Ultrasonic Cleaner With Heating Element 1.5KW 40Khz 60L Ultrasonic Cleaning Machine For Oil Filters
How does ultrasonic filter cleaning work?
Don’t replace filters when they become clogged with dirt, grease or other contaminants; ultrasonic cleaners can restore many types of filters to look and function like new. Ultrasonic parts washers are particularly effective for filters made of metal or plastic mesh; the gentle yet powerful process is much less damaging than traditional cleaning methods that use a brush and high-velocity chemical cleaning solutions. Ultrasonic cleaners use water based solutions that won’t damage filters yet reach every crack and crevice for the best possible clean. Ultrasonic cleaning uses a process called cavitation where microscopic bubbles form from ultrasonic waves, then implode on the part’s components; thereby vigorously yet gently scrubbing and cleaning surfaces and crevices. No matter how stubborn the build-up, your filters will be restored to full working capacity.
Introduction
Ultrasonic cleaning is a technology that uses high frequency sound waves (ultrasonic: above the range of human hearing) to agitate an aqueous or organic medium (cleaning chemistry) that in turn acts on contaminations adhering to substrates like metals, plastics, glass, rubber and ceramics. Contaminants can be dust, dirty, oil, pigments, grease, polishing compounds, flux agents, fingerprints, soot wax and mold release agents, biological soil like blood, and so on
Application
Ultrasonic cleaning can be used for many applications, including plastic parts, bearing, bolts, rubber parts, internal parts, plastic injection molds, transmission parts, and final cleaning of all engine parts prior to assembly, the versatility of ultrasonic cleaning machine make them the perfect choice for automotive, medical, pharmaceutical, aerospace, engineering and many other industries
Benefits of ultrasonics for filters:
How does it work?
Removal of contaminant from any type of component is achieved either via dissolution (for soluble contaminants), or displacement (for insoluble contaminants). The process of ultrasonic cleaning is an extremely effective aid during both these processes.
The dissolution of contaminant In order for soluble contaminant to be dissolved from the component part, it must be in constant contact with the cleaning agent. However over a period of time, the strength of the agent can become weakened and a saturation layer can form, acting as a barrier between the contaminant and the cleaning agent.
The ultrasonic implosions are highly effective at displacing the saturation layer, and thus allowing fresh cleaning agent to reach the contaminant.
In this way, ultrasonic cleaning is capable of speeding up dissolution processes and is especially beneficial when cleaning irregular surfaces or component internals.
Over time, saturate layer forms, blocking cleaning agent from contaminant
Ultrasonic implosions disperse saturate layer allowing cleaning agent to reach contaminant
Operating an Ultrasonic Filter Cleaner System
Ultrasonic cleaners are available in numerous sizes based on the capacity of the cleaning solution tank, and can range from tabletop models to industrial-sized floor models. Regardless of size they are equipped with ultrasonic generators that excite tank-mounted transducers that create millions of microscopic bubbles in the cleaning solution. These implode on contact with the filters being cleaned to blast away contaminants from any surface wetted by the ultrasonic cleaning solution. Depending on models, ultrasonic filter cleaning equipment such as available have timers, temperature controllers, sweep and degas options. Rinse stations and drying stations are also available for assembly line filter cleaning.
Here’s a simplified series of operation steps for ultrasonic filter cleaning equipment. Modifications can be made based on specific filter cleaning requirements.
It is efficient and requires less handling of parts – reducing the need for disassembly in order to clean.
AG ultrasonic cleaning machine effectively and thoroughly clean all types of Filter Cleaning
ultrasonic tank 60L filter ultrasonic machine :
Specifications for ultrasonic cleaner T-18S | |
Model | T-18S |
Tank capacity | 61L |
Tank size | 500x350x350mm |
Unit size | 640x490x570mm |
Tank material | 2mm SUS304 |
Ultrasonic power | 900W |
Heating power | 1.5KW |
Timer | 1-99min adjustable |
Heater | 0-80c adjustable |
Frequency | 28/40khz |
Control | External generator, more stable |
Optional | Oil filter system, pneumatic lift, rinsing tank, etc. |
Voltage | 110V, 1phase; 220V, 3phases/220V, 1phase; 380V, 3phases |
Warranty | 1 year |
Packing | 1unit/wooden case |
Supply high quality product
Provide OEM&ODM service
One Year Warranty
24/7 response.
Technical support for all time.
Professional suggestion for your cleaning job.
Full inspection for every product we made.
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.
2.Our engineer is engaged in the filed for more than 10 years, so we have improved PCB design for stable and durable industrial use. High quality product and good after-sales services are available from us.
3. Not only standard ultrasonic cleaner, any non-standard can be designed by engineer.
Suggestion and drawing are professional for you.
4. Welcome to visit our factory in Shenzhen, and we are appreciate for your suggestions and hope to conduct business cooperation.
AGSONIC Ultrasonics provides cleaners of many different varieties, as well as exclusive systems which are designed for specific purposes. Systems include:
•Bench-top and table-top designs for smaller applications
•Large cleaning tanks
•Multi-stage ultrasonic cleaners which include cleaning, rinsing, drying, or other processes
•Submersible systems to provide existing tanks with cleaning capabilities
•Industry-specific cleaners for aerospace and automotive parts cleaning applications
•Metal strip and wire cleaning machines
•Automated Systems: AGSONIC offers 4 different types of automated systems
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
Ultrasonic technology uses absolutely no harmful chemicals.
No fumes. No strong odors. No dangerous or expensive chemical disposal. Reduced risk.
The technology is remarkable, but the process is easy. More efficient and effective than chemical processes, the
machines are as simple to use as a dishwasher, with no hand labor or supervision necessary.
How do ultrasonic machines work?
Ultrasonic tanks generate high frequency sound waves through the use of transducers and electronic ultrasonic wave generators. Typical transducers are made from piezoelectric crystals which convert electrical energy into mechanical / sound wave energy because piezoelectric crystals change geometric size when electrical voltage is applied.
| Pessoa de Contato : | Daisy Huang |
|---|
