Linch or lynch pins for tubes are essential components in a variety of industrial applications. These small parts play a crucial role in joining and fastening structures and components, ensuring safety and structural stability. But what makes these pins so special, and how can you use them effectively?
Definition and description
A linchpin for tubes or pipes is a pin in the shape of a semicircle that is designed to be inserted into a tube. This unique shape allows for solid and stable fastening, which is why they're commonly used for applications with frequent vibrations and movement.
Materials used
These pins are generally made of carbon steel, stainless steel, or special alloys for applications that require increased corrosion resistance or a particular level of robustness.
Half-moon clip pins are commonly used in fitness equipment, modular furniture, and tubular structures. They allow for a secure connection that is easy to dismantle when necessary.
Advantages and disadvantages
Advantages include their simple install without any need for special tools, as well as their excellent vibration resistance. However, they can be difficult to remove without damaging the tube if not handled properly.
These lynchpins are specifically designed for tubular applications. Their shape makes them easy to install and gives them good staying power.
Specific features
This pins is designed to adapt perfectly to the inner diameter of the tube in question, offering optimal stability and security.
Typical applications
They are often found in sports equipment, tent structures, and modular furniture.
Linch pins for tubes or pipes are cylindrical pins designed to be inserted into tubes. They ensure a solid and stable connection between tube components.
Specific features
These pins are generally made of stainless steel or corrosion-resistant alloys, ensuring durability even in harsh environments.
Typical applications
They are commonly used in tubular structures, scaffolding, and construction equipment.
Woodruff pins are pins shaped like a semi-circle, used primarily for fasteners in shafts and hubs.
Specific features
These pins offer high torsional strength and are easy to install and remove, allowing for effortless dismantling.
Typical applications
Woodruff pins are commonly used in motors, machine tools, and transmission equipment.
Steps for installing a linch pin
Clamps and rubber hammers are often used to ensure proper installation without damaging the surrounding components.
Case studies
Industrial sectors concerned
Half-moon clip pins are essential in sectors requiring reliable and removable tubular connections, such as furniture, sports equipment, and temporary structures.
Linch pins for tubes from Gardette Industries. Feel free to contact us for any other material or dimensions.
Linch or lynch pins for tubes are essential components in a variety of industrial applications. These small parts play a crucial role in joining and fastening structures and components, ensuring safety and structural stability. But what makes these pins so special, and how can you use them effectively?
Definition and description
A linchpin for tubes or pipes is a pin in the shape of a semicircle that is designed to be inserted into a tube. This unique shape allows for solid and stable fastening, which is why they're commonly used for applications with frequent vibrations and movement.
Materials used
These pins are generally made of carbon steel, stainless steel, or special alloys for applications that require increased corrosion resistance or a particular level of robustness.
Half-moon clip pins are commonly used in fitness equipment, modular furniture, and tubular structures. They allow for a secure connection that is easy to dismantle when necessary.
Advantages and disadvantages
Advantages include their simple install without any need for special tools, as well as their excellent vibration resistance. However, they can be difficult to remove without damaging the tube if not handled properly.
These lynchpins are specifically designed for tubular applications. Their shape makes them easy to install and gives them good staying power.
Specific features
This pins is designed to adapt perfectly to the inner diameter of the tube in question, offering optimal stability and security.
Typical applications
They are often found in sports equipment, tent structures, and modular furniture.
Linch pins for tubes or pipes are cylindrical pins designed to be inserted into tubes. They ensure a solid and stable connection between tube components.
Specific features
These pins are generally made of stainless steel or corrosion-resistant alloys, ensuring durability even in harsh environments.
Typical applications
They are commonly used in tubular structures, scaffolding, and construction equipment.
Woodruff pins are pins shaped like a semi-circle, used primarily for fasteners in shafts and hubs.
Specific features
These pins offer high torsional strength and are easy to install and remove, allowing for effortless dismantling.
Typical applications
Woodruff pins are commonly used in motors, machine tools, and transmission equipment.
Steps for installing a linch pin
Clamps and rubber hammers are often used to ensure proper installation without damaging the surrounding components.
Case studies
Industrial sectors concerned
Half-moon clip pins are essential in sectors requiring reliable and removable tubular connections, such as furniture, sports equipment, and temporary structures.
We are certified to IATF 16949 and ISO 9001 standards.
In all our offers & confirmation messages, we explicitly mention the goods' shipping date(s).
Our sales team is available:
From Monday to Thursday 8:30a.m.-12:00p.m. & 1:30p.m.-5:00p.m.
Fridays 8:30a.m.-12:00p.m. & 1:30p.m.-4:30p.m.
We are committed to Corporate Social Responsibility (CSR) and plan to obtain ISO 14001 and ISO 45001 certifications in the near future.
We are currently putting together a multidisciplinary group with the aim of helping us reduce our carbon footprint. As part of this initiative, we carried out a complete carbon assessment (Scopes 1, 2 and 3) in 2023, allowing us to examine our overall environmental impact.
