Views: 500 Author: Sinobakr Publish Time: 2024-08-22 Origin: Sinobakr
The principle of operation is to use the "cavitation effect" of ultrasonic waves to clean parts. The "cavitation effect" is caused by the ultrasonic generator emitting a high-frequency oscillation signal, which is then converted into high-frequency mechanical vibrations by a transducer and propagated into the cleaning liquid. This causes the liquid to flow and produce a large number of bubbles, which cover the surface of the cleaning object, enveloping it layer by layer. Eventually, when the pressure reaches a certain level, the bubbles burst, causing the dirt on the surface of the object to gradually fall off.
In simple terms, the working principle is to use the strong penetration power of ultrasonic mechanical shock force to impact the surface of the workpiece and combine with the chemical decontamination effect of the carbon hydrogen cleaning agent for comprehensive cleaning in a vacuum state, making the surface and blind holes, narrow gaps of the workpiece clean.
Based on the cleanliness requirements, production capacity, shape, size, and material of the cleaning parts, a good cleaning process is designed; equipped with a rod-type ultrasonic system to provide ultrasonic vibration for stripping fine particle pollutants from the workpiece during immersion cleaning.
Integrating cleaning, drying, vacuum oil immersion, centrifugal drying, and automatic conveying into a comprehensive unit, it becomes a model of intelligent cleaning and rust prevention technology.
It complies with national environmental protection requirements and the equipment is energy-saving and environmentally friendly; with a built-in vacuum distillation system to achieve the regeneration and recycling of solvents.
Utilizing the hydrophilic properties of the cleaning solvent, the cleaning range is wider.
The equipment is simple to operate, comfortable, and space-saving.
The cleaning solvent is easy to recover and can be reused.
Fully automatic processing, almost no manual operation is required. The parts after cleaning have a high degree of cleanliness. The equipment continuously discharges oil without waiting. The equipment is compact and occupies a small space.
Here is the translation:
Carbon hydrogen cleaning machines use ultrasonic waves in conjunction with hydrocarbon solvents to clean products.
The working principle leverages the "cavitation effect" of ultrasonic waves for part cleaning. This effect is produced when the ultrasonic generator emits a high-frequency oscillation signal that is converted into high-frequency mechanical vibrations by a transducer, which are then propagated into the cleaning solution. This causes the liquid to flow, creating numerous bubbles that envelop the surface of the cleaning object, layer by layer. Once the pressure reaches a certain level, these bubbles burst, gradually dislodging the dirt from the object's surface.
To put it simply, the working principle utilizes the strong penetrating power of ultrasonic mechanical shock to impact the surface of the workpiece, combined with the chemical cleaning action of the hydrocarbon cleaning agent, for a comprehensive cleaning in a vacuum state, ensuring that the workpiece surface, including blind holes and narrow gaps, is thoroughly cleaned.
The cleaning process is designed based on the cleanliness requirements, production capacity, shape, specifications, and material of the parts, equipped with a rod-type ultrasonic system to provide ultrasonic vibrations for stripping fine particle contaminants during immersion cleaning.
It integrates cleaning, drying, vacuum oil immersion, centrifugal drying, and automatic conveying into a comprehensive unit, setting a standard for intelligent cleaning and rust prevention processes.
The machine meets national environmental protection standards and is energy-efficient and environmentally friendly, featuring a built-in vacuum distillation system for solvent regeneration and recycling.
The hydrophilic nature of the cleaning solvent broadens the range of cleaning applications.
The equipment is user-friendly, comfortable, and space-efficient.
The cleaning solvent is easily recoverable and reusable.
The fully automated process requires minimal manual operation. The cleaned parts exhibit a high level of cleanliness. The equipment continuously discharges oil without delay and is compact, occupying minimal space.