vehicle 1 of the corresponding truck ID stops at the Xth position.

In the item of "delivery status", the delivery status of the package with the corresponding package ID is recorded. The server device 9 sets the item "delivery status" to "delivered" when it is determined that the delivery vehicle 1 has arrived at the corresponding delivery location based on the position history DB 95 and the route management DB 96. On the other hand, when the server device 9 determines that the delivery vehicle 1 has not arrived at the corresponding delivery location, the server device 9 sets the item "delivery status" to "undelivered".

The delivery schedule DB 94 may be subdivided into a plurality of databases. For example, the delivery schedule DB 94 is based on a database in which a package ID, a truck ID, a box ID, and a slave unit ID are associated with each other, and a database in which the package ID, the scheduled delivery date and time, the delivery location, and the delivery status are associated. It may be configured.

FIG. 7B is an example of the data structure of the position history DB95. The position history DB 95 shown in FIG. 7B has each item of "track ID", "position", and "date and time". The server device 9 generates each record of the position history DB 95 for each vehicle information Sa received from the terminal device 2.

In the item of "truck ID", the truck ID included in the target vehicle information Sa is recorded. In the item of "position", the position information (here, latitude and longitude) included in the target vehicle information Sa is recorded. In the item of "date and time", the date and time information included in the target vehicle information Sa is recorded. In this way, each time the server device 9 receives the vehicle information Sa from the terminal device 2, it generates a record including the position information of the delivery vehicle 1 that delivers the package and records it in the position history DB 95. The position history DB 95 may be generated separately for each track ID.

FIG. 7C is an example of the data structure of the route management DB 96. The route management DB 96 shown in FIG. 7C includes items of “truck ID”, “arrival status”, and “delivery route”.

In the item of "truck ID", the truck ID of each delivery vehicle 1 that delivers the package is recorded. In the item of "arrival status", the arrival status of the delivery vehicle 1 of the corresponding truck ID to the delivery destination is recorded. In the item of "delivery route", the latitude and longitude of the delivery destination of the delivery vehicle 1 of the corresponding truck ID are recorded according to the scheduled arrival order. For example, in the example of FIG. 7 (C), for the truck ID "B01", a set of latitude and longitude "(xxx, yyy)" indicating the destination of the first scheduled delivery is recorded in the "destination 1", and the second A set of latitude and longitude "(zzz, vvv)" indicating a destination to be delivered is recorded in "destination 2".

Here, the server device 9 updates the item of "arrival status" with reference to the position history DB 95. For example, the server device 9 recognizes the position (that is, the movement locus) of each delivery vehicle 1 in the time series by extracting the record of the position history DB 95 for each truck ID. Then, the server device 9 extracts the latitude and longitude of the destination to which the target delivery vehicle 1 should arrive next from the route management DB 96 and compares it with the recognized movement locus, so that the target delivery vehicle 1 arrives at the destination. Determine if it has been done. In this case, for example, when the server device 9 determines that the recognized movement locus has passed within a predetermined distance from the destination to arrive next, it is estimated that the delivery vehicle 1 has stopped at the destination. In another example, when the server device 9 determines that the delivery vehicle 1 has stopped at a position within a predetermined distance from the next destination to arrive based on the recognized movement locus, the delivery vehicle 1 is set to the target destination. It is estimated that the delivery vehicle 1 has arrived.

For example, in the case of the truck ID "B01", the server device 9 refers to the record of the truck ID "B01" in the position history DB95, and the delivery vehicle 1 of the truck ID "B01" has arrived at the "destination 1" and is "the destination". It is determined that "2" has not arrived, and the corresponding "arrival status" item is set to "destination 1 arrival". Similarly, in the case of the truck ID "B02", the server device 9 refers to the record of the truck ID "B02" in the position history DB95, and the delivery vehicle 1 of the truck ID "B02" has arrived at the "destination 2". Therefore, the corresponding "arrival status" item is set to "destination 2 arrival". Further, in the case of the truck ID "B03", the server device 9 refers to the record of the truck ID "B03" in the position history DB95, and the delivery vehicle 1 of the truck ID "B03" has not arrived at the "destination 1". Judging, the item of "arrival status" is set to "destination 1 before arrival".

