WO2018133714A1 - 数据对象信息处理方法、装置及系统 - Google Patents

数据对象信息处理方法、装置及系统 Download PDF

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Publication number
WO2018133714A1
WO2018133714A1 PCT/CN2018/072040 CN2018072040W WO2018133714A1 WO 2018133714 A1 WO2018133714 A1 WO 2018133714A1 CN 2018072040 W CN2018072040 W CN 2018072040W WO 2018133714 A1 WO2018133714 A1 WO 2018133714A1
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Prior art keywords
subsystem
wave
task
identifier
container
Prior art date
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PCT/CN2018/072040
Other languages
English (en)
French (fr)
Inventor
王水民
Original Assignee
阿里巴巴集团控股有限公司
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Application filed by 阿里巴巴集团控股有限公司 filed Critical 阿里巴巴集团控股有限公司
Priority to JP2019538487A priority Critical patent/JP7111723B2/ja
Priority to EP18741343.0A priority patent/EP3573008A4/en
Publication of WO2018133714A1 publication Critical patent/WO2018133714A1/zh
Priority to US16/510,777 priority patent/US11498770B2/en

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    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q30/00Commerce
    • G06Q30/06Buying, selling or leasing transactions
    • G06Q30/0601Electronic shopping [e-shopping]
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G1/00Storing articles, individually or in orderly arrangement, in warehouses or magazines
    • B65G1/02Storage devices
    • B65G1/04Storage devices mechanical
    • B65G1/137Storage devices mechanical with arrangements or automatic control means for selecting which articles are to be removed
    • B65G1/1373Storage devices mechanical with arrangements or automatic control means for selecting which articles are to be removed for fulfilling orders in warehouses
    • B65G1/1378Storage devices mechanical with arrangements or automatic control means for selecting which articles are to be removed for fulfilling orders in warehouses the orders being assembled on fixed commissioning areas remote from the storage areas
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G43/00Control devices, e.g. for safety, warning or fault-correcting
    • B65G43/08Control devices operated by article or material being fed, conveyed or discharged
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G43/00Control devices, e.g. for safety, warning or fault-correcting
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G43/00Control devices, e.g. for safety, warning or fault-correcting
    • B65G43/10Sequence control of conveyors operating in combination
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G47/00Article or material-handling devices associated with conveyors; Methods employing such devices
    • B65G47/34Devices for discharging articles or materials from conveyor 
    • B65G47/46Devices for discharging articles or materials from conveyor  and distributing, e.g. automatically, to desired points
    • B65G47/48Devices for discharging articles or materials from conveyor  and distributing, e.g. automatically, to desired points according to bodily destination marks on either articles or load-carriers
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/418Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM]
    • G05B19/41865Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM] characterised by job scheduling, process planning, material flow
    • GPHYSICS
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    • G06K7/10Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation
    • G06K7/14Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation using light without selection of wavelength, e.g. sensing reflected white light
    • G06K7/1404Methods for optical code recognition
    • G06K7/1408Methods for optical code recognition the method being specifically adapted for the type of code
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    • GPHYSICS
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    • G06Q10/00Administration; Management
    • G06Q10/08Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
    • G06Q10/083Shipping
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q10/00Administration; Management
    • G06Q10/08Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
    • G06Q10/087Inventory or stock management, e.g. order filling, procurement or balancing against orders
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q10/00Administration; Management
    • G06Q10/08Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
    • G06Q10/087Inventory or stock management, e.g. order filling, procurement or balancing against orders
    • G06Q10/0875Itemisation or classification of parts, supplies or services, e.g. bill of materials
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q30/00Commerce
    • G06Q30/06Buying, selling or leasing transactions
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q30/00Commerce
    • G06Q30/06Buying, selling or leasing transactions
    • G06Q30/0601Electronic shopping [e-shopping]
    • G06Q30/0633Lists, e.g. purchase orders, compilation or processing
    • G06Q30/0635Processing of requisition or of purchase orders
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G17/00Conveyors having an endless traction element, e.g. a chain, transmitting movement to a continuous or substantially-continuous load-carrying surface or to a series of individual load-carriers; Endless-chain conveyors in which the chains form the load-carrying surface
    • B65G17/20Conveyors having an endless traction element, e.g. a chain, transmitting movement to a continuous or substantially-continuous load-carrying surface or to a series of individual load-carriers; Endless-chain conveyors in which the chains form the load-carrying surface comprising load-carriers suspended from overhead traction chains
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G47/00Article or material-handling devices associated with conveyors; Methods employing such devices
    • B65G47/52Devices for transferring articles or materials between conveyors i.e. discharging or feeding devices
    • B65G47/60Devices for transferring articles or materials between conveyors i.e. discharging or feeding devices to or from conveyors of the suspended, e.g. trolley, type
    • B65G47/61Devices for transferring articles or materials between conveyors i.e. discharging or feeding devices to or from conveyors of the suspended, e.g. trolley, type for articles

Definitions

  • the present application relates to the field of data object information processing technologies, and in particular, to a data object information processing method, apparatus, and system.
  • O2O Online to Offline
  • O2O refers to the combination of offline business opportunities and the Internet, making the Internet a platform for offline transactions.
  • the processes of goods (services), order placement, and payment have been improved, and the simple e-commerce module has been transferred to higher frequency and life-saving scenarios.
  • the O2O carnival boom has emerged under the impetus of the new model, so the door-to-door delivery (commonly known as “takeaway”), home-grown, and on-site
  • Various O2O modes such as make-up have begun to emerge.
  • the offline store corresponding to the fresh product object may be referred to as a “supermarket”.
  • multiple stalls may be opened in the supermarket, for example, may include a fruit stall, a seafood stall, and the like.
  • the specific items in each stall can be pre-purchased into the supermarket.
  • the fresh product object is usually not packaged in advance according to a standardized packaging tool such as a "meal box". For example, if the product is an apple, the consumer may specify the number of kilograms to be purchased when the order is placed.
  • the supermarket After receiving the order, the supermarket usually needs to perform weighing first, and then perform packaging operations. That is to say, for fresh goods, it is usually after the order is received, and then according to the specifications specified by the order, the process of so-called "processing" can include the weighing of the goods. After the processing is completed, it is packaged and waiting for delivery.
  • the present application provides a data object information processing method, apparatus, and system, which can improve the efficiency of the first operation and the second operation, and can better ensure delivery timeliness.
  • a data object information processing system includes:
  • An order processing subsystem for merging multiple eligible items into the same wave according to preset rules for merging multiple eligible items into the same wave according to preset rules
  • the first operation task generation subsystem is configured to classify the data objects included in each order of the same wave according to different first operation areas of the corresponding goods, and generate a plurality of first operation tasks according to the classification result, and assign to Corresponding first operation execution subsystem;
  • the first operation execution subsystem is configured to receive the task identifier of the current first operation task and the associated task after the first operation task is completed and the first operation container has been linked to the message on the suspension chain.
  • the wave number identification of the wave is notified to the suspension chain conveying subsystem; the first operation container stores the goods corresponding to the current first operation task;
  • the hanging chain conveying subsystem is disposed in an offline store, the offline store includes a plurality of first operating regions, and a plurality of second operating regions, the hanging chain conveying subsystem includes a control component and a conveying track
  • the transport track is configured to connect the first operation area and the second operation area;
  • the control component is configured to: after receiving the notification message of the first operation execution subsystem, perform the first according to the wave identifier
  • a data object information processing method includes:
  • the first operation task generation subsystem receives the wave information to be operated, wherein the plurality of orders that meet the preset condition are merged into the same wave;
  • Data objects included in each order of the same wave are classified according to the first operation area of the corresponding goods;
  • the first operational execution subsystem generates a plurality of first operational tasks according to the classification result, and assigning to the corresponding first operational execution subsystem, the first operational execution subsystem receives the completion of the first operational task, and has hung the first operational container to the suspension After the message on the chain, the task identifier of the current first operation task and the wave identification of the wave to which the wave belongs are notified to the suspension chain delivery subsystem, and the suspension chain delivery subsystem will first each of the same wave
  • the first operation container corresponding to the operation task is delivered to the same second operation area; wherein the suspension chain delivery subsystem is disposed in the offline store, the offline store includes a plurality of first operation areas, and a plurality of The second operating region, the suspension chain transport subsystem includes a control assembly and a transport track, wherein the transport track is used to connect each of the first operational regions and each of the second operational regions.
  • a data object information processing method includes:
  • the first operation execution subsystem receives the first operation task, and the first operation task is one of a plurality of first operation tasks that are disassembled in the same wave, and the same wave corresponds to a plurality of qualified orders;
  • the suspension chain transport subsystem After receiving the completion of the first operation task, and having linked the corresponding first operation container to the message on the suspension chain, notifying the task identification of the first operation task and the wave identification of the wave to the suspension chain a subsystem, wherein the first operation container corresponding to each first operation task of the same wave is transported to the same second operation area by the suspension chain transport subsystem; wherein the suspension chain transport subsystem is deployed in an offline store Internally, the offline store includes a plurality of first operating regions, and a plurality of second operating regions, the hanging chain transport subsystem includes a control assembly and a transport track, wherein the transport track is used to connect each first The operation area and each of the second operation areas.
  • a data object information processing method includes:
  • the suspension chain delivery subsystem receives a notification message provided by the first operation execution subsystem, the notification message is: the first operation task has been completed, and the first operation container has been hung on the transport track;
  • the suspension chain transport subsystem Deploying in an offline store, the offline store includes a plurality of first operating regions, and a plurality of second operating regions, the hanging chain transport subsystem including a control assembly and a transport track, wherein the transport track For connecting each of the first operation areas and each of the second operation areas;
  • each first operation task of the same wave corresponds to the same second operation area; the same wave corresponds to multiple orders that meet the condition And being disassembled into multiple first operational tasks;
  • a transport command is sent to the transport track to deliver the first operational container to a corresponding second operational region.
  • a data object information processing apparatus is applied to a first operation task generation subsystem, including:
  • a wave information receiving unit configured to receive wave information to be operated, wherein multiple orders that meet the preset condition are merged into the same wave
  • a classification unit configured to classify data objects included in each order of the same wave according to different first operation areas of the corresponding goods
  • a task generating unit configured to generate a plurality of first operation tasks according to the classification result, and assign to the corresponding first operation execution subsystem, and the first operation execution subsystem receives the first operation task completion, and has After the operation container is hung to the message on the suspension chain, the task identifier of the current first operation task and the wave identification of the wave to which the wave belongs are notified to the suspension chain delivery subsystem, and the suspension chain delivery subsystem will be the same
  • the first operation container corresponding to each of the first operation tasks of the wave is delivered to the same second operation area; wherein the suspension chain delivery subsystem is disposed in the offline store, and the offline store includes a plurality of first An operating area, and a plurality of second operating areas, the hanging chain transport subsystem including a control assembly and a transport track, wherein the transport track is for connecting each of the first operational regions and each of the second operational regions.
