JP2019214446A - Article transportation environment guaranteeing system - Google Patents

Abstract

To provide an article transportation environment guaranteeing system in which an end user or a deliverer can access an environmental control information of a package at a low cost.SOLUTION: An article transportation environment guaranteeing system uses a temperature sensor built-in RFID tag to be attached to a package to be delivered, a portable terminal device for a deliverer, a reference thermometer for a deliverer, a mobile printer for the deliverer, and an environmental information label. The temperature sensor built-in RFID tag is formed of a temperature sensor for measuring a temperature and temperature control means. The deliverer attaches the temperature sensor built-in RFID tag to the package and delivers it. The temperature control means measures a temperature by the temperature sensor, performs a temperature managing process which compares the measured temperature with a temperature guarantee range, and transmits an outcome of the temperature managing process to the portable terminal device for the deliverer. The mobile printer prints and displays the outcome of the temperature managing process on the environmental information label.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an RFID tag with a built-in temperature sensor for exchanging information in a non-contact manner, and a system for guaranteeing the transportation of goods for goods using the RFID tag with a built-in temperature sensor. The present invention relates to an environmental security system for goods transportation, which links environmental information via luggage between goods.

  2. Description of the Related Art Conventionally, as an environmental security system during transportation or storage of a package, as described in Patent Document 1, an RFID tag with a built-in temperature sensor is attached to the package, and changes in the environment of the package during transportation or storage are stored in an IC and transport or storage is performed. There has been proposed a method of reading stored contents after storage and confirming that the environment during transportation or storage is within a preset allowable range.

  According to the technique of Patent Document 1, a package receiving gate and a delivery gate, or a reader / writer communicates with an RFID tag with a built-in temperature sensor and communicates measured temperature information of the RFID tag with a built-in temperature sensor to a gate or a delivery center that manages the reader / writer. The computer system was receiving.

JP 2006-059182 A JP 2016-162230 A

  However, there is a problem in that it is difficult to link data for transmitting the information of the RFID tag with a built-in temperature sensor stored in the computer of the distribution center to another carrier, and a problem in that it is difficult for the end user to access the environmental management information of the package. was there.

  In order to allow end users, delivery staff, and distribution center personnel to access environmental management information on packages, Patent Document 2 and the like use an RFID tag with a built-in temperature sensor having a display unit such as a liquid crystal or electronic paper. Technology has been proposed.

  However, if the RFID tag with a built-in temperature sensor has a display unit, there is a problem that the RFID tag with a built-in temperature sensor is expensive.

  Accordingly, an object of the present invention is to provide an article transportation environment security system using an RFID tag with a built-in temperature sensor, in which an end user or a delivery person can access environmental management information of a package without incurring high costs. Is to get a security system.

In order to solve the above problem, the present invention comprises an RFID tag with a built-in temperature sensor attached to a package to be delivered, an RF tag reader, a portable terminal device of a delivery person, a reference thermometer, a mobile printer, and an environmental information label. An environmental security system for goods transportation,
The RFID tag with a built-in temperature sensor includes a temperature sensor and a temperature management unit for measuring a temperature, and a delivery person installs and distributes the RFID tag with a built-in temperature sensor to the package,
The temperature management unit measures the temperature with the temperature sensor, performs a temperature management process of comparing the measured temperature with a temperature guarantee range, and transmits the result of the temperature management process to the delivery person via the RF tag reader. To the terminal device,
The goods transport environment security system, wherein the portable terminal device of the delivery member prints the result of the temperature management process on the environmental information label by the mobile printer, and installs and displays the environmental information label on the package. It is.

  According to the present invention, the RFID tag with the built-in temperature sensor measures the temperature of the package, performs a temperature management process, and prints the result on an environmental information label. Alternatively, there is an effect that an environmental security system can be obtained in which the environmental conditions during storage can be reliably and clearly specified and guaranteed.

Further, the present invention is the article transportation environment assurance system, wherein the RFID tag with a built-in temperature sensor is connected to the IC package substrate with the temperature sensor including the temperature sensor and the temperature management unit, and the RF tag reader. An antenna for transmitting data to the portable terminal device of the delivery person, and a lead wire connecting the IC package substrate with the temperature sensor and the antenna,
An article transportation environment security system, wherein a delivery person installs and delivers the IC package substrate with the temperature sensor to the package.

  Further, the present invention is the article transportation environment assurance system, wherein a delivery item storage is used to store the package and the IC package substrate with a temperature sensor in the delivery item storage, and the antenna is connected to the delivery item. An article transportation environment security system, which is installed outside a storage and communicates with the RF tag reader.

Further, the present invention is the article transportation environment assurance system, wherein when the RFID tag with a built-in temperature sensor receives a temperature management start instruction signal from the portable terminal device of the delivery person via the RF tag reader, An article transportation environment assurance system, wherein management means starts a temperature management process of measuring a temperature with the temperature sensor and comparing the measured temperature with a temperature assurance range.

  Further, the present invention is the article transportation environment assurance system, wherein the portable terminal device receives the environmental temperature measured by the reference thermometer, and the portable terminal device receives from the temperature sensor built-in RFID tag. An article transportation environment assurance system, wherein the correctness of the measured temperature of the RFID tag with a built-in temperature sensor is confirmed by comparing the measured temperature with the measured temperature.

