108L Two Tanks Industrial Ultrasonic Cleaner 0-1500W Adjustable Power

Blue Whale Two Tanks 108L Industrial Ultrasonic Cleaner with Cleaning Heating and Spraying Function

1. What is ultrasonic cleaning technology?

Ultrasonic cleaning technology is a cleaning method that utilizes high-frequency sound waves, known as ultrasonic waves, to remove contaminants from various objects and surfaces. It involves the use of an ultrasonic cleaning machine, which consists of a tank filled with a cleaning solution and ultrasonic transducers.

Here's how ultrasonic cleaning technology works:

Generation of Ultrasonic Waves: The ultrasonic cleaning machine generates high-frequency electrical signals, typically in the range of 20 to 400 kilohertz (kHz). These electrical signals are converted into mechanical vibrations by the ultrasonic transducers.

Creation of Cavitation Bubbles: The mechanical vibrations produced by the transducers are transferred to the cleaning solution in the tank. This causes the rapid formation and collapse of tiny bubbles in a phenomenon called cavitation. The intense energy released during the collapse of these bubbles creates microscopic shockwaves.

Cleaning Action: The collapsing cavitation bubbles and the resulting shockwaves create a scrubbing effect on the surface of the objects being cleaned. This scrubbing action dislodges and removes contaminants such as dirt, oils, grease, scale, rust, and other particles from the surfaces.

Penetration into Complex Geometries: The ultrasonic waves penetrate into intricate and hard-to-reach areas, including crevices, blind holes, and fine details. This makes ultrasonic cleaning particularly effective for cleaning objects with complex geometries or surfaces that are difficult to clean using traditional methods.

Cleaning Solution Chemistry: The effectiveness of ultrasonic cleaning can be enhanced by using a suitable cleaning solution. The cleaning solution is formulated to optimize the cleaning process by loosening and dissolving specific types of contaminants, improving the overall cleaning efficiency.

Ultrasonic cleaning technology offers several advantages. It provides a thorough and consistent cleaning action, reaching areas that are difficult to access by other cleaning methods. It is non-destructive to most materials when used properly and can clean delicate objects without causing damage. Ultrasonic cleaning is widely used across various industries for its ability to effectively remove contaminants and improve cleanliness.

It's important to note that while ultrasonic cleaning is highly effective for many applications, there may be certain items or materials that are not suitable for ultrasonic cleaning due to their sensitivity or potential for damage. It's always recommended to check the manufacturer's guidelines and recommendations for the specific items being cleaned.

2. Product Features:

1). Working process: the 1st tank ultrasonic cleaning with heating, remove the rust, grease and dust from the cleaning items. The 2nd tank high pressure spraying to provide deep cleaning service. The alarm buzzes once complete the spraying process.
2). The inner tank material: the use of 304 stainless steel, thickened to 2mm, manual argon welding, strong and durable;
3). Adjustable time: 1-99 minutes/hour adjustable, can be opened often;
4). Memory function: the device has an independent memory chip, and there is no need to reset over and over after the time is set;
5). Equipment power cord: the use of industrial thickened power cord, safe and durable;
6). Industrial grade transducer: the use of industrial shock head, strong force and good effect, can work 24 hours uninterrupted;
7). Generator control system: independent generator control system, flexible control, can be set according to the user's cleaning needs to adjust the ultrasonic power;
8). Heating automatic constant temperature system: 20-95 degrees adjustable, equipped with stainless steel heating tube, fast heating speed.

3. Double Tanks Industrial Ultrasonic Cleaner CHS Series: Ultrasonic Cleaning, Heating, High Pressure Spraying

4. What items can be cleaned by ultrasonic cleaning machine?

Ultrasonic cleaning machines can effectively clean a wide range of items across various industries. Here are some examples of items that can be cleaned using an ultrasonic cleaning machine:

Industrial Parts: Ultrasonic cleaning is commonly used for cleaning various industrial parts, such as metal components, machine parts, gears, valves, bearings, screws, and fasteners. It can remove contaminants like oils, greases, dirt, rust, and scale from these items.

Electronics: Ultrasonic cleaning is suitable for cleaning electronics and electrical components, including printed circuit boards (PCBs), connectors, switches, relays, sensors, and electronic assemblies. It helps remove flux residues, soldering debris, dust, and other contaminants that can affect performance and reliability.

Medical Instruments: Ultrasonic cleaning is utilized in the healthcare industry for cleaning surgical instruments, medical devices, dental tools, and laboratory equipment. It effectively removes biological residues, blood, tissue fragments, and other contaminants, ensuring proper sterilization and hygiene.

Jewelry and Watches: Ultrasonic cleaning is widely used by jewelers and watchmakers for cleaning jewelry pieces, watches, gemstones, and precious metal items. It can remove dirt, oils, lotions, polishing compounds, and other residues from intricate settings and tight spaces.