  • a data object information processing apparatus is applied to a first operation execution subsystem, including:
  • a task receiving unit configured to receive a first operation task, where the first operation task is one of a plurality of first operation tasks that are disassembled in the same wave, and the same wave corresponds to a plurality of qualified orders;
  • a notification unit configured to receive the first operation task and hang the corresponding first operation container to the message on the suspension chain, and then set the task identifier of the first operation task and the wave identifier of the wave to which the wave belongs Notifying to the suspension chain transport subsystem, the first operation container corresponding to each first operation task of the same wave is transported by the suspension chain transport subsystem to the same second operation area; wherein the suspension chain transport subsystem, Deployed in an offline store, the offline store includes a plurality of first operating regions, and a plurality of second operating regions, the hanging chain transport subsystem including a control assembly and a transport track, wherein the transport track is The first operation area and each of the second operation areas are connected.
  • a data object information processing device is applied to a suspension chain transport subsystem, including:
  • a notification message receiving unit configured to receive a notification message provided by the first operation execution subsystem, the notification message is: the first operation task has been completed, and the first operation container has been hung on the transport track;
  • a region allocation unit configured to perform allocation of the second operation area according to the wave identifier of the first operation task, where each first operation task of the same wave corresponds to the same second operation area; Multiple orders that meet the criteria and are disassembled into multiple first operational tasks;
  • a delivery instruction sending unit configured to send a delivery instruction to the delivery track according to the distribution result, so as to deliver the first operation container to the corresponding second operation area.
  • the present application discloses the following technical effects:
  • the offline operation can be organically connected in series from the first operation to the transportation to the second operation, and the container produced by the first operation can be automatically transported to the first through the suspension chain subsystem.
  • the different first operational tasks of the same wave can also be merged into the same second operation area, thereby improving the efficiency of the first operation and the second operation, and the delivery aging can be better ensured.
  • the embodiment of the present application further provides a fault management subsystem, which can track the state of the first operation task, the allocation of the second operation area, and the like, and the first operation task of a certain wave does not arrive at the reservation on time.
  • the fault management subsystem can be queried to locate the cause of the abnormality, thereby avoiding the stagnation of the entire wave operation.
  • FIG. 1 is a schematic diagram of a software and hardware architecture provided by an embodiment of the present application.
  • FIG. 2 is a schematic diagram of a system provided by an embodiment of the present application.
  • FIG. 3 is a flowchart of a first method provided by an embodiment of the present application.
  • FIG. 5 is a flowchart of a third method provided by an embodiment of the present application.
  • FIG. 6 is a schematic diagram of a first device provided by an embodiment of the present application.
  • FIG. 7 is a schematic diagram of a second device provided by an embodiment of the present application.
  • FIG. 8 is a schematic diagram of a third device provided by an embodiment of the present application.
  • a hanging chain conveying system in order to improve the efficiency of picking and distributing, can be deployed in the offline store, and the hanging chain conveying system includes an automatic conveying device such as a conveying track and a hanging chain, so that the order is received.
  • the suspension chain and the transport track can be transported to the preset second operation area (for example, packing and the like).
  • the offline store includes a plurality of first operating areas, that is, a plurality of "stacks"
  • each "gap" may have a conveying track that can be transported to the unified second operating area
  • each Each conveyor track can be equipped with a suspension chain.
  • each suspension chain corresponds to the position where one first operation area is located, and the end point is a second operation area.
  • a certain slot can be loaded into a preset packaging bag and the like after being subjected to weighing and the like, and hung on the hanging chain.
  • the corresponding transport track can automatically transport the container containing the corresponding goods to the second operation area, and perform the second operation such as packing in the second operation area, and then dispatched by the dispatcher.
  • the first operator only needs to perform the operations of weighing, hanging the product onto the suspension chain, and the like, and does not need to send the goods from the first operation area to the second operation area, thereby improving work efficiency.
  • the second operating area may be one, that is, all the first operational containers produced by the first operation may merge into the same second operating area. Packing operations. However, considering that as the number of users increases, the number of concurrent orders increases, and in the case of a large number of orders, performing the second operation through the same second operating area may still result in operational efficiency. The bottleneck. Therefore, in order to further improve the efficiency of the first operation, the second operation, and the like, to ensure the delivery aging, the embodiment of the present application may further set the second operation area into a plurality of.
  • a plurality of first operation areas and a plurality of second operation areas may be included, wherein the so-called plurality of first operation areas, that is, a plurality of “stiffs”, each first
  • the operating area is for storing goods of the same type, and correspondingly, the first operation of the goods (for example, mainly referring to the picking operation) is also performed in the first operating area.
  • the second operation area refers to an area for performing operations such as packaging. That is to say, both the first operation and the second operation can be dispersed in a plurality of different areas to be performed synchronously, thereby improving the efficiency of the first operation and the second operation.
  • the embodiment of the present application can also perform the ordering operation on the order, that is, the multiple orders are merged into the same delivery wave, and the respective orders of the same delivery wave can be simultaneously delivered by the same delivery person, so that It can avoid waste of distribution resources, and also better guarantee the delivery timeliness of each order.
  • some order rules can be pre-established. For example, the order of the delivery address and the required delivery time can be considered, and the orders with the delivery addresses close to each other and the required delivery times are also close to each other. The same wave, and so on.
  • the data objects (for example, product objects, etc.) involved in the same delivery wave need to be packaged and distributed by the same delivery person, and therefore, When the goods are in stock, the first operation (for example, the picking operation) can also be performed at the same time. Multiple orders are included in the same wave, so that a plurality of different data objects may be included in the same wave, and the corresponding items of the data objects may be located in different first operating areas. Therefore, it is also possible to classify the data objects included in each order of the same wave according to the first operation area of the corresponding goods, and generate a plurality of first operation tasks according to the classification result. That is to say, after executing the order operation of the order and generating the wave, before performing the first operation task, the same wave can be disassembled into multiple first operation tasks, respectively, by each of the involved A staff member in an operating area completes a first operational task.
  • the first operation for example, the picking operation
  • the second operation area is multiple.
  • the multiple packaging areas may be included, or the same packaging area includes multiple “road crossings”, and the packaging staff corresponding to different crossings is responsible for the packaging operation on the crossing.
  • the plurality of "crossings" are substantially divided into a plurality of sub-areas, and each of the sub-areas operates independently. Operating area.
  • the control may also be performed to perform the first operation tasks of the same wave.
  • the execution result (that is, the container containing the respective items associated with the same first operation task, such as a package, etc.) is merged into the same second operation area.
  • the merging of the order may be first performed, the wave is generated, and then the wave is disassembled into a plurality of first operational tasks, and then each of the first operational tasks in the same wave is performed.
  • the execution result is merged into the same second operation area.
  • the suspension chain system can be deployed as shown in FIG. Among them, it is assumed that there are three first operation areas and two second operation areas in the offline shop.
  • the transport track can be divided into a main line 101 and a first branch line 102 and a second branch line 103.
  • the main line 101 can have only one piece, belonging to a common part of the track, and the first branch line 102 can have multiple pieces, each of which The first end of the first line may correspond to a first operating area, and the other end is connected to the main line 101; similarly, the second branch 103 may have multiple strips, and the first end of each first branch may be One second operating area corresponds to the other end and the other end 101 is connected.
  • the transport track can be extended to each of the first operation area and the second operation area without a plurality of track interlaces or the like.
  • the operator of the first operation can suspend the container to the transport track on the ceiling of the offline store.
  • the transport track can also be laid by other means, which is not limited herein.
  • the above-described conveying rail may continuously move in a direction from the first operating region to the second operating region under the control of the conveying executing member such as an automatic driving device.
  • the operator of each operating area can suspend the container 104 containing the corresponding item on the corresponding branch line 102 and transport it to the second operating area by the transport track.
  • the container 104 may be in the form of a package or the like, and, for ease of operation, each container 104 may be connected to or have a component such as a hook (not shown) through which the container 104 can be attached. Suspended onto the conveyor track branch line 102.
  • a unique identifier (encoding or the like) can be provided on the outer surface of the container 104, and can be presented by means of a graphic code such as a barcode or a two-dimensional code.
  • a scanner can be provided in each of the first operation areas. After the operator in the first operation area completes a first operation task and stores the execution result of the operation into the container 104, the code can be scanned. In the manner, the identification information of the container is obtained.
  • the terminal device in the first operation area may provide the correspondence between the task identifier of the first operation task, the wave identifier corresponding to the first operation task, and the container identifier of the container.
  • the control components in the suspension chain system that is, in the suspension chain system, in addition to the hardware structure including the transport track, the specific transport path can also be controlled by software
  • the control component can be based on the wave identification
  • the allocation of the second operation area, and assigning the different first operation tasks in the same wave to the same second operation area, that is, the information recorded in the control component at this time includes: wave identification, first Operation task identifier, container identifier, and second operation area, the correspondence between the four.
  • the container is suspended onto the track spur line 102 and then transferred to the track main line 101.
  • a sweep can be deployed at the joint of the trunk line 101 and the branch line 102.
  • the code device 105 when a container is transferred to the scanning range of the scanning device 105, the scanning device can automatically scan the graphic code on the outer surface, and then provide the container identification in the scanning result to Control component.
  • control component can know which container has reached the connection between the trunk line and the second branch line, and then the control component can determine which second container the container should be transported according to the corresponding relationship information that has been recorded before. Operating area. Further, the control assembly can send a control command to the delivery executing member such that the container is delivered to the corresponding second leg 103 and ultimately to the corresponding second operating region. As can be seen in Figure 1, the two containers 104 from the two different first leg lines 102 are transported through the main line and then transported to the same second leg line 103, which is then sent to the same second operating area. Thereby achieving "combination".
  • the operator of the first operation area can directly suspend the container to the corresponding track branch line, and does not need to perform operations such as selection of the transport track, and subsequent processes can pass. Automated control is done, so it is very helpful to improve operational efficiency.
  • FIG. 1 is only used to illustrate a specific implementation solution. In practical applications, other implementation manners may also be adopted, for example, respectively, between each of the first operation area and the second operation area.
  • a conveyor track, the specific track is allocated before the suspension, and then the container is suspended to the corresponding track, transported to the corresponding second operating area, etc., which will not be detailed here.
  • an abnormality management system may be provided, and information such as an allocation result of the suspension chain system may be provided to the abnormality management system, so that the abnormality management system may perform a specific first operation on a specific wave.
  • the execution status of the task is tracked.
