Rotating magnetic exchange system with multiple magnets

Abstract

Magnetic exchange system for generating synchronized magnetic movement, comprising: a support structure with two concentrically arranged hollow cylinders (cylinder 1 and cylinder 2) made of magnetically insulating material, which rotate around a common axis, wherein both cylinders have radial openings (holes) that are offset from each other in such a way that an opening in cylinder 1 is always covered by a closed wall surface of cylinder 2 and vice versa, at least one track arranged between the cylinders with at least one movable magnet (magnet 1), a magnet (magnet 2) arranged stationary inside cylinder 1 and a magnet (magnet 3) arranged stationary outside cylinder 2; characterized in that the magnetic interaction between magnet 1 and optionally magnet 2 or magnet 3 is controlled via the openings by the rotation of the cylinders in such a way that magnet 1 performs an oscillating movement between the cylinders.

Description

Technical field

[0001] The invention relates to a magnet exchange system for generating synchronized movement by means of rotating shielding. Solution to the problem and example of implementation

[0002] The device comprises a silicon sphere suspended by levitation in a vacuum and rotating. A plate is attached to the sphere, on which two concentrically nested hollow cylinders are arranged: an inner cylinder 1 and an outer cylinder 2. Both cylinders are made of magnetically insulating material. The cylinders have radial openings. These are arranged such that an opening in cylinder 1 is always covered by a closed wall surface of cylinder 2, and vice versa. Between the cylinders are tracks with movable magnets (magnet 1). A stationary magnet 2 is located inside cylinder 1, and another stationary magnet 3 is located outside cylinder 2. How it works

[0003] The rotation of the cylinders alternately releases the magnetic forces of magnet 2 and magnet 3 onto magnet 1. When a breach in the inner cylinder passes through magnet 1, the attractive force of magnet 2 acts, while cylinder 2 shields the force of magnet 3. With further rotation, a breach in the outer cylinder releases the force of magnet 3, while cylinder 1 shields the force of magnet 2. This generates a precisely controlled, oscillating motion of magnet 1 along its path.

Claims

[1] Magnet exchange system for generating a synchronized magnetic motion, comprising: a support structure with two concentrically arranged hollow cylinders (cylinder 1 and cylinder 2) made of magnetically insulating material, which rotate around a common axis, wherein both cylinders have radial openings (holes) that are offset from each other in such a way that an opening in cylinder 1 is always covered by a closed wall surface of cylinder 2 and vice versa, at least one track arranged between the cylinders with at least one movable magnet (magnet 1), a magnet (magnet 2) arranged stationary inside cylinder 1 and a magnet (magnet 3) arranged stationary outside cylinder 2; characterized by, that by rotating the cylinders the magnetic interaction between magnet 1 and optionally magnet 2 or magnet 3 is controlled via the openings in such a way that magnet 1 performs an oscillating movement between the cylinders. [2] System according to claim 1, characterized by , that the support structure is attached to a plate which is connected to a silicon sphere suspended and rotating in a vacuum by magnetic levitation. [3] System according to claim 1 or 2, characterized by , that the movable magnet 1 has a geometric shape with a tip oriented towards the direction of movement, preferably a triangular shape.