JP7100335B1 - Logistics information update method, system and assembly box - Google Patents

Abstract

A physical distribution information updating method, system, and assembly box capable of reducing the workload of a deliverer are provided. The first assembling device and the first assembling device through a short-range communication module update the assembly start information and the assembling box information to the logistics chain after the assembling box is placed on the first assembling device. establishing a communication connection; obtaining package information and updating the package information to the logistics chain in the course of the delivery person placing the package in the assembly box; after the delivery person placing the package in the assembly box, updating the delivery waiting information to the logistics chain; obtaining the assembly box information and package information by the second assembly apparatus after the assembly box is placed on the second assembly apparatus; and completing the delivery when the package is taken out. and updating the information to the logistics chain. To automatically input parcel information, assembly box information and corresponding delivery status into a logistics chain without manual input by a deliverer. [Selection drawing] Fig. 1

Description

The present application relates to the field of physical distribution technology, and particularly to a method for updating physical distribution information, a system, and an assembly box.

With the rapid development of the e-commerce industry, the home delivery logistics service industry is also facing unprecedented opportunities for development, and the Internet of Things technology is being applied more and more widely and deeply to the logistics industry.

In the current logistics industry, in order to enable consignees to grasp the transportation status of cargo in real time, logistics companies specially build a corresponding logistics chain on a cloud platform, and consignees log in to the corresponding software anytime and anywhere. By doing so, you can check your luggage information. By the way, the current information update on the distribution chain is updated by a method in which the delivery person manually inputs data.

Regarding the above-mentioned related techniques, the present inventors have increased the work pressure of the delivery person as the number of packages to be delivered increases, and the manual update of the distribution chain further increases the work amount of the delivery person. I think there is no doubt.

In order to reduce the workload of the delivery person, the present application provides a method for updating physical distribution information, a system and an assembly box.

According to the first aspect, the present application provides a method for updating physical distribution information, and adopts the following technical proposal.
A method for updating physical distribution information, wherein the method is applied to a physical distribution information updating system including an assembly box, a first assembly device, and a second assembly device, the assembly box includes a short-range communication module, and the method is ,
Short-range communication based on preset connection rules so that after the assembly box is placed in the first assembly device, the first assembly device updates the assembly start information and the assembly box information to the distribution chain. The step of establishing a communication connection with the first assembly device via the module,
In the process of placing the package in the assembly box, the delivery person acquires the package information and updates the package information to the distribution chain.
A step of updating the delivery waiting information to the distribution chain after the delivery person puts the package in the assembly box, wherein the delivery waiting information corresponds to the package and the assembly box.
In the delivery process, after the assembly box is placed in the second assembly device, a communication connection is established with the second assembly device via the short-range communication module based on a preset connection rule, and the second assembly device is established. The step in which the assembly device acquires the assembly box information and the baggage information, and
When the package is taken out, it includes a step of updating the delivery completion information to the distribution chain.

By adopting the above technical proposal, in the process of loading the cargo into the assembly box and removing the cargo from the assembly box, the delivery person does not have to manually input the package information, the assembly box information and the corresponding delivery status. Can be automatically entered into the distribution chain, greatly reducing the workload of the delivery person and helping to improve distribution efficiency.

Selectably, the method of establishing a communication connection with the first assembly device via a short range communication module based on preset connection rules.
A step of acquiring the time when the assembly box is placed in the first assembly device, or a step of acquiring an operation command input by a delivery person after the assembly box is placed in the first assembly device.
A step of determining whether the time or the operation command satisfies the connection rule is included.

By adopting the above technical proposal, when the assembly box is placed in the first assembly device, the communication connection with the first assembly device must not be established, but the placement time must meet the connection rule. This setting can reduce the occurrence of erroneous operations, make it possible to manually input operation commands to accelerate the establishment of communication connections, and make the connection method more flexible.

Optionally, the first assembly device comprises a scanning module, the method of obtaining package information in the process of the delivery person placing the package in the assembly box.
A step of acquiring scanning information for the baggage and generating the baggage information based on the scanning information is included.