  • the abnormality management system can be used to query, determine the possible cause of the abnormality, and the like. In this way, it is possible to quickly locate the cause of the abnormality and further ensure the delivery timeliness.
  • the first embodiment provides a data object information processing system.
  • the system may include:
  • An order processing subsystem 201 configured to merge multiple eligible items into the same wave according to preset rules
  • the order processing subsystem 201 can be located in the cloud of the sales platform, and the cloud uniformly unifies the operations of the orders in the offline stores. Alternatively, it is also possible to directly deploy the online store, and each offline store performs a joint processing operation on the respective orders.
  • the specific ordering rules there may be a plurality of specific implementation methods, including merging the eligible orders into the same wave according to the distance of the delivery address, the similarity of the delivery time, and the like, which will not be described in detail herein.
  • a wave identifier may be generated for the wave, for example, a wave ID or the like.
  • the first operation task generation subsystem 202 is configured to classify the data objects included in each order of the same wave according to different first operation areas of the corresponding goods, and generate a plurality of first operation tasks according to the classification result, and allocate Go to the corresponding first operation execution subsystem 203;
  • the first operation task generation subsystem 202 can also be located in the cloud or in the offline store.
  • the detailed information of the first operation area in the offline store can be pre-stored.
  • the wave information After the wave information, it can be disassembled into a plurality of different first operation tasks according to the respective data objects associated with the wave and the first operation area where they are located.
  • the first operation task identifier may be generated, including the id of the first operation task, and the like. And, an association relationship between the wave id and each of the first operation task ids can be established.
  • the first operation execution subsystem 203 is configured to receive the task identifier of the current first operation task after the first operation task is completed, and the first operation container has been hung to the message on the suspension chain, and The wave identification of the wave is notified to the suspension chain delivery subsystem 204; the first operation container stores the goods corresponding to the current first operation task;
  • the first operation execution subsystem 203 may be located in an offline store, and may respectively deploy a computer or the like in each first operation area, or equip the staff of each first operation area with a mobile terminal device. In the device or the mobile terminal device, an application corresponding to the first operation execution subsystem 203 may be installed. Correspondingly, after receiving the first operation task assigned by the first operation task generation subsystem 202, the corresponding staff member may be prompted to perform the corresponding task. Additionally, the first operational execution subsystem 203 is also capable of communicating information with the suspension chain delivery subsystem 204. After the staff performs the picking operation according to the specific first operation task, the corresponding goods can be placed in a container such as a packaging bag and hung on the conveying track. At this time, the first operation can be performed.
  • the system 203 notifies the suspension chain delivery subsystem that the first operational task has been performed, and the corresponding wave identification, the first operational task identification, and the like are provided to the suspension chain delivery subsystem 204.
  • the first operation execution subsystem 203 may be externally connected with a scanner, or may have a built-in scanning function, etc., before the container is suspended to the transport track, A scan code operation is performed such that, in addition to the wave identification, the first operational task identification, the container identification may be included when providing information to the suspension chain delivery subsystem 204.
  • the suspension chain transport subsystem 204 is disposed in a offline store, the offline store includes a plurality of first operating regions, and a plurality of second operating regions, the hanging chain transport subsystem 204 includes a control component and a transport track, wherein the transport track is configured to connect each of the first operation area and each of the second operation areas; and the control component is configured to receive the notification message of the first operation execution subsystem according to the wave.
  • the sub-identification performs the allocation of the second operation area, wherein each of the first operation tasks of the same wave corresponds to the same second operation area, and according to the distribution result, a delivery instruction is sent to the transport track to transport the first operation container To the corresponding second operating area.
  • the hanging chain transport subsystem 204 is deployed in an offline store, and is divided into a hardware part and a software part.
  • the hardware part may include a physical transport structure such as a specific transport track and a driving device
  • the software part may be a control component. Automated control during the transport of the conveyor to the conveyor.
  • the control component may further perform control of the correspondence between the first operation task and the second operation area according to the notification message sent by the first operation execution subsystem 203. Specifically, the first operation of the same wave may be different.
  • the task merges into the same second operating area, thereby achieving an increase in the efficiency of the first operation and the second operation.
  • system may further include a second operational execution subsystem, at this time:
  • the suspension chain delivery subsystem 204 is further configured to provide a correspondence between the wave identification and the second operation area identifier to the second operation execution subsystem;
  • the second operation execution subsystem may be configured to generate a second operation task according to the wave identification, and provide corresponding second operation area identification prompt information.
  • the second operation execution subsystem may be deployed in a mobile terminal device of a staff member such as a packager, or in a computer device in the package room, after receiving the relevant first operation container and being transported to a second operation area.
  • a corresponding second operation task may be generated.
  • the information of the corresponding wave, the related information of each first operation task included in the wave, and the data corresponding to each first operation task may be generated.
  • the object information, the detailed information of each order associated with the wave, and the like are presented to a specific packer and the like, and the staff performs a second operation such as packaging. After that, you can wait for the delivery staff to deliver in wave units.
  • the first operation execution subsystem 203 can also be used to scan the graphic code identifier. Identifying, obtaining a container identifier, establishing a correspondence between the wave identification, the first operational task identifier, and the container identifier, and providing the suspension chain transport subsystem 204, the control component of the suspension chain transport subsystem according to the After the wave identifier is assigned to the second operation area, the correspondence between the wave identifier, the first operation task identifier, the container identifier, and the second operation region is saved.
  • the transport track may include a trunk line, a plurality of first branch lines, and a plurality of second branch lines, wherein one end of each of the first branch lines is located in one of the first operation areas, and the other end is opposite to the main a trunk connection, one end of each second branch line is located in one of the second operation areas, and the other end is connected to the main line;
  • the hanging chain conveying subsystem may further include a scanning code device, where the scanning code device is located at a connection between the main line and each of the second branch lines, and the scanning code device is used to: enter the scanning range The graphic code of the outer surface of the first operation container is scanned, and the container identification is recognized and provided to the control component; the control component determines the second operation area corresponding to the container identifier according to the identified container identifier, And transmitting a control command to the transport track, and transporting the container to the second branch corresponding to the second operation area by the transport track.
  • a scanning code device is located at a connection between the main line and each of the second branch lines, and the scanning code device is used to: enter the scanning range The graphic code of the outer surface of the first operation container is scanned, and the container identification is recognized and provided to the control component; the control component determines the second operation area corresponding to the container identifier according to the identified container identifier, And transmitting a control command to the transport track, and transporting the container to the second branch
  • control component in the suspension chain transport subsystem 204 can also be used to provide a correspondence between the wave identifier, the first operation task identifier, the container identifier, and the second operation area to the second The operation execution subsystem; at this time, the second operation execution subsystem may further be configured to scan a graphic code of the first operation container delivered to the second operation area, and determine a corresponding wave identification by using the scan result And a first operational task identifier for performing the confirmed confirmation of the first operational task under the wave.
  • the second operation execution subsystem may be further configured to generate the library information after the completion of the confirmation of each of the first operation tasks in the same wave.
  • system may further include an exception management subsystem
  • control component in the suspension chain transport subsystem 204 can also be used to perform the wave identification, the first operational task identification, and the container identification after the second operation area is allocated according to the wave identification.
  • Corresponding relationship between the second operation areas is provided to the abnormality management subsystem for saving; the second operation execution subsystem may also be used for the first operation corresponding to a target first operation task under a certain wave If the container is not delivered to the second operating area within a preset time, an exception query request is sent to the exception management subsystem.
  • the abnormality management subsystem is specifically configured to provide a query result according to the saved allocation result when receiving the abnormal query request.
  • the abnormality management subsystem may be specifically configured to: if the second operation area allocation information corresponding to the target first operation task does not exist in the allocation result, prompting the first operation in the query result The task is not completed.
  • the abnormality management subsystem may be specifically configured to: if there is a second operation area allocation information corresponding to the target first operation task in the distribution result, but other than the wave to which the target first operation task belongs The second operation area corresponding to the first operation task is different, and the second operation area corresponding to the target first operation task is provided in the query result.
  • the first operation, the transportation, and the second operation in the offline store can be organically connected in series, and the first operation can be automatically performed through the suspension chain subsystem.
  • the exit container is delivered to the second operating area.
  • the different first operational tasks of the same wave can also be merged into the same second operation area, thereby improving the efficiency of the first operation and the second operation, and the delivery aging can be better ensured.
  • the embodiment of the present application further provides a fault management subsystem, which can track the state of the first operation task, the allocation of the second operation area, and the like, and the first operation task of a certain wave does not arrive at the reservation on time.
  • the fault management subsystem can be queried to locate the cause of the abnormality, thereby avoiding the stagnation of the entire wave operation.
  • the second embodiment is a data object information processing method from the perspective of the first operational task generation subsystem.
  • the method may include:
  • the first operation task generation subsystem receives the wave information to be operated, wherein multiple orders that meet the preset condition are merged into the same wave;
  • S302 classify data objects included in each order of the same wave according to different first operation areas of the corresponding goods
  • S303 Generate a plurality of first operation tasks according to the classification result, and assign to the corresponding first operation execution subsystem, the first operation execution subsystem receives the completion of the first operation task, and has hanged the first operation container After the message on the chain is hung, the task identifier of the current first operational task and the wave identifier of the associated wave are notified to the suspension chain transport subsystem, and each of the same wave is used by the suspension chain transport subsystem
  • the first operation container corresponding to the first operation task is transported to the same second operation area; wherein the suspension chain delivery subsystem is disposed in the offline store, and the offline store includes a plurality of first operation areas, and a plurality of second operating regions, the suspension chain transport subsystem including a control assembly and a transport track, wherein the transport track is for connecting each of the first operating regions and each of the second operating regions.
  • the third embodiment is also corresponding to the foregoing first embodiment. From the perspective of the first operational task execution subsystem, a data object information processing method is provided. Referring to FIG. 4, the method may include:
  • the first operation execution subsystem receives a first operation task, where the first operation task is one of a plurality of first operation tasks that are disassembled in the same wave, and the same wave corresponds to a plurality of qualified orders;
  • S402 After receiving the completion of the first operation task, and having linked the corresponding first operation container to the message on the suspension chain, notify the suspension of the task identifier of the first operation task and the wave identification of the wave to which the wave belongs.
  • a chain transport subsystem wherein the first operation container corresponding to each first operation task of the same wave is transported to the same second operation area by the suspension chain transport subsystem; wherein the suspension chain transport subsystem is deployed on the line
  • the offline store includes a plurality of first operating areas, and a plurality of second operating areas
  • the hanging chain conveying subsystem includes a control assembly and a conveying track, wherein the conveying track is used to connect each a first operating area and each of the second operating areas.
