CN113689121A

CN113689121A - 3D printing logistics management method and system based on intelligent cloud platform

Info

Publication number: CN113689121A
Application number: CN202110981030.5A
Authority: CN
Inventors: 王伦木; 魏冬艳
Original assignee: Shenzhen Jia Kang Jie Technology Co ltd
Current assignee: Shenzhen Jia Kang Jie Technology Co ltd
Priority date: 2021-08-25
Filing date: 2021-08-25
Publication date: 2021-11-23

Abstract

The application relates to a 3D printing logistics management method and system based on an intelligent cloud platform, relating to the field of logistics management, wherein the method comprises the steps of obtaining preset printing information, wherein the preset printing information comprises preset printing styles and preset printing quantity; acquiring printed matter information, wherein the printed matter information comprises an actual printing style and an actual printed matter number; judging whether the number of the actual printed products is consistent with the preset number of the printed products or not; if not, generating a printing replenishment quantity according to the actual printed matter quantity and the preset printed quantity, and subtracting the preset printed quantity from the actual printed matter quantity to generate the printing replenishment quantity; and generating a reissue instruction according to the printing reissue quantity, wherein the reissue instruction is used for sending a reissue signal to the 3D printer. This application has the effect that realizes damaging the automatic process of sending out of product.

Description

3D printing logistics management method and system based on intelligent cloud platform

Technical Field

The application relates to the field of logistics management, in particular to a 3D printing logistics management method and system based on an intelligent cloud platform.

Background

In the internet era, logistics is a core link in the electronic commerce industry chain, and is a link connecting manufacturers and end consumers. The current realization of logistics is that the carrying, transportation and delivery of product entities are realized through a logistics network, the logistics network is composed of two parts, namely a logistics line and a logistics node, the logistics line comprises the types of roads, railways, air transportation, water transportation and the like, and the logistics node comprises the forms of a distribution center, a storage warehouse, a transfer warehouse, a freight station, a sorting center and the like.

The related technology can refer to chinese patent with publication number CN105825353A, which discloses a 3D printing logistics management system based on an intelligent cloud platform, which includes a user, an intelligent cloud platform, a manufacturer, a 3D printing service center and a distribution center. The user transmits shopping demand information to the intelligent cloud platform, and the intelligent cloud platform transmits order information to a manufacturer; the manufacturer sends a printing instruction and information of the commodities needing to be printed to the 3D printing service center, the 3D printing service center prints the ordered commodities and transmits the printed commodities to the distribution center, and the distribution center distributes the printed commodities to the users; meanwhile, the 3D printing service center sends an order printing completion instruction to the intelligent cloud platform, and the intelligent cloud platform sends a short message to the user to inform the user that the purchased commodity is printed and is being distributed.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: 3D printed matter is at long-distance transport's in-process, takes place to collide with and damage easily, and when the user received the goods of damage, it is not good to purchase experience, has the defect that logistics system is difficult to well satisfy user and purchases experience.

Disclosure of Invention

In order to ensure the purchasing experience of a user and enable a logistics system to re-distribute and transport damaged 3D printed materials to the user, the application provides a 3D printed logistics management method and system based on an intelligent cloud platform.

In a first aspect, the application provides a 3D printed logistics management method based on an intelligent cloud platform, which adopts the following technical scheme:

A3D printing logistics management method based on an intelligent cloud platform comprises the following steps:

acquiring preset printing information, wherein the preset printing information comprises a preset printing style and a preset printing number corresponding to the preset printing style;

acquiring printed matter information, wherein the printed matter information comprises an actual printing style and an actual printed matter number corresponding to the actual printing style;

determining a preset printing style corresponding to the actual printing style according to the printed matter information;

extracting a preset printing number corresponding to the preset printing style according to the determined preset printing style;

judging whether the number of the actual printed products is consistent with the preset printing number or not according to the extracted preset printing number;

if not, generating a printing replenishment quantity according to the actual printed matter quantity and the preset printed quantity, wherein the printing replenishment quantity is generated by subtracting the preset printed quantity from the actual printed matter quantity;

and generating a reissue instruction according to the printing reissue quantity, wherein the reissue instruction is used for sending a reissue signal to the 3D printer.

