CN112801759A

CN112801759A - E-commerce system based on intelligent supply chain

Info

Publication number: CN112801759A
Application number: CN202110322861.1A
Authority: CN
Inventors: 徐意; 蒙淮; 李昭; 吴志刚; 张俊
Original assignee: Hangzhou Pinjie Network Technology Co Ltd
Current assignee: Hangzhou Pinjie Network Technology Co Ltd
Priority date: 2021-03-26
Filing date: 2021-03-26
Publication date: 2021-05-14
Anticipated expiration: 2041-03-26
Also published as: CN112801759B

Abstract

The application provides an electricity merchant system based on intelligence supply chain includes: a first type of terminal device for use by a buyer to place an order for an order; the second type of terminal equipment is used for receiving supply orders by the seller; the third type of terminal equipment is used for a carrier to receive a logistics order, the logistics order comprises logistics data of the carrier for transporting goods, and the logistics data at least comprises logistics price data; and the server is used for enabling the logistics orders of the third type terminal equipment to at least comprise a plurality of order-gathering orders, commodity attribute data of commodities in the goods supply orders and corresponding relation data reflecting the corresponding relation between the order-gathering orders and the goods supply orders. The intelligent supply chain-based e-commerce system has the advantages that price balance can be carried out between a buyer and a seller, and meanwhile split purchase and logistics distribution can be dynamically achieved.

Description

E-commerce system based on intelligent supply chain

Technical Field

The application specifically relates to an e-commerce system based on an intelligent supply chain.

Background

The existing small and medium-sized convenience stores usually carry out off-line commodity purchase at suppliers through own channels, and due to the characteristics of the small and medium-sized convenience stores, the small and medium-sized convenience stores cannot purchase goods in large batches, so that effective bargaining can not be carried out with the suppliers, and meanwhile, due to the requirement of wholesale of the suppliers on the purchase quantity, the small and medium-sized convenience stores need to guarantee a certain scale for each purchase, so that the inventory problem is caused.

From the perspective of suppliers, the scattered purchasing mode of small and medium-sized convenience stores leads to the increase of the warehousing cost of the suppliers, so that the supply price is kept high.

There is no intelligent supply chain based e-commerce system that can solve the above problems.

Disclosure of Invention

In order to solve the defects of the prior art, the application provides an e-commerce system based on an intelligent supply chain, which comprises: the system comprises a first type of terminal equipment, a second type of terminal equipment and a third type of terminal equipment, wherein the first type of terminal equipment is used by a buyer to place an order assembly order, the order assembly order comprises order assembly data of order assembly commodities assembled by the buyer, and the order assembly data at least comprises order assembly price data; the second type of terminal equipment is used for a seller to receive a supply order, wherein the supply order comprises supply data of commodities supplied by the seller, and the supply data at least comprises supply price data; the third type of terminal equipment is used by a carrier to receive a logistics order, the logistics order contains logistics data of the carrier for transporting goods, and the logistics data at least comprises logistics price data; and the server is used for respectively forming data interaction with the first type terminal equipment, the second type terminal equipment and the third type terminal equipment so that the logistics order of the third type terminal equipment at least comprises commodity attribute data of commodities in the multiple order-gathering orders and the goods-supplying orders and corresponding relation data reflecting the corresponding relation between the order-gathering orders and the goods-supplying orders.

Further, the first type of terminal device includes: the first type of human-computer interaction interface is at least used for displaying the order splicing unit price data of the order splicing order; the server includes: and the unit splicing price lattice management module is used for dynamically generating the unit splicing price lattice data at least according to the market price data collected by the server.

Further, the second type of terminal device includes: the second type human-computer interaction interface is used for displaying and setting supply price data of the supply order; the server includes: and the supply price management module is used for generating price matching data displayed by the first type of human-computer interaction interface at least according to the supply price data set by the seller through the second type of human-computer interaction interface.

Further, the third type of terminal device includes: the third type human-computer interaction interface is used for displaying the logistics price data of the logistics order and the corresponding relation data; the server includes: and the logistics price management module is used for generating logistics price data displayed by the third type human-computer interaction interface at least according to the order combination order and the goods supply order contained in the logistics order.

Further, the unit price lattice management module comprises: and the market price acquisition unit is used for acquiring market price data of the commodities in the order from at least an external webpage and storing the market price data in the server.

