CN109636284B

CN109636284B - Method for bulk cargo flowing collection and echelon sorting in online shopping mall and control method

Info

Publication number: CN109636284B
Application number: CN201811502953.2A
Authority: CN
Inventors: 李耸; 安强; 张迈
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-12-10
Filing date: 2018-12-10
Publication date: 2023-06-30
Anticipated expiration: 2038-12-10
Also published as: CN109636284A

Abstract

The invention relates to a method for bulk cargo flowing collection and echelon sorting in an online shopping mall and a control method thereof. The movable network terminal equipment under the control of the cloud server is adopted as a goods shelf of a bulk cargo collection carrier, the goods shelf ID bar codes are scanned and uploaded, the cloud server transmits virtual allocation tasks of bulk cargo packages at the shelf positions to a gateway circuit of a received ID numbered goods shelf, the mobile goods shelf with the task binding completed is pushed to each merchant port to scan bulk cargo package two-dimension codes, the bulk cargo packages are placed into a shelf position tray corresponding to a lamp flash of a partition to which the mobile goods shelf belongs, and sorting collection of the bulk cargo packages to the partition sites of the mobile goods shelf for the first time is completed; scanning the bar codes of the full pallet which is bound by the partition numbers in the business district goods collection center, putting the pallet on the space of the partition collection goods shelf corresponding to the lamp flash of the partition to which the pallet belongs, and completing the sorting collection of the bulk goods package to the partition collection goods shelf for the second time; and (5) transporting the goods shelves to sorting centers of all the partitions by the truck to finish final order sets of bulk cargo packaging.

Description

Method for bulk cargo flowing collection and echelon sorting in online shopping mall and control method

Technical Field

The invention relates to a method for bulk cargo flowing collection and echelon sorting in an online shopping mall and a control method thereof.

Background

The scattered commodity package after purchasing is completed by a plurality of merchants and/or booths in the business district, and when the customer purchases by the entity, the customer gradually completes the 'bulk cargo collection' through one way of 'shopping', and the bulk cargo collection and transportation after purchasing the order on line becomes a more complex process than the express delivery of a single order and a single route. In the area of 1-3 km around the district, business circles with large and small sizes are distributed, which mainly comprises big supermarkets, selling places, shopping malls and retail stores. Bulk collections of bulk goods are done across discrete merchants and booths, and an order may involve different merchants or booths that span over 1 km. After online purchase of daily necessities and fresh commodities is completed, the online bulk collection is in a disordered and uncontrolled state at present, and various methods tried at present have the following problems:

the method comprises the following steps of: the individual collections are completed by manually substituting customers to run between various stores and/or booths, which is inefficient and costly.

Warehouse forward moving set: in the existing business district with a distance of 1 km from the district, a warehouse is newly built for the commodity with the largest purchasing quantity, or a special online shopping warehouse, namely a so-called warehouse forward movement, is built in a supermarket, so that bulk cargo of main stream commodity is conveniently and rapidly collected. This approach is essentially a repeated construction, failing to meet the scattered and personalized demands, and also bringing significant pressure on investment.

Automatic sorting line in business district: in the existing business district that people collect and pay in the size, it is impossible to construct an automatic bulk sorting and collecting pipeline.

Disclosure of Invention

The invention aims to provide an intelligent high-efficiency sorting collection method for scattered goods of orders in an online shopping mode based on the distribution condition of the existing business circles, and provides a method and a control method for completing off-line high-efficiency, low-cost and rapid bulk goods flow collection and echelon sorting under the instruction of dynamically distributing goods shelves and check positions to bulk goods packages by online software, wherein the intelligent movable network terminal equipment is adopted, and can be used as a carrier and a transport tool for accurately positioning bulk goods packages through on-site scanning of two-dimension codes of the bulk goods packages.

The technical scheme of the invention is that the method for bulk cargo flowing collection and echelon sorting in the online shopping mall is characterized in that a movable network terminal device under the control of a cloud server is adopted as a shelf of a bulk cargo collecting carrier, a virtual allocation task of bulk cargo package in a shelf grid position is transmitted to a gateway circuit of the received ID numbered shelf by the cloud server through scanning the shelf ID bar code, a bulk cargo package two-dimensional code is scanned from a mobile shelf bound by the task to each merchant's shelves, and the bulk cargo package is placed in a grid position tray corresponding to a lamp flash in a partition to which the mobile shelf belongs, so that sorting collection of the first bulk cargo package to the partition grid position of the mobile shelf is completed; scanning the bar codes of the full pallet which are bound in the subareas in the business district goods collecting center, putting the pallet on the blank space of the subarea goods collecting shelf corresponding to the lamp flash of the subarea to which the pallet belongs, and finishing the sorting and collecting of the second bulk package to the subarea goods collecting shelf; and (5) transporting the subarea goods shelves to the sorting centers of all the subareas by the trucks to finish the final order set of bulk package.

As preferable: the method further comprises the steps that a movable network terminal device under the control of a cloud server is used as a goods shelf of a bulk package collection carrier, when bulk package first sorting collection is carried out from a business shelf, a 'mobile goods shelf' of a partition to which bulk package belongs is divided by grid positions on the goods shelf, and when second sorting collection is carried out by a business district collection center, a 'collection goods shelf' of a partition to which bulk package belongs is divided by a whole goods shelf is adopted; when the supply time point of the business district arrives, the cloud server distributes the quantity of each partition to which the bulk package distributed to the business district belongs according to the time period, and the distribution of the quantity, specification and number of the 'aggregate shelves' of each partition is completed; in a business circle collection center, positioning 'collection shelves' corresponding to each partition specification and quantity according to screen display indication, automatically completing networking by a gateway on all shelves after powering on, scanning ID bar codes on the 'collection shelves' one by a scanning device, uploading scanned ID number information to a cloud server, completing communication protocol handshaking by the cloud server and the gateway on the ID number shelf, distributing the partition and the number of the period for the 'collection shelves', completing binding of the partition and the number of the ID number of the 'collection shelves' by the cloud server, and activating digital lamps on the cloud server and LED lamps beside all the shelves; when the supply time point of the business district arrives, the cloud server distributes the quantity of each business belonging to the bulk package distributed to the business district according to the time period, and the task distribution of each responsibility district is completed; the cloud server judges the on-site bulk package scanning state of merchants in each responsibility area in real time, when one or more merchants in a certain responsibility area finish scanning the last bulk package, if the scanned bulk package is full of a 'mobile goods shelf', software automatically allocates virtual grid positions on the 'mobile goods shelf' according to the partition to which the bulk package belongs, and informs a receiver in the responsibility area of a short message; when receiving a message of 'goods' notification of a cloud server, a receiver mobile phone acquires an empty 'mobile shelf' which is electrified and networked from a 'mobile shelf' waiting area, scans an ID bar code on the 'mobile shelf' by a code scanning gun of a responsibility area number and uploads the ID bar code, and after receiving the number of the ID bar code, the cloud server completes protocol handshake with a gateway on the 'mobile shelf' of the movable network terminal equipment, and transmits a virtual allocation task of bulk goods packaging at a grid position to a gateway circuit of the received ID number shelf to complete task binding of the cloud server and the gateway on the 'mobile shelf' of the movable network terminal equipment, and simultaneously activates all digital lamps and LED lamps on the 'mobile shelf' to be lightened; after the mobile goods shelf is activated, an operator scans bar codes on the side surface of any empty tray by using the code scanning gun with the responsibility area number, and uploads the bar codes, according to an instruction issued by a cloud server, LED lamps beside different partitions belonging to the mobile goods shelf flash according to the sequence of the partitions, the empty tray is placed into the flash partitions, the binding of the tray ID number and the partition represented by the flash partitions of the mobile goods shelf is completed, the mobile goods shelf is pushed to each merchant notch with the LED red light on which the supply is completed, and bulk goods packages are collected in the flow; scanning two-dimension codes of bulk package of each merchant, flashing LED lamps beside grid positions corresponding to the partitions to which the bulk package belongs on the 'movable shelves', placing the bulk package into trays of the corresponding grid positions until all trays of the corresponding partitions on all the 'movable shelves' are full according to the assigned 'tasks', and completely extinguishing the LED lamps beside the grid positions on the 'movable shelves' of the movable network terminal equipment, thereby completing sorting collection of the bulk package of different partitions in the movable collection according to the grid positions for the first time through the trays; then, pushing the mobile goods shelf to a commercial ring bulk goods collection center to finish the tray unloading, pushing the mobile goods shelf to an empty frame waiting area after unloading, powering off all tasks by one key, starting the mobile goods shelf by one key through the power network, waiting for the next receiver to scan the ID bar code after receiving the mobile phone short message, and repeating the cycle; scanning the ID bar codes of the side surfaces of the trays bound with the affiliated subareas one by one in a business circle collection center, flashing LED lamps beside a first space position of a corresponding subarea ' collection shelf, and placing the trays on the corresponding positions of the ' collection shelf ', thereby completing the second sorting collection of bulk cargo packages belonging to different subareas to the subarea ' collection shelf ' through the subarea trays, and finishing the twice bulk cargo sorting collection of bulk cargo packages belonging to different subareas in the business circle collection center; further, trucks transport "aggregate shelves" belonging to different sections to the sorting centers of the sections, completing the final sorting aggregate of bulk packages from different business circles to the order and cell to which they belong.

