超音波洗浄機の分類と用途は何ですか？

1.超音波周波数の分類

超音波洗浄機を理解している人は、超音波周波数が物体の洗浄効果を決定するため、超音波洗浄機の選択の重要な指標であることを知っています。 20khZ-80khz超音波洗浄機は、通常、特別な要件なしでほとんどの顧客に対応できます（ハードウェア、機械、電気めっき、ダイヤモンド、時計、眼鏡、宝石、その他の産業など）。 また、超音波周波数要件に関する一部の特殊産業は、薬物研究、薬物検査、薬物処理産業など、比較的高いものです。 最低から10KHZ、一般的な要件は40khzから90khzの周波数で、最高は1000KHZに達する可能性があります。 ただし、一般的な周波数を無制限に上げることはできません。周波数が高すぎると、トランスデューサーとタンクのボンディング作業が発生し、発電機回路にある程度の困難が生じます。 一部の業界では、高周波洗浄機が必要な場合は、技術チームと自社の工場メーカーに相談して要求を提供する必要があります。超音波洗浄機メーカーは、別の洗浄スキームのセットを設計します。

2、超音波出力分類による

The power size of ultrasonic cleaning machine is actually the customer's preferred index, generally ranging from 50W to 2000W, it determines the number, size and effect of cleaning objects. So ultrasonic cleaning machine manufacturers are also very important to this index, in the laboratory, laboratory, research institute, drug inspection institute and other scientific research units, as well as small watches, glasses, jewelry and other units, the use of power is not large, (generally below 500W); The mechanical and electronic industries (such as: gears, bearings, engine cylinder block, screw, oil pump, nozzle, electronic circuit board, diamond, etc.) generally use industrial cleaning machine, the power used in the market is mostly about 500W-2000W; Aerospace, surface treatment, hydraulic components, pharmaceutical and other industries to use more power, generally by 1000W or 2000W as the basic unit superimposed, roughly 2KW-10KW, some also use more high-power ultrasonic cleaning line equipment or customized automatic ultrasonic cleaning machine.

3、超音波回路分類によると

In recent years, most domestic cleaning machines in the same industry have adopted "large-scale integrated circuit" (commonly used IBGT module). Some small household ultrasonic cleaning machine of small power is generally used "self-excitation" circuit, the high power is generally used "he excitation" circuit. In the 60s and 70s, the most commonly used circuit was the "valve" circuit, which is characterized by strong power and stable performance (some users still use it today). However, its disadvantages are very obvious: (1) too large volume (2) too large power consumption (3) complex circuit, complex manufacturing (4) difficult procurement of supporting components and so on. At present this kind of model has been basically eliminated.