Further, the unit price grid splicing management module further comprises: and the unit price splicing calculation unit is used for generating the unit price splicing data at least according to the market price data acquired by the market price acquisition unit.

Further, the supply price management module comprises: an inquiry price calculating unit for generating inquiry price data;

the price inquiry calculation unit and the price spelling unit form data interaction so that the price inquiry calculation unit generates the price inquiry data according to the price spelling unit data and stores the price inquiry data in the server.

Further, the supply price management module further comprises: the price-answering collecting unit is used for collecting supply price data set by the seller through the second type terminal equipment; the price-answering price acquisition unit and the price-inquiring price calculation unit form data interaction so that the price-answering price acquisition unit acquires the supply price data according to the price-inquiring price data.

Furthermore, the unit price splicing lattice calculating unit, the price-answering price collecting unit and the market price collecting unit respectively form data interaction so that the unit price splicing lattice calculating unit comprehensively generates the unit price splicing lattice data according to the market price data and the supply price data.

Further, the logistics price management module comprises: and the logistics price calculating unit is used for producing the logistics price data according to the quantity, the price and the position of the commodities in the order combination order and the supply order contained in the logistics order.

Further, the logistics price calculating unit generates the logistics price data according to a difference value between the price splicing data and the supply price data in the logistics order.

Further, the logistics price calculation unit generates the logistics price data according to the quantity of the commodities in the logistics order.

Further, the logistics price calculation unit generates the logistics price data according to the position data of the buyer and the seller in the logistics order.

The application has the advantages that: an intelligent supply chain-based e-commerce system capable of balancing prices between buyers and sellers and dynamically realizing purchase and logistics distribution of bills is provided.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, serve to provide a further understanding of the application and to enable other features, objects, and advantages of the application to be more apparent. The drawings and their description illustrate the embodiments of the invention and do not limit it. In the drawings:

FIG. 1 is an architectural diagram of an intelligent supply chain based e-commerce system according to one embodiment of the present application;

FIG. 2 is a schematic diagram of a server module composition according to one embodiment of the present application;

FIG. 3 is a schematic diagram of a piecemeal unit price grid management module according to an embodiment of the present application;

FIG. 4 is a block diagram of a supply price management module according to an embodiment of the present application;

FIG. 5 is a schematic diagram of the composition of a logistics price management module according to one embodiment of the present application;

FIG. 6 is a schematic diagram of data interaction between various modules and units of a server according to one embodiment of the present application;

FIG. 7 is a schematic diagram of a server price management flow according to an embodiment of the present application;

FIG. 8 is a flowchart illustrating steps of a method for a server to set piecing price data according to an embodiment of the present disclosure;

FIG. 9 is a schematic diagram illustrating a price setting principle in an intelligent supply chain based e-commerce system according to an embodiment of the present application;

FIG. 10 is a schematic diagram of one of a first class of human-machine interaction interfaces, according to an embodiment of the present application;

FIG. 11 is a schematic illustration of one of a second type of human-machine interaction interface, according to an embodiment of the present application;

FIG. 12 is an interactive interface displaying a summary of a logistics order in a third type of human machine interface according to one embodiment of the present application;

FIG. 13 is an interactive interface in a third type of human-machine interface that displays a pick-and-place list of waybill details according to one embodiment of the present application;

FIG. 14 is an interactive interface of a pick-and-place map showing waybill details in a third type of human-machine interface according to an embodiment of the present application;

FIG. 15 is an interaction interface incorporating pick up in a third type of human machine interaction interface according to one embodiment of the present application;

FIG. 16 is a diagram illustrating a mapping between a combination order and a supply order, according to an embodiment of the present disclosure;

FIG. 17 is a schematic illustration of a market price graph;

FIG. 18 is a schematic diagram of a piecing unit price plot;

FIG. 19 is a schematic illustration of a supply price graph;

FIG. 20 is a schematic diagram of a convolutional neural network model predicting a price for a spelled order in accordance with one embodiment of the present application;

fig. 21 is a schematic diagram illustrating a process of implementing procurement by an intelligent supply chain-based e-commerce system according to an embodiment of the application.

