Termékek ultrahangosztályozó rendszer (56)

In this field, ultrasonic cleaning machine is used extensively especially for cleaning mechanical parts. In this way, advantages in terms of time and cost can be achieved.

Dukane’s Ultraschall Handschweißgeräte eignen sich Bestens für manuelles nieten, schweißen und schneiden von unterschiedlichen Materialien wie PP, ABS, PE,PA und PC.

Das System besteht aus folgenden Komponenten: Auslegerarm, Stereokamera, 3D-Monitor, Marker für den Kieferknochen, Marker für den Bohrer, Computer, CAD-Software. Ein oberer Ausleger trägt eine Stereokamera, die die exakte Position der Zähne sowie des Bohrers bestimmt und auf dem Monitor anzeigt. Mittels Stereometrie erkennen die 2 Kameras am Auslegerarm einen Markerbaum am Kieferknochen des Patienten und am Zahnbohrer des Zahnarztes. Diese Informationen werden verwendet, um die Position des realen Zahnbohrers und seinen Abstand zum zu bohrenden Loch im 3D-Monitor anzuzeigen. Der 3D-Monitor unterstützt den Zahnarzt dabei, sich innerhalb des geplanten Bohrkorridors zu bewegen.

Die Wirtschaftlichkeit von Anlagen zur Abwasserreinigung oder zur Erzeugung von energetisch verwertbaren Biogasen verbessert sich durch die Ultraschall-Behandlung der Biofeststoffe deutlich. Im Hochleistungs-Ultraschall-System von SONOTRONIC wird die Biomasse mit Ultraschall im Frequenzbereich von 20 kHz beschallt. Dies führt zu stärksten Effekten, wie z.B. Zelldesintegration, Desinfektion, Zerlegung von Polymeren und Freisetzung von Enzymen. Der Reaktionsraum ist dahingehend optimiert, dass eine homogene Kavitation im ganzen durchströmten Raum erreicht wird. Das Ultraschall-System selbst besteht aus einem Reaktorbehälter und fünf Ultraschall-Generatoren, welche die Energie für die fünf Schwinggebilde erzeugen. Die Schwinggebilde übertragen als Ultraschall-Geber die Energie an die vorbeiströmenden Biofeststoffe. Anwendungen: -Behandlung von Biofeststoffen in kommunalen und industriellen Kläranlagen (Klärschlammdesintegration) -Behandlung von Biofeststoffen in...

Ultraschall unterstützt die Analyse-Siebmaschinen, da diese oft keine ausreichende Eigenvibration aufweisen. Zudem hilft Ultraschall das Siebgewebe offen zu halten. Dadurch wird der Durchsatz des Siebgutes signifikant erhöht. Das Ultraschall-Analyse-Siebsystem besteht aus: Schnellspannresonator Konverter SK3510 Siebgenerator SG4L Die Schnellspannresonatoren können einfach an bestehende Siebrahmen festgeklemmt werden, ohne Bearbeitung der Siebpfanne.

Las fallas eléctricas representan una importante amenaza para la seguridad de la planta y, además, pueden llegar a detener las operaciones en su totalidad Las plantas industriales precisan una enorme cantidad de energía para funcionar y, al igual que la maquinaria necesaria para la producción, los sistemas eléctricos también pueden llegar a fallar. Cuando lo hacen, la producción de la planta y la seguridad de quienes se hallan dentro de la instalación pueden llegar a verse seriamente amenazadas. Esas mismas amenazas son inherentes en lo que a la producción y la distribución de energía respecta. La importancia de llevar a cabo un correcto mantenimiento de sus sistemas eléctricos Las implicaciones de un fallo total del sistema eléctrico pueden ser mucho más graves que las de una falla mecánica ordinaria.

