JP2004257655A - Information management system, distribution system, information acquiring device, and information management device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information management system, a distribution device, an information acquiring device, and an information management device capable of transmitting information at low cost and reducing load on work in the transmission of information when the information on distributed articles is transmitted. <P>SOLUTION: This information management system monitoring the information on the articles 30 distributed by a cold insulated storage 1 driven with electric power comprises the information acquiring device 10 and the information management device 10. The information acquiring device 10 is installed in the cold insulated storage 1 for which electric power distribution is performed by using a lamp cable 80, and acquires the information on the articles 30. The information management device 102 manages the information on the articles 30. The information acquiring device 10 transmits the information to the information management device 102 through the same lamp cable 80 as the lamp cable 80 distributing electric power to the cold insulated storage 1. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an information management system, a delivery device, an information acquisition device, and an information management device.
[0002]
[Prior art]
Articles such as fresh foods that need to be transported and delivered while maintaining a low temperature are usually loaded on a vehicle called an insulated car having an insulating effect to perform distribution. In such an insulated vehicle, the temperature is maintained by a refrigerator or the like, but at present the temperature is not sufficiently controlled. Some insulated trucks have a temperature recorder installed inside so that the temperature history can be checked afterwards.However, since temperature information is not monitored in real time, temperature rises that may affect the items inside may be affected. It cannot be prevented. In addition, even if the door of the insulated car is left open or a breakdown has occurred, it may be overlooked if the crew such as the driver is not careful, and the internal temperature rises and eventually damages the goods. May lead to
[0003]
In addition, inspections of supply destinations and items to be delivered rely on humans. Mistakes in contact with the store clerk and the store clerk tend to leave delivery items, etc., and cause logistics loss.
In order to solve such problems in the conventional physical distribution cycle, the applicant of the present application has proposed a method for distributing goods, such as frozen foods, which need to be maintained at a particularly low temperature. We have already developed and applied for a system that monitors the state of the cool box and performs safety management of the goods stored inside, analysis of management information during the distribution cycle, etc. 1).
[0004]
According to such a system, it is possible to prevent deterioration of freshness, erroneous distribution, and the like, and to realize a safe and reliable logistics.
[0005]
[Patent Document 1]
JP-A-2002-333263 (page 214, FIG. 4)
[0006]
[Problems to be solved by the invention]
By the way, in the system as described above, the logistics cycle is mainly performed by a supply source, a supply destination that is stored in a cool box or the like, and to which a delivery is supplied from the supply source, and a vehicle that transports the cool box between them. Is configured. That is, the cold storage shipped from the supply source is delivered to each supply destination by the vehicle, and thereafter, the cold storage collected at each supply destination is collected again by the vehicle at the supply source. This cool box is driven by a battery, and cold storage and charging are performed at each supply source. The cold storage, which has been cold-stored and charged, is driven by a battery, whereby articles requiring low-temperature maintenance are transported.
[0007]
In this system, information such as the state of the cool box at the time of delivery, and the state of the cool box at the time of delivery and at the destination is recorded in the recording unit, and the safety of the delivered goods is managed. The information recorded in this manner is read out at each supply source, and safety management by determining the expiration date for each article, analysis of management information during a distribution cycle, and the like are performed.
[0008]
However, each time the information is read from the storage unit at the supply source, a connection work between the storage unit and the terminal device of the supply source is required, which is complicated. Further, even when the information in the storage unit is stored in a recording medium and the information is read out through the recording medium, the operation of taking out the recording medium from the storage unit and setting the same in the terminal device or the like of the supply source is not required. Necessary and cumbersome as well. In addition, it is possible to wirelessly transmit the information in the storage unit using a public line, but a communication fee is required and a management cost is required. Further, in the case of short-range wireless communication, a communicable distance is limited. Further, when many cool boxes are collected at the same time at the supply source, communication between all of these storage units and the terminal device or the like at the supply source becomes crowded, and there is a possibility that communication may be interrupted or required for communication. There is a risk that time will increase.
[0009]
The present invention has been made in view of the above circumstances, and an object of the present invention is to transmit information on articles to be distributed at a low cost and to reduce a work load in transmitting the information. An object of the present invention is to provide an information management system, a delivery device, an information acquisition device, and an information management device that can be reduced.
[0010]
[Means for Solving the Problems]
An information management system according to a first aspect is an information management system that monitors information about an article delivered along with a delivery device driven by electric power, and includes an information acquisition unit and an information management unit. The delivery device refers to, for example, a device driven by electric power, such as a temperature controller capable of cooling and maintaining the temperature of an article, and a humidity controller capable of humidifying, dehumidifying, or retaining moisture. The delivery mode of the articles here includes a case where the articles are stored in the delivery apparatus and delivered, a case where the articles are arranged around the delivery apparatus and delivered together, and the like. The information acquisition unit is provided in a distribution device that performs power distribution using a power line, and acquires information about an article. The information on the article includes, for example, temperature information, humidity information, and information on the elapsed time since the article was manufactured. The information management unit manages information on articles. The power line here refers to a wiring or the like that supplies power to the delivery device or the like when connected to the delivery device or the like. Therefore, for example, by connecting an electric plug or the like connected to the electric wiring of the delivery device to an electric outlet or the like of a light line to connect the delivery device and the light line to the delivery device, Power distribution will take place. Then, the information acquisition unit transmits information to the information management unit via the same light line as the one to which power is distributed to the delivery device.
[0011]
In such a system, information such as temperature information during the delivery of an article is managed by storing the article to be delivered in a delivery device such as a cool box that is driven by electric power. Each time the information acquisition unit that has acquired the information on the delivered goods transmits the information to the information management unit, it is necessary to directly connect the information acquisition unit and the terminal device of the information management unit to each other. In such a case, the transmission work becomes complicated. Further, even in the case of transmitting information via a recording medium, it is necessary to take out the recording medium from the information acquisition unit and set it on a terminal device or the like of the information management unit. In addition, it is possible to wirelessly transmit the information of the information acquisition unit using a public line, but a transmission fee is required and thus a management cost is required.
[0012]
However, in the information management system according to the first aspect, the information acquisition unit transmits information to the information management unit via the same power line as the power line to which power is distributed to the distribution device. Since the delivery device here is driven by the supply of electric power, it needs to supply electric power from a power line. Therefore, the work of connecting the delivery device to the power line in order to receive the supply of electric power is always performed, and the work of connecting the delivery device to the power line is not particularly required separately. In the information management unit, wiring facilities for power lines are usually provided, and it is often unnecessary to newly provide a communication line. For this reason, the information acquisition unit provided in the delivery device can transmit information to the information management unit via the power line by the usual connection work between the delivery device and the power line. For this reason, the transmission of information using the power line that distributes power to the delivery device can reduce the work load required for transmission as compared with the transmission of information via a recording medium or the like. . In addition, when performing wireless transmission, a transmission fee is required and running costs are incurred. However, when performing transmission using such a power line, the transmission fee is not particularly incurred and is inexpensive.
[0013]
As described above, here, the information acquisition unit can transmit information about the article to the information management unit through the normally required operation of power distribution to the distribution device using a power line. . For this reason, in the information management system here, when transmitting information on articles to be distributed, it is possible to transmit information from the information acquisition unit to the information management unit at low cost, and to perform the operation when transmitting this information. The burden can be reduced.
[0014]
An information management system according to a second aspect is the information management system according to the first aspect, wherein the information acquisition unit includes a storage unit that stores information about the article. Here, the history information of the article can be obtained by the storage means of the information obtaining unit. For this reason, the information acquisition unit can transmit the history information of the article to the information management unit. Therefore, here, it is possible to manage the articles to be delivered based on the history information of the articles.
[0015]
An information management system according to a third aspect is the information management system according to the first or second aspect, wherein the power line is connectable to a battery included in the delivery device, and performs power distribution to the battery.
Here, the power line distributes power to the battery included in the delivery device. Therefore, the battery can be charged. Thus, in the information management system according to the third aspect, the delivery device can be driven by the charged battery.
[0016]
An information management system according to a fourth aspect is the information management system according to any one of the first to third aspects, wherein the power line cools a regenerator for keeping the internal temperature of the delivery device low. It can be connected to the means. And this electric wire performs power distribution to the cooling means.
Here, when the cooling means is connected to the power line, power is supplied to the cooling means via the power line. Thus, the cooling means can be driven, and the regenerator can be pre-cooled by driving the cooling means. Therefore, here, the temperature inside the delivery device can be maintained at a low temperature.
[0017]
An information management system according to a fifth aspect is the information management system according to any one of the first to fourth aspects, wherein the information acquisition unit includes a sensor that measures information inside the delivery device. The information inside the delivery device here includes, for example, temperature information and humidity information inside the delivery device, or information on opening / closing status of the door when the delivery device has a door.
[0018]
Here, since the information acquisition unit has a sensor that measures information inside the delivery device, it is possible to measure information inside the delivery device. This makes it possible to acquire information on the state of the conveyed articles and the like, and enables the information management unit to manage information based on information obtained from such sensors. become.
[0019]
For example, if the sensor that measures the information inside the delivery device is a temperature sensor, the information management unit can manage the temperature of the article based on the temperature information obtained from the temperature sensor.
An information management system according to claim 6 is the information management system according to any one of claims 1 to 5, wherein the information management unit transmits information to the information acquisition unit via a power line.
[0020]
Here, the information management unit can transmit information to the information acquisition unit via a power line. For this reason, information transmission can be made bidirectional between the information acquisition unit and the information management unit. For example, in the communication using a power line here, the information acquisition unit may transmit information to the information management unit via the power line in response to a request from the information management unit.
