|Material:||Stainless Steel 304||Application:||Medical Ultrasonic Cleaning|
|Option:||Rinsing Tank||Part Clean:||Laparoscopic|
|Tank Capacity::||77L||Ultrasonic Power:||1200w|
HEPA Filter Medical Ultrasonic Cleaner,
Medical Ultrasonic Cleaner 77L,
Rinsing Tanks Medical Ultrasonic Cleaning Machine
Ultrasonic Rinsing Tanks Without Ultrasound Generator Hot Air Dryer Hepa Filter Medical Ultrasonic Cleaning Machine
Cleaning of Laparoscopic Instruments is difficult with mere water flodding and rinsing. It is of prime importance to make sure that the Laparoscopic instruments and Bariatric length instruments are throughly cleaned from the inside to make sure that there is no organic debree and pathogen on the instruments. Washing it with disinfectant would also require a certain contact time which is time consuming. Ultrasonic cleaning machine is a simple one step solution which would clean the instruments witin 5-10 minutes of cleaning cycle thereby ensuring the cleanliness and hygiene of the instruments. It only cleans more effectively than manual washing, but also enhances the life of the instruments and helps avoiding cross contaminations.
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.
|Healthcare||Dental and surgical instruments, optical, podiatry, general practice, hospitals, medical components|
|Manufacturing:||Aerospace, pharmaceutical, defence, medical devices and orthopaedic implants, automotive, marine, filtration, moulding, food and beverage, plating & surface finishing, semi-conductors, printing technology and equipment.|
|Maintenance||Automotive servicing, jewellery & watches, tools, weapons, Heat exchangers, oil & gas, commercial coffee boiler|
|Laboratory||Scientific Research, Mixing, Cell Disruption, extraction, pharmaceutical Sonochemistry|
|Others||window blind, golf club, tattoo equipment, anilox roller, music equipment, weapons, electronics, etc.|
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..
Why Use Medical Ultrasonic Cleaning?
Professionals in the dental, lab and medical fields use ultrasonic systems to clean instruments, apparatus, labware, crowns, dentures and other devices prior to sterilization. Ultrasonic cleaning greatly reduces the risk of cross-contamination and infection that can occur with manual cleaning. This procedure is critical in protecting instruments against hand contact and is at the center of infection risk control
The Pharmaceutical Industry has a requirement for a precise clean when it comes to dyes that are used in the manufacture of tablets. As these dyes are extremely expensive and sensitive items the less manual handling which happens to the item increases the lifespan of it. Historically the process has been a manual one which is very time consuming and labour intensive. There are three major drawbacks and these are:
1.A lack of consistency of clean
2.Manual process subject to damage
Brief introduction of the ultrasonic cleaning equipment:
Ultrasonic cleaner now can be widely used in many industries: car industry, diesel industry, medical industry, electric industry, etc. Any waterproof parts can be used to clean in the tank. Need more info, welcome to inquiry.
Oil skimmer can be used to not only absorb the oil but also catch the impurities.
General introduction of the industrial ultrasonic cleaner:
1st ultrasonic cleaning tank
2nd rinsing tank after rinsing(or add a second rinsing tank for thorough rinsing)
3rd hot air drying tank
If any special requirements, pls just free to contact. And experienced engineer will design the machine for you.
Every manual console includes:
|Ultrasonic Tank Dimension(mm)||550X400X350||600X500X450||1000X600X600|
|Rinsing tank dimension(mm)||550X400X350||600X500X450||1000X600X600|
|Drying tank dimension(mm)||550X400X350||600X500X450||1000X600X600|
|Construction Case||SUS304 (Mirror shining image available)|
|Temperature range||20~80C adjustable|
|Lid & Basket||Available, material: SUS304|
|Cleaning Tank voltage||AC220V/AC380V 3phase|
|Generator Voltage||AC110V / 220V 1phase|
|Features||With triple tanks for cleaning and rinsing.
With filtration system
Multi-direction castors with brake;
1 year warranty
1. Ultrasonic power: 0-100% adjustable
2. Time setting: 0-30min or 24 hours continuous working
3. Heating: 20-80℃ adjustable
4: Ultrasonic frequency: 28 kHz or 40 kHz
5: Material: 2mm thickness SUS304 tank for acid-proof.
6: Improved PCB design for stable and durable industrial use
7: More strong and uniform ultrasonic wave
8: With free lid and stainless steel SUS304 basket
For 1pcs or small quantity, shipping by express/air is suggested.
For laege quantity, shipping by sea is cost-effective.
We have cooperated forwarder, welcome to ask freight.
1. AG SONIC technology limited, which engaged in ultrasonic cleaner field for more than 10 years. And the main products are ultrasonic cleaner with different capacity.
AGSONIC are leading designers and manufacturers of ultrasonic cleaners and cleaning equipment. We have over 10 years of experience and supply industry throughout WorldWide. Our products have applications in dozens of sectors including industrial, medical and commercial.
The engineer’s choice for outstanding performance .Our patented technologies use ultrasound to remove problem contamination from all types of hard surfaces such as metals, plastics and ceramics. The power of our equipment can be harnessed to clean items of all shapes, sizes and technical complexity, penetrating holes and cavities that are impossible to reach using ordinary cleaning methods.
Our ultrasonic cleaning process is based in piezo electric transducers, which are attached to the cleaning tank. These generate ultrasound waves that vibrate the cleaning fluid – either water or a specially formulated chemical – at a very high velocity, creating a process called cavitation. Millions of tiny bubbled implode within the solution and penetrate every orifice of the item being cleaned, removing dirt and grime within seconds.