REMOVING THE FRICTION CAP

The Friction Cap needs to be removed in order to change detent discs. The discs provide the means for establishing and changing the number and spacing of the angular increments of the tripod head. The two discs that come standard with the KiWi 900/950 provide for 14 and 18 shots per revolution. Use the 18 position detent disc when capturing images with the normal wide-angle setting of the camera. Use the 14 position detent disc when using the optional Nikon 24mm wide-angle lens for the Coolpix 900/950 camera.

To remove the Friction Cap, loosen the silver colored Retaining Knob which is lo- cated on the side of the Friction Cap. It does not have to be removed from the Cap, but only backed out far enough to allow the Cap to be unscrewed from the axle. You can look into the opening in the center of the cap to see when the Retaining Knob is clear of the hexagonal-shaped axle. Rotate the cap counterclockwise and remove it from the unit.

Retaining

Knob

Friction Cap

Vertical Bracket

Indexing Hub

Once the Friction Cap has been removed, separate the Vertical Bracket from the

Indexing Hub. You might need to wiggle the pieces as you pull them apart.

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Kaidan 900, 950 manual Retaining Knob Friction Cap Vertical Bracket Indexing Hub, Removing the Friction CAP

900, 950 specifications

Kaidan 950,900 is an advanced robot model that stands out in the competitive field of automation and robotics. This innovative machine is engineered to enhance productivity and efficiency in a wide range of industrial applications. One of the most prominent features of the Kaidan 950,900 is its exceptional versatility, enabling it to perform multiple tasks with precision and reliability.

At the heart of its capabilities is an advanced artificial intelligence system that allows the Kaidan 950,900 to learn and adapt to various operational environments. This AI-driven technology ensures that the robot can optimize its functions based on real-time data analysis, leading to improved performance over time. Additionally, the robot is equipped with state-of-the-art sensory equipment that enables it to perceive its surroundings with remarkable accuracy. High-definition cameras and proximity sensors work in unison to allow the robot to navigate complex environments while avoiding obstacles effectively.

One of the key characteristics of the Kaidan 950,900 is its modular design. The robot can be easily customized with various attachments and tools to suit specific tasks, from heavy lifting to intricate assembly processes. This modularity not only enhances its usefulness across different industries but also extends its operational lifespan, as individual components can be upgraded or replaced without needing a complete overhaul.

Another significant feature of the Kaidan 950,900 is its energy efficiency. Leveraging advanced battery technology, this robot utilizes energy-saving algorithms that enable it to perform extended tasks without frequent recharging. This is crucial for industries that require continuous operations, such as manufacturing and logistics.

Moreover, the Kaidan 950,900 prioritizes safety in its design. It incorporates multiple safety protocols and emergency shut-off systems to ensure a secure working environment for human operators. These features are particularly important in environments where human and robot interactions are frequent.

In summary, the Kaidan 950,900 represents a remarkable achievement in robotic technology. With its intelligent systems, versatility, modularity, energy efficiency, and robust safety features, this robot is poised to significantly impact various sectors, paving the way for a more automated and efficient future. As industries continue to evolve, the Kaidan 950,900 stands as a testament to the potential of advanced robotics in transforming operational paradigms.