By adopting the above technical proposal, the package information of the first assembly device is obtained by scanning by the scanning module, the delivery person does not have to manually input the package information one by one, the operation is easier, and the delivery is performed. The amount of work done by the person is further reduced.

The method of updating the delivery completion information to the distribution chain when the package information corresponds to a plurality of delivery destinations, the delivery destinations correspond to the second assembly device, and the package is taken out can be selected.
The step of confirming the luggage corresponding to the second assembly device and
If the confirmation is successful, the step of updating the state of the baggage with the baggage in the baggage information, the step of including the signed and unsigned states, and
Includes a step of updating the updated baggage information to the distribution chain.

By adopting the above technical plan, when multiple packages are loaded in the same assembly box, each package corresponds to one delivery destination, and in order to avoid delivery mistakes, when delivering the package, the package and correspondence After reconfirming the second assembly equipment and confirming that there are no mistakes, the delivery of the current package is completed and the accuracy rate of the distribution is guaranteed.

The method of confirming the baggage corresponding to the second assembly device can be selected.
The step of confirming the delivery waiting information and the assembly box information, and
After the confirmation is successful, the step of confirming the package corresponding to the second assembly device is included.

By adopting the above technical proposal, before checking the package, first check the assembly box, avoid the delivery person from confusing the assembly box, check the package after confirming that the assembly box is correct, and then check the package. It is possible to reduce unnecessary operations of the delivery person and improve the efficiency of delivery of packages.

Optionally, the first assembly device comprises an imaging module, the method further comprising an imaging module.
It includes a step of confirming the delivery person's information and updating the delivery person's information to the distribution chain through the image pickup module.

By adopting the above technical plan, the image pickup module takes a picture of the delivery person, further confirms the image information of the delivery person obtained by taking a picture, and confirms that the identity of the delivery person is correct, and then the information of the delivery person. On the one hand, ensure that the identity of the delivery person is correct, and on the other hand, allow the consignee to know the information of the delivery person in advance, further fulfilling the role of information disclosure in the distribution chain. ..

Optionally, the second assembly device comprises a verification module, the method further comprising:
After verifying the second assembly device via the verification module and succeeding in the verification, a communication connection is established with the second assembly device via the short-range communication module based on a preset connection rule. Includes a step that continues to execute the above steps.

By adopting the above technical proposal, after the delivery person transports the assembly box to a predetermined position according to the delivery destination given from the distribution chain, the delivery person verifies the second assembly device via the verification module and receives the goods. After proving that there are no mistakes, the luggage will be delivered to ensure the normal delivery of the luggage.

According to the second aspect, the present application provides a physical distribution information update system and adopts the following technical proposal.
It is a physical distribution information update system and includes a cloud platform, an assembly box, a first assembly device, and a second assembly device, the assembly box includes a short-range communication module, and the short-range communication module is a first assembly. Used to establish communication connections with the equipment and the second assembly equipment, respectively, the first assembly equipment is located at the shipping location, the second assembly equipment is located at the receiving location, and a distribution chain is built on the cloud platform. The cloud platform is connected to the first assembly device and the second assembly device via the Internet, and the cloud platform acquires physical distribution information from the first assembly device and the second assembly device to update the physical distribution chain.

Optionally, the first assembly device includes a scanning module, the scanning module is used to scan a load to obtain scanning information, and the cloud platform obtains scanning information from the first assembly device and scans. Used to generate baggage information informed.

According to the third aspect, the present application provides an assembly box.
An assembly box including a housing for loading and transporting luggage, the housing is provided with a short-range communication module, and the short-range communication module has a radio frequency in which assembly box information is preset. Includes tags.

As described above, the present application includes at least one of the following beneficial technical effects: From the start of package assembly to the delivery of the package, related information such as assembly box information and package information can be updated to the distribution chain without the need for the delivery person to manually enter it, saving the time spent by the delivery person entering information. , Significantly improve logistics efficiency.

It is a schematic structural drawing of the assembly box of the Example of this application. It is a block diagram of the system of the embodiment of this application. It is a structural block diagram of the 1st assembly apparatus of the Example of this application. It is a structural block diagram of the 2nd assembly apparatus of the Example of this application.

