JP2020147415A - Management system - Google Patents

Abstract

To provide a configuration capable of suppressing deterioration in reading work efficiency even when a plurality of wireless tags are collectively read so that reading omission is prevented.SOLUTION: Tag information for each transport unit grouped by a portable terminal 20 is stored in a storage part 43 of a management device 40 via a management server 50. In carrying-in processing executed by a control part 41 of the management device 40, when the tag information of the wireless tag T attached to a carried article G is read by a wireless tag reader 30, it is determined that all the articles G of the transport unit grouped in the storage part 43 related to the tag information are carried in.SELECTED DRAWING: Figure 8

Description

The present invention relates to a management system that manages an article by using a wireless tag attached to the article.

Conventionally, a method of managing the transportation status of each article by reading the information of the wireless tag attached to each of the plurality of articles by using a wireless tag reader or the like has been known. In particular, a plurality of wireless tags are collectively collected. The efficiency of management work is improved by reading the information. In the management work using such batch reading, for example, when the wireless tags attached to each of the transported articles are collectively read, some of the wireless tags are in a position where it is difficult to read depending on the transport state or the like. , Reading omission may occur.

As for a technique for suppressing reading omission when reading a plurality of wireless tags at once, for example, an ID reading device disclosed in Patent Document 1 below is known. In this ID reading device, when each item ID to be read based on the packing ID read from the packing RFID tag attached to the packing material is acquired so as to be given a reading attribute, each item ID actually read is obtained. The reading rate calculated for each reading attribute is compared with the minimum reading rate stored as a complement condition. Then, when the comparison result satisfying the complementing condition is obtained, the reading omission is suppressed by complementing the object ID that could not be actually read with the object ID to be read.

Japanese Unexamined Patent Publication No. 2008-297086

However, in a configuration such as the ID reading device of Patent Document 1 in which the object ID to be read is supplemented only when the reading rate satisfies a predetermined complement condition, the reading rate in any of the reading attributes is the lowest. If the reading rate is lower than the reading rate, another reading operation is required without complementation. Therefore, if the above complementary conditions are not properly set according to the reading work environment and the like, when the calculated reading rate becomes low, the reading work cannot be exceeded and the reading work is repeated many times. Therefore, there is a problem that work efficiency is deteriorated.

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to suppress a decrease in reading work efficiency even when a plurality of wireless tags are collectively read so as to suppress reading omission. The purpose is to provide the configuration to be obtained.

In order to achieve the above object, the invention according to claim 1 of the claims
A management system (10) that manages the plurality of articles by using the wireless tags (T) attached to each of the plurality of articles (G).
A grouping processing unit (20) that groups tag information recorded in the wireless tag into transport units in which the articles are collectively transported, and
A storage unit (43, 50) for storing the tag information for each transport unit grouped by the grouping processing unit, and a storage unit (43, 50).
A management unit (40) that manages the carry-in status of the article by using the tag information of the wireless tag, and
With
When the management unit reads the tag information of the wireless tag attached to the carried-in article, all the articles of the transport unit grouped in the storage unit with respect to the tag information are carried in. It is characterized by determining that it is present.
The reference numerals in the parentheses indicate the correspondence with the specific means described in the embodiments described later.

In the invention of claim 1, tag information for each transport unit grouped by the grouping processing unit is stored in the storage unit. Then, when the tag information of the wireless tag attached to the carried-in article is read by the management unit, it is determined that all the articles of the transport unit grouped in the storage unit with respect to the tag information are carried in. To.

As a result, in the case of articles transported in transport units grouped by the grouping processing unit, when reading each wireless tag in the transport unit at once, at least one of the wireless tags can be read, and the rest. Even if some of the wireless tags of the above cannot be read, it can be determined that all the articles of the transport unit have been carried in. Further, even when the wireless tags of a large number of articles for which the transport units are collected are read at once, all the articles of each transport unit are carried in by reading at least one wireless tag for each transport unit. Can be judged. Therefore, even if some of the wireless tags of the transport unit cannot be read during batch reading, it is not necessary to perform the reading operation again. Therefore, even when a plurality of wireless tags are collectively read so as to suppress reading omission, the reading operation is performed. The decrease in efficiency can be suppressed.