[0021]
An information management system according to a seventh aspect is the information management system according to the fourth aspect, wherein the information acquisition unit and the information management unit have a power line communication unit for connecting to a power line. As the power line communication means referred to here, for example, a power line connection device composed of electric wiring, an electric plug and the like can be mentioned.
Here, since the information acquisition unit and the information management unit have a power line communication unit that can be connected to the power line, even the place where the power line is arranged and can be connected to the power line is used. For example, each power line communication means can be connected to the power line, and information can be transmitted to each other. Therefore, the degree of freedom of a place where information can be transmitted to each other can be improved.
[0022]
An information management system according to an eighth aspect is the information management system according to any one of the first to seventh aspects, further comprising a wireless transmission unit. The wireless transmission unit is connected to the information acquisition unit and can wirelessly transmit information to the information management unit. The transmission of the information to the information management unit can be performed so that one of a case where the information acquisition unit performs the transmission via a power line and a case where the wireless transmission unit performs the transmission wirelessly can be selected.
[0023]
Here, the information management system further includes a wireless transmission unit capable of wirelessly transmitting information to the information management unit, so that information transmission to the information management unit is performed from the information acquisition unit via a power line. A method of transmitting to the information management unit and a method of transmitting to the information management unit wirelessly from the wireless transmission unit can be selectively adopted. Thereby, the degree of freedom of the method of transmitting information to the information management unit can be increased.
[0024]
For example, in a case where information transmission is performed to the information management unit at an earlier point in time than when the information acquisition unit is connected by a power line, the wireless transmission of information by the wireless transmission unit may be effective. .
An information management system according to claim 9 is the information management system according to any one of claims 1 to 8, wherein the information acquisition unit detects whether or not the delivery device is receiving power distribution from a power line. Power supply detecting means for performing the operation.
[0025]
Here, the information acquisition unit has a power detection unit, and the power detection unit can detect its own power distribution status. Therefore, if the information acquisition unit determines that power distribution from the power line is being performed to itself based on the detection result of the power supply detection unit, the information acquisition unit determines that information can be transmitted to the information management unit. If it is determined that power distribution from the power line is not performed for itself based on the detection result of the power supply detection means, it is determined that transmission of information to the information management unit is impossible. Will be able to Therefore, the information acquisition unit can recognize when information can be transmitted to the information management unit.
[0026]
An information management system according to a tenth aspect is the information management system according to any one of the first to ninth aspects, wherein the information management unit is installed in an article delivery source that loads articles to be delivered to the delivery device. ing. The article transporter here is a place where the transported articles are collected and loaded into the inside of the delivery device.
Here, since the information management unit is installed at the article transport source, the information acquisition unit transmits the information to the information management unit via the power line at the same place where the articles to be transported are loaded. Will be able to do it. Therefore, it is possible to transmit information to the information management unit while loading the articles, and it is possible to more smoothly perform the distribution of the articles.
[0027]
In this way, for example, at the article supplier that loads the articles, the storage information such as the place of origin of the articles and the importing time is held, and when the articles are loaded, the storage information of such articles is also transmitted from the information management unit. By transmitting information to the acquisition unit, it becomes possible to perform more detailed article information management.
A delivery device according to claim 11, which is a delivery device that delivers an article to be managed by the information management device, and is driven by being supplied with electric power by being connected to a power line. And an information acquisition unit. Here, the delivery device refers to, for example, a device driven by electric power, such as a temperature controller capable of cooling and keeping heat of an article, a humidity controller capable of humidifying, dehumidifying, or keeping moisture. The delivery mode of the articles here includes a case where the articles are stored in the delivery apparatus and delivered, a case where the articles are arranged around the delivery apparatus and delivered together, and the like. The power line here refers to a wiring or the like that supplies power to the delivery device or the like when connected to the delivery device or the like. Therefore, for example, by connecting an electric plug or the like connected to the electric wiring of the delivery device to an electric outlet or the like of a light line to connect the delivery device and the light line to the delivery device, Power distribution will take place. The main body has an internal space in which articles can be stored. The information acquisition unit here is provided in the main body, and acquires information on an article to be delivered. The information on the article includes, for example, temperature information, humidity information, and information on the elapsed time since the article was manufactured. And this information acquisition part transmits information to an information management device via a power line.
[0028]
In such a power-driven delivery device, an article is stored in an internal space when the article is delivered, but information about the delivered article, such as temperature information of the article during transportation, is obtained. Then, the information acquisition unit that has acquired the information of the article to be delivered transmits the information to the information management device. In this case, if it is necessary to connect the information acquisition unit and the terminal device of the information management apparatus directly to each other, the transmission work becomes complicated. Further, even in the case of transmitting information via a recording medium, it is necessary to take out the recording medium from the information acquisition unit and set it on a terminal device or the like of the information management apparatus, which is similarly complicated. In addition, it is possible to wirelessly transmit the information of the information acquisition unit using a public line, but a transmission fee is required and thus a management cost is required.
[0029]
However, in the delivery device according to the eleventh aspect, the information acquisition unit provided in the main body of the delivery device manages information by using the same light line as the power line to which power is distributed to the delivery device. Transmits information to the device. Since the delivery device here is driven by the supply of electric power, it needs to supply electric power from a power line. Therefore, the work of connecting the delivery device to the power line in order to receive the supply of electric power is always performed, and the work of connecting the delivery device to the power line is not particularly required separately. In addition, in the information management apparatus, wiring facilities for power lines are usually provided, and it is often unnecessary to newly provide a communication line. For this reason, the information acquisition unit provided in the delivery device can transmit information to the information management device via the power line by the usual connection work between the delivery device and the power line. For this reason, the transmission of information using the power line that distributes power to the delivery device can reduce the work load required for transmission as compared with the transmission of information via a recording medium or the like. . In addition, when performing wireless transmission, a transmission fee is required and running costs are incurred. However, when performing transmission using such a power line, the transmission fee is not particularly incurred and is inexpensive.
[0030]
As described above, here, the information acquisition unit provided in the main body of the delivery device transmits the information about the article to the information management device through the normally required operation of power distribution to the delivery device using a power line. Be able to communicate. For this reason, in the delivery device here, when transmitting information on articles to be distributed, the information can be transmitted from the information acquisition unit to the information management device at low cost, and the work load when transmitting this information is low. Can be reduced.
[0031]
The information acquisition device according to claim 12, which is provided in a delivery device that is driven by receiving power supply from a power line, is delivered with the delivery device, and stores information about an article to be managed by the information management device. An information acquisition device for acquiring the information, comprising: an acquisition device communication unit; and an information transmission unit. Here, the delivery device refers to, for example, a device driven by electric power, such as a temperature controller capable of cooling and keeping heat of an article, a humidity controller capable of humidifying, dehumidifying, or keeping moisture. The delivery mode of the articles here includes a case where the articles are stored in the delivery apparatus and delivered, a case where the articles are arranged around the delivery apparatus and delivered together, and the like. The power line here refers to a wiring or the like that supplies power to the delivery device or the like when connected to the delivery device or the like. Therefore, for example, by connecting an electric plug or the like connected to the electric wiring of the delivery device to an electric outlet or the like of a light line to connect the delivery device and the light line to the delivery device, Power distribution will take place. The acquisition device communication means is connected to the power line and transmits power. The information transmission unit is connected to the acquisition device communication unit, and acquires information about the article. The information on the article includes, for example, temperature information, humidity information, and information on the elapsed time since the article was manufactured. Then, the information transmitting unit transmits information to the information management device via the acquisition device communication unit and the power line.
[0032]
In such an information acquisition device, the information transmission unit acquires information on the article such as temperature information during the delivery of the article. Each time the information transmitting unit that has acquired the information on the delivered goods transmits the information to the information management device, the connection work between the information transmitting unit of the information acquiring device and the terminal device or the like of the information management device is performed each time. If it is necessary, the transmission work becomes complicated. Further, even in the case of transmitting information via a recording medium, it is necessary to take out the recording medium from the information transmitting unit and set it on a terminal device or the like of the information management apparatus, which is similarly complicated. In addition, it is possible to wirelessly transmit the information of the information transmitting unit using a public line, but a management fee is required because a transmission fee is required.
[0033]
However, in the information acquisition device according to the twelfth aspect, the information transmission unit is connected to the acquisition device communication unit. The acquisition device communication unit is connected to a power line that is supplied with power to drive the entire information acquisition device with power. Accordingly, the information transmitting unit transmits information to the information management device via the acquisition device communication unit and the power line. Since the information acquisition device here is driven by power supply, it requires power supply from a power line. Therefore, the work of connecting the information acquisition device to the power line in order to receive the supply of power is always performed, and the work of connecting the information acquisition unit and the power line is not separately required. Further, in the information management apparatus, wiring facilities for power lines are usually provided, and it is not necessary to newly provide a communication line. For this reason, the information transmission unit provided in the information acquisition device can transmit information to the information management device via the power line by a normal connection work between the information management device and the power line. Become. Therefore, transmission of information using a power line that distributes power to the information transmission unit can reduce the work load required for transmission compared to transmission of information via a recording medium or the like. Become. In addition, when performing wireless transmission, a transmission fee is required and running costs are incurred. However, when performing transmission using such a power line, the transmission fee is not particularly incurred and is inexpensive.
[0034]
As described above, here, the information transmission unit of the information acquisition device transmits the information about the article to the information management device through the normally required operation of power distribution to the information acquisition device using a power line. Will be able to For this reason, when transmitting information on articles to be distributed, it is possible to transmit information from the information acquisition device to the information management device at low cost, and it is possible to reduce the work load in transmitting this information. Become.
