SU1320074A2 - Arrangement for rolling profile shells made from reinforced materials - Google Patents

Abstract

The invention relates to equipment for the manufacture of articles made of reinforced materials, namely for rolling the profile shells wound onto a mandrel. The aim of the invention is to expand the technological capabilities of the device while improving the quality of the molded shells. This goal is achieved due to the fact that the device is equipped with a magnetostrictive emitter 12 located between spheres (C) 5 and being in acoustic contact, C 5 is fixed in the housing 4 rotatably, filled from an elastic material and filled with liquid 15. In the process of winding due to the rod 6 being moved along the guide 2, the body 4 provides contact C with the workpiece, the magnetostrictive emitter 12 transmits oscillating rotating C, which thereby compresses the material of this workpiece, which increases product quality. 2 Il. about (L with S g Ni

Description

one . 1320074 The invention relates to the processing of reinforced materials, can be used in various areas of the national economy when winding longitudinal shells, and is an improvement to an anther roller. St. USSR № 1063618.

The purpose of the invention is to expand the technological capabilities of the device while improving the quality of the molded shells,

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. Fig. 1 is a schematic of a device for rolling profile shells; figure 2 - sphere, cross section.

The device for rolling profile shells of reinforced materials contains a mechanism 1 for moving the device along a guide 2 along the shaped shell 3 and a body 4 with spheres 5. The body 4 is equipped with a telescopic bar 6 rigidly mounted on it, pivotally connected to mechanism 1 movement. The spheres 5 are equipped with a rubber ring cuff 7, having the shape of a letter L in cross section and mounted in the opening of the base of the body 4 and two felt rings 8 and 9 mounted inside the body 4. The spheres 5 are housed in the body

4c. rotatable and preloaded

to supporting platforms 0 mounted in housing 4 on thrust bearings 11 in such a way that the axis of rotation is perpendicular to guide 2 and the plane of contact with spheres 5 is parallel to it, while the point of contact of the preforming sphere 5 and the supporting platform 10 is separated from the axis rotation of the latter at a distance exceeding the thrust radius of the thrust bearing 11. Between the spheres 5 in the housing 4 there is a magnetostriction radiator 12, which is in acoustic contact with the spheres 5. The core 13 of the magnetostrictive radiator 12 is smaller than di ametra spheres

5 approximately 10-12 times, which contributes to a small contact area and in turn eliminates jamming of the rotating sphere 5. The spheres 5 are made hollow from elastic thin material, for example, from spring steel 0.5 mm thick, and equipped with a valve 14, the cavity of each sphere 5 partially filled with a viscous liquid 15, for example glycerol.

The device works as follows.

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When the mandrel 16 rotates, a sheath 3 is wound on it of reinforced material. By means of the movement mechanism 1, the telescopic rod 6 with the body 4 is fed to the moldable section of the sheath 3 and the body is lowered, pressing and sealing the winding material. Due to the swivel joint of the telescopic rod 6 with the mechanism 1 of movement, the body 4 is rotated relative to the profile bar of the mandrel 16 and perpendicular to the direction of the pressing forces.

An ultrasonic oscillator (not shown) is turned on, which applies an electrical voltage to the magnetostrictive emitter 12, as a result of which its core 13 begins to oscillate at a frequency of 18-20 kHz. Ultrasonic vibrations of the core 13 are transmitted to the spheres 5 by acoustic contact. Due to the implementation of spheres 5 of elastic material, the latter begin to oscillate with the same frequency, while the spheres 5 alternately increase their dimensions in the directions AA and BB. The spheres 5, pressed against the surface of the shell 3, in the process of rotation transmit ultrasonic vibrations to the material being moldable on the mandrel 16, sealing it throughout the cross section. niyu. Support platforms 10 and thrust bearings 11 provide rotation of 5 spheres 5 without slipping.

The cleaning of the spheres 5 is carried out with a rubber ring adapter 7 and felt rings 8 and 9, to which the solvent of the binder used is dropped dropwise. The process of forming the casing 3 continues until the necessary is obtained.

When the device is changed over to the new required value of amplitude 5 pressure, through valve 14 inside the spheres 5 a certain amount of viscous liquid 15 is added (or removed), which allows adjusting the amplitude-frequency characteristic of the device.

This device allows to obtain a sufficiently dense and uniform structure of the material during the formation of thick-walled complex profiles of shells.

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Claims (1)

Formula iso A device for rolling profile shells of reinforced materials according to ed. St. No. 1063618, characterized in that, with a chain of expanding the technological capabilities of the device while simultaneously improving the quality of the formed shells, the device is provided with between the spheres and the magnetostriction radiator that is in acoustic contact with them, and the spheres are made hollow of elastic material and partially filled with a viscous liquid. ten Editor M.Tovtin Compiled by L. Puchkov Tehred A. Kravchuk Order 2564/15 Circulation 564Subscribe VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 Proofreader T. Kolb