  • the graphic code identifier may be scanned and identified, the container identifier is obtained, a correspondence between the wave identifier, the first operation task identifier, and the container identifier is established, and is provided to the suspension chain transport subsystem.
  • the control component of the suspension chain transport subsystem performs the allocation of the second operation area according to the wave identification
  • the correspondence between the wave identification, the first operation task identifier, the container identifier, and the second operation area is saved. .
  • the fourth embodiment is also corresponding to the foregoing first embodiment. From the perspective of the suspension chain transport subsystem, a data object information processing method is provided. Referring to FIG. 5, the method may include:
  • the suspension chain delivery subsystem receives the notification message provided by the first operation execution subsystem, the notification message is: the first operation task has been completed, and the first operation container has been hung on the transport track;
  • the suspension chain transport a subsystem disposed in the offline store, the offline store includes a plurality of first operating regions, and a plurality of second operating regions, the hanging chain transport subsystem including a control component and a transport track, wherein a conveying track for connecting each of the first operating regions and each of the second operating regions;
  • S502 Perform allocation of the second operation area according to the wave identifier of the first operation task, where each first operation task of the same wave corresponds to the same second operation area; Orders are disassembled into multiple first operational tasks;
  • S503 Send a conveying instruction to the conveying track according to the distribution result, so as to transport the first operating container to the corresponding second operating area.
  • the wave identifier of the first operation task related to the notification message may be determined, and then determining whether the wave identifier has been assigned a second operation
  • the area if assigned, determines the second operation area corresponding to the current first operation task according to the assigned result; otherwise, the second operation area may be allocated for the wave, and the wave identification and the second operation area are saved The correspondence between the identifiers.
  • the allocation result information may be provided to the abnormality management subsystem for saving, and when the abnormality occurs, the abnormality is passed.
  • the management subsystem queries for the cause of the exception.
  • the embodiment of the present application further provides a data object information processing apparatus.
  • the apparatus is applied to the first operation task generation subsystem, including:
  • the wave number information receiving unit 601 is configured to receive wave information to be operated, wherein multiple orders that meet the preset condition are merged into the same wave;
  • a classifying unit 602 configured to classify data objects included in each order of the same wave according to different first operating areas where the corresponding goods are located;
  • the task generating unit 603 is configured to generate a plurality of first operation tasks according to the classification result, and allocate the first operation execution subsystem to the corresponding first operation execution subsystem, and the first operation execution subsystem receives the first operation task completion, and has After the first operation container is hung to the message on the suspension chain, the task identifier of the current first operation task and the wave identification of the wave to which the wave belongs are notified to the suspension chain delivery subsystem, and the suspension chain delivery subsystem will The first operation container corresponding to each of the first operation tasks of the same wave is delivered to the same second operation area; wherein the suspension chain delivery subsystem is deployed in the offline store, and the offline store includes multiple An operating area, and a plurality of second operating areas, the hanging chain transport subsystem includes a control assembly and a transport track, wherein the transport track is for connecting each of the first operating regions and each of the second operating regions.
  • the embodiment of the present application further provides a data object information processing apparatus.
  • the apparatus is applied to the first operation execution subsystem, including:
  • the task receiving unit 701 is configured to receive a first operation task, where the first operation task is one of a plurality of first operation tasks that are disassembled in the same wave, and the same wave corresponds to a plurality of qualified orders;
  • the notification unit 702 is configured to: after receiving the first operation task, and having linked the corresponding first operation container to the message on the suspension chain, the task identifier of the first operation task, and the wave of the wave to which the wave belongs The identifier is notified to the suspension chain transport subsystem, and the first operation container corresponding to each first operation task of the same wave is transported by the suspension chain transport subsystem to the same second operation area; wherein the suspension chain transport subsystem Deploying in an offline store, the offline store includes a plurality of first operating regions, and a plurality of second operating regions, the hanging chain transport subsystem including a control assembly and a transport track, wherein the transport track It is used to connect each of the first operation areas and each of the second operation areas.
  • the outer surface of the first operation container is marked with a graphic code
  • the device may further include:
  • a scanning unit configured to scan and identify the graphic code identifier, obtain a container identifier, establish a correspondence between the wave identifier, the first operation task identifier, and the container identifier, and provide the suspension chain transport subsystem After the control component of the suspension chain transport subsystem performs the allocation of the second operation area according to the wave identification, the correspondence between the wave identification, the first operation task identifier, the container identifier, and the second operation area is saved. .
  • the embodiment of the present application further provides a data object information processing apparatus.
  • the apparatus is applied to a suspension chain transport subsystem, including:
  • the notification message receiving unit 801 is configured to receive a notification message provided by the first operation execution subsystem, where the notification message is: the first operation task has been completed, and the first operation container has been hung on the transport track; the suspension chain a transport subsystem, disposed in the offline store, the offline store includes a plurality of first operating regions, and a plurality of second operating regions, the hanging chain transport subsystem including a control component and a transport track, wherein The conveying track is used for connecting each of the first operating regions and each of the second operating regions;
  • the area allocation unit 802 is configured to perform allocation of the second operation area according to the wave identifier of the first operation task, where each first operation task of the same wave corresponds to the same second operation area; the same wave Corresponding to multiple orders that meet the conditions, and is disassembled into multiple first operational tasks;
  • the delivery instruction sending unit 803 is configured to send a delivery instruction to the delivery track according to the distribution result, so as to deliver the first operation container to the corresponding second operation area.
  • the area allocation unit may specifically include:
  • a wave number identification determining subunit configured to determine, after receiving the notification message, a wave identifier to which the first operation task related to the notification message belongs;
  • a determining subunit configured to determine whether the wave identification has been assigned a second operation area
  • a first determining subunit configured to determine, according to the already assigned result, a second operating area corresponding to the current first operating task, if the allocation is performed;
  • a second determining subunit configured to allocate a second operation area for the wave if not allocated, and save a correspondence between the wave identifier and the second operation area identifier.
  • the device may further include:
  • an allocation result providing unit configured to: after the allocation of the second operation area according to the wave identification, provide the distribution result information to the abnormality management subsystem for saving, and when the abnormality occurs, the abnormality is performed by the abnormality management subsystem The reason for the query.
  • the offline operation can be organically connected in series from the first operation to the transportation to the second operation, and the container produced by the first operation can be automatically transported to the first through the suspension chain subsystem.
  • the different first operational tasks of the same wave can also be merged into the same second operation area, thereby improving the efficiency of the first operation and the second operation, and the delivery aging can be better ensured.
  • the embodiment of the present application further provides a fault management subsystem, which can track the state of the first operation task, the allocation of the second operation area, and the like, and the first operation task of a certain wave does not arrive at the reservation on time.
  • the fault management subsystem can be queried to locate the cause of the abnormality, thereby avoiding the stagnation of the entire wave operation.
  • the present application can be implemented by means of software plus a necessary general hardware platform. Based on such understanding, the technical solution of the present application may be embodied in the form of a software product in essence or in the form of a software product, which may be stored in a storage medium such as a ROM/RAM or a disk. , an optical disk, etc., includes instructions for causing a computer device (which may be a personal computer, server, or network device, etc.) to perform the methods described in various embodiments of the present application or portions of the embodiments.
  • a computer device which may be a personal computer, server, or network device, etc.

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Abstract

本申请实施例公开了数据对象信息处理方法、装置及系统,其中,所述系统包括:悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接第一操作区域以及第二操作区域;所述控制组件,用于接收到所述第一操作执行子系统的通知消息后,按照所述波次标识进行第二操作区域的分配,其中,同一波次的各个第一操作任务对应同一第二操作区域,按照分配结果,向所述输送轨道发送输送指令,以将所述第一操作容器输送至对应的第二操作区域。通过本申请实施例,能够提高第一操作以及第二操作的效率,可以更好的保证配送时效。

Description

数据对象信息处理方法、装置及系统
本申请要求2017年01月22日递交的申请号为201710047501.9、发明名称为“数据对象信息处理方法、装置及系统”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。
技术领域
本申请涉及数据对象信息处理技术领域,特别是涉及数据对象信息处理方法、装置及系统。
背景技术
O2O(Online To Offline,线上到线下),是指将线下的商务机会与互联网结合,让互联网成为线下交易的平台。随着服务性电子商务模式的升级,完善了商品(服务)、下单、支付等流程,把之前简单的电商模块,转移到更加高频和生活化场景中来。由于传统的服务行业一直处在一个低效且劳动力消化不足的状态,因此,在新模式的推动下,出现了O2O的狂欢热潮,于是上门送餐(俗称“外卖”)、上门生鲜、上门化妆等各种O2O模式开始层出不穷。
其中,生鲜类商品对象对应的线下店铺可以称为“超市”,在实际应用中,超市内可以开设多个档口,例如,可以包括水果档口、海鲜档口等等。各个档口中的具体货品可以是预先采购进入超市的。与快餐类商品对象不同的是,生鲜类的商品对象通常不能够按照“餐盒”等标准化的包装工具提前进行打包。例如,商品是苹果,消费者在下单时,可能会指定购买的公斤数,超市在收到订单后,通常需要先进行称重,之后,再进行打包等操作。也就是说,对于生鲜类商品对象,通常都是在收到订单之后,再根据订单指定的规格进行“加工制作”,所谓的“加工制作”的过程可以包括货品的称重等操作。加工制作完成之后再进行打包,并等待配送。
可见,对于生鲜等类别的商品,在接收到线上的订单之后,进行线下的拣货、打包、配送等操作时,通常会需要耗费更多的时间,在配送时效上往往很难保证。因此,如何提高线下操作的效率,提升配送时效,成为需要本领域技术人员解决的技术问题。
发明内容
本申请提供了数据对象信息处理方法、装置及系统,能够提高第一操作以及第二操 作的效率,可以更好的保证配送时效。
本申请提供了如下方案:
一种数据对象信息处理系统,包括:
订单处理子系统,用于按照预置的规则,将符合条件的多个订单合并为同一波次;
第一操作任务生成子系统,用于将同一波次的各个订单中包含的数据对象,按照对应货品所在第一操作区域的不同进行分类,根据分类结果生成多个第一操作任务,并分配到对应的第一操作执行子系统;
所述第一操作执行子系统,用于接收到当前第一操作任务完成,并已将第一操作容器挂至悬挂链上的消息后,将所述当前第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统;所述第一操作容器中收纳有所述当前第一操作任务对应的货品;
所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接第一操作区域以及第二操作区域;所述控制组件,用于接收到所述第一操作执行子系统的通知消息后,按照所述波次标识进行第二操作区域的分配,其中,同一波次的各个第一操作任务对应同一第二操作区域,按照分配结果,向所述输送轨道发送输送指令,以将所述第一操作容器输送至对应的第二操作区域。
