Seiko epson corporation (20240286330). Injection Molding System And Method For Controlling Injection Molding System simplified abstract

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Injection Molding System And Method For Controlling Injection Molding System

Organization Name

seiko epson corporation

Inventor(s)

Seijun Horie of Matsumoto (JP)

Injection Molding System And Method For Controlling Injection Molding System - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240286330 titled 'Injection Molding System And Method For Controlling Injection Molding System

The abstract of the patent application describes the vertical distances within an injection molding system, specifically focusing on the distances between joints, placement sections, and a robot wall section.

  • The first, second, and third distances are smaller than the fourth distance, which is the distance between a joint and the tip end of an arm when two arms are in a specific angular range.
  • The distance between the joint and a wall section is larger than the fourth distance.
    • Key Features and Innovation:**
  • Optimization of vertical distances in an injection molding system for efficient operation.
  • Specific angular range considerations for arm placement to ensure proper distances are maintained.
  • Emphasis on the relationship between joint placement and wall sections for improved functionality.
    • Potential Applications:**
  • Injection molding processes in various industries such as automotive, electronics, and consumer goods.
  • Robotics and automation systems that require precise arm positioning for tasks.
    • Problems Solved:**
  • Ensures proper spacing and alignment within the injection molding system.
  • Prevents collisions and interference between robot arms and surrounding structures.
    • Benefits:**
  • Increased efficiency and accuracy in injection molding operations.
  • Reduced risk of errors and malfunctions due to optimized distances.
  • Enhanced safety for operators and equipment.
    • Commercial Applications:**
  • This technology can be utilized in manufacturing facilities for mass production of plastic components.
  • It can also be integrated into robotic systems for automated assembly processes.
    • Questions about the Technology:**

1. How does this technology improve the overall performance of injection molding systems?

  - This technology enhances efficiency and accuracy by optimizing vertical distances and arm placement.
  

2. What are the potential cost-saving benefits of implementing this innovation in manufacturing processes?

  - By reducing errors and improving efficiency, companies can save on production costs and increase output.


Original Abstract Submitted

as viewed in the vertical direction, in the injection molding system, a first distance, which is a distance between a first joint and a first placement section, a second distance, which is a distance between the first joint and a second placement section, and a third distance, which is a distance between the first joint and a robot wall section, are smaller than a fourth distance, which is a distance between the first joint and a tip end of a second arm when a first arm and the second arm are on a co-linear straight line and in an angular range from one of the first placement section and the second placement section to the robot wall section centered on the first joint, the distance between the first joint and at least a part of a wall section is larger than the fourth distance.