As preferable: the mobile network terminal device under the control of the cloud server comprises a mobile goods shelf, a collection goods shelf, scanning equipment, an ID bar code which is fixed on the goods shelf and used for representing the goods shelf number, an electric appliance assembly and a plurality of grid cabinets which are fixed on the goods shelf, wherein the electric appliance assembly comprises a gateway circuit, the gateway circuit is electrically connected with a gateway power supply, a group of digital lamps which represent time, belonging area and position numbers and a group of LED lamps which are arranged beside each grid cabinet, the digital lamps and the LED lamps are electrically connected with the power supply, the gateway circuit is in wireless connection with a network through an antenna, the scanning equipment scans the ID bar code and uploads scanned goods shelf number information to the cloud server, the goods shelf and the cloud server are in handshake of a communication protocol, and the cloud server transmits a virtual allocation task of bulk goods packaged at the grid positions to the gateway circuit of the received ID number goods shelf, so that the cloud server binds the goods shelf number task.

As preferable: an ID number bar code is arranged on the side face of the tray; scanning ID bar codes on the side face of the tray, binding the tray bar code numbers according to the grid order of the mobile goods shelf by the cloud server, and endowing the tray ID numbers with partition information of the grid where the tray ID numbers are located; the cloud server which receives the tray ID bar code scanning information sequentially instructs LED lamps beside the corresponding grid positions of the 'mobile goods shelf', the tray is placed on the lamp flashing grid positions until all grid positions on the 'mobile goods shelf' are bound with the tray ID, each tray is temporarily assigned with a corresponding partition number, when bulk goods packages are assembled at the shelves of each merchant, the two-dimension codes of the bulk goods packages are scanned, the LED lamps beside the grid positions corresponding to the partition to which the bulk goods packages belong are flashed, the bulk goods are placed in the partition trays of the grid positions until all the trays on the 'mobile goods shelf' are full, and the LED lamps of all the grid positions are all turned off; when the mobile goods shelf finishes the current bulk package collection and is sent to the business district collection center, the trays are taken out one by one and put into the window, the bar codes on the side surfaces of the trays are scanned, the bar codes corresponding to the first space LED lamp flash on the regional collection goods shelf are put into the flash space of the regional collection goods shelf, and the sorting collection of the regional trays to the regional collection goods shelf is finished, so that the intermediary functions of automatic identification, exchange and transfer of the position information of the bar code trays between two mobile network terminal carriers are realized.

The other technical solution of the invention is a control method of bulk cargo flowing collection and echelon sorting system in an online shopping mall of the mobile network terminal device under the control of the cloud server; the control method is characterized by comprising a control method of sequentially integrating a partition tray and a mobile sweeping and a control method of a partition shelf and a collection center;

1) The control method for the partition trays and the mobile sweeping comprises the following steps:

(1.1) the supply time point is reached, and according to the order quantity distribution in the period, the cloud server automatically allocates the merchant stall numbers for the number scanning guns of all responsible areas;

(1.2) finishing code scanning by the last package of one or more merchants or booths in the responsibility area to which the code scanning device belongs;

(1.3) the system judges whether the shelf can be spliced into a full shelf, if not, the system returns to the previous step;

the method comprises the steps that (1.4) if the scanned packaging task is finished, a lamp control system is instructed to enable LED lamps beside a stall where the scanning of the last packaging task is finished to be lighted, and the LED lamps are virtually packaged in a supporting frame, namely, cloud server software automatically loads scanned codes into bulk cargo packages of different partitions to which the scanned codes belong according to distribution rules and the finishing quantity, the scanned codes are virtually packaged in the supporting boxes of one or more check positions of a mobile goods shelf in sequence, and partition numbers to which all check positions belong are assigned;

(1.5) the system sends a short message to the responsible file area numbering mobile phone;

(1.6) the receiver takes the empty 'mobile shelf' scan ID to complete activation and task allocation;

(1.7) scanning the tray ID, and binding the tray ID with the partition number to which the corresponding bin belongs;

(1.8) flashing the LED lamps beside the corresponding lattice site, and synchronously displaying the positions and flashing the lamps on the shelf screen of the movable network terminal equipment;

(1.9) placing the trays in the corresponding lamp flashing positions, and repeating the process until all the trays are put on the shelf; (1.10) scanning a mobile phone number two-dimensional code of a receiver by a merchant, and displaying OK confirmation by the merchant mobile phone;

(1.11) a receiver scans the two-dimensional code of the bulk package and puts the two-dimensional code into a tray corresponding to the LED lamp flashing lattice site beside the lattice site on a mobile goods shelf, and the process is repeated until the bulk package is completely put on the tray; after the first sorting collection of the bulk cargo partition loading tray is finished, transferring to a partition shelf and collection center control method (2.4);

2) The control method of the partition shelf and the collection center specifically comprises the following steps:

(2.1) counting the specification and the quantity of goods shelves required by each partition according to the quantity of bulk cargo packages of each partition to which an order belongs in the period of time, and finishing the virtual allocation of the partition to which each goods shelf belongs and the number of the position of a business district collection center, and positioning an entity partition 'collection goods shelf' on site according to a screen display;

(2.2) scanning the partition 'aggregate shelf' ID bar code of the movable network terminal equipment, completing protocol handshake with the gateway, and distributing the virtual shelf allocation task, namely the information of the partition, specification and the like to the shelf;

(2.3) activating a partitioned 'set goods shelf' digital lamp of the movable network terminal equipment and LED lamps corresponding to all the positions, and fully lighting;

(2.4) scanning the tray bar code;

(2.5) flashing the LED lamps beside the corresponding blank space of the corresponding partition 'collection shelf' of the scanned tray;

(2.6) sending the tray to a lamp flashing position of a 'collection goods shelf' of the partition, repeating a 'collection goods shelf' process on full tray scanning until the full tray on a 'mobile goods shelf' is emptied, and returning to the step (1.6) of the partition tray and mobile goods sweeping control method;

and (2.7) after the central collection frame finishes the loading of all trays, all LED lamps on all the partition 'collection shelves' are turned off, and the commercial district collection central bulk cargo collection frame is finished, namely, the first sorting collection of bulk cargo packages partitioned by grid positions of the 'mobile shelves' is finished by the second sorting collection of bulk cargo packages partitioned by the shelves through the trays.

