ELECTRICALLY-DRIVEN STONE MATERIAL CRUSHING TOOL

Organization Name

MAKITA CORPORATION

Inventor(s)

Koichi Yakabe of Anjo-shi (JP)

Hiroki Ikuta of Anjo-shi (JP)

Toshihito Yabunaka of Anjo-shi (JP)

ELECTRICALLY-DRIVEN STONE MATERIAL CRUSHING TOOL - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240024882 titled 'ELECTRICALLY-DRIVEN STONE MATERIAL CRUSHING TOOL

Simplified Explanation

The abstract of the patent application describes an electrically-driven stone material crushing tool that aims to prevent complications in the working environment. The tool consists of a motor with an output shaft, a motion converting mechanism to convert the rotating movement from the output shaft into a linear movement, and a crushing member that crushes the stone material by clamping it using the linear movement of the motion converting mechanism.

• The tool is electrically-driven, providing a more efficient and controlled crushing process.
• The motor's output shaft generates a rotating movement, which is converted into a linear movement by the motion converting mechanism.
• The linear movement is utilized by the crushing member to clamp and crush the stone material.
• The tool aims to prevent complications in the working environment, potentially improving safety and reducing hazards.

Potential Applications:

• Construction industry: The stone material crushing tool can be used in construction projects that require crushing and processing of stone materials, such as road construction, building construction, and landscaping.
• Mining industry: The tool can be utilized in mining operations to crush and process stone materials extracted from mines.
• Demolition industry: The crushing tool can be employed in demolition projects to break down and process stone materials from demolished structures.

Problems Solved:

• Complications in the working environment: The tool aims to prevent complications that may arise during the crushing process, potentially improving safety and reducing hazards for workers.
• Inefficient crushing methods: The electrically-driven tool provides a more efficient and controlled crushing process compared to manual or traditional methods.

Benefits:

• Improved safety: The tool aims to prevent complications in the working environment, potentially reducing the risk of accidents and injuries.
• Increased efficiency: The electrically-driven tool offers a more efficient and controlled crushing process, potentially saving time and resources.
• Versatility: The tool can be used in various industries and applications that require crushing and processing of stone materials.

Original Abstract Submitted

to provide a construction technique of a stone material crushing tool which can prevent complication of working environment. an electrically-driven stone material crushing tool including a motor having an output shaft, a motion converting mechanism to convert a rotating movement from the output shaft to a linear movement, and a crushing member to crush the stone material by clamping by means of the linear movement of the motion converting mechanism.