SU1317223A1 - Method for joining metal pipes - Google Patents

Abstract

The invention relates to the field of mechanical engineering, namely to connections of non-metallic pipelines, in particular glass, and can be used in various industries, including food, chemical, pharmaceutical and others. The purpose of the invention is to simplify the method of joining ti, reducing the labor intensity of installation by applying radial forces from the outer surface of the crimp sleeve and simultaneously crimping an elastic element of the joint. The method of joining non-metallic pipes involves installing in place of a joint with a tension of an annular elongated T-shaped elastic element 2 with a compression sleeve: 3 of conductive material. As a source of radial forces, an inductor 4 is used, periodically connected to the charged capacitor 6. 1 Il. e (L

Description

The invention relates to mechanical engineering, namely to connections of non-metallic pipelines, in particular glass, and can be used in various industries, including food, chemical, pharmaceutical and others.

The purpose of the invention is to simplify the method of connection and reduce the complexity of installation.

The drawing shows a scheme for implementing a method for connecting non-metallic pipes (the dotted line shows a crimp sleeve before the inductor is turned on).

An annular elongated T-shaped elastic element 2 is put on the glass pipes of the pipe 1. The outer surface of the elastic element can be smooth or profiled. The shape of the profile surface can be different: corrugated, screw, embossed, etc. In this case, the elastic element is worn on the ends with a rough tension, i.e. the inner diameter of the elastic element must be less than the outer diameter of the pipe 1. On the elastic element 2, a crimp sleeve 3 is freely positioned. Initially, it may be a smooth cylindrical shape. Crimp sleeve 3 is made of plastic conductive material, such as steel, copper, brass, aluminum, etc., with a wall thickness of 0.5-5 mm, depending on the purpose of the pipeline. Inductor 4 is placed around the interface, which creates a pulsed magnetic field, which is connected via key 5 to capacitor 6 and charging unit 7. Inductor 4 can be detachable and consist of two parts connected by a special clip (not shown). at the junction.

When the key 5 is locked, the capacitor 6 is discharged to the inductor 4 according to a specially developed mode depending on the diameter of the pipes to be connected, the diameter and the material of the crimp

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bushings, pipe wall thicknesses and bushings. The flowing current excites in the inductor 4, which in this case has a cylindrical form, an electromagnetic rapidly changing field. In the crimping sleeve 3, a current is induced with a direction opposite to the current of the inductor 4. In view of the fact that two conductors with opposite currents repel each other, electrodynamic forces arise between the turns of the inductor 4 and the crimping sleeve 3, on the one hand, compress the sleeve 3, and the other is to break the inductor 4. The design of the inductor 4 is more massive than the sleeve 3, therefore the sleeve 3 is subjected to deformation under the action of the resulting radial forces. As a result of the deformation, the sleeve 3 takes the form of the outer surface of the elastic element 2 and compresses the elastic element. Since the elastic element 2 with its inner surface encloses the ends of the glass pipes 1, then from the stress created during the compression of the elastic element, frictional forces are created to obtain a dense, mechanically stable Compound

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Claims (1)

Invention Formula -five The method of connecting non-metallic pipes, mainly glass, including placing an annular elongated T-shaped elastic element at the junction, placing a crimp sleeve on it, deforming, a source of radial forces of the joint crimp sleeve and an elastic element while compressing them at the joint, characterized in that, in order to simplify the joining method and reduce labor intensity installation, an annular T-shaped elastic element in place of the joint is installed with a tension, a compression sleeve is made of a conductive material, and as a source of radial forces, an inductor periodically connected to a charged capacitor is used.