CN113506057A - Logistics system, method, server and terminal - Google Patents

Abstract

The logistics system comprises a server and a node terminal, wherein the server is used for acquiring order information of an order to be distributed and generating a fulfillment form to be filled and an image code associated with the fulfillment form, the node terminal is used for sending filling information for filling the fulfillment form to the server through scanning the image code when the order to be distributed is transferred to a distribution node of the corresponding node terminal, and the server is used for filling the fulfillment form according to the received filling information. The beneficial effects of this disclosure are: in the fulfillment process of the order to be delivered, the dynamic operation monitoring information of each delivery node can acquire the fulfillment information of each delivery node by scanning the image code to record the tracking information of each delivery node, so that the information full-correlation process of the order in the arrival fulfillment link is realized, and a fulfillment form can be realized to fill the tracking information of the full link in the order delivery process.

Description

Logistics system, method, server and terminal

Technical Field

The present disclosure relates to the field of logistics technologies, and in particular, to a logistics system, a method, a server, and a terminal.

Background

Timeliness has always been a major concern in the logistics industry, where in the traditional logistics distribution industry, timeliness of packages is generally tracked based on the time a logistics package arrives at a logistics center. However, in the delivery scenario of community group buying, the traditional logistics delivery rules are not applicable. For example, as the group purchase in the community is mostly used for distributing fresh products, the traditional logistics rules are difficult to solve the outstanding problems of untimely arrival of the fresh products, difficult process monitoring, link information loss, in-transit product control and the like. The current community group purchase delivery generally records the flow information of each link through various paper documents, so that no correlation exists among the documents, real-time tracking of community group purchase orders cannot be achieved, and the traditional logistics delivery rule is not suitable for community group purchase scenes.

Disclosure of Invention

An object of the present disclosure is to provide a logistics system, a method, a server and a terminal, which solve the above technical problems in whole or in part.

According to a first aspect of embodiments of the present disclosure, there is provided a logistics system, including:

the system comprises a server and node terminals which correspond to distribution nodes one to one;

the server is used for acquiring order information of the order to be distributed, generating a fulfillment form to be filled and an image code associated with the fulfillment form, wherein the fulfillment form comprises form items to be filled corresponding to each distribution node of the order to be distributed;

the node terminal is used for acquiring the fulfillment form by scanning the image code and sending filling information for filling the fulfillment form to the server when the to-be-distributed order flows to a distribution node corresponding to the node terminal;

and the server is used for filling the fulfillment form according to the filling information sent by the node terminal.

In some embodiments, the node terminal is specifically configured to:

responding to the operation of scanning the image code, and displaying the fulfillment form which is filled by the server according to filling information corresponding to the last distribution node;

acquiring input contents for filling in the displayed fulfillment form;

and sending the time information of scanning the image code, the location information of the distribution node and the input content to the server.

In some embodiments, the server is further configured to generate a manifest according to the fulfillment form and the image codes, where the manifest is used for offline printing, the fulfillment form in the printed manifest is used for offline filling of each distribution node, and the image codes in the printed manifest are used for scanning by a node terminal corresponding to each distribution node.

In some embodiments, the order information includes at least one of attribute information of delivered items, each delivery node through which the order to be delivered needs to flow, time window information of arrival at each of the delivery nodes, carrier information of the order to be delivered, supplier procurement plan information, and delivery tool return information.

In some embodiments, each delivery node corresponding to the order to be delivered includes at least one of a warehouse node, a transportation node, a return node, a merchant node, and a delivery tool return node;

when the distribution node comprises the warehouse node, the fulfillment form comprises at least one form item corresponding to the warehouse node as follows:

the system comprises the steps of warehouse arrival time, vehicle registration information, unloading time, unloading place, quality inspection time, quality inspection result information and warehouse receipt information;

when the distribution node comprises the transport node, the fulfillment form comprises at least one form item corresponding to the transport node as follows:

transportation vehicle information, transportation personnel information and transportation track information;

when the delivery node comprises the return node, the fulfillment form comprises at least one form item corresponding to the return node as follows:

return order information and return type information;

when the distribution node comprises the merchant node, the fulfillment form comprises at least one form item corresponding to the merchant node as follows:

the merchant signing-in time, the merchant signing-in personnel information and the merchant receiving information;

when the delivery node includes the delivery instrument return node, the fulfillment form includes at least one form item corresponding to the delivery instrument return node as follows:

the number of delivery instrument returns, the delivery instrument return time, the delivery instrument transportation information, and the delivery instrument return destination.

According to a second aspect of the embodiments of the present disclosure, a logistics method is provided, which is applied to a logistics system, where the logistics system includes a server and node terminals corresponding to distribution nodes one to one; the method comprises the following steps:

the server acquires order information of an order to be distributed, generates a fulfillment form to be filled and image codes associated with the fulfillment form, wherein the fulfillment form comprises form items to be filled corresponding to distribution nodes of the order to be distributed;

when the to-be-distributed order flows to a distribution node corresponding to the node terminal, the node terminal obtains the fulfillment form by scanning the image code and sends filling information for filling the fulfillment form to the server;

and the server fills the fulfillment form according to the filling information sent by the node terminal.