In the invention of claim 2, the grouping processing unit groups a plurality of tag information read within a certain period of time as a transport unit. As a result, when reading the tag information of each wireless tag in each transport unit for grouping, it is only necessary to leave time between the reading work related to the previous transport unit and the reading work related to the current transport unit. Since it can be grouped, it is not necessary to perform an input operation for selecting tag information to be grouped, and workability related to grouping can be improved.

In the invention of claim 3, the grouping processing unit groups a plurality of tag information read in a certain number as a transport unit. As a result, when the number of articles constituting the transport unit is predetermined by the above-mentioned fixed number, when the reading operation of reading the wireless tag attached to each article of one transport unit is completed, the next transport unit By performing a reading operation of reading the wireless tag attached to each article, it is possible to group by transport unit. That is, since it is inevitably possible to group each transport unit simply by reading the wireless tag attached to each article in each transport unit in the order of transport units, an input operation for selecting tag information to be grouped. Etc. are not required, and workability related to grouping can be improved.

In the invention of claim 4, when the transport unit information regarding the transport unit is read, the grouping processing unit reads a plurality of tag information from the previous read of the transport unit information to the current read of the transport unit information, and One of the plurality of tag information read from the reading of the current transport unit information to the next reading of the transport unit information is grouped as a transport unit in a state associated with the current transport unit information.

As a result, for example, a recording medium on which the transportation unit information is recorded is attached to an accommodation device such as a packing box used for transportation of the transportation unit, and after reading each wireless tag of the transportation unit, the transportation unit information of the recording medium is transmitted. By repeating the reading operation of reading and the reading operation of reading each wireless tag of the transport unit after reading the transport unit information of the recording medium, the tag information is grouped for each transport unit. Therefore, not only can the transportation units be accurately grouped, but also the transportation unit information and the like can be associated with the grouped tag information, so that more detailed transportation management can be performed.

It is explanatory drawing which shows the schematic structure of the management system which concerns on 1st Embodiment. FIG. 2 (A) is a block diagram illustrating the electrical configuration of the mobile terminal of FIG. 1, and FIG. 2 (B) is a block diagram illustrating the electrical configuration of the wireless tag processing unit. C) is a block diagram illustrating the electrical configuration of the information code reading unit. It is explanatory drawing which schematically exemplifies the containment device and each article housed in the containment device. It is explanatory drawing which illustrates the state which the tag information read in the transport unit and the transport unit information are associated with each other. It is a block diagram which illustrates the electrical structure of the wireless tag reader of FIG. It is a block diagram which illustrates the electrical structure of the management device of FIG. It is explanatory drawing explaining the state which reads each wireless tag at a time when the accommodating device with the wireless tag is carried by using the pallet. It is a flowchart which illustrates the flow of the carry-in process performed in the control part of a management device. It is explanatory drawing which schematically illustrates the state which the information code which recorded the transport unit information is attached to the containment device.

[First Embodiment]
Hereinafter, the first embodiment that embodies the management system according to the present invention will be described with reference to the drawings.
In the management system 10 shown in FIG. 1, when a predetermined number of articles G are collectively transported as one transport unit, each article uses a wireless tag T such as an RF tag attached to each article G. It is configured as a system for managing the transport status of G. In the present embodiment, the management system 10 includes a mobile terminal 20 arranged at the transfer source, a wireless tag reader 30 and a management device 40 arranged at the transfer destination, and a management server 50. Here, for example, the transport source is assumed to be a manufacturing company that manufactures the article G, and the transport destination is assumed to be a sales company that sells the article G.

The mobile terminal 20 arranged at the transport destination is configured as a portable information reading terminal that is carried by an operator (user) and used in various places, and is wirelessly transmitted via radio waves transmitted and received via an antenna. In addition to the function of reading and writing the information stored in the tag T, it also has the function of an information code reader that reads the information code C such as a bar code or a two-dimensional code, and has a configuration that allows reading in two ways. ..

As shown in FIG. 2A, a control unit 21 for controlling the entire mobile terminal 20 is provided in the housing of the mobile terminal 20. The control unit 21 is mainly composed of a microcomputer, has a CPU, a system bus, an input / output interface, and the like, and constitutes an information processing device together with a storage unit 22 including a semiconductor memory and the like. In the storage unit 22, a program or the like for executing the grouping process described later is executably stored in advance by the control unit 21. Further, as shown in FIG. 2A, the control unit 21 is connected to the operation unit 23, the LED 24a, the vibrator 24b, the buzzer 24c, the external interface 25, and the like.