  According to the environmental security system of the present invention, the RFID tag with a built-in temperature sensor measures the temperature of the package, performs a temperature management process, and prints the result on an environmental information label. Ensure that environmental conditions during transport or storage are clearly stated.

  By attaching the environmental information label printed with the result of the temperature management process to the package, it is possible to provide evidence that the environmental management has been confirmed during the distribution process, and to ensure the environmental conditions during transportation or storage. There is an effect that an environmental security system can be obtained.

  In addition, the environmental security system of the present invention can easily change the information to be printed on the environmental information label by printing on the environmental information label with a portable mobile printer. This makes it possible to obtain information reflecting the result of the fine adjustment.

Further, the management information display format can be changed by changing the printer side, and updating can be easily performed because there is no need to update the environment management apparatus side. For example, there is an effect that a flexible environmental security system is obtained in which a person who moves on the spot such as delivery can update management information.

  Also, the environmental information label is separated from the IC package substrate with the temperature sensor, for example, by attaching an environmental information label to the outside of the box serving as the delivery storage, and putting the IC package substrate with the temperature sensor in the box. There is an effect that can be attached.

  In addition, the portable terminal device receives the environmental temperature measured by the reference thermometer and compares the measured temperature with the measured temperature received from the RFID tag with a built-in temperature sensor, thereby confirming the correctness of the measured temperature of the RFID tag with a built-in temperature sensor. Thus, when the temperature sensor of the RFID tag with a built-in temperature sensor breaks down in the middle of delivery, there is an effect that the abnormality can be noticed on the way.

It is a figure showing composition of a goods transportation environment security system of a 1st embodiment of the present invention. It is a figure showing the block composition of the RFID tag with a built-in temperature sensor of a 1st embodiment of the present invention. FIG. 3 is a diagram (part 1) illustrating an example of a print pattern of an environmental information label to be printed in the first embodiment of the present invention. FIG. 4 is a diagram (part 2) illustrating an example of a print pattern of an environmental information label to be printed in the first embodiment of the present invention. It is a flowchart (the 1) which shows the processing procedure of the goods transportation environment security system of a 1st embodiment of the present invention. It is a flow chart (the 2) which shows the processing procedure of the goods transportation environment security system of a 1st embodiment of the present invention. It is a flowchart (the 3) which shows the processing procedure of the goods transportation environment security system of a 1st embodiment of the present invention. It is a flow chart which shows the processing procedure of the goods transportation environment security system of a 2nd embodiment of the present invention.

<First embodiment>
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings. As shown in FIG. 1, the goods transportation environment security system of the present invention includes an RFID tag 20 with a built-in temperature sensor attached to a package 10 to be delivered, an RF tag reader 100 for reading data of the RFID tag 20 with a built-in temperature sensor, It comprises a portable terminal device 200, a delivery storage 300, a reference thermometer 310, a mobile printer 400, and an environment information label 40 printed by the mobile printer 400 and attached to the package 10.

  The luggage 10 is stored in the delivery storage 300, and the IC package board 21 with the temperature sensor of the RFID tag 20 with a built-in temperature sensor is attached to the luggage 10, and the antenna board 30 is an RF tag reader outside the delivery storage 300. It is installed in a position where it can communicate with 100.

(Modification 1)
As a first modification, a luggage storage refrigerator or the like provided in the delivery vehicle and storing a plurality of luggage 10 can be used. In that case, the RF tag reader 100 can be installed in the luggage storage refrigerator, and the RF tag reader 100 can communicate with the antenna 1 of the antenna substrate 30 outside the delivery storage 300 for each luggage 10. When using a luggage storage refrigerator, the delivery storage 300 for each luggage 10 can be completed with simple packing means.

(Reference thermometer 310)
The delivery staff holds the reference thermometer 310, and the delivery staff installs the reference thermometer 310 in the delivery storage 300 where the luggage 10 is stored as necessary, and measures the environmental temperature in the delivery storage 300. I do. The reference thermometer 310 communicates with the portable terminal device 200 of the delivery member, and transmits environmental temperature data to the portable terminal device 200 of the delivery member.

  The reference thermometer 310 may be configured so that the communication means of the reference thermometer 310 communicates directly with the portable terminal device 200 of the delivery person, and the communication means of the reference thermometer 310 is connected via the RF tag reader 100. Communication with the portable terminal device 200 of the delivery person.

  Then, the portable terminal device 200 compares the environmental temperature with the measured temperature D5 received by the portable terminal device 200 from the RFID tag 20 with a built-in temperature sensor, thereby confirming that the measured temperature D5 of the RFID tag with a built-in temperature sensor 20 is correct. Can be confirmed.

  Thus, if the temperature sensor of the RFID tag with a built-in temperature sensor breaks down during delivery, there is an effect that the abnormality can be noticed in the middle of delivery.

