Material: | Sus304/316 | Used: | Ultrasonic Washer Machine |
---|---|---|---|
Industry Used: | Car Motor Repair Industry | Ultrasonic Power: | 4500W |
Automatic: | Mechanical Workshop Cleaning | Sovent Recycle: | Filter System |
Cleaning Typer: | Automotive | ||
High Light: | ultrasonic carburetor cleaning machine,large ultrasonic parts cleaner |
Self Service Car Wash Equipoment Ultrasonic Washer Machine Used In Mechanical Workshop
Why choose ultrasonic cleaning machine to clean our engine block and engine parts?
Clean intricate and difficult to reach areas easily
A major challenge of any cleaning system is the difficulty faced in tackling tiny spaces, intricate geometries, and difficult to reach surfaces, ultrasonic cleaning penetrates even blind holes and small apertures, that previously had hit-and miss success rates, the uniform agitation of the cleaning solution ensures that the cleaning action penetrates even hard to reach areas that previously required specialized brushes and other complicated cleaning devices with no real guarantee of a successful and consistent cleaning outcome, various factors go into determining which combination of an ultrasonic unit and chemical solution is suited to your particular requirement
For effective cleaning the ultrasonic cleaning machine must use the right of cleaning chemistry, operate at the right temperature and use the correct frequency, the part to be cleaned the contaminant to be removed and the degree of soil, determine this, our years of experience advising manufacturing and maintenance clients on the right process for their cleaning needs help us identify the exact product combo that you need, just send AG SONIC email or call us, and we’ll guide you to the right solution quickly
AGSONIC ultra sonic cleaning of all parts old and new prior to assembly of the engine. This Ultrasonic Cleaning Method is long known as the "benchmark" in cleaning. Ultrasonic cavitation is able to clean right down to the surface of a part and beyond. It is also able to reach internal areas, which are not accessible by using other cleaning means including spray and mechanical agitation. The forceful nature of ultrasonic energy provides the physical "push" required to break the mechanical and ionic bonds that hold very small particles to surfaces.
Ultrasonic Cleaning of Engine Parts, Car engine parts, Truck engine parts and Motor bike engine parts
Our Ultrasonic cleaning process, can effectively clean the following components- Aluminum castings, engine blocks, Carburetors, Cylinder Heads, Engines, Engine Components, Gear Boxes, Filters, Tubes and Valves.
Ultrasonic Parts Cleaner Boosts Efficiency of Small Engine Shops
Owners of small engine repair shops more easily accommodate seasonal peaks in demand when they use an ultrasonic cleaner instead of manually scrubbing carburetors, engine blocks and other engine components in harmful solvents that can also present a disposal problem.
For example, fuel in the carburetors of lawnmower engines, outboard marine engines and snowmobile engines that sit idle during portions of the year may thicken and gum up small passages and orifices virtually impossible to reach by manual cleaning. In contrast, the cavitation action generated by an ultrasonic cleaner reaches any and all surfaces of these delicate instruments, safely restoring them to a like-new condition. Carbon, varnish and grease build-up on valves, cylinder heads and other engine parts are likewise safely removed even from aluminum surfaces thanks to the power of ultrasonic cleaning using biodegradable ultrasonic cleaning solutions.
Components of an Ultrasonic Cleaner
Ultrasonic cleaners come in a variety of sizes, either tabletop or floor mounted. The cleaning action is performed in the cleaning tank, which is filled with the ultrasonic cleaning solution after dilution to the manufacturer’s specification. Devices called ultrasonic transducers are mounted on the bottom of the tank and are connected to an ultrasonic generator.
When the unit is turned on, cavitation action begins. Parts to be cleaned are placed in a mesh basket and lowered into the solution for the cleaning cycle. The billions of tiny bubbles generated by the transducers implode with tremendous force upon contact with the engine parts, removing all contaminants without damaging the parts.
The cleaning cycle can be as little as 10 minutes but depends on the quantity of parts being cleaned and the extent of contamination. After being cleaned engine parts are removed, rinsed, dried and are ready for reassembly. Time that mechanics would otherwise spend on manually cleaning the parts can be used to service other engines.