The reference numerals in the figures have the following meanings:

the e-commerce system 100 based on the intelligent supply chain, the first type terminal device 200, the second type terminal device 300, the third type terminal device 400, the server 500, the price sharing unit management module 501, the supply price management module 502, the logistics price management module 503, the market price acquisition unit 5011, the price sharing unit calculation unit 5012, the price inquiry price calculation unit 5021, the price answering price acquisition unit 5022 and the logistics price calculation unit 5031.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1 to 6, the intelligent supply chain-based e-commerce system of the present application includes: the system comprises a first type of terminal equipment, a second type of terminal equipment, a third type of terminal equipment and a server.

The first type of terminal equipment is used for a buyer to send out an order for order spelling, the order comprises order spelling data of order-spelling commodities spelled by the buyer, and the order spelling data at least comprises: pieced unit price data. More specifically, the order data also includes buyer information, merchandise information (such as SKU data), shipping address, and the like. The price data of the order spelled price referred to herein refers to the price that the buyer sees the platform pricing at the time of purchase at the first type of terminal device and displays the pricing price in the order spelled, rather than the price that the platform ultimately settles in the order spelled, because the settlement price of the order spelled at the time of sale may be lower than the pricing at the time of purchase, such as shown in fig. 10, and the system may be discounted a certain fee depending on the activity and the behavior of the buyer.

Specifically, the first type of terminal device may be a device having communication and data processing functions, such as a smartphone or a PC computer. Preferably, the first type of terminal device may be configured as a smart phone, and the first type of terminal device has a touch screen as a first type of human-computer interaction interface and has a wireless communication function to transmit data. Still further, the first type of terminal device has a camera to collect corresponding image data.

As a specific solution, as shown in fig. 10, the first human-machine interface of the first type terminal device is at least used for displaying the order form data in the order form. The buyer can select the needed commodities to form a bill order through the first human-computer interaction interface so as to achieve the purpose of online purchasing.

On the other hand, the second type of terminal device is used by the seller to receive a supply order, where the supply order includes supply data of the goods supplied by the seller, and the supply data at least includes supply price data. Supply price data as referred to herein refers to the price that the platform settles to the seller (provider).

Similarly, the second type of terminal device may also be a device with communication and data processing functions, such as a smart phone or a PC computer. Preferably, the second type of terminal device may also be configured as a smart phone, and the second type of terminal device has a touch screen as a second type of human-computer interaction interface and has a wireless communication function to transmit data. Still further, the second type of terminal device has a camera to collect corresponding image data. For the business requirements of the seller, the functions executed by the second type of terminal device may be respectively assumed by a smart phone and a PC computer (or a notebook computer, a tablet computer), where the smart phone is used for scanning codes and delivering goods, and the PC computer is used for implementing functions such as price setting.

The second type terminal equipment displays and sets supply price data of supply orders through a second type human-computer interaction interface, namely, a seller can set or modify price through the second type human-computer interaction interface and check corresponding data through the interface.

The third type of terminal equipment is used for a carrier to receive a logistics order, the logistics order contains logistics data of the carrier for transporting goods, and the logistics data at least comprises logistics price data.

Similarly, the third type of terminal device may be mainly configured as a smart phone, which is set in consideration of the characteristics of the carrier service, and has a touch screen as a third type of man-machine interface and a wireless communication function to transmit data. Still further, a third type of terminal device has a camera to capture corresponding image data.

The server is used for respectively forming data interaction with the first type terminal equipment, the second type terminal equipment and the third type terminal equipment so that the logistics orders of the third type terminal equipment at least comprise a plurality of order-gathering orders, commodity attribute data of commodities in goods supply orders and corresponding relation data reflecting the corresponding relation between the order-gathering orders and the goods supply orders.

As shown in fig. 11 to fig. 15, the third type human-computer interaction interface of the third type terminal device displays logistics price data, and also displays data in the order form and the supply order form, such as commodity attribute information, where the commodity attribute information includes information such as a commodity name that can reflect the commodity attribute to distinguish other commodities. Moreover, the third type human-computer interaction interface also displays the corresponding relationship data reflecting the corresponding relationship between the order form and the supply order form, as shown in fig. 12 and 14, where the corresponding relationship data specifically includes the location of the pickup point and the delivery point and the detailed information of the goods to be picked and delivered at the delivery point and the pickup point, and as a further preferable scheme, the corresponding relationship data further includes the navigation data of the pickup point and the delivery point as shown in fig. 14.

As a preferable scheme, as shown in fig. 15, through the data of the order combination orders and the supply orders, the third type of terminal device can implement an operation of combining and picking the goods in different order combination orders through the picking point, and the third type of terminal device can perform an operation of combining and picking the goods from the corresponding picking point, where the combined picking operation refers to accumulating the number of the same kind of goods in different order combination orders to calculate the total number of the goods to be picked from the corresponding picking point.

