Ultrasonic Cleaner Product List and Ranking from 44 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

Ultrasonic Cleaner Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. 超音波システム研究所 Tokyo//Service Industry
  2. 富士工業 Shizuoka//others
  3. ティー・アイ・トレーディング Tokyo//Trading company/Wholesale
  4. 4 エスエヌディ Nagano//others
  5. 5 東京超音波技研 Tokyo//others
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Ultrasonic Cleaner Product ranking

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. Ultrasonic Benchtop Viscometer "FCV-100" 富士工業
  2. Refrigeration tube cleaning machine ティー・アイ・トレーディング
  3. FS Series Ultrasonic Cleaner with Circulating Filtration System エスエヌディ
  4. Ultrasonic Liquid Viscosity Meter FUV-1 Model-104 Standard Type 富士工業
  5. 4 Ultrasonic Cleaner "Torcholler UCP Series" 東京超音波技研

Ultrasonic Cleaner Product List

76~90 item / All 186 items

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Ultrasonic Liquid Viscosity Meter FUV-1 Model-204 Explosion-Proof Type

Ultrasonic Liquid Viscosity Meter FUV-1 Model-204 Explosion-Proof Type

Explosion-proof specifications of a viscometer that accurately measures liquid viscosity in-line using ultrasonic vibrations.

This is an explosion-proof viscosity meter that can measure the viscosity of liquids with high precision in-line using ultrasonic vibrations. It features a transmitter with no moving parts and external outputs, making it suitable for in-line measurement. When a vibrating element (viscosity sensor) is placed in the liquid and vibrated, the amplitude of the sensor's vibrations is suppressed and decreases due to the viscous resistance of the liquid, which increases with the viscosity of the liquid. This device increases the input power to overcome this suppressed force using a constant amplitude circuit, and by measuring the input energy at this time, it accurately measures the liquid viscosity. For more details, please contact us or refer to the catalog.

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Ultrasonic Liquid Viscosity Meter FUV-1 Model-104 Standard Type

Ultrasonic Liquid Viscosity Meter FUV-1 Model-104 Standard Type

A viscometer that can measure liquid viscosity with high precision in-line using ultrasonic vibrations.

A viscometer without a drive unit, suitable for inline measurement. Excellent maintainability and reduced running costs. For more details, please contact us or refer to the catalog.

  • others

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Rental of the Impact Ultrasonic Sound Velocity Measurement Device UK1401

Rental of the Impact Ultrasonic Sound Velocity Measurement Device UK1401

Measure the speed of sound in the target and detect the depth of cracks caused by fissures.

For the inspection and maintenance of concrete structures, buildings, tunnels, etc. It is portable and handy, allowing for simple measurements. *For more details, please refer to the catalog available for download below. You can also request a quote through the "Contact Us" section. Feel free to reach out.*

  • Non-destructive testing

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Touchless Ultrasonic Cleaner - WTC Series

Touchless Ultrasonic Cleaner - WTC Series

You can operate the machine by holding your hand over it without touching it, using "Drive" and "Stop."

Introducing the touchless ultrasonic cleaning machines 'WTC-600-40/WTC-1200-40' handled by Nisshin Kiko Co., Ltd. Equipped with photoelectric sensors and voice guidance in the control panel, it allows for easy operation without touching the switches with wet or dirty hands, following the voice instructions. It provides stable cleaning that is less affected by variations in liquid type and liquid depth. 【Features】 ■ Utilizes photoelectric sensors and voice guidance in the control panel ■ Can start and stop without contact ■ Easy operation following voice guidance ■ Available in two models: 600W and 1200W ■ Provides stable cleaning that is less affected by variations in liquid type and liquid depth *For more details, please refer to the PDF document or feel free to contact us.