Hereinafter, the present application will be described in more detail with reference to FIGS. 1 to 4.

An embodiment of the present application discloses an assembly box, and referring to FIG. 1, the assembly box includes a housing 11, a short-range communication module 12 is fixed to the housing 11, and the short-range communication module 12 is a radio frequency tag. including. The assembly box information is pre-written in the radio frequency tag, and the assembly box information includes the assembly box number corresponding to the assembly box in which the radio frequency tag is located, and each assembly box number is unique.

An embodiment of the present application further discloses a physical distribution information updating system, which includes a first assembly device 2, a second assembly device 3, and an assembly box 1, with reference to FIG. The first assembly device 2 is provided at the parcel delivery place, and the second assembly device 3 is provided at the consignment place. The assembly box 1 is used to load the package at the place where the package is sent and to transport the package to the place where the package is received.

Referring to FIG. 3, the first assembly device 2 includes a weighing platform 4, and a radio frequency reader / writer 5, a scanning module 6 as a scanner, an imaging module 7 as a camera, and a processor 8 are attached to the weighing platform 4. The scanner, radio frequency reader / writer 5, and camera are all electrically connected to the processor 8. The processor 8 also realizes information interaction with the cloud platform 9 via the Internet.

The weighing platform 4 is used to weigh the cargo, and the weighing platform 4 can be either a mechanical scale or an electronic scale. The difference between a mechanical scale and an electronic scale is that in the case of a mechanical scale, the delivery person needs to read and the weight of the read baggage must be manually input to the processor 8, whereas in the case of an electronic scale, electricity to the processor 8 is required. A specific connection is required, and the electronic scale automatically transmits the load weight to the processor 8 after weighing the load.

The scanner is used to scan the luggage tag on the luggage, read the luggage code stored in the luggage tag, and transmit the luggage code to the processor 8. The luggage tag may be a two-dimensional code or a barcode.

The camera is manually operated to capture the image of the deliverer and transmit the image to the processor 8.

The radio frequency reader / writer 5 matches the radio frequency tag on the assembly box 1, and the radio frequency reader / writer 5 is non-contact and is used to read the information in the radio frequency tag at a short distance. The radio frequency reader / writer 5 is provided with a timekeeping module 10, and the timekeeping module 10 stores the first timekeeping time and the second timekeeping time. When the radio frequency reader / writer 5 recognizes the radio frequency tag, the time counting module 10 starts the countdown of the first time counting time, and the radio frequency tag of the assembly box 1 always has the reading range of the radio frequency reader / writer 5 within the first measuring time. If it is inside, the radio frequency reader / writer 5 transmits the read assembly box information to the processor 8. On the contrary, the radio frequency reader / writer 5 does not transmit the assembly box information to the processor 8. By the way, when the radio frequency tag leaves the reading range of the radio frequency reader / writer 5 after the timekeeping module 10 completes the countdown of the first timekeeping time, the timekeeping module 10 starts the countdown of the second timekeeping time and the second timekeeping. As long as the radio frequency tag returns to the reading range of the radio frequency reader / writer 5 before the time is complete, the timekeeping module 10 will stop timing and when the second timekeeping ends, the radio frequency tag will still be the radio frequency reader. If it does not re-enter the reading range of the writer 5, the timekeeping module 10 sends a reminder to the processor 8, and the processor 8 transmits assembly stop information to the cloud platform 9 in response to the reminder of the timekeeping module 10.

The cloud platform 9 stores the physical distribution order in advance based on the manual operation, and the physical distribution order includes the delivery person information and the package information. The delivery person information includes the delivery person image, the delivery person's name and the contact information, the delivery person image corresponds to the delivery person's contact information, and the delivery person's contact information additionally corresponds to the delivery person's name. The package information includes the package code, the destination of the package, the condition of the package and the weight section of the package. Here, different packages have different package codes. The delivery destination of the package corresponds to the second assembly device 3 of the different shipping location, the weight section of the package is the range value, and when generating the distribution order, manually select the appropriate weight section and enter it in the package tag. , Package status includes signed and unsigned.

