Collection:Clamping Modules
Clamping modules are extremely flat diaphragm actuators with short strokes designed for clamping tasks. These modules excel in applications where other clamp cylinders reach their limits, such a...
Clamping Modules
Clamping modules are extremely flat diaphragm actuators with short strokes designed for clamping tasks. These modules excel in applications where other clamp cylinders reach their limits, such as in narrow gaps. With a clamping force of up to 1640 N, they provide robust performance even in challenging conditions. Their unique design allows for effective compensation of unevenness and dimensional deviations, ensuring a secure and precise hold on workpieces.
Available in both round and elongated designs, clamping modules can handle both two-dimensional and more linear-oriented clamping tasks. The round designs are ideal for applications requiring uniform clamping pressure over a surface, while the elongated designs are suited for tasks that demand linear clamping along a specific axis. This versatility makes clamping modules suitable for a wide range of industrial applications.
Due to their hermetically sealed design, clamping modules are also suitable for harsh, dusty ambient conditions. This feature ensures that the actuators remain protected from contaminants, maintaining their performance and longevity even in adverse environments. The properties of a hermetically sealed actuator are particularly advantageous in settings where conventional cylinders might struggle, providing reliable operation where it is most needed.
When selecting clamping modules, consider factors such as the required clamping force, the specific design (round or elongated) that best suits your application, and the environmental conditions in which the modules will operate. Ensuring that the chosen module meets these criteria will help you achieve optimal performance and reliability in your clamping tasks.
Overall, clamping modules offer a practical and efficient solution for a variety of clamping tasks, especially in challenging environments. By understanding their unique properties and selecting the appropriate design, you can enhance the precision and efficiency of your operations.