一种数据对象信息处理方法,包括:
第一操作任务生成子系统接收待操作的波次信息,其中,符合预置条件的多个订单合并为同一波次;
将同一波次的各个订单中包含的数据对象,按照对应货品所在第一操作区域的不同进行分类;
根据分类结果生成多个第一操作任务,并分配到对应的第一操作执行子系统,由所述第一操作执行子系统接收到第一操作任务完成,并已经将第一操作容器挂至悬挂链上的消息后,将所述当前第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统,由所述悬挂链输送子系统将同一波次的各个第一操作任务对应的第一操作容器输送到同一第二操作区域;其中,所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域。
一种数据对象信息处理方法,包括:
第一操作执行子系统接收第一操作任务,所述第一操作任务为同一波次中拆解出的多个第一操作任务之一,同一波次对应多个符合条件的订单;
接收到第一操作任务完成,并已经将对应的第一操作容器挂至悬挂链上的消息后,将所述第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统,由所述悬挂链输送子系统将同一波次的各个第一操作任务对应的第一操作容器输送到同一第二操作区域;其中,所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域。
一种数据对象信息处理方法,包括:
悬挂链输送子系统接收第一操作执行子系统提供的通知消息,所述通知消息为:第一操作任务已完成,并已将第一操作容器挂至输送轨道上;所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域;
按照所述第一操作任务所属的波次标识进行第二操作区域的分配,其中,同一波次的各个第一操作任务对应同一第二操作区域;所述同一波次对应符合条件的多个订单,并被拆解为多个第一操作任务;
按照分配结果,向所述输送轨道发送输送指令,以便将所述第一操作容器输送至对应的第二操作区域。
一种数据对象信息处理装置,应用于第一操作任务生成子系统,包括:
波次信息接收单元,用于接收待操作的波次信息,其中,符合预置条件的多个订单合并为同一波次;
分类单元,用于将同一波次的各个订单中包含的数据对象,按照对应货品所在第一操作区域的不同进行分类;
任务生成单元,用于根据分类结果生成多个第一操作任务,并分配到对应的第一操作执行子系统,由所述第一操作执行子系统接收到第一操作任务完成,并已经将第一操作容器挂至悬挂链上的消息后,将所述当前第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统,由所述悬挂链输送子系统将同一波次的各个第一操作任务对应的第一操作容器输送到同一第二操作区域;其中,所述悬挂链输送子系统, 部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域。
一种数据对象信息处理装置,应用于第一操作执行子系统,包括:
任务接收单元,用于接收第一操作任务,所述第一操作任务为同一波次中拆解出的多个第一操作任务之一,同一波次对应多个符合条件的订单;
通知单元,用于接收到第一操作任务完成,并已经将对应的第一操作容器挂至悬挂链上的消息后,将所述第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统,由所述悬挂链输送子系统将同一波次的各个第一操作任务对应的第一操作容器输送到同一第二操作区域;其中,所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域。
一种数据对象信息处理装置,应用于悬挂链输送子系统,包括:
通知消息接收单元,用于接收第一操作执行子系统提供的通知消息,所述通知消息为:第一操作任务已完成,并已将第一操作容器挂至输送轨道上;所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域;
区域分配单元,用于按照所述第一操作任务所属的波次标识进行第二操作区域的分配,其中,同一波次的各个第一操作任务对应同一第二操作区域;所述同一波次对应符合条件的多个订单,并被拆解为多个第一操作任务;
输送指令发送单元,用于按照分配结果,向所述输送轨道发送输送指令,以便将所述第一操作容器输送至对应的第二操作区域。
根据本申请提供的具体实施例,本申请公开了以下技术效果:
通过本申请实施例,可以将线下店铺中从第一操作、到输送、再到第二操作,可以有机的串联起来,通过悬挂链子系统,可以自动将第一操作产出的容器输送到第二操作区域。并且,同一波次的不同第一操作任务还可以合流到同一个第二操作区域,从而提高第一操作以及第二操作的效率,可以更好的保证配送时效。
另外,本申请实施例还提供了故障管理子系统,可以对第一操作任务的状态、第二 操作区域的分配情况等进行跟踪,一旦某波次的部分第一操作任务没有按时到达预订的第二操作区时,可以通过该故障管理子系统进行查询,定位异常出现的原因,从而避免整个波次作业的停滞。
当然,实施本申请的任一产品并不一定需要同时达到以上所述的所有优点。
附图说明
为了更清楚地说明本申请实施例或现有技术中的技术方案,下面将对实施例中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本申请的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1是本申请实施例提供的软硬件架构示意图;
图2是本申请实施例提供的系统的示意图;
图3是本申请实施例提供的第一方法的流程图;
图4是本申请实施例提供的第二方法的流程图;
图5是本申请实施例提供的第三方法的流程图;
图6是本申请实施例提供的第一装置的示意图;
图7是本申请实施例提供的第二装置的示意图;
图8是本申请实施例提供的第三装置的示意图。
具体实施方式
下面将结合本申请实施例中的附图,对本申请实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本申请一部分实施例,而不是全部的实施例。基于本申请中的实施例,本领域普通技术人员所获得的所有其他实施例,都属于本申请保护的范围。
在本申请实施例中,为了便于提高拣货及配送效率,可以在线下店铺内部署一悬挂链输送系统,该悬挂链输送系统包括输送轨道以及悬挂链等自动化输送设备,这样,在接收到订单并完成第一操作(例如,拣货等操作)后,可以通过悬挂链以及输送轨道,输送至预置的第二操作区域处(例如,打包等操作)。其中,如果线下店铺内包括多个第一操作区域,也即,多个“档口”,则每个“档口”都可以具有能够输送到统一的第二操作区域处的输送轨道,每个输送轨道上都可以配有悬挂链。也即,悬挂链可以有多 条,每条悬挂链的输送起点与一个第一操作区域所在的位置对应,终点为一个第二操作区域。在接收到加第一操作任务后,某个档口在对对应的货品进行称重等操作后,可以装入预置的包装袋等容器中,并挂到悬挂链上。之后,对应的输送轨道就可以自动将装有对应货品的容器输送到第二操作区域,在第二操作区域进行打包等第二操作,再由派送员进行派送。这样,第一操作员只需要进行称重、将货品悬挂到悬挂链上等操作即可,而不需要将货品从第一操作区域送到第二操作区域,因此,可以提高工作效率。
在小型的线下店铺中,或者订单数量较少的情况下,第二操作区域可以为一个,也即,所有的第一操作产出的第一操作容器都可以合流到同一个第二操作区域进行打包操作。但是,考虑到随着用户数量的增多,订单的并发数也在不断增加,在这种面对大量订单的情况下,通过同一个第二操作区域执行第二操作,则可能仍然会造成操作效率的瓶颈。因此,为了进一步提高第一操作、第二操作等操作的效率,以保证配送时效,本申请实施例还可以将第二操作区域置为多个。也就是说,在线下店铺中,可以包括多个第一操作区域,以及多个第二操作区域,其中,所谓的多个第一操作区域,也即多个“档口”,每个第一操作区域用于存放同一类的货品,相应的,该类货品的第一操作(例如,主要可以是指拣货操作)也是在该第一操作区域进行。第二操作区域是指用于执行打包等操作的区域。也就是说,第一操作以及第二操作都可以分散在多个不同的区域来同步执行,以此提高第一操作以及第二操作的效率。
另外,由于经常会出现大量订单并发的情况,也即,在很短的时间内收到多个订单,如果每个订单执行一次配送,则显然会占用大量的配送资源,并且在配送资源有限的情况下,会降低配送时效。因此,本申请实施例还可以对订单进行合单操作,也就是说,将多个订单合并成同一个配送波次,同一个配送波次的各个订单,可以由同一个配送员同时配送,这样可以避免对配送资源造成浪费,并且,也更好的保障各个订单的配送时效。其中,在进行合单时,可以预先制定一些合单规则,例如,可以考虑配送地址、要求的送达时间等因素,将配送地址比较接近且要求的送达时间也比较接近的订单,合并为同一波次,等等。
在通过上述合单操作生成配送波次的情况下,同一配送波次中所涉及到的数据对象(例如,商品对象等)就需要打包在一起,由同一个配送员进行配送,因此,在拣货时,也可以同时进行第一操作(例如,拣货操作)。而同一个波次中包括多个订单,这样就使得同一波次中可能包括多种不同的数据对象,并且这些数据对象对应的货品可能位于不同的第一操作区域。因此,还可以将将同一波次的各个订单中包含的数据对象,按照 对应货品所在第一操作区域的不同进行分类,根据分类结果生成多个第一操作任务。也就是说,在将订单执行合单操作,生成波次后,在执行第一操作任务之前,还可以将同一波次拆解成多份第一操作任务,分别由所涉及到的每个第一操作区域的工作人员完成一份第一操作任务。
每个第一操作任务完成后,都可以通过悬挂链系统输送至第二操作区域。而在本申请实施例中,第二操作区域为多个。其中,具体实现时,可以是多个打包区域,或者,同一个打包区域包括多个“道口”,不同道口对应的打包员负责该道口上的打包操作。由于这种同一打包区域、多个“道口”的情况在实质上也是将打包区域划分为多个子区域,每个子区域内独立工作,因此,在本申请实施例中,统一称为多个第二操作区域。在这种存在多个第二操作区域的情况下,在通过悬挂链系统进行对第一操作任务的执行结果进行输送的过程中,还可以进行控制,将同一波次的各个第一操作任务的执行结果(也即,收纳有同一第一操作任务关联的各货品的容器,如包装袋等)合流到同一第二操作区域。
也就是说,在本申请实施例中,可以首先进行订单的合并,生成波次,然后,将波次拆解为多个第一操作任务,然后,再将同一波次中各个第一操作任务的执行结果合流到同一第二操作区域,通过这种自动控制,可以提高第一操作以及第二操作的效率,有利于保障配送时效。
具体实现时,关于线下店铺内悬挂链系统的具体部署方式可以有多种,只要能够使得每个第一操作区域与每个第二操作区域之间都存在通路,并且,在输送过程中能够控制具体的输送路径即可。例如,在其中一种实现方式下,悬挂链系统的部署方式可以如图1所示。其中,假设线下店铺内有三个第一操作区域,两个第二操作区域,在部署悬挂链系统的输送轨道时,为了节省空间,也避免输送轨道太多、中间交织在一起的部分容易造成混乱等情况,可以将输送轨道分为主干线101以及第一支线102、第二支线103,其中,主干线101可以只有一条,属于轨道的公用部分,第一支线102可以有多条,每条第一支线的第一端可以与一个第一操作区域相对应,另一端与主干线101接驳;类似的,第二支线103也可以有多条,每条第一支线的第一端可以与一个第二操作区域相对应,另一端与主干线101接驳。这样,使得输送轨道可以延伸至每个第一操作区域、第二操作区域,同时又不会出现多条轨道交织等情况。其中,在具体实现时,可以在将输送轨道“吊设”在线下店铺的天花板上,第一操作的操作员可以将容器悬挂至输送轨道上进行输送。通过这种方式,可以节省线下店铺的空间,避免由于输送轨道的存在,导 致店铺中操作区域的面积受到限制。另外,为了防止在输送过程中,容器从轨道上掉落等情况,还可以在轨道下方设有“安全网”,这样,如果容器从轨道上掉落,也会掉落到“安全网”上,避免伤到线下店铺中的人,或者,使得容器中的物品被摔伤。当然,在其他实现方式下,输送轨道也可以通过其他方式进行铺设,这里不进行限定。
在通过上述方式部署了输送轨道的情况下,上述输送轨道可以是在自动化驱动设备等输送执行部件的控制下不断的沿着从第一操作区域到第二操作区域的方向运动。每一操作区域的操作员在完成一次第一操作任务后,就可以将收纳有相应物品的容器104悬挂在对应的支线102上,由输送轨道将其运送至第二操作区域。其中,容器104可以是包装袋等形式,并且,为了便于操作,每个容器104上都可以连接有或者自带有挂钩等部件(图中未示出),通过这种挂钩,可以将容器104悬挂到输送轨道支线102上。
另外,由于在本申请实施例中,涉及到对同一波次中的不同第一操作任务的处理结果,合流到同一第二操作区域的问题,因此,在具体实现时,还可以进行以下处理:首先可以在容器104的外表面提供唯一性标识(编码等),并且可以通过条形码、二维码等图形码的方式来进行呈现。另外,在每个第一操作区域,都可以提供扫码器,在第一操作区域的操作员完成一次第一操作任务,并将操作的执行结果收纳至容器104中之后,可以通过扫码的方式,获取到该容器的标识信息。之后,第一操作区域的终端设备,可以将此次第一操作任务的任务标识、该第一操作任务对应的波次标识,以及该容器的容器标识,这三者之间的对应关系,提供给悬挂链系统中的控制组件(也即,悬挂链系统中可除了包括输送轨道等硬件结构,还可以通过软件的方式实现对具体输送路径的控制),这样,控制组件可以根据波次标识进行第二操作区域的分配,并且,将同一波次下各个不同的第一操作任务分配到同一个第二操作区域,也即,此时在控制组件中记录的信息包括:波次标识、第一操作任务标识、容器标识以及第二操作区域,这四者之间的对应关系。之后,上述容器就会被悬挂至轨道支线102上,之后又会被传送至轨道主干线101上。而在到达轨道主干线101与支线103的接驳处时,由于支线103有多条,因此,为了能够确定接下来的输送路径,还可以在主干线101与支线102的接驳处,部署扫码设备105,当某容器被传送至该扫码设备105的扫描范围内时,该扫码设备可以自动对其外表面上的图形码等进行扫描,然后,将扫描结果中的容器标识提供给控制组件。这样,控制组件就可以获知是哪个容器已经到达了主干线与第二支线的接驳处,之后,控制组件就可以根据之前已经记录的对应关系信息,确定出该容器应该被输送至哪个第二操作区域。进而,控制组件就可以向输送执行部件发送控制指令,使得该容器被 送至对应的第二支线103上,并最终输送至对应的第二操作区域。如图1可见,来自两条不同第一支线102上的两个容器104,都会通过主干线进行输送,之后会被输送到同一第二支线103上,进而被送到同一个第二操作区域,从而实现“合流”。