FIG. 8A is an example of the data structure of the temperature control DB 97. The temperature control DB 97 shown in FIG. 8 (A) has "box ID", "allowable temperature zone", and "valid / invalid" items. In the item of "box ID", the box ID of each heat insulating box 5 in which the package to be transported is stored is recorded. In the item of "allowable temperature zone", the allowable temperature zone of the luggage accommodated in the heat insulating box 5 indicated by the corresponding box ID is recorded.

In the "valid / invalid" item, information indicating whether the temperature information regarding the heat insulating box 5 indicated by the corresponding box ID is valid or invalid is recorded. Here, the server device 9 sets the "valid / invalid" item to "invalid (collected)" when all the packages contained in the corresponding box ID have been delivered. That is, in this case, the server device 9 determines that the heat insulating box 5 of the target box ID is collected after the delivery of the package, and there is no need to monitor the internal temperature. In this case, the server device 9 identifies the package ID associated with the target box ID by referring to the delivery schedule DB 94, and all the items "delivery status" corresponding to the specified package ID are "delivered". When, it is determined that all the packages accommodated in the heat insulating box 5 of the corresponding box ID have been delivered.

On the other hand, the server device 9 sets the "valid / invalid" item to "valid (in use)" when at least one of the packages contained in the corresponding box ID is being delivered. That is, in this case, the server device 9 determines that the heat insulating box 5 of the target box ID is in use and it is necessary to continuously monitor the internal temperature. In this case, the server device 9 identifies the package ID associated with the target box ID by referring to the delivery schedule DB 94, and the item "delivery status" corresponding to at least one of the specified package IDs is "delivery status". When it is "delivering", it is determined that at least one of the packages contained in the corresponding box ID is being delivered.

FIG. 8B is an example of the data structure of the temperature storage DB 98. The temperature storage DB 98 shown in FIG. 8 (B) has each item of "box ID", "temperature", and "date and time". The server device 9 generates a record of the temperature storage DB 98 for each measurement information Sb received.

In the item of "box ID", the box ID corresponding to the slave unit ID included in the measurement information Sb received from the terminal device 2 is recorded. In the item of "temperature", the temperature indicated by the temperature information included in the target measurement information Sb is recorded. In the item of "date and time", the date and time indicated by the date and time information included in the target measurement information Sb is recorded.

When the server device 9 receives the measurement information Sb, the server device 9 refers to the item "valid / invalid" of the temperature control DB 97, and only records including the box ID in which the item is "valid (in use)". May be recorded in the temperature storage DB 98. That is, when the server device 9 receives the measurement information Sb including the slave unit ID corresponding to the box ID in which the item "valid / invalid" of the temperature control DB 97 is "invalid (collected)", the server device 9 is concerned. The measurement information Sb may be discarded without being reflected in the temperature storage DB 98. As a result, the server device 9 can prevent unnecessary accumulation of the history of temperature information regarding the internal temperature of the heat insulating box 5 that has not been monitored.

[Abnormality judgment processing]
Here, a specific example of determining an abnormality in the internal temperature of the heat insulating box 5 with reference to the temperature control DB 97 will be described. FIG. 9 is a flowchart showing a procedure of abnormality determination processing executed by the server device 9. The server device 9 repeatedly executes the process of the flowchart shown in FIG.

First, the server device 9 receives the measurement information Sb from the terminal device 2 (step S101). In this case, the server device 9 specifies the box ID corresponding to the slave unit ID included in the measurement information Sb with reference to the delivery schedule DB 94 and the like shown in FIG. 7 (B) (step S102). After that, the server device 9 determines whether or not the item "valid / invalid" of the temperature control DB 97 corresponding to the specified box ID is set to "valid (in use)" (step S103). As a result, the server device 9 determines whether or not the box ID specified in step S102 is the temperature monitoring target.

