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These Spring Plungers with a pin end and a Hexagonal socket are used for locating, applying pressure, and lifting off. They have three components: a threaded body, a pin end, and a spring mechanism, as well as a hexagonal socket. The spring on the plunger provides the necessary force to keep the plunger in either the extended or retracted position.
The slotted design enables easy adjustment and precise alignment, allowing the plunger's extension or retraction to be fine-tuned to meet individual needs. The plunger pin can be quickly extended or retracted using manual force by push fitting, allowing for rapid modifications or changes in position.
The hex socket makes it easy to drive the spring plunger with a hex key. The threaded body makes it easy to integrate into existing systems or buildings. If the Pin is made of thermoplastic, it can withstand temperatures from -30C to +50C; however, if your Pin is made of stainless steel, it can withstand temperatures up to 250C. These spring plungers are widely utilised in various industries, including medical, optics, orthopaedics, machine and fixture design, lighting equipment, and electronic components, due to their endurance and versatility.
These Steel Clevis Joints with Retention Clips are a type of coupling in which the matching parts fit between the forks and are held in place by retention clips. They form a U-shaped connection between two rods or shafts to allow for tractive or linear thrust movements.
The retention clip is a clip that locks in place around the base of the clevis preventing accidental disconnection, resulting in a clean, compact assembly. The steel substance ensures its longevity and ability to endure high forces, as well as resistance to wear and corrosion. If necessary, the joint can be dismantled for maintenance by removing the retention clip. This allows for component examination, lubrication, or replacement.
They are easy to install and adjust using standard thread. They are most typically employed as a coupling on the end of air cylinders or at each end of a turnbuckle or wire rope for tensioning, as well as in industries such as construction, automotive and manufacturing.
These Linear Guide rails are a linear motion-bearing system used to guide and support moving components in a linear direction. Linear guide rails are made up of two major components: a rail and a carriage. The rail is a long, straight beam attached to a permanent surface. The carriage is a moving block that goes along the rail. The carriage comprises bearings that make contact with the rail and offer low-friction linear motion.
These rails are used in applications requiring high accuracy, low friction and smooth movements. It can sustain dynamic loads while accounting for impact, vibration, and fatigue.
In general, the carriages will be delivered to the tracks individually. To put the carriage onto the tracks, bring it up to the rails and slide it onto the rail. It is widely utilised in high-load and accurate applications throughout the industry, including medical devices, semiconductor production equipment, and industrial automation equipment.
These Clevis Joint Mating Pieces are meant to work with the clevis joint, allowing for smooth and controlled movement. These are intended to fit between our clevis joints to provide a connection where an angular offset is required.
The excellent fit of the mating piece provides for a tight and solid connection with the clevis joint, assuring stability, reliability, and optimal load transmission. The smooth surface finish of the mating piece decreases friction and wear between the mating components, contributing to the overall longevity and efficiency of the joint.
It ensures they remain aligned and engaged under varying loads and conditions by providing a reliable and safe connection. The thread size is designed to match the clevis joint, making installation and removal simple. Used in various applications for steering linkages, suspension systems, and control mechanisms in the automotive industry, manufacturing, and construction.
These Spring Plunger with a ball and slotted are used for locating, applying pressure, and lifting off. They have three components: a threaded body, a stainless ball, and a spring mechanism. The spring on the plunger provides the necessary force to keep the plunger in either the extended or retracted position.
The slotted design allows for simple adjustment and exact positioning, allowing one to fine-tune the plunger's extension or retraction to fit individual needs. While the stainless ball is selected for its outstanding corrosion resistance, it ensures the plunger's longevity and reliability even in tough settings. Additionally, the stainless steel ball enables smooth functioning, eliminating friction and wear.
It is simple to install and use and is designed to handle high stress and pressure. The threaded body makes it easy to integrate into existing systems or buildings. It can withstand temperatures up to 250C. These spring plungers are widely utilised in various industries, including medical, optics, orthopaedics, machine and fixture design, lighting equipment, and electronic components, due to their endurance and versatility.
These Spring Plungers - Pin - Slotted are used for positioning, indexing, applying pressure, lifting off, and locking. They are made of three parts: a threaded body, a plunger pin, and a spring mechanism. The plunger's spring provides force to hold the plunger in either the extended or retracted position.
Commonly used for precise alignment and secure positioning of components. Extending or retracting the plunger pin can lock or release a component, ensuring accurate alignment and preventing unintended movement. When the plunger pin is extended, it locks into place, preventing the component from being accidentally moved or dislodged.
It is simple to install and use and is designed to handle high stress and pressure. The threaded body makes it easy to integrate into existing systems or buildings. The plunger pin can be easily extended or retracted using manual force by push fitting, allowing for quick adjustments or changes in position. It can withstand temperatures up to 250ºC and is commonly used in industry sectors such as machine and fixture design, electronics, medical and lighting equipment.
These low-profile unflanged carriages are linear bearings used for heavy-duty and precise linear motion applications. They give precision, stability, and dependability. The four row contact with the mating rail offers the same load capacity capabilities regardless of the load pressing into the carriage or hanging from it.
The unflanged design provides a more compact solution but can only be mounted to from the top. The carriages' ball retainers allow for a quieter operation whilst improving lubrication of the system. It also ensures the balls remain in place should the carriage be removed from the rail in error.
Its low profile provides an even smaller compact solution when compared again the standard unflanged linear carriages. It is used in many applications, including special purpose equipment, automation, material handling systems, medical devices, etc.
These low-profile unflanged carriages are linear bearings used for heavy-duty and precise linear motion applications. They give precision, stability, and dependability. The four row contact with the mating rail offers the same load capacity capabilities regardless of the load pressing into the carriage or hanging from it.
The unflanged design provides a more compact solution but can only be mounted to from the top. The carriages' ball retainers allow for a quieter operation whilst improving lubrication of the system. It also ensures the balls remain in place should the carriage be removed from the rail in error.
The carriages are supplied on dummy blocks which must be offered up to the edge of the rail the carriage is going onto during installation. Slide the carriage from the dummy block onto the rail to ensure no damage can occur. It is used in many applications, including special purpose equipment, automation, material handling systems, medical devices, etc.
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