Tool holders are defined as a mechanical or structural system used to securely hold, align, and support tools, dies, or molds in manufacturing processes, ensuring stability, precision, and efficient force or energy transfer. Tool holders are mainly used in classical machining operation but the concept is frequently extended to other tool based industries such as cold working, hot working and plastic processing, where tool holders broadly describe systems that support and fix functional tooling components.
Tool holders are mechanical devices used to securely hold, position, and align tools or tool elements within a machine, ensuring precise force transmission, stability, and accuracy during manufacturing processes. In classical machining (e.g., CNC milling or drilling), tool holders act as the interface between the machine spindle and the cutting tool, providing rigid clamping, accurate alignment, and efficient transfer of motion and torque. This concept can be extended to other tool-based industries, where tool holders broadly describe systems that support and fix functional tooling components: Cold working (e.g., stamping, forming): Tool holders include systems such as die sets or punch holders that precisely position and secure forming tools under high mechanical loads. Plastics processing (e.g., injection molding, extrusion): Tool holders correspond to mold clamping and positioning systems that hold molds or inserts, ensuring alignment, pressure distribution, and thermal stability. Hot working (e.g., forging, die casting): Tool holders are structures that support dies or molds under extreme temperatures and stresses, maintaining consistent positioning and compensating for thermal expansion.
Fields marked with * are mandatory.