DETERIORATION ESTIMATION DEVICE

Organization Name

toyota jidosha kabushiki kaisha

Inventor(s)

Akihiro Asano of Toyota-shi (JP)

DETERIORATION ESTIMATION DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240191651 titled 'DETERIORATION ESTIMATION DEVICE

Simplified Explanation

The patent application describes a method for monitoring the stress on a compressor impeller in a control device by calculating damage values based on small and middle section averages and amplitudes.

• Acquires stress of the compressor impeller every control cycle
• Calculates small section average value and amplitude
• Calculates middle section average value and amplitude
• Determines first and second damage values based on these calculations
• Estimates the deterioration degree of the compressor impeller based on the integrated damage values

Key Features and Innovation

• Continuous monitoring of compressor impeller stress
• Calculation of damage values for predictive maintenance
• Integration of small and middle section data for accurate deterioration estimation

Potential Applications

This technology can be applied in various industries where compressors are used, such as HVAC systems, refrigeration units, and industrial machinery.

Problems Solved

• Early detection of compressor impeller deterioration
• Preventive maintenance to avoid unexpected breakdowns
• Improved efficiency and longevity of compressor systems

Benefits

• Cost savings through predictive maintenance
• Increased reliability of compressor systems
• Enhanced safety by preventing catastrophic failures

Commercial Applications

• Predictive maintenance services for industrial equipment manufacturers
• Monitoring systems for HVAC companies
• Software solutions for compressor maintenance companies

Prior Art

Prior research on compressor impeller stress monitoring and predictive maintenance methods can be found in academic journals and patents related to condition monitoring systems.

Frequently Updated Research

Stay updated on the latest advancements in predictive maintenance technologies and stress monitoring techniques for compressor systems to enhance the efficiency and reliability of industrial equipment.

Questions about Compressor Impeller Stress Monitoring

How does this technology improve the maintenance of compressor systems?

This technology allows for early detection of potential issues in compressor impellers, enabling proactive maintenance to prevent costly breakdowns.

What are the potential cost savings associated with using this monitoring method?

By implementing this monitoring method, companies can save on repair costs, downtime, and energy consumption by addressing compressor issues before they escalate.

Original Abstract Submitted

in the processing circuit of the control device, the stress of the compressor impeller is acquired every predetermined control cycle. setting a small section, and calculating a small section average value and a small section amplitude are repeatedly executed. setting a middle section, and calculating a middle section average value and a middle section amplitude are repeatedly executed. the first damage value is calculated based on the small section average value and the small section amplitude. the second damage value is calculated based on the middle section average value and the middle section amplitude. an estimated value of the deterioration degree of the compressor impeller is calculated based on the integrated value of the first damage value and the second damage value.