ROTOR FOR A CAMSHAFT PHASER

Organization Name

Miba Sinter Austria GmbH

Inventor(s)

[[:Category:Alexander M�ller of Altmünster (AT)|Alexander M�ller of Altmünster (AT)]][[Category:Alexander M�ller of Altmünster (AT)]]

Wolfgang Siessl of Traunkirchen (AT)

ROTOR FOR A CAMSHAFT PHASER - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240026805 titled 'ROTOR FOR A CAMSHAFT PHASER

Simplified Explanation

The abstract describes a powder-metallurgically produced rotor for a camshaft adjuster. The rotor has a base body with an outer diameter and an inner diameter, both passing through different axes of rotation. The rotor also has blades projecting outward from the outer lateral surface and a calibrated annular web projecting inward on the inner lateral surface. The rotor base body has a bore passing through it in the axial direction, with an inside diameter passing through a third axis of rotation that is offset by at most 0.1 mm relative to the first and/or second axes of rotation.

• The rotor is made using powder metallurgy techniques.
• It is designed for use in a camshaft adjuster.
• The rotor has a base body with an outer diameter and an inner diameter.
• Blades project radially outward from the outer lateral surface.
• A calibrated annular web projects radially inward on the inner lateral surface.
• The rotor base body has a bore passing through it in the axial direction.
• The bore has an inside diameter passing through a third axis of rotation.
• The third axis of rotation is offset by at most 0.1 mm relative to the first and/or second axes of rotation.

Potential applications of this technology:

• Camshaft adjusters in automotive engines.
• Industrial machinery requiring precise rotational adjustments.

Problems solved by this technology:

• Provides a rotor with precise dimensions and tolerances.
• Enables accurate and controlled rotational adjustments.
• Enhances the performance and efficiency of camshaft adjusters.

Benefits of this technology:

• Improved reliability and durability of camshaft adjusters.
• Increased precision and accuracy in rotational adjustments.
• Cost-effective production using powder metallurgy techniques.

Original Abstract Submitted

a powder-metallurgically produced rotor for a camshaft adjuster includes a rotor base body having an outer diameter bounded by a radially outer lateral surface and passing through a first axis of rotation, and an inner diameter bounded by a radially inner lateral surface and passing through a second axis of rotation. the rotor has blades projecting radially outward from the radially outer lateral surface and a calibrated first annular web projecting radially inward on the inner lateral surface, which has a web lateral surface defining a bore passing through the rotor base body in the axial direction and having an inside diameter passing through a third axis of rotation, wherein the third axis of rotation is offset in the radial direction by at most 0.1 mm relative to the first axis of rotation and/or the second axis of rotation.