  • others

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San-Ei Giken ITS and Vehicle Development Experiment

San-Ei Giken ITS and Vehicle Development Experiment

SANEI Virtual Orbit

By using Virtual Orbit (a virtual trajectory based on mathematical formulas: 3D maps) downloaded to the vehicle via network distribution, drivers can see beyond their line of sight, which can be utilized for safety driving assistance in ITS and ADAS (Advanced Driver Assistance Systems) and for controlling CO2 emissions reduction. Additionally, it can be used for virtual test courses for vehicle development and experimentation in a short period, as well as for digitalizing the unevenness of real roads in the market into bench test data.

  • Other Software

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ITS Vehicle Development Experiment "Vehicle Development and Experiment Virtual Test Course"

ITS Vehicle Development Experiment "Vehicle Development and Experiment Virtual Test Course"

Shortening development time and reducing costs with the use of 3D maps! It is possible to have ultra-precise surface irregularities!

We propose a 3D road map for in-vehicle ECU development and bench testing using a vibration machine. This utilizes VirtualOrbit (virtual trajectory based on mathematical formulas: 3D map) and makes an innovative contribution to shortening development time and reducing costs. The greatest feature is that it can represent not only road curvature, longitudinal slope, and cross slope (cant) but also ultra-precise surface irregularities. 【Features】 ■ Utilizes VirtualOrbit (virtual trajectory based on mathematical formulas: 3D map) ■ Contributes to shortening development time and reducing costs ■ Can represent not only road curvature, longitudinal slope, and cross slope (cant) but also ultra-precise surface irregularities *For more details, please refer to the PDF document or feel free to contact us.

  • Drawing, tracing, CAD

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ITS Vehicle Development Experiment "Virtual Test Course for ECU Development and Testing"

ITS Vehicle Development Experiment "Virtual Test Course for ECU Development and Testing"

Introducing the mathematical virtual track for automotive electronic component (ECU) development and testing (HILS) applications!

San-Ei Giken conducts research and development of software, as well as contract computing services using electronic computers, and the design and manufacturing of various electronic devices. This document introduces mathematical virtual trajectories for automotive electronic component (ECU) development and testing (HILS) applications. [Contents (partial)] ■ Virtual test course for ECU development and testing ■ Driving simulation in the virtual test course ■ Used for bench testing ■ Utilized for CO2 emission reduction, power performance calculations, and various active controls ■ Overview of mobile measurement vehicle / MMS-Xv320ZL system *For more details, please refer to the PDF document or feel free to contact us.

  • Drawing, tracing, CAD

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Ultrasonic sound pressure measurement analysis (consulting support)

Ultrasonic sound pressure measurement analysis (consulting support)

Ultrasound consulting specialized in measurement and analysis of ultrasonic propagation conditions.

The Ultrasonic System Research Institute conducts consulting related to ultrasonic applications using a technology that measures, analyzes, and evaluates the propagation state of ultrasound, applying feedback analysis techniques based on multivariate autoregressive models. By organizing the measurements, analyses, and results obtained using ultrasonic testers in chronological order, we establish and confirm new evaluation criteria (parameters) that indicate the appropriate ultrasonic state for specific purposes. Note: - Nonlinear characteristics (dynamic characteristics of acoustic flow) - Response characteristics - Fluctuation characteristics - Effects due to interactions By developing original measurement and analysis methods that consider the acoustic properties of the target object and surface elastic waves, we deepen our understanding of the relationships between various effects related to vibration phenomena, drawing on the principles of statistical mathematics. As a result, there is an increasing number of cases demonstrating that new nonlinear parameters are highly effective regarding the propagation state of ultrasound and the surface of the target object. In particular, evaluation cases related to cleaning, processing, and surface treatment effects lead to successful control and improvement based on good confirmations.

  • others

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Development technology for ultrasonic systems (consulting support)

Development technology for ultrasonic systems (consulting support)

Development of an original ultrasonic system utilizing surface elastic wave control technology based on sound pressure measurement analysis.

