Cleaning Machine Product List and Ranking from 262 Manufacturers, Suppliers and Companies

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.

Company：超音波システム研究所
Price：Other

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Water Treatment

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Ultrasonic technology for homogenization and fluidity improvement of liquids (especially solvents).

- Application of nanolevel stirring, emulsification, dispersion, and grinding technology to control nonlinear ultrasonic phenomena (acoustic flow) -

- Technology for controlling nonlinear ultrasonic phenomena for nano-level stirring, emulsification, dispersion, and grinding - Ultrasonic Treatment 1: "Nanonization of Powders" Ultrasonic Treatment 2: "Homogenization of Liquids and Improvement of Fluidity" The Ultrasonic System Research Institute has developed a technology for "homogenizing liquids and improving fluidity using ultrasonic technology," utilizing the "technology for controlling nonlinear ultrasonic phenomena (acoustic flow)." This technology controls ultrasonic (cavitation and acoustic flow) by utilizing (evaluating) the ultrasonic propagation characteristics (analysis results) of indirect containers, ultrasonic tanks, and other items through surface inspection. Furthermore, it realizes effective ultrasonic (cavitation and acoustic flow) propagation states tailored to the structure, material, and acoustic characteristics of specific target objects, in accordance with the interactions between glass containers, ultrasonic waves, and target objects, through the control of ultrasonic oscillation. In particular, the dynamic characteristics of harmonics achieved through acoustic flow control enable responses at the nano level. Ultrasonic Propagation Characteristics: 1) Vibration Modes (Self-Correlation) 2) Nonlinear Phenomena (Bicoherence) 3) Response Characteristics (Impulse Response) 4) Interactions (Power Contribution Rate)

Company：超音波システム研究所
Price：Other

others
Water Treatment
pump

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Development and manufacturing technology of ultrasonic propagation tools based on the control of surface acoustic wave propagation.

We provide consulting services for the development methods of ultrasonic propagation tools tailored to various usage purposes. --Application of sound pressure measurement and analysis technology--

The Ultrasonic System Research Institute has developed manufacturing technology for ultrasonic probes that can control ultrasonic propagation states from 500 Hz to over 900 MHz, and has created new ultrasonic propagation tools. This technology is available for consulting. Ultrasonic Probe: Outline 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 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 can achieve propagation states tailored to specific purposes regarding sound pressure level, frequency, and dynamic characteristics through oscillation control. 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 (surface elastic waves) of various materials (such as glass containers), 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.

Company：超音波システム研究所
Price：Other

Water Treatment
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others

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Ultrasonic oscillation control technology that combines multiple sweep oscillations.

Control technology for nonlinear ultrasonic sweep oscillation based on the classification of ultrasonic propagation phenomena.

The Ultrasonic System Research Institute has developed a classification method for the phenomenon of ultrasonic vibrations propagation. Based on this classification, we have developed a nonlinear sweep oscillation control technology for ultrasound using a nonlinear resonant ultrasonic oscillation probe. This ultrasonic sweep oscillation control technology method controls the linear and nonlinear resonance effects according to the main frequency (power spectrum) of the dynamic characteristics (changes in nonlinear phenomena) related to the propagation state of the ultrasound. From previous experiments and data measurement analyses, we have been able to classify effective utilization methods into the following four recommended controls: 1: Two types of sweep oscillation control (linear type) 2: Three types of sweep oscillation control (nonlinear type) 3: Four types of sweep oscillation control (mixed type) 4: Dynamic control (variable type) based on the combinations above Furthermore, the variable type can be classified into the following three control types based on the sweep oscillation conditions: 1: Linear variable control type 2: Nonlinear variable control type 3: Mixed variable control type (dynamic variable type)

Company：超音波システム研究所
Price：Other

pump
Non-destructive testing
Other measuring instruments

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Ultrasonic propagation control technology using titanium straws.

Application technology of <measurement, analysis, and control> using ultrasonic testers.

