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

151~165 item / All 186 items

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

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

Dynamic control technology of ultrasound through sweeping oscillation of multiple ultrasonic probes.

The Ultrasonic System Research Institute has developed a classification method for the phenomenon of ultrasonic vibrations propagation through the measurement and analysis of ultrasonic propagation states. 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 dynamically controls the linear and nonlinear resonance effects according to the main frequency (power spectrum) related to the propagation state of the ultrasound, based on the dynamic characteristics (changes in nonlinear phenomena). 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)

  • Other measuring instruments
  • 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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Ultrasonic cleaning machine utilizing nonlinear phenomena from ultrasound and fine bubbles.

Ultrasonic cleaning machine utilizing nonlinear phenomena from ultrasound and fine bubbles.

Optimization of cavitation and acoustic flow using a degassed fine bubble generation liquid circulation device.

The Ultrasonic System Research Institute has developed an ultrasonic cleaning machine utilizing microbubbles, based on measurement, analysis, and evaluation techniques related to ultrasonic propagation phenomena, which can also be used for ultrasonic processing, stirring, and chemical reactions. Recommended System Overview 1: Two types of ultrasonic transducers (standard types 38 kHz, 72 kHz) that perform surface modification treatment using ultrasonic waves and microbubbles. 2: An ultrasonic dedicated tank (standard type, inner dimensions: 500*310*340mm) that performs surface modification treatment using ultrasonic waves and microbubbles. 3: A degassing and microbubble generation liquid circulation system. 4: An optimization control system for ultrasonic output and liquid circulation via a control device. 5: An acoustic pressure management system using an ultrasonic tester. *Features This is an effective device utilizing an ultrasonic dedicated tank. Due to the efficient use of ultrasonic waves, the strength and durability of a standard tank are insufficient. Depending on the target and purpose of cleaning, stirring, and surface modification, two types of ultrasonic transducers are combined and controlled. The recommended combination is in the state of 38 kHz and 72 kHz. Technology for stably utilizing fine bubbles of 20 μm or less.

  • Scientific Calculation and Simulation Software
  • pump
  • others

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Original ultrasonic probe megahertz ultrasonic oscillation control system

Original ultrasonic probe megahertz ultrasonic oscillation control system

--- Ultrasonic Control System in Megahertz through Control of Nonlinear Phenomena in Ultrasound ---

The Ultrasonic System Research Institute has developed a technology that utilizes "the technology to control nonlinear phenomena of ultrasound" to "control ultrasonic stimulation according to its intended purpose." This technology controls ultrasound (cavitation and acoustic flow) tailored to specific objectives by measuring and confirming the interactions within containers, using ultrasonic control via a megahertz ultrasonic oscillation probe. Note: Ultrasonic Control By setting the oscillation conditions for sweep oscillation and pulse oscillation using two types of nonlinear resonant ultrasonic oscillation probes, it dynamically controls high-frequency propagation states above 30 MHz through high sound pressure resonance phenomena and harmonic generation phenomena (nonlinear phenomena). Note: Ultrasonic Control "Precision Cleaning Example" Sweep Oscillation: 70 kHz – 15 MHz, 15 W Pulse Oscillation: 13 MHz, 8 W Note: Ultrasonic Control "Nano-Level Stirring Example" Sweep Oscillation: 880 kHz – 22 MHz, 12 W Pulse Oscillation: 14 MHz, 10 W In particular, the dynamic characteristics of harmonics through acoustic flow control enable reactions and responses at the nano level. This has been applied and developed from examples of dispersing metal powder to nanosize.