By adopting the technical scheme, the user orders the required printed products according to the self requirement, the management system responds to the user request, controls the 3D printer to print the 3D printed products required by the user and transports the 3D printed products to the location of the user, in the conveying process, the management system continuously acquires the printed matter information, detects whether the number of the finished printed matters can reach the number of the printed matters required by the user, when the management system finds that the number of the intact printed products cannot reach the number of the printed products required by the user, the 3D printed products are partially damaged in the transportation process, the management system automatically generates a reissue instruction at the moment, sends a reissue signal to the 3D printer, controls the 3D printer to re-print the damaged 3D printed products, and realizes the automatic reissue process of the damaged products, and then guarantee user's purchase experience, make logistics system can well transport the required 3D printed matter of user to user department.

Optionally, after the step of generating the reissue instruction, the method further includes:

and generating a prompt instruction according to the determined preset printing style and the printing replenishment quantity, wherein the prompt instruction is used for pushing the preset printing style and the printing replenishment quantity to an intelligent terminal of a user.

Through adopting above-mentioned technical scheme, when management system detected that there is the condition that 3D printed matter damaged, management system generated the suggestion instruction, with the relevant condition propelling movement of the 3D printed matter that has damaged to user's intelligent terminal, made the user can learn the condition of reissuing of the 3D printed matter of buying.

Optionally, after the step of obtaining the preset printing information, the method further includes:

acquiring printing point information, wherein the printing point information comprises a printing point position, a printing service type corresponding to the printing point position and a printing service unit price corresponding to the printing service type;

determining a printing service type corresponding to a preset printing style according to the preset printing style;

extracting a printing point position corresponding to the printing service type according to the determined printing service type;

and pushing the position of the printing point to an intelligent terminal of a user.

By adopting the technical scheme, after receiving the preset printing style of the user, the management system matches and contrasts the preset printing style with the printing service type, calls printing points capable of providing the current printing service through the determined printing service type, further finds the printing points capable of meeting the user requirements, pushes the printing point positions corresponding to all the printing points to the intelligent terminal of the user, and enables the user to select the favorite printing points as required.

Optionally, after the step of pushing the print point location to the intelligent terminal of the user, the method further includes:

extracting a printing service unit price corresponding to the printing service type according to the extracted printing point position;

determining a preset printing number corresponding to a preset printing style according to the preset printing style;

generating a printing bill corresponding to the printing point position according to the extracted printing service unit price and the determined preset printing quantity, wherein the printing bill is generated by multiplying the printing service unit price by the preset printing quantity;

and pushing the printed bill to an intelligent terminal of a user.

By adopting the technical scheme, after the management system inquires the printing points which can meet the requirements of the user, the management system calculates and generates the printing bill according to the printing price of the printing points and the quantity of the printing products required by the user, and pushes the printing bill corresponding to the printing points to the intelligent terminal of the user, so that the user can clearly know the printing prices of different printing points.

acquiring an actual printing point position, wherein the actual printing point position is set and generated by a user;

calling a preset receiving address set by a user according to the actual printing point position;

generating an actual navigation route according to the actual printing point position and the preset receiving address;

and pushing the actual navigation route to an intelligent terminal of a user.

By adopting the technical scheme, after the user selects and sets the printing point which the user wants to place, the management system acquires the position of the printing point, plans the transportation route, generates the shortest navigation route between the two points according to the actual printing point position and the preset receiving address, and pushes the shortest navigation route to the user, so that the user can know which areas the goods of the user can pass.

Optionally, before the step of pushing the actual navigation route to the intelligent terminal of the user, the method further includes:

calling a preset barrier road section according to the actual navigation route, and judging whether the actual navigation route is consistent with the barrier road section;

if the position of the printing point is judged to be the position of the receiving point, calling a preset receiving address set by a user according to the extracted printing point position, and generating an alternative navigation route;

and replacing the original actual navigation route according to the alternative navigation route.