Specifically, the server may be an entity server or a cloud server. The server mainly functions to set the commodity price and manage order transaction.

As a specific scheme, the server includes: the system comprises a unit splicing price management module, a supply price management module and a logistics price management module.

The unit price splicing grid management module comprises a market price acquisition unit and a unit price splicing grid calculation unit. The supply price management module comprises an inquiry price calculation unit and a price collection unit. The logistics price management module comprises a logistics price calculation unit.

Specifically, the unit price splicing management module is used for dynamically generating unit price splicing data at least according to market price data collected by the server; the supply price management module is used for generating price matching data displayed by the first type of human-computer interaction interface at least according to supply price data set by the second type of human-computer interaction interface of the seller; and the logistics price management module is used for generating logistics price data displayed by the third type human-computer interaction interface at least according to the order combination order and the goods supply order contained in the logistics order.

More specifically, the market price collecting unit is used for collecting market price data of at least commodities in the order from the external webpage and storing the market price data in the server. The piecing price lattice calculating unit generates piecing price lattice data at least according to the market price data acquired by the market price acquiring unit. The inquiry price calculating unit is used for generating inquiry price data. The price-answering collecting unit is used for collecting supply price data set by the seller through the second type terminal equipment. The logistics price calculating unit is used for producing logistics price data according to the quantity, the price and the position of the commodities in the order combination order and the supply order contained in the logistics order.

As a more specific scheme, as shown in fig. 6, the query price calculating unit and the spelling unit form data interaction so that the query price calculating unit generates query price data according to the spelling unit price data and stores the query price data in the server; the price-answering price acquisition unit and the price inquiring price calculation unit form data interaction so that the price-answering price acquisition unit acquires supply price data according to the price inquiring price data; the unit price splicing lattice calculating unit, the price-answering price collecting unit and the market price collecting unit respectively form data interaction so that the unit price splicing lattice calculating unit comprehensively generates unit price splicing lattice data according to the market price data and the supply price data.

As shown in fig. 6 to 9, the market price collecting unit collects market prices, and specifically, market price data may be acquired by manual input, automatic collection, and batch import. Due to price changes at different periods and different prices in different channels (such as offline wholesale or online shopping malls), the market price collecting unit collects market price data and generates a comprehensive market price of a certain commodity according to the collected big data.

The unit price splicing calculation unit generates unit price splicing data according to the data of the market price acquisition unit, the unit price splicing calculation unit calculates unit price splicing according to the market quotation data and other data besides the comprehensive market price of the market price acquisition unit, and it needs to be stated that the unit price splicing is lower than the comprehensive market price.

The price inquiry calculation unit generates an inquiry price according to the price spelling lattice, and the inquiry price is matched with the corresponding seller, thus completing the process of automatic price inquiry and price application. The price inquiry price is lower than the price of the spelling bill, and when the price inquiry price calculation unit calculates the price inquiry price based on the price of the spelling bill, the factors such as the internal operation cost of the platform, the logistics cost, the platform income and the like need to be considered.

The price-answering price acquisition unit acquires supply prices capable of being matched according to the price inquiring price, namely the server sends a data request of corresponding commodities to the second type terminal equipment, and if the supply price set or modified by the seller through the second type terminal equipment is lower than the price inquiring price, the price-answering price acquisition unit receives the supply price as a final price settled by the seller on the platform.

The price-answering price acquisition unit acquires supply prices and feeds back the supply prices to the unit for calculating unit for piecing together unit price, and the unit for calculating piecing together unit price judges whether the unit for piecing together unit price set according to market price before needing to be corrected or not.

Generally speaking, three cases are distinguished: and if the price inquiry is too low, so that no seller can purchase the goods, feeding the acquired lowest supply price back to the unit for price combination price calculation unit so as to correct the price for price combination, or sending an alarm instruction to an operator.

And if a plurality of supply prices are acquired according to the price inquiry price, enabling a plurality of sellers to enter the alternative list, and selecting the seller with the lowest supply price according to the area where the buyer is located when the order is actually generated.

As a further preferable scheme, the price-to-offer collection unit analyzes the collected supply price, and prompts the operator if the supply price of the seller is changed drastically, so that the operator checks the specific situation. As a specific scheme, the slope of the supply price historical data is calculated, and if the slope exceeds a preset threshold, an alarm is given.

