316 Stainless Steel Industrial Ultrasonic Cleaner

Machine technical parameters:
1. Tank size: 550L*400W*350Hmm
2. The inner tank adopts 2mm thick 316 stainless steel plate and the outer seal is made of 1mm thick stainless steel plate, tank bottom made of 2.5mm thickness 316 stainless steel
3. 24 pcs 50W ultrasonic transducers mounted under the bottom of tank as standard machine, low-side mounted can be customized as customer requirements.
4. Power supply 220V/110V single phase

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Product Details

316 Stainless Steel Industrial Ultrasonic Cleaner 

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Machine technical parameters:

1. Tank size: 550L*400W*350Hmm

2. The inner tank adopts 2mm thick 316 stainless steel plate and the outer seal is made of 1mm thick stainless steel plate, tank bottom made of 2.5mm thickness 316 stainless steel

3. 24 pcs 50W ultrasonic transducers mounted under the bottom of tank as standard machine, low-side mounted can be customized as customer requirements.

4. Power supply 220V/110V single phase

5. Ultrasonic power 1200W, ultrasonic frequency: 40KHZ/28KHZ

6. Including the circulation filtration system, filtration accuracy: 10um

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Filtration parameters:

A: The pump rated power 370W, discharge: 2 cubic meter, pump head: 20

    attached tank: 400*300*300mm Capacity: 36L

B:  Aim to recycling detergent, prevent secondary pollution.

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Model

JP-240G

Tank size

55×40×35cm

Unit size

78x105x80.5cm

wooden case package

84x111x94cm

Ultrasonic power

1200W

Heating power

3000W

Timer:

1~99min adjustable

Heater

20~95℃ adjustable

Frequency

28/40kHz

Tank capacity

77L with wheel ( free move)

Power supply

AC100-120V, 60Hz; AC220-240V, 50Hz

Weight

N.W.125kg, G.W. 150kg



FAQ

1. What is the size of basket of JP-240ST/240G with the same tank size: 500x400x350mm?

500x385x320mm

2. What is the max load?

200KGS

3. How to choose the proper detergent?

When choosing a cleaning fluid, consider the following three factors:

A. Cleaning efficiency

When selecting the most effective cleaning solvent, be sure to experiment. When ultrasound is introduced into an existing cleaning process, the solvent used does not generally need to be changed.

B. Easy to use

The liquids used should be safe, non-toxic, simple to operate and have a long service life.

C. Cost

The cost of the cheapest cleaning solvent is not necessarily the lowest. The use of solvents must take into account factors such as solvent cleaning efficiency, safety, and how much a certain amount of solvent can be cleaned. Of course, the selected cleaning solvent must achieve a cleaning effect and should be compatible with the cleaned workpiece material. Water is the most common cleaning solution, so the system using water-based solution is easy to operate, low in cost, and widely used. However, for certain materials and dirt, etc., which are not suitable for aqueous solutions, there are many solvents available.

4. What advantage does ultrasonic cleaner have?

Good cleaning effect, high cleanliness and consistent cleanliness of all parts.

The cleaning speed is fast and the production efficiency is improved. It is not necessary to touch the cleaning liquid with human hands. It is safe and reliable.

Deep holes, tiny gap and concealed parts can also be cleaned.

No damage to the surface of the workpiece, saving solvent, heat, workplace and labor.

Ultrasonic cleaning methods are more popular than conventional cleaning methods, in particular the surface of the workpiece is more complex, like some uneven surface, mechanical parts with blind holes, and some products that are particularly small and have high requirements for cleanliness such as: watches and clocks Precision mechanical parts, electronic components, circuit board components, etc., can achieve very good results using ultrasonic cleaning. The principle of ultrasonic cleaning is that the high-frequency oscillating signal emitted by the ultrasonic generator is converted into high-frequency mechanical oscillation by the transducer and propagated to the medium—the cleaning solvent. The ultrasonic wave dilutes the same forward radiation in the cleaning liquid, making the liquid Thousands of tiny bubbles are generated by the flow.

These bubbles form and grow in the negative pressure region where ultrasonic waves propagate longitudinally, and close rapidly in the positive pressure region. In this process known as the “cavitation” effect, the bubbles are closed to form an instantaneous high pressure of more than 1000 atmospheres, continuously generating instantaneous high pressures like a series of small “explosions” that constantly impact the surface of the object, causing the surface of the object to The dirt in the gap quickly peels off, thus achieving the purpose of purifying the surface of the object.

The mechanism of ultrasonic cleaning mainly includes the following aspects: When a cavitation bubble bursts, a strong shock wave is generated, and part of the dirt layer is stripped, dispersed, emulsified, and peeled off under the action of the shock wave. Because of the cavitation-induced air bubbles, the gap formed by the impact and the gap between the surface layer and the gap penetrates. Since this small bubble and the sound pressure expand in synchronization, the physical force like peeling repeatedly acts on the dirt layer and the dirt. The layers are peeled off and the air bubbles continue to infiltrate until the dirt layer is completely peeled off. This is the secondary effect of cavitation. Ultrasonic cleaning cleaning fluid ultrasonic vibration impact on the dirt. Ultrasonic accelerated chemical cleaning agent for the dissolution of the dirt, chemical forces and physical forces combined to accelerate the cleaning process.

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