总之,通过上述方式,第一操作区域的操作员在完成第一操作任务后,直接将容器悬挂至对应的轨道支线上即可,不需要进行输送轨道的选择等操作,后续的过程都可以通过自动化控制的方式来完成,因此,对于提高操作效率存在很大帮助。
当然,上述图1仅是用于对具体的实现方案进行举例说明,在实际应用中,还可以采用其他的实现方案,例如,在每个第一操作区域与第二操作区域之间都分别部署一条输送轨道,在悬挂之前进行具体轨道的分配,然后再将容器悬挂至对应的轨道上,输送至对应的第二操作区域,等等,这里不再一一详述。
需要说明的是,在通过上述方式执行第一操作、输送以及第二操作的过程中,可能会出现网络、硬件异常或者任务操作失误(如第二操作区域分配错误等)等情况,导致第一操作容器滑入异常第二操作区域,或者第一操作任务本身未完成等等,最终导致整个波次作业停滞。为此,在本申请实施例中,还可以提供异常管理系统,悬挂链系统的分配结果等信息都可以提供给该异常管理系统,这样,异常管理系统就可以对具体波次的具体第一操作任务的执行状态等进行跟踪,如果发现某波次的某第一操作任务存在异常时,可以通过该异常管理系统进行查询,确定造成异常的可能原因,等等。这样,就可以快速定位异常原因,进一步保障配送时效。
下面对从多种不同的角度对本申请实施例的实现方案进行介绍。
实施例一
首先,参见图2,该实施例一首先从整体上提供了一种数据对象信息处理系统,该系统具体可以包括:
订单处理子系统201,用于按照预置的规则,将符合条件的多个订单合并为同一波次;
具体的,订单处理子系统201可以位于销售平台云端,由云端统一对各个线下店铺中的订单进行合单等操作处理。或者,也可以直接部署在线下店铺中,每个线下店铺对各自的订单执行合单处理操作。关于具体的合单规则,可以有多种具体的实现方式,包括根据配送地址的距离,配送时间的相近程度,将符合条件的订单合并成同一波次,等等,这里不再详述。其中,具体在生成一个波次之后,可以为该波次生成波次标识,例如,波次ID等。
第一操作任务生成子系统202,用于将同一波次的各个订单中包含的数据对象,按照对应货品所在第一操作区域的不同进行分类,根据分类结果生成多个第一操作任务,并分配到对应的第一操作执行子系统203;
其中,该第一操作任务生成子系统202同样既可以位于云端,也可以位于线下店铺内部,该子系统中可以对线下店铺中的第一操作区域的详情信息预先进行保存,在获得具体的波次信息后,可以根据波次中关联的各个数据对象,以及各自所在的第一操作区域,拆解成多个不同的第一操作任务。类似的,在生成每个第一操作任务后,还可以生成第一操作任务标识,包括第一操作任务的id等。并且,可以建立波次id与各个第一操作任务id之间的关联关系。
所述第一操作执行子系统203,用于接收到当前第一操作任务完成,并已将第一操作容器挂至悬挂链上的消息后,将所述当前第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统204;所述第一操作容器中收纳有所述当前第一操作任务对应的货品;
其中,该第一操作执行子系统203可以位于线下店铺内,可以分别在各个第一操作区域部署计算机等设备,或者,为各个第一操作区域的工作人员配备移动终端设备,在这种计算机设备或者移动终端设备中,可以安装第一操作执行子系统203对应的应用。相应的,在接收到来自第一操作任务生成子系统202分配的第一操作任务后,就可以提示相应的工作人员执行对应的任务。另外,该第一操作执行子系统203还能够与悬挂链输送子系统204之间进行信息传递。在工作人员按照具体的第一操作任务执行完拣货等操作后,可以将相应的货品放置在包装袋等容器中,并挂至输送轨道上,此时,就可以通过该第一操作执行子系统203,通知悬挂链输送子系统,该第一操作任务已经执行完成,同时可以将对应的波次标识、第一操作任务标识等信息提供给悬挂链输送子系统204。其中,如果容器的外表面存在图形码等信息,则该第一操作执行子系统203还可以外接有扫码器,或者,内置有扫码功能等,在容器被悬挂到输送轨道之前,还可以进行扫码操作,这样,在向悬挂链输送子系统204提供信息时,除了波次标识、第一操作任务标识,还可以包括容器标识。
所述悬挂链输送子系统204,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统204包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域与各第二操作区域;所述控制组件,用于接收到所述第一操作执行子系统的通知消息后,按照所述波次标识进行第二操作区 域的分配,其中,同一波次的各个第一操作任务对应同一第二操作区域,按照分配结果,向所述输送轨道发送输送指令,以将所述第一操作容器输送至对应的第二操作区域。
其中,悬挂链输送子系统204部署在线下店铺中,分为硬件部分以及软件部分,其中,硬件部分可以包括具体的输送轨道、驱动设备等物理上的传送结构,软件部分可以是一个控制组件,实现对输送轨道输送容器过程中的自动化控制。并且,该控制组件还可以根据第一操作执行子系统203发送的通知消息,进行第一操作任务与第二操作区域之间对应关系的控制,具体的,可以将同一波次的不同第一操作任务,合流到同一第二操作区域,从而实现第一操作以及第二操作效率的提高。
在实际应用中,该系统还可以包括第二操作执行子系统,此时:
悬挂链输送子系统204还可以用于,将波次标识与第二操作区域标识之间的对应关系提供给第二操作执行子系统;
相应的,所述第二操作执行子系统可以用于,根据所述波次标识生成第二操作任务,并提供对应的第二操作区域标识提示信息。
其中,第二操作执行子系统可以部署于打包员等工作人员的移动终端设备中,或者,打包间的计算机设备中,在接收到有相关的第一操作容器被输送到某第二操作区域的消息时,就可以生成相应的第二操作任务,在该任务中,可以将对应波次的信息,该波次下包括的各个第一操作任务的相关信息,以及各第一操作任务对应的数据对象信息、该波次关联的各订单的详情信息,等等,提示给具体的打包员等工作人员,由这种工作人员执行打包等第二操作。之后,就可以等待配送员以波次为单位进行配送。
如前文所述,在具体实现时,如果所述第一操作容器的外表面可以带有图形码标识,则所述第一操作执行子系统203,还可以用于对所述图形码标识进行扫描识别,获得容器标识,建立波次标识、第一操作任务标识与容器标识之间的对应关系,并提供给所述悬挂链输送子系统204,由所述悬挂链输送子系统的控制组件按照所述波次标识进行第二操作区域的分配后,保存波次标识、第一操作任务标识、容器标识与第二操作区域之间的对应关系。
具体实现时,所述输送轨道可以包括主干线、多条第一支线以及多条第二支线,其中,所述每条第一支线的一端位于其中一个第一操作区域,另一端与所述主干线接驳,每条第二支线的一端位于其中一个第二操作区域,另一端与所述主干线接驳;
此时,所述悬挂链输送子系统中还可以包括扫码设备,所述扫码设备位于主干线与 各条第二支线的接驳处,所述扫码设备用于:对进入到扫描范围的第一操作容器外表面的图形码进行扫描,并识别出容器标识后提供给所述控制组件;所述控制组件根据所述识别出的容器标识,确定该容器标识对应的第二操作区域,并向所述输送轨道发送控制指令,由输送轨道将该容器传送至该第二操作区域对应的第二支线。
具体实现时,所述悬挂链输送子系统204中的控制组件,还可以用于将波次标识、第一操作任务标识、容器标识与第二操作区域之间的对应关系,提供给前述第二操作执行子系统;此时,所述第二操作执行子系统,还可以用于对输送至所述第二操作区域的第一操作容器的图形码进行扫描,通过扫描结果确定对应的波次标识以及第一操作任务标识,以用于对该波次下的该第一操作任务进行已完成确认。
之后,所述第二操作执行子系统,还可以用于在对同一波次下的各个第一操作任务均完成确认后,生成出库信息。
另外,所述系统中还可以包括异常管理子系统;
此时,所述悬挂链输送子系统204中的控制组件,还可以用于在按照所述波次标识进行第二操作区域的分配后,将波次标识、第一操作任务标识、容器标识与第二操作区域之间的对应关系,提供给所述异常管理子系统进行保存;所述第二操作执行子系统还可以用于如果某波次下的某目标第一操作任务对应的第一操作容器未在预置的时间内输送至该第二操作区域,则向所述异常管理子系统发送异常查询请求。所述异常管理子系统,具体用于在接收到针对所述异常查询请求时,根据所述保存的分配结果,提供查询结果。
具体实现时,所述异常管理子系统具体可以用于,如果所述分配结果中不存在所述目标第一操作任务对应的第二操作区域分配信息,则在所述查询结果中提示第一操作任务未完成。
或者,所述异常管理子系统具体也可以用于,如果所述分配结果中存在所述目标第一操作任务对应的第二操作区域分配信息,但与该目标第一操作任务所属波次的其他第一操作任务对应的第二操作区域不同,则在所述查询结果中提供该目标第一操作任务对应的第二操作区域。
总之,通过本申请实施例提供的上述系统,可以将线下店铺中从第一操作、到输送、再到第二操作,可以有机的串联起来,通过悬挂链子系统,可以自动将第一操作产出的容器输送到第二操作区域。并且,同一波次的不同第一操作任务还可以合流到同一个第二操作区域,从而提高第一操作以及第二操作的效率,可以更好的保证配送时效。
另外,本申请实施例还提供了故障管理子系统,可以对第一操作任务的状态、第二操作区域的分配情况等进行跟踪,一旦某波次的部分第一操作任务没有按时到达预订的第二操作区时,可以通过该故障管理子系统进行查询,定位异常出现的原因,从而避免整个波次作业的停滞。
实施例二
该实施例二是与前述实施例一相对应的,从第一操作任务生成子系统的角度,提供了一种数据对象信息处理方法,参见图3,该方法可以包括:
S301:第一操作任务生成子系统接收待操作的波次信息,其中,符合预置条件的多个订单合并为同一波次;
S302:将同一波次的各个订单中包含的数据对象,按照对应货品所在第一操作区域的不同进行分类;
S303:根据分类结果生成多个第一操作任务,并分配到对应的第一操作执行子系统,由所述第一操作执行子系统接收到第一操作任务完成,并已经将第一操作容器挂至悬挂链上的消息后,将所述当前第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统,由所述悬挂链输送子系统将同一波次的各个第一操作任务对应的第一操作容器输送到同一第二操作区域;其中,所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域。
实施例三
该实施例三也是与前述实施例一相对应的,从第一操作任务执行子系统的角度,提供了一种数据对象信息处理方法,参见图4,该方法可以包括:
S401:第一操作执行子系统接收第一操作任务,所述第一操作任务为同一波次中拆解出的多个第一操作任务之一,同一波次对应多个符合条件的订单;
S402:接收到第一操作任务完成,并已经将对应的第一操作容器挂至悬挂链上的消息后,将所述第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统,由所述悬挂链输送子系统将同一波次的各个第一操作任务对应的第一操作容器输送到同一第二操作区域;其中,所述悬挂链输送子系统,部署于线下店铺内,所述线下 店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域。
其中,所述第一操作容器的外表面带有图形码标识;
此时,还可以对所述图形码标识进行扫描识别,获得容器标识,建立波次标识、第一操作任务标识与所述容器标识之间的对应关系,并提供给所述悬挂链输送子系统,由所述悬挂链输送子系统的控制组件按照所述波次标识进行第二操作区域的分配后,保存波次标识、第一操作任务标识、容器标识与第二操作区域之间的对应关系。
实施例四
该实施例四也是与前述实施例一相对应的,从悬挂链输送子系统统的角度,提供了一种数据对象信息处理方法,参见图5,该方法可以包括:
S501:悬挂链输送子系统接收第一操作执行子系统提供的通知消息,所述通知消息为:第一操作任务已完成,并已将第一操作容器挂至输送轨道上;所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域;
S502:按照所述第一操作任务所属的波次标识进行第二操作区域的分配,其中,同一波次的各个第一操作任务对应同一第二操作区域;所述同一波次对应符合条件的多个订单,并被拆解为多个第一操作任务;
S503:按照分配结果,向所述输送轨道发送输送指令,以便将所述第一操作容器输送至对应的第二操作区域。
具体实现时,可以是在接收到第一操作执行子系统提供的通知消息后,可以确定该通知消息相关的第一操作任务所属的波次标识,然后判断该波次标识是否已分配第二操作区域,如果已分配,则按照已分配的结果确定当前第一操作任务对应的第二操作区域;否则,可以为该波次分配第二操作区域,并保存该波次标识与该第二操作区域标识之间的对应关系。
另外,为了能够对异常情况进行跟踪,在按照所述波次标识进行第二操作区域的分配后,还可以将分配结果信息提供给异常管理子系统进行保存,在出现异常时,通过所述异常管理子系统进行异常原因的查询。
关于以上实施例一至实施例四,其中具体的实现细节可以参见前文的记载,这里不再赘述。
与实施例二相对应,本申请实施例还提供了一种数据对象信息处理装置,参见图6,该装置应用于第一操作任务生成子系统,包括:
波次信息接收单元601,用于接收待操作的波次信息,其中,符合预置条件的多个订单合并为同一波次;
分类单元602,用于将同一波次的各个订单中包含的数据对象,按照对应货品所在第一操作区域的不同进行分类;
任务生成单元603,用于根据分类结果生成多个第一操作任务,并分配到对应的第一操作执行子系统,由所述第一操作执行子系统接收到第一操作任务完成,并已经将第一操作容器挂至悬挂链上的消息后,将所述当前第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统,由所述悬挂链输送子系统将同一波次的各个第一操作任务对应的第一操作容器输送到同一第二操作区域;其中,所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域。
与实施例三相对应,本申请实施例还提供了一种数据对象信息处理装置,参见图7,该装置应用于第一操作执行子系统,包括:
任务接收单元701,用于接收第一操作任务,所述第一操作任务为同一波次中拆解出的多个第一操作任务之一,同一波次对应多个符合条件的订单;
通知单元702,用于接收到第一操作任务完成,并已经将对应的第一操作容器挂至悬挂链上的消息后,将所述第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统,由所述悬挂链输送子系统将同一波次的各个第一操作任务对应的第一操作容器输送到同一第二操作区域;其中,所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域。