After the price-answering price acquisition unit determines the supply price and the price-piecing grid calculation unit determines the price-piecing grid, the logistics price calculation unit produces logistics price data according to the order-piecing order contained in the logistics order and the data of the quantity, the price and the position of the commodity in the supply order.

It should be noted that the logistics price is related to the difference between the order-picking price and the supply price, and even if the goods-picking point, the goods-delivering point and the goods-delivering goods in the logistics order are completely the same, the logistics price calculating unit can adjust the logistics price data according to the order-picking price and the supply price dynamically adjusted on the same day.

More specifically, the logistics price calculation unit generates logistics price data according to a difference between the price-piecing data and the supply price data in the logistics order. The logistics price calculating unit generates logistics price data according to the quantity of the commodities in the logistics order. The logistics price calculation unit generates logistics price data according to the position data of the buyer and the seller in the logistics order.

As shown in fig. 8, as another aspect of the present application, the present application further provides a price management method for an e-commerce platform, and specifically, the price management method includes the following steps:

collecting market price data;

generating unit splicing price data according to market price data;

generating price inquiry data according to the price spelling unit data;

collecting supply price data according to the price enquiry data;

and correcting the unit price splicing data according to the supply price data.

By adopting the method, the price splicing unit lattices can be dynamically adjusted so as to give the buyer the maximum price preference, and meanwhile, the seller can avoid the pressure of inventory and cash flow caused by commodity sale delay according to the data even if the price is adjusted.

Referring to fig. 16, by adopting the technical scheme of the system and the method, orders of different stores can be placed to different suppliers, and then the purpose of collecting and delivering goods is realized through logistics configuration, so that the purchasing flexibility and the corresponding time of the stores are increased, and the logistics cost is reduced.

For users of the third type of terminal equipment, the efficiency of picking and delivering goods is improved as a carrier, and the delivery route is optimized through intelligent dispatching.

In conclusion, by adopting the technical scheme, the purchase cost of the store can be greatly reduced, and certainly, based on the mode, the operation personnel still needs to analyze and predict when the price of the order is set, so that the corresponding speed of updating the price of the system is undoubtedly reduced.

As a preferred solution of the present application, in order to realize more intelligent prediction of the price of the spell list, as an extended technical solution, the server of the present application further includes: an image generation module and a neural network module (not shown in the figure).

The image generation module is used for generating a market price curve graph, a price splicing curve graph and a supply price curve graph of a certain commodity as shown in fig. 17 to 9. The abscissa of the time-measuring unit is time, the day can be used as the minimum unit of time, and the ordinate of the time-measuring unit is price, particularly RMB is used as a measuring unit.

The market price curve graph is used as the comprehensive price as the original data of the drawing, the price splicing grid curve graph takes the price splicing grid as the original data of the drawing, and the supply price curve graph takes the average value of the settlement supply prices on a certain day of the platform as the original data of the drawing.

The neural network module is internally provided with a convolutional neural network model, the market price curve graph, the piecing price curve graph and the supply price curve graph of the previous day of the convolutional neural network model are used as input data, the piecing price curve graph of the current day is used as output data to train the convolutional neural network model, after the training is carried out until the convolutional neural network model converges, when the piecing price of a certain commodity on the next day is needed, as shown in figure 20, the market price curve graph, the piecing price curve graph and the supply price curve graph of the current day are input into the convolutional neural network model, the convolutional neural network model outputs the piecing price and the confidence coefficient corresponding to the piecing price, the server judges whether the confidence coefficient exceeds a set threshold value, and if so, the piecing price is used as the piecing price data of the next day.

As shown in fig. 21, the purchasing function can be realized between the first type terminal device, the second type terminal device, and the third type terminal device and the server by the following steps.

As shown in fig. 21, the method includes the steps of:

s01 the first terminal device sends order request data to the server; i.e., the seller places an order to the server.

S02 the server feeds back the confirmation data of the order data to the first type terminal equipment; the server determines the order of the buyer.

S03 server sends supply order to second type terminal device; i.e., the platform places an order to the seller.

S04 the second terminal device sends the response data of supply order to the server; i.e., the seller confirms the order receipt with the platform.

The S05 server generates a logistics order according to the result of the dispatching and sends the logistics order to the third type terminal equipment; i.e., to transmit the logistics order data to the carrier.