Die Anlage der Serie KT ist universell einsetzbar und für die industrielle Teilereinigung konzipiert. Einsatzmöglichkeiten finden sich in der Metallentfettung, Elektroindustrie, Optik, Medizintechnik, Wartung und Instandhaltung u.v.a. Die Ausführung als 3-Kammersystem und die kompakte Konstruktion der Anlage ermöglichen eine hohe Reinigungsqualität bei gleichzeitiger platzsparender Aufstellung. Die Grundausstattung besteht aus beheizter Ultraschallkammer (Kammer 1) und beheizter Kaskadenspülung (Kammer 2 und 3). Zusätzlich kann ein separater Trockner passend zur Größe der Kompaktanlage beigestellt werden. Die Wannen sind in ein stabiles Rahmengestell eingebaut. Optional kann ein Unterbaugestell aus Edelstahl geliefert werden Armaturen, Wanne und Rahmen aus Edelstahl. Alle Ventile sind an der Frontseite der Anlage leicht zu bedienen. Alle elektrischen Bedienelemente befinden sich auf der Frontseite der Anlage und sind jeweils den einzelnen Kammern zugeordnet.

Mit dem UltraLevi-Desk wird das Substrat auf Abstand gehalten, dies ermöglicht einen berührungslosen Transport. Unsere patentierte Technologie lässt die Werkstücke auf der Ultraschall-Tischoberfläche schweben. Das Substrat wird auf Abstand gehalten, wodurch Mikrokratzer und sonstige Beschädigungen ausgeschlossen werden können. Durch die Vermeidung von Druckluft und damit Luftverwirbelungen können außerdem Verunreinigungen durch Partikel verhindert werden. Außerdem kann eine hohe Ebenheit des Substrates, auch für flexible Materialien, gewährleistet werden. Der UltraLevi-Desk ist mit anderen Systemen kombinierbar und kann sowohl mit als auch ohne zusätzlichen Antrieb realisiert werden. Merkmale des UltraLevi-Desk: - Keine Beschädigungen oder Verunreinigungen - Hohe Ebenheit des Substrates - Aneinanderreihbar - Aussparungen für Inspektionssysteme oder Schneideinheiten - Individualisierbar nach Kundenvorgaben

Powerful image processing technology, powerful industrial computer(lPC) workstation, very convenient for image shearing, processing and storage, etc. Better reconstruction technology, adopt seniorreconstruction technologies like iteration/ interpolation, complete the signal data collection and K space filling in extremely short time, gain higher resolution images with much clearer fine structures. Abundant of scanning sequences and imaging technologies based on years of MeCan experience and indefatigable product improvement. Our software has complete and professional sequences which meet the scanning requirements of different parts and can simply gain high quality images based on its rich clinical experience. lndependentdeveloped operation system, doctors can easily and quickly register the patient, browse image, do advanced postprocessing, external device connectivity and other functions. Magnet Type:Self-constant temperature, non- Eddy current free, full open Permanent Nd-Fe-B magnet Field Strength:0.50T Spectrometer:Full Digital Receiving Coil:Phase Array Coil

Die Ultraschallmessanlage GreCon UPU 6000 detektiert inline Inhomogenitäten in plattenförmigen Messgütern, wie z. B. Holzwerkstoffplatten. Größe und Lage der Fehlstellen werden erfasst und visualisiert. Fehlerhafte Platten können so frühzeitig identifiziert und ausgeschleust werden. Je nach Qualitätsanforderung können unterschiedliche Fehlerarten, wie z. B. Spalter, konfiguriert werden, die eine mehrstufige Qualitätssortierung ermöglichen. Vorteile auf einen Blick: •Frühzeitiges Erkennen und Lokalisieren verdeckter Fehler •100% Vermessung der gesamten Plattenbreite inklusive der Plattenkanten •Erkennen von Leistungsreserven durch Prozesstrending •Hohe Verfügbarkeit und Betriebssicherheit des Systems •Vermeiden von Spaltern durch frühzeitiges Erkennen im DC-Trend •Höhere Ausbringung durch Steigerung der Produktionsgeschwindigkeit

