METHODS AND APPARATUS FOR USING ROBOTICS TO ASSEMBLE/DE-ASSEMBLE COMPONENTS AND PERFORM SOCKET INSPECTION IN SERVER BOARD MANUFACTURING

Organization Name

Intel Corporation

Inventor(s)

Shoghi Effendi Rajagopal of Kulim (MY)

METHODS AND APPARATUS FOR USING ROBOTICS TO ASSEMBLE/DE-ASSEMBLE COMPONENTS AND PERFORM SOCKET INSPECTION IN SERVER BOARD MANUFACTURING - A simplified explanation of the abstract

This abstract first appeared for US patent application 17972488 titled 'METHODS AND APPARATUS FOR USING ROBOTICS TO ASSEMBLE/DE-ASSEMBLE COMPONENTS AND PERFORM SOCKET INSPECTION IN SERVER BOARD MANUFACTURING

Simplified Explanation

The patent application describes apparatus and methods for manufacturing using a collaborative robot, a camera, memory, and processing circuitry. The system is designed to receive image data of components for a printed circuit board (PCB), determine the location of the components, and secure them to the PCB using the robot's end effector based on the image data. The collaborative robot can work alongside a human to manufacture a computer system with the PCB.

• Collaborative robot with camera for manufacturing:

 - The system includes a collaborative robot, a camera, memory, and processing circuitry.
 - The camera collects image data of components for a PCB.
 - The processing circuitry determines the location of the components and secures them to the PCB using the robot's end effector.

• Human-robot collaboration in manufacturing:

 - The collaborative robot can work alongside a human to manufacture a computer system with the PCB.
 - The system streamlines the manufacturing process by automating component placement on the PCB.

Potential Applications

The technology can be applied in various industries such as electronics manufacturing, automotive assembly, and consumer goods production.

Problems Solved

1. Streamlining manufacturing processes by automating component placement on PCBs. 2. Enhancing efficiency and accuracy in manufacturing operations.

Benefits

1. Increased productivity and efficiency in manufacturing processes. 2. Improved accuracy and precision in component placement on PCBs. 3. Cost savings through automation of manufacturing tasks.

Potential Commercial Applications

Optimizing production lines in electronics manufacturing facilities for increased efficiency and accuracy.

Possible Prior Art

There are existing systems that use robots for manufacturing tasks, but the specific combination of a collaborative robot, camera, and processing circuitry for component placement on PCBs may be novel in this application.

Unanswered Questions

How does the system handle variations in component sizes and shapes during placement on the PCB?

The patent application does not provide details on how the system adapts to different component sizes and shapes during the placement process.

What safety measures are in place to ensure the collaborative robot can work alongside humans without causing harm?

The patent application does not elaborate on the safety features or protocols implemented to ensure the robot can collaborate safely with human workers.

Original Abstract Submitted

The disclosure is directed to apparatus and methods for manufacturing including a collaborative robot, a camera operatively coupled to the collaborative robot, a memory coupled to the collaborative robot, and processing circuitry coupled to the memory, the processing circuitry configured to receive image data of at least one component intended for a printed circuit board (PCB), the image data collected by the camera operatively coupled to the collaborative robot, determine, based on the image data, a coordinate location for the component, and secure the component to the PCB using an end effector of the collaborative robot based on the received image data. In one embodiment, the collaborative robot is configured to operate alongside a human, the collaborative robot in combination with the camera configured to manufacture a computer system with the PCB.