When the distribution chain is built in the cloud platform 9 and the distribution is not started, the distribution chain only has a basic framework, and both the cargo information and the delivery person information in the distribution chain are blank, and the distribution chain. The cargo status in is unsigned, and the logistics status of the entire logistics chain has not started loading. After the start of distribution, the cloud platform 9 acquires actual distribution data from the processor 8 to update and improve the distribution chain.

Further, the cloud platform 9 predetermines a route for the delivery person to deliver the package according to the distribution order, and further plans the number of the assembly boxes 1 and the boxing status according to the package status. The basic principle of boxing is to plan packages with the same destination in one assembly box 1 as much as possible, but there are too many packages with the same destination to accommodate all the packages in one assembly box 1. In that case, the extra portion of the luggage is placed in another assembly box 1 with empty space. However, if it is necessary to place the packages corresponding to a certain delivery destination in the assembly boxes 1 corresponding to a plurality of different delivery destinations, one assembly box 1 is individually arranged and the extra package corresponding to the delivery destination is provided. To load. For example, there are currently three batches of packages A, B, and C, where baggage A only needs to occupy half the space in one assembly box 1, and baggage B is the second after occupying one assembly box 1. If 30% of the space of the assembly box 1 is required and the luggage C needs to occupy 80% of the space of one assembly box 1, the extra part of the luggage B is put in the same assembly box 1 together with the luggage A. It can be loaded, and a total of three assembly boxes 1 may be arranged. According to the planned delivery route, if the package A is delivered before the package B, the package B loaded in the same assembly box 1 as the package A affects the removal of the package A from the assembly box 1. Therefore, the luggage B may be placed below the luggage A or on both sides of the assembly box 1 separately from the luggage A. If other conditions do not change, luggage B occupies one assembly box 1 and then requires 70% of the space of the assembly box 1, so the extra luggage B is divided into two parts, luggage A and luggage C, respectively. It is necessary to individually load the extra luggage B into the independent assembly box 1, that is, to arrange a total of four assembly boxes 1. Of course, since the shapes of the packages are different, gaps are likely to be created when different packages are stacked, which reduces the space utilization rate in the assembly box 1 and when specifically allocating, as much as possible according to the actual situation. It is necessary to allocate it reasonably.

The processor 8 has a different response depending on the received data. Specifically, it is as follows.

When the processor 8 receives the assembly box number transmitted from the radio frequency reader / writer 5, the processor 8 generates the assembly start information and transmits it to the cloud platform 9 together with the assembly box information.

When the processor 8 receives the image transmitted from the camera, the processor 8 transfers the image to the cloud platform 9. The cloud platform 9 checks if the image is a delivery person's image, and if so, adds the corresponding delivery person information to the corresponding distribution chain, otherwise the cloud platform 9 warns processor 8. The instruction is sent and the processor 8 warns that the current person does not belong to the deliverer.

When the processor 8 receives the package weight, the processor 8 acquires the package number from the scanner, and the processor 8 uploads the package weight together with the package number to the cloud platform 9. The cloud platform 9 finds the corresponding baggage weight section based on the baggage number, and further determines whether or not the baggage weight is within the weight section. When the cargo weight is within the weight section, the cloud platform 9 generates the waiting delivery information and updates it to the distribution chain together with the corresponding cargo information. If the cargo weight is not within the weight interval, the cloud platform 9 transmits a warning command to the processor 8. By providing a device such as a buzzer or a flashing light on the processor 8 to respond to a warning command, a more remarkable attention effect can be obtained.

Referring to FIG. 4, the second assembly device 3 also includes the weighing platform 4. Similarly, the weighing platform of the second assembly device 3 is provided with a radio frequency reader / writer 5, a scanning module 6, and a processor 8. The radio frequency reader / writer 5, the scanning module 6, and the processor 8 on the second assembly device 3 are structurally and functionally consistent with the radio frequency reader / writer 5, the scanning module 6, and the processor 8 in the first assembly device 2. However, since the second assembly device 3 is applied to the receiving place, it is necessary to verify whether the assembly box 1 and the package are delivered correctly, and the processor 8 on the second assembly device 3 is the first. The usage method is different from that of the processor 8 on the assembly device 2. Further, the verification module 13 is additionally provided on the weighing platform 4 of the second assembly device 3. The verification module 13 is provided with an electronic tag representing a consignee corresponding to each of the verification modules 13.