  In addition, a luggage storage refrigerator that stores a plurality of luggage 10 provided in a delivery vehicle can be used. In that case, the delivery goods storage 300 for each package 10 may be simply packed, and the package 10 is stored in a refrigerator for storing packages. Then, the reference thermometer 310 is installed in the refrigerator for storing luggage, the temperature in the refrigerator for storing luggage is measured, and the data of the environmental temperature is transmitted to the portable terminal device 200 of the delivery person.

  Then, by causing the portable terminal device 200 of the delivery person to compare the environmental temperature with the measured temperature D5 received from the RFID tag 20 with a built-in temperature sensor attached to the baggage 10, the measured temperature D5 of the RFID tag 20 with a built-in temperature sensor is obtained. You can make sure they are right.

  Thus, if the temperature sensor of the RFID tag with a built-in temperature sensor breaks down during delivery, there is an effect that the abnormality can be noticed in the middle of delivery.

(RFID tag 20 with built-in temperature sensor)
The RFID tag 20 with a built-in temperature sensor will be described with reference to FIG. An RFID tag 20 with a built-in temperature sensor according to the present invention includes an IC package board 21 with a temperature sensor in which an IC package with a temperature sensor is mounted on a circuit board, and an antenna board 30 on which the antenna 1 for communicating with an external device is installed. ing.

  The IC package board with temperature sensor 21 and the antenna board 30 are formed as separate bodies electrically connected by the lead wire 27. Then, the IC package substrate 21 with the temperature sensor is attached to the package 10 in the delivery storage 300, and the antenna substrate 30 holding the antenna 1 communicating with the RF tag reader 100 is located outside the delivery storage 300. It is installed at a position where it can communicate with the RF tag reader 100, and the IC package substrate with temperature sensor 21 and the antenna 1 of the antenna substrate 30 are connected by the lead wire 27.

  For example, even if the package 10 is placed in the delivery container 300 of a metal container, the antenna substrate 30 connected to the IC package substrate 21 with the temperature sensor attached to the package 10 via the lead wire 27 is stored in the delivery container 300. Communication is enabled by installing the RF tag reader 100 at a position where communication with the RF tag reader 100 is possible, such as outside of the device.

Here, the antenna substrate 30 is fixedly installed in the delivery item storage 300, and the lead wire 27 connected to the antenna substrate 30 is connected to the IC package board 21 with a temperature sensor in the delivery item storage 300. In addition, the lead wire 27 and the IC package substrate with temperature sensor 21 can be configured to be separable.

  By using a flexible material for the substrate of the circuit board of the IC package substrate 21 with the temperature sensor, even if the surface of the package 10 for measuring the temperature D5 is uneven and not flat, the surface shape of the package 10 It is desirable to use a base material that has good follow-up properties and good adhesion.

  An electronic circuit installed on the IC package substrate with temperature sensor 21 includes a memory 22, a temperature sensor 23, a control unit 24, a communication unit 25, and a power supply circuit 26.

  The RFID tag 20 with a built-in temperature sensor operates by supplying the power supplied from the RF tag reader 100 to the antenna 1 to the power supply circuit 26 of the IC package substrate 21 with the temperature sensor via the lead wire 27. The power supply circuit 26 of the RFID tag 20 with a built-in temperature sensor includes a battery for storing power, and operates by the power of the battery to perform a temperature management process of periodically measuring the temperature D5.

  When receiving the IC tag information request signal from the RF tag reader 100 via the antenna 1, the RFID tag 20 with a built-in temperature sensor measures the temperature D5 of the package 10 using the temperature sensor 23, and stores the temperature data and the memory 22. The transmitted IC tag identification code D1 is transmitted to the RF tag reader 100 by wireless communication using the antenna 1 installed outside the delivery storage 300.

  When receiving the temperature management start instruction signal from the RF tag reader 100 via the antenna 1, the RFID tag 20 with a built-in temperature sensor periodically measures the temperature D5 with the temperature sensor 23, and then obtains the information of the temperature of the measurement result. The measurement time is stored in the memory 22, and a temperature management process for comparing the information of the measured temperature D5 with a temperature guarantee range stricter than the designated delivery temperature D6 is started.

(RF tag reader 100)
The RF tag reader 100 is installed at a position where communication with the portable terminal device 200 of the delivery member is possible, such as outside the delivery item storage 300. The delivery person may hold the RF tag reader 100 together with the portable terminal device 200. Further, the portable terminal device 200 may have the function of the RF tag reader 100.

  The RF tag reader 100 wirelessly communicates with the RFID tag 20 with a built-in temperature sensor attached to the baggage 10 via its antenna 1 in accordance with a command from the portable terminal device 200 of the delivery person, thereby obtaining data of the RFID tag with a built-in temperature sensor 20. And transmits the data to the portable terminal device 200 of the delivery member.

(Delivery member's portable terminal device 200)
The portable terminal device 200 of the delivery person receives the IC tag identification code D1 and the temperature information data of the RFID tag 20 with a built-in temperature sensor from the RF tag reader 100.

  Then, the portable terminal device 200 receives, from the RF tag reader 100, the IC tag identification code D1 and the temperature D5 of the RFID tag 20 with the built-in temperature sensor, and information on the measurement time point D4b of the temperature D5 and the transportation route point at which the temperature D5 was measured. The data including the environment information including the above information is transmitted to the mobile printer 400, and the mobile printer 400 prints the information on the environment information label 40.