The operation unit 23 is configured to give an operation signal to the control unit 21, and the control unit 21 receives the operation signal and performs an operation according to the content of the operation signal. Further, the LED 24a, the vibrator 24b and the buzzer 24c are configured to be controlled by the control unit 21, and each operates in response to a command from the control unit 21. The external interface 25 is configured as an interface for performing wireless communication or wired communication with an external device such as a host terminal, and is configured to perform communication processing in cooperation with the control unit 21. Further, a power supply unit (not shown) is provided in the housing, and power is supplied to the control unit 21 and various electric components by the power supply unit and the battery.

Further, the mobile terminal 20 includes a wireless tag processing unit 27 and an information code reading unit 28, which are controlled by the control unit 21 and function as an information reading unit capable of reading external information.

First, the wireless tag processing unit 27 will be described with reference to FIG. 2 (B).
The wireless tag processing unit 27 cooperates with the antenna 26 and the control unit 21 to communicate with the wireless tag T by electromagnetic waves, and reads the data stored in the wireless tag T or writes the data to the wireless tag T. It functions to do. The wireless tag processing unit 27 is configured as a circuit that transmits by a known radio wave method, and as schematically shown in FIG. 2B, a transmission circuit 27a, a reception circuit 27b, a matching circuit 27c, and the like are included. Have.

The transmission circuit 27a is composed of a carrier oscillator, a coding unit, an amplifier, a transmission unit filter, a modulation unit, and the like, and has a configuration in which a carrier (carrier wave) having a predetermined frequency is output from the carrier oscillator. Further, the coding unit is connected to the control unit 21, and the transmission data output from the control unit 21 is encoded and output to the modulation unit. The modulation unit is a part where the carrier (carrier wave) from the carrier oscillator and the transmission data from the coding unit are input, and the carrier (carrier wave) output from the carrier oscillator is coded when a command is transmitted to the communication target. An ASK (Amplitude Shift Keying) modulated signal is generated by a coded transmission code (modulated signal) output from the conversion unit and output to an amplifier. The amplifier amplifies the input signal (modulated signal modulated by the modulator) with a predetermined gain, outputs the amplified signal to the transmitter filter, and the transmitter filter filters the amplified signal from the amplifier. The transmission signal is output to the antenna 26 via the matching circuit 27c. When the transmission signal is output to the antenna 26 in this way, the transmission signal is radiated to the outside from the antenna 26 as a transmission radio wave.

On the other hand, the response signal received by the antenna 26 is input to the receiving circuit 27b via the matching circuit 27c. The receiving circuit 27b is composed of a receiving unit filter, an amplifier, a demodulation unit, a binarization processing unit, a compounding unit, and the like, and after filtering the response signal received via the antenna 26 by the receiving unit filter. , Amplifies by an amplifier, and demodulates the amplified signal by a demodulator. Then, the demodulated signal waveform is binarized by the binarization processing unit, decoded by the decoding unit, and then the decoded signal is output to the control unit 21 as received data.

Next, the information code reading unit 28 will be described with reference to FIG. 2 (C).
The information code reading unit 28 functions to optically read the information code, and as shown in FIG. 2C, an illumination unit 28a and an imaging lens 28b composed of a plurality of LEDs, lenses, and the like. It is configured to include a light receiving sensor 28c composed of a CCD area sensor and the like, and functions to read an information code C (bar code or two-dimensional code) attached to the reading target R in cooperation with the control unit 21. To do.

When reading is performed by the information code reading unit 28, first, the illumination light Lf is emitted from the illumination unit 28a commanded by the control unit 21, and the illumination light Lf is irradiated to the reading target R through the reading port. .. Then, the reflected light Lr reflected by the illumination light Lf by the information code C is taken into the housing through the reading port, and is received by the light receiving sensor 28c through the imaging lens 28b. The imaging lens 28b arranged between the reading port and the light receiving sensor 28c is configured to form an image of the information code C on the light receiving sensor 28c, and the light receiving sensor 28c is formed on the image of the information code C. Outputs the corresponding received signal. The light receiving signal output from the light receiving sensor 28c is stored in the storage unit 22 as image data, and is used in the decoding process for acquiring the information recorded in the information code C. The information code reading unit 28 is provided with an amplifier circuit that amplifies the signal from the light receiving sensor 28c, an AD conversion circuit that converts the amplified signal into a digital signal, and the like, but these circuits are not shown. Is omitted.