In some embodiments, when the to-be-delivered order flow arrives at a delivery node corresponding to the node terminal, the node terminal sends filling information for filling the fulfillment form to the server by scanning the image code, including:

responding to the scanned image code, and displaying the fulfillment form which is filled by the server according to filling information corresponding to the last distribution node;

acquiring input contents for filling in the displayed fulfillment form;

and sending the time information of scanning the image code, the location information of the distribution node and the input content to the server.

In some embodiments, the method further comprises:

and the server generates a freight note according to the fulfillment form and the image codes, wherein the freight note is used for printing offline, the fulfillment form in the printed freight note is used for offline filling of each distribution node, and the image codes in the printed freight note are used for scanning of a node terminal corresponding to each distribution node.

According to a third aspect of embodiments of the present disclosure, there is provided a server configured as the server in the logistics system according to any one of the above embodiments.

According to a fourth aspect of the embodiments of the present disclosure, there is provided a terminal configured as a node terminal in the logistics system as described in any one of the above embodiments.

According to the technical scheme, the fulfillment form to be filled and the image code associated with the fulfillment form are generated according to the order information of the order to be distributed, so that the order information of the order to be distributed and the list items required to be executed by each distribution node in the circulation process of the order to be distributed can be integrated on the image code, in the fulfillment process of the order to be distributed, dynamic operation monitoring information of each distribution node such as delivery, arrival, receipt and warehousing acceptance can be obtained by scanning the image code to record the tracking information of each distribution node, the full association process of the person-goods-vehicle information of the order in the arrival fulfillment link is realized, and the tracking information of the full link filled by one fulfillment form can be realized in the order distribution process. Moreover, by using the image code, the flow handover link in the community group purchase scene can be reduced, the operation flow can be simplified, and unnecessary flow documents can be avoided.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure without limiting the disclosure. In the drawings:

FIG. 1 is a schematic diagram of the structure of a proposed logistics system in accordance with an exemplary embodiment;

FIG. 2 is a schematic illustration of a proposed manifest according to an exemplary embodiment;

FIG. 3 is a schematic flow diagram of a proposed logistics system in accordance with an exemplary embodiment;

FIG. 4 is a schematic flow diagram of a proposed logistics system in accordance with an exemplary embodiment;

FIG. 5 is a block diagram of a server in accordance with an exemplary embodiment;

fig. 6 is a block diagram illustrating a terminal according to an example embodiment.

Detailed Description

The following detailed description of specific embodiments of the present disclosure is provided in connection with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

Fig. 1 is a schematic view of the structure of a proposed logistics system according to an exemplary embodiment. As shown in fig. 1, the logistics system may include a server 1900 and node terminals 700 corresponding to distribution nodes one by one, wherein the node terminals 700 and the server 1900 may communicate with each other through a communication network 800.

In the logistics system, the server 1900 is configured to obtain order information of an order to be delivered, and generate a fulfillment form to be filled and an image code associated with the fulfillment form, where the fulfillment form includes form items to be filled in corresponding to each delivery node of the order to be delivered;

the node terminal 700 is configured to, when the to-be-delivered order flow is forwarded to a delivery node corresponding to the node terminal 700, obtain the fulfillment form by scanning the image code and send filling information for filling the fulfillment form to the server 1900;

the server 1900 is configured to fill the fulfillment form according to the filling information sent by the node terminal 700.

Here, when acquiring order information of an order to be delivered, server 1900 generates a fulfillment form and an image code according to the order information of the order to be delivered, and associates the image code with the fulfillment form. The generation of the fulfillment form may specifically be to generate the fulfillment form to be filled in by combining a preset form template based on the order information of the order to be delivered. The fulfillment form includes form items to be filled in corresponding to distribution nodes to which the order to be distributed needs to be transferred. For example, the delivery nodes through which the order to be delivered needs to flow include a warehouse node and a transportation node, and the fulfillment form includes form items that the warehouse node and the transportation node need to fill. It should be understood that the form item of each delivery node may be different for each different delivery node, and the form item refers to an operation task that each delivery node needs to complete for an order to be delivered when the delivery node receives the order to be delivered. For example, for a warehouse node, it needs to complete the tasks of unloading, quality inspection, receiving, etc.

In some examples, order information for orders to be delivered may be sent by the supplier to server 1900. For example, before shipping, the supplier selects order information of an order to be shipped and sends the order information to server 1900, and server 1900 receives the order information, and generates a fulfillment form and an image code associated with the fulfillment form. The image code may be a bar code, a two-dimensional code, a three-dimensional code, or the like. The image code, when scanned by the node terminal 700, may display a fulfillment form associated with the image code on the node terminal 700.