  The delivery person attaches the environmental information label 40 printed by the mobile printer 400 to the package 10 or the delivery storage 300.

  In addition, the delivery person can install the reference thermometer 310 in the delivery storage 300 to measure the temperature D5 and receive the environmental temperature with the portable terminal device 200. Then, the portable terminal device 200 compares the environmental temperature with the measured temperature D5 received from the RFID tag 20 with a built-in temperature sensor to confirm that the measured temperature D5 received from the RFID tag 20 with a built-in temperature sensor is correct. Can be.

(Environmental information label 40)
FIGS. 3 and 4 show an example of information printed by the delivery terminal portable terminal device 200 on the environmental information label 40 using the mobile printer 400 in the process of delivering the package 10. Information to be printed on the environmental information label 40 includes an IC tag identification code D1 of the RFID tag 20 with a built-in temperature sensor, a temperature D5 of the package 10 measured by the RFID tag 20 with a built-in temperature sensor, time information D4b at which the temperature D5 was measured, and a label. Information on the printing time D4, the designated delivery temperature D6, and the management state D7 is printed. Further, the information of the IC tag identification code D1 and the management state D7 can be printed on the environmental information label 40 as a two-dimensional code D1b or a barcode.

  Here, the temperature assurance range is controlled to be stricter than the designated delivery temperature D6, and the designated delivery temperature D6 is managed so as to be reliably maintained. In addition, the information to be printed on the environmental information label 40 includes, in addition, the package number D2, the name of the delivery person D3, information on the measurement place, and the environmental temperature information measured by the reference thermometer 310 as necessary. Environmental information can be printed on the environmental information label 40.

  When there is an information change such as a change in the management information, the environmental information label 40 on which the latest information is printed can be printed and overlaid on the label already attached to the package 10.

  By printing the temperature information D4, the time information D4b at which the temperature D5 was measured and the information of the result of the temperature management processing such as the management state D7 on the environmental information label 40, and attaching the information to the package 10, the environmental management in the distribution process can be performed. There is an effect that an environmental security system can be obtained in which the evidence of the confirmation can be obtained and the environmental conditions during transportation or storage can be surely guaranteed.

(Overview of processing)
In the goods transportation environment security system of the present embodiment, the RFID tag 20 with a built-in temperature sensor periodically measures the temperature D5 with the temperature sensor 23 during the transportation process of the package 10 and compares the measured temperature D5 with the temperature security range. And the management information of the comparison result, the measured temperature D5 and the measured time information are stored in the memory 22.

  Then, when the measured temperature falls outside the temperature guarantee range, the RFID tag with a built-in temperature sensor 20 transmits a warning signal to the portable terminal device 200 of the delivery person via the RF tag reader 100. The portable terminal device 200 that has received the warning signal emits a warning sound to notify the delivery person.

  The RFID tag with a built-in temperature sensor 20 that has received the IC tag information request signal from the delivery terminal of the portable terminal device 200 via the RF tag reader 100 stores the periodically measured temperature information and the measurement time stored in the memory 22. The information is transmitted to the mobile terminal device 200 via the RF tag reader 100.

  Then, the mobile terminal device 200 prints a plurality of pieces of temperature information and measurement time information periodically measured by the temperature sensor 23 of the RFID tag 20 with a built-in temperature sensor on the environment information label 40.

(Delivery processing)
Next, with reference to the flowcharts of FIGS. 5 to 7, a description will be given of a processing procedure of the environmental security system in the delivery processing of the package 10 using the RFID tag 20 with a built-in temperature sensor according to the first embodiment.

  The delivery member receives the package 10 from the delivery center, delivers the package 10 to another delivery center, and finally delivers the package 10 to the recipient according to the flowcharts of FIGS.

(Process for receiving luggage 10 from the delivery center)
First, the delivery person receives the package 10 from the delivery center, and stores the package 10 in the delivery storage 300 where the temperature of the part storing the package 10 is maintained at a predetermined temperature (0 ° C. or lower). Then, the IC package substrate 21 with the temperature sensor of the RFID tag 20 with a built-in temperature sensor is attached to the package 10, and the antenna substrate 30 of the RFID tag 20 with the built-in temperature sensor communicates with the RF tag reader 100, such as outside the delivery storage 300. The IC package substrate with temperature sensor 21 and the antenna 1 of the antenna substrate 30 are connected to each other with lead wires 27.

(Step S1)
Next, the delivery person transmits an IC tag information request signal from the portable terminal device 200 to the IC package board with temperature sensor 21 via the antenna 1 of the RFID tag 20 with a built-in temperature sensor and the lead wire 27 via the RF tag reader 100. I do.

(Step S2)
The IC package substrate with temperature sensor 21 of the RFID tag 20 with the built-in temperature sensor that has received the IC tag information request signal measures the temperature D5 using the temperature sensor 23, and stores the measured temperature D5 and the measurement time information in the memory 22.