Compared with the prior art, the invention has the beneficial effects that:

1) In the invention, the clients purchase orders and goods from a plurality of allied suppliers, all the goods are packaged by the suppliers according to the orders issued by the cloud server and the appointed standard after software calculation, the distributed packaging is completed, the two-dimension codes distributed according to the cloud server are printed and pasted, and the address information and the packaging quantity information of the orders can be displayed by scanning the two-dimension codes. After the merchant finishes the packaging of the order in a specified time period, the two-dimensional code is scanned and uploaded, after the scanning of the last packaged two-dimensional code is finished, the merchant finishes all tasks in the time period, the cloud server gives an OK instruction, and an LED red light beside the merchant counter is lighted to indicate that the notch is 'ready to be fetched'.

2) According to the invention, through the software of the cloud server, the real-time and dynamic calculation and the general supervision control, the bulk goods flow shelf finishes the first sorting from bulk goods packages mixed by merchants to the partition numbering trays at the same time of sweeping and collecting all the way of the stall; in the commercial ring bulk goods collection center, the partition trays on the mobile goods shelves are placed on the goods shelves of the designated partition, and the second sorting of the goods shelves of each partition is completed. Through the secondary dynamic intelligent sorting collection in the flow, the bulk cargos are finally collected on bulk cargo integrated shelves taking the partitions as units by taking the trays as carriers in a bulk cargo collection center of a business district.

3) According to the invention, a truck distributes partition 'collection shelves' with twice sorting collections in bulk cargo collection centers of all business circles to sorting collection centers of all affiliated partitions, bulk cargo packages are finished on sorting collection assembly lines of all partitions to finally sort the collection of affiliated communities and affiliated orders, each order is accurately placed into a corresponding grid cabinet of a movable gateway shelf taking the communities as a unit, the trucks distribute the shelves to intelligent distribution service centers of all communities at regular time, a customer presents a mobile phone two-dimension code for scanning, LED lamps beside the grid cabinets of the corresponding shelves are flashed, and the final quick order package is finished, or the intelligent distribution service centers of the communities send the goods to the gate according to requirements. The whole process not only completes the bulk cargo collection of the individual orders, but also completes the echelon sorting collection in the logistics, and replaces the individual express delivery emission type transportation mode of motorcycles and small three wheels by adopting the clustered transportation mode of the intelligent gateway goods shelves capable of being turned by the freight trucks, thereby improving urban traffic while completing the bulk cargo collection with high efficiency and low cost.

Drawings

FIG. 1 is a schematic diagram of a mobile gateway shelf under the control of a cloud server of the present invention;

FIG. 2 is a side view of FIG. 1;

FIG. 3 is a block diagram of an electrical assembly of a mobile gateway shelf under control of a cloud server of the present invention;

FIG. 4 is a top view of FIG. 3;

FIG. 5 is a schematic diagram of a mobile gateway pallet under the control of a cloud server as a bulk collection in the present invention;

FIG. 6 is a side view of FIG. 5;

FIG. 7 is a schematic diagram of the structure of bulk collection carriers and sorting information transfer intermediary bar code trays between mobile network terminal equipment shelves under the control of two cloud servers;

FIG. 8 is a flow chart of a method for controlling a bulk flow collection and echelon sorting system in an online shopping mall of a mobile network terminal device under the control of a cloud server;

FIG. 9 is a schematic illustration of the course of the bulk sort collection system within the business turn of the present invention;

FIG. 10 is a schematic diagram of a WIFI networking control merchant "good" signal light system of the present invention;

FIG. 11 is a diagram of a digital light display of the flow shelf workflow of the present invention;

FIG. 12 is a schematic diagram of the invention with the scan tray bar code on shelf in the position of the LED light flashing;

FIG. 13 is a schematic diagram of a bulk package sort collection of a merchant booth according to the present invention;

FIG. 14 is a business turn bulk collection center layout of the present invention;

FIG. 15 is a schematic view of a window scanning pallet of the present invention in a commercial ring bulk collection center.

Description of main reference numerals:

gateway circuit board 121 of goods shelf 11 electrical equipment assembly 12

ID barcode 122 gateway power supply 123 LED lamp 124

Tray 15 for display screen 14 of cabinet 13

Detailed Description

The invention will be further described in detail below with reference to the accompanying drawings:

fig. 1 to 4 show the structure of a shelf of a mobile network terminal device of the present invention.

Referring to fig. 1 to 4, the mobile network terminal equipment shelf under the control of the cloud server includes a shelf 11, a scanning device (in the prior art, not shown in the drawing), an electrical assembly 12 fixed on the shelf 11, and a plurality of cabinets 13, the electrical assembly 12 includes a gateway circuit board 121 and an ID barcode 122 indicating the serial number of the shelf 11, the gateway circuit 121 is electrically connected with a gateway power supply 123 and a set of LED lamps 124 disposed beside each cabinet 13, the LED lamps 124 are electrically connected with the gateway power supply 123, the gateway circuit board 121 is wirelessly connected with the network through an antenna, the scanning device scans the ID barcode 122 and uploads the scanned serial number information of the shelf 11 to the cloud server, and the gateway of the gateway circuit 121 on the shelf 11 and the cloud server complete a handshake of a communication protocol to implement binding of the cloud server on the serial number of the shelf 11. The goods shelf 11 further comprises a display screen 14, the display screen 14 is fixedly connected to the top of the goods shelf 11 and is electrically connected with the electrical assembly 12, the display screen 14 is wirelessly connected with the cloud server, receives cloud server information through a wireless network, synchronously displays and indicates the position of a cabinet 13 where goods are located and information of loading and unloading with a monitoring screen of a general control center of the cloud server, and is in redundancy confirmation through the synchronous lighting, extinguishing and flashing of the goods shelf 11, and dynamically records and displays the quantity change of the loading and unloading.