By adopting the technical scheme, when the road section of the shortest navigation route has a risk condition or a road repair phenomenon, the management system replans the transportation route, and further the evasion function of the high-risk road section is realized.

Optionally, after the step of pushing the actual navigation route to the intelligent terminal of the user, the method further includes:

calculating and generating predicted delivery time according to the actual navigation route;

and pushing the estimated delivery time to an intelligent terminal of a user.

By adopting the technical scheme, the management system calculates and generates the predicted delivery time of the commodity according to the acquired navigation route, and pushes the predicted delivery time to the intelligent terminal of the user, so that the user can clearly know the arrival time of the commodity, and the user can plan the use condition of the commodity in advance.

In a second aspect, the application provides a 3D printing logistics management system based on an intelligent cloud platform, which adopts the following technical scheme:

A3D printing logistics management system based on an intelligent cloud platform comprises:

the system comprises a preset printing information extraction module, a printing information acquisition module and a printing information processing module, wherein the preset printing information extraction module is used for acquiring preset printing information, and the preset printing information comprises a preset printing style, a preset receiving address and a preset printing quantity corresponding to the preset printing style;

the printing product information extraction module is used for acquiring printing product information, and the printing product information comprises an actual printing style and an actual printing product number corresponding to the actual printing style;

the preset printing style extraction module is used for determining a preset printing style corresponding to the actual printing style according to the printed matter information;

the preset printing quantity extraction module is used for extracting the preset printing quantity corresponding to the preset printing style according to the determined preset printing style;

the judging module is used for judging whether the number of the actual printed products is consistent with the preset printing number or not according to the extracted preset printing number;

the printing replenishment quantity generating module is used for generating printing replenishment quantity according to the actual printing quantity and the preset printing quantity, and the printing replenishment quantity is generated by subtracting the preset printing quantity and the actual printing quantity;

and the reissue instruction generating module is used for generating a reissue instruction according to the printing reissue quantity, and the reissue instruction is used for sending a reissue signal to the 3D printer.

In a third aspect, the present application provides an intelligent terminal, which adopts the following technical scheme:

an intelligent terminal comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and executes any one of the intelligent cloud platform-based 3D printing logistics management methods.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer readable storage medium storing a computer program that can be loaded by a processor and execute any one of the above-mentioned smart cloud platform-based 3D print logistics management methods.

In summary, the present application includes at least one of the following beneficial technical effects:

the user orders the required printed products according to the self requirement, the management system responds to the user request, controls the 3D printer to print the 3D printed products required by the user and transports the 3D printed products to the location of the user, in the conveying process, the management system continuously acquires the printed matter information, detects whether the number of the finished printed matters can reach the number of the printed matters required by the user, when the management system finds that the number of the intact printed products cannot reach the number of the printed products required by the user, the 3D printed products are partially damaged in the transportation process, the management system automatically generates a reissue instruction at the moment, sends a reissue signal to the 3D printer, controls the 3D printer to re-print the damaged 3D printed products, and realizes the automatic reissue process of the damaged products, further ensuring the purchasing experience of the user, and enabling the logistics system to well transport the 3D printed products required by the user to the user;

after receiving a preset printing style of a user, the management system matches and contrasts the preset printing style with a printing service type, calls printing points capable of providing current printing service through the determined printing service type, further finds out printing points capable of meeting the requirements of the user, and pushes printing point positions corresponding to all the printing points to an intelligent terminal of the user, so that the user can select favorite printing points as required;

after the management system inquires the printing points which can meet the requirements of the user, the management system calculates and generates a printing bill according to the printing price of the printing points and the quantity of printing products required by the user, and pushes the printing bill corresponding to the printing points to the intelligent terminal of the user, so that the user can clearly know the printing prices of different printing points.

Drawings

Fig. 1 is a schematic flow chart of a 3D printing logistics management method based on an intelligent cloud platform according to an embodiment of the present application.

Fig. 2 is a schematic flow chart of pushing a printed bill to an intelligent terminal of a user in the embodiment of the present application.

Fig. 3 is a schematic flowchart of calculating and generating a predicted delivery time in an embodiment of the present application.

