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Stainless steel water tank production process based on nanotechnology
The invention discloses a stainless steel water tank production process based on nanotechnology. The stainless steel water tank production process can reduce the harm of harmful microorganisms and pathogenic bacteria in tap water to the health of people. According to the technical scheme, the stainless steel water tank production process comprises the steps that S1, 304 stainless steel with the thickness of 0.8-1.5 mm is selected as a stainless steel plate, and a 304 stainless steel square pipe with the thickness of 0.5-1 mm and the opposite side length of 30-50 mm is selected as a stainless steel square material; S2, a mold is designed to press the stainless steel plate into a concave-convex rectangular frame plate with the square outer portion and the round inner portion, and the stainless steel square material is welded into a stainless steel frame structure needed by a client; S3, assembling is carried out, and the stainless steel concave-convex rectangular frame plate is combinedwith the stainless steel frame structure to form a stainless steel water tank; and S4, a coating solvent is sprayed, and a nano self-cleaning antibacterial coating is sprayed after 20 minutes. The stainless steel water tank production process based on nanotechnology has beneficial effects that secondary pollution is avoided, germ infection is reduced, a water source is cleaned, and the healthy water usage by people can be achieved.
一种基于纳米技术的不锈钢水箱生产工艺,能降低自来水中的有害微生物、致病细菌对人们健康的危害。其技术方案是:第一步,所述不锈钢板材的板材的选择为:0.8‑1.5mm厚的304不锈钢,所述不锈钢方形材的选择为:30‑50mm对方,0.5‑1mm厚的304不锈钢方管;第二步,设计模具将不锈钢板材压制成外方内圆的凹凸长方形框板,将不锈钢方形材焊接成客户所需的不锈钢框架结构;第三步,组装,将所述不锈钢凹凸长方形框板与不锈钢框架结构组合成不锈钢水箱;第四步,喷涂涂料溶剂,20分钟后喷涂纳米自洁抗菌涂料;有益效果:达到杜绝二次污染,减少病菌传染,起到洁净水源保护人们健康用水的有益效果。
Stainless steel water tank production process based on nanotechnology
The invention discloses a stainless steel water tank production process based on nanotechnology. The stainless steel water tank production process can reduce the harm of harmful microorganisms and pathogenic bacteria in tap water to the health of people. According to the technical scheme, the stainless steel water tank production process comprises the steps that S1, 304 stainless steel with the thickness of 0.8-1.5 mm is selected as a stainless steel plate, and a 304 stainless steel square pipe with the thickness of 0.5-1 mm and the opposite side length of 30-50 mm is selected as a stainless steel square material; S2, a mold is designed to press the stainless steel plate into a concave-convex rectangular frame plate with the square outer portion and the round inner portion, and the stainless steel square material is welded into a stainless steel frame structure needed by a client; S3, assembling is carried out, and the stainless steel concave-convex rectangular frame plate is combinedwith the stainless steel frame structure to form a stainless steel water tank; and S4, a coating solvent is sprayed, and a nano self-cleaning antibacterial coating is sprayed after 20 minutes. The stainless steel water tank production process based on nanotechnology has beneficial effects that secondary pollution is avoided, germ infection is reduced, a water source is cleaned, and the healthy water usage by people can be achieved.
一种基于纳米技术的不锈钢水箱生产工艺,能降低自来水中的有害微生物、致病细菌对人们健康的危害。其技术方案是:第一步,所述不锈钢板材的板材的选择为:0.8‑1.5mm厚的304不锈钢,所述不锈钢方形材的选择为:30‑50mm对方,0.5‑1mm厚的304不锈钢方管;第二步,设计模具将不锈钢板材压制成外方内圆的凹凸长方形框板,将不锈钢方形材焊接成客户所需的不锈钢框架结构;第三步,组装,将所述不锈钢凹凸长方形框板与不锈钢框架结构组合成不锈钢水箱;第四步,喷涂涂料溶剂,20分钟后喷涂纳米自洁抗菌涂料;有益效果:达到杜绝二次污染,减少病菌传染,起到洁净水源保护人们健康用水的有益效果。
Stainless steel water tank production process based on nanotechnology
一种基于纳米技术的不锈钢水箱生产工艺
WANG CHUANYANG (author) / MIAO GUOHUA (author)
2020-09-18
Patent
Electronic Resource
Chinese
IPC:
E03B
Anlagen oder Verfahren zum Gewinnen, Sammeln oder Verteilen von Wasser
,
INSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
Ribbed plate type stainless steel water tank and production process thereof
| European Patent Office | 2022