Referring to fig. 5 and fig. 6, the mobile network terminal device under the control of the cloud server is used as a "mobile shelf" of the bulk cargo collection carrier in the flow of the mobile sweeping process from the business gate in the present case; an ID identity number 122 is arranged on a 'mobile shelf' of the bulk cargo collection carrier, after the bulk cargo collection carrier enters a site to be electrified and networked, after a receiver scans the ID identity bar code 122 of the 'mobile shelf' by a code scanning gun with a responsibility area number, a cloud server receives the ID identity bar code and completes protocol handshake with a gateway circuit on the 'mobile shelf' of the movable network terminal equipment, a task after virtual assembly is distributed to the 'mobile shelf' of the bulk cargo collection carrier, and binding of the cloud server and the gateway of the 'mobile shelf' of the movable network terminal equipment with the received ID number is completed; after the movable network terminal equipment ' mobile goods shelf ' finishes bulk goods collection at each business port, the LED lamps 124 arranged on the movable network terminal equipment ' mobile goods shelf ' are all turned off, and after the movable network terminal equipment ' mobile goods shelf ' finishes unloading at a business circle bulk goods collection center ', the last binding task is canceled through one-key lamp-off, and then one-key power-on networking is carried out, and the movable network terminal equipment ' mobile goods shelf ' is pushed into a waiting area; the receiver scans the ID code 122 of any empty shelf by scanning the code of the responsible file area number, the cloud server repeats the process, and the task and binding are redistributed to the shelf 11 of the mobile network terminal equipment 'mobile shelf', and the cycle is repeated.

Referring to fig. 7, a tray structure with a code mark and a positioning groove of the present invention is shown, the tray comprises a tray 1, two sides of the tray are provided with an ID code 2 for representing the number of the tray, and a code plate 3 for fixing and protecting the code; the bottom of the tray is provided with a groove 4 for being matched with a goods shelf lattice site with a boss so as to finish the positioning of the tray on the goods shelf lattice site; scanning ID bar codes on the side face of the tray, binding the tray bar code numbers according to the grid order of the mobile goods shelf by the cloud server, and endowing the tray ID numbers with partition information of the grid where the tray ID numbers are located; the cloud server which receives the bar code scanning information of the tray ID sequentially instructs the LED lamps beside the corresponding grid of the 'mobile goods shelf', the tray is placed on the lamp flashing grid until all the grid on the 'mobile goods shelf' are bound with the tray ID, each tray is temporarily assigned with a corresponding partition number, when bulk goods packages are assembled at the shelves of each merchant, the two-dimension codes of the bulk goods packages are scanned, the LED lamps beside the grid of the 'mobile goods shelf' corresponding to the partition to which the bulk goods packages belong are flashed, and the bulk goods are placed in the partition trays of the grid until all the trays on the 'mobile goods shelf' are full, and all the LED lamps of the grid are turned off; when the mobile goods shelf finishes the current bulk goods package collection and is sent to the business district collection center, the trays are taken out one by one according to the grid order, the trays are put into any station in a double-station window of the business district bulk goods collection center, any one of the scanning guns fixed on two sides of the window can automatically scan the corresponding bar code of one of the two sides of the tray, the bar code corresponding to the first space side LED lamp flash on the regional collection goods shelf, the trays are put on the flash space of the lamp flash of the regional collection goods shelf, namely the sorting collection of the regional trays to the regional collection goods shelf is finished, and therefore the automatic identification, exchange and transfer intermediary function of the position information of the bar code trays between two mobile network terminal carriers is realized.

Referring to fig. 8, a control method of a bulk cargo flow collection and echelon sorting system in an online shopping mall of a mobile network terminal device under the control of a cloud server; the control method comprises a control method of sequentially integrating a partition tray and a mobile sweeping and a control method of a partition shelf and a collection center;

(1.9) placing the trays in the corresponding lamp flashing positions, and repeating the process until all the trays are put on the shelf;

(1.10) scanning a mobile phone number two-dimensional code of a receiver by a merchant, and displaying OK confirmation by the merchant mobile phone; (1.11) a receiver scans the two-dimensional code of the bulk package and puts the two-dimensional code into a tray corresponding to the LED lamp flashing lattice site beside the lattice site on a mobile goods shelf, and the process is repeated until the bulk package is completely put on the tray; after the first sorting collection of the bulk cargo partition loading tray is finished, transferring to a partition shelf and collection center control method (2.4);

(2.4) scanning the tray bar code;

In this embodiment, the partition trays 15 are provided with an ID barcode 122, that is, each tray 15 has a serial number arranged according to a natural number in the area, after scanning the ID number 122, the cloud server can bind the tray ID number with the partition represented by the "mobile shelf" bin in the present supply period after placing the tray into the bin according to the LED lights beside the "mobile shelf" bin to which the partition has been allocated.

1. Flow sweeping goods collection and tray partition (Module 1)

1) Assigned booths for numbered scanning guns

According to the number of the time period and the distribution of the booths, taking the responsibility file area as an allocation calculation unit, taking the average receiving number of each receiving person in unit time as a basis, after finishing calculation according to an equalization principle, sending the serial numbers and the task orders of one or more merchants and/or booths with orders to serial number scanning guns and serial number mobile phones (receiving persons) corresponding to the responsibility file area through short messages.

2) Merchant booth task completion

After clicking confirmation, the printing body automatically prints the two-dimension code of the bulk package, and the merchant finishes code pasting and code scanning. After the last package of the present order is scanned, the display on the mobile phone screen is completed, and the supply task of the merchant's booth in the present period is completed. And when the merchant scans the code, the code is correspondingly and synchronously displayed on the general supervision screen of the cloud server. After the business task is completed, the cloud server immediately starts the calculation of the random bulk virtual collection package into the bracket.

3) Full frame judgment

The first step of the calculation of the random bulk virtual collection package into the bracket is that: judging whether the total amount of the order of the task can be spliced into a full frame according to the splicing principle. And if the shelf becomes the last tail shelf in the responsibility area in the period, if the shelf can be spliced into a full shelf, starting calculation, otherwise, entering a waiting state until the next merchant stall finishes the task, and splicing the sum of the total amount into a full shelf.

4) Indication lamp lighting and virtual splicing frame

When judging that the frame can be fully spliced, the cloud server starts the network control lamp system and lights the LED lamps of the merchant, and meanwhile, according to the subareas to which the bulk packages belong, software automatically finishes splicing the bulk packages one by one into the grid trays corresponding to the subarea numbers of the flow shelf.

5) Mobile phone for sending short message to number

After the calculation of the virtual subarea spelling is completed, the spelling information is sent to the corresponding receiver numbering mobile phone of the responsibility area of the merchant's stall.

6) Scanning empty frame ID collar frame

After receiving the short message notification of 'goods available', the receiver randomly gets an empty shelf from the empty shelf waiting area of 'mobile shelf', and scans the ID bar code of 'mobile shelf' by using the responsible area number scanning gun. The cloud server completes protocol handshake with the shelf gateway, sends the task of virtual shelf assembly to the gateway circuit of the shelf, and after binding of the mobile shelf is completed, all digital lamps and LED lamps of the mobile shelf are all lighted, and the mobile shelf is activated. After task allocation, each bin on the "mobile shelf" will be temporarily fixed with a partition number. That is, the two-dimensional code of the bulk cargo package of a certain partition is scanned, and the grid side LED lamp corresponding to the bulk cargo partition responds to flashing and indicates.

7) Scanning empty tray ID bar code

The empty trays are picked up one by one, and the ID bar codes thereon are scanned.

8) Binding lattice (partition number)

The "mobile shelf" of the virtual partition tile is completed, with each bin having been assigned a partition number. After receiving the bar code information of the first empty tray, the cloud server automatically binds the partition symbol (such as an area A) to which the first grid belongs with the tray ID, scans the partition symbol one by one, and completes binding of the empty tray ID and the partition number of the corresponding grid one by one according to the natural sequence of reading and writing the grid.

