RU139370U1 - FLEXIBLE DORN - Google Patents

Abstract

A flexible mandrel containing a sleeve through which a flexible element is passed, on which spacer elements are worn, and a flexible element tension mechanism, characterized in that it is provided with an elastic sheath and two flanges, while a flexible element is fixed on the flanges, the tension mechanism is placed on one of the flanges, and the shell is mounted on the flanges and forms a chamber with the ends of the flanges facing each other, and a fitting for supplying the medium to the chamber is installed on one of the flanges.

Description

The utility model relates to tooling for pipe bending machines and can be used when bending pipes to prevent the formation of bumps (corrugations) in the bending zone, crushing of the pipe, as well as reducing its thinning.

Known elastic mandrel for forming flexible pipes, which is a sealed chamber formed by an elastic closed cylindrical shell of vulcanized material, the ends of which are rigidly fixed between the flanges mounted on the headquarters. On one of the ends of the mandrel through the flanges a nozzle is passed for pumping air into the chamber.

To form the pipe, its billet is put on the mandrel. Air is pumped through the nozzle into the sealed chamber of the formed elastic mandrel and the flexible pipe is formed, after which the pressure in the chamber cavity is relieved and the pipe is removed from the mandrel.

(see RF patent No. 2458276, class F16L 1/04, 2012)

As a result of the analysis of the known mandrel, it should be noted that, like the claimed one, it has a chamber formed by an elastic shell, into the cavity of which a medium is injected to form the pipe, however, the known mandrel cannot be used when bending pipes, since it is rigid and does not have the possibility of bending along with the pipe.

A flexible mandrel is known, comprising spherical elements worn on a flexible element located at a predetermined distance from each other due to a sleeve with two internal spherical surfaces - lodges located at the ends. As a flexible element, a cable, chain, turf rod, etc. can be used. To compensate for the elongation in bending, an elastic element is provided at the front end of the mandrel. A flexible element is sealed at one end in a spherical element, and at the other end in a threaded sleeve that can be attached to the actuator stem of a bending mandrel. The mandrel is mounted on the threaded end of the rod of the drive of the bending mandrel, which controls the operation of the latter and provides the following functions: input of the mandrel into the bending zone and its withdrawal from there, as well as the reciprocating movement of the latter in the process of bending the tube-shaped workpiece. (see RF patent No. 2174885, class B21D 9/03, 2000) - the closest analogue.

As a result of the analysis of the implementation of the known mandrel, it should be noted that its use in bending pipes does not avoid the formation of corrugations and wrinkles in the bending zone, since the spherical elements in the bending zone contact the inner surface of the pipe only at the points of contact of their spherical surfaces, i.e. along the lines.

The technical result of this utility model is to develop a flexible mandrel that provides high-quality pipe bending by eliminating crushing and corrugation of the material in the zone of its bending.

The specified technical result is ensured due to the fact that in the flexible mandrel containing the sleeve, a flexible element is passed through the hole of the sleeve, on which spacer elements are worn, as well as the mechanism of tensioning the flexible element, new is that the mandrel is equipped with an elastic sheath and two flanges, a flexible element is fixed to the flanges, the tension mechanism of which is placed on one of the flanges, while the shell is fixed on the flanges and forms a chamber with the ends of the flanges facing each other, and w is mounted on one of the flanges Utsera feed medium in the chamber.

The essence of the claimed utility model is illustrated by graphic materials on which:

- in FIG. 1 - flexible mandrel, General view in section;

- in FIG. 2 - flexible mandrel, vertical axial section.

The flexible mandrel consists of a sleeve 1, through the opening of which a flexible element is passed (for example, a cable, rope, etc.) 2. Spacer elements are put on the flexible element 3. The ends of the flexible element are connected to the flanges 4 and 5 and connected to them. On one of the flanges, mechanisms 6 for tensioning the flexible element 2 are installed. Spacer elements 3 are put on the flexible element with their holes, the size of which is slightly larger than the outer dimension of the flexible element, so as to ensure that they rotate about 10 ° relative to each other. The outer shape of the spacer elements can be almost any, and their ends, to facilitate relative rotation, should preferably have a spherical shape. A sheath 7 is fixed on the forming flanges, forming chamber “A” with the ends of the flanges facing each other. This shell can be made of a wide range of elastic materials, for example, reinforced fabric, the choice of a specific material is not difficult for specialists. To ensure that the chamber is filled with medium and is removed from the chamber, a fitting 8 is provided on one of the flanges. The pipe to be bent is indicated by 9.

Flexible mandrel works as follows.

We consider the operation of a flexible mandrel using the example of bending a tube billet on a pipe bending machine.

To ensure operation, a mandrel of a given length is assembled, for which the necessary number of spacer elements 3 is put on the flexible element 2. The tension of the flexible element is provided by mechanism 6. The shell 7 is fixed on the flanges 4 and 5. A medium supply line (for example, oil, water) is connected to the nozzle 8. Insert the mandrel before bending into the pipe 9 and place it in the bend. Pre-lubricate the outer surface of the flexible mandrel and the inner surface of the pipe to reduce the friction coefficient of sliding them against each other while pushing the flexible mandrel in the area of the upcoming bending.

In the cavity "A" the mandrel through the nozzle 8 is pumped to a predetermined pressure medium. Bend the pipe. In the process of bending, due to the fact that the medium bursts with an elastic shell 7, a back pressure is applied to the inner wall of the pipe, which prevents corrugation and thinning of the walls on the inner radius of the pipe bend.

After the bending is complete, the pressure of the medium is removed and it is pumped out from the cavity “A” of the flexible mandrel to prevent the shell 7 from contacting the inner wall of the pipe and the mandrel is removed from the pipe 9.

The device is simply constructive and reliable in operation, it supports the pipe wall directly in the bending area, and along the entire bending line, as it is in contact with the pipe along its entire inner surface, which eliminates the formation of corrugations and reduces the thinning of the pipe wall, while during its operation it is completely eliminated manual operations, the entire process of working the flexible mandrel is automated.

Dorn can be used for bending a wide range of pipe and profile billets on almost all types of bending equipment.

Claims (1)

A flexible mandrel containing a sleeve through which a flexible element is passed, on which spacer elements are worn, as well as a flexible element tension mechanism, characterized in that it is provided with an elastic sheath and two flanges, while a flexible element is fixed on the flanges, the tension mechanism is placed on one of the flanges, and the shell is mounted on the flanges and forms a chamber with the ends of the flanges facing each other, and a fitting for supplying the medium to the chamber is installed on one of the flanges.

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