Light Valve Cooling System

Organization Name

Seurat Technologies, Inc.

Inventor(s)

Drew W. Kissinger of Carlisle MA (US)

Susanne Kras of Chelmsford MA (US)

James A. Demuth of Woburn MA (US)

Andrew J. Bayramian of Marblehead MA (US)

Francis L. Leard of Sudbury MA (US)

Cote Leblanc of Malden MA (US)

Light Valve Cooling System - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240246152 titled 'Light Valve Cooling System

Simplified Explanation: The patent application describes an additive manufacturing system that utilizes a high-power laser directed at a light valve. An active light valve cooling system removes heat from the light valve, with a heat exchanger connected to facilitate heat exchange fluid circulation.

• High-power laser used in additive manufacturing system
• Active light valve cooling system to remove heat from the light valve
• Heat exchanger connected to facilitate heat exchange fluid circulation

Potential Applications: 1. Additive manufacturing processes 2. 3D printing technology 3. Industrial manufacturing applications

Problems Solved: 1. Efficient heat dissipation in additive manufacturing systems 2. Maintaining optimal operating temperatures for light valves 3. Enhancing the performance and longevity of light valves in manufacturing processes

Benefits: 1. Improved precision and accuracy in additive manufacturing 2. Enhanced reliability of light valves 3. Increased productivity in industrial manufacturing applications

Commercial Applications: Title: "Advanced Additive Manufacturing System with Active Cooling" This technology can be utilized in industries such as aerospace, automotive, and medical devices for high-precision manufacturing processes. The market implications include improved product quality, reduced production time, and cost savings.

Prior Art: Readers can explore prior art related to active cooling systems in additive manufacturing and laser technology to understand the evolution of similar technologies in the field.

Frequently Updated Research: Researchers are constantly exploring advancements in laser technology, heat dissipation methods, and additive manufacturing processes to enhance the efficiency and capabilities of such systems.

Questions about Additive Manufacturing with Active Cooling: 1. How does the active cooling system impact the overall efficiency of the additive manufacturing process? 2. What are the potential challenges in implementing active cooling systems in industrial manufacturing settings?

1. What are the potential environmental impacts of using high-power lasers in additive manufacturing? 2. How does the active light valve cooling system contribute to the longevity of the light valve in the manufacturing process?

Original Abstract Submitted

an additive manufacturing system includes a high power laser to form a laser beam directed against a light valve. an active light valve cooling system is arranged to remove heat from the light valve and a heat exchanger is connected to the active light valve cooling system. a heat exchange fluid is circulated through the active light valve cooling system and the heat exchanger.