具体实现时,所述第一操作容器的外表面带有图形码标识;
此时,该装置还可以包括:
扫描单元,用于对所述图形码标识进行扫描识别,获得容器标识,建立波次标识、第一操作任务标识与所述容器标识之间的对应关系,并提供给所述悬挂链输送子系统,由所述悬挂链输送子系统的控制组件按照所述波次标识进行第二操作区域的分配后,保存波次标识、第一操作任务标识、容器标识与第二操作区域之间的对应关系。
与实施例四相对应,本申请实施例还提供了一种数据对象信息处理装置,参见图8,该装置应用于悬挂链输送子系统,包括:
通知消息接收单元801,用于接收第一操作执行子系统提供的通知消息,所述通知消息为:第一操作任务已完成,并已将第一操作容器挂至输送轨道上;所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域;
区域分配单元802,用于按照所述第一操作任务所属的波次标识进行第二操作区域的分配,其中,同一波次的各个第一操作任务对应同一第二操作区域;所述同一波次对应符合条件的多个订单,并被拆解为多个第一操作任务;
输送指令发送单元803,用于按照分配结果,向所述输送轨道发送输送指令,以便将所述第一操作容器输送至对应的第二操作区域。
具体实现时,所述区域分配单元具体可以包括:
波次标识确定子单元,用于接收到所述通知消息后,确定该通知消息相关的第一操作任务所属的波次标识;
判断子单元,用于判断该波次标识是否已分配第二操作区域;
第一确定子单元,用于如果已分配,则按照已分配的结果确定当前第一操作任务对应的第二操作区域;
第二确定子单元,用于如果未分配,为该波次分配第二操作区域,并保存该波次标识与该第二操作区域标识之间的对应关系。
另外,该装置还可以包括:
分配结果提供单元,用于在按照所述波次标识进行第二操作区域的分配后,将分配结果信息提供给异常管理子系统进行保存,在出现异常时,通过所述异常管理子系统进行异常原因的查询。
通过本申请实施例,可以将线下店铺中从第一操作、到输送、再到第二操作,可以 有机的串联起来,通过悬挂链子系统,可以自动将第一操作产出的容器输送到第二操作区域。并且,同一波次的不同第一操作任务还可以合流到同一个第二操作区域,从而提高第一操作以及第二操作的效率,可以更好的保证配送时效。
另外,本申请实施例还提供了故障管理子系统,可以对第一操作任务的状态、第二操作区域的分配情况等进行跟踪,一旦某波次的部分第一操作任务没有按时到达预订的第二操作区时,可以通过该故障管理子系统进行查询,定位异常出现的原因,从而避免整个波次作业的停滞。
通过以上的实施方式的描述可知,本领域的技术人员可以清楚地了解到本申请可借助软件加必需的通用硬件平台的方式来实现。基于这样的理解,本申请的技术方案本质上或者说对现有技术做出贡献的部分可以以软件产品的形式体现出来,该计算机软件产品可以存储在存储介质中,如ROM/RAM、磁碟、光盘等,包括若干指令用以使得一台计算机设备(可以是个人计算机,服务器,或者网络设备等)执行本申请各个实施例或者实施例的某些部分所述的方法。
本说明书中的各个实施例均采用递进的方式描述,各个实施例之间相同相似的部分互相参见即可,每个实施例重点说明的都是与其他实施例的不同之处。尤其,对于系统或系统实施例而言,由于其基本相似于方法实施例,所以描述得比较简单,相关之处参见方法实施例的部分说明即可。以上所描述的系统及系统实施例仅仅是示意性的,其中所述作为分离部件说明的单元可以是或者也可以不是物理上分开的,作为单元显示的部件可以是或者也可以不是物理单元,即可以位于一个地方,或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部模块来实现本实施例方案的目的。本领域普通技术人员在不付出创造性劳动的情况下,即可以理解并实施。
以上对本申请所提供的数据对象信息处理方法、装置及系统,进行了详细介绍,本文中应用了具体个例对本申请的原理及实施方式进行了阐述,以上实施例的说明只是用于帮助理解本申请的方法及其核心思想;同时,对于本领域的一般技术人员,依据本申请的思想,在具体实施方式及应用范围上均会有改变之处。综上所述,本说明书内容不应理解为对本申请的限制。

Claims (18)

  1. 一种数据对象信息处理系统,其特征在于,包括:
    订单处理子系统,用于按照预置的规则,将符合条件的多个订单合并为同一波次;
    第一操作任务生成子系统,用于将同一波次的各个订单中包含的数据对象,按照对应货品所在第一操作区域的不同进行分类,根据分类结果生成多个第一操作任务,并分配到对应的第一操作执行子系统;
    所述第一操作执行子系统,用于接收到当前第一操作任务完成,并已将第一操作容器挂至悬挂链上的消息后,将所述当前第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统;所述第一操作容器中收纳有所述当前第一操作任务对应的货品;
    所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接第一操作区域以及第二操作区域;所述控制组件,用于接收到所述第一操作执行子系统的通知消息后,按照所述波次标识进行第二操作区域的分配,其中,同一波次的各个第一操作任务对应同一第二操作区域,按照分配结果,向所述输送轨道发送输送指令,以将所述第一操作容器输送至对应的第二操作区域。
  2. 根据权利要求1所述的系统,其特征在于,所述系统中还包括第二操作执行子系统;
    所述悬挂链输送子系统,还用于将波次标识与第二操作区域标识之间的对应关系提供给第二操作执行子系统;
    所述第二操作执行子系统,用于根据所述波次标识生成第二操作任务,并提供对应的第二操作区域标识提示信息。
  3. 根据权利要求1所述的系统,其特征在于,所述第一操作容器的外表面带有图形码信息;
    所述第一操作执行子系统,还用于对所述图形码标识进行扫描识别,获得容器标识,建立波次标识、第一操作任务标识与所述容器标识之间的对应关系,并提供给所述悬挂链输送子系统,由所述悬挂链输送子系统的控制组件按照所述波次标识进行第二操作区域的分配后,保存波次标识、第一操作任务标识、容器标识与第二操作区域之间的对应关系。
  4. 根据权利要求3所述的系统,其特征在于:
    所述输送轨道包括主干线、多条第一支线以及多条第二支线,其中,每条第一支线的一端位于其中一个第一操作区域,另一端与所述主干线接驳,每条第二支线的一端位于其中一个第二操作区域,另一端与所述主干线接驳;
    所述悬挂链输送子系统中还包括扫码设备,所述扫码设备位于主干线与各条第二支线的接驳处,所述扫码设备用于:对进入到扫描范围的第一操作容器外表面的图形码进行扫描,并识别出容器标识后提供给所述控制组件;所述控制组件根据所述识别出的容器标识,确定该容器标识对应的第二操作区域,并向所述输送轨道发送控制指令,由输送轨道将该容器传送至该第二操作区域对应的第二支线。
  5. 根据权利要求3所述的系统,其特征在于,所述系统中还包括第二操作执行子系统;
    所述悬挂链输送子系统中的控制组件,还用于将波次标识、第一操作任务标识、容器标识与第二操作区域之间的对应关系,提供给第二操作执行子系统;
    所述第二操作执行子系统,用于对输送至所述第二操作区域的第一操作容器的图形码进行扫描,通过扫描结果确定对应的波次标识以及第一操作任务标识,以用于对该波次下的该第一操作任务进行已完成确认。
  6. 根据权利要求5所述的系统,其特征在于:
    所述第二操作执行子系统,还用于在对同一波次下的各个第一操作任务均完成确认后,生成出库信息。
  7. 根据权利要求3所述的系统,其特征在于,所述系统中还包括异常管理子系统、第二操作执行子系统;
    所述悬挂链输送子系统中的控制组件,还用于在按照所述波次标识进行第二操作区域的分配后,将波次标识、第一操作任务标识、容器标识与第二操作区域之间的对应关系,提供给所述异常管理子系统进行保存;
    所述第二操作执行子系统,还用于如果某波次下的某目标第一操作任务对应的第一操作容器未在预置的时间内输送至该第二操作区域,则向所述异常管理子系统发送异常查询请求;
    所述异常管理子系统,用于在接收到针对所述异常查询请求时,根据所述保存的分配结果,提供查询结果。
  8. 根据权利要求7所述的系统,其特征在于:
    所述异常管理子系统具体用于,如果所述分配结果中不存在所述目标第一操作任务 对应的第二操作区域分配信息,则在所述查询结果中提示第一操作任务未完成。
  9. 根据权利要求7所述的系统,其特征在于:
    所述异常管理子系统具体用于,如果所述分配结果中存在所述目标第一操作任务对应的第二操作区域分配信息,但与该目标第一操作任务所属波次的其他第一操作任务对应的第二操作区域不同,则在所述查询结果中提供该目标第一操作任务对应的第二操作区域。
  10. 一种数据对象信息处理方法,其特征在于,包括:
    第一操作任务生成子系统接收待操作的波次信息,其中,符合预置条件的多个订单合并为同一波次;
    将同一波次的各个订单中包含的数据对象,按照对应货品所在第一操作区域的不同进行分类;
    根据分类结果生成多个第一操作任务,并分配到对应的第一操作执行子系统,由所述第一操作执行子系统接收到第一操作任务完成,并已经将第一操作容器挂至悬挂链上的消息后,将当前第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统,由所述悬挂链输送子系统将同一波次的各个第一操作任务对应的第一操作容器输送到同一第二操作区域;其中,所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域。
  11. 一种数据对象信息处理方法,其特征在于,包括:
    第一操作执行子系统接收第一操作任务,所述第一操作任务为同一波次中拆解出的多个第一操作任务之一,同一波次对应多个符合条件的订单;
    接收到第一操作任务完成,并已经将对应的第一操作容器挂至悬挂链上的消息后,将所述第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统,由所述悬挂链输送子系统将同一波次的各个第一操作任务对应的第一操作容器输送到同一第二操作区域;其中,所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域。
  12. 根据权利要求11所述的方法,其特征在于,所述第一操作容器的外表面带有图形码标识;
    所述方法还包括:
    对所述图形码标识进行扫描识别,获得容器标识,建立波次标识、第一操作任务标识与所述容器标识之间的对应关系,并提供给所述悬挂链输送子系统,由所述悬挂链输送子系统的控制组件按照所述波次标识进行第二操作区域的分配后,保存波次标识、第一操作任务标识、容器标识与第二操作区域之间的对应关系。
  13. 一种数据对象信息处理方法,其特征在于,包括:
    悬挂链输送子系统接收第一操作执行子系统提供的通知消息,所述通知消息为:第一操作任务已完成,并已将第一操作容器挂至输送轨道上;所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域;
    按照所述第一操作任务所属的波次标识进行第二操作区域的分配,其中,同一波次的各个第一操作任务对应同一第二操作区域;所述同一波次对应符合条件的多个订单,并被拆解为多个第一操作任务;
    按照分配结果,向所述输送轨道发送输送指令,以便将所述第一操作容器输送至对应的第二操作区域。
  14. 根据权利要求13所述的方法,其特征在于,所述按照所述第一操作任务所属的波次标识进行第二操作区域的分配,包括:
    接收到所述通知消息后,确定该通知消息相关的第一操作任务所属的波次标识;
    判断该波次标识是否已分配第二操作区域;
    如果已分配,则按照已分配的结果确定当前第一操作任务对应的第二操作区域;
    否则,为该波次分配第二操作区域,并保存该波次标识与该第二操作区域标识之间的对应关系。
  15. 根据权利要求13所述的方法,其特征在于,还包括:
    在按照所述波次标识进行第二操作区域的分配后,将分配结果信息提供给异常管理子系统进行保存,在出现异常时,通过所述异常管理子系统进行异常原因的查询。
  16. 一种数据对象信息处理装置,其特征在于,应用于第一操作任务生成子系统,包括:
    波次信息接收单元,用于接收待操作的波次信息,其中,符合预置条件的多个订单合并为同一波次;
    分类单元,用于将同一波次的各个订单中包含的数据对象,按照对应货品所在第一操作区域的不同进行分类;
    任务生成单元,用于根据分类结果生成多个第一操作任务,并分配到对应的第一操作执行子系统,由所述第一操作执行子系统接收到第一操作任务完成,并已经将第一操作容器挂至悬挂链上的消息后,将当前第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统,由所述悬挂链输送子系统将同一波次的各个第一操作任务对应的第一操作容器输送到同一第二操作区域;其中,所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域。
  17. 一种数据对象信息处理装置,其特征在于,应用于第一操作执行子系统,包括:
    任务接收单元,用于接收第一操作任务,所述第一操作任务为同一波次中拆解出的多个第一操作任务之一,同一波次对应多个符合条件的订单;
    通知单元,用于接收到第一操作任务完成,并已经将对应的第一操作容器挂至悬挂链上的消息后,将所述第一操作任务的任务标识,以及所属波次的波次标识通知到悬挂链输送子系统,由所述悬挂链输送子系统将同一波次的各个第一操作任务对应的第一操作容器输送到同一第二操作区域;其中,所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域。
  18. 一种数据对象信息处理装置,其特征在于,应用于悬挂链输送子系统,包括:
    通知消息接收单元,用于接收第一操作执行子系统提供的通知消息,所述通知消息为:第一操作任务已完成,并已将第一操作容器挂至输送轨道上;所述悬挂链输送子系统,部署于线下店铺内,所述线下店铺内包括多个第一操作区域,以及多个第二操作区 域,所述悬挂链输送子系统包括控制组件以及输送轨道,其中,所述输送轨道用于连接各第一操作区域以及各第二操作区域;
    区域分配单元,用于按照所述第一操作任务所属的波次标识进行第二操作区域的分配,其中,同一波次的各个第一操作任务对应同一第二操作区域;所述同一波次对应符合条件的多个订单,并被拆解为多个第一操作任务;
    输送指令发送单元,用于按照分配结果,向所述输送轨道发送输送指令,以便将所述第一操作容器输送至对应的第二操作区域。
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