Ultrasonic Cleaner(200w) - List of Manufacturers, Suppliers, Companies and Products

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
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Ultrasonic Cleaner Product List

16~30 item / All 32 items

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Manufacturing technology for ultrasonic probes (oscillating type, measuring type, resonant type, nonlinear type)

Manufacturing technology for ultrasonic probes (oscillating type, measuring type, resonant type, nonlinear type)

Technology to control low-frequency resonance phenomena and high-frequency nonlinear phenomena.

The Ultrasonic System Research Institute has developed technology to manufacture ultrasonic probes that can control ultrasonic propagation states from 500 Hz to over 500 MHz, tailored to specific applications. Ultrasonic Probe: Overview Specifications Measurement Range: 0.01 Hz to 200 MHz Oscillation Range: 1.0 kHz to 25 MHz Propagation Range: 0.5 kHz to over 900 MHz (confirmed through acoustic pressure data analysis) Materials: Stainless steel, LCP resin, silicon, Teflon, glass, etc. Oscillation Equipment: Example - Function Generator By understanding the acoustic properties of metals, resins, glass, etc., and through oscillation control, we achieve propagation states tailored to specific purposes regarding acoustic pressure levels, frequencies, and dynamic characteristics. This is a new foundational technology for precision cleaning, processing, stirring, and inspection based on measurement, analysis, and evaluation techniques for ultrasonic propagation states. By utilizing the acoustic properties of various materials, ultrasonic stimulation can be controlled for structures and machine tools weighing several tons, even in a 3000-liter water tank, with ultrasonic output below 20 W. It was developed as an application method for nonlinear phenomena through an engineering (experimental and technical) perspective on elastic waves and an abstract algebraic ultrasonic model.

  • others
  • Other measuring instruments
  • Water Treatment

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Megahertz ultrasonic cleaner (acoustic flow control technology)

Megahertz ultrasonic cleaner (acoustic flow control technology)

Technology for controlling nonlinear phenomena of ultrasound (acoustic flow)

The Ultrasonic System Research Institute has developed ultrasonic cleaning technology that enables control of acoustic flow (ultrasonic propagation state) in the range of 1-100 MHz by utilizing a megahertz ultrasonic oscillation control probe for ultrasonic cleaners. This is a new application technology for precision cleaning, processing, and stirring based on the measurement, analysis, evaluation, and technology of ultrasonic propagation states. By utilizing the acoustic properties (surface elastic waves) of various materials, ultrasonic stimulation can be controlled even in a 1000-liter water tank with an ultrasonic output of less than 20W. It was developed as an application method for nonlinear phenomena through an engineering (experimental and technical) perspective on elastic waves and an abstract algebraic ultrasonic model. The key point is the use of tools (elastic bodies: metals, glass, plastics). By confirming the propagation characteristics of ultrasonic waves based on the conditions of the target object, it is important to address it as an original nonlinear resonance phenomenon. We believe that this technology can be applied in various fields and are implementing proposals in various consulting services.

  • Scientific Calculation and Simulation Software
  • others
  • Non-destructive testing

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Megahertz ultrasonic cleaner (consulting support for utilization technology)

Megahertz ultrasonic cleaner (consulting support for utilization technology)

Sound flow control technology

The Ultrasonic System Research Institute has developed ultrasonic cleaning technology that enables control of acoustic flow (ultrasonic propagation state) from 1 to 100 MHz by utilizing a megahertz ultrasonic oscillation control probe in relation to ultrasonic cleaners. This is a new application technology for precision cleaning, processing, and stirring based on the measurement, analysis, evaluation, and technology of ultrasonic propagation states. By utilizing the acoustic properties (surface elastic waves) of various materials, ultrasonic stimulation to the target object can be controlled even in a 1000-liter tank with ultrasonic output below 20W. It was developed as an application method for nonlinear phenomena through an engineering (experimental and technical) perspective on elastic wave phenomena and an abstract algebraic model of ultrasound. The key point is the use of tools (elastic bodies: metal, glass, resin). By confirming the propagation characteristics of ultrasound depending on the conditions of the target object, it is important to address it as an original nonlinear resonance phenomenon (Note 1). Note 1: Original Nonlinear Resonance Phenomenon This phenomenon occurs due to the generation of harmonics resulting from original oscillation control, which is realized at high amplitudes through resonance phenomena, leading to ultrasonic vibration resonance.