9) LED lamp flashing and screen synchronous lamp flashing

The cloud server orders the grid of the 'mobile shelf' according to the reading and writing sequence and instructs the LED lamps to flash according to the order. Meanwhile, the computer screen on the shelf also shines high light synchronously, indicates the position of the grid, and confirms redundancy.

10 A) empty tray loading frame

And placing the empty tray on the grid of the LED lamp flash.

11 Check goods checking code

The receiving staff pushes the mobile goods shelf of the upper full tray to the corresponding stall (the stall is provided with an LED lamp on prompt) according to the indication of the stall number of the screen display merchant. The receiver presents the two-dimension code of the numbering mobile phone to the merchant, the merchant scans the code, the receiver and the merchant computer terminal (PC or mobile phone) successfully pair the code, and the screens of the receiver and the merchant synchronously enter a dynamic 'checking and receiving' display state.

12 Checking and sweeping

The receiver scans the two-dimension codes on the bulk package one by using a number scanning gun. The LED lamps beside the corresponding partition grid of the 'mobile goods shelf' where the partition of the bulk package belongs flash, and the package is placed in a tray with the flash grid to finish one-time goods receiving, and the package on the 'mobile goods shelf' and the package on the mobile phone screen of the merchant are subtracted.

13 Package assembly completion)

And scanning bulk packages one by one, wherein if the mobile goods shelf is not full of the mobile goods shelf after the goods checking and receiving of the merchant are completed, the cart is pushed to the next merchant stall for repeated goods checking and receiving according to the screen indication on the goods shelf. After each tray on the grid is filled with bulk cargo, the LED lamps beside the grid where the tray is located are turned off until all the LED lamps beside all the grid on the 'mobile goods shelf' are turned off (the screen synchronously displays the number to finish), and the 'mobile goods shelf' finishes the scanning.

14 Window for bulk goods collection center of business district

After the goods sweeping of the mobile goods shelf is completed, all the LED lamps are turned off, and the top digital lamp is turned on except the time digital lamp and other lamps are turned off. Pushing the 'mobile goods shelf' to a window of a bulk goods collection center in a business district to finish the unloading of the tray under the shelf.

15 Zero clearing homing for mobile goods shelf

After all the full trays are placed in the central window, the movable shelf is emptied, after the power supply is turned off by one key, all task information which is assigned and bound by the cloud server last time is cleared, and then the full trays are powered on by one key and are connected with the network, and the full trays are pushed into the empty shelf waiting collar region.

2. Zoned pallet and tray aggregation center (module 2):

1) Virtual configuration shelf

And at the first time point of supply, the software counts the number of shelves with different specifications required by each partition according to the total module quantity of all order packages received by the business district and the average value of the packages which can be put into each shelf, and simultaneously completes the simulation sequencing of the business district bulk goods collection center on a computer screen.

2) Screen display shelf configuration and number

The computer screen in the business district bulk goods collection center and the cloud server master control center screen synchronously display the specification, the number and the sequence of the collection shelves of each partition in the period. And the actual tray of each goods shelf and the goods loading number of the package are dynamically displayed on the computer screen.

3) Goods shelf in place

And the dispatcher finishes the positioning of the corresponding specification and number in the respective number of the central site goods shelves according to the screen display indication.

4) Protocol handshake allocation partition numbers

After the goods shelves are electrified and networked, the ID identity bar codes on the goods shelves are scanned one by one in sequence, the cloud server and the goods shelf gateway scanned to the ID bar codes complete protocol handshaking, and partition numbers which the goods shelves belong to are distributed to through the gateway, so that binding is completed.

5) Activating goods shelf

The bundled shelves are activated, all top digital lamps are lighted, and the LEDs beside each bin are lighted.

6) Scanning tray ID bar code

After the full-package tray is placed in the central window, the full-package tray moves forward along with the belt conveyor, and the code scanning gun is fixed on the side face to finish the ID bar code scanning of the full-package tray.

7) LED lamp indication position

And the software indicates the LED lamps beside the grid to flash according to the partition symbols bound by the bar code numbers of the tray and the sequential space positions of the corresponding partition shelves.

8) Finish the secondary sorting

And (3) placing the trays on the flashing grid positions of the shelves, repeating until all the shelves are full of trays after the last tray in the period is placed in the corresponding grid position of the corresponding partition 'collection shelf', sounding the buzzer for a few seconds, and turning off all the LED lamps. And the bulk goods collection center in the business district completes all tasks of sorting and collecting goods shelves according to the subareas.

9) Order final sorting collection

When one or more business turn 'collection shelves' are accumulated by the cloud server software to be full of one car, a truck driver with a designated number is notified by automatic short messages, the car reaches the 'shelf' business turn collection shelf displayed on the screen of the mobile phone, the 'collection shelves' are respectively transported to the sorting collection center of each partition according to the cell numbers of the 'shelf' displayed by the top digital lamp, and the final sorting collection of the bulk cargo into an order and the cell addresses of the cell is completed.

Referring to fig. 9, a schematic diagram of bulk packaging in a route for a sorting set of ladder bulk in a business turn is shown; the software of the cloud server is used for real-time and dynamic calculation and general supervision control, and the bulk goods mobile goods shelves finish the first sorting from the merchant mixed packaging to the partition numbering trays at the same time of collecting all the way of goods sweeping at the merchant stall; at the "business district bulk goods collection center", the sectional trays 15 of the "flow racks" are placed on the "collection racks" of the designated section, and the second sorting to the "collection racks" of the sections is completed. Through secondary dynamic intelligent sorting collection in the flow, all bulk packages are finished by taking a tray as a carrier and sorted and collected on a bulk 'collection shelf' taking a partition as a unit in the final 'commercial district bulk collection center'.

Referring to fig. 10, in the business district, an LED display lamp is disposed beside the counter of all the allied businesses, and the LED display lamp is a system network control and is connected with the cloud server through wireless interconnection. Taking a fresh commodity big market or a supermarket as an example: the same type of stall is divided into a grade zone number according to the supply attribute, for example, the meat zone is R, the seafood is X, and the vegetables are S, and the like …. Each of the zones has different independent stall, such as vegetable shelves can be further classified into S-1 and S-2 …. After each supply time point arrives, the software randomly distributes one or more booths responsible for each receiver and sends short messages to the corresponding receiver according to the total online shopping amount of the business circle and the average receiving use of the receiver. After the distribution is completed, the two-dimensional code and the serial number scanning gun of the receiving person serial number mobile phone are temporarily bound with the serial numbers of the booths. After the stall receiving the order finishes the order packaging, the packaging two-dimensional codes are scanned one by one, when the last packaging scanning is finished and a mobile goods shelf can be filled in a responsibility area of the last packaging, the cloud server sends a task completion instruction, the LED lamp with the serial number beside the counter of the merchant is started to be lighted, and a short message of goods notification is sent to a mobile phone of a receiver in the responsibility area. The receiver scans goods in a mobile mode according to the number instruction given by the mobile phone and the indication of a 'good' LED red light.