Automotive Parts Cleaning Machine
Performance, Industrial Strength, Cleansing Action
Cleans carbon deposits from carburetors and all manner of engine parts
Removes stubborn oil, grease, lubricants, paint, rust, and dirt (with pre-cleaning in some cases)
Aluminum Safe
Penetrates deep into the part and cleans holes, small apertures, and crevices
Cleans sensitive parts like wiring and plastic without damage
Does not require ‘line-of-sight’ for effective cleaning
Ensures part longevity due to high degree of cleanliness
Carburetors
Fuel Injectors
Brake Cylinders
Cylinder Heads
Differential
Small needle valves, jets, orifices, and ports of a carburetor; intake and exhaust ports or a cylinder head; pistons.pinion gears and much more can be cleaned and made just like brand new within few minutes.
Removing the accumulated oil sludge, varnish and carbon deposits, from these engine parts, manually by hand can be a tedious and long process. But using an ultrasonic parts cleaner makes all this a breeze. And for this reason ultrasonic cleaning device is considered one of the best tools in the auto mechanic’s garage. Get one now if you haven’t tried it yet!
ULTRASONICS FOR THE AUTOMOTIVE INDUSTRY
Automotive repair, manufacturing and rebuilding companies can rely on ultrasonic cleaning technology to remove dirt and contamination from various parts and components far faster and more efficiently than traditional cleaning methods.
We know that the cleanliness of the parts you process reflects on your business and reputation. Count on us to provide the tools, training, and support you need to maximize your production and profitability.
AGSONIC ultra sonic cleaning of all parts old and new prior to assembly of the engine. This Ultrasonic Cleaning Method is long known as the "benchmark" in cleaning. Ultrasonic cavitation is able to clean right down to the surface of a part and beyond. It is also able to reach internal areas, which are not accessible by using other cleaning means including spray and mechanical agitation. The forceful nature of ultrasonic energy provides the physical "push" required to break the mechanical and ionic bonds that hold very small particles to surfaces.
Ultrasonic Cleaning of Engine Parts, Car engine parts, Truck engine parts and Motor bike engine parts
Our Ultrasonic cleaning process, can effectively clean the following components- Aluminum castings, engine blocks, Carburetors, Cylinder Heads, Engines, Engine Components, Gear Boxes, Filters, Tubes and Valves.
For your convenience we can offer a courier collection service on your parts. Most orders can then be effectively turned around in 24 hours and shipped back to you for next day delivery.
We pride ourselves in the knowledge that the vast majority of Engine parts can be effectively cleaned, thus restoring the component's optimum performance level. No parts leave our unit until they have passed stringent quality control measures by our team of fully trained Ultrasonic technicians.
If you require specialist Engine parts cleaning please feel free to call, and one of our staff will be happy to discuss your requirements, and give a quote without obligation.
Ultrasonics can clean
plastic molding equipment
rubber molding equipment
stamping equipment
fabricated parts
machined components
subassemblies
injectors
tooling
transmissions
ABS brake systems
drivetrain components
Efficiently Removing
carbons
varnishes
oil
grease
metal shavings
lubricants
rusts
carcinogens
The Advantages of AG Gas Turbine Parts Ultrasonic Cleaning
Ultrasonic cleaning machine delivers high performance industrial strength, cleaning action on Engine block, carburetor and Engine parts
01: Cleans Gas Turbine Parts carbon deposits from carburetors and all manner of engine parts
02: Removes stubborn oil grease, lubricants, paint, rust, and dirty (with-pre-cleaning in same cases
03: Aluminum sate
04: Penetrates deep into the part and cleans holes, small apertures and crevices
05: Clean sensitive parts like wiring and plastic without damage
06: Does not require line-of-sight for effective cleaning
07: Ensures part longevity due to high degree of cleanliness
Single tank models for your choice:
Ultrasonic Cleaning tank models for your choice:
Model | Tank size | Unit size | Volume | Ultrasonic power | Frequency | Heating power | Timer | Heating temperature |
LxWxH(mm) | LxWxH(mm) | (L) | (W) | (kHz) | (KW) | (MIN) | (℃) | |
T-12S | 500x300x250 | 640x440x470 | 38 | 600 | 28/40 | 1.5 | 1-99 |
0-80 |
T-18S | 500x350x350 | 640x490x570 | 61 | 900 | 1.5 | |||
T-24S | 550x400x400 | 690x540x620 | 88 | 1200 | 3 | |||
T-30S | 600x450x400 | 740x590x620 | 108 | 1500 | 3 | |||
T-36S | 600x500x450 | 740x640x670 | 135 | 1800 | 4.5 | |||
T-48S | 700x500x500 | 840x640x720 | 175 | 2400 | 6 | |||
T-60S | 800x600x550 | 940x740x770 | 264 | 3000 | 7.5 | |||
T-72S | 1000x600x600 | 1140x740x820 | 360 | 3600 | 9 |
Gas Turbine Parts Ultrasonic Industrial Cleaning Tank Detail
Ultrasonic Engine Cleaning remove oil , dirty ,Perfect cleaning effect !