It should be noted that the order information of the order to be delivered may include at least one of attribute information of delivered items, each delivery node through which the order to be delivered needs to flow, time window information of arrival at each delivery node, carrier information of the order to be delivered, supplier purchase and sale plan information, and delivery tool return information.

The attribute information of the delivered goods may include information such as a name of a supplier of the delivered goods, a place of production, a quantity, a type, and a date of production of the delivered goods. By setting the attribute information of the delivered articles, each delivery node can master various information of products to be delivered by the order to be delivered, so that corresponding operation is executed based on the attribute information of the delivered articles. For example, for a warehouse node, it needs to check the order to be delivered according to the attribute information of the delivered items. Each delivery node through which the order to be delivered needs to flow refers to each delivery node to which the order to be delivered needs to flow when delivered to the destination, and for example, for a community group purchase order, the delivery nodes may include: supplier-collaborative warehouse-regional distribution center-grid station-group station, etc. By setting each distribution node which needs to flow through, after the current distribution node finishes filling information of the current distribution node, the current distribution node can also know the next distribution node to which the order to be distributed needs to be circulated, so that the order to be distributed is sent to the next distribution node. The time window information refers to the time when the order to be delivered is expected to arrive at each delivery node, and the time window information may be the empty window time of the delivery node reserved according to the order processing capacity of each delivery node. For example, for a warehouse node, a window of time for an order to be delivered to reach the warehouse node may be reserved according to the amount of orders that the warehouse node needs to accept within a day. The carrier information refers to transportation information for taking up the order to be delivered for transportation, and may include transportation vehicle information, transportation person information, and the like. The carrier information may be transportation information selected when the supplier delivers the goods to the warehouse, and the order to be delivered is delivered from the supplier to the warehouse node. Of course, the delivery information may also include delivery information for arranging transportation vehicles in the warehouse after the order to be delivered arrives at the warehouse node. The supplier procurement and distribution plan information refers to procurement and distribution plans of the commodities provided by the supplier, such as information of procurement quantity, procurement time, sales quantity and the like for various commodities. By associating the supplier acquisition and distribution plan information in the fulfillment form, other nodes can know the acquisition and distribution plan of the supplier in the circulation process of the order to be distributed, and therefore follow-up sales tasks are arranged according to the acquisition and distribution plan. The delivery tool return information refers to delivery tool information which needs to be returned to the supplier and is used for delivering the orders to be delivered, such as the number of turnover boxes and insulation boxes which need to be returned. After the warehouse obtains the return information of the distribution tools through scanning the image codes, the corresponding quantity of distribution tools can be returned to the suppliers according to the return information of the distribution tools.

It should be noted that the image code is actually used as an information container code of the order to be delivered, and all information for completing the delivery of the order to be delivered, such as attribute information of the delivered article, information of each delivery node through which the order to be delivered needs to flow, information of a time window for reaching each delivery node, information of the carrier of the order to be delivered, information of a supplier purchase and sale plan, and information of a delivery tool return, are associated with the image code. Meanwhile, the image code is also used as an information tracking code of the order to be delivered, and in the circulation process of the order to be delivered, the filling information required to be filled in by each delivery node is sent to the server 1900 through scanning the image code in the whole process, so that the information tracking is performed in the whole circulation process of the order to be delivered.

When the order flow to be delivered is forwarded to the delivery node, the node terminal 700 corresponding to the delivery node scans the image code corresponding to the order to be delivered, obtains a fulfillment form corresponding to the image code, and sends filling information for filling the fulfillment form to the server 1900. In some examples, the filling information may be that the node terminal 700 automatically transmits the pre-stored filling information to the server 1900 when the node terminal 700 scans the image code. For example, when the node terminal 700 scans the image code, the node terminal 700 transmits the time when the image code was scanned, the number of the node terminal 700, and the position of the node terminal 700 to the server 1900. Of course, in other examples, the filling information may be content input on the node terminal 700 by the user when the node terminal 700 scans the image code. As for the warehouse node, it may enter actual quantity of receipts, quality inspection results, signature information, etc.

It should be noted that, when the node terminal 700 scans the image code of the order to be delivered, the table entry corresponding to the node terminal 700 that scans the image code may be displayed on the node terminal 700. For example, for the node terminal 700 of the warehouse node, which scans the image code, the corresponding list item of the warehouse node is displayed. Of course, when the node terminal 700 scans the image code of the order to be delivered, the form item of each delivery node and the filling information associated with each delivery node may also be displayed on the node terminal 700. For example, for the node terminal 700 of the warehouse node, which scans the image code, the form items of each delivery node, such as the warehouse node and the transportation node, can be displayed.

Server 1900, upon receiving the filling-in information transmitted from node terminal 700, fills in the fulfillment form based on the filling-in information. Filling the fulfillment form according to the filling information refers to associating the filling information sent by the node terminal 700 corresponding to each distribution node with the fulfillment form.