The mobile terminal 20 configured in this way is a tag read from a wireless tag T attached to each article G to be transported (delivered) from the transport source in transport units by a grouping process performed by the control unit 21. Group information. The tag information is a unique serial number or the like for identifying the article G to which the wireless tag T is attached. For example, as shown in FIG. 3, when a predetermined number (number of items to be transported) of articles G to be transported is stored in a storage device M such as a packing box, the tag information of the wireless tag T attached to the articles G is input. By individually reading using the function of the wireless tag processing unit 27, a plurality of tag information to be grouped in each transport unit is acquired.

As illustrated in FIG. 3, when the five articles G are housed in one storage device M as a transport unit, the tag information individually read from the five wireless tags T is as shown in FIG. Is grouped in association with information for specifying the transport unit (hereinafter, also referred to as transport unit information). Then, when the article G to be the next transport unit is accommodated in the next accommodating device M, the tag information individually read from the wireless tag T of each article G is used to specify the next transport unit. Grouped in association with the transport unit information of. In this way, the process of grouping tag information in units of transport is repeated. The mobile terminal 20 can correspond to an example of the "grouping processing unit".

In particular, in the present embodiment, the mobile terminal 20 groups a plurality of tag information read within a certain period of time as a transport unit after first reading the tag information. The fixed time is set according to the work time when the work of accommodating the article G whose tag information of the wireless tag T is read by the mobile terminal 20 is repeated for one accommodating device M for the number of conveyed items. There is. Therefore, after reading the tag information of the wireless tag T attached to the article G last stored in the previous storage device M (“10005” in the example of FIG. 4), it is first stored in the next storage device M. A predetermined time elapses before reading the tag information of the wireless tag T attached to the article G (“10006” in the example of FIG. 4), and the tag information read after the elapse of the predetermined time (in the example of FIG. 4). Except for "10006"), the tag information ("10001" to "10005" in the example of FIG. 3) read up to that point is grouped as a transport unit. That is, it is possible to group each transport unit only by leaving time between the reading work related to the previous transport unit and the reading work related to the current transport unit. In FIG. 4, the tag information "10001" to "1005" are associated with the transport unit information "2001" as the first transport unit, and the tag information "10006" to "10010" are transport as the second transport unit. The tag information "10011" to "10015" is associated with the unit information "2002" and is associated with the transport unit information "2003" as the third transport unit, and the tag information "10016" to "10016" is associated with the fourth transport unit. "10020" illustrates the state associated with the transport unit information "2004".

The tag information grouped in this way is transmitted from the mobile terminal 20 to the management server 50 at a predetermined transmission timing. The grouped tag information may be transmitted to the management server 50 via a higher-level terminal or the like that manages the mobile terminal 20 at the transport source at a predetermined transmission timing. Further, the worker is not limited to reading the tag information individually from the wireless tag T of each article G using the mobile terminal 20, for example, after accommodating the articles G for the number of transported items in the accommodation device M, each radio. The tag information of the tag T may be read all at once.

The management server 50 is configured as a cloud server for managing grouped tag information and the like, and is grouped so as to be associated with the tag information and the like (transport unit information and the like) received from the mobile terminal 20 and the like of the transport source. It has a database that stores the tagged information, etc.). The management server 50 functions to transmit the tag information and the like requested from the management device 40 to the management device 40 as described later.

Next, the wireless tag reader 30 and the management device 40 arranged at the transfer destination will be described.
The wireless tag reader 30 is composed of, for example, a known RF tag reader, and is installed at a gate provided in the transport path of the transport destination as illustrated in FIG. The wireless tag reader 30 can collectively read the tag information recorded on each of the plurality of wireless tags T by performing wireless communication with the wireless tags T attached to each of the articles G being transported. .. The wireless tag reader 30 is configured to output information or the like read from each wireless tag T to the management device 40.

