Stainless Steel Cylindrical Pins Fixed Pins Locating Pins
Locating Pin is a precision fastener used to accurately align and position components in machinery, fixtures, and other mechanical assemblies. These pins ensure that parts are correctly located relative to each other, which is crucial for maintaining the integrity and functionality of the assembly. Here’s a detailed overview of locating pins:
Cylindrical Body: The main body of the locating pin is cylindrical, designed to fit precisely into drilled holes to ensure accurate alignment.
Head Types: Locating pins can come with various head types, including:
Flat Head: Provides a flush surface when installed.
Domed Head: Rounded head for easier insertion and a finished appearance.
Countersunk Head: Designed to sit flush with the surface of the material.
Shank Types: The shank can be straight, tapered, or stepped, depending on the application requirements.
Steel: Commonly made from high-carbon or alloy steel, providing strength and durability.
Stainless Steel: Offers excellent corrosion resistance, making it suitable for harsh environments.
Other Materials: Can also be made from brass, aluminum, or plastic, depending on the application requirements.
Plain: No additional coating, suitable for general use.
Heat-Treated: Hardened for increased wear resistance.
Plated: Coated with materials like zinc or chrome for enhanced corrosion resistance and aesthetic appeal.
Standard Locating Pin: The most common type, used for general alignment and positioning purposes.
Tapered Locating Pin: Features a tapered shank for a tighter fit in the hole, providing more precise alignment.
Shoulder Locating Pin: Has a shoulder beneath the head, providing a positive stop for precise positioning.
Spring-Loaded Locating Pin: Contains a spring mechanism that allows the pin to be easily inserted and removed, useful in applications requiring frequent disassembly.
Dowel Pin: A type of locating pin without a head, used for precise alignment in machinery and fixtures.
Machinery: Used to align and position components in machinery and equipment.
Fixtures and Jigs: Ensures precise alignment in manufacturing fixtures and jigs.
Automotive: Used in engine assemblies, transmissions, and other automotive components.
Electronics: Provides alignment in electronic assemblies and devices.
General Manufacturing: Used in various manufacturing processes to ensure accurate component alignment.
Precision Alignment: Ensures accurate alignment of components, critical for proper functioning of machinery and assemblies.
Ease of Installation: Designed for easy insertion and removal, reducing assembly time.
Durability: Made from high-strength materials, providing long-lasting performance.
Versatility: Available in various materials, finishes, and types to suit different applications and environments.
Locating pins are manufactured to meet specific industry standards, such as:
ISO (International Organization for Standardization)
DIN (Deutsches Institut für Normung)
ANSI (American National Standards Institute)
BS (British Standards)
Stainless Steel Cylindrical Pins Fixed Pins Locating Pins
Locating Pin is a precision fastener used to accurately align and position components in machinery, fixtures, and other mechanical assemblies. These pins ensure that parts are correctly located relative to each other, which is crucial for maintaining the integrity and functionality of the assembly. Here’s a detailed overview of locating pins:
Cylindrical Body: The main body of the locating pin is cylindrical, designed to fit precisely into drilled holes to ensure accurate alignment.
Head Types: Locating pins can come with various head types, including:
Flat Head: Provides a flush surface when installed.
Domed Head: Rounded head for easier insertion and a finished appearance.
Countersunk Head: Designed to sit flush with the surface of the material.
Shank Types: The shank can be straight, tapered, or stepped, depending on the application requirements.
Steel: Commonly made from high-carbon or alloy steel, providing strength and durability.
Stainless Steel: Offers excellent corrosion resistance, making it suitable for harsh environments.
Other Materials: Can also be made from brass, aluminum, or plastic, depending on the application requirements.
Plain: No additional coating, suitable for general use.
Heat-Treated: Hardened for increased wear resistance.
Plated: Coated with materials like zinc or chrome for enhanced corrosion resistance and aesthetic appeal.
Standard Locating Pin: The most common type, used for general alignment and positioning purposes.
Tapered Locating Pin: Features a tapered shank for a tighter fit in the hole, providing more precise alignment.
Shoulder Locating Pin: Has a shoulder beneath the head, providing a positive stop for precise positioning.
Spring-Loaded Locating Pin: Contains a spring mechanism that allows the pin to be easily inserted and removed, useful in applications requiring frequent disassembly.
Dowel Pin: A type of locating pin without a head, used for precise alignment in machinery and fixtures.
Machinery: Used to align and position components in machinery and equipment.
Fixtures and Jigs: Ensures precise alignment in manufacturing fixtures and jigs.
Automotive: Used in engine assemblies, transmissions, and other automotive components.
Electronics: Provides alignment in electronic assemblies and devices.
General Manufacturing: Used in various manufacturing processes to ensure accurate component alignment.
Precision Alignment: Ensures accurate alignment of components, critical for proper functioning of machinery and assemblies.
Ease of Installation: Designed for easy insertion and removal, reducing assembly time.
Durability: Made from high-strength materials, providing long-lasting performance.
Versatility: Available in various materials, finishes, and types to suit different applications and environments.
Locating pins are manufactured to meet specific industry standards, such as:
ISO (International Organization for Standardization)
DIN (Deutsches Institut für Normung)
ANSI (American National Standards Institute)
BS (British Standards)
