Ultrasonic Cleaner Utilization Technology No. 5

Ultrasonic probe-based sweep oscillation system - a technology for controlling low-frequency resonance phenomena and high-frequency nonlinear phenomena.

The Ultrasonic System Research Institute has developed a new control technology for ultrasonic probes using original technology. This is an application technology for measurement systems using the new ultrasonic probe. We provide consulting services for the development, manufacturing, and control methods of dedicated ultrasonic probes tailored to specific purposes. Regarding the characteristics of piezoelectric elements, we develop and manufacture original ultrasonic probes based on analyses that consider elastic wave propagation and various vibration states (modes). For measurements, the probes can be connected to an oscilloscope for use. For oscillation, they can be connected to a function generator. By performing feedback analysis of sound pressure measurement data, it becomes possible to quantify and evaluate nonlinear ultrasonic phenomena (acoustic streaming) and cavitation effects. The ultrasonic probes are "made-to-order" based on the confirmed intended use.

• Non-destructive testing
• Other analytical equipment
• others

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)

• Non-destructive testing
• Other measuring instruments
• others

We have developed a "basic experimental system" for ultrasonic cleaning.

The Ultrasonic System Research Institute has developed a "Fundamental Experimental System" related to ultrasonic cleaning that applies the "ultrasonic system using degassing and microbubble control." - Experimental examples of the developed system - Confirmation of the cleaning effect of cavitation Confirmation of the acceleration effect Confirmation of the cleaning effect by acoustic flow Confirmation of the cleaning effect by liquid circulation Confirmation of the interaction between cavitation and liquid circulation Confirmation of the interaction between the cleaning object and the cleaning tank ..... 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 rates) Note: "R" is a free statistical processing language and environment autocor: autocorrelation analysis function bispec: bispectrum analysis function mulmar: impulse response analysis function mulnos: power contribution rate analysis function

• Water Treatment
• Other analytical equipment
• others

Ultrasonic control technology based on the classification of nonlinear phenomena in which ultrasonic vibrations propagate.

The Ultrasonic System Research Institute has developed a classification method for the phenomenon of ultrasonic vibration propagation by analyzing measurement data of ultrasonic propagation states using bispectral analysis. The method developed in this instance estimates the linear and nonlinear resonance effects based on the dynamic characteristics (changes in nonlinear phenomena) of the main frequencies (power spectrum) related to the ultrasonic propagation state. From previous data analysis, we have been able to classify effective utilization methods into the following four types: 1: Linear type 2: Nonlinear type 3: Mixed type 4: Variable type There are numerous successful cases of device development and control settings based on each of the above types. This technology will be offered as a consulting service. 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 rates) Note: The following tools will be used for analysis. Note: "R" is a free statistical processing language and environment.

• Other Software

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

It is a technology that enables ultrasonic control tailored to specific purposes.

Ultrasonic System Technology 1: Development technology for dedicated water tanks 2: Improvement technology for ultrasonic transducers 3: Measurement technology for ultrasonic propagation conditions 4: Control technology for ultrasonic (acoustic flow) We provide system technology related to the above. This technology enables ultrasonic control tailored to specific purposes. * Know-how for improving ultrasonic transducers... * * Know-how for designing ultrasonic water tanks... * * Know-how for measuring ultrasonic propagation conditions... * * Know-how for controlling ultrasonic (acoustic flow)... * We offer the above. For more details, please contact the Ultrasonic System Research Institute via email.

• Non-destructive testing
• others

We provide consulting services based on sound pressure measurement and analysis of ultrasonic equipment.