[0035]
An information management device according to a thirteenth aspect collects information from an information acquisition device that acquires information about an article delivered with a delivery device that is driven by receiving power supply from a power line. An information management device includes a management device communication unit and an information collection unit. Here, the delivery device refers to, for example, a device driven by electric power, such as a temperature controller capable of cooling and keeping heat of an article, a humidity controller capable of humidifying, dehumidifying, or keeping moisture. The delivery mode of the articles here includes a case where the articles are stored in the delivery apparatus and delivered, a case where the articles are arranged around the delivery apparatus and delivered together, and the like. The power line here refers to a wiring or the like that supplies power to the delivery device or the like when connected to the delivery device or the like. Therefore, for example, by connecting an electric plug or the like connected to the electric wiring of the delivery device to an electric outlet or the like of a light line to connect the delivery device and the light line to the delivery device, Power distribution will take place. The management device communication unit is connected to the power line and transmits power. The information collection unit is connected to the management device communication unit, and collects information from the information acquisition device via the power line and the management device communication unit. The information on the article includes, for example, temperature information, humidity information, and information on the elapsed time since the article was manufactured. The information management power supply unit is connected to a power line and receives power supply.
[0036]
In such an information management device, information such as temperature information is managed during the delivery of articles stored and delivered in a delivery device such as a power-driven cool box. When an information acquisition device that acquires information on an item to be delivered transmits information to an information management device, it is necessary to connect the information acquisition device to a terminal device of the information management device each time. However, the transmission work becomes complicated. Further, even in the case of transmitting information via a recording medium, it is necessary to take out the recording medium from the information acquisition device and set it on a terminal device or the like of the information management device, which is similarly complicated. In addition, it is possible to transmit the information of the information acquisition device wirelessly using a public line, but a management fee is required because a transmission fee is required.
[0037]
However, in the information management device according to the thirteenth aspect, the information collection unit is connected to the management device communication unit. The management device communication unit is connected to a power line that receives power to drive the entire information management device. Thus, the information collection unit can obtain information from the information acquisition device via the management device communication unit and the power line.
Since the information management device here is driven by power supply, it requires power supply from a power line. Therefore, the work of connecting the information management device to the power line in order to receive the supply of power is always performed, and the work of connecting the information management device to the power line is not separately required. In addition, an operation of supplying power to a power-driven delivery device is usually required for an information acquisition device of the delivery device. For this reason, the information collection unit of the information management device collects information from the information acquisition device provided in the delivery device via the power line by a normal connection work between the information management device and the power line. Becomes possible. Therefore, collecting information using a power line that distributes power to the information collection device can reduce the work load required for transmission compared to collecting information via a recording medium or the like. Become. In addition, when performing wireless transmission, a transmission fee is required and running costs are incurred. However, when performing transmission using such a power line, the transmission fee is not particularly incurred and is inexpensive.
[0038]
As described above, the information collection unit of the information management device can collect information on the article from the information acquisition device through the normally required operation of power distribution to the information management device using the power line. Become like For this reason, when transmitting information about articles to be distributed, the information management device can collect information from the information acquisition device at low cost and reduce the work load when collecting this information. It becomes.
[0039]
BEST MODE FOR CARRYING OUT THE INVENTION
[Outline of physical distribution in the present embodiment]
In the physical distribution according to the present embodiment, the articles 30 are stored in the cool box 1 and loaded in the container 302 of the transport vehicle 301 (FIG. 4), and are directed from the supply source Camisary 101 to the supply destination store 201. It is transported (FIG. 5). When the transport vehicle 301 arrives at the store 201, the cool box 1 to be delivered to the store 201 is selected and dropped from the transport vehicle 301. Then, in the store 201, when the articles 30 stored in the cool box 1 are consumed or when a certain contract ends, the cool box 1 is collected. The collection is performed by loading the cool box 1 on the transport vehicle 301 and transporting the cool box 1 from the store 201 to the camisary 101.
[0040]
In such a physical distribution, the storage unit 15 provided in the cool box 1 records information such as temperature information on the articles 30 at each stage when the articles 30 are shipped, transported, and received. Then, the collected cold storage 1 transmits the information stored in the storage unit 15 to the camisary 101 or the like by performing communication via the power line 80. The communication via the power line 80 is to perform communication using the power line 80 that supplies AC power without using a network cable. In addition, by performing wireless communication using the cold storage wireless communication unit 26 provided in the cold storage 1, it is also possible to transmit to the store 201, the camisary 101, and the like. Then, based on the information stored in the storage unit 15, the information management of the physical distribution system is performed in the camisary 101 and the information management center 401.
[0041]
Hereinafter, details of each configuration in the present embodiment will be described.
(Insulated box)
The cool box 1 stores therein articles that need to maintain a low temperature during transportation and storage of foods and the like, and is delivered to a supply destination such as the store 201 with the articles stored therein. One example is shown in FIGS.
[0042]
As shown in FIG. 1, the cool box 1 includes a main body 2, a door 3 attached to the front surface of the main body 2 so as to be openable and closable, and a moving caster unit 4 attached to a lower surface of the main body 2. The main body 2 is made of a highly heat-insulating material, and is configured such that when the door 3 is closed, the inside maintains an airtight state. In addition, the cool box 1 includes a display panel 5 having a display unit, operation buttons, and the like for displaying various or more information on failures, and the like, and a power receptacle 6 for receiving power supply.
[0043]
Further, as shown in FIG. 2, the main body 2 includes a storage space 7 for storing articles therein. The main body 2 is provided with a regenerator 8 for maintaining the inside of the storage space 7 at a low temperature. Above the storage space 7, a compressor 9 for cooling the regenerator 8 and an information acquisition device 10 for controlling each part are provided.
[0044]
The power receptacle 6 is provided in the information acquisition device 10, and is connected to a power line 80 provided in the camisary 101 (primary processing factory) serving as a supply source and the store 201 serving as a supply destination. Then, the power line 80 supplies power to the compressor 9 and charges the battery 20 connected to the information acquisition device 10.
[0045]
The information acquisition device 10 has a configuration as shown in FIG.
The information acquisition device 10 performs various controls in accordance with a program operated by a CPU, which is a microprocessor, a ROM for storing basic control programs, and a RAM for temporarily storing various parameters. The information acquisition device 10 includes data of the articles input in the camisary 101 and data related to the supply destination 201 (refrigerator box code which is the same code as the store code of the store 201 to be supplied), and a camisary storing the articles. A storage unit 15 for storing various data such as a code, status information of the cool box 1 during transport and at a supply destination, and status information on articles inside, and a cool box light line communication unit capable of communication via a light line 80. 16, an acquisition device power line unit 18 that receives power supply and distributes power to each unit, a power supply detection unit 19 that detects whether power is supplied, and the like.
[0046]
The storage unit 15 can be shared with a RAM, and a rewritable ROM such as an EEPROM or a flash memory can also be used. Further, the storage unit 15 may use a drive for driving a recording medium such as a hard disk (HD), a flexible disk (FD), and a magneto-optical disk (MO). This storage unit 15 is connected to the CPU and the cold storage power line communication unit 16.
[0047]
The cold storage power line communication unit 16 can perform communication by the power line 80, and can transmit information to a target by connecting a transmission destination device or the like to the same power line 80. It is also possible to receive information from the target via the power line 80. The information transmitted by the cold storage power line communication unit 16 includes information on the article 30 stored in the storage unit 15 and the like. The cold storage power line communication unit 16 is connected to the acquisition device power line unit 18 and the power detection unit 19 via the electric wiring 17.
[0048]
The acquisition device power line section 18 includes the power receptacle 6 and the electric wiring 17. The power receptacle 6 is connected to the power line 80 at the camisary 101 and the store 201. The electric wiring 17 distributes the electric power obtained from the power supply receptacle 6 to each part of the cool box 1.
The power detection unit 19 is connected to the cold storage power line communication unit 16 and the acquisition device power line unit 18 and detects whether or not power is supplied to the power line 80 by being connected thereto.
[0049]
In addition, the information acquisition device 10 is connected with a temperature sensor 14, an open / close sensor 24, a barcode reader 22, an operation panel 23, a battery control unit 21, a battery 20, a compressor drive unit 25, a cold storage wireless communication unit 26, and the like. ing.
The temperature sensor 14 is for measuring the temperature of the storage space 7 of the cool box 1 and is arranged in the storage space 7 and sequentially sends detected temperature information to a CPU or the like.
[0050]
The open / close sensor 24 is a sensor for detecting whether or not the door 3 is in a closed state with respect to the main body 2, and employs a sensor device such as a photoelectric switch or a proximity switch.
The barcode reader 22 is for inputting a list of articles to be loaded in the warehouse when shipped at a camisary, and may have a configuration in which only an interface for a barcode reader is mounted.
[0051]
The operation panel 23 controls an LED, a liquid crystal display panel, and the like provided on the display panel 5 and performs display control as necessary, such as a temperature in the refrigerator, a mode, and a warning display.
The battery control unit 21 is connected to the battery 20 and the electric wiring 17, and performs charge control, power distribution control, and the like for the battery 20.
[0052]
The battery 20 is connected to the power supply receptacle 6 via the battery control unit 21 and the electric wiring 17, and is charged with the electric power obtained from the acquisition device power line unit 18 as described above. The information acquisition device 10 and the compressor 9 are driven by the electric power charged in the battery 20. The charging operation of the battery 20 is performed when the cool box 1 is used in the distribution system and collected by the camisary 101.
[0053]
The compressor drive unit 25 controls the compressor 9 when cooling the regenerator 8.
The cold storage wireless communication unit 26 is capable of short-range wireless communication with communication means (camisary wireless communication unit 110 and store wireless communication unit 210) provided in the camisary 101 and the store 201. The cold storage wireless communication unit 26 can wirelessly communicate information about the article 30 stored in the storage unit 15 and the like. As the wireless communication means here, a wireless communication means using radio waves such as specified low power wireless, Bluetooth, HomeRF, IEEE80211B, or a wireless communication means using infrared rays such as IrDA can be adopted.
