Material: | Stainless Steel 304 | Application: | Dental And Medical Instruments |
---|---|---|---|
Frequency:: | 40KHZ | Voltage:: | 110/220V |
Tank Capacity:: | 10L Ultrasonic Cleaner With Heating | Ultrasonic Power: | 150W |
High Light: | 220V Medical Ultrasonic Cleaner,SS304 tank Medical Ultrasonic Cleaner,Heating ultrasonic surgical instrument cleaner |
Denture Cleaning Clean Dental And Medical Instruments Before Sterilization 10L Ultrasonic Cleaner With Heating
How effective is ultrasonic cleaning?
Through the years many studies that demonstrate the reliability and effectiveness of ultrasonic cleaning have been published. Some of these studies demonstrate the effectiveness of ultrasonic cleaning in standardizing the cleaning process and removing dried serum, whole blood, and viruses from contaminated instruments.9,11,12 Other studies have found that ultrasonic cleaners are significantly more effective and efficient than manual scrubbing,11,13 which is difficult to standardize and can vary in effectiveness from person-to-person.12 In contrast to manual scrubbing, ultrasonic cleaners are automated and standardized and designed to clean surfaces that might otherwise be inaccessible.
Why is Ultrasonic Cleaning so Efficient and Effective?
When cavitation happens near a dirty object, the vacuum action produced by those million of bubbles constantly imploding creates a tiny pressure wave that reaches deep into every nook and cranny of even the most delicate items. This tiny pressure wave dislodges and breaks up the dirt and other contaminants and gently lifts it away. The result is very fast and effective cleaning.
How AGSONIC Ultrasonic Machines Create Cavitation
To create cavitation, AGSONIC Ultrasonic Cleaning Systems use our state-of-the-art Prowave™ Digital Generators to power electro-mechanical transducers that are submerged in a tank of hot water. These generators activate the transducers which then vibrate very quickly. This vibration sends sound waves through the water at frequencies ranging from 25 to 40kHz which produces cavitation.
Medical Ultrasonic Cleaner
Effective sterilization requires effective Medical Ultrasonic Cleaner and when it comes to cleaning reusable instruments and equipment, our equipment & detergents meets the most demanding criteria. Our industrial ultrasonic cleaners are used to assist with the cleaning of instruments that cannot be adequately cleaned manually such as spiral wound instruments like biopsy forceps etc. The ultrasonic vibration at the frequency used for cleaning does not kill microorganisms and infective aerosols may be produced.
Ultrasonic cleaners work by subjecting instruments to high frequency, high-energy sound waves. This causes the soil to be dislodged from instruments and drop to the bottom of the tank, or be sufficiently loosened that it will be removed during the rinsing process. The detergent used in the ultrasonic tank must be carefully selected in accordance with advice from the tank's manufacturer. Optimally it will be a neutral, low-foaming product and enzymatic cleaners will have enhanced benefits in this process..
Applications: Medical and scientific labs, Cleaning metal and plastic machine parts, Electronic components
Ultrasonic Sonifier Cell Disruptors .
Ultrasonic Sonifier Cell Disruptors are designed to bring the industry’s most advanced sample-processing capabilities to your laboratory. They are geared toward low-volume samples ranging from 0.2 to 500 mL. These Sonifier Cell Disruptors deliver up to 550 watts of power. They are quiet enough to operate on a lab bench without a sound enclosure. They are available with either a conventional or a handheld converter and can be used in a stack configuration to process longer-duration samples, or process samples quickly by hand using the comfortable, ergonomically-designed handheld converter. Some of the features are:
Handheld Converter - Offers an ergonomic grip for comfort and control, and a recessed push button and LED indicator for assured operation
Energy Mode - Manages the processing cycle to deliver a precise, user-determined input of ultrasonic energy (measured in joules), either continuously or in individual pulses. They automatically compensates for any variability, extending or shortening the cycle as needed to deliver the precise energy output
Process Monitoring - Monitors ongoing processes on a scrollable, digital screen, providing continuous updates of key variables including power level, energy usage, sample temperature, and experiment progress
Sample-Processing Programs - Enables users to create and store up to 20 sample processing programs. Program parameters include continuous or pulsed ultrasonics; time, energy, or temperature control modes; pulse on-time/energy, off-time and total on-time/energy; or amplitude as a percentage
Dental
Ultrasonics is ideal for cleaning complex components. With its unique ability ultrasonics will remove contamination and sterilise any dental equipment quickly and effectively.
Optical
Ultrasonics is ideal for cleaning complex components. With its unique ability ultrasonics will remove all the contamination of lenses without damage. We at Industrial Ultrasonics regularly clean our glasses and sunglasses in the ultrasonics.
It only takes seconds to completely remove oil and dirt which has built up. Ultrasonics can be used for all forms of optical devices and optical device manufacturing.
Instrument Cleaning
Ultrasonics is ideal for cleaning complex components. With its unique ability ultrasonics will remove all the contamination from instruments used in the Medical industry. Ultrasonics cleans and sterilises far above all medical cleaning standards allowing for fast and effective cleaning every time
Device Manufacturing
The Ideal Ultrasonic Cleaners for this industry are the agsonic Powersonic Units.
Ultrasonics is ideal for cleaning complex components. With its unique ability ultrasonics will remove all the contamination from medical device components during the manufacturing process. Ultrasonics is fast and effective cleaning far above all medical cleaning standards.
Day Surgeries
Ultrasonics is ideal for cleaning complex components. With its unique ability ultrasonics will remove all the contamination from medical components during the manufacturing process. Ultrasonics is fast and effective cleaning far above all medical cleaning standards.
Ultrasonic cleaning equipment for use in the Pharmaceutical industry
Ultrawave’s ultrasonic cleaning systems are used in the Pharmaceutical manufacturing process to deliver the highest cleaning standards.
our high precision ultrasonic cleaning systems are installed and used in numerous pharmaceutical manufacturing and processing companies across the UK and Ireland.
Other models for your choice:
Model | Tank size | Unit size | Volume | Actual ultrasonic power | Rated ultrasonic power | Ultrasonic frequency | Heating power | Time | Heater |
LxWxH(mm) | LxWxH(mm) | (L) | (W) | (W) | (kHz) | (W) | (MIN) | (℃) | |
TB-50 | 150x135x100 | 175x160x210 | 2 | 50 | 60 | 40 | 150 | 1-30 | 0-80 |
TB-100 | 240x135x100 | 265x165x220 | 3.2 | 100 | 120 | 150 | |||
TB-150A | 300x150x100 | 325x180x225 | 4.5 | 150 | 180 | 300 | |||
TB-150B | 300x150x150 | 325x180x280 | 6.5 | 150 | 180 | 300 | |||
TB-200 | 300x240x150 | 325x265x280 | 10.8 | 200 | 240 | 450 | |||
TB-300 | 330x300x150 | 360x325x285 | 15 | 300 | 360 | 450 | |||
TB-400 | 500x300x150 | 530x325x285 | 22 | 400 | 480 | 600 | |||
TB-500 | 500x300x200 | 530x325x325 | 30 | 500 | 600 | 600 |
40 KHz
At 40 KHz the softer implosion forces are usually adequate for most cleaning applications, has better
overall cleaning uniformity do to the higher number of cavitation events and there is less chance of
damaging the product being cleaned by the imploding bubble.
At 40 KHz the stray frequencies or sub harmonics are further from the hearing range and have little
noticeable noise output. Do to the softer implosion force less cavitation erosion will result on the
transducer-radiating surface, (also referred to as the transducer diaphragm). 40 KHz is the most wildly
used frequency for ultrasonic cleaning