Ultrapure water single-phase immersion cooling tank

The ultrapure water immersion cooling tank addresses inefficiencies and risks in conventional cooling methods by maintaining a stable, non-conductive liquid environment for servers, ensuring efficient heat dissipation and cost reduction.

JP2026109597APending Publication Date: 2026-07-01傅文瑜 +1

Patent Information

Authority / Receiving Office
JP · JP
Patent Type
Applications
Current Assignee / Owner
傅文瑜
Filing Date
2025-12-17
Publication Date
2026-07-01

AI Technical Summary

Technical Problem

Conventional server cooling methods are inefficient and costly, and immersing servers in liquid poses risks of short-circuiting and malfunction due to impurities and electrical conductivity issues.

Method used

An ultrapure water single-phase immersion cooling tank that uses a liquid sensor, control valve, oxygen detection, and nitrogen management system to maintain a stable, non-conductive liquid environment for servers, preventing oxygen buildup and ensuring efficient heat dissipation.

Benefits of technology

The system effectively maintains a stable liquid state, preventing equipment damage and significantly reducing costs while enhancing computing performance and efficiency.

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Abstract

This invention provides a single-phase immersion type ultrapure water cooling tank that uses a heat dissipation device to reduce temperature, and is highly efficient and simple, thus significantly reducing costs. [Solution] The ultrapure water single-phase immersion cooling tank 1 comprises a container 10, a liquid sensor element 11, a liquid control valve 12, an oxygen content detection device 14, an exhaust valve 15, a nitrogen filling valve 16, and an electronic pressure gauge 17. The container is provided with a containment space 100 for containing electronic equipment and a non-conductive liquid 2 for immersing the electronic equipment, a drain port 101 installed in the container and located in the containment space for discharging the non-conductive liquid, and a water inlet 102 installed in the container for injecting the non-conductive liquid. The liquid sensor element is installed in the container and is used to detect the liquid state and liquid level of the non-conductive liquid. The liquid control valve is connected to the liquid sensor element and opens the water inlet to transport the non-conductive liquid based on the liquid state and liquid level of the non-conductive liquid. The oxygen content detection device is attached to the container.
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