[0054]
During the physical distribution cycle, a large number of cool boxes 1 are transported. Each cool box 1 is provided with a cool box code, which is an identification code (ID) for identifying each cool box 1, and is connected to each section. This ID is used for communication.
[Transport vehicle]
FIG. 4 is a schematic view of the transport vehicle 301.
[0055]
The transport vehicle 301 has a container 302 in a loading portion, and a plurality of cool boxes 1 are mounted in the container 302. Each cold storage 1 is provided with an information acquisition device 10 connected to the cold storage wireless communication unit 26. Then, the plurality of cool boxes 1 are transported to the stores 201, which are the respective supply destinations, by the transport vehicle 301.
[0056]
[Cami Sally]
FIG. 5 is a block diagram showing the configuration of the camisary 101.
The Kamisari 101 is a supplier of the articles 30 to be supplied to each store 201, and is where the articles 30 after manufacturing and before shipping are collected. The chamisaly 101 includes a power line 80, an information management device 102, a camisary wireless communication unit 110, and the like.
[0057]
The power line 80 is provided in the camisary 101 as an electric wiring for supplying power and as a communication line for transmitting information. The power line 80 includes an electric outlet 80a and electric wiring 80b. The electric outlets 80 a are provided at various places inside the camisary 101. The electric outlets 80a are connected to each other by electric wiring 80b. The electric outlet 80a is connected to the power receptacle 6 of the acquisition device power line section 18 of the cool box 1 when the cool box 1 is collected. The electric wiring 80 b supplies power to the cool box 1 and transmits information from the cool box 1. Here, power is supplied to the cool box 1 via the power line 80, power is supplied to the battery 20 of the cool box 1, and the battery control section 21 performs charging control to charge the battery 20. Further, here, information stored in the storage unit 15 of the information acquisition device 10 of the cool box 1 is transmitted from the cool box power line communication unit 16 to the information management device 102 via the power line 80, or the information management device Information from 102 is transmitted to the cold storage light line communication unit 16 via the light line 80. Here, the information from the information management apparatus 102 includes information such as the type of the article 30 and the code of the cool box.
[0058]
The information management device 102 performs various controls in accordance with a program operated by a CPU, which is a microprocessor, a ROM for storing basic control programs, and a RAM for temporarily storing various parameters. The information management device 102 includes a camisary power line communication unit 104 capable of communicating information via the power line 80, a management device power line unit 107 that receives power and distributes power to each unit, and a power supply that receives power. A part 108 is provided.
[0059]
The camisary power line communication unit 104 is connected to the management device power line unit 107, and as described above, transmits the information stored in the storage unit 15 of the information acquisition device 10 of the cold storage room 1 to the cold storage power line communication. The signal is received from the unit 16 via the power line 80. Further, the camisary power line communication unit 104 transmits various information, control commands, and the like regarding the article 30 to the cool storage power line communication unit 16 via the power line 80.
[0060]
The management device power line unit 107 includes a power receptacle 106 connectable to the electric outlet 80 a of the power line 80, an electric wiring 105 connected to the camisary power line communication unit 104 and the power unit 108, and the like. The power supply receptacle 106 receives various kinds of information, receives power supply, and transmits information by being connected to the electric outlet 80a. The electric wiring 105 transmits information received by the power supply receptacle 106 to the camisary power line communication unit 104, and transmits information, control commands, and the like from the camisary power line communication unit 104 to the power receptacle 106. Further, the electric wiring 105 distributes the electric power supplied from the power line 80 by the power supply receptacle 106 to the power supply unit 108.
[0061]
The power supply unit 108 is connected to a CPU and the like, and distributes the power received as described above to each unit to drive each unit of the information management device 102.
The camisary wireless communication unit 110 is connected to the information management device 102 via a wire, and is capable of wirelessly communicating with the cold storage wireless communication unit 26 of the cold storage 1. As a result, the camisary wireless communication unit 110 transmits the information stored in the storage unit 15 of the information acquisition device 10 of the cool box 1 to the power line 80 from the cool box power line communication unit 16 mounted on the cool box 1. And a wireless method from the cold storage wireless communication unit 26 mounted on the cold storage 1 are selectively received. When the cold storage 1 is collected and the above-described charging operation is performed in the chamisaly 101, the camisari wireless communication unit 110 transmits information from the cold storage power line communication unit 16 of the cold storage 1 to the power line. 80 and can be obtained via the camisary power line communication unit 104. In addition, the camisary wireless communication unit 110 includes local area communication means such as specific low-power wireless communication capable of communicating with the cool storage wireless communication unit 26 of the cool storage 1. In the case where the refrigerator 1 exists, it may be set to automatically establish communication and transmit and receive data or to transmit and receive data in response to a request from the refrigerator 1. it can. As described above, the method of obtaining information from the information acquisition device 10 of the cold storage 1 by the camisary wireless communication unit 110 can be selectively performed. Communication means can be selected. Note that the camisary wireless communication unit 110 has a communication function capable of connecting to the Internet via a router, a modem, or the like installed in the camisary 101, and performs data transmission and reception with the information management center 401 as necessary. It is configured.
[0062]
〔store〕
The store 201 is a supply destination of the articles 30 in which the articles 30 are stored, delivered to the transport vehicle 301 and delivered from the container 302 after being cooled down. The store 201 is provided with a store wireless communication unit 210, and can perform wireless communication with the cool storage wireless communication unit 26. Further, the store wireless communication unit 210 has a communication function capable of connecting to the Internet via a router, a modem, and the like installed in the store 201, and performs data transmission and reception with the information management center 401 as necessary. It is configured.
[0063]
[System configuration]
FIG. 6 shows the configuration of a distribution cycle information management system using the cool box 1.
The articles 30 to be loaded into the cool box 1 in the camisary 101 include the quantity (number, weight, etc.), loading date and time, food type, K value measured by a freshness meter, a camisary code unique to each camisary, and the temperature in the chamber. A bar code sticker 31 in which a bar code is formed is attached. When the articles to be loaded in the cool box 1 are foods, the K value is measured by a freshness meter and recorded as an initial K value at the time of loading. Data such as the K value and the type of food is converted into a bar code.
[0064]
At the time of shipment, as shown in FIG. 7, the data of the barcode seal 31 of each article 30 is read by the barcode reader 22 and stored in the storage unit 15 (see FIG. 3). It is also possible to read the barcode stickers 31 of the articles 30 loaded in the cool box 1 one by one, and when a barcode list 33 listing information on each article 30 is created, the barcode list 33 is read. It is also possible to adopt a configuration in which the data is read by the barcode reader 22 and stored in the storage unit 15.
[0065]
Before shipment of the cool box 1, the power line 80 is connected to the power receptacle 6 (see FIG. 1) of the cool box 1 in the camisary 101. Thereby, the compressor 9 is driven to pre-cool the regenerator 8, and the charge control of the battery 20 is performed by the battery control unit 21 of the cool box 1. (See FIG. 3).
The cool box 1 in which the storage of the articles 30 is completed is loaded on a transport vehicle 301 such as a truck and shipped. The communicable range between the cold storage wireless communication unit 26 and the camisary wireless communication unit 110 of the cold storage 1 is limited, and when the transport vehicle 301 leaves the camisary 101 and goes out of the communication range, the cold storage 1 The communication between the cold storage wireless communication unit 26 and the camisary wireless communication unit 110 is terminated. Then, the temperature sensor 14 and the open / close sensor 24 start monitoring the temperature information during transportation and the open / closed state of the door, and the temperature information is sequentially stored in the storage unit 15 as temperature history information. The temperature history information may be configured to sample the temperature information at regular intervals (for example, 5 minutes) and store the sampled information in the storage unit 15. When the temperature detected by the temperature sensor 14 changes, Time and temperature information may be stored in the storage unit 15.
[0066]
When the transport vehicle 301 arrives at the store 201 to which the vehicle is supplied, that is, the wireless communication unit 26 of the cool storage 1 loaded on the transport vehicle 301 communicates with the wireless communication unit 210 of the store installed in the store 201. When the transport vehicle 301 approaches the store 201 to a possible area, the cold storage wireless communication unit 26 starts communicating with the store wireless communication unit 210.
[0067]
The store wireless communication unit 210 has the same configuration as the camisary wireless communication unit 110, and includes wireless communication means capable of communicating with the cold storage wireless communication unit 26. When the cold storage wireless communication unit 26 of the cold storage 1 exists at a short distance where communication by the wireless communication means is possible, communication is automatically established and data is transmitted and received. Further, the store wireless communication unit 210 has a communication function capable of connecting to the Internet via a router, a modem, and the like installed in the store 201, and performs data transmission and reception with the information management center 401 as necessary. It is configured.
[0068]
In the store 201, the articles 30 are taken down from the transport vehicle 301 while being stored inside the cool box 1, and delivered together with the cool box 1. Here, as shown in FIG. 8, the cold storage wireless communication unit 26 reads the type of the article 30 and the cold storage code input by the camisary 101 from the storage unit 15 provided in the information acquisition device 10 of the cold storage 1. The barcode information and the temperature history information during transportation are read out and transmitted to the store wireless communication unit 210. When the cold storage code of the cold storage 1 and the store code of the store of the supply destination match, the operation panel 23 provided in the information acquisition device 10 is provided with an LED or a liquid crystal display panel provided on the display panel 5. Is displayed to notify that the cool box 1 has arrived at the target store 201.
[0069]
The store wireless communication unit 210 calculates the expiration date based on the received temperature history information and the freshness information at the time of shipment, and outputs the expiration date seal 32. By sticking the expiration date seal 32 to the article 30, it is easy to confirm when the food can maintain a certain freshness, and the food safety can be improved.