Fig. 4 is a block diagram of modules of a 3D printing logistics management system based on an intelligent cloud platform according to an embodiment of the present application.

Description of reference numerals: 1. a preset printing information extraction module; 2. a printed matter information extraction module; 3. a preset printing style extraction module; 4. a preset printing quantity extraction module; 5. a judgment module; 6. a printing replenishment quantity generation module; 7. and a supplementary sending instruction generation module.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a 3D printing logistics management method and system based on an intelligent cloud platform.

Referring to fig. 1, a 3D printing logistics management method based on an intelligent cloud platform includes:

s101: and acquiring preset printing information.

The preset printing information is preset and generated by a user according to the self requirement, and the preset printing information comprises a preset printing style and a preset printing quantity corresponding to the preset printing style. The user inputs preset printing information through the intelligent terminal, and the management system responds to a user request to acquire the 3D printed product styles and the corresponding number required by the user. For example, if the user wants a print style a and the number of prints is 100, the preset print style at this time is a and the number of prints is 100.

S102: print product information is acquired.

Wherein the printed matter information includes an actual print pattern and an actual printed matter number corresponding to the actual print pattern. Management system control 3D printer prints out the required 3D printed material of user according to the user's demand, prints the back when the completion when 3D printer, needs to transport 3D printed material to the user location.

In the conveying process, printed matter information is continuously acquired, when the management system detects the printed matter, the intact 3D printed matter can be successfully detected, and the management system accumulates the intact 3D printed matter so as to generate an actual printing style and the actual printed matter quantity corresponding to the actual printing style. For example, if 1 of 100 a products is damaged during transportation, the number of perfect printed products is 99, and the management system acquires the actual printing style a and the corresponding actual printed product number is 99.

S103: a preset print pattern corresponding to the actual print pattern is determined.

Specifically, the management system determines a preset print style corresponding to the actual print style based on the print information. For example, after the management system obtains the actual printing style a, the management system matches and compares the actual printing style a with all the preset printing styles in the management system database to obtain the preset printing style a corresponding to the actual printing style a.

S104: a preset number of prints corresponding to the preset print pattern is extracted.

Specifically, the management system extracts a preset printing number corresponding to the preset printing style according to the determined preset printing style. For example, after the management system determines a preset print style a corresponding to the actual print style a, the preset number of prints 100 corresponding to the preset print style a is extracted.

S105: and judging whether the actual printed product quantity is consistent with the preset printed quantity.

Specifically, the management system judges whether the actual printed matter quantity is consistent with the preset printed quantity according to the extracted preset printed quantity. After the 3D printed matter is sent to the user, the management system detects whether the number of the perfect printed matter can reach the number of the printed matter required by the user.

If the judgment result is yes, jumping to S101;

if not, the process goes to S106.

S106: and generating the printing replenishment quantity.

Specifically, the management system generates a printing replenishment quantity according to the actual printed matter quantity and the preset printing quantity, and the printing replenishment quantity is generated by subtracting the preset printing quantity and the actual printed matter quantity. When the management system finds that the number of the perfect printed products cannot reach the number of the printed products required by the user, the number of the perfect printed products indicates that the 3D printed products are partially damaged in the transportation process, and the management system automatically generates a reissue instruction.

For example, when the number of actual printed products is 99 and the number of preset printed products is 100, and the number of actual printed products is insufficient, the management system subtracts the number of actual printed products 99 from the number of preset printed products 100 to obtain the printing replenishment quantity 1, and generates a replenishment instruction according to the printing replenishment quantity 1.

S107: and generating a reissue instruction.

Specifically, the management system generates a reissue instruction according to the printing reissue amount, and the reissue instruction is used for sending a reissue signal to the 3D printer. The management system sends the reissue signal to the 3D printer, controls the 3D printer to print the damaged 3D printed matter again, and the automatic reissue process of the damaged product is realized. For example, when the printing replenishment quantity of the preset printing style a is 1, the 3D printer prints 1 copy a again, and automatically sends the printed 3D printed product to the user.

Referring to fig. 1, after S107, a prompt instruction is generated and sent, which specifically includes the following steps:

s201: and generating a prompt instruction.