(Step S3)
In addition, the RFID tag with a built-in temperature sensor 20 compares the measured temperature D5 with the temperature guarantee range stored in the memory 22. If the measured temperature D5 falls outside the temperature guarantee range stored in the memory 22 as a result of the comparison, the RFID tag 20 with a built-in temperature sensor stores the warning data outside the guarantee range in the memory 22 as management information of the comparison result.

(Step S4)
Then, the RFID tag with a built-in temperature sensor 20 transmits the IC tag identification code D1, the measured temperature D5, the measured time information, and the management information as the IC tag information to the portable terminal device 200 via the RF tag reader 100.

(Step S5)
The portable terminal device 200 of the delivery member stores the IC tag information received from the RFID tag 20 with a built-in temperature sensor via the RF tag reader 100.

  If the management information of the received IC tag information includes out-of-guaranteed warning data, the portable terminal device 200 emits a warning sound to notify the delivery person.

(Step S6)
Next, the portable terminal device 200 of the delivery person receives the information on the environmental temperature from the reference thermometer 310 and stores it. Here, the delivery person can install the reference thermometer 310 in the delivery storage 300 and measure the temperature D5 to receive the environmental temperature with the portable terminal device 200. Then, by making the portable terminal device 200 compare the environmental temperature with the measured temperature D5 received from the RFID tag 20 with a built-in temperature sensor, it is confirmed that the measured temperature D5 received from the RFID tag 20 with a built-in temperature sensor is correct.

(Step S7)
The portable terminal device 200 of the delivery person transmits a temperature management start instruction signal specifying the temperature measurement time interval and the temperature assurance range to the temperature sensor built-in RFID tag 20 via the RF tag reader 100.

(Step S8)
The temperature sensor-equipped RFID tag 20 that has received the temperature management start instruction signal from the delivery terminal's portable terminal device 200 via the RF tag reader 100 performs a temperature management start process. That is, the RFID tag with a built-in temperature sensor 20 stores the received temperature guarantee range in the memory 22 and starts the process of periodically measuring the temperature D5 with the temperature sensor 23. Then, the measurement temperature D5, the measurement time, and the management information are stored in the memory 22 and the information is accumulated.

  Next, the RFID tag 20 with a built-in temperature sensor transmits a temperature management start response signal to the portable terminal device 200 via the RF tag reader 100.

(Step S9) Printing of Environmental Information Label 40 When the portable terminal device 200 of the delivery person receives a temperature management start response signal from the RFID tag 20 with a built-in temperature sensor via the RF tag reader 100, the IC tag identification code D1 is displayed. The information of the temperature previously received from the RFID tag 20 with the built-in temperature sensor, the information of the environmental temperature received from the reference thermometer 310 of the storage, and the data of the temperature measurement time are added, if necessary, to the information of the measurement place. Then, the information is transmitted to the mobile printer 400, and the mobile printer 400 prints the information on the environmental information label 40 in a format as shown in FIG.

  Here, the information to be printed on the environmental information label 40 includes not only predetermined information, but also changes the order of information to be printed on site, adds information to be printed, and adds information to be delivered by a delivery person. Can be printed on the environmental information label 40.

  Further, the management information display format can be changed by changing the printer. In that case, it is not necessary to change the program of the environment management portable terminal device 200, so that it can be easily achieved. Thus, there is an effect that a flexible environmental security system in which a delivery person can update management information can be obtained.

(Step S10)
The delivery person attaches the printed environmental information label 40 to the package 10 or the delivery storage 300.

(Step S11) Temperature Measurement Process During Delivery The RFID tag 20 with a built-in temperature sensor periodically measures the temperature D5 with the temperature sensor 23 while the delivery member is delivering the package 10, and determines the measured temperature D5. The measurement time is stored in the memory 22.

(Step S12)
In addition, the RFID tag with a built-in temperature sensor 20 compares the measured temperature D5 with the temperature guarantee range stored in the memory 22. If the measured temperature D5 falls outside the temperature guarantee range stored in the memory 22 as a result of the comparison, the RFID tag 20 with a built-in temperature sensor stores the warning data outside the guarantee range in the memory 22 as management information of the comparison result.

  When the out-of-guaranteed warning data is created, the RFID tag with built-in temperature sensor 20 transmits a warning signal to the mobile terminal device 200 via the RF tag reader 100.

(Step S12 ')
When the portable terminal device 200 of the delivery member receives a warning signal from the RFID tag 20 with a built-in temperature sensor via the RF tag reader 100, the delivery terminal notifies the delivery member of a warning sound.

(Step S13) Delivery Process of Package 10 to Another Delivery Center When the deliverer carries the package 10 to another delivery center, the delivery person sends an IC tag information request signal from the portable terminal device 200 via the RF tag reader 100. To the RFID tag 20 with a built-in temperature sensor.

(Step S14)
The RFID tag 20 with a built-in temperature sensor that has received the IC tag information request signal measures the latest temperature D5 with the temperature sensor 23 and stores the measured temperature D5 and measurement time information in the memory 22.

(Step S15)
In addition, the RFID tag with a built-in temperature sensor 20 compares the measured temperature D5 with the temperature guarantee range stored in the memory 22. If the measured temperature D5 falls outside the temperature guarantee range stored in the memory 22 as a result of the comparison, the RFID tag 20 with a built-in temperature sensor stores the warning data outside the guarantee range in the memory 22 as management information of the comparison result.