In addition, the refrigerator box 1 being transported is configured to detect and report when the door is opened by the open / close sensor 24, even if the door is opened after delivery to the store 201. You can set not to report. However, if the door is kept open for a certain period of time, a notification may be made. The mode setting in which the notification of the door opening is not performed can be configured to be set by a mode setting switch provided on the operation panel 23 or another place of the main body 2.
[0070]
After the cold storage 1 is delivered to the store 201, the temperature monitoring by the temperature sensor 14 is continuously performed, the temperature detected by the temperature sensor 14 is sequentially stored in the storage unit 15 as temperature history information, and a temperature abnormality occurs. In such a case, a notification of a temperature abnormality is made. As with the temperature history information during transport, the temperature history information may be configured to sample the temperature information every predetermined time (for example, 5 minutes) and store it in the storage unit 15. When the temperature changes, the time and temperature information may be stored in the storage unit 15.
[0071]
After the articles 30 have been consumed in the store 201 or when the collection period of the cool box 1 based on the contract expires, the cool box 1 is loaded on the transport vehicle 301 and collected by the camisary 101. When the transport vehicle 301 leaves the store 201 and the transport vehicle 301 leaves the store 201 and goes out of the communicable range, the communication between the cold storage wireless communication unit 26 of the cold storage 1 and the store wireless communication unit 210 is stopped. Terminates automatically.
[0072]
When the transport vehicle 301 arrives at the camisary 101, which is the supply source, the power line 80 provided in the camisary 101 is connected to the power supply receptacle 6 (see FIG. 1) of the cool box 1 again. Thereby, the compressor 9 is driven to pre-cool the regenerator 8, and the charge control of the battery 20 is performed by the battery control unit 21 of the cool box 1. (See FIG. 3). By connecting the power supply receptacle 6 and the power line 80, the cold storage power line communication unit 16 of the cold storage 1 and the camisary power line communication unit 104 of the camisary 101 are connected, and the cold storage power line communication unit 16 stores The information such as the temperature history information of the article 30 stored in the unit 15 is transmitted to the camisari power line communication unit 104 in response to a request from the camisari power line communication unit 104 or the cold storage power line communication unit 16 voluntarily. Can be communicated to.
[0073]
Further, when the transport vehicle 301 approaches the camisary 101 to an area where the cold storage wireless communication unit 26 of the cold storage 1 loaded on the transport vehicle 301 and the camisary wireless communication unit 110 provided at the supply source can communicate with each other. The cold storage wireless communication unit 26 of the cold storage 1 may start communication with the camisary wireless communication unit 110. That is, the camisary wireless communication unit 110 may be configured to automatically establish communication and perform data transmission / reception when the cold storage wireless communication unit 26 exists in a short distance where communication by the wireless communication means is possible. It is possible. In the communication here, the cold storage radio communication unit 26 reads out bar code information on the cold storage code and the like and the temperature history information during transportation from the storage unit 15 of the information acquisition device 10 of the cold storage 1 and performs the camisary radio communication. Transmit to the communication unit 110.
[0074]
The communication between the cold storage power line communication unit 16 and the camisary power line communication unit 104 via the power line 80 and the wireless communication between the cold storage wireless communication unit 26 and the camisari wireless communication unit 110 Means that communication can be selectively established.
Further, the information management device 102 transmits the information received from the cold storage power line communication unit 16 of the cool storage 1 by the camisari power line communication unit 104 of the information management device 102 to the camisary wireless communication unit 110. Alternatively, the cold storage wireless communication unit 26 of the cold storage 1 transmits to the camisary wireless communication unit 110. If there is failure information, this information is also transmitted to the camisary wireless communication unit 110 in the same manner. Then, as shown in FIG. 9, the camisary wireless communication unit 110 transmits the received temperature history information, failure information, and the like to the information management center 401.
[0075]
The information management center 401 analyzes the received temperature history information, generates freshness management information, and sends the information to the logistics headquarters 601 that manages the logistics cycle and the store management headquarters 701 that manages the stores 201. provide. When the failure information is received, a service center 501 in charge of maintenance is contacted to arrange an appropriate process.
[0076]
Then, the articles 30 are stored in the cool box 1 again, and the cool box 1 in which the storing operation is completed is loaded on the transport vehicle 301 such as a truck and shipped again. Hereinafter, the distribution of the articles 30 using the cool box 1 is repeated.
[Configuration of information transmission and power supply system]
FIG. 10 shows a configuration diagram of a system for transmitting information from the cool box 1 and supplying power to the cool box 1 in the information management system of the distribution cycle.
[0077]
As described above, in the information management system according to the present embodiment, the articles 30 to be conveyed are stored in the cool box 1, and the cool box 1 is loaded on the transport vehicle 301, departs from the camisary 101, and stores in each store. The goods 30 are delivered together with the cool box 1 to 201, and then the cool box 1 is collected. In such a system, the cool box 1 is connected to the power line 80 at the camisary 101, receives power, and transmits the temperature history information and the like of the articles 30 stored in the cool box 1 to the light line 80. It is transmitted to the camisary power line communication unit 104 via FIG. 10 (FIG. 10).
[0078]
Here, a system for transmitting information from the refrigerator 1 and supplying power to the refrigerator 1 will be described with reference to FIG.
As described above, the power supply receptacle 6 of the acquisition device power line section 18 provided in the cold storage box 1 that has been collected is connected to the electric outlet 80 a of the power line 80. On the other hand, the power receptacle 106 of the information management device 102 is almost always connected to the electrical outlet 80a in the camisary power line communication unit 104. For this reason, the cold storage power line communication unit 16 and the camisary power line communication unit 104 are both connected to the power line 80, and can communicate with each other via the power line 80. Specifically, first, the cold storage power line communication unit 16 reads the temperature history information of the article 30 from the storage unit 15. Next, the temperature history information of the article 30 is transmitted to the power supply receptacle 6 via the electric wiring 17 of the cool box 1. Then, since the power receptacle 6 and the electric outlet 80a are connected, this information is transmitted from the electric outlet 80a to another electric outlet 80a via the electric wiring 80b. Since the other electrical outlet 80a and the power receptacle 106 of the information management device 102 are connected, this information is transmitted to the camisary power line communication unit 104 via the management device electrical wiring 107. Further, this information is transmitted from the information management apparatus 102 to the camisary wireless communication unit 110 via a wire.
[0079]
As described above, it is also possible to change the setting so that the temperature history information of the article 30 is transmitted by wireless communication between the cool storage radio communication unit 26 and the camisary radio communication unit 110.
Note that communication via the power line 80 and wireless communication can be selectively performed. For example, when the wireless line is crowded, communication via the power line 80 is performed, and when it is desired to send information as soon as possible, communication is possible when the cool box 1 enters the wireless communication area. It is possible to select such as adopting wireless communication.
[0080]
Further, here, the power supply receptacle 6 is connected to the electric light line 80, so that the battery control unit 21 of the cool box 1 can receive power supplied through the electric wiring 17 and charge itself. At this time, the compressor 9 and the compressor drive unit 25, which have been supplied with electric power via the power line 80, perform a cold storage operation of pre-cooling the cold storage agent 8.
[0081]
In this cold storage operation or charging operation, the worker etc. in the camisary 101 determines whether or not the cold storage operation of the cold storage agent 8 of the cold storage 1 in the camisary 101 and the charging operation of the battery 20 have been completed. The determination is made based on the display panel 5 of the cool box 1, the information processing result of the information management device 102, and the like.
Further, the power detection unit 19 can detect whether or not the power receptacle 6 is connected to the power line 80. Thereby, when the power supply receptacle 6 is connected to the power line 80, the power supply detection unit 19 notifies the CPU, so that the cold storage power line communication unit 16 can transmit information to the camisary power line communication unit 104. Can be determined. Thereby, the cold storage power line communication unit 16 can transmit information after confirming a transmittable state.
[0082]
FIG. 12 shows a control flowchart of the information acquisition device 10 by the power detection unit 19, the CPU, and the cold storage power line communication unit 16 here.
In step S90, it is determined whether or not the power supply detection unit 19 detects the AC power supply by being connected to the power line 80. If the power supply detector 19 determines that the AC power supply is detected, the process proceeds to step S91.
[0083]
In step S91, the CPU of the information acquisition device 10 determines whether or not an information transmission request has been made from the camisari power line communication unit 104 or the camisari wireless communication unit 110. If the information transmission request has been made, the process proceeds to step S92.
In step S <b> 92, the CPU of the information acquisition device 10 causes the cold storage power line communication unit 16 to transmit information to the camisary power line communication unit 104 or the camisary wireless communication unit 110.
[0084]
[Refrigerator information acquisition device]
The operation of the information acquisition device 10 of the cool box 1 will be described below.
<At the time of shipment>
FIG. 13 shows the operation when the cool box 1 is shipped with the articles 30 stored therein.
In the cold storage 1, it is possible to select the mode of refrigeration and freezing depending on the frozen state of the regenerator 8. In step S11, it is determined whether or not it is necessary to cool the cold storage agent 8 according to the state and internal temperature of the animal cooling agent 8, the form of the article 30 to be stored, and the like. If it is determined that the cooling process of the animal coolant 8 is necessary, the process proceeds to step S12. In step S12, the compressor 9 is controlled via the compressor drive unit 25, and a cooling process (freezing process) of the cooling agent 8 is executed to perform pre-cooling.
[0085]
In step S13, it is determined whether the cooling process (freezing process) has been completed. If it is determined that the freezing process has been completed, the process proceeds to step S14.