The hardware configuration of the wireless tag reader 30 is as shown in FIG. 5, and includes a control unit 31, a memory 32, a wireless tag processing unit 33, an antenna 34, an external interface 35, and the like. The control unit 31 is mainly composed of a microcomputer, has a CPU, a system bus, an input / output interface, and the like, and constitutes an information processing device together with a memory 32 composed of a semiconductor memory and the like.

Further, the wireless tag processing unit 33 functions like the wireless tag processing unit 27 described above to read the data stored in the wireless tag T or write the data to the wireless tag T. The wireless tag processing unit 33 is configured to have a transmission circuit 33a, a reception circuit 33b, a matching circuit 33c, etc. that function in the same manner as the transmission circuit 27a, the reception circuit 27b, the matching circuit 27c, etc. of the wireless tag processing unit 27. ing.

Further, the external interface 35 is configured as an interface for performing data communication with an external device such as the management device 40, and is configured to perform communication processing in cooperation with the control unit 31.

In the wireless tag reader 30 configured in this way, each time the pallet P loaded with one or more accommodating instruments M passes through the gate according to the reading process performed by the control unit 31, the accommodating instrument M is contained. The wireless tag T attached to each article G is collectively read by using the wireless tag processing unit 33. Then, the tag information collectively read in this way is transmitted to the management device 40 as the batch read information via the external interface 35.

Next, the configuration of the management device 40 will be described.
The management device 40 is a device that manages the carry-in status of the article G that has passed through the gate by using the batch reading information or the like received from the wireless tag reader 30 provided at the gate. The management device 40 is configured as, for example, a computer, and as shown in FIG. 6, a control unit 41 composed of a CPU or the like, a display unit 42 composed of a liquid crystal monitor or the like, a storage unit 43 composed of a ROM, RAM, HDD or the like, It includes an operation unit 44 configured as a mouse, a keyboard, and the like, and a communication unit 45 configured as a communication interface for performing data communication with an external device such as a wireless tag reader 30 and a management server 50. The management device 40 can correspond to an example of the “management unit”.

In the management device 40 configured in this way, the carry-in process performed by the control unit 41 performs a process for identifying the carry-in article G by using the batch reading information and the like received from the wireless tag reader 30. To. In particular, in the present embodiment, tag information and transport unit information regarding the article G to be carried in are stored in the storage unit 43 by being acquired in advance as carry-in information from the management server 50, and this carry-in information is used. Therefore, even if a reading omission occurs during batch reading by the wireless tag reader 30, the reading omission is supplemented.

Here, the reason for supplementing the read omission portion by using the carry-in information as described above will be described with reference to FIG. 7.
For example, by attaching a wireless tag to each of the containment devices M and reading each wireless tag at once, it can be determined that the article G housed in each of the containment devices M has been carried in. On the other hand, as illustrated in FIG. 7, when four accommodating devices M1 to M4 are loaded on the pallet P transported by the forklift, the wireless tag Tm1 attached to the accommodating devices M1 to M3 depends on the loading method. Even if ~ Tm3 can be read collectively by the wireless tag reader 30, the wireless tag Tm4 at a position difficult to read with respect to the wireless tag reader 30 may not be read.

In such a case, it is necessary to move the forklift so that the wireless tag reader 30 can read the wireless tag Tm4, which causes a problem that the reading work efficiency is lowered.

Therefore, in the present embodiment, even if a reading omission occurs during batch reading by the wireless tag reader 30, the management server 50 determines the reading omission in order to suppress a decrease in reading work efficiency by eliminating the need for re-reading. Complement using the carry-in information obtained from.

Hereinafter, the carry-in process performed by the control unit 41 each time the batch read information is received from the wireless tag reader 30 will be described in detail with reference to the flowchart shown in FIG. It should be noted that the four accommodating devices M1 to M4 corresponding to the transport unit illustrated in FIG. 4 pass through the gate provided with the wireless tag reader 30 in a state of being mounted on the pallet P, and are collectively used by the wireless tag reader 30. An example will be described in which the tag information “10001” to “10019” is read at the time of reading, but the tag information “10020” is not read.

When the batch read information is received from the wireless tag reader 30 via the communication unit 45, the control unit 41 starts the carry-in process, and first, the search process shown in step S101 of FIG. 8 is performed. In this process, the carry-in information stored in the storage unit 43 is used to search for the transport unit information associated with the tag information included in the received batch read information, and is associated with the searched transport unit information. All tag information is searched.