Competitive Advantage:
Adjustable ultrasonic power
Original BLT type transducer
dual frequency 40 and 120khz for different cleaning items, gentel but powerful
SUS304/316L tank
Adaptable for continuous operation
Adjustable thermo controller
ULTRASONIC CLEANING
This is the same method that the jeweler uses to clean your Wife’s diamond rings.
Ultrasonic cleaning uses sound waves to create millions of small bubbles in a tank of cleaning solution. The parts to be cleaned are submerged in the solution and as the bubble are formed and “explode” they remove any dirt, grease, carbon etc. This method also works very well. The one disadvantage that I noticed with ultrasonic cleaning is that aluminum parts do not come out of the cleaning tank looking like new. They seem to have some discoloration to them even though they were clean. If you are going to paint the parts then this shouldn't matter.
Q - How do I tell if my ultrasonic cleaner is working right?
There is no universally accepted standard for evaluating the performance of an ultrasonic cleaner. Several methods are available which will detect day to day variations in relative ultrasonic intensity. The classic "aluminum foil test," removing graphite from a ceramic surface and various hydrophone-type devices are the most commonly used for this purpose. When using any of these, it is important to duplicate conditions as closely as possible to assure that any change indicates a true variation in the ultrasonic performance and is not related to a change in temperature, soil loading, chemical concentration or any of several other variables. For critical applications and where the expertise is available, an alternative approach is to evaluate the transducer condition by measuring its capacitance and resistance and to monitor the generator power by measuring its input current, input power or output power. If the transducer characteristics are within specifications and if the generator is drawing the correct power from the AC lines or delivering the correct power to the transducers, the probability that the ultrasonic cleaner is working right is very high.
Q - Which frequency is best for cleaning?
Different cleaning requirements require different ultrasonic frequencies. Lower ultrasonic frequency means larger cavitation bubbles and more intense cavitation implosions. At higher frequencies, the cavitation bubbles are smaller, and although the cavitation implosions are individually less intense there are more of them. Frequencies below 80 kHz are commonly used for industrial cleaning applications where contaminants are relatively heavy and the parts being cleaned are robust. Frequencies above 80 kHz are more frequently used to clean more delicate parts that require a higher degree of cleanliness. Multiple frequency ultrasonics is indicated when a wide range of particle sizes and types need to be removed for the highest degree of cleanliness. Thus, in an optimized single process, one would employ low frequency ultrasonics to remove large particles and / or gross contamination, and high frequency ultrasonics to remove submicron particles. This constitutes the ideal cleaning process, in which a part can be exposed to relatively low frequency ultrasound, i.e. 40 kHz or 72 kHz, for short amounts of time and then to high frequency ultrasound, i.e. 104 kHz or 170 kHz for long times. Such a process would avoid the damage often associated with low frequency ultrasonics but run the gamut, from large to submicron sized particles, with excellent particle removal efficiency. The most recent technological advances in ultrasonic systems allow such a processing scheme to be realized