  • Other measuring instruments
  • Water Treatment
  • others

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Manufacturing technology for ultrasonic probes based on the classification of ultrasonic propagation phenomena.

Manufacturing technology for ultrasonic probes based on the classification of ultrasonic propagation phenomena.

- Development of manufacturing technology for ultrasonic probes that can control ultrasonic propagation conditions above 900 MHz -

The Ultrasonic System Research Institute has developed manufacturing technology for ultrasonic probes that can control ultrasonic propagation states above 900 MHz, based on the classification of ultrasonic propagation phenomena. We can manufacture and develop original ultrasonic oscillation control probes tailored to specific purposes. The key point is to confirm the ultrasonic propagation characteristics of the ultrasonic probes. The response characteristics to dynamic changes in ultrasonic waves are the most important. This characteristic determines the range of possible harmonic generation. Currently, we can manufacture for the following range: Ultrasonic Probe: Overview Specifications - Measurement Range: 0.01 Hz to 200 MHz - Oscillation Range: 1.0 kHz to 25 MHz - Propagation Range: 0.5 kHz to over 900 MHz (confirmation of sound pressure data analysis) - Materials: Stainless steel, LCP resin, silicone, Teflon, glass, etc. - Oscillation Equipment: Example - Function Generator By understanding (measuring, analyzing, evaluating) the acoustic characteristics based on materials, shapes, and structures, we realize the desired ultrasonic propagation states. We offer consulting services for this technology. If you are interested, please contact us via email.

  • Analysis and prediction system
  • others
  • Vibration and Sound Level Meter

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Custom-made support for ultrasonic oscillation control probes.

Custom-made support for ultrasonic oscillation control probes.

Ultrasonic probe capable of controlling ultrasonic propagation conditions above 900 MHz.

The Ultrasonic System Research Institute offers custom-made ultrasonic probes capable of controlling ultrasonic propagation states above 900 MHz. We manufacture and develop original ultrasonic oscillation control probes tailored to your objectives. Ultrasonic Probe: General Specifications - Measurement Range: 0.01 Hz to 200 MHz - Oscillation Range: 0.5 kHz to 25 MHz - Propagation Range: 0.5 kHz to over 900 MHz (confirmed and evaluated through analysis) - Materials: Stainless steel, LCP resin, silicone, Teflon, glass, etc. - Oscillation Equipment: Example - Function Generator By understanding the acoustic properties of metals, resins, glass, etc., we achieve propagation states tailored to your needs regarding sound pressure level, frequency, and dynamic characteristics through oscillation control. This is a new foundational technology for precision cleaning, processing, stirring, inspection, etc., based on measurement, analysis, and evaluation techniques for ultrasonic propagation states. By utilizing the acoustic properties (surface elastic waves) of various materials (such as glass containers), ultrasonic stimulation to structures and machine tools weighing several tons can be controlled with ultrasonic output below 20 W, even in a 5000-liter water tank.

  • Other analytical equipment
  • Non-destructive testing
  • others

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Ultrasonic probe sweep oscillation control technology

Ultrasonic probe sweep oscillation control technology

Development technology of original ultrasonic systems - technology to control nonlinear phenomena of ultrasound -

The Ultrasonic System Research Institute has developed a technology for controlling the propagation of ultrasound through sweep oscillation using ultrasonic probes. Based on the propagation characteristics of the ultrasonic oscillation control probes, we set the conditions for sweep oscillation for each ultrasonic probe according to the intended use and interaction. By considering the vibration modes of the target objects, devices, tanks, and tools, it becomes possible to control low-frequency resonance phenomena through sweep oscillation conditions tailored to the system's vibration system. Even with an output of around 30W, it is possible to control the propagation of high sound pressure and frequency ultrasonic vibrations in tanks of 3000-5000 liters. <<Specific Example>> As a dynamic change, simultaneously with low-frequency resonance phenomena, the sweep oscillation conditions of the ultrasonic probe at 1-10 MHz enable the generation of 10th, 30th, 100th... harmonics, which can be applied to precision cleaning and nano-level dispersion. The key point is to analyze and evaluate the dynamic vibration characteristics of the system based on the measurement and analysis of sound pressure data. Propagation characteristics of ultrasound: 1) Vibration modes 2) Nonlinear phenomena 3) Response characteristics 4) Interactions

  • Vibration and Sound Level Meter
  • Non-destructive testing
  • others

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Technology for adding megahertz ultrasound to ultrasonic cleaners.