Therefore, the fulfillment form to be filled and the image code associated with the fulfillment form are generated according to the order information of the order to be delivered, so that the order information of the order to be delivered and the form items to be executed of each delivery node in the circulation process of the order to be delivered can be integrated on the image code, in the fulfillment process of the order to be delivered, dynamic operation monitoring information of each delivery node such as delivery, arrival, receipt and warehousing acceptance can be obtained by scanning the image code to record the tracking information of each delivery node, the fulfillment information full association process of the person-cargo-vehicle information of the order in the arrival fulfillment link is realized, and the tracking information of the full link can be filled in one fulfillment form in the order delivery process. Moreover, by using the image code, the flow handover link in the community group purchase scene can be reduced, the operation flow can be simplified, and unnecessary flow documents can be avoided.

In some implementation implementations, the node terminal 700 is specifically configured to:

in response to the operation of scanning the image code, displaying the fulfillment form filled by the server 1900 according to the filling information corresponding to the last distribution node;

acquiring input contents for filling in the displayed fulfillment form;

the time information of scanning the image code, the location information of the distribution node, and the input content are transmitted to the server 1900.

Here, the node terminal 700 may be a terminal device such as a scan gun, a mobile terminal, or the like. When the order flow to be distributed is transferred to the distribution node, the node terminal 700 of the distribution node scans the image code of the order to be distributed, and displays the fulfillment form associated with the image code on the node terminal 700. The fulfillment form may be a fulfillment form filled by server 1900 according to the filling information corresponding to the previous distribution node, that is, a form item filled by the previous distribution node is displayed in the current distribution node. The fulfillment form may be displayed through a display screen disposed on the node terminal 700. When the node terminal 700 displays the fulfillment form, the staff of the distribution node may fill in according to the form items that need to be fulfilled corresponding to the distribution node where it is located. Such as inputting filling information through an information input device, such as a keyboard, a touch screen, etc., provided on the node terminal 700. After the node terminal 700 acquires the input content, the time information of the image code scanned by the node terminal 700, the location information of the distribution node, and the acquired input content are transmitted to the server 1900, so that the server 1900 associates the time information of the image code scanned by the node terminal 700, the location information of the distribution node, and the acquired input content with the fulfillment form corresponding to the image code.

It should be noted that the time information when the node terminal 700 scans the image code and the location information of the distribution node may be automatically transmitted to the server 1900 when the node terminal 700 scans the image code. For example, when the to-be-delivered order flow is delivered to each delivery node, and the node terminal 700 scans the image code of the to-be-delivered order, the node terminal 700 sends the time information and the location information of the image code scanned by the node terminal 700 to the server 1900. The node terminal 700 may record the job start time and the job end time of each distribution node by sending the time information of the scanned image code, so that the platform service provider can monitor the fulfillment process of the order to be distributed on the background. For example, when the current delivery node receives an order to be delivered, the image code is scanned, and the work flow of the current delivery node is started, and when the order to be delivered is transferred from the current delivery flow to the next delivery node, the current delivery node scans the image code, and the work flow of the current delivery node is ended.

In addition, the corresponding form items may be different for different distribution nodes. For example, for a warehouse node, the warehouse node may include a plurality of child nodes, such as a check-in-to-warehouse node, a drop-off node, a quality inspection node, a receiving node, and so forth. For the entry register node, its corresponding form item may include the registration information of the arrival of the order to be delivered at the warehouse, and for the node terminal 700 of the entry register node, when the order to be delivered arrives at the warehouse, it acquires the form item that it needs to fulfill by scanning the image code and fills in the form item. For example, time information of arrival of the order to be delivered at the warehouse, signature information of a worker who receives the order to be delivered, and the like are registered. The signature information may be an electronic signature or a handwritten signature input by the staff through the node terminal 700.

In some implementation embodiments, the server 1900 is further configured to generate a manifest according to the fulfillment form and the image code, where the manifest is used for offline printing, the fulfillment form in the printed manifest is used for offline filling of each distribution node, and the image code in the printed manifest is used for scanning by the node terminal 700 corresponding to each distribution node.

Here, the related concepts of the fulfillment form and the image code have been described in detail in the above embodiments, and are not described again here. For the freight note, it is circulated along with the order to be distributed, and when the freight note is circulated to each distribution node, the distribution node scans the image code on the freight note, and transmits the time information of scanning the image code, the location information of the distribution node, and the input content to the server 1900. Meanwhile, the delivery node can also fill in the form item corresponding to the delivery node on the freight note, so that in the delivery process of the order to be delivered, the information generated by the full-flow node of the order to be delivered is tracked through the freight note.

It is noted that the number of the manifest may be one or more, which may be determined according to actual circumstances. For example, a manifest may be printed during a delivery process, and used when the order flow to be delivered is transferred to different delivery nodes. Of course, in one delivery process, a plurality of freight sheets may be printed, and when the order flow to be delivered is transferred to different delivery nodes, the freight sheets corresponding to the delivery nodes are used respectively.