Then, when the item "valid / invalid" is set to "valid (in use)" (step S103; Yes), the server device 9 updates the temperature storage DB 98 based on the received measurement information Sb, and at the same time, updates the temperature. (Step S104). In this case, the server device 9 extracts an allowable temperature zone from the temperature control DB 97 shown in FIG. 8A based on the box ID specified in step S102, and the extracted allowable temperature zone and the temperature included in the measurement information Sb. By comparing with the information, the temperature abnormality is judged.

Then, when the server device 9 determines that there is an abnormality in the abnormality determination in step S104 (step S105; Yes), that is, the internal temperature of the heat insulating box 5 indicated by the specified box ID is out of the allowable temperature range. If it is determined, a predetermined warning process is executed (step S106). For example, the server device 9 transmits warning information including the specified box ID to the terminal device 2 in order to notify the worker of the delivery vehicle 1 that the internal temperature of the target heat insulating box 5 is abnormal. In this case, the terminal device 2 that has received the warning information from the server device 9 outputs a warning that the temperature adjusting material 8 should be put into the heat insulating box 5 of the box ID included in the warning information. If there is a terminal used by the administrator who manages the state of each delivery vehicle 1 separately from the server device 9, the server device 9 delivers an e-mail to the above-mentioned terminal when it determines that a warning is necessary. May be further performed.

On the other hand, when the server device 9 determines that there is no abnormality in the abnormality determination in step S104 (step S105; No), the server device 9 ends the processing of the flowchart.

In step S103, when the server device 9 determines that the item "valid / invalid" referred to based on the specified box ID is set to "invalid (collected)" (step S103; No), the process of the flowchart is performed. Is terminated, and the temperature storage DB 98 update process and the temperature abnormality determination process based on the target measurement information Sb are not performed. Therefore, in this case, the server device 9 determines that the measurement information Sb received in step S101 indicates the measurement result for the recovered heat insulating box 5, and does not give a warning based on the measurement information Sb. As a result, the server device 9 can suitably suppress the output of an unnecessary warning regarding the internal temperature of the heat insulating box 5 from which all the packages to be accommodated have been taken out.

[Monitoring exclusion process]
FIG. 10 is a flowchart showing a procedure of monitoring exclusion processing regarding the internal temperature of the heat insulating box 5 executed by the server device 9 in the present embodiment. The server device 9 repeatedly executes the process of the flowchart shown in FIG.

First, the server device 9 receives the vehicle information Sa including the truck ID and the position information of the delivery vehicle 1 from the terminal device 2 (step S201). In this case, the server device 9 updates the position history DB 95 based on the received vehicle information Sa (step 202). Specifically, the server device 9 adds a record recording the track ID, the position information, and the date and time information included in the received vehicle information Sa to the position history DB 95.

Next, the server device 9 determines whether or not the delivery vehicle 1 having the truck ID has arrived at the next destination based on the records of the position history DB 95 and the route management DB 96 related to the truck ID indicated by the received vehicle information Sa. Determine (step S203). For example, the server device 9 first refers to the items "arrival status" and "delivery route" of the route management DB 96 related to the target truck ID, and then specifies the latitude and longitude of the destination to which the delivery vehicle 1 should arrive. .. Then, the server device 9 recognizes the movement locus of the delivery vehicle 1 based on the items "position" and "date and time" of the position history DB 95 related to the target truck ID, and delivers within a predetermined distance from the latitude and longitude of the specified destination. It is determined whether or not the vehicle 1 has passed or stopped.

Then, when the server device 9 determines that the target delivery vehicle 1 has arrived at the next destination (step S203; Yes), the server device 9 updates the delivery schedule DB 94 and the route management DB 96 (step S204). Specifically, the server device 9 identifies the package ID whose arrival destination is specified as the delivery location in the delivery schedule DB 94, and sets the item of "delivery status" corresponding to the package ID to "undelivered". To "delivered". Further, the server device 9 rewrites the item "arrival status" of the route management DB 96 of the corresponding track ID to the arrival destination. On the other hand, when the server device 9 determines that the target delivery vehicle 1 has not arrived at the next destination (step S203; No), the server device 9 ends the processing of the flowchart.

