What role does the insulation structure of the stainless steel seamless elbow play in the work?
Stainless steel seamless elbows have a wide range of applications. They can be applied to doors, windows, railings, curtain walls, etc. in daily life. At the same time, they are also used in many places such as entrance halls and middle halls.
The insulation structure of the stainless steel seamless elbow is composed of the operation elbow, the jacket elbow, the operation canopy, the glass surface layer, the stainless steel fastening steel belt, the aluminum foil reflective layer, the sliding guide bracket, the air moisturizing layer, and the outer layer, and the insulation layer The air layer of about 20-25mm left between the elbow of the jacket and the jacket can play the role of heat preservation.
So do you know what the role of the insulation structure of the stainless steel seamless elbow is at work?
① Polyurethane foam layer: used for the temperature of the medium and the surface of the jacket elbow to maintain normal temperature.
② Outer elbow: used to protect the insulation layer from groundwater corrosion, and support the work pipe to withstand the corresponding external corrosion, so that the work pipe can work normally.
③Sheath elbow layer: protect the jacket elbow from being corroded by corrosive substances, and improve the service life of the elbow.
④Operation elbow: used for the normal flow of the conveying medium.
⑤Operation canopy: used to prevent the operation elbow from being corroded and prolong the service life of the operation elbow.
⑥Drag-reducing layer: The working elbow can move freely when it expands with heat and contracts with cold.
⑦Inorganic hard insulation layer: the interface temperature between the insulation layer and the polyurethane foam will not be carbonized.
⑧Reflective layer: the foam material will not enter the inorganic hard insulation layer: reflect part of the heat of the insulation layer.
The thermal insulation structure of the stainless steel seamless elbow is mainly the above.
What role does the insulation structure of the stainless steel seamless elbow play in the work?
Stainless steel seamless elbows have a wide range of applications. They can be applied to doors, windows, railings, curtain walls, etc. in daily life. At the same time, they are also used in many places such as entrance halls and middle halls.
The insulation structure of the stainless steel seamless elbow is composed of the operation elbow, the jacket elbow, the operation canopy, the glass surface layer, the stainless steel fastening steel belt, the aluminum foil reflective layer, the sliding guide bracket, the air moisturizing layer, and the outer layer, and the insulation layer The air layer of about 20-25mm left between the elbow of the jacket and the jacket can play the role of heat preservation.
So do you know what the role of the insulation structure of the stainless steel seamless elbow is at work?
① Polyurethane foam layer: used for the temperature of the medium and the surface of the jacket elbow to maintain normal temperature.
② Outer elbow: used to protect the insulation layer from groundwater corrosion, and support the work pipe to withstand the corresponding external corrosion, so that the work pipe can work normally.
③Sheath elbow layer: protect the jacket elbow from being corroded by corrosive substances, and improve the service life of the elbow.
④Operation elbow: used for the normal flow of the conveying medium.
⑤Operation canopy: used to prevent the operation elbow from being corroded and prolong the service life of the operation elbow.
⑥Drag-reducing layer: The working elbow can move freely when it expands with heat and contracts with cold.
⑦Inorganic hard insulation layer: the interface temperature between the insulation layer and the polyurethane foam will not be carbonized.
⑧Reflective layer: the foam material will not enter the inorganic hard insulation layer: reflect part of the heat of the insulation layer.
The thermal insulation structure of the stainless steel seamless elbow is mainly the above.