In step S14, the barcode information of the article 30 to be stored is read. As described above, the barcode information can be configured to read the barcode sticker 31 to which the article 30 is attached, and can also be configured to read each information from the barcode list 33. is there.
[0086]
The barcode information includes a loading date and time, a type of food, an initial K value measured by a freshness meter, a camisary code, a cool box temperature, and other information. In step S15, the read barcode information is stored in the storage unit 15.
In step S16, it is determined whether the loading has been completed. If there is still an article 30 to be loaded in the cool box 1, the process proceeds to step S14, and the process of reading the barcode information and storing it in the storage unit 15 is performed.
[0087]
<Transporting>
FIG. 14 shows the operation of the information acquisition device 10 of the cool box 1 during transportation.
When the transportation is started after being loaded on the transportation vehicle 301, the temperature monitoring by the temperature sensor 14 is started (step S21). In this case, the temperature information detected by the temperature sensor 14 is transmitted to the CPU and sequentially stored in the storage unit 15 as temperature history information. As described above, it is also possible to configure so as to sample the detected temperature at regular time intervals, and to store the time and temperature information when a temperature change exceeding a certain value occurs. It is possible.
[0088]
In step S22, the CPU determines whether the temperature information detected by the temperature sensor 14 is abnormal. If the temperature information exceeds the predetermined threshold temperature, the CPU determines that the temperature is abnormal, and proceeds to step S23. In step S23, a temperature abnormality notification is sent to the cool storage radio communication unit 26. Here, the CPU that has received the information from the temperature sensor 14 notifies the cold storage radio communication unit 26 of a report that a temperature abnormality has occurred. Thereby, the driver or the like of the transport vehicle 301 can be made aware of the temperature abnormality.
[0089]
In step S24, it is determined whether or not the door is open. Here, the CPU determines whether or not the door 3 is open based on a detection signal of the open / close sensor 24 for detecting the open / close state of the door 3 attached to the front surface of the main body 2. Is determined to be in the open state, the process proceeds to step S25. In step S25, an open-abnormality notification is made to the cool storage radio communication unit 26. Here, the CPU that determines that the door 3 is in the open state notifies the cold storage radio communication unit 26 of a notification that the door 3 is in the open state. Thereby, the driver or the like of the transport vehicle 301 can be made aware of the abnormality of the opening and closing of the door 3.
[0090]
Until the transport vehicle 301 arrives at the store 201 and the cold storage wireless communication unit 26 starts communication with the store wireless communication unit 210, acquisition of temperature information, temperature abnormality monitoring, and door opening / closing monitoring are repeated.
<At the time of arrival>
FIG. 15 shows the operation of the information acquisition device 10 of the cool box 1 when the transport vehicle 301 arrives at the store 201.
[0091]
In step S31, it is determined whether communication with the store wireless communication unit 210 of the store 201 is enabled. When communication is established between the cool storage radio communication unit 26 and the store radio communication unit 210, it is determined that communication has become possible, and the process proceeds to step S32.
In step S32, information stored in the storage unit 15 is read. Here, the barcode information on the article 30 input at the camisary 101 is read. In step S33, the read information is transmitted to the store wireless communication unit 210.
[0092]
In step S34, it is determined whether or not there is an error in the delivery destination of the articles 30 and the loading of the articles 30 stored in the cool box 1. The store wireless communication unit 210 confirms the delivered article 30 based on the barcode information transmitted from the cool storage wireless communication unit 26, and transmits a confirmation result as to whether or not there is an error. Based on the confirmation result transmitted from the store wireless communication unit 210, if there is an erroneous delivery such as an incorrect delivery destination or a loading error, the process proceeds to step S35, and if it is determined that there is no erroneous delivery, Shifts to step S36.
[0093]
In step S35, a notification that the delivery is erroneous is performed. For example, the store wireless communication unit 210 transmits a report to the cold storage wireless communication unit 26 that the delivery is erroneous, and notifies the driver of the transport vehicle 301 of the erroneous delivery. Further, it is also possible to send a report to the store wireless communication unit 210 that the delivery is erroneous and to notify the clerk of the store 201 of the erroneous delivery. Further, it is also possible to configure to display on the operation panel 23 that the delivery is erroneous.
[0094]
If the delivery is not erroneous, the cool box 1 is taken down from the transport vehicle 301 and delivered to the store 201. Note that, even after the delivery of the article 30, the temperature monitoring in the store 201 is continuously performed.
In step S36, the temperature history information is read and transmitted to the store wireless communication unit 210. The temperature history information during transportation stored in the storage unit 15 is read and transmitted to the store wireless communication unit 210.
[0095]
In step S37, it is determined whether or not a temperature abnormality has occurred. When it is determined that the temperature detected by the temperature sensor 14 exceeds the predetermined threshold temperature, the process proceeds to step S38. In step S38, a temperature abnormality notification is notified. For example, a notification that a temperature abnormality has occurred is transmitted to the store wireless communication unit 210 via the cool storage wireless communication unit 26. It is also possible to warn a store clerk or the like by displaying a temperature abnormality on the operation panel 23 or sounding an alarm sound.
[0096]
In the step S39, it is determined whether or not the monitoring of the opening / closing of the door is canceled. If it is determined that the mode switch or the like provided on the operation panel 23 has been operated to cancel the open / close monitoring, the process proceeds to step S42, and if not, the process proceeds to step S40. In step S40, it is determined whether or not the door is open. When it is determined that the door is open based on the detection signal of the open / close sensor 24, the process proceeds to step S41. In step S41, an opening abnormality notification is performed. Here, a notification that the door is open is transmitted to the store wireless communication unit 210 via the cool storage wireless communication unit 26. At the same time, it is possible to warn a store clerk or the like by displaying an opening abnormality on the operation panel 23 or sounding an alarm sound. Further, even if the monitoring of the opening / closing of the door is canceled, it is also possible to configure so that the door opening abnormality is reported if the door is kept open for a certain period of time.
[0097]
When the cool box 1 is collected and leaves the store 201, short-range communication with the store wireless communication unit 210 becomes impossible, and the communication ends. In step S42, it is determined whether or not communication has been established, and the processes in steps S36 to S42 are repeated while communication with the store wireless communication unit 210 is established.
<At the time of collection>
FIG. 16 shows the operation of the information acquisition device 10 of the cool box 1 when the information is collected by the camisary 101.
[0098]
In step S52, whether the information stored in the storage unit 15 of the information acquisition device 10 is to be transmitted to the camisari power line communication unit 104 via the power line 80, It is determined whether the setting is for transmission. If it is determined that the setting is such that the transmission is performed wirelessly to the camisary wireless communication unit 110, the process proceeds to step S52.
[0099]
In step S52, it is determined whether communication with the camisary wireless communication unit 110 is enabled. When communication with the camisari wireless communication unit 110 by the cool storage wireless communication unit 26 is established, it is determined that short-range wireless communication with the camisari wireless communication unit 110 has become possible, and the process proceeds to step S53.
In step S53, the temperature history information stored in the storage unit 15 is read and transmitted to the camisary wireless communication unit 110. The temperature history information mainly relates to the temperature information while the cool box 1 is placed in the store 201, and if necessary, the temperature history information at the time of transportation from the camisary 101 to the store 201, and the temperature history information from the store 201 It is also possible to configure so that the temperature history information at the time of transportation to 101 is transmitted at the same time.
[0100]
In step S54, it is determined whether or not a failure has occurred. For example, if the cooling agent 8 cannot be frozen normally even after the compressor 9 has been driven for a certain period of time, it is determined that the compressor 9 has failed. If the information indicating that there is another failure is obtained, the process proceeds to step S55. In step S55, a notification of occurrence of a failure is transmitted to the camisary wireless communication unit 110 via the cool storage wireless communication unit 26.
[0101]
[Store communication unit]
The operation of the store wireless communication unit 210 is shown in FIG.
In step S61, the store wireless communication unit 210 determines whether or not communication with the cool storage wireless communication unit 26 of the cool storage 1 is enabled. When communication with the cold storage wireless communication unit 26 of the cold storage 1 is established, the store wireless communication unit 210 determines that communication with the cold storage 1 is enabled, and proceeds to step S62.
[0102]
In step S62, the store wireless communication unit 210 receives data transmitted from the cold storage wireless communication unit 26 of the cold storage 1. The data received here is barcode information of the stored articles 30, and includes information such as the loading date and time, the type of foodstuff, the initial K value, the camisary code, and the temperature of the cool box.
In step S63, the store wireless communication unit 210 determines whether the delivery is erroneous. Based on the loading date and time, the type of foodstuff, the camisary code, etc., among the received barcode information of the article 30, it is checked whether there is an error in the delivery destination, loading error, etc., and it is determined that there is an erroneous delivery. In this case, the process proceeds to step S64. If it is determined that there is no erroneous delivery, the process proceeds to step S65.
[0103]
In step S64, the store wireless communication unit 210 transmits an erroneous delivery notification, such as an error in the delivery destination or a loading error, to the cold storage wireless communication unit 26 of the cold storage 1.
In step S65, the store wireless communication unit 210 transmits a delivery confirmation notification indicating that the delivery has been normally performed, and receives the temperature history information transmitted from the cool storage wireless communication unit 26.
[0104]
In step S66, the store wireless communication unit 210 determines the expiration date for each article 30. For example, as shown in FIG. 19, the current freshness information (K value) based on the initial K value included in the barcode information of the article 30 and the temperature history information during transportation, and the K value is a constant value (freshness) Is estimated, and this time is set as the expiration date.
[0105]
In step S67, the store wireless communication unit 210 creates a shelf life seal based on the calculated shelf life. The expiration date information calculated for each article 30 is output to the expiration date seal 32.
