A sterilization cabinet vapor-water separation and noise reduction emission device

By designing a steam-water separation and noise reduction emission device for sterilization cabinets, the device utilizes a perforated plate to consume the kinetic energy of the steam-water mixture and cool and liquefy it, thus solving the problems of high noise and burn risk associated with direct emission of high-temperature steam-water mixtures, achieving the effects of safe noise reduction and burn prevention.

CN224441774UActive Publication Date: 2026-07-03HUNAN KELUN PHARMA

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUNAN KELUN PHARMA
Filing Date
2025-07-24
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

High-temperature water vapor mixtures are noisy and pose a risk of burns when directly discharged into outdoor sewage wells.

Method used

Design a steam-water separation noise reduction and emission device for sterilizers. A high-temperature water-water mixture is introduced into the shell through a medium steam inlet pipe. The kinetic energy is consumed and the mixture is cooled and liquefied by a perforated plate. Combined with the design of gas and liquid discharge pipes, noise reduction and burn prevention are achieved.

Benefits of technology

It effectively reduces emission noise, avoids burn accidents, and achieves safe and efficient water vapor treatment.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224441774U_ABST
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Abstract

This utility model relates to the field of exhaust gas emission technology and discloses a steam-water separation and noise reduction emission device for a sterilizer. It includes a medium steam inlet pipe, a shell, a gas discharge pipe, a liquid discharge pipe, a drain pipe, and an orifice plate. A water-vapor mixture flows through the medium steam inlet pipe. The drain pipe and the orifice plate are both located inside the shell. The medium steam inlet pipe is connected to the side wall of the shell, the gas discharge pipe is connected to the top of the shell, and the liquid discharge pipe extends into the bottom of the shell and is connected to the drain pipe. The orifice plate is close to and directly opposite the medium steam inlet pipe. The drain pipe includes a control bend and a connecting pipe. The two ends of the connecting pipe are connected to the liquid discharge pipe and the control bend, respectively. The top of the control bend is lower than the medium steam inlet pipe, and the water inlet at the end of the control bend is higher than the bottom surface of the shell. This utility model reduces noise during emission and avoids burns caused by the water-vapor mixture by consuming the kinetic energy of the air and cooling and liquefying the high-temperature water vapor after it is introduced into the shell.
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