Quick overview: Standoff made of aluminium, with M8 thread. It is used for lifting parts or for attaching other Swift-Fix components to achieve the required height.
Quick overview: Standoff made of aluminium, with M8 thread. It is used for lifting parts or for attaching other Swift-Fix components to achieve the required height.
Quick overview: Standoff made of aluminium, with M8 thread. It is used for lifting parts or for attaching other Swift-Fix components to achieve the required height.
Quick overview: The kinematic base plate remains on the machine and ensures accurate, fast and highly repeatable placement of kinematic fixture plates without manual alignment.
Quick overview: The standoff magnet ensures the reliable and repeatable holding of parts made from ferromagnetic metals and alloys, all while maximising accessibility.
Quick overview: The kinematic fixture plate can be placed in exactly the same position without the need for manual alignment. It is placed on top of a pre-mounted kinematic base plate.
Quick overview: Pillars are used to horizontally mount Swift-Fix elements. It adds both stability and height and can be fixed to either the base plate or the machine table.
Quick overview: Pillars are used to horizontally mount Swift-Fix elements. It adds both stability and height and can be fixed to either the base plate or the machine table.
Quick overview: Pillars are used to horizontally mount Swift-Fix elements. It adds both stability and height and can be fixed to either the base plate or the machine table.
Quick overview: The kinematic base plate remains on the machine and ensures accurate, fast and highly repeatable placement of kinematic fixture plates without manual alignment.
Quick overview: Standoff made of aluminium, with M8 thread. It is used for lifting parts or for attaching other Swift-Fix components to achieve the required height.
Quick overview: Standoff made of aluminium, with M8 thread. It is used for lifting parts or for attaching other Swift-Fix components to achieve the required height.