Before opening the assembly box 1, the delivery person needs to acquire an electronic tag from the verification module 13 using a mobile terminal, and the acquisition method can be various short-range wireless communication methods such as scanning or Bluetooth connection. A communication connection between the assembly box 1 and the second assembly device 3 is established only when the consignee represented by the electronic tag is a consignee who reliably corresponds to the cargo.

The processor 8 on the second assembly device 3 receives the assembly box number transmitted from the radio frequency reader / writer 5, and is used to transmit the assembly box number to the cloud platform 9. The cloud platform 9 checks whether the assembly box number matches the assembly box number stored in the distribution chain. After confirming that there are no errors, the processor 8 further acquires the package number and the electronic tag from the scanner and the verification module 13, respectively, and transmits the electronic tag together with the package number to the cloud platform 9, and the cloud platform 9 receives the package number. Check if there is delivery waiting information corresponding to. After successful reconfirmation, the cloud platform 9 changes the status of the package to signed and at the same time generates delivery completion information, and the cloud platform 9 updates both the electronic tag, the delivery completion information and the package status to the distribution chain. Further, when the assembly box 1 is separated from the second assembly device 3, the processor 8 on the second assembly device 3 does not transmit the assembly stop information.

The embodiment of the present application discloses a method of updating physical distribution information. Logistics information update methods include:
The distribution order is acquired, the number of assembly boxes 1 is determined based on the distribution order, the delivery route is planned, and the assembly box number of the assembly box 1 is directly bound to the package information of the package to be loaded in the assembly box 1. ..

At the place of shipment, the courier places the assembly box 1 on the weighing platform 4 of the first assembly device 2, and the radio frequency reader / writer 5 on the weighing platform 4 reads and reads the radio frequency tag on the assembly box 1. The number is transmitted to the processor 8. The processor 8 transmits the assembly box number to the cloud platform 9. The cloud platform 9 has a communication connection period as the period from receiving the assembly box number to receiving the assembly stop information transmitted from the processor 8, and all the baggage information received by the cloud platform 9 during this period is the current one. Bind to the assembly box number. At the beginning of the period, the cloud platform 9 updates the assembly start information to the distribution chain, and the state of the distribution chain is exchanged from the non-loading start to the assembly start.

To prevent the cloud platform 9 from repeatedly receiving unnecessary information simply by temporarily placing the assembly box 1 in the first assembly device 2 or temporarily disconnecting the assembly box 1 from the first assembly device 2. In, the connection rule between the assembly box 1 and the first assembly device 2 is set in advance, and the timekeeping module 10 is provided in the first assembly device 2 so as to match the connection rule. A timekeeping time and a second timekeeping time are provided. Specifically, when the assembly box 1 is placed in the first assembly device 2, the radio frequency reader / writer 5 can recognize the radio frequency tag, the clock module 10 starts the countdown of the first clock time, and the assembly is performed. Unless the box 1 leaves the first assembly device 2 within the first timekeeping time, the communication connection is successfully established and the assembly box number read by the radio frequency reader / writer 5 is transmitted to the processor 8. On the other hand, if the assembly box 1 is separated from the first assembly device 2 and the radio frequency tag is separated from the reading range of the radio frequency reader / writer 5 within the first preset time, the communication connection cannot be successfully established. , The radio frequency reader / writer 5 does not transmit the assembly box number to the processor 8. Further, when the assembly box 1 that has completed the communication connection is disconnected from the first assembly device 2, the communication connection is still maintained, the timekeeping module 10 starts the countdown of the second timekeeping time, and the countdown of the second timekeeping time is started. The timekeeping module 10 stops timing when the radio frequency tag returns to the reading range of the radio frequency reader / writer 5 before the second timekeeping time is completed, as the communication connection is considered to be disconnected only after the end of. , Maintain the communication connection between the assembly box 1 and the first assembly device 2.