Technology for adding megahertz ultrasound to ultrasonic cleaners.

Original ultrasonic probe for megahertz ultrasonic sweep oscillation and pulse oscillation system.

The Ultrasonic System Research Institute (Location: Hachioji City, Tokyo) has developed ultrasonic oscillation control technology that enables the use of ultrasonic propagation states above 900 MHz with oscillation below 20 MHz by utilizing a function generator and an original ultrasonic oscillation probe in relation to ultrasonic cleaners. This is a new application technology for precision cleaning, processing, and stirring based on the measurement, analysis, evaluation, and technology of ultrasonic propagation states. By utilizing the acoustic properties (surface elastic waves) of various materials, ultrasonic stimulation to the target object can be controlled with an ultrasonic output of less than 20W, even in a 5000-liter water tank. It was developed as an application method for nonlinear phenomena through an engineering (experimental and technical) perspective on elastic waves and an abstract algebraic ultrasonic model. Ultrasonic Probe: Outline Specifications - Measurement Range: 0.01 Hz to 200 MHz - Oscillation Range: 1.0 kHz to 25 MHz - Propagation Range: 0.5 kHz to over 900 MHz (confirmation of acoustic pressure data analysis) - Material: Stainless steel, LCP resin, silicon, Teflon, glass, etc. - Oscillation Equipment: Example - Function Generator - Measurement Equipment: Example - Oscilloscope

  • Scientific Calculation and Simulation Software
  • Non-destructive testing
  • others

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Original ultrasonic probe for a megahertz ultrasonic system.

Original ultrasonic probe for a megahertz ultrasonic system.

Application of megahertz ultrasonic oscillation control technology

The Ultrasonic System Research Institute has developed ultrasonic system technology that enables control of ultrasonic propagation states from 1 to 100 MHz by utilizing a megahertz ultrasonic oscillation control probe for ultrasonic equipment. This is a new application technology based on the measurement, analysis, evaluation, and techniques of ultrasonic propagation states, applicable to precision cleaning, processing, stirring, welding, plating, and more. By utilizing the acoustic properties (surface elastic waves) of various materials, ultrasonic stimulation of several tons of objects can be controlled with an ultrasonic output of less than 20W, even in a 1000-liter water tank. It was developed as an application method for nonlinear phenomena through an engineering (experimental and technical) perspective on elastic wave phenomena and an abstract algebraic ultrasonic model. The key point is the use of tools (elastic bodies: metal, glass, resin). By confirming the ultrasonic propagation characteristics depending on the conditions of the target object, it is important to address it as an original nonlinear resonance phenomenon (Note 1). Note 1: Original Nonlinear Resonance Phenomenon This occurs due to the generation of harmonics resulting from original oscillation control, which is realized at high amplitudes through resonance phenomena, leading to the resonance phenomenon of ultrasonic vibrations.

  • Scientific Calculation and Simulation Software
  • Other analytical equipment
  • others

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A system that controls the emission of two types of ultrasonic probes from a single channel.

A system that controls the emission of two types of ultrasonic probes from a single channel.

Technology for controlling nonlinear phenomena of ultrasound.

The Ultrasonic System Research Institute has developed a technology to control nonlinear ultrasonic phenomena by utilizing the interactions generated from simultaneously oscillating two types of ultrasonic probes from one oscillation channel of a function generator. (Note: Nonlinear (resonance) phenomena refer to the resonance phenomenon of ultrasonic vibrations that occurs due to the generation of harmonics resulting from original oscillation control, achieving high amplitudes through resonance.) By optimizing the ultrasonic propagation characteristics of various materials to suit specific purposes, efficient ultrasonic oscillation control becomes possible. Through the measurement and analysis of sound pressure data from ultrasonic testers, this system technology allows for the dynamic changes of surface elastic waves to be controlled according to their intended use. In practical terms, the use of multiple (two types of) ultrasonic probes for multiple (two types of) oscillations (sweep oscillation, pulse oscillation) generates complex vibration phenomena (original nonlinear resonance phenomena), achieving high sound pressure propagation states at high frequencies, or low frequency propagation states with high sound pressure levels tailored to the desired natural frequency.