(Step S16)
Then, the RFID tag 20 with a built-in temperature sensor includes, as the IC tag information, the IC tag identification code D1, the measured temperature D5 periodically measured during the delivery of the package 10, the measurement time information, the management information, and the latest measured temperature D5. Are transmitted to the mobile terminal device 200 via the RF tag reader 100.

(Step S17)
The portable terminal device 200 of the delivery member stores the IC tag information received from the RFID tag 20 with a built-in temperature sensor via the RF tag reader 100.

  If the management information of the received IC tag information includes out-of-guaranteed warning data, the portable terminal device 200 emits a warning sound to notify the delivery person.

(Step S18)
Next, the portable terminal device 200 of the delivery person receives and stores the environmental temperature information and the measurement time information from the reference thermometer 310 of the delivery storage 300. Here, the delivery person can install the reference thermometer 310 in the delivery storage 300 and measure the temperature D5 to receive the environmental temperature with the portable terminal device 200. Then, by making the portable terminal device 200 compare the environmental temperature with the measured temperature D5 received from the RFID tag 20 with a built-in temperature sensor, it is confirmed that the measured temperature D5 received from the RFID tag 20 with a built-in temperature sensor is correct.

(Step S19)
The portable terminal device 200 of the delivery person receives the latest measurement temperature D5, measurement time information, and management information received during the delivery of the package 10 from the RFID tag 20 with the built-in temperature sensor via the RF tag reader 100. The measured temperature D5 and the like, the information on the environmental temperature received from the reference thermometer 310 in the storage, and the information on the measurement place as necessary are also transmitted to the mobile printer 400, and the information is transmitted to the mobile printer 400. The environment information label 40 is printed in a format as shown in FIG.

(Step S20)
The delivery person attaches the printed environmental information label 40 to the package 10 or the delivery storage 300. Then, the package 10 to which the environmental information label 40 is attached or the package 10 installed in the delivery storage 300 is delivered to the delivery center of the delivery destination.

(Step S21) Delivery Process of Baggage 10 to Recipient After step S1 to step S12, the deliverer who has carried baggage 10 from the delivery center to the final destination is sent to portable terminal device 200 via RF tag reader 100. Then, the IC tag information request signal including the time information is transmitted to the RFID tag 20 with a built-in temperature sensor.

(Step S22)
The RFID tag 20 with a built-in temperature sensor that has received the IC tag information request signal measures the latest temperature D5 with the temperature sensor 23 and stores the measured temperature D5 and measurement time information in the memory 22.

(Step S23)
In addition, the RFID tag with a built-in temperature sensor 20 compares the measured temperature D5 with the temperature guarantee range stored in the memory 22. If the measured temperature D5 falls outside the temperature guarantee range stored in the memory 22 as a result of the comparison, the RFID tag 20 with a built-in temperature sensor stores the warning data outside the guarantee range in the memory 22 as management information of the comparison result.

(Step S24)
Then, the RFID tag 20 with a built-in temperature sensor includes, as the IC tag information, the IC tag identification code D1, the measured temperature D5 periodically measured during the delivery of the package 10, the measurement time information, the management information, and the latest measured temperature D5. Are transmitted to the mobile terminal device 200 via the RF tag reader 100.

(Step S25)
The portable terminal device 200 of the delivery member stores the IC tag information received from the RFID tag 20 with a built-in temperature sensor via the RF tag reader 100.

  When the received management information of the IC tag information includes the out-of-guaranteed warning data, the portable terminal device 200 emits a warning sound and notifies the deliveryman.

(Step S26)
Next, the portable terminal device 200 of the delivery person receives and stores the environmental temperature information and the measurement time information from the reference thermometer 310 of the delivery storage 300. Here, the delivery person can install the reference thermometer 310 in the delivery storage 300 and measure the temperature D5 to receive the environmental temperature with the portable terminal device 200. Then, by making the portable terminal device 200 compare the environmental temperature with the measured temperature D5 received from the RFID tag 20 with a built-in temperature sensor, it is confirmed that the measured temperature D5 received from the RFID tag 20 with a built-in temperature sensor is correct.

(Step S27)
The portable terminal device 200 of the delivery member transmits a temperature management end instruction signal to the temperature sensor built-in RFID tag 20 via the RF tag reader 100.

(Step S28)
The RFID tag 20 with a built-in temperature sensor that has received the temperature management end instruction signal from the delivery terminal of the portable terminal device 200 via the RF tag reader 100 ends the temperature management process and stops the periodic temperature measurement process by the temperature sensor 23. . Next, the RFID tag with a built-in temperature sensor 20 transmits a temperature management end response signal to the portable terminal device 200 via the RF tag reader 100.

(Step S29)
When receiving the temperature management end response signal from the RFID tag with built-in temperature sensor 20 via the RF tag reader 100, the portable terminal device 200 of the delivery person previously received the signal from the RFID tag with built-in temperature sensor 20 via the RF tag reader 100. And the measurement temperature D5, measurement time information, management information, the latest measurement temperature D5, etc., the environmental temperature information received from the reference thermometer 310 of the storage, and the like. The information of the measurement place is also added, and the information is transmitted to the mobile printer 400, and the mobile printer 400 prints the information on the environmental information label 40 in a format as shown in FIG.

