ROTARY RECIPROCATING DRIVE ACTUATOR

Organization Name

Unknown Organization

Inventor(s)

Masaharu Kagami of Tokyo (JP)

Yasutaka Kitamura of Tokyo (JP)

Yuki Takahashi of Tokyo (JP)

Yuki Otsuka of Tokyo (JP)

Kai Masamoto of Tokyo (JP)

ROTARY RECIPROCATING DRIVE ACTUATOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240019686 titled 'ROTARY RECIPROCATING DRIVE ACTUATOR

Simplified Explanation

The present invention is a device that includes a movable body with a magnet fixed to one end of a shaft, and a movable object connected to the other end of the shaft. There is also a core assembly that includes a core body with multiple magnetic poles facing the outer circumference of the magnet. A coil body is wound around the core body, and a magnet position holding portion is energized to generate a magnetic attraction force between the magnet position holding portion and the magnet, defining a reference position for the reciprocating rotation. A circuit board is placed to cover the core assembly, with a terminal part of the coil body protruding to the circuit board side to be connected to a circuit.

• The invention is a device with a movable body and a core assembly.
• The movable body includes a magnet fixed to one end of a shaft and a movable object connected to the other end.
• The core assembly includes a core body with magnetic poles facing the magnet and a coil body wound around the core body.
• The magnet position holding portion is energized to create a magnetic attraction force with the magnet, defining a reference position.
• The circuit board covers the core assembly, and the terminal part of the coil body protrudes to be connected to a circuit.

Potential applications of this technology:

• Robotics: The invention can be used in robotic systems to control the movement and positioning of various components.
• Automation: It can be applied in automated machinery and equipment to precisely control the reciprocating rotation of parts.
• Actuators: The device can be used as an actuator in various systems, such as valves, pumps, and motors.

Problems solved by this technology:

• Precise positioning: The invention provides a reference position for the reciprocating rotation, allowing for precise control and positioning of the movable object.
• Magnetic attraction force: The magnet position holding portion generates a magnetic attraction force, ensuring stable and reliable movement of the movable object.
• Compact design: The device's compact design allows for easy integration into various systems and equipment.

Benefits of this technology:

• Improved accuracy: The invention enables precise control and positioning, leading to improved accuracy in various applications.
• Reliability: The magnetic attraction force ensures stable and reliable movement of the movable object.
• Compact and versatile: The device's compact design and ability to be integrated into different systems make it versatile for various applications.

Original Abstract Submitted

the present invention includes: a movable body including a magnet fixed to an other end portion side of a shaft part to which a movable object is connected at one end portion side; a core assembly including a core body including a plurality of magnetic poles facing an outer circumference of the magnet, a coil body wound around the core body, a magnet position holding portion energized to generate a magnetic attraction force between the magnet position holding portion and the magnet to define a reference position of the reciprocating rotation; and a circuit board disposed to cover the core assembly at the other end side, in which the coil body includes a terminal part to which an end portion of a coil is connected and that is disposed to protrude to the circuit board side so as to be connected to a circuit of the circuit board.