**Analysis and Evaluation of Ultrasonic Sound Pressure Data** 1) Regarding time series data, we will analyze and evaluate the statistical properties of the measurement data (stability and changes of ultrasonic waves) through feedback analysis using a multivariate autoregressive model. 2) The effects of the oscillation part due to ultrasonic oscillation will be analyzed and evaluated as response characteristics of the ultrasonic vibration phenomenon concerning the surface state of the target object through impulse response characteristics and autocorrelation analysis. 3) The interaction between the oscillation and the target object (cleaning items, cleaning solution, water tank, etc.) will be evaluated through the analysis of power contribution rates. 4) Concerning the use of ultrasound (cleaning, processing, stirring, etc.), we will analyze and evaluate the dynamic characteristics of ultrasound based on the nonlinear phenomena (results of bispectral analysis) of the target object (propagation of surface elastic waves) or the ultrasound propagating in the target liquid, which are the main factors of the ultrasonic effect. This analysis method is realized based on previous experience and achievements by adapting the dynamic characteristics of complex ultrasonic vibrations to the analysis methods of time series data. Note: The following tools will be used for the analysis. Note: OML Note: TIMSAC Note: "R," a free statistical processing language and environment.

• others

We manufacture and sell an "oscillation system at 20 MHz" that allows for easy control of megahertz ultrasonic oscillation.

The Ultrasonic System Research Institute has developed a megahertz ultrasonic oscillation control system that applies acoustic characteristic analysis and evaluation technology related to the manufacturing of original products: ultrasonic oscillation probes. This is a new application system for cleaning, modification, inspection, and more using ultrasonic waves. It is also possible to apply control through the combination of low-frequency vibrations and sounds. Developed from an engineering (experimental and technical) perspective on elastic waves and an abstract algebraic ultrasonic model, this application system technology has been created. The key point is the utilization of surface acoustic waves. By confirming the propagation characteristics of ultrasonic waves depending on the conditions of the target object (Note 1), it is important to address it as an original nonlinear resonance phenomenon (Notes 2, 3). Note 1: Propagation characteristics of ultrasonic waves - Nonlinear characteristics - Response characteristics - Fluctuation characteristics - Effects due to interactions Note 2: Original nonlinear resonance phenomenon The occurrence of harmonics generated by original oscillation control, realized at high amplitudes through resonance phenomena, leads to the resonance phenomenon of ultrasonic vibrations. Note 3: Transient ultrasonic stress wave

• Vibration and Sound Level Meter
• Scientific Calculation and Simulation Software
• others

Ultrasonic oscillation control system using a commercial function generator and ultrasonic oscillation probe.

The Ultrasonic System Research Institute has published a method for applying the "Ultrasonic Oscillation System (1 MHz)," which allows for easy control of ultrasonic oscillation, through timer control. Specific examples: 1) Preventing the deterioration of machining oil by irradiating it with ultrasound at night. 2) Improving quality through ultrasonic irradiation on NC machines. 3) Irradiating shelves that store metal and resin parts with ultrasound (surface modification). 4) Improving fluidity and uniformity of concentration by irradiating plating solutions, cleaning solutions, solvents, etc., with ultrasound. 5) Enhancing welding quality by irradiating welding machines with ultrasound. 6) Relieving surface residual stress by irradiating brazing devices and bending processing devices with ultrasound. 7) Improving cleaning levels by irradiating ultrasonic cleaning machines with ultrasound. ... ... 19) Others: 1: Combined use with various vibrations (e.g., motors, etc.). 2: Maintenance through ultrasonic irradiation during holidays (2-3 hours). 3: Aging treatment through ultrasonic irradiation. ... ... Combined use with fine bubbles. Combined oscillation control of multiple ultrasonic sources. Use of ultrasonic propagation tools.

• Non-destructive testing
• Other measuring instruments
• others

Ultrasonic system combining "Ultrasonic Tester NA (10 MHz)" and "Ultrasonic Oscillator (20 MHz)"

An ultrasonic system that allows for easy measurement analysis and oscillation control. The Ultrasonic System Research Institute is publicly conducting experiments using a system that combines the "Ultrasonic Tester NA (recommended type)," which allows for easy measurement analysis of ultrasonic waves, and the "Ultrasonic Oscillation System (20 MHz)," which enables easy oscillation control of ultrasonic waves. Ultrasonic Probe: Overview 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 Note: 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 Characteristics) 4) Detection of Interactions (Analysis of Power Contribution Rates) Note: "R" Free Statistical Processing Language and Environment - autocor: Autocorrelation Analysis Function - bispec: Bispectrum Analysis Function - mulmar: Impulse Response Analysis Function - mulnos: Power Contribution Rate Analysis Function