The Ultrasonic System Research Institute has developed "ultrasonic propagation control technology" using titanium straws based on the classification of cavitation and acoustic flow. This system technology controls changes in acoustic flow according to its intended use by analyzing the complex variations of flow, ultrasound, and fine bubbles through sound pressure measurement analysis that includes various interactions. Practically, it is a method to optimize ON/OFF control (or control of flow rate, flow velocity, etc.) for a degassing fine bubble generation liquid circulation device for showers against various interactions and vibration modes. In particular, by controlling the acoustic characteristics of titanium straws and the oscillation control of megahertz ultrasound, it achieves the effects of a new dynamic ultrasonic control technology by controlling the original nonlinear resonance phenomenon (Note 1). Note 1: Original Nonlinear Resonance Phenomenon This phenomenon occurs when the generation of harmonics caused by original oscillation control is realized at high amplitudes through resonance phenomena, resulting in ultrasonic vibration resonance. Ultrasonic propagation characteristics: 1) Vibration modes 2) Nonlinear phenomena 3) Response characteristics 4) Interactions

Company：超音波システム研究所
Price：Other

Other measuring instruments
Non-destructive testing
others

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Development technology for ultrasonic propagation control systems for various solvents.

Development of an ultrasonic probe utilizing the acoustic properties of Teflon rods (with iron cores).

The Ultrasonic System Research Institute has developed an ultrasonic oscillation control system for various solvents (such as hydrofluoric acid and hydrochloric acid) using Teflon (PTFE). By confirming the basic acoustic properties (response characteristics, propagation characteristics) of Teflon rods (with iron cores), it enables the desired ultrasonic propagation state through oscillation control (output, waveform, oscillation frequency, variations, etc.). Specifically, using two types of ultrasonic oscillation control probes, we set oscillation conditions based on measurements and analyses of the intended purpose and interactions, combining sweep oscillation and pulse oscillation. In particular, to control low-frequency resonance phenomena, we utilize high-frequency nonlinear phenomena. Therefore, sound pressure measurements require a measurement range of over 100 MHz. The key point is to evaluate the dynamic vibration characteristics of the system based on the measurement and analysis of sound pressure data. We are establishing and confirming new evaluation criteria (parameters) that indicate the appropriate state of ultrasound for the intended purpose. Note: - Nonlinear characteristics (dynamic characteristics of harmonics) - Response characteristics - Fluctuation characteristics - Effects due to interactions

Company：超音波システム研究所
Price：Other

pump
Analysis and prediction system
others

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Ultrasonic Oscillation Control System (Ultrasonic System Research Institute)

Technology for Controlling Nonlinear Phenomena of Ultrasound

The Ultrasonic System Research Institute has developed a technology to control the nonlinear phenomena of surface elastic waves (ultrasonic vibrations) that propagate through the target object, using an original ultrasonic system (sound pressure measurement analysis, oscillation control). << Technology to Control Nonlinear Phenomena of Ultrasound >> 1) A control setting technology that adjusts the oscillation output, waveform, and variations of the oscillation control using a function generator to match the acoustic characteristics of the target object. 2) Manufacturing technology for ultrasonic oscillation control probes that enable control of changes in ultrasonic oscillation voltage, including adjustments to the oscillation surface. 3) Manufacturing technology for ultrasonic measurement probes that make it possible to measure changes in ultrasonic vibrations at 100 megahertz, including adjustments to the oscillation surface. 4) Optimization technology for sweep oscillation conditions. Using the above technologies, we control (optimize) the propagation state of ultrasound according to the intended purpose. Note: Based on the analysis and evaluation of sound pressure data related to nonlinear phenomena concerning the interaction between the acoustic characteristics of the target object and ultrasonic oscillation control, we perform dynamic control of ultrasound (measurements, analysis, confirmation, and evaluation of sound pressure are conducted using an ultrasonic tester).

Company：超音波システム研究所
Price：Other

Non-destructive testing
Vibration and Sound Level Meter
others

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Ultrasonic control technology using indirect containers

Technology for controlling nonlinear phenomena of ultrasound.