Of course, the delivery person can quickly establish a communication connection by manually inputting an operation command to reduce the waiting time.

When the communication connection is completed, the package belonging to the assembly box 1 is selected and transported to the first assembly device 2, and the package is further verified and the delivery person is verified. The method of verifying a package is to first scan the identification tag on the package using a scanner to perform weighing. The processor 8 transfers the cargo code and the cargo weight to the cloud platform 9. The cloud platform 9 matches the corresponding baggage information based on the baggage code, and determines whether or not the baggage weight is within the corresponding baggage weight section. If the weight of the cargo is correct, the cloud platform 9 updates the cargo information to the distribution chain corresponding to the current assembly box 1 and feeds back to the processor 8 to notify the delivery person, and the delivery person makes an error in the weighing. Place the missing luggage in the assembly box 1. If the package does not match the weight section in which the nominal weight is entered, the package will be returned or the transportation cost will be settled.

The delivery person's verification method is that the delivery person operates the camera on the first assembly device 2 to take a picture of himself / herself. The captured image information is automatically transmitted to the cloud platform 9 and verified. If the verification is successful, the cloud platform 9 binds the corresponding delivery person information to the assembly box number.

During the communication connection period, the cloud platform 9 automatically inputs the successfully verified delivery person information into the distribution chain corresponding to the corresponding package number. In the actual assembly process, the order of deliveryer verification and package verification is not required and may be completed during the communication connection period.

After all the luggage corresponding to the current assembly box 1 is loaded into the assembly box 1, the delivery person removes the assembly box 1 from the first assembly device 2, the communication connection is disconnected, and the processor 8 stops assembling on the cloud platform 9. Transmit information.

When the cloud platform 9 receives the assembly stop information, it statistics the delivery destination of the package information and automatically plans the delivery route of the delivery person. The delivery person accesses the cloud platform 9 via the mobile terminal and grasps the delivery route.

When only one package is assembled in the same assembly box 1, the starting point of the distribution chain is the shipping point and the ending point is the receiving point corresponding to the place where the package is placed. When a plurality of packages are assembled in the same assembly box 1, the receiving place farthest from the shipping place becomes the end point of the distribution chain, and the remaining receiving place becomes the intermediate node of the distribution chain. The distribution chain displayed to the consignee by the cloud platform 9 displays only the distribution chain in this section from the shipping place to the corresponding consignee, and does not display all the subsequent distribution chains.

When the delivery person makes a delivery, a plurality of assembly boxes 1 are often transported at one time, and in order to facilitate the transportation, the delivery person loads all the assembly boxes 1 by means of transportation. Then, upon arriving at the receiving place, the delivery person finds and confirms the assembly box 1 corresponding to the current receiving place from the assembly box 1 of the group, and further receives the assembly box 1 confirmed to be correct from the transportation means. It needs to be transported to the ground.

Then, the delivery person verifies the second assembly device 3 at the receiving place, and in the verification method, the delivery person acquires an electronic tag from the verification module 13 using a mobile terminal, and the consignee represented by the electronic tag is a distribution chain. It is to judge whether or not it is a consignee displayed in. If there are no mistakes, it is the consignee's turn to verify that there are no mistakes in the assembly box 1 and the package, and the verification method establishes a communication connection with the second assembly device 3 via the assembly box 1 and the second assembly. Similarly, the device 3 acquires the assembly box number and the package information via the scanner and the radio frequency reader / writer 5, and confirms whether the assembly box number and the package information are accurate on the cloud platform 9. In the verification process, first confirm the assembly box number, and after successful confirmation, further open the assembly box 1 to confirm the luggage, and avoid performing unnecessary operations when the assembly box number is incorrect. On the other hand, in the process of baggage verification, the processor 8 transmits the baggage code to the cloud platform 9 and adds an electronic tag. When it is confirmed that the package is correct, the cloud platform 9 automatically changes the status of the package to signed, updates the electronic tag to the distribution chain, and uses the electronic tag as the signature proof of the consignee. ..

