RU2680030C1 - Device for ultrasound cleaning of products - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: invention relates to a device for ultrasonic cleaning products. Device contains working tank (1) filled with washing liquid (2), source of ultrasonic vibrations (3) placed in working tank (1), and oscillator. Oscillator includes centrifugal liquid nozzle (5) and elastic tank (11) connected to working tank (1). Outlet channel (9) of centrifugal liquid nozzle (5) is connected through pipeline (12) with check valve (13) to elastic tank (11). Liquid pump (6) is installed in the inlet of centrifugal nozzle (5), which is connected to working tank (1) through valve (8) and filter (7).EFFECT: intensification of the process of ultrasonic cleaning by hydraulic action of the pulsating fluid flow.1 cl, 1 dwg

Description

The invention relates to the field of ultrasonic treatment and is intended for the cleaning of aircraft products from technological and operational pollution. Such an option of ultrasonic cleaning is capable of performing a wide range of tasks related to cleaning various surfaces of parts of gas turbine engines and aircraft, such as cooled blades, fuel manifolds, nozzles, hydraulic elements and other difficult-shaped products, from persistent pollution having a complex nature and not amenable to high-quality cleaning by other methods.

Known methods of ultrasonic cleaning of products, in which the products are immersed in a washing liquid in which an ultrasonic field is created by a rod emitter (a source of ultrasonic vibrations), the radiating surface of which performs piston vibrations with an amplitude of displacements of 15-30 microns [Panov A.P. "Ultrasonic high-amplitude surface cleaning." In the book. "The impact of powerful ultrasound on the interfacial surface of metals." M., "Science", 1986, p. 217]. The disadvantages of such methods include a small length, up to 15-20 mm in the direction of radiation, the zone of intensive formation of cavitation bubbles, which ensures cleaning of the surface of the products.

A known method of generating oscillations of a liquid stream using liquid centrifugal nozzles, which allows to obtain a pulsating liquid stream. [RF patent No. 2087756, 08/20/1997]

The closest analogue adopted as a prototype is a method of ultrasonic cleaning of products, in which, in order to intensify the working process, a product placed in the working fluid is affected simultaneously by two ultrasonic emitters [RF Patent No. 2378058]. In this case, the liquid flow with cavitation properties created by the main high-frequency emitter is supplied with additional energy from the second, low-frequency emitter in order to increase the zone of intensive formation of cavitation bubbles and thereby increase the cleaning efficiency. The disadvantages of this method include the identical nature of the two effects on the product being cleaned, allowing to intensify the cleaning process to some extent, but not adding new effects to the destruction and leaching of contaminants.

The method consists in the fact that the product, placed in a working container with washing liquid, is affected by ultrasonic vibrations from the source of ultrasonic radiation and at the same time a flooded stream of washing liquid is sent to the product with speed and flow rate varying with time. A device for simultaneously affecting the surface to be cleaned with ultrasonic effects that contribute to the destruction and removal of contamination and an alternating liquid stream consists of a source of ultrasonic vibrations and a generator of oscillations of the liquid stream, which is based on a liquid centrifugal nozzle. To generate oscillatory motion of the washing liquid with a given variable speed in the cleaning zone, the device contains an adjustable elastic capacity. The device provides the creation of ultrasonic vibrations in the washing liquid and the effects accompanying the propagation of ultrasound in the liquid medium, such as cavitation, radiation pressure, the formation of acoustic currents that enhance the destruction and removal of contaminants. At the same time, a stream of additional energy is supplied to the product being cleaned in the form of a flooded jet having an oscillatory nature of the flow. The use of additional energy in the form of a flooded jet having an oscillatory nature of the flow during directed ultrasonic cleaning makes it possible to increase the zone in which the cavitation bubbles collapse and also provides additional hydraulic action, which contributes to the destruction of contaminants and the removal of their products from stagnant zones. Depending on the specifics of the product being cleaned, the flooded stream can be supplied with different frequencies and in different directions.

The technical result is to increase the cleaning efficiency.

The claimed technical result in the method is achieved by the fact that according to the claimed method of ultrasonic cleaning of products, the product is placed in a working container with a washing liquid, it is exposed to ultrasonic vibrations from a high-amplitude source of ultrasonic vibrations, at the same time, an additional energy stream is supplied to the product in the form of a flooded jet of washing liquid having an oscillatory character.

