POWER UNIT STRUCTURE

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POWER UNIT STRUCTURE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240246395 titled 'POWER UNIT STRUCTURE

The patent application describes a power unit structure that includes a driving shaft from a driving source and a driven shaft interlocked with the driving shaft. An auxiliary machinery is driven by receiving rotational motion from an output shaft, which is connected to an auxiliary machinery input shaft coaxially. The output shaft is integrally and rotatably connected to the auxiliary machinery input shaft.

The power unit structure integrates a driving shaft, a driven shaft, an output shaft, and an auxiliary machinery input shaft.
The auxiliary machinery is driven by the rotational motion received from the output shaft.
The auxiliary machinery input shaft is coaxially disposed with the output shaft for efficient power transfer.
A connecting portion is formed to integrally and rotatably connect the auxiliary machinery input shaft with the output shaft.
The structure allows for a compact and efficient power transmission system.

Potential Applications: - Industrial machinery - Automotive systems - Power generation equipment

Problems Solved: - Efficient power transmission - Compact design - Improved performance of auxiliary machinery

Benefits: - Enhanced power transfer efficiency - Space-saving design - Reliable operation of auxiliary machinery

Commercial Applications: Title: "Compact Power Unit Structure for Industrial Machinery" This technology can be used in various industrial applications to improve power transmission efficiency and enhance the performance of auxiliary machinery. It can have significant implications in the market for industries requiring reliable and compact power units.

Questions about the technology: 1. How does the integrally connected auxiliary machinery input shaft improve the overall efficiency of the power unit structure? - The integrally connected auxiliary machinery input shaft ensures a direct and efficient transfer of rotational motion from the output shaft to the auxiliary machinery, reducing energy loss and improving overall performance.

2. What are the potential cost-saving benefits of implementing this power unit structure in industrial machinery? - By improving power transmission efficiency and reducing the space required for auxiliary machinery, this technology can lead to cost savings in terms of energy consumption and equipment maintenance.

Original Abstract Submitted

a power unit structure includes a driving shaft of a driving source, and a driven shaft interlocked with the driving shaft, the structure of a power unit further includes an auxiliary machinery driven by receiving a rotational motion of an output shaft which is one of the driving shaft and the driven shaft, an auxiliary machinery input shaft disposed coaxially with the output shaft is connected to the auxiliary machinery, and a connecting portion configured to integrally rotatably connect the auxiliary machinery input shaft is formed integrally with the output shaft.