FIG. 2 is a schematic illustration of a proposed manifest according to an exemplary embodiment. As shown in fig. 2, the manifest may include image codes, supplier information, carrier information, return information, merchandise information, form items to be filled in by each delivery node, and the like. The form items to be filled in by each distribution node are the form items such as the amount of receipts, the information of the returned goods, the signature of the receiver and the telephone. For example, when the order flow to be delivered is transferred to the warehouse node, the driver transporting the order flow to be delivered presents the freight note, the staff of the warehouse node scans the image code on the freight note through the node terminal 700, sends the time information of the scanned image code of the warehouse node and the location information of the warehouse node to the server 1900, and executes the operation task that the warehouse node needs to complete according to the list item that the warehouse node needs to execute on the freight note, such as checking and accepting the goods of the order flow to be delivered.

It should be understood that the manifest shown in fig. 2 is only used for illustrating the manifest of the logistics system proposed in the present disclosure, and is not used for limiting the fulfillment form and the form items proposed in the present disclosure, and in a specific implementation process, the format of the manifest, the form items corresponding to each distribution node may be set according to actual situations.

In some implementations, each delivery node corresponding to the order to be delivered includes at least one of a warehouse node, a transportation node, a return node, a merchant node, and a delivery tool return node.

Here, for the community group purchase scenario, the delivery node of the community group purchase order includes at least one of a warehouse node, a transportation node, a return node, and a merchant node. Each distribution node may also include a plurality of sub-nodes, for example, the warehouse node may include a warehouse registration node, a discharge node, a quality inspection node, a receiving node, and other sub-nodes. For each delivery node, when scanning the image code, it can obtain the list item that the delivery node needs to fulfill, for example, for the arrival registration node, which scans the image code presented by the driver, registers the arrival time of the order to be delivered at the warehouse.

When the distribution node comprises the warehouse node, the fulfillment form comprises at least one form item corresponding to the warehouse node as follows:

arrival time, vehicle registration information, unloading time, unloading place, quality inspection time, quality inspection result information, and warehouse receipt information.

Here, the time to warehouse refers to the time that the order to be delivered arrives at the platform facilitator's warehouse from the supplier. The vehicle registration information refers to vehicle registration information, such as a license plate number, driver information, etc., of the transportation vehicle that transports the order to be dispensed. The time to unload is the time to unload the order to be delivered after it arrives at the warehouse. The unloading place refers to the unloading place of the order to be delivered after the order to be delivered arrives at the warehouse, such as the information of the unloading platform number and the like. The quality inspection time refers to the time for quality inspection of the order to be distributed by the quality control personnel. The quality inspection result information refers to information for quality inspection of the order to be delivered by the quality control personnel, such as the production date of the commodity, the sampling inspection result and the like. The warehouse sign-in information refers to information for signing in the to-be-delivered order by a warehouse consignee, such as the receivable quantity, the real receiving quantity and the like.

In this case, the time information related to the warehouse node, such as the time to the warehouse and the quality inspection time, may be transmitted to the server 1900 by scanning the image code using the node terminal 700 at the start of the operation flow. For example, at the start of quality inspection, the quality control person scans the image code using the node terminal 700, and the node terminal 700 automatically transmits the quality inspection start time to the server 1900, and at the end of quality inspection, the quality control person scans the image code using the node terminal 700, and the node terminal 700 automatically transmits the quality inspection end time to the server 1900.

When the distribution node comprises the transport node, the fulfillment form comprises at least one form item corresponding to the transport node as follows:

transport vehicle information, transport person information, and transport track information.

Here, the transportation node may refer to any flow of transporting the order to be delivered. For example, the transportation node may be a distribution node that is transported from a supplier to a warehouse, or may be a distribution node that is transported from a warehouse to a merchant. The transportation vehicle information may include information such as a license plate number of the transportation vehicle, a fleet to which the transportation vehicle belongs, and the like, and the transportation person information may include identity information of the transportation person and the like. The transportation track information refers to a real-time track of the vehicle for transporting the order to be delivered. In some examples, when the driver receives the order to be delivered, the driver scans an image code of the order to be delivered, and the node terminal 700 associates a real-time track of a vehicle corresponding to the node terminal 700 in the TMS (transportation management system) with the image code, so as to send transportation track information of the vehicle transporting the order to be delivered to the server 1900 in real time, thereby realizing real-time on-the-way monitoring of the order to be delivered.

When the delivery node comprises the return node, the fulfillment form comprises at least one form item corresponding to the return node as follows:

return order information and return type information.

Here, the return node may be a return flow initiated by the warehouse, or may be a return flow initiated by the merchant, and in a group purchase scenario of the community, the merchant may refer to a group leader. The return type information refers to a type of initiating return, which may be a warehouse-initiated return type, and is marked as a "warehouse return" type in the freight note shown in fig. 3, or a merchant-initiated return type, and is marked as a "customer return" type in the freight note shown in fig. 3. The return note information refers to the serial number of the return note initiating the return, other return information, and the like, and when the return note information is obtained, if the return note serial number is obtained, the return note corresponding to the return note serial number may be associated with the image code of the order to be delivered.

