SU1011282A1 - Apparatus for ultrasonic contact type cleaning of elongated articles - Google Patents

Abstract

A DEVICE FOR ULTRAEVU KOBOY OF CONTACT CLEANING OF LONG TURN-TONS, including HCTO: IIHHK ultrasonic vibrations and a support: consisting of coaxially arranged rod, hollow cylinder and con; A tactic with it is at least one acoustic insulator, us-: suspended between the core and the hollow cylinder, o. t l ;; “yu e e C i, in order to increase productivity by extending the service life of the acoustic insulator and the magnitude of the oscillation amplitude, having excited the product to be cleaned, the acoustic insulator is made of acoustically conducting material in the form of the circumference of the spiral spiral with the length of each coil of it, providing the excitation of an acoustic isolator at one of the natural frequencies of the source of ultrasonic oscillations ..

Description

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iNd The invention relates to the technological application of ultrasound, namely, devices for contact cleaning products, in particular, tr from various kinds of contaminants, and can be used in various public goods industries. A device for ultrasonic contact cleaning of long products is known, including a source of ultrasonic vibrations located on different sides of the product being cleaned and a support formed by an acoustic node in which ultrasonic vibrations, of a certain amplitude, are excited and maintained. The disadvantage of this device; due to the implementation of the acoustic rod-shaped support, low maneuverability, most clearly manifested in the cleaning, of long curved pipelines. It is also known a device for ultrasonic contact cleaning of long products, which, due to the fact that the acoustic support in the form of a rotating roller, is sufficiently maneuverable. The support in the device consists of a coaxially arranged metal hollow cylinder in contact with the cleaning of the NMM product, a rod and an acoustic insulator made of rubber in the form of a sleeve installed between the rod and the hollow cylinder of the device. 2 The drawbacks of the device are a result of an acoustic insulator made of rubber. Ultrasonic vibrations excited in the acoustic unit of this device are partially damped by the acoustic isolator and absorbed by it. This leads to a decrease in the amplitude of the oscillations excited in the product being cleaned, and consequently to a decrease in the cleaning rate, i.e. to a decrease in performance. Under the action of a static pressing of a hollow metal cylinder to the product to be cleaned with a force of 20-30 kg, which is necessary for creating high-quality acoustic contact of the product with a source of ultrasonic vibrations, the acoustic isolator in the area between the rod and the hollow cylinder is locally compacted. This leads to a significant increase in the absorption of an acoustic IMD by an ultrasonic energy insulator and consequently to the heating of its material to high temperatures (11,200 ° C taking into account the heat released by friction) and subsequent destruction, resulting in the lifetime of the acoustic insulator the torus decreases, and this in turn leads to an increase in the time of the forced pdostoev device, i.e. to reduce performance. The purpose of the invention is to increase the npbi performance of the device by increasing the service life of the acoustic insulator and the magnitude of the amplitude of vibrations excited in the product. The goal is achieved by the fact that the device for ultrasonic contact cleaning of long products, including a source of ultrasonic vibrations and a support consisting of a coaxially arranged rod, a hollow cylinder and at least one acoustic insulator in contact between it and a hollow cylinder, isolates the torus is made of an acoustically conducting material in the form of a multiturn spiral closed around the circumference with the length of each turn of it, which excites the acoustic insulator on one s own source of ultrasonic vibration frequencies. FIG. 1 shows the device, a general view of FIG. 2 - acoustic insulator. The acoustic unit of the device consists of a source of ultrasonic vibrations 1 and a support between which the product to be cleaned 2 is installed. A source of ultrasonic vibrations is installed in the cavity of the housing S with the possibility of axial movement, and through the springs 4, the plate 5, the cam 6 of the eccentric clamp, ensuring its movement and acoustic contact with the product to be cleaned. The housing 3 is mounted on a vertical rack 8, in part of which a slider 9 is installed, moved along the axis of the rack by means of a screw 10. On the slider there is a fixed rod-11, which is the axis of the support consisting of a hollow metal cylinder 12 and two acoustic insulators in contact with it 13 and placed between the hollow cylinder and the bearing rod 14 and the sleeve 15. To secure the slide 9 in a certain position, the support 8 is equipped with a screw 16. The device operates as follows. The cleaned section of pipe 2 is inserted into the gap between the source of ultrasonic vibrations 1 and the hollow support cylinder 12, which is pre-exposed for processing the desired pipe diameter by rotating the screw 10, i.e. by moving the slider 9. Then turn the handle 7 of the eccentric clamp. In this case, the cam 6 lifts the plate 5, which, through the springs 4, ensures the forward movement of the source of ultrasonic vibrations and the high-quality acoustic contact of the pipe 2 with

Claims (1)

DEVICE FOR ULTRASONIC CONTACT CLEANING OF LONG-DIMENSIONAL MATTERS, including a source of ultrasonic vibrations and a support consisting of a coaxially located rod, a hollow cylinder and at least contacting with it? · ’One acoustic insulator installed between the rod and the hollow cylinder, o. The fact is that, in order to increase productivity by increasing the term. service of the acoustic insulator and the magnitude of the amplitude of the vibrations excited in the product being cleaned, the acoustic insulator is made of acoustically conductive material in the form of a multi-turn spiral closed around the circumference with a length of each of its turns, which ensures the excitation of the acoustic insulator at one of the natural frequencies of the source of ultrasonic q new vibrations. B (L Se >