Referring to fig. 11, the "mobile shelf" is shown with indications given by corresponding changes in the digital lamps under different conditions during its workflow. After a receiver finishes scanning an ID bar code of a 'mobile goods shelf', and finishes protocol handshaking and binding of a cloud server and a gateway on the 'mobile goods shelf', all LED lamps on the cloud server and digital lamps on the mobile goods shelf are fully lighted, and the 'mobile goods shelf' is activated. The digital lamp is eight bits in total, the first four bits represent the time point when the present supply period is completed, the middle two bits represent the number of the responsible area to which the present supply period belongs, and the second two bits represent the serial number. When the last bulk package scanning shelf is completed, all the LED lamps on the 'mobile shelf' are turned off, the rear four-bit lamp is turned off, and only the front four-bit time lamp is kept on. When the movable goods shelf finishes the tray unloading and unloading in the window of the commercial ring bulk goods collection center, the last key of the salesman is powered off to turn off the lamp, the last key is powered on to connect with the network, and after the movable goods shelf is activated again, the digital lamp is turned on again according to a new task instruction.

Referring to fig. 12, the empty tray is put on the frame and bound with the grid partition: after the receiver gets the "mobile goods shelf", the goods shelf is all activated (the digital lamp is fully lighted and the grid LED lamp is fully lighted). The receiver randomly takes the tray 15, scans the tray ID bar code 122, and after receiving the code scanning tray information, the cloud server instructs the gateway circuit 121 of the mobile goods shelf to flash according to the grid number LED lamps 124 of the read-write sequence (1, 2 and 3 … …), and places the tray 15 into the grid corresponding to the flash lamps to finish the loading of the tray; the code is scanned and lifted one by one until all the grid trays are full of 'mobile goods shelves'. The cloud server automatically associates the partition number of the flash grid with the tray ID of the scanned code, namely, the ID number on each tray which is put on the shelf is assigned with the partition number of the grid: when the 'mobile goods shelf' filled with the bulk packages is sent to a 'business circle bulk goods collection center window', the ID bar codes of the trays filled with the bulk packages are scanned, and after the cloud service automatically identifies the partition to which the trays belong, the LED lamps beside the empty grid positions corresponding to the partition 'collection goods shelf' are indicated to flash according to the sequence, so that the trays are indicated to be placed in positions.

Referring to fig. 13, a merchant booth scans: in a large sales space or a supermarket, pushing the goods shelves to a numbered stall for receiving goods according to the indication of the digital lamp; and a store with a relatively long distance can be started to lift the goods shelf for receiving goods by a small forklift. Before the goods shelf reaches the shop, the LED red light is lighted before the shop for completing the task, indicating that goods are available. After the code scanning of the merchant, the receiver and the merchant computer terminal (PC or mobile phone) successfully pair the codes, and the screens of the receiver and the merchant synchronously enter a dynamic checking and receiving display state (a package is scanned, and the screens of the receiver and the merchant synchronously display minus a number). The receiving person picks up a bulk package, scans the two-dimensional code on the package, flashes the LED lamps beside the grid position of the 'mobile goods shelf' of the partition where the package belongs, and places the package in a tray corresponding to the flashing grid position to finish one-time receiving. The cloud server calculates the 'full bulk package' of the tray according to the average standard module loaded in the standard package, but randomly scans the bulk package (larger or smaller) on site, one package is scanned every time, the computer screen display dynamically accumulates the module number of the scanned package, and when the total number of the modules of one tray reaches or exceeds the average module number within a limited range, the LED lamp beside the grid is automatically turned off after flashing for a few seconds. If the number of the scanned packaging modules (large-size packages) exceeds the limit range of the tray, the buzzer sounds, the screen is clicked to cancel the package, and the small-size packages in the same partition are replaced to scan the code again until the package is accepted. And repeatedly scanning the code to receive goods until all LED lamps on the goods shelf are turned off, the display numbers reach the standard, all the check boxes become grey, and the goods receiving is finished. Four works are completed simultaneously in the goods sweeping process of the merchant stall: 1) Receiving goods; 2) Checking and accepting the quantity; 3) Uploading the goods receiving information and the completion time; 4) The mixed bulk cargo is sorted to each subarea according to the pallet division, namely the first sorting of echelon sorting in the business circle is finished.

Referring to fig. 14, the business district bulk collection center: the method comprises the steps that a commercial ring bulk cargo collection center is arranged in each cross commercial ring, and the commercial ring bulk cargo collection center has the task that after sorting and collection from each commercial company stall to bulk cargo trays belonging to different subareas are completed, the trays are placed on the grid positions of corresponding subarea shelves, and bulk cargo package collection carried by the trays by taking the subarea shelves as units is completed; after receiving the short message notification of goods, the truck driver directly pulls the goods shelves of different subareas from the commercial ring bulk goods collection center to the sorting collection center of each subarea, and packages the bulk goods in the sorting collection center of each subarea to complete the final sorting collection of the order and the district. The specification and the number of the 'collection shelves' are automatically calculated and completed after the 'task starting time point' arrives through software of a cloud server, trays belonging to all the partitions are sent from a business circle bulk goods collection center window, the tray bar codes are scanned, LED lamps beside the space corresponding to the 'collection shelves' of the corresponding partition are flashed, and the trays are placed on the lamp flash space corresponding to the 'collection shelves', so that the second sorting from the mixed packaging of merchants to the collection shelves of the partition is completed, and the method comprises the following specific steps:

1) Virtual allocation of aggregate shelves

The online shopping is set according to time periods, when a new supply time point arrives, bulk cargo package information of all orders in the time period is received, bulk cargo packages are standard specifications, various types of bulk cargo in the standard specification packages are converted into standard volume modules according to volumes, software automatically counts the total quantity of the package modules belonging to each partition in the business district, calculates the required tray number according to average value statistics, and places one tray for each shelf position for calculation, so that specification and quantity configuration of shelves required by each partition are further obtained, and the shelves have different specifications according to the number of the shelves.

2) Numbering and seating of collective shelves

After the specification and the number of the partition 'set shelves' are distributed, the numbering of all the shelves is further completed, wherein the numbering comprises partition, specification and ordering information. And the cloud server finishes calculation and numbering and simultaneously sends a short message to a dispatcher mobile phone of a commercial ring bulk goods collection center and displays configuration numbers and position diagrams on screen. After receiving the short message of the shelf notification in the period, the business district dispatcher refers to the specification and the position sequence of the shelf displayed by a computer screen arranged in a business district bulk goods collection center, pushes the empty 'collection shelves' with corresponding specification and quantity into the position in sequence one by one and electrifies the goods in sequence, the power supply lamps on all the shelves are on, the gateway on the shelf automatically completes automatic networking with the local area network in the business district through an antenna, and the network lamps on the shelves are on.

3) Activation of aggregate shelves

Scanning a first shelf ID bar code by a scanning gun in sequence, completing protocol handshake between a cloud server and a gateway on the 'set shelf', distributing the partition and the number of the first shelf to a gateway circuit of the 'set shelf' of the entity according to the sequencing result of the 'virtual distribution', completing binding, wherein a digital lamp and LED lamps beside all the grid positions on the 'set shelf' are on, and the partition 'set shelf' is activated; and scanning all shelf IDs one by one in sequence, and completing the activation of all 'aggregate shelves'. After the last frame is finished, the buzzer sounds for a few seconds, and the configuration of the partition 'collection shelf' in the period is finished.