Specifically, the management system generates a prompt instruction according to the determined preset printing style and the determined printing replenishment quantity, and the prompt instruction is used for pushing the preset printing style and the printing replenishment quantity to the intelligent terminal of the user. For example, when the printing replenishment quantity of the preset printing style a is 1, the management system timely informs the user that 1 copy a is in a replenishment state.

When the management system detects that the 3D printed matter is damaged, the management system generates a prompt instruction, pushes the damaged 3D printed matter to the intelligent terminal of the user, and enables the user to know the reissue condition of the purchased 3D printed matter.

Referring to fig. 2, after S101, the method further pushes the position of the printing point according to the printing point information, and specifically includes the following steps:

s301: print dot information is acquired.

The printing point information comprises printing point positions, printing service types corresponding to the printing point positions and printing service unit prices corresponding to the printing service types. After the management system acquires the preset printing information, the management system inquires and acquires the printing point information in the database, and counts the geographical position of each printing point, the type of the printing service which can be provided by each printing point and the unit price of each service of each printing point.

For example, the printing price of a for printing the point a is 10 yuan, and the printing price of B is 5 yuan; printing the B unit price of 8 yuan and the C unit price of 13 yuan for the printing point B; the printing of the dot C is carried out at a price of 9 yuan and at a price of 12 yuan.

S302: a print service type corresponding to a preset print style is determined.

Specifically, the management system determines a printing service type corresponding to a preset printing style according to the preset printing style. After receiving the preset printing style of the user, the management system matches and contrasts the preset printing style with the printing service type, for example, when the preset printing style is a, the management system inquires the printing service type a corresponding to the preset printing style.

S303: print point locations corresponding to the print service type are extracted.

Specifically, the management system extracts a print point position corresponding to the print service type according to the determined print service type. For example, when the management system determines the corresponding printing service type a, the printing points a, c capable of printing a are further extracted.

S304: and pushing the position of the printing point to an intelligent terminal of a user.

Specifically, the management system calls printing points capable of providing the current printing service, then finds the printing points capable of meeting the user requirements, pushes the printing point positions corresponding to all the printing points to the intelligent terminal of the user, and enables the user to select the favorite printing points as required.

Referring to fig. 2, after S304, a print bill is generated according to the print point position, which specifically includes the following steps:

s401: a printing service unit price corresponding to the printing service type is extracted.

Specifically, the management system extracts a printing service unit price corresponding to the printing service type according to the extracted printing point position. For example, the management system extracts the unit price for print dot a to print a 10, while extracting the unit price for print dot c to print a 9.

S402: a preset number of prints corresponding to the preset print pattern is determined.

Specifically, the management system determines a preset printing number corresponding to the preset printing style according to the preset printing style. For example, the management system extracts the preset printing number of the preset printing pattern a as 100.

S403: and generating a printing bill corresponding to the printing point position.

Specifically, the management system generates a printing bill corresponding to the printing point position according to the extracted printing service unit price and the determined preset printing quantity, wherein the printing bill is generated by multiplying the printing service unit price by the preset printing quantity.

For example, the management system multiplies the printing unit price of the printing point a by the preset printing quantity 100 to obtain a printing bill corresponding to the printing point a as 1000; and simultaneously multiplying the unit price 9 of printing the point c by the preset printing quantity 100 to obtain the printing bill 900 corresponding to the point c.

S404: and pushing the printed bill to the intelligent terminal of the user.

Specifically, after the management system inquires the printing points which can meet the requirements of the user, the printing bills are calculated and generated according to the printing prices of the printing points and the printing product quantity required by the user, the printing bills corresponding to the printing points are pushed to the intelligent terminal of the user, and the user can clearly know the printing prices required by different printing points.

Referring to fig. 3, after S304, an actual navigation route is generated according to the actual printing point position, which specifically includes the following steps:

s501: actual print point locations are acquired.

Wherein the actual print point location is generated for user settings. When a user selects and sets a printing point which is required to be placed, the management system acquires the position of the printing point, and the position of the printing point is the position of an actual printing point.