In step S68, the store wireless communication unit 210 transmits the temperature history information acquired from the cool box 1 to the information management center 401.
[0106]
In step S69, it is determined whether or not the store wireless communication unit 210 has received the temperature abnormality report. When the temperature abnormality report is received from the cold storage wireless communication unit 26 of the cold storage 1, the process proceeds to step S70. In step S70, a display indicating that a temperature abnormality has occurred or a warning sound is generated to notify the clerk. Further, in step 70, it is possible to configure so as to transmit a notification to the information management center 401 that a temperature abnormality has occurred.
[0107]
In step S71, it is determined whether or not the store wireless communication unit 210 has received the opening abnormality report. If an open abnormality notification has been received from the cold storage wireless communication unit 26 of the cold storage 1, the process proceeds to step S72. In step S72, the store wireless communication unit 210 notifies the store clerk by displaying a door open message or generating a warning sound. Further, in step 72, it is possible to configure so as to transmit a report to the information management center 401 that an open abnormality has occurred.
[0108]
In step S73, the store wireless communication unit 210 determines whether or not communication with the cool storage wireless communication unit 26 of the cool storage 1 has been established. If communication is possible, the process proceeds to step S69 and proceeds to step S69. The subsequent processing is repeated.
[Information Management Center]
FIG. 18 shows the operation of the information management center 401.
[0109]
The information management center 401 determines whether or not the temperature history information has been received in step S81. If the temperature history information has been received, the process proceeds to step S82. In step S82, the received temperature history information is analyzed to create temperature management information, freshness management information, and the like. The created temperature management information, freshness management information, and the like are provided to the distribution headquarters 601 for managing the distribution cycle, the store management headquarters 701 for managing the stores 201, and the like.
[0110]
In step S83, it is determined whether a failure report has been received. If a notification that a failure has occurred in the cool box 1 has been received, the process proceeds to step S84. In step S84, the service center 501 in charge of maintenance is notified that a failure has occurred. This report can be configured so that the host computer of the information management center 401 automatically transmits a report to the host computer of the service center 501, and can also be configured to transmit the report to a portable terminal of a service person. It is also possible to configure.
[0111]
In the step S85, it is determined whether or not the temperature abnormality report is received. If the temperature abnormality notification has been received, the process proceeds to step S86. In step S86, a process for responding to the temperature abnormality is executed. For example, when the temperature abnormality report can be received from the cold storage wireless communication unit 26 of the cold storage 1, a warning notification is transmitted to the cold storage wireless communication unit 26 of the cold storage 1, or the transportation of the warning is performed. It can be configured to transmit a report to a portable terminal carried by the driver of the vehicle 301. When a temperature abnormality notification is received from the store wireless communication unit 210 installed in the store 201 to which the product is to be delivered, a warning notification is transmitted to the store wireless communication unit 210 or the alarm is sent to the store 201. It can be configured to transmit a report to another communication means that has been set up.
[0112]
In the step S87, it is determined whether or not the opening / closing abnormality notification is received. If the release abnormality notification has been received, the process proceeds to step S88. In step S88, a process for responding to the opening abnormality is executed. For example, when an open abnormality notification is received from the cold storage wireless communication unit 26 of the cold storage 1, a warning message is transmitted to the cold storage wireless communication unit 26 of the cold storage 1, or the transportation vehicle 301 is notified. It can be configured to transmit a report to a portable terminal carried by the driver. Further, when an open abnormality notification is received from the store wireless communication unit 210 installed in the store 201 to which the product is delivered, a warning message is transmitted to the store wireless communication unit 210 or installed in the store 201. It can be configured to transmit a report to another communication means that has been set up.
[0113]
〔Characteristic〕
(1)
In the information management system of the present embodiment, when power is distributed to the battery 20 of the cool box 1, the information acquisition device 10 is connected to the power supply receptacle 6 via the same light line 80 as the power line 80. Is transmitting information to the information management apparatus 102. By such a normal connection operation for power supply between the cool box 1 and the power line 80, the information acquisition device 10 provided in the cool box 1 transmits the information to the information management apparatus 102 via the light line 80. It is possible to transmit information. Therefore, the work load required for transmission can be reduced as compared with the case where information is transmitted via a recording medium or the like. In the case of wireless transmission, a transmission fee is required and running costs are incurred. However, in the case of transmission using such a power line 80, the transmission fee is not particularly incurred and is inexpensive.
[0114]
As described above, here, the information acquisition device 10 transmits information about the article 30 to the information management device 102 through the normally required operation of power distribution to the cool box 1 using the power line 80. Will be able to Therefore, when transmitting information about the article 30 to be distributed, the information can be transmitted from the information acquisition device 10 to the information management device 102 at low cost, and the work load in transmitting this information can be reduced. Is possible.
[0115]
(2)
In the information management system of the present embodiment, the communication between the information acquisition device 10 and the information management device 102 is performed via the power line 80 provided in the camisary 101 in which the information management device 102 is installed. Is being done. The power line 80 here is normally provided also in the camisary 101, similarly to the electric wiring provided in a normal home. Therefore, when performing communication using the power line 80 in the present embodiment, it is not particularly necessary to newly provide a communication line or the like, and the cost of providing the communication line becomes unnecessary. Can be built.
[0116]
(3)
Normally, when wireless communication is performed, it takes a lot of time to end communication of information due to a fear that communication will not be established, or that wireless communication will be crowded, and a plurality of cold storage boxes 1 will be required. There is a possibility that a failure may occur in the transmission of information from the Internet. However, in the information management system, since communication using the power line 80 is performed as described above, such a failure hardly occurs.
[0117]
Further, in the information management system of the present embodiment, the cooling agent 8 of the cool storage 1 is cooled by the supply of electric power via the power line 80 in the chamisary 101. It usually takes time. Here, by utilizing the time required for cooling the regenerator 8, all information stored in the information acquisition device 10 can be transmitted to the information management device 102 more reliably by communication via the power line 80. Can be done.
[0118]
(4)
In the information management system of the present embodiment, the communication between the information acquisition device 10 and the information management device 102 is performed in the camisary 101. For this reason, when information about each article 30 is held in the camisary 101 in which the information management apparatus 102 is installed, the information management apparatus 102 holds such information in the information acquisition apparatus 10. Information can be sent.
[0119]
For example, when a fresh food product such as a fish is transported, the origin of the article 30, the state information at the time of transportation to the camisary 101, and the like are stored in the camisary 101 and transmitted to the information acquisition device 10. be able to. As a result, for each of the articles 30 conveyed by the cool box 1, information until each of the articles 30 arrives at the camisary 101 can be supplied together with the article 30 to the store 201, which is each delivery destination. More detailed information management can be performed.
[0120]
(Modification)
(A)
In the above embodiment, communication is performed between the camisary wireless communication unit 110 and the information management center 401 via a public line such as the Internet. However, the power line 80 of the camisary 101 may also be extended and connected between the camisary wireless communication unit 110 and the information management center 401. Then, communication via the power line may be performed between the camisary wireless communication unit 110 and the information management center 401 via the power line 80.
[0121]
(B)
In the above embodiment, the charging operation of the information acquisition device 10 and the information transmission operation to the information management device are performed only in the camisary 101. However, also in the store 201, the charging operation and the information transmitting operation of the cool box 1 can be performed in the store 201 by adopting a configuration capable of transmitting information and supplying electric power through a power line similar to the above-described camisary 101. The configuration may be such that it can be performed.
[0122]
In addition, as one of the operations of the store wireless communication unit 210 in the above embodiment, in step S65 shown in FIG. 17, a delivery confirmation notification indicating that the delivery has been normally performed is transmitted, and the cold storage wireless communication unit is transmitted. The temperature history information transmitted from 26 is received. However, as described above, when the charging operation and the information transmitting operation can be performed in the store 201 as well, such information transmitting operation is performed when performing the charging operation of the cool box 1 in the store 201. You may do so.
[0123]
(C)
In the above-described embodiment, short-range wireless communication is employed for communication between the cold storage wireless communication unit 26 and the camisary wireless communication unit 110 or the store wireless communication unit 210, and the distance between the wireless communication units 26 is within a certain range. The configuration is such that communication is possible in certain cases. However, the cold storage wireless communication unit 26 of the cold storage 1 has a wireless communication function capable of communicating even in a remote place such as a PHS or a mobile phone, and is configured to directly transmit and receive information to and from the information management center 401. Is also possible.
[0124]
(D)
In the above-described embodiment, the cold storage radio communication unit 26 is configured to perform wireless communication with the camisary radio communication unit 110. However, short-range communication by wire or wireless with the cold storage radio communication unit 26 is possible. A vehicle-mounted wireless communication unit may be provided in the carrier vehicle 301 so that the vehicle-mounted wireless communication unit can perform wireless communication with the camisary wireless communication unit 110.
[0125]
(E)
Whether or not the cold storage operation of the cold storage agent 8 of the cold storage 1 in the chamisary 101 is completed or the charging operation of the battery 20 is completed is determined by the worker or the like in the camisary 101 by the display panel 5 of the cold storage 1 or the like. The determination is made based on the information processing result of the information management apparatus 102 and the like. However, by using a portable terminal such as a PHS, it may be possible to remotely check whether or not the cold storage operation of the cold storage 1 or the charging operation in the chamisary 101 is completed. it can. Alternatively, by using such a form terminal such as a PHS, a person who manages information in a remote place is notified of the completion of the cold storage operation and the charging operation of the cold storage 1 by radio waves to notify the person. You can also.
[0126]
(F)
In the above-described embodiment, the temperature is adopted as a data collection target of the article 30. However, the data collection target is not limited to the temperature, but may be other information related to distribution such as information on a product type, a model number, and a price. Is also good.