4) Digital lamp for integrated goods shelf

The activated digital lamp at the top of the 'set shelf' is lighted, and the total number of the digital lamps is 8: time 4 bits, partition symbol 1 bit, partition lower number 1 bit, representing specification symbol 1 bit, center sequence number 1 bit. Such as: 12, 3, 0a, 6G 1, representing that the supply is completed 30 minutes before 12 points, belonging to the No. 6 rack of the a partition, G represents the specification, and the last 1 represents the sorting of the racks at the "business district bulk goods collection center" this time as the No. 1 rack.

5) Sorting assembly of assembly shelves

Each tray was removed from the "mobile shelf" one by one and placed into the central window. After the bar code scanning of the tray is completed by the fixed scanners at the two sides of the central window, the cloud server instructs the LED lamps beside the corresponding storage racks to flash according to the partition to which the tray belongs, the tray is placed on the corresponding space of the 'set storage racks' corresponding to the partition lamps to flash, the tray is scanned one by one, after the last tray is put on the shelf, the LED lamps on all the partition 'set storage racks' are turned off (the digital lamps still keep normally on), the buzzer rings, and the sorting according to the partition storage rack sets of the 'business ring bulk cargo set center' is finished.

6) Truck transporting frame

And the truck driver receives the short message notification sent by the cloud server, gets on the shelf to the commercial ring bulk goods collection center, and sends the short message to the sorting collection center of the partition where the shelf is located according to the partition number indication of the digital lamp at the top of the shelf of each partition, thereby completing the cell-level sorting collection and the final sorting collection of the bulk goods orders.

Referring to fig. 15, the window tray scan works as follows:

1) Tray for placing window

A double-station tray receiving window is arranged in a commercial ring bulk cargo collection center, the same ID bar codes are respectively arranged on two sides of the tray, and fixed scanners are respectively arranged on two sides of the window, so that the ID bar codes of the tray can be scanned no matter from which station the tray enters; an admittance lamp is arranged above each station of the double-station tray receiving window, and the admittance lamp is divided into red and green colors; the double-station tray receiving window is internally provided with small belt conveyors for receiving and conveying trays respectively, a No. 1 camera is arranged above the belt conveyors close to the window, a No. 2 camera is arranged above the other end of the belt conveyors far away from the window, and after no-cargo instructions are sent out by the No. 2 camera, an admittance lamp above the window corresponding to the station is green, otherwise, the admittance lamp is red; placing the tray on a station with a green admission lamp above a central window, simultaneously taking the tray on a small belt conveyor, sending a signal to automatically start the small belt conveyor to operate after the 1 # camera judges that the goods come, and simultaneously automatically completing code scanning of a side scanner on a tray bar code; after the pallet runs in place, the No. 2 camera judges that the pallet is in stock and then sends out an instruction, and the belt conveyor stops;

2) LED lamp indication position

When the tray is placed on a 'mobile shelf', an ID bar code of the tray is scanned and registered, and the cloud server binds the ID number of the tray and a partition to which the grid placed in the tray belongs, namely the tray is automatically assigned with the partition number represented by the grid; after the tray filled with the bulk cargo packages is placed in a window of a commercial ring bulk cargo collection center and scanned, software sequentially distributes the tray to space grid positions of a corresponding partition 'collection shelf' according to the partition to which the tray belongs, instructs a gateway circuit of the 'collection shelf', enables LED lamps beside the corresponding space grid positions to flash, indicates positions, and automatically turns off after the LED lamps flash for a few seconds.

3) Tray put-in partition 'set goods shelf' space lattice

According to the LED lamp flashing indication position, placing the tray on a grid position of a 'collection shelf' of a partition corresponding to the tray; repeating until the last tray is scanned and placed in the last space lattice of the corresponding partition 'set shelf', sounding the buzzer for several seconds, and turning off all the LED lamps (the digital lamps are always kept). The sorting and collecting task of the commercial ring bulk cargo collecting center is completed, the cloud server sends a short message to a truck driver, and the truck waits for the vehicle to convey all the period 'collecting shelves' which are all completed in the subarea to the sorting and collecting center of each corresponding subarea.

The foregoing description is only of the preferred embodiments of the invention, and all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims

1. A method for bulk cargo flowing collection and echelon sorting in an online shopping mall is characterized in that a movable network terminal device controlled by a cloud server is adopted as a shelf of a bulk cargo collecting carrier, a shelf ID bar code is scanned and uploaded, the cloud server transmits a virtual allocation task of bulk cargo packaging in a shelf grid position to a gateway circuit of a received ID numbered shelf, the mobile shelf after task binding is pushed to each merchant grid port to scan a bulk cargo packaging two-dimensional code, the bulk cargo packaging is placed in a grid tray corresponding to a lamp flash of a partition to which the mobile shelf belongs, and sorting collection of bulk cargo packaging to the partition grid position of the mobile shelf for the first time is completed; scanning the bar codes of the full pallet which is bound by the partition numbers in the business district goods collection center, putting the pallet on the space of the partition collection goods shelf corresponding to the lamp flash of the partition to which the pallet belongs, and completing the sorting collection of the bulk goods package to the partition collection goods shelf for the second time; the truck transports goods shelves to the sorting centers of all the affiliated subareas to finish the final order set of bulk cargo package, the method further comprises the steps that a movable network terminal device under the control of a cloud server is used as a goods shelf of a bulk cargo package set carrier, when the first sorting set of bulk cargo package is carried out from the shelves of all merchants, the movable goods shelves of the subareas to which the bulk cargo package belongs are divided by the grid positions on the goods shelves, and when the second sorting set is carried out by the business district set center, the set goods shelves of the subareas to which the bulk cargo package belongs are divided by the whole goods shelves; when the supply time point of the business district arrives, the cloud server distributes the quantity of each partition to which the bulk package distributed to the business district belongs according to the time period, and the distribution of the quantity, specification and number of the storage racks of each partition set is completed; in a business circle collection center, locating the collection shelves corresponding to each partition specification and quantity according to screen display indication, automatically completing networking by a gateway on all shelves after powering on, scanning the ID bar codes on the collection shelves one by a scanning device, uploading scanned ID number information to a cloud server, completing communication protocol handshaking by the cloud server and the gateway on the ID number shelf, distributing the partition and the number of the collection shelf in the period, completing binding of the partition and the number of the ID number of the collection shelf by the cloud server, and activating a digital lamp on the partition and an LED lamp beside all the grid positions; when the supply time point of the business district arrives, the cloud server distributes the quantity of each business belonging to the bulk package distributed to the business district according to the time period, and the task distribution of each responsibility district is completed; the cloud server judges the on-site bulk package scanning state of merchants in each responsibility area in real time, when one or more merchants in a certain responsibility area finish scanning the last bulk package, if the scanned bulk package is full of a mobile goods shelf, software automatically allocates virtual grid positions on the mobile goods shelf according to the partition to which the bulk package belongs, and informs a receiver in the responsibility area of a short message; when receiving a goods notification short message of a cloud server, a receiver mobile phone obtains an empty mobile shelf which is electrified and networked from a mobile shelf waiting area, scans an ID bar code on the mobile shelf by a code scanning gun of a responsibility area number and uploads the ID bar code, and after receiving the number of the ID bar code, the cloud server completes protocol handshake with a gateway on the mobile shelf of the mobile network terminal equipment, and transmits a virtual allocation task of packaging bulk goods at a grid position to a gateway circuit of the received ID number shelf to complete task bundling of the cloud server and the gateway on the mobile shelf of the mobile network terminal equipment, and simultaneously activates all digital lamps and LED lamps on the mobile shelf; after the mobile goods shelf is activated, an operator scans bar codes on the side surface of any empty tray by using the code scanning gun with the responsibility area number, and uploads the bar codes, according to an instruction issued by a cloud server, the LED lamps beside the grid positions of different partitions on the mobile goods shelf flash according to the grid position sequence, the empty tray is put into the flash grid position to finish the binding of the tray ID number and the partition represented by the flash grid position of the mobile goods shelf, the mobile goods shelf is pushed to each merchant notch with the LED red light on which the goods supply is finished, and bulk goods packaging is collected in the mobile; scanning two-dimension codes of bulk package of each merchant, flashing LED lamps beside grid positions of the corresponding partitions of the bulk package on the movable shelves, placing the bulk package into trays of the corresponding grid positions until all trays of the corresponding partitions on all the movable shelves are full according to the allocated tasks, and completely extinguishing the LED lamps beside the grid positions on the movable shelves of the movable network terminal equipment, thereby completing sorting collection of the bulk package of different partitions in the movable collection according to the grid positions for the first time through the trays; then pushing the goods shelf to a commercial ring bulk goods collection center to finish the tray unloading, pushing the goods shelf to an empty shelf waiting area after unloading, powering off all tasks by one key, starting the goods shelf by one key through the internet, waiting for the next receiver to scan the ID bar code after receiving the mobile phone short message, and repeating the cycle; scanning the ID bar codes of the side surfaces of the trays bound with the partitions one by one in a business circle collection center, flashing LED lamps beside the first blank space of the collection shelf corresponding to the partitions, and placing the trays on the corresponding positions of the collection shelf, thereby completing the second sorting collection of the bulk cargo packages of different partitions to the partition collection shelf through the partition trays, and finishing the twice bulk cargo sorting collection of the bulk cargo packages of different partitions in the business circle collection center; further, trucks transport the collective shelves belonging to different sections to the sorting centers of the sections, completing the final sorting of bulk packages from different business circles to the order and the district to which they belong.