The Ultrasonic System Research Institute has developed a technology for controlling "nonlinear phenomena of ultrasound (acoustic flow)" using indirect containers. This technology utilizes (evaluates) the ultrasonic propagation characteristics (analysis results) of indirect containers, ultrasonic water tanks, and other items to control ultrasound (cavitation and acoustic flow). Furthermore, it realizes effective ultrasonic (cavitation and acoustic flow) propagation states tailored to the structure, material, and acoustic characteristics of specific target objects, by controlling the oscillation of ultrasound in accordance with the interactions between glass containers, ultrasound, and target objects. In particular, the dynamic characteristics of harmonics through acoustic flow control enable responses at the nanoscale. This has been applied and developed from examples of dispersing metal powders to nanosize. By employing control technologies for standing waves and cavitation in relation to ultrasound, as well as propagation control technologies for indirect containers, we can appropriately control cavitation and acoustic flow. Through original measurement and analysis techniques for ultrasonic propagation states, we have confirmed the evaluation of acoustic flow and numerous know-how.

Company：超音波システム研究所
Price：Other

Scientific Calculation and Simulation Software
Analysis and prediction system
others

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Utilization technology of rechargeable ultrasonic cleaner (50 kHz 10W)

Application of ultrasonic sound pressure measurement, analysis, and evaluation technology.

The Ultrasonic System Research Institute publishes experimental videos on ultrasonic utilization (control of acoustic flow) technology using rechargeable ultrasonic cleaners (50 kHz, 10 W) and tools (plastic containers, glass containers, stainless steel containers, etc.). Changes in ultrasonic propagation conditions are measured and analyzed with an ultrasonic tester. Sound pressure measurement device: Features of the ultrasonic tester (for the 100 MHz type) - Measurement (analysis) frequency range: Specification 0.1 Hz to 100 MHz - Ultrasonic oscillation: Specification 1 Hz to 1 MHz - Capable of measuring surface vibrations - Continuous measurement for 24 hours is possible - Simultaneous measurement of any two points - Measurement results displayed in graphs - Software for time-series data analysis included This is an oscillation, measurement, and analysis system using ultrasonic probes. For the measured data, we detect various acoustic characteristics considering position and state along with elastic wave propagation, and apply (control) them according to the purpose.

Company：超音波システム研究所
Price：Other

Other measuring instruments
Non-destructive testing
others

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Ultrasonic propagation control based on technology for measuring and analyzing various interactions of ultrasound.

Nonlinear propagation control technology considering the interaction of ultrasound - Optimization technology for ultrasound -

The Ultrasonic System Research Institute has developed "nonlinear ultrasonic propagation control technology" that takes into account the acoustic characteristics of ultrasonic systems (measuring and analyzing ultrasonic interactions) through the manufacturing technology of sound pressure measurement analysis devices (ultrasonic testers) and megahertz ultrasonic oscillation control probes. With the technology developed this time, it has become possible to achieve dynamic control of ultrasound tailored to specific purposes, based on the measurement and analysis of various interactions involving the target objects, ultrasonic equipment, and tools, through "ultrasonic oscillation (oscillators, transducers, etc.)." Note: Autocorrelation, bispectrum, power contribution rate, impulse response. In particular, by detecting and confirming the interactions between ultrasound and target objects concerning harmonics, effective control for cleaning complex shapes and precision parts (liquid circulation, tools, methods of securing cleaning objects, etc.) becomes clear. Therefore, appropriate selection of ultrasonic frequencies and combinations of transducers with different ultrasonic frequencies can be determined based on the target objects. This is an effective ultrasonic utilization technology tailored to specific purposes for processing, cleaning, surface modification, and promoting chemical reactions.

Company：超音波システム研究所
Price：Other

Other measuring instruments
Scientific Calculation and Simulation Software
others

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Online Seminar: Ultrasonic Cleaning - Target: Only one company -

Let's take this opportunity to learn ultrasonic cleaning, which enables the removal of complex shapes and fine dirt, from scratch!