S06 the third terminal device feeds back the feedback of the logistics order to the server; i.e., the carrier confirms the order receipt.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims

1. An intelligent supply chain based e-commerce system comprising:

the system comprises a first type of terminal equipment, a second type of terminal equipment and a third type of terminal equipment, wherein the first type of terminal equipment is used by a buyer to place an order assembly order, the order assembly order comprises order assembly data of order assembly commodities assembled by the buyer, and the order assembly data at least comprises order assembly price data;

the second type of terminal equipment is used for a seller to receive a supply order, wherein the supply order comprises supply data of commodities supplied by the seller, and the supply data at least comprises supply price data;

the third type of terminal equipment is used by a carrier to receive a logistics order, the logistics order contains logistics data of the carrier for transporting goods, and the logistics data at least comprises logistics price data;

and the server is used for respectively forming data interaction with the first type terminal equipment, the second type terminal equipment and the third type terminal equipment so that the logistics order of the third type terminal equipment at least comprises commodity attribute data of commodities in the multiple order-gathering orders and the goods-supplying orders and corresponding relation data reflecting the corresponding relation between the order-gathering orders and the goods-supplying orders.

2. The intelligent supply chain based e-commerce system of claim 1, wherein:

the first type of terminal device includes:

the first type of human-computer interaction interface is at least used for displaying the order splicing unit price data of the order splicing order;

the server includes:

and the unit splicing price lattice management module is used for dynamically generating the unit splicing price lattice data at least according to the market price data collected by the server.

3. The intelligent supply chain based e-commerce system of claim 2, wherein:

the second type of terminal device includes:

the second type human-computer interaction interface is used for displaying and setting supply price data of the supply order;

the server includes:

and the supply price management module is used for generating price matching data displayed by the first type of human-computer interaction interface at least according to the supply price data set by the seller through the second type of human-computer interaction interface.

4. The intelligent supply chain based e-commerce system of claim 3, wherein:

the third type of terminal device includes:

the third type human-computer interaction interface is used for displaying the logistics price data of the logistics order and the corresponding relation data;

the server includes:

and the logistics price management module is used for generating logistics price data displayed by the third type human-computer interaction interface at least according to the order combination order and the goods supply order contained in the logistics order.

5. The intelligent supply chain based e-commerce system of claim 4, wherein:

the unit price grid splicing management module comprises:

and the market price acquisition unit is used for acquiring market price data of the commodities in the order from at least an external webpage and storing the market price data in the server.

6. The intelligent supply chain based e-commerce system of claim 5, wherein:

the unit price grid splicing management module further comprises:

and the unit price splicing calculation unit is used for generating the unit price splicing data at least according to the market price data acquired by the market price acquisition unit.

7. The intelligent supply chain based e-commerce system of claim 6, wherein:

the supply price management module comprises:

the price inquiry calculating unit is used for generating price inquiry data;

8. The intelligent supply chain based e-commerce system of claim 7, wherein:

the supply price management module further comprises:

the price-answering collecting unit is used for collecting supply price data set by the seller through the second type terminal equipment;

the price-answering price acquisition unit and the price-inquiring price calculation unit form data interaction so that the price-answering price acquisition unit acquires the supply price data according to the price-inquiring price data.

9. The intelligent supply chain based e-commerce system of claim 8, wherein:

the unit price splicing lattice calculating unit, the price-corresponding price collecting unit and the market price collecting unit respectively form data interaction so that the unit price splicing lattice calculating unit comprehensively generates the unit price splicing lattice data according to the market price data and the supply price data.

10. The intelligent supply chain based e-commerce system of claim 9, wherein:

the logistics price management module comprises:

and the logistics price calculating unit is used for producing the logistics price data according to the quantity, the price and the position of the commodities in the order combination order and the supply order contained in the logistics order.

11. The intelligent supply chain based e-commerce system of claim 10, wherein:

and the logistics price calculating unit generates the logistics price data according to the difference value between the price splicing data and the supply price data in the logistics order.

12. The intelligent supply chain based e-commerce system of claim 11, wherein:

and the logistics price calculating unit generates the logistics price data according to the quantity of the commodities in the logistics order.

13. The intelligent supply chain based e-commerce system of claim 12, wherein:

the logistics price calculating unit generates the logistics price data according to the position data of the buyer and the seller in the logistics order.