2. The method for bulk cargo flowing set and echelon sorting in an online shopping mall according to claim 1, wherein the movable network terminal device under the control of the cloud server comprises a flowing goods shelf, a collecting goods shelf, a scanning device, an ID bar code fixed on the goods shelf and used for representing the goods shelf number, an electric appliance assembly and a plurality of grid cabinets, wherein the electric appliance assembly is fixed on the goods shelf and comprises a gateway circuit, the gateway circuit is electrically connected with a gateway power supply, a group of digital lamps used for representing time, belonging location and position numbers and a group of LED lamps arranged beside each grid cabinet, the digital lamps and the LED lamps are electrically connected with the power supply, the gateway circuit is in wireless connection with a network through an antenna, the scanning device scans the ID bar code and uploads scanned goods shelf number information to the cloud server, the goods shelf and the cloud server complete a handshake of a communication protocol, and the cloud server transmits a virtual allocation task of bulk cargo packaged in the grid positions to the gateway circuit of the received ID number shelf, so that the cloud server binds the goods shelf number tasks.

3. The method for bulk cargo flowing collection and echelon sorting in an online shopping mall according to claim 1, wherein the side surface of the tray is provided with an ID bar code number; scanning the ID bar code numbers on the side face of the tray, binding the ID bar code numbers of the tray according to the position sequence of the mobile goods shelf by the cloud server, and endowing the ID bar code numbers of the tray with the belonging partition information of the position of the ID bar code numbers of the tray; the cloud server which receives the scanning information of the tray ID bar code numbers sequentially instructs the LED lamps beside the corresponding grid positions of the mobile goods shelf to flash, the trays are placed on the lamp flash grid positions until all grid positions on the mobile goods shelf are bound with the tray ID bar code numbers, each tray is temporarily assigned with the corresponding partition number, when bulk goods packages are assembled at the shelves of each merchant, the two-dimension codes of the bulk goods packages are scanned, the LED lamps beside the grid positions corresponding to the partition to which the bulk goods packages belong flash, the bulk goods are placed in the partition trays of the grid positions until all the trays on the mobile goods shelf are full, and the LED lamps of all the grid positions are all off; after the mobile goods shelf finishes the current bulk goods packaging collection and is sent to a business district collection center, the trays are taken out one by one and placed in windows, ID bar code numbers on the sides of the trays are scanned, the ID bar code numbers correspond to the LED lights beside the first space on the collection goods shelf of the partition, the trays are placed on the light flashing space of the collection goods shelf of the partition, and the sorting collection of the partition trays to the collection goods shelf of the partition is finished, so that the intermediary functions of automatic identification, exchange and transfer of position information of the bar code trays between two mobile network terminal carriers are realized.

4. A control method of bulk cargo flow collection and echelon sorting system in online shopping mall of mobile network terminal equipment under control of cloud server; the control method is characterized by comprising a control method of sequentially integrating a partition tray and a mobile sweeping and a control method of a partition shelf and a collection center;

the method comprises the steps that (1.4) if the scanning is finished, a lamp control system is instructed to enable LED lamps beside a stall which finishes scanning of the last packaging task to be lighted, and virtual collection packages are put on a support, namely, cloud server software automatically loads scanned codes into bulk cargo packages of different partitions which belong to into a support box of one or more check positions of a mobile goods shelf according to distribution rules and the finishing quantity, and the partition numbers which belong to all check positions are assigned;

(1.6) the receiver takes the empty mobile shelf scanning ID to finish activation and task allocation;

(1.9) placing the trays in the corresponding lamp flashing positions until all the trays are put on shelf;

(1.10) scanning a mobile phone number two-dimensional code of a receiver by a merchant, and displaying OK confirmation by the merchant mobile phone;

(1.11) a receiver scans the two-dimensional code of the bulk package and puts the two-dimensional code into a tray corresponding to the LED lamp flashing lattice site on the mobile goods shelf until the bulk package is completely put into the tray for loading; after the first sorting collection of the bulk cargo partition loading tray is finished, transferring to a partition shelf and collection center control method (2.4);

(2.1) counting the specification and the quantity of goods shelves required by each partition according to the quantity of bulk cargo packages of each partition to which an order belongs in the period of time, and completing virtual allocation of the partition to which each goods shelf belongs and the number at the position of a business district collection center, and collecting the goods shelves of the entity partition set in place on site according to a screen display;

(2.2) scanning the partition set shelf ID bar codes of the movable network terminal equipment, completing protocol handshake with a gateway, and distributing the virtual shelf allocation task, namely the information of the partition, the specification and the like to the shelf;

(2.3) activating a subarea collection shelf digital lamp of the movable network terminal equipment and LED lamps corresponding to all the positions, and fully lighting;

(2.4) scanning the tray bar code;

(2.5) flashing LED lamps beside corresponding space bits of the partition set shelf corresponding to the scanned tray;

(2.6) sending the trays to the lamp flashing positions of the regional collection shelves, repeating the process of collecting the shelves on full tray scanning until the full trays on the mobile shelves are emptied, and returning to the step (1.6) of the regional trays and the mobile goods sweeping control method;

and (2.7) after the central collection rack finishes loading all trays, all LED lamps on all the partition collection racks are turned off, and the business district collection central bulk cargo collection rack is finished, namely, the first sorting collection of bulk cargo packages divided by the grid position of the mobile racks is finished by the second sorting collection of bulk cargo packages divided by the racks through the trays.