The Ultrasonic System Research Institute has developed applied technologies that utilize surface acoustic waves through ultrasonic control. By combining ultrasound and surface acoustic waves, we achieve dynamic control of ultrasonic propagation. The key point is the ability to efficiently control nonlinear phenomena caused by surface acoustic waves. As specific technologies, we have developed system technologies that control nonlinear phenomena (bi-spectral) resulting from the interaction of ultrasound with water tanks and tools, tailored to specific purposes (cleaning, stirring, stress relief, inspection, etc.). As a result of utilizing measurement and analysis techniques for ultrasonic propagation states, we have confirmed the realization of harmonic control and the ability to adjust nonlinear phenomena. Our know-how lies in confirming and responding to the acoustic characteristics of the system (measurement, analysis, evaluation).

  • others
  • Other analytical equipment
  • Secondary steel products

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Online Individual Consulting: Ultrasonic Technology

Online Individual Consulting: Ultrasonic Technology

Consulting support from the Ultrasonic System Research Institute.

The Ultrasonic System Research Institute will conduct online individual consulting as follows: Participants: 1 company (available range for Microsoft Teams meeting) Cost: 30,000 yen (including tax 33,000 yen) Duration: 150 minutes (e.g., 9:30 AM - 12:00 PM, 1:00 PM - 3:30 PM) Schedule: To be arranged Others: 1) Please use a PC 2) Use of Zoom and Microsoft Teams meeting <Purpose of the Event> ■ Introduction We will conduct online consulting for one participating company (or within the available range for Microsoft Teams meeting). Regarding the use of ultrasound, we will provide specific know-how explanations and discussions based on experience and achievements. If you are interested, please contact us via email. We will propose consulting on your desired theme.

  • others
  • Non-destructive testing
  • Water Treatment

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Ultrasonic sound pressure measurement analysis system "Ultrasonic Tester NA"

Ultrasonic sound pressure measurement analysis system "Ultrasonic Tester NA"

We will measure, analyze, and evaluate the propagation state of ultrasound using an ultrasonic tester.

Features (for standard specifications) * Measurement (analysis) frequency range Specification: 0.1 Hz to 10 MHz * Ultrasonic oscillation Specification: 1 Hz to 100 kHz * Capable of measuring surface vibrations * Continuous measurement for 24 hours * Simultaneous measurement of any two points * Display of measurement results in graph form * Attached software for time series data analysis This is a measurement system using an ultrasonic probe. The ultrasonic probe is attached to the target object for oscillation and measurement. The measured data is analyzed considering position, state, and elastic waves, detecting various acoustic performances. Ultrasonic Probe: Outline Specifications Measurement range: 0.01 Hz to 10 MHz Oscillation range: 1 kHz to 25 MHz Propagation range: 1 kHz to over 900 MHz Materials: Stainless steel, LCP resin, silicone, Teflon, glass... Ultrasonic Propagation Characteristics 1) Detection of vibration modes (changes in self-correlation) 2) Detection of nonlinear phenomena (changes in bispectrum) 3) Detection of response characteristics (analysis of impulse response) 4) Detection of interactions (analysis of power contribution rates)

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  • Other measuring instruments
  • Non-destructive testing

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Dynamic liquid circulation system for ultrasonic cleaning machines (consulting available)

Dynamic liquid circulation system for ultrasonic cleaning machines (consulting available)

Optimization technology for ultrasonic cleaning machines

(Development of a control system based on measurement and analysis of ultrasonic cleaning machines) The Ultrasonic System Research Institute has developed a technology that applies techniques for measuring and analyzing the state of ultrasonic cleaning machines, which propagate through the liquid, to set and control the state of ultrasonic cleaning machines according to specific purposes, taking into account the effects of tank structure, strength, manufacturing conditions, and liquid circulation state. This technology analyzes and evaluates the dynamic characteristics of complex ultrasonic vibrations (Note 1) in relation to various factors, allowing for the setting of cavitation and acceleration effects according to specific objectives through the configuration of circulation pump settings (Note 2). Note 1: This utilizes the original technology of the Ultrasonic System Research Institute, which employs "ultrasonic oscillation control" technology that considers "timbre." Note 2: The know-how involves settings related to the relationships between the cleaning machine, cleaning solution, and air at their respective boundaries. It can also be applied to cleaning tanks that do not have an overflow structure. Regarding the self-organization of micro-flows, control of acoustic flow has been made possible through degassing, aeration, ultrasound, and elastic wave dynamics on the tank surface.