  • Other Software
  • Non-destructive testing
  • Vibration and Sound Level Meter

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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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Ultrasound system using a function generator (one set)

Ultrasound system using a function generator (one set)

-- Ultrasonic System (Sound Pressure Measurement Analysis, Oscillation Control) --

The Ultrasonic System Research Institute manufactures and sells a system that combines the "Ultrasonic Tester NA (recommended type)," which allows for easy measurement and analysis of ultrasound, and the "Ultrasonic Oscillation System (20 MHz)," which enables easy control of ultrasonic oscillation. We propose system configurations (custom-made ultrasonic probes) tailored to the intended use (price and performance: cleaning, processing, stirring, inspection, etc.). Original Products: System Overview (Standard System) - Ultrasonic System (Sound Pressure Measurement and Analysis, Oscillation Control 10 MHz Type) - Ultrasonic Tester NA 10 MHz Type - Oscillation System 20 MHz Type Price: 281,050 yen (including tax: 10% consumption tax)

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

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Development of dynamic control technology for ultrasound based on sound pressure measurement analysis.

Development of dynamic control technology for ultrasound based on sound pressure measurement analysis.

Dynamic control of ultrasound to achieve stress relaxation on metal surfaces.

The Ultrasonic System Research Institute has developed a completely new dynamic control technology for ultrasound by utilizing two function generators. By generating oscillations with two different waveforms (sweep), we have achieved a technique to control the nonlinear phenomena of ultrasound. Note: The generation of (10th order and higher) harmonics caused by original oscillation control is realized by resonating with low-frequency vibration phenomena, resulting in the generation of high-amplitude harmonics, which is a nonlinear (resonance) phenomenon of ultrasonic vibrations. By optimizing the ultrasonic propagation characteristics of various components 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 control of surface elastic wave changes according to the intended application. Practically, 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 propagation states at high frequencies or low sound pressure levels at frequencies matched to the desired natural frequency.

  • Vibration and Sound Level Meter
  • Non-destructive testing
  • Analysis and prediction system

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Ultrasonic oscillation control technology utilizing ultrasonic propagation conditions above 100 MHz.

Ultrasonic oscillation control technology utilizing ultrasonic propagation conditions above 100 MHz.

Ultrasonic control based on the classification of ultrasonic propagation conditions (measurement, analysis, and evaluation of sound pressure data) technology.

The Ultrasonic System Research Institute has developed manufacturing and utilization technologies for ultrasonic probes that control resonance phenomena and nonlinearity regarding surface elastic waves that propagate to objects above 100 MHz with oscillations below 20 MHz. We manufacture and develop original ultrasonic oscillation control probes tailored to specific purposes. The key point is the optimization of the propagation characteristics of surface elastic waves on the surface of ultrasonic elements according to the intended use. To achieve this, we adjust the surface of the ultrasonic probe based on the ultrasonic propagation characteristics through acoustic pressure measurement, analysis, and evaluation (acoustic pressure level, frequency range, nonlinearity, dynamic characteristics, etc.) to match the intended use. Ultrasonic Probe 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, silicon, Teflon, glass, etc. Oscillation Equipment Example: Function Generator By understanding the acoustic characteristics of the target object and installation conditions, we have achieved dynamic control of surface elastic waves (propagation state). We realize propagation states tailored to various purposes.

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

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[Transaction Example] M Company, Shizuoka Prefecture - Industrial Cleaning Version

[Transaction Example] M Company, Shizuoka Prefecture - Industrial Cleaning Version

Introducing the case of Company M, which was looking for a contractor that could only perform cleaning processes.

We would like to introduce a cleaning transaction case from Company M in Shizuoka Prefecture. Before the transaction, they had outsourced the cleaning operations to an external company, but faced challenges with the cleaning process, so they were conducting the cleaning in-house. However, they were unable to completely remove the dirt and were looking for an alternative vendor. At that point, our company, which specializes in cleaning with custom-made buckets, took on the outsourced cleaning. We received feedback that the results of the cleaning were very satisfactory. [Before the Transaction] - Until now, the processes from parts processing to cleaning had been outsourced to an external company, but the vendor had challenges with the cleaning operations. - They conducted cleaning in-house but were unable to completely remove the dirt. - Due to the size and shape of the workpieces, it was difficult to find an alternative vendor. *For more details, please refer to the PDF document or feel free to contact us.

