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JINBIANDA
Technological Process
Product Design, Mold Making, Wax Injection Mold, Wax Mold Inspection, Tree Assembly, Hook Installation, Wax Mold Cleaning, Slurry Coating (including fine slurry, coarse slurry, and sealing slurry, with only one layer applied per day), Shell Mold Production, Drying in the Slurry Room, Wax Removal, Firing the Shell Mold in a Kiln at around 1200℃, Melting Steel into Molten Steel and adding additives, Pouring the Prepared Molten Steel into the Fired Shell Mold, Natural Cooling, Shell Knockout, Shot Blasting, Cutting, Grinding the Water Outlet, Sand Cleaning, Acid Soaking, Sandblasting, Inspection and Repair, Whitening, Packaging, and a series of post-processing steps until the pump components are completed and meet the required standards.
Engine Components: Foundries produce critical engine parts such as cylinder blocks, cylinder heads, and crankshafts. These components require high precision and strength to withstand the rigors of engine operation. The foundry process allows for the creation of complex geometries and ensures proper metallurgical properties for optimal performance and durability.
Transmission Parts: Gears, shafts, and housings for transmissions are often made through casting. The ability to produce accurate tooth profiles and precise dimensions is essential for smooth power transmission and efficient gear meshing. Foundry techniques can also provide the necessary strength and wear resistance for these components.
The bearing puller is a device that takes out the inner bearing from the bearing seat. It is an internal bearing puller that includes a mounting plate, tension bolts, and threaded bolts; There are no less than two tension bolts, each with a claw at the bottom that can hang the bottom of the built-in bearing. A fastening nut is installed on each tension bolt, and there is no less than one long hole in the middle of the installation plate. The width of the long hole is greater than the diameter of the tension bolt. The lower end of each tension bolt passes through the long hole and extends below the installation plate, and the fastening nut can be clamped on the installation plate at the long hole; There are no less than two positioning nuts fixed on the installation plate outside the long hole.
Machine Tool Structures: The frames and bases of machine tools are frequently cast. These structures need to have high rigidity and dimensional stability to support accurate machining operations. Foundry methods can incorporate various reinforcement features and achieve the required mass distribution for minimizing vibration and improving machining accuracy.
Industrial Valves: Foundries manufacture valves used in a wide range of industrial applications. Whether it's for controlling fluid flow in pipelines or in manufacturing processes, cast valves can be designed to handle different pressures, temperatures, and media. The casting process allows for the production of valves with complex internal passages and tight sealing surfaces.
Technological Process
Product Design, Mold Making, Wax Injection Mold, Wax Mold Inspection, Tree Assembly, Hook Installation, Wax Mold Cleaning, Slurry Coating (including fine slurry, coarse slurry, and sealing slurry, with only one layer applied per day), Shell Mold Production, Drying in the Slurry Room, Wax Removal, Firing the Shell Mold in a Kiln at around 1200℃, Melting Steel into Molten Steel and adding additives, Pouring the Prepared Molten Steel into the Fired Shell Mold, Natural Cooling, Shell Knockout, Shot Blasting, Cutting, Grinding the Water Outlet, Sand Cleaning, Acid Soaking, Sandblasting, Inspection and Repair, Whitening, Packaging, and a series of post-processing steps until the pump components are completed and meet the required standards.
Engine Components: Foundries produce critical engine parts such as cylinder blocks, cylinder heads, and crankshafts. These components require high precision and strength to withstand the rigors of engine operation. The foundry process allows for the creation of complex geometries and ensures proper metallurgical properties for optimal performance and durability.
Transmission Parts: Gears, shafts, and housings for transmissions are often made through casting. The ability to produce accurate tooth profiles and precise dimensions is essential for smooth power transmission and efficient gear meshing. Foundry techniques can also provide the necessary strength and wear resistance for these components.
The bearing puller is a device that takes out the inner bearing from the bearing seat. It is an internal bearing puller that includes a mounting plate, tension bolts, and threaded bolts; There are no less than two tension bolts, each with a claw at the bottom that can hang the bottom of the built-in bearing. A fastening nut is installed on each tension bolt, and there is no less than one long hole in the middle of the installation plate. The width of the long hole is greater than the diameter of the tension bolt. The lower end of each tension bolt passes through the long hole and extends below the installation plate, and the fastening nut can be clamped on the installation plate at the long hole; There are no less than two positioning nuts fixed on the installation plate outside the long hole.
Machine Tool Structures: The frames and bases of machine tools are frequently cast. These structures need to have high rigidity and dimensional stability to support accurate machining operations. Foundry methods can incorporate various reinforcement features and achieve the required mass distribution for minimizing vibration and improving machining accuracy.
Industrial Valves: Foundries manufacture valves used in a wide range of industrial applications. Whether it's for controlling fluid flow in pipelines or in manufacturing processes, cast valves can be designed to handle different pressures, temperatures, and media. The casting process allows for the production of valves with complex internal passages and tight sealing surfaces.