All of the above are preferred embodiments of the present application and do not limit the scope of protection of the present application. Therefore, all equivalent changes based on the structure, shape and principle of the present application should be included in the scope of protection of the present application. Is.

1 ... Assembly box, 11 ... Housing, 12 ... Short range communication module, 2 ... 1st assembly device, 3 ... 2nd assembly device, 4 ... Weighing platform, 5. .. Radio frequency reader / writer, 6 ... scanning module, 7 ... imaging module, 8 ... processor, 9 ... cloud platform, 10 ... timing module, 13 ... verification module.

Claims (7)

It is a physical distribution information update method, and the physical distribution information update method includes a physical distribution box (1), a first loading device (2), a second loading device (3), and a cloud platform (9). Applied to the system, the loading box (1) includes a short-range communication module (12), and the physical distribution information updating method is described.
Based on preset connection rules, the loading box (1) is near, so that the first loading device (2) updates the loading start information and the loading box information in the distribution chain built in the cloud platform. A step of establishing a communication connection with the first loading device (2) via the distance communication module (12), and
After the communication connection between the loading box (1) and the first loading device (2) is established, loading of the cargo into the loading box (1) is started, and the corresponding cargo information is acquired, and the cargo information is obtained. And the step of updating in the distribution chain
A step of updating the delivery waiting information in the distribution chain after placing the package in the loading box (1), wherein the delivery waiting information corresponds to the package and the loading box (1).
After the loading is completed, the loading box (1) is transported to the second loading device (3), and the second loading device (3) is transported via the short-range communication module (12) based on the preset connection rule. ) And the step of establishing the communication connection and the second loading device (3) acquiring the loading box information and the baggage information.
A step of updating the delivery completion information in the distribution chain when the package is taken out.
Logistics information update method characterized by this. Based on the connection rule set in advance, the loading box (1) establishes a communication connection with the first loading device (2) via the short-range communication module (12).
After the step of acquiring the time when the loading box (1) is placed in the first loading device (2) or the loading box (1) is placed in the first loading device (2), the delivery person The step to get the input operation command and
A step of determining whether the time or the operation command satisfies the connection rule, and the like.
The method according to claim 1, wherein the method is characterized by the above. The first loading device (2) includes a scanning module (6), and the distribution information updating method for acquiring package information in the process of placing the package in the loading box (1) by the delivery person is a method.
A step of acquiring scanning information for the baggage and generating the baggage information based on the scanning information.
The method according to claim 2, wherein the method is characterized by the above. When the package information corresponds to a plurality of delivery destinations, the second loading device (3) corresponds to each of the delivery destinations, and when the package is taken out, the delivery completion information is updated in the distribution chain. ,
The step of confirming the luggage corresponding to the second loading device (3) and
If the confirmation is successful, the step of updating the state of the baggage with the baggage in the baggage information, the step of including the signed and unsigned states, and
Including the step of updating the updated baggage information in the distribution chain.
The method according to claim 3, wherein the method is characterized by the above. The method for updating the physical distribution information for confirming the package corresponding to the second loading device (3) is
The step of confirming the delivery waiting information and the loading box information, and
After the confirmation is successful, the step of confirming the luggage corresponding to the second loading device (3) is included.
The method according to claim 4, wherein the method is characterized by the above. The first loading device (2) includes an imaging module (7), and the physical distribution information updating method further comprises.
A step of confirming the delivery person's information and updating the delivery person's information in the distribution chain via the image pickup module (7) is included.
The method according to any one of claims 1 to 5, wherein the method is characterized by the above. The second loading device (3) includes a verification module (13), and the physical distribution information updating method further comprises.
After verifying the second loading device (3) via the verification module (13) and succeeding in the verification, the second loading device (3) is verified via the short-range communication module (12) based on a preset connection rule. Including the step of continuing to execute the above step of establishing a communication connection with the second loading device (3).
The method according to any one of claims 1 to 5, wherein the method is characterized by the above.

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