  • Non-destructive testing
  • Vibration and Sound Level Meter
  • others

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Technology that utilizes (optimizes) multiple different frequency "ultrasonic transducers."

Technology that utilizes (optimizes) multiple different frequency "ultrasonic transducers."

Based on sound pressure measurement analysis, ultrasonic optimization technology allows for the efficient and stable use of ultrasound tailored to specific purposes.

The Ultrasonic System Research Institute has developed a technology that utilizes "ultrasonic transducers" of multiple different frequencies. This technology, in addition to standing wave control technology, adjusts the output of each ultrasonic transducer to vary the nonlinear effects of cavitation and acceleration according to specific purposes. By using ultrasonic transducers with a frequency of 40 kHz and an output of 50-600 W, it is possible to disperse a 1-millimeter diameter metal tube into a 1-micron state, as well as to clean it without causing damage. Through original measurement and analysis technology for ultrasonic propagation states, we are confirming various ultrasonic utilization technologies tailored to the unique characteristics of the transducers. This is a new ultrasonic technology that, including the general effects of ultrasonic dynamic characteristics, can be utilized and developed as a distinctive operational technology for the development of new materials, stirring, dispersion, cleaning, chemical reaction experiments, and more. Ultrasonic propagation characteristics: 1) Vibration modes (changes in self-correlation) 2) Nonlinear phenomena (changes in bispectrum) 3) Response characteristics (analysis of impulse response) 4) Interactions (analysis of power contribution rates)

  • pump

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Technology for using ultrasonic cleaners through sweep oscillation.

Technology for using ultrasonic cleaners through sweep oscillation.

- Technology combining sweep oscillation with ultrasonic probes and ultrasonic cleaners -

The Ultrasonic System Research Institute has developed ultrasonic oscillation control technology that enables the utilization of ultrasonic propagation states above 100 MHz by applying a function generator and ultrasonic probe to ultrasonic cleaners. This is a new application technology based on the measurement, analysis, evaluation, and techniques of ultrasonic propagation states, aimed at precision cleaning, processing, and stirring. By utilizing the acoustic properties (surface elastic waves) of various materials, it is possible to control ultrasonic stimulation above 100 MHz to the target object with an ultrasonic output of less than 20 W, even in a 1000-liter water tank. This was developed as an application method for nonlinear phenomena through an engineering (experimental and technical) perspective on elastic waves and an abstract algebraic model of ultrasound. The key point is to confirm the ultrasonic propagation characteristics of the target object, which is important for setting the oscillation conditions of the ultrasonic oscillation control probe as an optimization of the system's vibration modes related to sweep oscillation and pulse oscillation, serving as a control method for the original nonlinear resonance phenomenon.

  • Scientific Calculation and Simulation Software
  • Other measuring instruments
  • others

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Nonlinear oscillation control technology for ultrasonic probes based on sound pressure measurement analysis.

Nonlinear oscillation control technology for ultrasonic probes based on sound pressure measurement analysis.

Ultrasonic oscillation and control technology based on measurement and analysis using an ultrasonic tester.

The Ultrasonic System Research Institute has developed a technology to control nonlinear ultrasonic phenomena by utilizing the interactions generated from simultaneously oscillating two types of ultrasonic probes from one oscillation channel of a function generator. Note: Nonlinear (resonance) phenomena refer to the resonance phenomenon that occurs when the generation of harmonics produced by original oscillation control is realized at high amplitudes, resulting in ultrasonic vibration resonance. By optimizing the ultrasonic propagation characteristics of various materials according to their intended purpose, efficient ultrasonic oscillation control becomes possible. Through the measurement and analysis of sound pressure data from ultrasonic testers, this system technology allows for the dynamic changes of surface elastic waves to be controlled according to their intended use. In practical terms, multiple (two types of) ultrasonic probes generate multiple (two types of) oscillations (sweep oscillation, pulse oscillation), which create complex vibration phenomena (original nonlinear resonance phenomena), achieving high sound pressure at high frequency propagation states, or achieving low frequency propagation states with high sound pressure levels tailored to the desired natural frequency.