As described above, since the four accommodating devices M1 to M4 have passed through the gate, the batch reading information received from the wireless tag reader 30 is stored in the storage unit 43 as tag information "10001" to "10019". In the carry-in information, the transport unit information "2001" to "2004" associated with these tag information is searched. Then, the tag information "10001" to "10020" associated with the transport unit information "2001" to "2004" searched as described above in the carry-in information is searched.

Next, in the determination process of step S103, it is determined whether or not the tag information searched as described above and the tag information (batch read information) received from the wireless tag reader 30 match. When the tag information "10020" is not read as described above, the tag information "10020" is insufficient for the search information in the batch read information (insufficient tag information), and the search information and the batch read information Does not match, so it is determined as No in step S103, and the complementary process shown in step S105 is performed. In this process, the batch read information is complemented so as to include the above-mentioned insufficient tag information.

Then, in the registration process of step S107, it is determined that the articles G corresponding to the tag information "10001" to "10020", which are the complemented batch reading information, have been imported, and the import of these articles G is registered. Will be done. If there is no omission in reading at the time of batch reading by the wireless tag reader 30, the search information and the batch reading information match (Yes in S103), so that the supplementary process is not performed and the registration process is performed. Then, the import of the article G corresponding to the batch read information is registered.

By this carry-in process, for example, regarding the transport unit information "2001", even if only the tag information "10001" is read and the remaining tag information "10002" to "10005" are not read, the tag information "10001" is read. The transport unit information "2001" is searched for, and the tag information "10001" to "10005" are searched from the transport unit information "2001". Then, the tag information "10002" to "10005" are complemented as the insufficient tag information so as to include the insufficient tag information in the batch read information. That is, when the tag information of the wireless tag T attached to the carried-in article G is read by the wireless tag reader 30, all the articles G of the transport units grouped in the storage unit 43 with respect to the tag information are carried in. It is judged that it is.

As described above, in the management system 10 according to the present embodiment, the tag information for each transport unit grouped by the mobile terminal 20 functioning as the grouping processing unit is stored in the management device 40 via the management server 50. It is stored in the part 43. Then, in the carry-in process performed by the control unit 41 of the management device 40, when the tag information of the wireless tag T attached to the carried-in article G is read by the wireless tag reader 30, the storage unit 43 regarding the tag information. It is determined that all the articles G of the grouped transport units have been carried in.

As a result, in the case of the article G transported in the transport unit grouped by the mobile terminal 20, at least one of the wireless tags T can be read when reading each wireless tag T in the transport unit at once. Even if the remaining part of the wireless tag T cannot be read, it can be determined that all the articles of the transport unit have been carried in. Further, even when the wireless tags T of a large number of articles G in which the transport units are collected are read at once, at least one wireless tag T can be read in each transport unit, so that all the articles in each transport unit are carried in. It can be judged that it has been done. Therefore, even if a part of the wireless tags T of the transport unit cannot be read at the time of batch reading, it is not necessary to perform the reading operation again. Therefore, even when a plurality of wireless tags T are collectively read so as to suppress reading omission. It is possible to suppress a decrease in reading work efficiency.

In particular, in the mobile terminal 20, a plurality of tag information read within a certain period of time is grouped as a transport unit. As a result, when reading the tag information of each wireless tag T in each transport unit for grouping, it is only necessary to leave time between the reading work related to the previous transport unit and the reading work related to the current transport unit for each transport unit. Since grouping is possible, it is not necessary to perform an input operation for selecting tag information to be grouped, and workability related to grouping can be improved.

As a first modification of the present embodiment, in the mobile terminal 20, a plurality of tag information read in a certain number may be grouped as a transport unit. As a result, when the number of articles G constituting the transport unit is predetermined by the above-mentioned fixed number, when the reading operation of reading the wireless tag T attached to each article G of one transport unit is completed, the next By performing a reading operation of reading the wireless tag T attached to each article G of the transport unit, the group can be grouped for each transport unit. That is, since it is inevitably possible to group each transport unit simply by reading the wireless tag T attached to each article G of each transport unit in the order of transport units, it is possible to select the tag information to be grouped. No input operation is required, and workability related to grouping can be improved.

