CN112558573A - Collaborative manufacturing system for the robotic industry - Google Patents

Abstract

The invention discloses a collaborative manufacturing system for the robot industry, comprising: the system comprises an identifier fixedly arranged on a robot, a design end node, a manufacture end node, a sales end node, a logistics end node, a client end node, an after-sales end node, an industry node and a robot data query terminal. The invention constructs a robot industry collaborative manufacturing platform based on an identification analysis technology, organically integrates product service life cycles of robot such as product design, manufacture, sale, logistics, customers, after-sale and the like, and realizes functions of whole-process tracing, quality management, logistics transportation management, enterprise upstream and downstream industry chain collaboration, evaluation diagnosis, supply and demand docking, application tracking and the like.

Description

Collaborative manufacturing system for the robotic industry

Technical Field

The invention relates to the field of robot industry, in particular to a collaborative manufacturing system for the robot industry.

Background

The robot is an intelligent machine capable of working semi-autonomously or fully autonomously, can assist or even replace human beings to finish dangerous, heavy and complex work, and improves the working efficiency and quality.

The robot industry relates to product design, manufacturing, selling, logistics, customers, after-sales and the like, but at present, no special collaborative manufacturing system for the robot industry exists, product service life cycles of the robot are not organically integrated, and product service life cycle information of the robot cannot be conveniently inquired.

Disclosure of Invention

To address the deficiencies of the prior art, the present invention provides a collaborative manufacturing system for the robotic industry, comprising:

the mark is fixedly arranged on the robot and corresponds to the unique code;

the design end node uploads the design information of the robot to an industry node in a unified manner according to the code filing;

the manufacturing end node downloads the design information of the robot from the industry node and uploads the manufacturing information of the robot to the industry node in a unified mode according to the codes;

the sales node uploads the sales information of the robot to an industry node in a unified manner according to the code filing;

the logistics end node is used for archiving and uniformly uploading the logistics information of the robot to the industry node according to the codes;

the client node uploads the running information of the robot to the industry node in a unified manner according to the code filing;

the after-sale node archives and uniformly uploads the after-sale service information of the robot to the industry node according to the codes;

the system comprises an industry node, a service management node and a service management node, wherein the industry node stores product service life cycle information of a robot, and the product service life cycle information comprises information uploaded by a design end node, a manufacturing end node, a sales end node, a logistics end node, a client end node and an after-sales end node;

and the robot data inquiry terminal analyzes the identification of the robot, generates the code of the robot and displays the product service life cycle information of the robot corresponding to the code.

Preferably, the design end node is arranged in a design unit of the design robot;

the design information of the robot includes: design unit information of the designed robot, hardware assembly information of the robot, software program information of the robot, and operation instruction information of the robot.

Preferably, the end manufacturing node is provided in a manufacturing unit of a manufacturing robot;

the manufacturing information of the robot includes: manufacturing unit information of the manufacturing robot, assembly date information of the robot, part catalog information of the robot when assembly is completed, program version information of the robot when assembly is completed, and quality inspection information of the robot when assembly is completed.

Preferably, the sales-end node is provided in a sales organization of the sales robot;

the sales information of the robot includes: sales unit information of the sales robot, sales time information of the robot, parts catalog information of the sales robot, program version information of the sales robot, warranty information of the sales robot.

Preferably, the logistics end node is arranged in a logistics unit of the conveying robot;

the logistics information of the robot comprises: logistics unit information of the conveying robot, logistics single number information, coding information of the robot and logistics state information.

Preferably, the client node is arranged in a unit for purchasing and using the robot;

the operation information of the robot includes: unit information of purchasing and using the robot, installation and debugging information of the robot, program version information of the robot, accumulated running time information of the robot, and fault information of the robot.

Preferably, the after-market nodes are located at an after-market service unit of the maintenance and repair robot;

the after-sales service information of the robot includes: after-sales service unit information of the maintenance and repair robot, repair report information of the robot, part replacement information of the robot, and warranty information of the part replaced by the robot.

The invention has the advantages and beneficial effects that: the collaborative manufacturing system for the robot industry is provided, a robot industry collaborative manufacturing platform is constructed based on an identification analysis technology, product service life cycles of a robot, such as product design, manufacture, sale, logistics, customers, after-sale, and the like, are organically integrated, and functions of whole-process tracing, quality management, logistics transportation management, enterprise upstream and downstream industrial chain collaboration, evaluation diagnosis, supply and demand docking, application tracking and the like are realized.

Detailed Description

The following further describes embodiments of the present invention with reference to examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

The technical scheme of the specific implementation of the invention is as follows:

a collaborative manufacturing system for the robotic industry, comprising:

the mark is fixedly arranged on the robot and corresponds to the unique code;

the design end node uploads the design information of the robot to an industry node in a unified manner according to the code filing;

the manufacturing end node downloads the design information of the robot from the industry node and uploads the manufacturing information of the robot to the industry node in a unified mode according to the codes;

the sales node uploads the sales information of the robot to an industry node in a unified manner according to the code filing;

the logistics end node is used for archiving and uniformly uploading the logistics information of the robot to the industry node according to the codes;

the client node uploads the running information of the robot to the industry node in a unified manner according to the code filing;

the after-sale node archives and uniformly uploads the after-sale service information of the robot to the industry node according to the codes;

the system comprises an industry node, a service management node and a service management node, wherein the industry node stores product service life cycle information of a robot, and the product service life cycle information comprises information uploaded by a design end node, a manufacturing end node, a sales end node, a logistics end node, a client end node and an after-sales end node;

and the robot data inquiry terminal analyzes the identification of the robot, generates the code of the robot and displays the product service life cycle information of the robot corresponding to the code.