The Ultrasonic System Research Institute will conduct an ultrasonic seminar as follows: While confirming actual cases through videos, let's deepen our understanding of the basics of ultrasonic cleaning and the cleaning (surface treatment) of new materials and new processing! Instructor: Kazuyuki Saiki Representative, Ultrasonic System Research Institute Mechanical Engineering, System Technology Date: [Month] [Day], 2024, 13:00 - 16:00 Target: Only one company Tuition Fee: 33,000 yen (including tax), which includes the cost of materials. Venue: Online course Online conditions and number of participants to be discussed separately. Regarding the content We will propose themes, cleaning levels, and technical content tailored to your needs.

Company：超音波システム研究所
Price：10,000 yen-100,000 yen

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Scientific Calculation and Simulation Software

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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.

Company：超音波システム研究所
Price：Other

Scientific Calculation and Simulation Software
Other analytical equipment
others

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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.

Company：超音波システム研究所
Price：Other

Analysis and prediction system
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Vibration and Sound Level Meter

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Improvement of the ultrasonic cleaning machine (Field support for the addition of fine bubble generation system)

Application of technology to analyze and evaluate the dynamic characteristics of ultrasound.

The Ultrasonic System Research Institute has developed a method (system) for the analysis and evaluation of ultrasound, applying "measurement, analysis, and control" technology related to the nonlinearity of ultrasound. We are providing on-site support for the additional installation of a degassing fine bubble generation liquid circulation system utilizing this technology. To utilize (control) the complex and changing conditions of ultrasound in a stable manner, we offer on-site services to add and confirm sound pressure measurements for the degassing fine bubble generation liquid circulation system in specific tanks present at the site. **Explanation of Degassing Fine Bubble Generation Liquid Circulation Technology** By ensuring appropriate liquid circulation and the diffusibility of fine bubbles, a uniform state of cleaning liquid is achieved. Ultrasound propagates through the uniform liquid, generating a stable state of ultrasound. From this state, liquid circulation control is performed to realize the desired ultrasonic effects (propagation state). This involves achieving a uniform sound pressure distribution throughout the tank, optimizing ultrasound, liquid circulation pumps, fine bubbles, etc. The operational control becomes the know-how for individual tanks.

Company：超音波システム研究所
Price：Other

Other measuring instruments
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Small pump and ultrasonic control technology using an ultrasonic probe.

Development of "Control Technology for Nonlinear Phenomena" Using a Small Pump

The Ultrasonic System Research Institute has developed "ultrasonic control technology" that dynamically controls nonlinear phenomena related to ultrasonic propagation by utilizing a small pump for liquid circulation. Nonlinear phenomena are evaluated through analysis using an ultrasonic tester. The complex changes in ultrasound (such as ultrasonic cleaners, ultrasonic probes, etc.) are confirmed through time-series data analysis of sound pressure from ultrasonic oscillation and reception, identifying various interactions. Based on the confirmation of these interactions, the oscillation control conditions using ultrasonic probes are optimized, achieving a dynamic ultrasonic control system tailored to specific objectives. In practical applications, such as ultrasonic cleaning, the ON/OFF control (or control of flow rate and velocity, etc.) of the current liquid circulation device is optimized by considering the ultrasonic propagation characteristics related to the installation state of the device and the surface elastic waves of the target object, including the output, oscillation frequency, and control conditions of the ultrasound. In particular, by utilizing the vibration characteristics of the pump to alternately circulate liquid and gas, new nonlinear effects of ultrasound and microbubbles are realized.

Company：超音波システム研究所
Price：100,000 yen-500,000 yen

Scientific Calculation and Simulation Software
Vibration and Sound Level Meter
Non-destructive testing

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Cleaning Machine Product List and Ranking from 262 Manufacturers, Suppliers and Companies

Cleaning Machine Manufacturer, Suppliers and Company Rankings

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