S502: and calling a preset receiving address set by a user.

Specifically, the management system calls a preset receiving address set by a user according to the actual printing point position to obtain a transportation starting point and a transportation end point of the 3D printed product.

S503: an actual navigation route is generated.

Specifically, the management system generates an actual navigation route according to the actual printing point position and the preset receiving address. And the management system plans a transportation route according to the actual printing point position and the preset receiving address to generate a shortest navigation route between the two points.

For example, from the actual printing point position to the preset receiving address, the first route, the second route and the third route can be selected, wherein the actual distance of the first route is smaller than that of the second route and smaller than that of the third route, and then the shortest navigation route is the first route.

S504: and pushing the actual navigation route to the intelligent terminal of the user.

Specifically, after the management system finishes planning the navigation line, the navigation line is pushed to the user, so that the user can know which areas the goods of the user can pass through.

Referring to fig. 3, before S504, an alternative navigation route is generated and sent, which specifically includes the following steps:

s601: and judging whether the actual navigation route is consistent with the barrier road section.

Specifically, the management system calls a preset barrier road section according to the actual navigation route, and judges whether the actual navigation route is consistent with the barrier road section. For example, when the current road passes through a high-risk area with many diseases or the current road section is undergoing road maintenance engineering, and there is an unstable factor when goods pass through the current road, the road sections are obstacle road sections.

If not, jumping to S504;

if yes, the process goes to S602.

S602: an alternative navigation route is generated.

Specifically, the management system calls a preset receiving address set by a user according to the extracted printing point position, and generates an alternative navigation route. When the road section of the shortest navigation route has a risk condition or a road repair phenomenon, the management system replans the transportation route, so that goods can be smoothly delivered to the user.

S603: and replacing the original actual navigation route according to the alternative navigation route.

For example, when the management system deduces that the route passes through the obstacle section, then the management system determines that the route two with a longer distance is the alternative navigation route, and replaces the original route to become the actual navigation route, i.e. the current actual navigation route is the route two.

Referring to fig. 3, after S504, a predicted arrival time is generated according to the actual navigation route, which specifically includes the following steps:

s701: the calculation generates the expected delivery time.

Specifically, the management system calculates and generates the estimated delivery time according to the actual navigation route.

S702: and pushing the predicted delivery time to the intelligent terminal of the user.

Specifically, the management system calculates and generates the estimated delivery time of the commodity according to the acquired navigation route, and pushes the estimated delivery time to the intelligent terminal of the user, so that the user can clearly know the arrival time of the commodity, and the use condition of the commodity can be conveniently planned in advance by the user.

The implementation principle of the 3D printing logistics management method based on the intelligent cloud platform is as follows: the user is according to the required printed matter of order under self demand, management system responds the user request, control 3D printer and print out the required 3D printed matter of user, and with 3D printed matter transportation to user's place, in transportation, management system continuously acquires printed matter information, detect whether the intact printed matter quantity can reach the required printed matter quantity of user, when management system finds that intact printed matter quantity can't reach the required printed matter quantity of user, explain that 3D printed matter is damaged in the part of transportation, management system automatic generation reissue instruction this moment, send the reissue signal to 3D printer, control 3D printer and print the 3D printed matter that damages again, realize the automatic reissue process of damaging the product.

Based on the method, the embodiment of the application further discloses a 3D printing logistics management system based on the intelligent cloud platform. Referring to fig. 4, a 3D print logistics management system based on an intelligent cloud platform includes:

the printing system comprises a preset printing information extraction module 1, wherein the preset printing information extraction module 1 is used for setting preset printing information, and the preset printing information comprises a preset printing style, a preset receiving address and a preset printing quantity corresponding to the preset printing style.

And the printed matter information extraction module 2 is used for acquiring the printed matter information, and the printed matter information comprises an actual printing style and an actual printed matter number corresponding to the actual printing style.

And the preset printing style extraction module 3 is used for determining a preset printing style corresponding to the actual printing style according to the printed matter information.

A preset printing number extracting module 4, wherein the preset printing number extracting module 4 is configured to extract a preset printing number corresponding to the preset printing pattern according to the determined preset printing pattern.