When the distribution node comprises the merchant node, the fulfillment form comprises at least one form item corresponding to the merchant node as follows:

the merchant signing-in time, the merchant signing-in personnel information and the merchant receiving information.

Here, the merchant sign-in time refers to the time when the order to be delivered arrives at the merchant site, the merchant sign-in person information refers to the identity information of the person who signs in the order to be delivered, and the merchant receipt information refers to the relevant information for the merchant to check the order to be delivered, such as the number of actually signed-in goods.

When the delivery node includes the delivery instrument return node, the fulfillment form includes at least one form item corresponding to the delivery instrument return node as follows:

the number of delivery instrument returns, the delivery instrument return time, the delivery instrument transportation information, and the delivery instrument return destination.

Here, the delivery tool returning node may be a warehouse for storing the delivery tools, and it should be understood that the related concepts of the delivery tools have been described in detail in the above embodiments, and are not described in detail herein.

The delivery tool return number refers to the number of delivery tools actually returned to the supplier by the delivery tool return node, the delivery tool return time refers to the start time and the expected arrival time of the delivery tool return node returning the delivery tools to the supplier, the delivery tool transportation information refers to the relevant information for transporting the delivery tools, including but not limited to vehicle information, driver information, transportation track information and the like of transporting the delivery tools, and the delivery tool return destination refers to the destination of the supplier returned by the delivery tools, wherein the delivery tool return destination may be a warehouse of the supplier or a node dedicated to storing the delivery tools.

It should be understood that the delivery tool return node may obtain relevant delivery tool return information when scanning the image code, and fill out a corresponding form item according to the delivery tool return information to determine the delivery tool returned to the supplier.

The above-described embodiment will be described in detail with reference to fig. 3.

Fig. 3 is a schematic flow diagram of a proposed logistics system in accordance with an exemplary embodiment. As shown in fig. 3, for the delivery of the supplier, the workflow may include: the method comprises the steps of appointed delivery, warehouse entry, appointed unloading, quality inspection, receiving inspection and confirmed warehouse departure. In the whole operation flow, the related document flows are all the fulfillment forms, and the fulfillment forms can be electronic units or off-line freight notes. The image code is used for showing in the whole operation flow and is used as a certificate for information acquisition and association.

For the job flow of the scheduled delivery, the operation flow can be triggered by the supplier. Before delivery, a supplier generates an image code and a fulfillment form by selecting at least one of attribute information of delivered articles, each delivery node through which the order to be delivered needs to flow, time window information of arrival at each delivery node, carrier information of the order to be delivered, supplier acquisition and distribution plan information, and delivery tool return information, and prints the image code and the fulfillment form as a delivery order carrying the image code.

For the job flow to the warehouse registration, the operation flow may be a flow in which the driver of the transportation node transports the order to be delivered to the warehouse. When the driver arrives at the warehouse, it presents the image code, and then the registrant transmits the arrival time of the order to be delivered, the vehicle registration information to the server 1900 by scanning the image code.

For the operation flow of the scheduled unloading, the operation flow may be that after the registration of the information is completed by the registration staff, the delivery node to which the warehouse staff belongs reserves the unloading time and the unloading location for the to-be-delivered order, and sends the unloading time and the unloading location to the server 1900 by scanning the image code.

For the unloading operation process, the operation process may be that the driver unloads the goods at a specified location according to the scheduled unloading time and the unloading location, during the unloading process, the transport node where the driver is located displays the image code, the receiver of the unloading node scans the image code, and sends the unloading start time of the order to be delivered to the server 1900.

The operation flow of the quality inspection may be such that the quality inspection node transmits the quality inspection start time and the quality inspection end time to the server 1900 by scanning the image code at the start and end of the quality inspection, and may transmit the quality inspection result information to the server 1900 by scanning the image code at the end of the quality inspection.

The operation flow of the receiving operation may be that the receiver of the receiving node scans the image code at the start and end of the receiving and transmits the receiving start time and the receiving end time to the server 1900.

For the operation flow of acceptance check of the received goods, the operation flow may be that the receiver of the receiving node generates a receipt by the form item filled according to the actual receiving information, and sends the receipt to the server 1900 by scanning the image code, so that the server 1900 associates the received receipt with the order to be delivered.

For the operation flow of confirming the departure from the warehouse, the operation flow can be that a driver of the transport node confirms a receipt, and after the receipt is confirmed, a warehouse clerk of the warehouse node completes the receipt by scanning the image code and filling in related form items.

Fig. 4 is a schematic flow diagram of a proposed logistics system in accordance with an exemplary embodiment. As shown in fig. 4, an embodiment of the present disclosure provides a logistics method, which is applied to a logistics system, where the logistics system includes a server and node terminals corresponding to distribution nodes one by one; the method comprises the following steps:

step 210, the server obtains order information of an order to be delivered, and generates a fulfillment form to be filled and an image code associated with the fulfillment form, where the fulfillment form includes form items to be filled corresponding to each delivery node of the order to be delivered;

step 220, when the to-be-distributed order flow is transmitted to a distribution node corresponding to the node terminal, the node terminal obtains the fulfillment form by scanning the image code and sends filling information for filling the fulfillment form to the server;

step 230, the server fills the fulfillment form according to the filling information sent by the node terminal.

