A reaction vessel

CN224442940UActive Publication Date: 2026-07-03JIANGSU HENGKE ADVANCED MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU HENGKE ADVANCED MATERIALS CO LTD
Filing Date
2025-08-13
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing reactors do not have a dry-wet material separation channel in the feed inlet design, which makes it easy for solid powder and liquid materials to cross-contaminate. Especially when the solid materials are hygroscopic or prone to agglomeration, deliquescence, agglomeration and blockage can easily occur, affecting the accuracy of material metering and the uniformity of reaction.

Method used

A reactor was designed, comprising a dry material inlet, a wet material inlet, and a material outlet. The internal dry-wet separation feeding component includes a flange base, a dry material channel, and a wet material channel. The physical path separation of dry and wet materials is achieved through a modular plug-in structure, and a multi-stage sealing structure is adopted to ensure airtightness.

Benefits of technology

It achieves physical separation of dry and wet materials, avoids cross-contamination, improves the safety and controllability of feeding, and ensures the stability and efficiency of the reaction process.

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    Figure CN224442940U_ABST
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Abstract

This document provides a reaction vessel, comprising: a reaction vessel body with a dry material inlet at the top, a wet material inlet on the side wall, and a material outlet at the bottom; and a dry-wet separation feeding component disposed inside the reaction vessel body, comprising: a flange base detachably disposed on the bottom surface of the reaction vessel body; a dry material channel vertically disposed above the flange base and detachably disposed on the top surface of the flange base, one end of the dry material channel communicating with the dry material inlet and the other end communicating with the material outlet; and a wet material channel, one end communicating with the dry material channel and inclined to the dry material channel to form an angle with it, the other end of the wet material channel communicating with the wet material inlet. Implementation of this application can achieve physical path separation and efficient feeding of dry and wet materials.
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