(G)
In the above embodiment, the vehicle is taken as an example of the means for transporting the cool box 1, but the transportation means is not limited to the vehicle, and may be a ship or an aircraft.
[0127]
【The invention's effect】
In the information management system according to the first aspect, the information acquisition unit can transmit the information about the article to the information management unit through the normally required operation of power distribution to the distribution device using the power line. become. For this reason, in the information management system here, when transmitting information on articles to be distributed, it is possible to transmit information from the information acquisition unit to the information management unit at low cost, and to perform the operation when transmitting this information. The burden can be reduced.
[0128]
In the information management system according to the second aspect, the history information of the article can be acquired by the storage unit of the information acquisition unit. For this reason, the information acquisition unit can transmit the history information of the article to the information management unit. Therefore, here, it is possible to manage the articles to be delivered based on the history information of the articles.
[0129]
In the information management system according to the third aspect, the power line distributes power to the battery included in the delivery device. Therefore, the battery can be charged. Thus, in the information management system according to the third aspect, the delivery device can be driven by the charged battery.
In the information management system according to the fourth aspect, since the cooling unit is connected to the power line, power is supplied to the cooling unit via the power line. Thus, the cooling means can be driven, and the regenerator can be pre-cooled by driving the cooling means. Therefore, here, the temperature inside the delivery device can be maintained at a low temperature.
[0130]
In the information management system according to the fifth aspect, since the information acquisition unit has the sensor for measuring the information inside the delivery device, it is possible to measure the information inside the delivery device. This makes it possible to acquire information on the state of the conveyed articles and the like, and enables the information management unit to manage information based on information obtained from such sensors. become.
[0131]
In the information management system according to claim 6, the information management unit can transmit information to the information acquisition unit via a power line. For this reason, information transmission can be made bidirectional between the information acquisition unit and the information management unit. For example, in the communication using a power line here, the information acquisition unit may transmit information to the information management unit via the power line in response to a request from the information management unit.
[0132]
In the information management system according to claim 7, since the information acquisition unit and the information management unit have a power line communication unit that can connect to the power line, the power line is arranged and can be connected to the power line. As long as there is a location, each power line communication means can be connected to the power line, and information can be transmitted to each other. Therefore, the degree of freedom of a place where information can be transmitted to each other can be improved.
[0133]
In the information management system according to the eighth aspect, the information management system further includes a wireless transmission unit capable of wirelessly transmitting information to the information management unit, so that transmission of information to the information management unit is performed by information acquisition. It is possible to selectively employ a method of transmitting to the information management unit from the unit via the power line and a method of transmitting to the information management unit wirelessly from the wireless transmission unit. Thereby, the degree of freedom of the method of transmitting information to the information management unit can be increased.
[0134]
In the information management system according to the ninth aspect, the information acquisition unit has a power supply detection unit, and the power supply detection unit can detect its own power distribution status. Therefore, if the information acquisition unit determines that power distribution from the power line is being performed to itself based on the detection result of the power supply detection unit, the information acquisition unit determines that information can be transmitted to the information management unit. If it is determined that power distribution from the power line is not performed for itself based on the detection result of the power supply detection means, it is determined that transmission of information to the information management unit is impossible. Will be able to Therefore, the information acquisition unit can recognize when information can be transmitted to the information management unit.
[0135]
In the information management system according to claim 10, since the information management unit is installed at the article transport source, the information acquisition unit performs the information management via the power line at the same place where the loaded articles are loaded. It is possible to transmit information to the department. Therefore, it is possible to transmit information to the information management unit while loading the articles, and it is possible to more smoothly perform the distribution of the articles.
[0136]
In the delivery device according to the eleventh aspect, the information acquisition unit provided in the main body of the delivery device transmits information about the article to the information management device through a normally required operation of power distribution to the delivery device using a power line. Can be transmitted. For this reason, in the delivery device here, when transmitting information on articles to be distributed, the information can be transmitted from the information acquisition unit to the information management device at low cost, and the work load when transmitting this information is low. Can be reduced.
[0137]
In the information acquisition device according to the twelfth aspect, the information transmission unit of the information acquisition device transmits information about the article to the information management device through a normally required operation of power distribution to the information acquisition device using a power line. Will be able to For this reason, when transmitting information on articles to be distributed, it is possible to transmit information from the information acquisition device to the information management device at low cost, and it is possible to reduce the work load in transmitting this information. Become.
[0138]
In the information management device according to claim 13, the information collection unit of the information management device collects information on the article from the information acquisition device through a normally required operation of power distribution to the information management device using a power line. Will be able to For this reason, when transmitting information about articles to be distributed, the information management device can collect information from the information acquisition device at low cost and reduce the work load when collecting this information. It becomes.
[Brief description of the drawings]
FIG. 1 is a perspective view showing the appearance of a cool box.
FIG. 2 is an explanatory view showing the internal structure of a cool box.
FIG. 3 is a block diagram showing a control unit of the cool box.
FIG. 4 is a schematic view of a transport vehicle.
FIG. 5 is a block diagram showing a configuration of a camisary.
FIG. 6 is an explanatory diagram showing a configuration of a system.
FIG. 7 is an explanatory view at the time of shipment.
FIG. 8 is an explanatory view at the time of conveyance and arrival.
FIG. 9 is an explanatory view at the time of collection.
FIG. 10 is an explanatory diagram showing a system for supplying power and transmitting information.
FIG. 11 is a block diagram showing power supply and information transmission between the information acquisition device and the information management device.
FIG. 12 is a control flowchart of a power detection unit.
FIG. 13 is a control flowchart at the time of shipment.
FIG. 14 is a control flowchart during conveyance.
FIG. 15 is a control flowchart at the time of arrival.
FIG. 16 is a control flowchart at the time of collection.
FIG. 17 is a control flowchart of the store communication unit.
FIG. 18 is a control flowchart of the management center.
FIG. 19 is an explanatory diagram of freshness information management and expiration date determination using a K value.
[Explanation of symbols]
1 Delivery device (cooler)
2 body
7 Internal space (storage space)
8 Cool storage agent
9 Cooling means (compressor)
10 Information acquisition unit (information acquisition device)
14 sensor (temperature sensor)
15 Storage means (storage unit)
16 Information transmission unit (refrigerator compartment light line communication unit)
18 Power line communication means, acquisition device communication means (acquisition device light line section)
19 Power supply detection means (power supply detection unit)
20 Battery
26 wireless transmission unit (refrigerator wireless communication unit)
30 articles
80 light line
101 Supplier of goods (camisaly)
102 Information management unit (information management device)
104 Information Collection Unit (Camisary Light Line Communication Unit)
107 power line communication means, management device communication means (management device power line section)

Claims (13)

An information management system for monitoring information about an article (30) delivered with a delivery device (1) driven by electric power,
An information acquisition unit (10) provided in the delivery device (1) for performing power distribution using a power line (80) and acquiring information on the article (30);
An information management unit (102) for managing information on the article (30);
With
The information acquisition unit (10) transmits information to the information management unit (102) via the power line (80).
Information management system. The information acquisition unit (10) has a storage unit (15) that stores information about the article (30).
The information management system according to claim 1. The power line (80) is connectable to a battery (20) of the delivery device (1), and distributes power to the battery (20).
The information management system according to claim 1. The power line (80) is connectable to a cooling means (9) for cooling a regenerator (8) for keeping the internal temperature of the delivery device (1) at a low temperature, and is connected to the cooling means (9). Power distribution to
The information management system according to claim 1. The information acquisition unit (10) has a sensor (14) for measuring information inside the delivery device (1).
The information management system according to claim 1. The information management unit (102) transmits information to the information acquisition unit (10) via the power line (80).
The information management system according to claim 1. The information acquisition unit (10) and the information management unit (102) include a power line communication unit (18, 107) for connecting to the power line (80).
The information management system according to claim 6. A wireless transmission unit (26) connected to the information acquisition unit (10) and capable of wirelessly transmitting information to the information management unit (102);
Transmission of information to the information management unit (102) can be selected between a case where the information acquisition unit (10) is performed via the power line (80) and a case where the wireless transmission unit (26) is wirelessly transmitted. Can be done to
The information management system according to claim 1. The information acquisition unit (10) includes a power detection unit (19) that detects whether the delivery device (1) is receiving power distribution from the power line (80).
An information management system according to claim 1. The information management unit (102) is installed in an article delivery source (101) that loads articles (30) to be transported to the delivery device (1).
The information management system according to claim 1. A delivery device (1) for delivering an article (30) to be information-managed by an information management device (102) and being driven by being supplied with electric power by being connected to a power line (80). ,
A body (2) having an interior space (7) capable of accommodating said article (30);
An information acquisition unit (10) provided on the main body (2), for acquiring information on the article (30);
With
The information acquisition unit (10) transmits information to the information management device (102) via the power line (80).
Delivery device (1). An article provided in a delivery device (1) driven by receiving power supply from a power line (80), delivered along with the delivery device (1), and subject to information management in an information management device (102). An information acquisition device (10) for acquiring information about (30),
An acquisition device communication means (18) connected to the power line (80) and transmitting electric power;
An information transmission unit (16) connected to the acquisition device communication means (18) and acquiring information on the article (30);
With
The information transmission unit (16) transmits information to the information management device (102) via the acquisition device communication unit (18) and the power line (80).
Information acquisition device (10). Information is collected from an information acquisition device (10) in which information about an article (30) delivered by a delivery device (1) driven by receiving power supply from a power line (80) is obtained. An information management device (102) for performing
A management device communication means (107) connected to the power line (80) and transmitting power;
An information collection unit (104) that is connected to the management device communication unit (107) and collects information from the information acquisition device (10) via the power line (80) and the management device communication unit (107); ,
An information management device (102) comprising:

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