  • Scientific Calculation and Simulation Software
  • Non-destructive testing
  • others

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Manufacturing technology for custom-made ultrasonic oscillation control probes (characteristic testing)

Manufacturing technology for custom-made ultrasonic oscillation control probes (characteristic testing)

Acoustic property test using ultrasound

The Ultrasonic System Research Institute offers custom-made ultrasonic probes that can control ultrasonic propagation states from 500 Hz to 900 MHz. We manufacture and develop original ultrasonic oscillation control probes tailored to specific purposes. The key point is the operational confirmation of the original probes. The responsiveness to dynamic changes in ultrasonic transmission and reception is the most important factor. This characteristic determines the range of applications for harmonics. Currently, we can accommodate the following ranges: Ultrasonic Probe: Outline Specifications Measurement Range: 0.01 Hz to 100 MHz Oscillation Range: 1 kHz to 25 MHz Propagation Range: 1 kHz to over 900 MHz Materials: Stainless steel, LCP resin, silicone, Teflon, glass, etc. Oscillation Equipment: Example - Function Generator By understanding the acoustic properties of metals, resins, glass, etc., we achieve propagation states tailored to specific purposes regarding sound pressure levels, frequencies, and dynamic characteristics through oscillation control. This is a new foundational technology for precision cleaning, processing, stirring, inspection, etc., based on measurement, analysis, and evaluation techniques for ultrasonic propagation states.

  • Other measuring instruments
  • Non-destructive testing
  • others

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Megahertz ultrasonic system (application of ultrasonic oscillation control technology)

Megahertz ultrasonic system (application of ultrasonic oscillation control technology)

"Ultrasonic system" technology that enables control of ultrasonic propagation conditions in the 1-900 MHz range.

The Ultrasonic System Research Institute has developed ultrasonic system technology that enables control of ultrasonic propagation states from 1 to 900 MHz by utilizing a megahertz ultrasonic oscillation control probe for ultrasonic equipment. This is a new application technology for precision cleaning, processing, stirring, welding, and plating, based on the measurement, analysis, evaluation, and technology of ultrasonic propagation states. By utilizing the acoustic properties (surface elastic waves) of various materials, ultrasonic stimulation can be controlled for several tons of objects even in a 1000-liter water tank with an ultrasonic output of less than 20W. It was developed as an application method for nonlinear phenomena through an engineering (experimental and technical) perspective on elastic wave phenomena and an abstract algebraic ultrasonic model. The key point is the use of tools (elastic bodies: metal, glass, resin). By confirming the ultrasonic propagation characteristics based on the conditions of the target object, it is important to address it as an original nonlinear resonance phenomenon (Note 1). Note 1: Original Nonlinear Resonance Phenomenon This occurs when the generation of harmonics caused by original oscillation control is realized at high amplitudes through resonance phenomena, resulting in ultrasonic vibration resonance phenomena.

  • Scientific Calculation and Simulation Software
  • Other measuring instruments
  • others

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Megahertz ultrasonic system (cleaning, stirring, processing, surface treatment, etc.)

Megahertz ultrasonic system (cleaning, stirring, processing, surface treatment, etc.)

Application of sweep oscillation control technology to control nonlinear phenomena of ultrasound.

The Ultrasonic System Research Institute has developed ultrasonic system technology that enables control of ultrasonic propagation states above 1-700 MHz by utilizing a megahertz ultrasonic oscillation control probe for ultrasonic equipment. This is a new application technology based on the measurement, analysis, evaluation, and techniques of ultrasonic propagation states, applicable to precision cleaning, processing, stirring, welding, plating, and more. By utilizing the acoustic properties (surface elastic waves) of various materials, ultrasonic stimulation can be controlled for several tons of target objects even in a 1000-liter water tank with ultrasonic output below 20W. It was developed as an application method for nonlinear phenomena through an engineering (experimental and technical) perspective on elastic wave phenomena and an abstract algebraic ultrasonic model. The key point is the use of tools (elastic bodies: metal, glass, resin). By confirming the ultrasonic propagation characteristics depending on the conditions of the target object, it is important to address it as an original nonlinear resonance phenomenon (Note 1). Note 1: Original Nonlinear Resonance Phenomenon This phenomenon occurs due to the generation of harmonics resulting from original oscillation control, realized at high amplitudes through resonance phenomena, leading to ultrasonic vibration resonance phenomena.

  • Other measuring instruments
  • Non-destructive testing
  • others

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