The claimed technical result in the device is achieved by the fact that the device for ultrasonic cleaning of products contains a working container filled with washing liquid, a source of ultrasonic vibrations and an oscillation generator, while the source of ultrasonic vibrations is located in the working container, the oscillator includes a centrifugal liquid nozzle and an elastic container, connected to the working capacity, the output channel of the centrifugal liquid nozzle through the pipeline with a non-return valve is connected to the elastic capacity, while a liquid inlet duct swirler installed liquid pump coupled to the capacitance through the valve and filter.

The invention provides the creation of a region in a washing liquid that combines the simultaneous effects of the propagation of ultrasonic waves in a liquid medium and the hydraulic effects of the oscillatory movement of a flooded jet of washing liquid.

The hydraulic effect of the flooded liquid stream allows you to increase the area of active collapse of cavitation bubbles, thereby intensifying the process of ultrasonic cleaning. In addition, the hydraulic effect of the unsteady fluid flow on the surface being cleaned by itself causes the destruction of pollution and the removal of its products from stagnant zones.

The claimed invention is illustrated in the drawing.

In FIG. 1 shows a device, which includes a working tank 1, filled with washing liquid 2, an ultrasonic transducer 3. In the working tank 1 is placed an item requiring cleaning 4, which, through channel 9, is exposed to a jet formed by a centrifugal liquid nozzle 5 receiving liquid from the liquid pump 6 The liquid pump 6 draws the washing liquid 2 from the working tank 1 through the filter 7. The flow rate is regulated by a tap 8 located in front of the filter 7. To create an oscillatory movement of the washing liquid in the eye area Adjustable elastic volume 11 is connected through the check valve 13 to a pipe 12, which is fed with working fluid through the outlet channel 9 of the liquid centrifugal nozzle 5. At the time of the maximum filling of the adjustable elastic volume 11, the liquid stored in it enters the cleaning zone through the channel 10.

According to the claimed method, a product placed in a working container with a washing liquid is directed by ultrasonic vibrations from a high-amplitude ultrasonic emitter (source of ultrasonic vibrations) 3 with an amplitude of vibrational displacements of 15-50 microns and a frequency of 20-30 kHz, thereby creating acoustic fluid flows with cavitation properties. At the same time, a flooded jet of washing liquid is introduced into the treatment area, created by a liquid centrifugal nozzle 5 of a flow oscillation generator with an adjustable variable frequency and flow rate due to a change in the stiffness and volume of an adjustable elastic volume 11. Also, depending on the specifics of cleaning, it is possible to change the direction of washing the surface being cleaned the details.

The solution of the stated technical problem becomes possible due to the use of an oscillatory fluid flow created in addition to an ultrasonic high-amplitude emitter due to a flow oscillation generator having a liquid nozzle and an elastic container in its construction. A flow oscillation generator having a liquid centrifugal nozzle 5 in its composition creates an oscillatory regime of the fluid flow in the cleaning area due to the fact that the fluid flow supplied to the liquid centrifugal nozzle 5 is divided into two streams. The first comes directly from the output channel 9 of the liquid centrifugal nozzle 5 and enters the cleaning zone. The second passes through the check valve 13 and accumulates in an adjustable elastic volume 11. At the time of maximum filling of the adjustable elastic volume 11, the washing liquid from it enters the cleaning zone. Due to the release of the adjustable elastic volume 11 and its subsequent filling, the flow rate through the outlet channel 9 of the centrifugal nozzle 5 is reduced to the maximum filling of the adjustable elastic volume 11. Thus, the oscillatory movement of the washing liquid is carried out.

The invention is aimed at creating in a washing liquid an expansion of the zone of active collapse of cavitation bubbles, as well as other ultrasonic effects that contribute to the destruction and removal of contaminants from the surface of products. At the same time, the intensification of the cleaning process is facilitated by the intense hydraulic effect of the pulsating fluid flow.

Claims (1)

A device for ultrasonic cleaning of products containing a working container filled with washing liquid, a source of ultrasonic vibrations and an oscillation generator, while the source of ultrasonic vibrations is located in the working container, the oscillation generator includes a centrifugal liquid nozzle and an elastic container connected to the working capacity, the outlet channel is centrifugal liquid nozzles through a pipeline with a non-return valve connected to an elastic tank, while in the inlet channel of the liquid centrifugal nozzle is installed liquid a bone pump connected to the working tank through a tap and filter.

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