30L Sonic Ultrasonic Cleaner SUS304 Tank 1-30 Mins Timer Adjustable

Why You Need Whale Cleen sonic Ultrasonic Carb Washing Machine?

Power sports, such as motorcycle racing, jet skis, and bobsled riding, can be rough on the components of these machines. Over a season of hard use, maintenance needs to be done, particularly on carburetors. Since an engine really only needs fuel, air, and spark to live, and the carb is responsible for two-thirds of that equation, many motorcycle and other power sport vehicle engine issues stem from this vital part. Yet, it’s also a hard part to clean with traditional methods. Enter the ultrasonic cleaner. With an ultrasonic cleaning unit and the right detergent, a business that services power sport vehicles can move from hours of tedious labor with dangerous chemicals to a smooth and thorough cleaning operation accomplished in a fraction of time and for a fraction of the cost.

In short, an ultrasonic carburetor cleaner eliminates soaking in dangerous solvents or tedious hand-scrubbing. It also significantly decreases labor time required for most maintenance and repair jobs, freeing workers for other tasks. An ultrasonic cleaning device thoroughly cleans all parts safely, including all chrome pieces, carburetors, pistons, cylinders, and all transmission parts, and it eliminates the need for toxic waste removal or other expensive services.

Features:

• Free Parts’ Basket

• Industrial grade model

• Side Handles for easy handling

• Heating element for best cleaning results

• Heating element can stay on all day even if ultrasonic power is off

• Stamina XP Series

• Digital Ultrasonic Timer

• Industrial-Grade Transducer for best reliability

• Drain Faucet for spill-proof draining

• Power Adjustable

Data Sheet Of LanJ-J10:

Customer's Cleaning Feedback:

How Do Ultrasonic Cleaners Work?

A simple way that ultrasonic cleaners work is likening them to an automatic dishwasher, but with some added refinements. An automatic dishwasher, much the same as an ultrasonic cleaner, combines water and a detergent to remove grease, grime and other contaminants from objects being cleaned.
Applications for ultrasonic cleaners include cleaning precision optics and laboratory glassware. Instead of cleaning pots and pans and bowls, ultrasonic cleaners most often are used to clean various other metal and plastic products difficult or impossible to clean by other methods.

Components of an Ultrasonic Cleaner

• Tanks to hold the cleaning solution. Tanks should be of stainless steel; their volume depends on the size of objects being cleaned

• Ultrasonic transducers that create the cavitation and that are bonded to the bottom of the tank

• A generator to power the transducers

• Controls that range from a simple on-off switch to sophisticated microprocessors that govern cleaning time, sweep, pulse, degassing, temperature, ultrasonic frequency , ultrasonic power, auto safety shutoffs and other refinements. More on these below.

What Do Ultrasonic Transducers Do?

There are two basic types of transducers; piezoelectric (a.k.a. electrostrictive) or magnetostrictive, but their function is the same. They are excited by electric current provided by the ultrasonic cleaner's generator to vibrate at ultrasonic frequencies that cause the bottom (and sides as the case can also be) of the tank to vibrate and thus serve as a membrane. This vibration forms the vacuum bubbles that implode, (not explode) on contact with items in the ultrasonic cleaner tank thereby blasting loose and carrying away contaminants. There are also immersible transducers. Ultrasonic frequency is an important part of how ultrasonic cleaners work and is discussed next.

How to Choose an Ultrasonic Cleaner Frequency

Ultrasonic is typically defined as sound above the human range of hearing. Low frequencies such as 25,000 cycles per second or 25 kHz produce relatively large bubbles that implode more violently than those created at higher frequencies such as 37, 80 or 130 kHz that produce progressively gentle cleaning action. As an example, the radius of a cavitation bubble produced at 37 kHz is approximately 88 microns. At 80 kHz it is 41 microns.
As a bit of digression, the implosion of cavitation bubbles produce shock waves radiating from the site of the collapse and create temperatures in excess of 10,000°F and pressures in excess of 10,000 psi at the implosion site. Yet the process is so fast that there is little heat buildup and no damage to parts being cleaned. That said, one should never reach into an operating ultrasonic cleaner to check, reposition or remove parts for examination.
Removing gross contaminants from robust parts such as fabricated or cast metals requires lower frequency cleaners. Softer metals, plastics, and products with polished surfaces should be cleaned at higher frequencies. In addition to protecting polished surfaces smaller bubbles are better able to penetrate tight areas such as seams, crevices and blind holes. If you'd like more information on this particular topic check this article on selecting ultrasonic cleaner frequencies.
Our point is that purchasing decisions for an ultrasonic cleaner should be made on more than price.

Discount Policy:

If you are the first customer of Whale Cleen sonic, you will get US$50 coupon when your purcahse amount over US$500.More discount information,please contact our sales man for more detail.