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[Transaction Example] T Company, a construction hardware manufacturing factory, industrial cleaning version

[Transaction Example] T Company, a construction hardware manufacturing factory, industrial cleaning version

Larger workpieces can be accommodated compared to the cleaning equipment typically installed in regular factories! This is a common request in the manufacturing industry.

Here is a case study of cleaning at a construction hardware manufacturing factory. At Company T in Tokyo, a one-time job request involved a workpiece that was slightly larger than their usual standard products and could not fit into their cleaning equipment. It was not practical to invest in equipment costing tens of millions of yen for a one-time job, and manual cleaning was not efficient either. They consulted us when they were facing this dilemma. Our cleaning equipment can accommodate larger workpieces compared to the cleaning equipment typically installed in factories. They were satisfied with the cleaning quality and expressed their desire to work with us again if a similar case arises. [Case Overview] ■ Client: Construction hardware manufacturing factory, Company T ■ Challenge: The workpiece received for a one-time job could not fit into their own cleaning equipment. *For more details, please refer to the PDF document or feel free to contact us.

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Control system development

Control system development

We are engaged in various control system development related to device systems, embedded systems, and automotive devices!

"Control system development" is the research and development aimed at enhancing the richness and convenience of people's lives. Through the integration of software and hardware, we continuously create new value. Our company has a variety of examples, starting with "device systems" such as software design and system design, as well as "embedded systems" and "image processing and communication control systems." [Examples (excerpt)] <Device Systems> ■ Software Design ■ System Design <Embedded Systems> ■ Contactless IC Card Reader/Writer ■ Audio Mixing Console ■ Karaoke Equipment *For more details, please refer to the PDF materials or feel free to contact us.

  • IT Control and Services
  • Other Software

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Non-destructive general measurement and analysis

Non-destructive general measurement and analysis

Simultaneous control of up to 6 axes! Automatically determines defect types, sizes, and distribution conditions.

This homepage introduces "Non-destructive General Measurement and Analysis" handled by Enter System Co., Ltd. By controlling up to 6 axes of motors simultaneously, we can move sensors to capture fine data at high speed with a resolution of 10μm. Using image processing technology, we visualize internal defects and automatically determine defect types, sizes, and distribution states through analysis algorithms. Our company realizes these inspections with a single computer, controlling machinery and sampling data. Please take a look at our website. 【Features】 ■ A general-purpose system for non-destructive testing without specifying the test object ■ Simultaneous motor control of up to 6 axes ■ Visualization of internal defects ■ Automatic determination of defect types, sizes, and distribution states using analysis algorithms ■ Inspections from machine control to data sampling realized with a single computer *For more details, please refer to the PDF materials or feel free to contact us.

  • Measurement and Inspection
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Commissioned Analysis: Analysis and Evaluation Technology for Spray Nozzles

Commissioned Analysis: Analysis and Evaluation Technology for Spray Nozzles

Visualizing the performance of spray nozzles! Analysis related to nozzle performance, including fluid analysis, particle size measurement, and impact force distribution.

The performance of spray nozzles is influenced by factors such as pressure, flow rate, spray pattern, particle size, flow velocity, flow distribution, and impact force distribution. Everloy possesses the measurement equipment and analytical evaluation technology for these factors and has conducted numerous analyses to date. Based on years of accumulated experiments and analytical evaluations, we can propose optimization plans for spray nozzles tailored to your specific usage purposes. Customers in need of analysis are welcome to consult with us.

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Solution: Control System Development

Solution: Control System Development

Effort will pave the way for infinite technology with the motto of "enthusiasm," "sincerity," and "hard work."

This is an announcement from Effort Inc. regarding "Solution: Control System Development."

  • Other Software

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Service: Embedded/Control System Development

Service: Embedded/Control System Development

We will develop and provide with a high level of completeness.

Our company has a wealth of delivery experience in various software/firmware development compatible with different platforms, as well as in the development of various microcontrollers, peripheral interface circuits, and digital circuits using PLD/FPGA, among others.

  • IoT

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