• Water Treatment
• Other analytical equipment
• others

The "Hotron Non-Contact Switch" allows you to open and close doors without directly touching door knobs or switches, making it hygienic! You can choose from two types: the "Hand Wave Sensor," which only requires you to wave your hand, and the "Foot Switch," which only requires you to place your foot at the entrance. It reduces the risk of virus and bacterial infections in places where hygiene is a concern, such as food factories, restaurants, hospitals, and nursing facilities. 【Features】 ○ Reduces the risk of virus infection by allowing door operation without contact ○ A wide variety of options to choose from based on application and location ○ Ideal for places where hygiene is a priority, such as food factories and medical facilities ○ Prevents unnecessary detection due to the switch mechanism 【Product Lineup】 ■ Hand Wave Sensor Series ○ Exposed waterproof type, front, down, and side-facing types "PF-R5" ○ Exposed type, front-facing type "PF-R1" ○ Embedded type, front-facing type "PF-U2" ○ Exposed type, downward wide type "PF-R4" ■ Foot Switch Series ○ Slim type with wide opening, vertical beam type "PF-01S" ○ Slim type with wide opening, horizontal beam type "PF-03S" ○ Standard type, horizontal beam type "PF-05" ◎ For more details, please download the catalog or contact us.

Do you have any concerns or requests regarding wired bed exit sensors? × Tangling or tripping over wired cables × Cable disconnection or damage × Worrying about forgetting to turn the switch back on after temporarily stopping the sensor. × Wanting to be notified of bed exits even from a location far from the nurse call outlet. Such concerns can be resolved simply by connecting our wireless nurse call linked set to the sensor! Our wireless nurse call linked set allows you to connect bed exit sensors like "Ugo-kun," "Foldable Thin Matta-kun," "Ayumi-chan," and "Just Place Pole-kun" to transmitters and receivers, reducing wiring around the bed area, alleviating concerns about tripping or falling due to cables, and contributing to a tidier work environment. Furthermore, it enables the use of bed exit sensors even from locations far from the nurse call outlet, allowing for more flexible equipment placement.

Hotron's vehicle detection sensors allow you to search for products that meet your needs from three categories: "Purpose of Use," "Location of Use," and "Product List." The sensors detect the passage of vehicles and notify you with a rotating light, or switch the display of parking availability. They manage vehicle presence, full parking, and exit warnings in parking lots, contributing to safe driving and smooth operational management within the parking area. They are used in various settings, from coin-operated parking to large-scale parking lots.

Management College Co., Ltd. will be exhibiting at the "24th [Tokyo] General Affairs, Human Resources, and Accounting Week [Autumn]" held at Makuhari Messe from September 10 (Wednesday) to 12 (Friday) within the "HR EXPO." This time, we will introduce the newly released "Quick Learning Program" from last October at our booth. This is a new training program aimed at new employees from Generation Z, designed to efficiently develop the six essential skills required for business professionals, allowing participants to engage in training actively and enjoyably. We will also present our popular "Management Game MG Training Series," and we sincerely look forward to your visit. [Free Seminar Announcement] Theme: Case Studies of Management Simulation Training in Listed Companies Our Takada will introduce trends in experiential learning and corporate case studies. There will also be special benefits for seminar participants (such as information on special free trial seminars), so we hope you will register for this as well. *The seminar will be held on September 10 (Wednesday) at 15:30 in Seminar Room G within the venue.

Developed for the purpose of improving the safety of sales areas, the SP Bracket-specific anti-fall part (NX-BSP). Simply inserting the bracket activates the internal spring, securing it firmly. It prevents unexpected dislodging, thereby averting product drops and accidents. Moreover, the release is easy and does not compromise workability, making it efficient for layout changes and sales area construction. It achieves a balance between "safety measures" and "work efficiency." An essential part for enhancing the safety of sales areas. Please make use of it for risk management at construction sites.