Displacement Sensor Arrangement for Determining the Position of a Body Moving Along a Movement Path in a Vehicle

Organization Name

Robert Bosch GmbH

Inventor(s)

Stefan Kuntz of Flein (DE)

Jonathan Haaf of Untergruppenbach (DE)

Displacement Sensor Arrangement for Determining the Position of a Body Moving Along a Movement Path in a Vehicle - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240019271 titled 'Displacement Sensor Arrangement for Determining the Position of a Body Moving Along a Movement Path in a Vehicle

Simplified Explanation

The abstract describes a displacement sensor arrangement that uses a generating device to create a magnetic field with two perpendicular components. One of these components is perpendicular to the movement path of a body in a vehicle. A first measuring device detects the components of the magnetic field and determines the current position of the moving body based on the values of the two components. A second measuring device detects the instantaneous value of one component and compares it with a threshold value to determine a switching point. Either the generating device or the measuring devices can be connected to the moving body. The switching point is defined by the alignment of the measuring devices with respect to the movement path.

• The displacement sensor arrangement uses a magnetic field with two perpendicular components to determine the position of a moving body in a vehicle.
• A first measuring device detects the components of the magnetic field and determines the current position of the body.
• A second measuring device detects one component of the magnetic field and compares it with a threshold value to determine a switching point.
• The generating device or measuring devices can be connected to the moving body.
• The alignment of the measuring devices determines the switching point.

Potential Applications:

• Automotive industry: This technology can be used in vehicles to accurately measure the displacement of various components, such as the position of the steering wheel or the movement of the suspension system.
• Robotics: The displacement sensor arrangement can be applied in robotics to track the movement of robotic arms or other moving parts, enabling precise control and positioning.

Problems Solved:

• Accurate displacement measurement: The arrangement provides a reliable and accurate method for determining the position of a moving body in a vehicle or robotic system.
• Switching point determination: The second measuring device helps determine a switching point, which can be useful for triggering certain actions or control mechanisms based on the position of the moving body.

Benefits:

• Improved control and positioning: The displacement sensor arrangement allows for precise control and positioning of moving bodies, enhancing the overall performance and accuracy of vehicles or robotic systems.
• Versatility: The ability to connect either the generating device or measuring devices to the moving body provides flexibility in the implementation of the arrangement in different applications.
• Reliability: By using a magnetic field and measuring devices, the arrangement offers a reliable method for displacement sensing, ensuring consistent and accurate measurements.

Original Abstract Submitted

a displacement sensor arrangement includes a generating device which generates a magnetic field having two mutually perpendicular components, one of which is perpendicular to a movement path of a body in a vehicle, and a first measuring device sensitive to the components of the generated magnetic field and designed to span at least one measuring plane and to determine a current position of the moving body as a function of respective value pairs of the two components. a second measuring device detects an instantaneous value of one of the two components and compares it with a threshold value to determine a switching point. one of the generating device and measuring devices is configured to be connected to the body to move relative to the others. the switching point is defined by a common alignment of measuring devices with respect to the movement path.