Method for producing board layers of freeze dryers by utilizing aluminum alloy sections

Through the rolling, cutting and machining of aluminum alloy profiles, the problems of difficult to ensure welding quality and large thermal deformation in the production of medical freeze-drying machine plates are solved, and higher-quality and lower-cost freeze-drying machine plate production is achieved. , which meets the strict requirements of the medical freeze-drying machine on the plate layer.

CN104175060AInactive Publication Date: 2014-12-03杨锡辉

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
杨锡辉
Filing Date
2013-05-24
Publication Date
2014-12-03
Estimated Expiration
Not applicable · inactive patent

AI Technical Summary

Technical Problem

The existing medical freeze-drying machine plate production process has problems such as difficulty in ensuring welding quality, large thermal deformation, high labor intensity, and difficulty in controlling the outer dimensions, resulting in unstable plate quality and high cost.

Method used

Aluminum alloy profiles are used to produce freeze-drying machine plates. Through rolling, cutting, machining and sealing, the high strength and excellent thermal conductivity of aluminum alloy profiles are used to reduce the number of welding and processing links and increase the temperature of the plates. Uniformity and quality.

Benefits of technology

It reduces the production cost of freeze dryer plates, improves product quality and efficiency, reduces labor intensity and leakage hazards, achieves higher corrosion resistance and rigidity, and meets the strict requirements of medical freeze dryers for plates. .

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Abstract

The invention relates to a method for producing board layers of freeze dryers by utilizing aluminum alloy sections. The method is characterized by comprising the following steps of (1) rolling the aluminum alloy sections; (2) cutting the aluminum alloy sections; (3) machining cutting faces; (4) sealing cutting faces at two ends; (5) machining liquid inlet tubes and liquid outlet tubes on sealing faces (or two sides of the sections). The method has the remarkable advantages that an aluminum alloy material is high in plasticity and can be machined into sections in any shape, the rigidity of the aluminum alloy material is higher than that of stainless steel, the thermal conductivity of the aluminum alloy is excellent and is twice the thermal conductivity of stainless steel, and cold and heat carried by silicone oil in the board layers can be released maximally through the excellent thermal conductivity of the aluminum alloy, so the temperature uniformity of the board layers is greatly improved.
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