Availability: | |
---|---|
Quantity: | |
Limit clamps are commonly used fixtures in mechanical processing, known for their high positioning accuracy, strong clamping force, and convenient usage. They are widely applied in various fields such as metal processing, mold manufacturing, and workshop production. Depending on their structure and functionality, limit clamps can be divided into two types: mechanical and hydraulic.
Mechanical limit clamps primarily rely on handles or knobs for clamping and releasing operations. They have a smaller clamping force area, making them suitable for clamping small-sized workpieces. On the other hand, hydraulic limit clamps utilize hydraulic drive for clamping and releasing, ensuring an evenly distributed clamping force. They are suitable for clamping larger and heavier workpieces.
Product Advantage
High reliability
High repeatability in positioning accuracy
Excellent resistance to vibrations
Technical Parameters
No.: JBD012
Surface: No cape burr sand hole
Material: stainless steel
Color: Silver
Classification: Custom Class
Process: Stainless steel precision casting investment manufacturing, wax loss casting
Tolerance: ± 0.2mm
Support customization: OEM+ODM
Product Uses
Due to their numerous advantages, limit clamps are extensively used in mold manufacturing, automotive processing, shipbuilding, and other industries. They are indispensable tools in mechanical processing, and selecting and using slider limit clamps correctly is of significant importance in maintaining processing accuracy and production efficiency.
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.
Limit clamps are commonly used fixtures in mechanical processing, known for their high positioning accuracy, strong clamping force, and convenient usage. They are widely applied in various fields such as metal processing, mold manufacturing, and workshop production. Depending on their structure and functionality, limit clamps can be divided into two types: mechanical and hydraulic.
Mechanical limit clamps primarily rely on handles or knobs for clamping and releasing operations. They have a smaller clamping force area, making them suitable for clamping small-sized workpieces. On the other hand, hydraulic limit clamps utilize hydraulic drive for clamping and releasing, ensuring an evenly distributed clamping force. They are suitable for clamping larger and heavier workpieces.
Product Advantage
High reliability
High repeatability in positioning accuracy
Excellent resistance to vibrations
Technical Parameters
No.: JBD012
Surface: No cape burr sand hole
Material: stainless steel
Color: Silver
Classification: Custom Class
Process: Stainless steel precision casting investment manufacturing, wax loss casting
Tolerance: ± 0.2mm
Support customization: OEM+ODM
Product Uses
Due to their numerous advantages, limit clamps are extensively used in mold manufacturing, automotive processing, shipbuilding, and other industries. They are indispensable tools in mechanical processing, and selecting and using slider limit clamps correctly is of significant importance in maintaining processing accuracy and production efficiency.
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.