SU1674989A1 - Method of ultrasonic cleaning of products - Google Patents

Abstract

The invention can be applied when washing precision products of complex design and shape from soils with poor adhesion to the surface. In order to improve the quality of cleaning and intensify the cleaning process when carrying out ultrasonic high-amplitude cleaning with reciprocating movement of the radiator above products located outside the zone of developed cavitation, per unit of the surface being cleaned, the ultrasonic field is applied during each pass of the radiator over the product for 0.4–0.8 s, which allows ifitsirovat process of removing contaminants by 15-20%. 1 tab

Description

The invention relates to the field of ultrasonic cleaning technology and may find application in the washing of precision products from contamination with weak adhesion to the surface.

The aim of the invention is to improve the quality of cleaning and process intensification.

The method of ultrasonic cleaning is carried out as follows.

A rod emitter having a square working end with a D-side of 40 mm, with an amplitude of oscillatory displacements of the end face of 30 μm, in a liquid excites an ultrasonic field. The emitter is moved reciprocally over the cleaning object at a speed of V 50-100 mm / s. At such speeds of movement, the duration of action of the ultrasonic field per surface unit during each pass of the radiator over the object, t D / v, corresponds to 0.4-0.8 s. During processing, the object to be cleaned is positioned no closer than 15 mm from the working surface of the radiator, since the zone of developed cavitation in the amplitude processing mode of 30 μm extends to a depth of about 15 mm. In order to provide the conditions necessary for the implementation of the proposed purification method, a rod oscillating system is used, designed for a power consumption of 1.5 kW and an operating frequency of 22 kHz. An aqueous washing solution is used as a washing liquid. For the lowering of the back-and-forth movement of the radiator, the LEFMO-3 installation mechanism is used, the design of which is modified according to the necessary range of movement speeds.

An example of the effectiveness of the proposed technical solution can be the results of an experiment to assess the effect of the duration of action of an ultrasonic floor on the unit being cleaned over (L).

WITH

With VJ

Jiw Yu 00 0

with each pass of the radiator over the products for the duration of cleaning. 05 the intensity of the cleaning process is judged by the duration of the washout of a layer of grease 1 mm thick from a square pad 40 x 40 in size placed 20 mm from the end of the radiator.

The obtained experimental data are given in the table.

Analysis of the obtained results shows that carrying out ultrasonic cleaning by the proposed method as compared with the known method allows to intensify the process of removing contaminants by 15-20%. Reducing the duration of a single-pass sounding unit of a surface less than 0.4 s, as can be seen from the results of the table, creates a positive effect, however, at such speeds of reciprocating movement of the radiator, dynamic loads and energy costs associated with deceleration and acceleration to the required speed , as well as with the resistance of movement in an environment that is proportional to the square of the velocity, which ultimately leads to irrational

Claims (1)

the result of reducing the exposure time to surface units of less than 0 4 s The formula of the invention The method of ultrasonic cleaning products, which consists in the fact that liquids with a rod emitter t, create an ultrasonic field with an amplitude of oscillatory displacements of 15–50 µm, and with this field intermittently affect the fluid located outside the zone of developed kevity the product to be cleaned by reciprocating the emitter above it, characterized in that, in order to improve the quality of cleaning and process intensification, an ultrasonic field acts on the surface to be cleaned during each pass of the emitter above the product for 0.4-0.8 s.