The design end node is arranged in a design unit of the design robot;

the design information of the robot includes: design unit information of the designed robot, hardware assembly information of the robot, software program information of the robot, and operation instruction information of the robot.

The manufacturing end node is arranged in a manufacturing unit of the manufacturing robot;

the manufacturing information of the robot includes: manufacturing unit information of the manufacturing robot, assembly date information of the robot, part catalog information of the robot when assembly is completed, program version information of the robot when assembly is completed, and quality inspection information of the robot when assembly is completed.

The sales end node is arranged in a sales unit of the sales robot;

the sales information of the robot includes: sales unit information of the sales robot, sales time information of the robot, parts catalog information of the sales robot, program version information of the sales robot, warranty information of the sales robot.

The logistics end node is arranged in a logistics unit of the conveying robot;

the logistics information of the robot comprises: logistics unit information of the conveying robot, logistics single number information, coding information of the robot and logistics state information.

The client node is arranged in a unit for purchasing and using the robot;

the operation information of the robot includes: unit information of purchasing and using the robot, installation and debugging information of the robot, program version information of the robot, accumulated running time information of the robot, and fault information of the robot.

The after-sale end node is arranged in an after-sale service unit of the maintenance and repair robot;

the after-sales service information of the robot includes: after-sales service unit information of the maintenance and repair robot, repair report information of the robot, part replacement information of the robot, and warranty information of the part replaced by the robot.

The invention constructs a robot industry collaborative manufacturing platform based on an identification analysis technology, organically integrates product service life cycles of robot such as product design, manufacture, sale, logistics, customers, after-sale and the like, and realizes functions of whole-process tracing, quality management, logistics transportation management, enterprise upstream and downstream industry chain collaboration, evaluation diagnosis, supply and demand docking, application tracking and the like.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. A collaborative manufacturing system for the robotic industry, comprising:

the mark is fixedly arranged on the robot and corresponds to the unique code;

the design end node uploads the design information of the robot to an industry node in a unified manner according to the code filing;

the manufacturing end node downloads the design information of the robot from the industry node and uploads the manufacturing information of the robot to the industry node in a unified mode according to the codes;

the sales node uploads the sales information of the robot to an industry node in a unified manner according to the code filing;

the logistics end node is used for archiving and uniformly uploading the logistics information of the robot to the industry node according to the codes;

the client node uploads the running information of the robot to the industry node in a unified manner according to the code filing;

the after-sale node archives and uniformly uploads the after-sale service information of the robot to the industry node according to the codes;

the system comprises an industry node, a service management node and a service management node, wherein the industry node stores product service life cycle information of a robot, and the product service life cycle information comprises information uploaded by a design end node, a manufacturing end node, a sales end node, a logistics end node, a client end node and an after-sales end node;

and the robot data inquiry terminal analyzes the identification of the robot, generates the code of the robot and displays the product service life cycle information of the robot corresponding to the code.

2. The collaborative manufacturing system for the robotic industry according to claim 1, wherein the design end node is provided to a design unit that designs a robot;

the design information of the robot includes: design unit information of the designed robot, hardware assembly information of the robot, software program information of the robot, and operation instruction information of the robot.

3. The collaborative manufacturing system for the robotic industry according to claim 1, wherein the manufacturing end node is located at a manufacturing unit of a manufacturing robot;

the manufacturing information of the robot includes: manufacturing unit information of the manufacturing robot, assembly date information of the robot, part catalog information of the robot when assembly is completed, program version information of the robot when assembly is completed, and quality inspection information of the robot when assembly is completed.

4. The collaborative manufacturing system for the robotic industry according to claim 1, wherein the point-of-sale node is located at a sales organization that sells robots;

the sales information of the robot includes: sales unit information of the sales robot, sales time information of the robot, parts catalog information of the sales robot, program version information of the sales robot, warranty information of the sales robot.

5. The collaborative manufacturing system for the robot industry according to claim 1, wherein the logistics end node is provided to a logistics unit of a transfer robot;

the logistics information of the robot comprises: logistics unit information of the conveying robot, logistics single number information, coding information of the robot and logistics state information.

6. The collaborative manufacturing system for the robotic industry according to claim 1, wherein the client node is located at an entity that purchases and uses the robot;

the operation information of the robot includes: unit information of purchasing and using the robot, installation and debugging information of the robot, program version information of the robot, accumulated running time information of the robot, and fault information of the robot.

7. The collaborative manufacturing system for the robotic industry according to claim 1, wherein the after-market end node is located at an after-market service unit that maintains and repairs the robot;

the after-sales service information of the robot includes: after-sales service unit information of the maintenance and repair robot, repair report information of the robot, part replacement information of the robot, and warranty information of the part replaced by the robot.