Optics and Lenses: Ultrasonic cleaning is suitable for cleaning optical lenses, camera lenses, eyeglasses, binoculars, telescopes, and other optical components. It can remove dust, fingerprints, oils, and smudges, improving optical clarity and performance.

Automotive Parts: Ultrasonic cleaning is employed in the automotive industry for cleaning engine components, fuel injectors, carburetors, pistons, valves, and other automotive parts. It effectively removes carbon deposits, oils, greases, and contaminants, improving performance and extending the lifespan of the parts.

Antique Restoration: Ultrasonic cleaning can be used for restoring antiques, artifacts, and delicate historical objects. It can gently remove dirt, soot, tarnish, and other surface contaminants without causing damage to the original material.

Aerospace Components: Ultrasonic cleaning is utilized in the aerospace industry for cleaning aircraft engine parts, turbine blades, fuel system components, and other aerospace components. It helps remove contaminants such as oils, carbon deposits, dirt, and debris.

Please note that the suitability of ultrasonic cleaning for specific items depends on factors such as material compatibility, the nature of contaminants, and any specific cleaning requirements or guidelines provided by the manufacturer. It's important to consider these factors and consult the appropriate guidelines before cleaning items using an ultrasonic cleaning machine.

5. Can ultrasonic cleaning technology be used for cleaning delicate fabrics or textiles?

Ultrasonic cleaning technology is generally not recommended for cleaning delicate fabrics or textiles. While ultrasonic cleaning can be highly effective for cleaning a wide range of materials, including hard surfaces and some textiles, it may not be suitable for delicate fabrics due to the potential risk of damage.

Delicate fabrics such as silk, lace, chiffon, or wool can be sensitive to the intense scrubbing action and the vibrations generated by ultrasonic cleaning. The agitation caused by the rapid collapse of cavitation bubbles can potentially stretch, tear, or distort delicate fibers, leading to fabric damage or alteration of the fabric's appearance.

It is advisable to use alternative cleaning methods for delicate fabrics, such as hand washing or professional dry cleaning, which are specifically designed to be gentle and minimize the risk of damage. These methods allow for careful control of the cleaning process, including water temperature, detergent selection, and manual manipulation, ensuring a more suitable and controlled cleaning approach for delicate textiles.

If you are uncertain about the appropriate cleaning method for a particular fabric, it's advisable to consult the fabric care instructions provided by the manufacturer or seek guidance from a professional dry cleaner or textile expert who can provide specific recommendations based on the fabric type and its cleaning requirements.

6. Customer's Cleaning Feedback:

7. Are there any specific precautions or guidelines to follow when using an ultrasonic cleaning machine?

There are specific precautions and guidelines to follow when using an ultrasonic cleaning machine to ensure safe and effective operation. Here are some general precautions and guidelines:

Read the Instruction Manual: Familiarize yourself with the user manual provided by the manufacturer of the ultrasonic cleaning machine. It will provide important information regarding the machine's operation, maintenance, and safety guidelines. Follow the instructions carefully.

Personal Protective Equipment (PPE): Wear appropriate personal protective equipment, such as safety goggles, gloves, and protective clothing, when operating the ultrasonic cleaner. This helps protect against potential splashes, spills, or exposure to cleaning agents.

Ventilation: Ensure that the area where the ultrasonic cleaning machine is used is well-ventilated. Some cleaning agents may emit fumes or vapors that could be harmful if inhaled. Proper ventilation helps maintain a safe working environment.

Equipment Inspection: Regularly inspect the ultrasonic cleaning machine for any signs of damage or malfunction. Check the power cords, controls, and transducers to ensure they are in good condition. Do not use a machine that is damaged or not functioning properly.

Compatible Cleaning Solutions: Use cleaning solutions that are recommended by the manufacturer or are suitable for the specific items being cleaned. Ensure that the cleaning solution is compatible with the materials being cleaned to avoid damage.

Proper Loading: Place items to be cleaned in the cleaning basket or rack, ensuring they are properly positioned and not overcrowded. Overloading can reduce the effectiveness of cleaning and may lead to inadequate results.

Avoid Immersion of Electrical Components: When cleaning electronic items or components, take precautions to avoid immersing electrical connectors, switches, or other sensitive parts in the cleaning solution. Consult manufacturer guidelines if unsure.

Timer and Power Settings: Set the appropriate cleaning time and power level according to the manufacturer's recommendations and the cleaning requirements. Avoid excessive cleaning times or power levels that could potentially damage the items being cleaned.

Post-Cleaning Rinse: After ultrasonic cleaning, rinse the items thoroughly with clean water to remove any residual cleaning agents. This step helps ensure the removal of any remaining contaminants and cleaning solution residues.

Maintenance and Cleaning: Regularly clean and maintain the ultrasonic cleaning machine according to the manufacturer's instructions. This includes cleaning the tank, removing debris, and replacing cleaning solution as needed.

Always follow the specific guidelines provided by the manufacturer of your ultrasonic cleaning machine for safe and effective operation.