ROTARY RECIPROCATING DRIVE ACTUATOR

Organization Name

Unknown Organization

Inventor(s)

Kai Masamoto of Tokyo (JP)

Yuki Takahashi of Tokyo (JP)

Yasutaka Kitamura of Tokyo (JP)

Masaharu Kagami of Tokyo (JP)

Yuki Otsuka of Tokyo (JP)

ROTARY RECIPROCATING DRIVE ACTUATOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240019684 titled 'ROTARY RECIPROCATING DRIVE ACTUATOR

Simplified Explanation

The abstract describes a rotary reciprocating drive actuator that includes a movable body with a shaft part and a fixed magnet, allowing it to perform reciprocating rotation. The actuator also includes a base portion with wall portions for supporting the shaft part, and a core assembly fixed to one wall portion. The core assembly consists of a core body with magnetic poles facing the magnet, a coil body, and a magnet position holding portion that defines a reference position for the reciprocating rotation. Additionally, at least one of the base portion, core body, or core assembly includes a positioning fixation part for positioning and fixing the actuator to a fixation target object parallel to the shaft part.

• The actuator has a movable body with a fixed magnet, allowing it to perform reciprocating rotation.
• The base portion supports the shaft part via a bearing and includes wall portions.
• The core assembly consists of a core body, a coil body, and a magnet position holding portion.
• The core assembly is fixed to one wall portion of the base portion.
• At least one of the base portion, core body, or core assembly includes a positioning fixation part for fixing the actuator to a fixation target object.

Potential Applications:

• Robotics: The rotary reciprocating drive actuator can be used in robotic systems to provide precise and controlled reciprocating motion.
• Automation: This actuator can be applied in automated machinery and equipment that require reciprocating motion for various tasks.
• Automotive: The actuator can be utilized in automotive applications such as engine components or transmission systems that require reciprocating motion.

Problems Solved:

• Precise Reciprocating Motion: The actuator allows for accurate and controlled reciprocating rotation, solving the problem of achieving precise motion in various applications.
• Stability and Support: The base portion with wall portions provides stability and support for the shaft part, ensuring smooth and reliable operation.
• Positioning and Fixation: The positioning fixation part allows for easy and secure positioning and fixation of the actuator to a fixation target object, simplifying installation and integration.

Benefits:

• Versatile Motion: The actuator enables reciprocating rotation, offering a versatile motion capability for different applications.
• Compact Design: The integration of the movable body, base portion, and core assembly into a compact design allows for space-efficient installation.
• Precise Control: The actuator's design and components enable precise control over the reciprocating motion, ensuring accuracy and repeatability in various tasks.

Original Abstract Submitted

a rotary reciprocating drive actuator includes: a movable body including a shaft part to which a magnet is fixed, the movable body being configured to perform a reciprocating rotation about an axis; a base portion including a pair of wall portions for supporting the shaft part via a bearing; and a core assembly including: a core body including a plurality of magnetic poles facing the magnet, a coil body, and a magnet position holding portion to define a reference position of the reciprocating rotation, the core assembly being fixed to one wall portion, in which at least one of the base portion, the core body, or the core assembly includes a positioning fixation part for positioning and fixing the at least one of the base portion, the core body, or the core assembly to a fixation target object in a direction parallel to the shaft part.