Main Parameters: -Scanning system: sector sweep; -Probe frequency: 3.5MHz/5MHz probe and can variable frequency; -Scanning depth: ≥180mm, 70mm/110mm/130mm/150mm/192mm adjustable; -Screen: 3.5 inches; -Display mode: B -Image gray scale: 256 level -Pseudo color: 8 type -Image store: 512 frame(by SD card) -Measure: distance; -Input power: dc 5V (by external battery input) -Power consumption: 7W (probe run) /2.5W (probe stop) -Battery work time: 10 hours -Size: 92mm * 73mm * 42mm -Weight: host 140g, probe 150g, battery 140g Type:sheep,goat,pig Portable Ultrasonic Diagnostic device Model Number:Futai-V2 Application:For pig,sheep,goat pregnancy testing Certificate:CE Quality warranty:Main machine:2 year +Probe:1 year (non-human damage within 30 days,free to change new scanner Scanning system:sector sweep Probe frequency:3.5MHz/5MHz probe and can variable frequency Scanning depth:≥180mm, 70mm/110mm/130mm/150mm/192mm adjustable Screen:3.5 inches Display mode:B Image gray scale:256 level Pseudo color:8 type Image store:512 frame(by SD card) Measure:distance Input power:dc 5V (by external battery input) Power consumption:7W (probe run) /2.5W (probe stop) Battery work time:10 hours Package size/1 unit:92mm * 73mm * 42mm Weight/1 unit:host 140g, probe 150g, battery 140g

L’innovativo sistema di disotturazione dei ultrasuoni setacci vibranti Russell Finex, il Vibrasonic®Deblinding System (VDS) di nostro brevetto, elimina le otturazioni e il bloccaggio dei vagli. Ha rivoluzionato la vagliatura delle polveri più difficili sui magli, consentendo una separazione accurata, fino a 20 µm. Aumenta inoltre le capacità di vagliatura riducendo la rottura dei vagli. Questo sistema ad ultrasuoni è stato progettato per essere installato anche su modelli precedenti, su setacci/separatori a vibrazione sia di nuova che di vecchia generazione.

* 5.7 inch TFT screen * Tip status indicator * Simple and clear keyboard layout, backlight support * 300 ECG recording internal memory * High accuracy digital filter * 122 types of diagnostic reports * Monitoring and printing of 120 seconds ECG waveforms * USB port for external printer connection and data transfer * PC-ECG management system

The Ultrasound washing machine cleans and degreases plastic materials or acetate in general or small pieces in metal in water and/or cleanser. The cleaning action in a ultrasound washing machine is due to the vibration and cavitations produced by high frequency sound waves. They are not the ultrasound that clean the object surfaces but the fine cavitations and important molecular vibration. According to the Company’s Philosophy, only high quality materials are used. Production is respectful of security norms and the machine is completely made in stainless steel. For a better control of the process, the machine is equipped with: – Ultrasound transducers situated on the bottom or on the inside – Liquid Heating controlled by a thermostat – Power regulation – soundproofing and insulation – tank for rinsing by immersion with spray controlled by pedal – top to close tanks

UltraTecno offerscomplete system for each industry cleaning requirements. Ultrasonic cleaning line is adjusted and configured with the desired wash, rinse and drying stages according customer cleaning process and neeeds. Flexible, reliable and robust systems starting from 100 liters tank capacity up to 15.000 liters for each stage. Ultrasonic tanks are complemented with Rinse Tanks and Drying Tanks. UltraTecno can deliver also Automatic handling.

