|Place of Origin:||China|
|Brand Name:||Hong Sonic|
|Minimum Order Quantity:||1 units|
|Packaging Details:||Wooden Case Packing|
|Delivery Time:||Depend On Quantity|
|Supply Ability:||1000 Units Per Month|
|Tank Capacity:||264L||Timer:||1-99H Adjustable|
|Unit Size:||940*740*770mm||Ultrasonic Power:||1.8W|
|Product Name:||Ultrasonic Washing Machine||Tank Size:||800*600*550mm|
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3KW 264 Liter Automotive Ultrasonic Cleaner For Cylinder Head With Heater
What Automotive Ultrasonic Cleaner Can Give You?
1. A faster and safer way for your engine block cleaning.
2. Save your time and labor.
3. Make your product better.
4. Keep you away from harmful solvent.
Hot to Maintain Ultrasonic Cleaning Solutions
As suggested above, the duration of the ultrasonic cleaning cycle is governed by the condition of parts being cleaned. A good practice is removing loose gross contaminants before placing parts in the bath.
During the operation contaminants that float to the surface should be skimmed off and set aside for proper disposal.
When the cleaning solution loses effectiveness it is time to drain and clean the tank with a water spray. This removes particles that have settled to the bottom and cause tank damage if allowed to remain over time. While elma tec clean A4 is biodegradable spent solution will contain contaminants and must be disposed of according to local regulations.
|Specifications for ultrasonic cleaner HS-1060|
|Tank material||SUS304 Or SUS316|
|Control||Outside generator, more stable|
|Optional||Oil filter system, pneumatic lift, rinsing tank, etc.|
Cleaning Effect Of Hongsonic Ultrasonic Cleaner:
How Does Automotive Ultrasonic Cleaner Work?
The process of ultrasonic cleaning uses high frequency sounds waves which are radiated through a liquid medium. These sound waves are created by peizo ceramic transducers which are bonded to the base of the ultrasonic bath. As an electrical current is passed through the two transducer crystal rings they become agitated and vibrate at around 40,000 times a second. This vibration converts the electrical energy to sound energy which is then transferred through the base of the tank into the liquid medium. As the sound waves pass through the fluid they cause the formation of microscopic bubbles. These bubbles continue to grow in size until they become unstable and cannot support their own density, causing them to implode. This is the phenomenon known as cavitation. As these bubbles collapse the surrounding cleaning fluid rushes in to fill the gaps, which creates an action similar to that of a scrubbing brush, but thousands of times a second per cubic centimetre. It is this process which gives ultrasonics is powerful cleaning action and makes it the most effective method for removing contaminants from hard substrates or complex shapes. This process can be further intensified by adding a cleaning detergent to the liquid. Ultrasonic detergents work on the same principle as a normal household detergent by aiding the loosening process. They also increase the saturation capacity of the liquid meaning it can hold more debris in solution so it cannot re-contaminate the item during removal from the ultrasonic tank. There are a variety of detergents available which can be used for various applications. Softer ferrous metals, such as aluminium, require a different detergent to steel as the harsher detergent can lead to surface pitting on soft metals. Speciality formulated carbon removal detergents easily lift of baked on debris without causing damage. Because the entire ultrasonic tank will contain cavitation bubbles it has the ability to penetrate areas which are unsighted or difficult to reach.