And the judging module 5 is used for judging whether the number of the actual printed products is consistent with the preset printing number according to the extracted preset printing number.

And the printing replenishment quantity generating module 6 is used for generating the printing replenishment quantity according to the actual printed matter quantity and the preset printed quantity, and the printing replenishment quantity is generated by subtracting the preset printed quantity from the actual printed matter quantity.

And the reissue instruction generating module 7 is used for generating a reissue instruction according to the printing reissue quantity, and the reissue instruction is used for sending a reissue signal to the 3D printer.

The embodiment of the application also discloses an intelligent terminal which comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the intelligent cloud platform-based 3D printing logistics management method.

The embodiment of the application also discloses a computer readable storage medium. A computer program capable of being loaded by a processor and executing the intelligent cloud platform-based 3D printing logistics management method as described above is stored in a computer readable storage medium, and the computer readable storage medium includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above examples are only used to illustrate the technical solutions of the present invention, and do not limit the scope of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from these embodiments without making any inventive step, fall within the scope of the present invention. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art may still make various combinations, additions, deletions or other modifications of the features of the embodiments of the present invention according to the situation without conflict, so as to obtain different technical solutions without substantially departing from the spirit of the present invention, and these technical solutions also fall within the protection scope of the present invention.

Claims

1. A3D printing logistics management method based on an intelligent cloud platform is characterized by comprising the following steps:

2. The intelligent cloud platform-based 3D printing logistics management method according to claim 1, wherein after the step of generating reissued instructions, the method further comprises:

3. The intelligent cloud platform-based 3D printing logistics management method according to claim 1, wherein after the step of obtaining preset printing information, the method further comprises:

4. The intelligent cloud platform-based 3D printing logistics management method according to claim 3, wherein after the step of pushing the printing point position to the intelligent terminal of the user, the method further comprises:

and pushing the printed bill to an intelligent terminal of a user.

5. The intelligent cloud platform-based 3D printing logistics management method according to claim 3, wherein after the step of pushing the printing point position to the intelligent terminal of the user, the method further comprises:

and pushing the actual navigation route to an intelligent terminal of a user.

6. The intelligent cloud platform-based 3D printed logistics management method according to claim 5, wherein before the step of pushing the actual navigation route to the intelligent terminal of the user, the method further comprises:

7. The intelligent cloud platform-based 3D printed logistics management method according to claim 5, wherein after the step of pushing the actual navigation route to the intelligent terminal of the user, the method further comprises:

and pushing the estimated delivery time to an intelligent terminal of a user.

8. The utility model provides a 3D prints logistics management system based on intelligence cloud platform which characterized in that includes:

the system comprises a preset printing information extraction module (1) for acquiring preset printing information, wherein the preset printing information comprises a preset printing style, a preset receiving address and a preset printing number corresponding to the preset printing style;

a printed matter information extraction module (2) for acquiring printed matter information including an actual print style and an actual printed matter number corresponding to the actual print style;

the preset printing style extraction module (3) is used for determining a preset printing style corresponding to the actual printing style according to the printed matter information;

a preset printing number extraction module (4) for extracting a preset printing number corresponding to the preset printing pattern according to the determined preset printing pattern;

the judging module (5) is used for judging whether the number of the actual printed products is consistent with the preset printing number or not according to the extracted preset printing number;

a printing replenishment quantity generating module (6) for generating a printing replenishment quantity according to the actual printing quantity and the preset printing quantity, wherein the printing replenishment quantity is generated by subtracting the preset printing quantity and the actual printing quantity;

and the reissue instruction generating module (7) is used for generating a reissue instruction according to the printing reissue quantity, and the reissue instruction is used for sending a reissue signal to the 3D printer.

9. The utility model provides an intelligent terminal which characterized in that: comprising a memory and a processor, said memory having stored thereon a computer program which can be loaded by the processor and which performs the method of any of claims 1 to 7.

10. A computer-readable storage medium characterized by: a computer program which can be loaded by a processor and which performs the method according to any one of claims 1 to 7.