Efficace contre : tous types de rongeurs, fouines, martres... Usage : Dans les zones non cloisonnées ou en extérieur. Protection des entrées : quai de chargement, hangar... Les ultrasons créé un stress chez les rongeurs et perturbent leurs fonctions biologiques (sommeil, reproduction, alimentation). Fonctionnement par balayage de fréquence pour éviter toute accoutumance. Les systèmes de répulsion rongeurs à ultrasons Ratdown ne perturbent pas les humains et animaux d'élevage et de compagnie. La gamme de fréquences utilisée cible spécifiquement les rongeurs et les atteint via leurs récepteurs naturels (les vibrisses). Garantie 2 ans et fabriqué en France par Ratdown.

Wir fertigen für Medizinaltechnik, von cartridge zu großer Gehäuseteilen, in Spritzguss, TSG und addtiver Fertigung.

OXYGEN VENTILATOR

In the furniture industry, ultrasonic cleaning machines are indispensable for companies that produce metal components and frames. These machines provide a noticeable difference in terms of time and cleaning quality, making them an essential tool for manufacturers. By using ultrasonic cleaning technology, furniture companies can ensure that their products are free from contaminants, enhancing their durability and appearance. The use of ultrasonic cleaning machines also supports the sustainability goals of the furniture industry by minimizing the use of harsh chemicals and reducing waste. This makes them an eco-friendly choice for furniture companies committed to sustainable practices.

In the medical sector, ultrasonic cleaning machines are widely used in sterilization units to clean dirty equipment before sterilization. These machines ensure that medical instruments are thoroughly cleaned without manual intervention, enhancing the efficiency and safety of the sterilization process. The use of ultrasonic cleaning technology in the medical field is crucial for maintaining high standards of hygiene, which is essential for patient safety and infection control. By automating the cleaning process, ultrasonic machines reduce the risk of human error and ensure consistent results. Additionally, these machines support the sustainability of healthcare facilities by reducing the need for disposable cleaning supplies and minimizing the environmental impact of cleaning operations.

In the energy sector, ultrasonic cleaning machines are preferred for cleaning various mechanical parts, especially during periodic maintenance and filter cleaning. These machines play a crucial role in simplifying the cleaning process, enhancing the efficiency and reliability of energy equipment. By using ultrasonic cleaning technology, energy companies can ensure that their equipment operates at peak performance, reducing downtime and maintenance costs. The use of ultrasonic cleaning machines also supports the sustainability goals of the energy sector by minimizing the use of harsh chemicals and reducing waste. This makes them an eco-friendly choice for energy companies committed to sustainable practices.

Desktop Ultrasonic Cleaning Machines are meticulously crafted to cater to the diverse cleaning needs of various industries, especially the medical sector. Available in five distinct models ranging from 4-liter to 35-liter capacities, these machines are equipped with microprocessor control and automatic memory functions. The built-in heaters and digital panel control ensure optimal cleaning performance, making them indispensable for tackling stubborn dirt. Their compact design not only facilitates ease of use but also enhances portability, making them a preferred choice for professionals seeking efficient cleaning solutions. The reinforced ultrasonic cleaning performance of these machines is a testament to their superior engineering, providing unmatched cleaning efficiency. Whether it's delicate instruments or heavily soiled items, these machines offer a reliable solution, ensuring thorough cleanliness with minimal effort. Their user-friendly interface and robust construction make them a valuable addition to any workspace, promising longevity and consistent performance. Embrace the future of cleaning with these state-of-the-art ultrasonic machines, designed to deliver excellence in every use.

Ultrasonic cleaning machines are indispensable in the maritime industry, particularly for shipyards and vessels. These machines are essential for both manufacturing and maintenance during voyages, ensuring that parts requiring repair are thoroughly cleaned. The ultrasonic cleaning process is highly efficient, providing a deep clean that is crucial for maintaining the integrity and performance of maritime equipment. By utilizing ultrasonic cleaning technology, shipyards can ensure that their vessels remain in optimal condition, reducing downtime and enhancing operational efficiency. Furthermore, the use of ultrasonic cleaning machines in the maritime industry contributes to the longevity of equipment, as it prevents the buildup of contaminants that can lead to corrosion and other forms of damage. This technology not only supports the maintenance of existing equipment but also plays a vital role in the manufacturing process, ensuring that new parts are free from any residues that could compromise their performance.