  • others
  • Other analytical equipment
  • pump

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Megahertz ultrasonic cleaner (consulting available)

Megahertz ultrasonic cleaner (consulting available)

Sound flow control technology

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. 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: metal, glass, resin). 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. Note 1: Original Nonlinear Resonance Phenomenon The resonance phenomenon of ultrasonic vibrations occurs when the generation of harmonics caused by original oscillation control is realized at high amplitudes through resonance phenomena. We believe that this technology can be utilized in various fields, and we are implementing proposals in various consulting services.

  • Non-destructive testing
  • others
  • Other measuring instruments

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Research and development equipment for "nanotechnology" using ultrasound.

Research and development equipment for "nanotechnology" using ultrasound.

Application of processing technologies utilizing nonlinear phenomena of ultrasound (acoustic flow, generation of harmonics, etc.) for nano-level emulsification, dispersion, and grinding.

- Technology for controlling nonlinear phenomena of ultrasound: Nano-level stirring, emulsification, dispersion, and grinding technology - The Ultrasonic System Research Institute has developed effective stirring (emulsification, dispersion, grinding) technology utilizing "technology for controlling nonlinear phenomena of ultrasound (acoustic flow)." This technology controls ultrasound (cavitation, acoustic flow) by utilizing (evaluating) the ultrasonic propagation characteristics (analysis results) of indirect containers, ultrasonic tanks, and other equipment through surface inspection. Ultrasonic propagation characteristics: 1) Detection of vibration modes (changes in autocorrelation) 2) Detection of nonlinear phenomena (changes in bispectrum) 3) Detection of response characteristics (analysis of impulse response) 4) Detection of interactions (analysis of power contribution rate) Note: "R" is a free statistical processing language and environment. autcor: autocorrelation analysis function bispec: bispectrum analysis function mulmar: impulse response analysis function mulnos: power contribution rate analysis function

  • Non-destructive testing
  • Secondary steel products
  • Other Hydrogen/Fuel Cells

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Manufacturing, development, and consulting for ultrasonic cleaning machines.

Manufacturing, development, and consulting for ultrasonic cleaning machines.

Manufacturing, development, and consulting for ultrasonic cleaning systems tailored to tank sizes according to the purpose.

The Ultrasonic System Research Institute has developed measurement, analysis, and evaluation techniques regarding the effects of changes from standard sizes on ultrasonic propagation states for standard-type ultrasonic devices that allow for easy ultrasonic control. By applying this technology, we manufacture, develop, and provide consulting for ultrasonic systems tailored to the desired tank size. Device Overview * Ultrasonic System (Ultrasonic Cleaner) 1: Ultrasonic 2: Ultrasonic Tank 3: Circulation Pump (Deaeration and Microbubble Generation Liquid Circulation System) 4: Timer Ultrasonic Propagation Characteristics 1) Detection of Vibration Modes (Changes in Autocorrelation) 2) Detection of Nonlinear Phenomena (Changes in Bispectrum) 3) Detection of Response Characteristics (Analysis of Impulse Response) 4) Detection of Interactions (Analysis of Power Contribution Rate) Note: "R" is a free statistical processing language and environment autcor: Autocorrelation Analysis Function bispec: Bispectrum Analysis Function mulmar: Impulse Response Analysis Function mulnos: Power Contribution Rate Analysis Function

  • others

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