Next, the server device 9 determines whether or not there is a collected heat insulating box 5, that is, a heat insulating box 5 for which delivery of all the packages to be accommodated has been completed (step S205). In this case, in the server device 9, for the box ID corresponding to the package ID in which the item of "delivery status" of the delivery schedule DB 94 is changed to "delivered", the item of "delivery status" of all the associated package IDs is displayed. Determine if it is "delivered". Then, when the server device 9 determines that there is a recovered heat insulating box 5 (step S205; Yes), that is, the item of "delivery status" of all the associated package IDs becomes "delivered". If the box ID exists, the item "valid / invalid" of the temperature control DB 97 corresponding to the box ID is set to "invalid (collected)" and excluded from the monitoring target (step S206). As a result, the server device 9 does not execute the abnormality determination process or the like in steps S104 to S106 of FIG. 9 even when the measurement information Sb regarding the heat insulating box 5 determined to have been collected is subsequently received. Therefore, the server device 9 can suitably suppress the output of an unnecessary warning regarding the internal temperature of the heat insulating box 5 from which all the packages to be accommodated have been taken out. On the other hand, when the server device 9 determines that there is no recovered heat insulating box 5 (step S205; No), the server device 9 ends the processing of the flowchart.

[Action / effect of this embodiment]
According to the present embodiment, the server device 9 determines whether or not each package ID registered in the delivery schedule DB 94 has arrived at the delivery location based on the position information included in the vehicle information Sa received from the terminal device 2. As a result, the contents of the item "valid / invalid" of the temperature control DB 97 corresponding to the box ID of each heat insulating box 5 are rewritten. As a result, after the heat insulating box 5 for which the delivery of the package to be accommodated has been completed is collected in the loading platform 10, the slave unit 7 attached to the heat insulating box 5 continues to transmit the measurement information Sb to the master unit 3. However, the server device 9 can preferably prevent unnecessary temperature monitoring based on the measurement information Sb.

[Modification example]
Hereinafter, a modified example of the above-described embodiment will be described. The following modifications can be applied to the embodiment in any combination.

(Modification example 1)
The temperature monitoring system 100 shown in FIG. 1 is an example, and the configuration to which the present invention is applicable is not limited to this.

FIG. 11 shows the configuration of the temperature monitoring system 100A according to the modified example. In the temperature monitoring system 100A shown in FIG. 11, the master unit 3A includes the function of the terminal device 2 of the temperature monitoring system 100 shown in FIG. 1 and communicates with the server device 9 without going through the terminal device 2.

In this case, the master unit 3A transmits the measurement information Sb received from the slave unit 7 to the server device 9, and also transmits the vehicle information Sa to the server device 9. Even in this embodiment, the server device 9 receives the vehicle information Sa and the measurement information Sb from the terminal device 2 and executes the abnormality determination process shown in FIG. 9 and the monitoring exclusion process shown in FIG. 10 as in the embodiment. can do.

Further, the server device 9 may be composed of a plurality of terminals connected via a network. In this case, each terminal constituting the server device 9 exchanges information necessary for executing the pre-assigned process with another terminal. For example, the server device 9 includes a terminal that stores the delivery schedule DB 94, the position history DB 95, the route management DB 96, the temperature management DB 97, and the temperature storage DB 98, and a terminal that executes the processing of the control unit 93 according to the embodiment. May be good. In another example, the server device 9 receives the vehicle information Sa from the terminal device 2 and executes the monitoring exclusion process shown in FIG. 10, and receives the measurement information Sb from the terminal device 2 to perform the abnormality shown in FIG. It may be composed of a terminal that performs a determination process.

(Modification 2)
The server device 9 may determine whether or not each of the heat insulating boxes 5 is collected without storing the route management DB 96.