Ultrasonic cleaning machines are extensively used in the defense industry, particularly for surface cleaning before coating processes and during the maintenance and repair of mechanical parts. These machines provide a thorough cleaning that is essential for ensuring the reliability and performance of defense equipment. By using ultrasonic cleaning technology, the defense sector can maintain high standards of cleanliness, which is crucial for the safety and effectiveness of military operations. The ability to clean complex mechanical components without disassembly saves time and reduces the risk of damage, making ultrasonic cleaning an invaluable tool in the defense industry. Furthermore, the use of ultrasonic cleaning machines supports the sustainability goals of the defense sector by minimizing the use of harmful chemicals and reducing waste.

In the textile industry, where numerous mechanical parts are involved, ultrasonic cleaning machines are indispensable for cleaning components such as lamels, combs, and needles. These machines provide a thorough cleaning that is essential for maintaining the performance and longevity of textile machinery. By using ultrasonic cleaning technology, textile manufacturers can ensure that their equipment operates efficiently, reducing downtime and maintenance costs. The use of ultrasonic cleaning machines also supports the sustainability goals of the textile industry by minimizing the use of harsh chemicals and reducing waste. This makes them an eco-friendly choice for textile companies committed to sustainable practices.

The automotive industry greatly benefits from the use of ultrasonic cleaning machines, especially given the large number of parts and the complexity of cleaning processes involved. From engines to coils, ultrasonic cleaning provides a comprehensive solution that ensures each component is meticulously cleaned. This technology is particularly advantageous for the automotive sector as it enhances the efficiency of cleaning operations, saving both time and labor costs. By implementing ultrasonic cleaning machines, automotive manufacturers can maintain high standards of cleanliness, which is crucial for the performance and longevity of vehicle components. Additionally, ultrasonic cleaning machines help in reducing the environmental impact of cleaning processes by minimizing the use of harsh chemicals and reducing waste. This makes them an eco-friendly choice for automotive companies committed to sustainable practices.

In the jewelry industry, where precision and delicacy are paramount, ultrasonic cleaning machines are a preferred choice for removing oils and polishes from surfaces during the manufacturing process. These machines ensure that intricate jewelry pieces are cleaned thoroughly without causing any damage, preserving their craftsmanship and beauty. The use of ultrasonic cleaning technology in the jewelry sector not only enhances the quality of the final product but also significantly reduces the time required for cleaning. This efficiency allows jewelers to focus more on the creative aspects of their work, knowing that the cleaning process is both reliable and effective. Moreover, ultrasonic cleaning machines contribute to the sustainability of the jewelry industry by reducing the need for manual cleaning methods that can be labor-intensive and less environmentally friendly.

Ultrasonic cleaning machines find extensive applications in laboratories, not only for cleaning purposes but also for mixing chemical materials. These machines provide a versatile solution that enhances the efficiency and effectiveness of laboratory operations. By using ultrasonic cleaning technology, laboratories can ensure that their equipment is free from contaminants, which is crucial for obtaining accurate and reliable results. The ability to mix chemicals using ultrasonic machines also supports the development of new formulations and experiments, making them an invaluable tool for scientific research. Furthermore, the use of ultrasonic cleaning machines in laboratories contributes to sustainability by reducing the need for manual cleaning methods and minimizing the use of harsh chemicals.

Surface cleaning before painting is very important both for the quality of the work and for the durability of the products. One of the methods commonly used at this stage is ultrasonic cleaning machines. In addition, solutions to meet user needs are offered with additional stations such as rinsing and drying.

It is used for the cleaning of equipment and molds produced for and used in the food industry. Effective results can also be obtained in the cleaning of filters (e.g. filters of oil press machines).