ELECTROLYTE INJECTION DEVICE

Organization Name

SAMSUNG SDI CO., LTD.

Inventor(s)

Back Gun Kim of Yongin-si (KR)

Sun Wook Kim of Yongin-si (KR)

ELECTROLYTE INJECTION DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18466532 titled 'ELECTROLYTE INJECTION DEVICE

Simplified Explanation:

The liquid injection device described in the patent application includes a liquid injector connected to a storage tank for storing an electrolyte, as well as a valve with an injection nozzle to inject the electrolyte into a cell. The injection nozzle is designed to disperse the injection pressure of the electrolyte, preventing damage to the electrode assembly.

• The device includes a liquid injector with a liquid injection hopper connected to a storage tank for storing an electrolyte.
• A valve with an injection nozzle is used to inject the electrolyte into a cell.
• The injection nozzle has a conical body and an injection part with an obstacle to disperse the injection pressure of the electrolyte.
• By changing the shape of the injection nozzle, damage such as scratches on the electrode assembly can be avoided.

Potential Applications:

This technology can be applied in various industries where precise and controlled liquid injection is required, such as battery manufacturing, fuel cells, and chemical processing.

Problems Solved:

The technology addresses the issue of avoiding damage to the electrode assembly caused by high injection pressure of the electrolyte during the injection process.

Benefits:

The benefits of this technology include improved efficiency and accuracy in liquid injection processes, leading to higher quality end products and reduced maintenance costs.

Commercial Applications:

Title: Advanced Liquid Injection Device for Industrial Applications

This technology can be commercially used in battery manufacturing plants, fuel cell production facilities, and chemical processing plants to enhance the precision and reliability of liquid injection processes, ultimately improving overall operational efficiency and product quality.

Prior Art:

Prior art related to this technology may include patents or research papers on liquid injection devices, electrolyte injection systems, and electrode assembly protection methods in industrial applications.

Frequently Updated Research:

Researchers may be conducting studies on optimizing the design of liquid injection nozzles for various industrial applications, as well as exploring new materials for improving the performance of electrolyte injection systems.

Questions about Liquid Injection Devices: 1. What are the key components of a liquid injection device? 2. How does the shape of the injection nozzle impact the injection process efficiency?

Original Abstract Submitted

A liquid injection device includes a liquid injector including a liquid injection hopper connected to a storage tank configured to store an electrolyte and a valve including an injection nozzle connected to the liquid injector to inject the electrolyte into a cell. The injection nozzle includes a conical body and an injection part protruding from an end of the body, and the injection part includes an obstacle. A shape of the liquid injection nozzle may be changed to disperse an injection pressure of the electrolyte, and damage such as scratches in a top surface of the electrode assembly may be avoided.