OFFLINE TEACHING DEVICE AND OFFLINE TEACHING METHOD

Organization Name

panasonic intellectual property management co., ltd.

Inventor(s)

Katsuaki Okuma of Osaka (JP)

Masaya Hirayama of Osaka (JP)

Yoshiyuki Okazki of Shiga (JP)

OFFLINE TEACHING DEVICE AND OFFLINE TEACHING METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240123537 titled 'OFFLINE TEACHING DEVICE AND OFFLINE TEACHING METHOD

Simplified Explanation

The abstract describes an offline teaching device that acquires production data about a workpiece and creates welding and inspection teaching programs for a welding robot based on the acquired data.

• The device has an acquisition unit for obtaining production data about a workpiece.
• A teaching program creation unit creates welding and inspection teaching programs based on the acquired data.
• The device outputs welding and inspection teaching programs for executing welding and inspecting weld beads on the workpiece.

Potential Applications

The technology can be applied in manufacturing industries where welding robots are used for production processes. It can streamline the programming of welding robots and improve the efficiency of welding operations.

Problems Solved

This technology solves the problem of manual programming of welding robots, which can be time-consuming and prone to errors. By automating the creation of welding and inspection teaching programs, the device helps in achieving consistent and accurate welding results.

Benefits

The benefits of this technology include increased productivity, improved welding quality, and reduced programming time for welding robots. It also enables operators to easily create welding programs for different workpieces without extensive manual programming.

Potential Commercial Applications

The technology can be commercially applied in industries such as automotive manufacturing, aerospace, and construction where welding processes are integral. Companies utilizing welding robots can benefit from the efficiency and accuracy provided by this device.

Possible Prior Art

One possible prior art could be offline programming systems for industrial robots that automate the programming process based on acquired data about the workpiece. These systems aim to improve the efficiency and accuracy of robot programming in manufacturing processes.

Unanswered Questions

How does the device handle variations in workpiece dimensions or materials?

The abstract does not specify how the device adapts to different workpiece characteristics to create accurate welding and inspection programs.

What is the level of customization and flexibility in creating welding and inspection teaching programs?

It is unclear from the abstract how much customization can be done in the teaching programs generated by the device to meet specific welding requirements.

Original Abstract Submitted

an offline teaching device provided with an acquisition unit for acquiring first production data about a workpiece to be produced, and a teaching program creation unit for acquiring a first weld line of the workpiece from the first production data, and creating and outputting a first welding teaching program for executing welding by means of a welding robot, and a first inspection teaching program for executing an inspection of a weld bead, wherein, on the basis of a second weld line, a second welding teaching program for a workpiece to be produced using second production data and a second inspection teaching program are created and output.