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Stainless steel water tank
The stainless steel welded water tank is made of stainless steel plates molded into shape, featuring an attractive design, economic suitability, and durable main body. Compared to other water tanks, stainless steel water tanks have many advantages such as high strength, corrosion resistance, high temperature resistance, clean water quality, no secondary pollution of water, easy installation, and easy cleaning. The stainless steel plates of the tank top, tank wall, and tank bottom are all joined by butt welding (the top plate has I-shaped welds, while the bottom plate and side walls have V-shaped weld seams), and the welding wire used is of 316 material. Other welds are fillet welds; cross intersections between weld seams are not allowed, nor should they coincide with reinforcing ribs. The welding machine used is the LB-2-300 type stainless steel water tank special welding machine, equipped with both electric welding and argon welding functions.
Dirty water enters from the filter inlet, first passing through the coarse filter screen to remove larger particles, then reaching the fine filter screen. During filtration, the fine filter screen gradually accumulates dirt and impurities from the water, forming a filter impurity layer. Because the impurity layer accumulates on the inside of the fine filter screen, a pressure difference forms on the inside and outside of the fine filter screen. When the pressure difference of the self-cleaning filter reaches the preset value, a switch signal is sent to the control box PLC system to start a cleaning cycle. Cleaning process: The cleaning mechanism of the fully automatic negative pressure suction filter is a stainless steel spiral up-and-down moving suction scanner. It is hollow in structure, with several suction nozzles vertically distributed at certain distances along its axis. The inside of the suction scanner communicates with the 3” drain valve. When the drain valve opens, the pressure difference between the internal water pressure of the filter and the external atmospheric pressure generates strong suction at each suction nozzle. At each suction nozzle, water flows rapidly from outside to inside in reverse, washing impurities attached to the inner wall of the filter screen into the suction nozzle, through the hollow shaft of the suction scanner, then discharged through the drain valve, completing the cleaning process which takes about 30-60 seconds. At this time, the pressure difference returns to normal, the cleaning process ends, and filtration resumes. During cleaning, the system continues to flow.
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Stainless steel water tank
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Product Introduction
The stainless steel welded water tank is made of stainless steel plates by molding, featuring a beautiful appearance, economical and practical, and a durable main body. Compared with other water tanks, stainless steel water tanks have many advantages such as high strength, corrosion resistance, high temperature resistance, clean water quality, no secondary pollution of water quality, easy installation, and easy cleaning. The stainless steel plates of the tank top, tank wall, and tank bottom are all joined by butt welding (the top plate has an I-shaped weld seam, and the bottom plate and side walls have V-shaped weld seams), and the welding wire is made of 316 material. Other welds are fillet welds, with no cross intersections allowed between weld seams, and they must not coincide with reinforcing ribs. The welding machine used is the LB-2-300 type stainless steel water tank special welding machine, which has both electric welding and argon welding functions.
Scope
Stainless steel water tanks are suitable for large hotels, government agencies, apartments, research and teaching buildings, as well as places with high water quality requirements such as food processing, medical and health, and electronics industries (Note: use with caution if the chloride ion content in the water is high).
Dirty water enters from the filter inlet, first passing through the coarse filter screen to remove larger particles, then reaching the fine filter screen. During filtration, the fine filter screen gradually accumulates dirt and impurities from the water, forming a filter impurity layer. Because the impurity layer accumulates on the inside of the fine filter screen, a pressure difference forms on the inside and outside of the fine filter screen. When the pressure difference of the self-cleaning filter reaches the preset value, a switch signal is sent to the control box PLC system to start a cleaning cycle. Cleaning process: The cleaning mechanism of the fully automatic negative pressure suction filter is a stainless steel spiral up-and-down moving suction scanner. It is hollow in structure, with several suction nozzles vertically distributed at certain distances along its axis. The inside of the suction scanner communicates with the 3” drain valve. When the drain valve opens, the pressure difference between the internal water pressure of the filter and the external atmospheric pressure generates strong suction at each suction nozzle. At each suction nozzle, water flows rapidly from outside to inside in reverse, washing impurities attached to the inner wall of the filter screen into the suction nozzle, through the hollow shaft of the suction scanner, then discharged through the drain valve, completing the cleaning process which takes about 30-60 seconds. At this time, the pressure difference returns to normal, the cleaning process ends, and filtration resumes. During cleaning, the system continues to flow.
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International Trade Department:+8613210553256
Address: Room 1512-1, Building 7, Rongsheng Times International Plaza, No. 9 Beiyuan Street, Licheng District, Jinan City, Shandong Province
