COMPRESSOR UNIT AND REFRIGERATION APPARATUS

Organization Name

DAIKIN INDUSTRIES, LTD.

Inventor(s)

Daiki Kikutake of Osaka (JP)

Tatsuya Katayama of Osaka (JP)

COMPRESSOR UNIT AND REFRIGERATION APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18615823 titled 'COMPRESSOR UNIT AND REFRIGERATION APPARATUS

The abstract of a patent application describes a compressor unit with a compression mechanism and an accumulator, with a specific formula for calculating a value related to the weight of the piston and blade, the number of revolutions of the compressor body, the distance from the center of the piston to the center of gravity of the unit, the moment of inertia, the distance from the inlet pipe axis to the center of gravity, and the refrigeration apparatus rated capacity.

• The compressor unit includes a compression mechanism with a cylinder, piston, and blade.
• A specific formula is used to calculate a value related to the weight of the piston and blade, the number of revolutions of the compressor body, and various distances and capacities within the unit.
• The accumulator is part of the compressor unit and plays a role in the overall function of the system.
• The design of the compressor unit is optimized for efficiency and performance in refrigeration applications.
• The patent application introduces a unique approach to calculating and optimizing the components of a compressor unit for refrigeration systems.

Potential Applications: - Refrigeration systems - Air conditioning units - Industrial cooling processes

Problems Solved: - Improved efficiency in compressor units - Enhanced performance in refrigeration applications

Benefits: - Increased energy efficiency - Optimal performance in cooling systems - Cost-effective design for refrigeration units

Commercial Applications: Title: "Efficient Compressor Unit for Refrigeration Systems" This technology can be applied in various commercial refrigeration systems, air conditioning units, and industrial cooling processes. The efficiency and performance improvements offered by this compressor unit can lead to cost savings and enhanced cooling capabilities in commercial settings.

Questions about the technology: 1. How does the specific formula mentioned in the abstract contribute to the efficiency of the compressor unit? 2. What sets this compressor unit apart from traditional designs in terms of performance and energy efficiency?

Original Abstract Submitted

A compressor unit includes a compressor body with a compression mechanism, and an accumulator. The compression mechanism includes a cylinder, a piston, and a blade. F×(h/I)×L≤19×P+128. F represents a value obtained by multiplying a weight of the piston and the blade by a square of the number of revolutions of the compressor body, and h represents a distance from a center of the piston in a thickness direction to a center of gravity of the compressor unit. I represents a moment of inertia around a center axis of the compressor unit passing through the center of gravity of the compressor unit. L represents a distance from an axis of an inlet pipe of the accumulator to the center of gravity of the compressor unit, and P represents a refrigeration apparatus rated capacity.