启航彩 超声波清洗机是一种利用超声波振动的原理来实现清洗的设备。它主要由发生器、换能器、清洗槽、滤液系统和控制系统等部分组成。
Ultrasonic cleaning machine is a device that utilizes the principle of ultrasonic vibration to achieve cleaning. It mainly consists of a generator, a transducer, a cleaning tank, a filtrate system, and a control system.
超声波清洗机的工作原理是通过将超声波能量传递给清洗液,产生高强度的超声波振动,使清洗液中的尘埃、污渍以及固体物质被剥离并分散到液体中。其中,发生器会产生高频电信号,并将其转换成超声波振动;换能器则将电能转化为机械振动,将超声波能量传导至清洗槽中的清洗液;清洗槽则是用于容纳待清洗物品和清洗液的区域;滤液系统则可对清洗液进行过滤和循环;控制系统则用于控制超声波清洗机的运行参数,如时间、温度、功率等。
The working principle of an ultrasonic cleaning machine is to transfer ultrasonic energy to the cleaning solution, generate high-intensity ultrasonic vibration, and remove dust, stains, and solid substances from the cleaning solution and disperse them into the liquid. Among them, the generator will generate high-frequency electrical signals and convert them into ultrasonic vibration; The transducer converts electrical energy into mechanical vibration and transmits ultrasonic energy to the cleaning solution in the cleaning tank; The cleaning tank is an area used to accommodate the items to be cleaned and the cleaning solution; The filtrate system can filter and circulate the cleaning solution; The control system is used to control the operating parameters of the ultrasonic cleaning machine, such as time, temperature, power, etc.
启航彩 在清洗过程中,超声波振动会在液体中形成几百万次每秒的压力变化,产生微小气泡,这些气泡在快速扩大和瞬间坍缩时,释放出巨大能量,从而形成液体的微触碰和高压水柱,细微的物理冲击力可以彻底清除物品表面的污垢。
启航彩 During the cleaning process, ultrasonic vibration generates millions of pressure changes per second in the liquid, producing tiny bubbles that release enormous energy when rapidly expanding and collapsing, resulting in micro contact and high-pressure water columns of the liquid. The subtle physical impact can completely remove dirt from the surface of the object.
超声波清洗机具有清洗彻底、高效快捷、不伤害物品表面、能够清洗复杂形状物品等优点,广泛应用于制造业、实验室、电子工业、医疗行业等领域
Ultrasonic cleaning machines have the advantages of thorough cleaning, high efficiency and speed, no damage to the surface of items, and the ability to clean complex shaped items. They are widely used in manufacturing, laboratories, electronics, medical industries, and other fields