In this case, for example, the server device 9 stores information on the latitude and longitude of the delivery location in the item “delivery location” of the delivery schedule DB 94. Then, the server device 9 compares the movement locus of the delivery vehicle 1 recognized based on the position history DB 95 with the latitude / longitude recorded in the item "delivery place" of the delivery schedule DB 94, and from the delivery location of each package. It is determined whether or not the delivery vehicle 1 has passed or stopped for a predetermined time or longer within a predetermined distance. Then, when the server device 9 determines that the delivery vehicle 1 has passed or stopped for a predetermined time or more within a predetermined distance from the delivery location of the package, the item "delivery status" of the corresponding delivery schedule DB 94 is changed from "undelivered". Change to "delivered". In this way, the server device 9 can preferably determine whether or not each of the heat insulating boxes 5 is collected even when the route management DB 96 is not held.

1 Delivery vehicle 2 Terminal device 3 Master unit 5 Insulation box 7 Slave unit 8 Temperature control material 9 Server device 100, 100A Temperature monitoring system

Claims (8)

A storage unit that stores information on the delivery location of the package to be transported,
A measurement information receiving unit that receives measurement information of the internal temperature of the box that houses the luggage, and
A temperature monitoring unit based on said measurement information, to determine the necessity of warning about the abnormality of the internal temperature of the box,
A position information receiving unit that receives the position information of the vehicle that transports the box, and
It is provided with an estimation unit that estimates the delivery status of the package contained in the box based on the delivery location information and the location information.
The temperature monitoring unit is a temperature monitoring device that excludes the box, which is presumed to have delivered all the packages to be accommodated, from the target of the warning . Said temperature monitoring section, based on said measurement information, temperature monitoring according to claim 1, characterized in that to determine the necessity of warning about the abnormality of the internal temperature of the box than the box which has been excluded from the warning apparatus. The temperature monitoring unit is characterized in that when the measurement information receiving unit receives measurement information regarding the internal temperature of the box other than the box excluded from the warning target, the measurement information is stored in the storage unit. The temperature monitoring device according to claim 1 or 2. The storage unit further stores the delivery route information of the vehicle including the delivery location information and the history information of the position information received by the position information receiving unit.
The item according to any one of claims 1 to 3, wherein the estimation unit estimates the delivery status of the package contained in the box based on the delivery route information and the history information. Temperature monitoring device. A temperature monitoring system including the temperature monitoring device according to any one of claims 1 to 4 and a terminal device for transmitting measurement information of the internal temperature of a box for accommodating luggage transported by a vehicle to the temperature monitoring device. There,
The terminal device is
A position information generation unit that generates the position information of the vehicle, and
A position information transmitting unit that transmits the position information together with the vehicle identification information to the temperature monitoring device, and
A temperature monitoring system characterized by having. When the temperature monitoring unit of the temperature monitoring device detects an abnormality in the internal temperature of the box other than the box excluded from the warning target based on the measurement information, the temperature monitoring unit specifies the box to the terminal device. Send information,
The temperature monitoring system according to claim 5, wherein the terminal device further includes a warning output unit that outputs a warning based on the warning information when the warning information is received. A slave unit installed in each of the boxes and generating the measurement information,
A master unit that receives the measurement information from the temperature measuring device is further provided.
The temperature monitoring system according to claim 5 or 6, wherein the terminal device transmits measurement information received from the master unit to the temperature monitoring device. A program executed by a computer that refers to a storage unit that stores information on the delivery location of packages to be transported.
A measurement information receiving unit that receives measurement information of the internal temperature of the box that houses the luggage, and
A temperature monitoring unit based on said measurement information, to determine the necessity of warning about the abnormality of the internal temperature of the box,
A position information receiving unit that receives the position information of the vehicle that transports the box, and
The computer is made to function as an estimation unit that estimates the delivery status of the package contained in the box based on the delivery location information and the location information.
The temperature monitoring unit is a program characterized in that all the boxes to be accommodated are excluded from the target of the warning .

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