(Step S30)
The delivery person attaches the printed environmental information label 40 to the package 10, collects the RFID tag 20 with the built-in temperature sensor, and delivers the package 10 to the final destination.

  According to the present embodiment, during the period until the mobile terminal device 200 accesses the RFID tag 20 with a built-in temperature sensor via the RF tag reader 100, the RFID tag with a built-in temperature sensor 20 Since the temperature information is stored by measuring the temperature D5, there is an effect that the temperature during transportation or storage of the package 10 can be finely managed.

  Further, according to the present embodiment, when the measured value of the temperature sensor 23 of the RFID tag 20 with a built-in temperature sensor is out of the temperature guarantee range, the delivery person is notified, so that the delivery person can appropriately manage the temperature of the package 10. There is an effect that an environmental security system can be obtained.

  Further, in the present embodiment, the RFID tag 20 with a built-in temperature sensor is attached to the luggage 10 or the like, and the temperature D5 of the luggage 10 is measured and printed on the environmental information label 40. There is an effect that an environmental security system can be obtained in which the environmental conditions can be surely specified and guaranteed.

  In addition, the delivery staff can reuse the RFID tag 20 with a built-in temperature sensor collected after use. As a result, the environmental security cost per operation can be reduced, and the environmental load can be reduced because the temperature sensor built-in RFID tag 20 is not discarded each time.

  Further, since the RFID tag 20 with a built-in temperature sensor collected by the delivery person stores the temperature of the package 10 during transportation or storage, the delivery management computer reads and analyzes the temperature data, thereby analyzing the package 10. There is an effect that basic data for improving the delivery condition of the product can be obtained.

<Second Embodiment>
In the second embodiment of the present invention, as the RFID tag 20 with a built-in temperature sensor, the power supplied from the RF tag reader 100 to the antenna 1 is supplied to the power supply circuit 26 of the IC package substrate with temperature sensor 21 via the lead wire 27. The difference from the first embodiment is that an RFID tag 20 with a built-in temperature sensor that operates by feeding power is used.

  That is, the power supply circuit 26 of the RFID tag 20 with a built-in temperature sensor is constituted by a circuit for storing power in a capacitor, and a battery for storing power is not provided. This has the effect of simplifying the configuration of the power supply circuit 26, extending the life, and reducing the cost required for the RFID tag 20 with a built-in temperature sensor.

In the process of transporting the package 10, the RFID tag 20 with a built-in temperature sensor periodically measures the temperature D5 with the low power consumption temperature sensor 23, and stores the measured temperature D5 and the measurement time in the memory 22. In addition, the RFID tag with a built-in temperature sensor 20 compares the measured temperature D5 with a temperature guarantee range specified by the mobile terminal device 200, and stores management information of the comparison result in the memory 22.

  The RFID tag 20 with a built-in temperature sensor operates the communication unit 25 using the supplied power when power is wirelessly supplied from the RF tag reader 100, and is the management information to be notified to the portable terminal device 200 of the delivery person. A warning signal notifying that the measured temperature D5 is out of the specified temperature guarantee range is transmitted to the RF tag reader 100.

  When the RF tag reader 100 receives a warning signal from the RFID tag 20 with a built-in temperature sensor, the RF tag reader 100 transmits the warning signal to the portable terminal device 200 of the delivery person to warn.

  Thus, the delivery person can bring the RF tag reader 100 close to the RFID tag 20 with a built-in temperature sensor and supply power wirelessly, and can transmit a necessary warning signal from the RFID tag 20 with a built-in temperature sensor via the RF tag reader 100. It can be received by the terminal device 200.

(Delivery processing)
Next, the processing procedure of the environmental security system in the delivery processing of the package 10 using the RFID tag 20 with a built-in temperature sensor according to the second embodiment will be described with reference to the flowcharts of FIGS. This will be described with reference to the flowchart of FIG.

  The delivery person receives the package 10 from the delivery center, delivers the package 10 to another delivery center, and finally delivers the package 10 to the recipient, as in the first embodiment.

(Process for receiving luggage 10 from the delivery center)
The process performed by the delivery member when receiving the package 10 from the delivery center is performed in the process from step S1 to step S10 as in the first embodiment, and the environmental management label 40 is printed and attached to the package 10.

(Temperature measurement process during delivery)
In the second embodiment, the processing during the delivery of the package 10 is performed in steps S41 to S46 in FIG. 8 instead of steps S11 and S12 in the first embodiment.

(Step S41) Temperature Measurement Processing During Delivery While the delivery member is delivering the package 10, the RFID tag 20 with a built-in temperature sensor periodically measures the temperature D5 with the temperature sensor 23, and determines the measured temperature D5. The measurement time is stored in the memory 22.

(Step S42)
In addition, the RFID tag with a built-in temperature sensor 20 compares the measured temperature D5 with the temperature guarantee range stored in the memory 22. If the measured temperature D5 falls outside the temperature guarantee range stored in the memory 22 as a result of the comparison, the RFID tag 20 with a built-in temperature sensor stores the warning data outside the guarantee range in the memory 22 as management information of the comparison result.