In some possible implementation manners, in step 220, when the to-be-delivered order flow is forwarded to a delivery node corresponding to the node terminal, the sending, by scanning the image code, filling information for filling the fulfillment form to the server includes:

responding to the operation of scanning the image code, and displaying the fulfillment form which is filled by the server according to filling information corresponding to the last distribution node;

acquiring input contents for filling in the displayed fulfillment form;

and sending the time information of scanning the image code, the location information of the distribution node and the input content to the server.

In some implementations, the method further includes:

and the server generates a freight note according to the fulfillment form and the image codes, wherein the freight note is used for printing offline, the fulfillment form in the printed freight note is used for offline filling of each distribution node, and the image codes in the printed freight note are used for scanning of a node terminal corresponding to each distribution node.

In some implementations, the order information includes at least one of attribute information of delivered items, each delivery node through which the order to be delivered needs to flow, time window information of arrival at each delivery node, carrier information of the order to be delivered, supplier procurement plan information, and delivery tool return information.

In some implementation embodiments, each delivery node corresponding to the order to be delivered includes at least one of a warehouse node, a transportation node, a return node, a merchant node, and a delivery tool return node;

when the distribution node comprises the warehouse node, the fulfillment form comprises at least one form item corresponding to the warehouse node as follows:

the system comprises the steps of warehouse arrival time, vehicle registration information, unloading time, unloading place, quality inspection time, quality inspection result information and warehouse receipt information;

when the distribution node comprises the transport node, the fulfillment form comprises at least one form item corresponding to the transport node as follows:

transportation vehicle information, transportation personnel information and transportation track information;

when the delivery node comprises the return node, the fulfillment form comprises at least one form item corresponding to the return node as follows:

return order information and return type information;

when the distribution node comprises the merchant node, the fulfillment form comprises at least one form item corresponding to the merchant node as follows:

the merchant signing-in time, the merchant signing-in personnel information and the merchant receiving information;

when the delivery node includes the delivery instrument return node, the fulfillment form includes at least one form item corresponding to the delivery instrument return node as follows:

the number of delivery instrument returns, the delivery instrument return time, the delivery instrument transportation information, and the delivery instrument return destination.

The implementation of the steps of the logistics method is described in detail in the section of the logistics system, and is not described herein.

According to an embodiment of the present disclosure, there is provided a server configured as a server in the logistics system as described in any one of the above implementations.

Fig. 5 is a block diagram of a server according to an example embodiment. As shown in fig. 5, the server 1900 includes a processor 1922, which may be one or more in number, and a memory 1932 for storing computer programs executable by the processor 1922. The computer program stored in memory 1932 may include one or more modules that each correspond to a set of instructions. Further, the processor 1922 may be configured to execute the computer program to perform the method steps performed by the server in the logistics system described above.

According to an embodiment of the present disclosure, there is provided a terminal configured as a node terminal in the logistics system according to any one of the above embodiments.

Fig. 6 is a block diagram illustrating a terminal according to an example embodiment. As shown in fig. 6, the terminal 700 may include: a processor 701 and a memory 702. The terminal 700 can also include one or more of a multimedia component 703, an input/output (I/O) interface 704, and a communication component 705.

The processor 701 is configured to control the overall operation of the terminal 700, so as to complete all or part of the steps performed by the server in the logistics system. The memory 702 is used to store various types of data to support operation of the terminal 700, such as instructions for any application or method operating on the terminal 700 and application-related data, such as electronic signature information, transmitted and received messages, pictures, audio, video, and the like. The Memory 702 may be implemented by any type of volatile or non-volatile Memory device or combination thereof, such as Static Random Access Memory (SRAM), Electrically Erasable Programmable Read-Only Memory (EEPROM), Erasable Programmable Read-Only Memory (EPROM), Programmable Read-Only Memory (PROM), Read-Only Memory (ROM), magnetic Memory, flash Memory, magnetic disk, or optical disk. The multimedia components 703 may include screen and audio components. Wherein the screen may be, for example, a touch screen and the audio component is used for outputting and/or inputting audio signals. For example, the audio component may include a microphone for receiving external audio signals. The received audio signal may further be stored in the memory 702 or transmitted through the communication component 705. The audio assembly also includes at least one speaker for outputting audio signals. The I/O interface 704 provides an interface between the processor 701 and other interface modules, such as a keyboard, mouse, buttons, etc. These buttons may be virtual buttons or physical buttons. The communication component 705 is used for wired or wireless communication between the terminal 700 and other devices. Wireless Communication, such as Wi-Fi, bluetooth, Near Field Communication (NFC), 2G, 3G, 4G, NB-IOT, eMTC, or other 5G, etc., or a combination of one or more of them, which is not limited herein. The corresponding communication component 705 may thus include: Wi-Fi module, Bluetooth module, NFC module, etc.