As a second modification of the present embodiment, as shown in FIG. 9, an information code Cm recording transport unit information is attached to the accommodation device M, and the information code attached to the accommodation device M is attached to the mobile terminal 20. By reading Cm using the information code reading unit 28, the tag information read by using the wireless tag processing unit 27 may be grouped as a transport unit in a state associated with the transport unit information. Specifically, for example, by reading the radio tag T attached to the article G housed in the storage device M and then reading the information code Cm attached to the storage device M, the information code Cm can be read. The tag information read from the wireless tag T may be grouped as a transport unit in a state of being associated with the transport unit information. Further, after reading the information code Cm attached to the accommodation device M, the article G whose wireless tag T is read is stored in the accommodation device M, so that the next information code Cm can be obtained from the reading of the information code Cm this time. The tag information read from the wireless tag T by the time of reading may be grouped as a transport unit in a state associated with the transport unit information of this time.

That is, in the second modification of the present embodiment, when the transport unit information regarding the transport unit is read in the mobile terminal 20, a plurality of tags read from the previous reading of the transport unit information to the reading of the current transport unit information. The information and one of the plurality of tag information read from the reading of the current transport unit information to the next reading of the transport unit information are grouped as a transport unit in a state associated with the current transport unit information.

As a result, the reading operation of reading the transfer unit information of the information code Cm after reading each wireless tag T of the transfer unit and the reading operation of reading each wireless tag T of the transfer unit after reading the transfer unit information of the information code Cm are repeated. As a result, tag information is grouped for each transport unit. Therefore, not only can the transportation units be accurately grouped, but also the transportation unit information and the like can be associated with the grouped tag information, so that more detailed transportation management can be performed.

The transport unit information is not limited to being recorded in the information code Cm attached to the accommodation device M, but is not limited to being recorded in another recording medium attached to the accommodation device M, for example, a wireless tag attached to the article G. It may be recorded on another distinguishable wireless tag, or may be recorded on an information code displayed on a work instruction sheet or the like at the time of delivery.

[Other Embodiments]
The present invention is not limited to the above-described embodiment and modifications, and may be embodied as follows, for example.
(1) Each article G is not limited to being transported as a transport unit by being accommodated in a predetermined number of storage devices M such as a packing box, but is transported as a transport unit by being directly loaded on a pallet or the like, for example. May be done.

(2) The management device 40 is not limited to acquiring the carry-in information from the management server 50, and may, for example, acquire the carry-in information from a higher-level terminal or the like at the transport source that manages the mobile terminal 20.

(3) The present invention is not limited to being adopted in a management system in which a manufacturing company that manufactures article G is a transport source and a sales company that sells article G is a transport destination, for example, between factories of the same company or manufacturing. It may be adopted in a management system for transporting goods between lines.

10 ... Management system 20 ... Mobile terminal (grouping processing unit)
30 ... Reading device 40 ... Management device (Management unit)
41 ... Control unit 43 ... Storage unit 50 ... Management server G ... Articles M, M1 to M4 ... Containment equipment T ... Wireless tag

Claims (4)

A management system that manages the plurality of articles by using wireless tags attached to each of the plurality of articles.
A grouping processing unit that groups tag information recorded in the wireless tag into transport units in which the articles are collectively transported.
A storage unit that stores the tag information for each transport unit grouped by the grouping processing unit, and a storage unit.
A management unit that manages the delivery status of the article by using the tag information of the wireless tag, and
With
When the management unit reads the tag information of the wireless tag attached to the carried-in article, all the articles of the transport unit grouped in the storage unit with respect to the tag information are carried in. A management system characterized by determining that there is. The management system according to claim 1, wherein the grouping processing unit groups a plurality of the tag information read within a certain period of time as the transport unit. The management system according to claim 1, wherein the grouping processing unit groups a plurality of the tag information read in a certain number as the transport unit. When the transport unit information related to the transport unit is read, the grouping processing unit reads the plurality of tag information read from the previous reading of the transport unit information to the reading of the current transport unit information, and the current transport unit. A claim characterized in that any one of the plurality of tag information read from the reading of the information to the next reading of the transport unit information is grouped as the transport unit in a state associated with the current transport unit information. Item 1. The management system according to item 1.

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