(Step S43)
When creating the out-of-guaranteed warning data, the RFID tag 20 with a built-in temperature sensor creates a warning signal and prepares for communication.

(Step S44)
The RF tag reader 100 wirelessly supplies power to the RFID tag 20 with a built-in temperature sensor.

(Step S45)
When power is wirelessly supplied from the RF tag reader 100, the RFID tag 20 with a built-in temperature sensor operates the communication unit 25 using the supplied power and transmits a prepared warning signal to the RF tag reader 100.

(Step S45 ')
When the RF tag reader 100 receives a warning signal from the RFID tag 20 with a built-in temperature sensor, the RF tag reader 100 transmits the warning signal to the portable terminal device 200 of the delivery person to warn.

(Step S46)
When the portable terminal device 200 of the delivery member receives a warning signal from the RFID tag 20 with a built-in temperature sensor via the RF tag reader 100, the delivery terminal emits a warning sound and notifies the delivery member of a warning.

(Delivery processing of package 10 to another delivery center)
The delivery process of the package 10 to the delivery center performed when the delivery member arrives at another delivery center is performed in steps S13 to S20 as in the first embodiment, and the environmental management label 40 is printed. And attaches the package 10 to the delivery center of the delivery destination.

(Delivery process of baggage 10 to recipient)
As in the first embodiment, the process of the deliveryman delivering the package 10 to the final recipient is performed in steps S21 to S30, the environment management label 40 is printed and attached to the package 10, The RFID tag 20 with a built-in sensor is collected, and the package 10 is delivered to a final destination.

  In the second embodiment, when power is wirelessly supplied from the RF tag reader 100 to the RFID tag 20 with a built-in temperature sensor, the RFID tag 20 with a built-in temperature sensor operates the communication unit 25 to transmit the prepared data to the RF tag 20. By transmitting the data to the tag reader 100 and the RF tag reader 100 transmitting the data to the portable terminal device 200 of the delivery person, the configuration is simplified without providing a storage battery in the power supply circuit 26 of the RFID tag 20 with a built-in temperature sensor, There is an effect that the cost required for the RFID tag 20 with a built-in temperature sensor can be reduced.

1 ... antenna,
10 luggage 20 RFID tag 21 with built-in temperature sensor IC package substrate 22 with temperature sensor memory 23 temperature sensor 24 control unit 25 communication unit 26 -Power supply circuit 27-Lead wire 30-Antenna board 40-Environmental information label 100-RF tag reader 200-Portable terminal device 300-Delivery item storage 310-Reference thermometer 400 mobile printer D1 IC tag identification code D1b two-dimensional code D2 package number D3 person in charge name D4 label printing time D4b measurement time D5・ Measurement temperature D6 ・ ・ ・ Delivery designation temperature D7 ・ ・ ・ Management status

Claims (5)

An article transportation environment security system comprising an RFID tag with a built-in temperature sensor attached to a package to be delivered, an RF tag reader, a portable terminal device of a delivery person, a reference thermometer, a mobile printer, and an environmental information label,
The RFID tag with a built-in temperature sensor includes a temperature sensor and a temperature management unit for measuring a temperature, and a delivery person installs and distributes the RFID tag with a built-in temperature sensor to the package,
The temperature management unit measures the temperature with the temperature sensor, performs a temperature management process of comparing the measured temperature with a temperature guarantee range, and transmits the result of the temperature management process to the delivery person via the RF tag reader. To the terminal device,
The goods transport environment security system, wherein the portable terminal device of the delivery member prints the result of the temperature management process on the environmental information label by the mobile printer, and installs and displays the environmental information label on the package. . 2. The goods transportation environment security system according to claim 1, wherein the RFID tag with the built-in temperature sensor is delivered via the IC package substrate with the temperature sensor including the temperature sensor and the temperature management unit, and the RF tag reader. 3. An antenna for transmitting data to a worker's portable terminal device, and a lead wire connecting the antenna with the IC package substrate with temperature sensor;
An article transportation environment security system, wherein a delivery person installs and delivers the IC package substrate with the temperature sensor to the package.   The goods transportation environment security system according to claim 2, wherein the package and the IC package substrate with the temperature sensor are stored in the delivery storage using a delivery storage, and the antenna is stored in the delivery storage. An article transportation environment security system, which is installed outside of the apparatus and communicates with the RF tag reader. 4. The goods transportation environment security system according to claim 1, wherein the RFID tag with a built-in temperature sensor sends a temperature management start instruction signal from the portable terminal device of the delivery person via the RF tag reader. 5. Upon receipt, the temperature management means measures the temperature with the temperature sensor and starts a temperature management process of comparing the measured temperature with a temperature guarantee range.   5. The goods transportation environment security system according to claim 1, wherein the portable terminal device receives the environmental temperature measured by the reference thermometer, and the portable terminal device has the built-in temperature sensor. 6. An article transportation environment assurance system, wherein the measured temperature of the RFID tag with a built-in temperature sensor is confirmed by comparing the measured temperature with the measured temperature received from the RFID tag.

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