In an exemplary embodiment, the terminal 700 may be implemented by one or more Application Specific Integrated Circuits (ASICs), Digital Signal Processors (DSPs), Digital Signal Processing Devices (DSPDs), Programmable Logic Devices (PLDs), Field Programmable Gate Arrays (FPGAs), controllers, microcontrollers, microprocessors or other electronic components for performing all or part of the steps performed by the servers in the logistics system.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various combinations that are possible in the present disclosure are not described again.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (10)

1. A logistics system, comprising:

the system comprises a server and node terminals which correspond to distribution nodes one to one;

the server is used for acquiring order information of the order to be distributed, generating a fulfillment form to be filled and an image code associated with the fulfillment form, wherein the fulfillment form comprises form items to be filled corresponding to each distribution node of the order to be distributed;

the node terminal is used for acquiring the fulfillment form by scanning the image code and sending filling information for filling the fulfillment form to the server when the to-be-distributed order flows to a distribution node corresponding to the node terminal;

and the server is used for filling the fulfillment form according to the filling information sent by the node terminal.

2. The logistics system of claim 1, wherein the node terminal is specifically configured to:

responding to the operation of scanning the image code, and displaying the fulfillment form which is filled by the server according to filling information corresponding to the last distribution node;

acquiring input contents for filling in the displayed fulfillment form;

and sending the time information of scanning the image code, the location information of the distribution node and the input content to the server.

3. The logistics system of claim 1, wherein the server is further configured to generate a manifest according to the fulfillment form and the image codes, wherein the manifest is used for offline printing, the fulfillment form in the printed manifest is used for offline filling of each distribution node, and the image codes in the printed manifest are used for scanning of a node terminal corresponding to each distribution node.

4. The logistics system of any one of claims 1 to 3, wherein the order information comprises at least one of attribute information of delivered items, each delivery node through which the order to be delivered needs to flow, time window information of arrival at each delivery node, carrier information of the order to be delivered, supplier procurement plan information, and delivery tool return information.

5. The logistics system of any one of claims 1-3, wherein each delivery node corresponding to the order to be delivered comprises at least one of a warehouse node, a transportation node, a return node, a merchant node, and a delivery tool return node;

when the distribution node comprises the warehouse node, the fulfillment form comprises at least one form item corresponding to the warehouse node as follows:

the system comprises the steps of warehouse arrival time, vehicle registration information, unloading time, unloading place, quality inspection time, quality inspection result information and warehouse receipt information;

when the distribution node comprises the transport node, the fulfillment form comprises at least one form item corresponding to the transport node as follows:

transportation vehicle information, transportation personnel information and transportation track information;

when the delivery node comprises the return node, the fulfillment form comprises at least one form item corresponding to the return node as follows:

return order information and return type information;

when the distribution node comprises the merchant node, the fulfillment form comprises at least one form item corresponding to the merchant node as follows:

the merchant signing-in time, the merchant signing-in personnel information and the merchant receiving information;

when the delivery node includes the delivery instrument return node, the fulfillment form includes at least one form item corresponding to the delivery instrument return node as follows:

the number of delivery instrument returns, the delivery instrument return time, the delivery instrument transportation information, and the delivery instrument return destination.

6. A logistics method is characterized in that the logistics method is applied to a logistics system, wherein the logistics system comprises a server and node terminals which are in one-to-one correspondence with distribution nodes; the method comprises the following steps:

the server acquires order information of an order to be distributed, generates a fulfillment form to be filled and image codes associated with the fulfillment form, wherein the fulfillment form comprises form items to be filled corresponding to distribution nodes of the order to be distributed;

when the to-be-distributed order flows to a distribution node corresponding to the node terminal, the node terminal obtains the fulfillment form by scanning the image code and sends filling information for filling the fulfillment form to the server;

and the server fills the fulfillment form according to the filling information sent by the node terminal.

7. The logistics method of claim 6, wherein the node terminal sends filling information for filling the fulfillment form to the server by scanning the image code when the to-be-delivered order flow is forwarded to a delivery node corresponding to the node terminal, and the method comprises:

responding to the operation of scanning the image code, and displaying the fulfillment form which is filled by the server according to filling information corresponding to the last distribution node;

acquiring input contents for filling in the displayed fulfillment form;

and sending the time information of scanning the image code, the location information of the distribution node and the input content to the server.

8. The logistics method of claim 6, further comprising:

and the server generates a freight note according to the fulfillment form and the image codes, wherein the freight note is used for printing offline, the fulfillment form in the printed freight note is used for offline filling of each distribution node, and the image codes in the printed freight note are used for scanning of a node terminal corresponding to each distribution node.

9. A server, characterized in that the server is configured as a server in a logistics system according to any one of claims 1 to 5.

10. A terminal, characterized in that the terminal is configured as a node terminal in a logistics system according to any of claims 1 to 5.

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