RU79465U1 - TECHNOLOGICAL EQUIPMENT FOR PIPE BENDING - Google Patents

Abstract

The proposed utility model relates to the field of metal forming and can be used in pipe bending production to obtain parts of the necessary configuration by deformation of the direct billet.

The task to which the proposed utility model is aimed is the expansion of technological capabilities, improving the quality of pipe bending.

The technical result is achieved by the fact that in technological equipment for bending pipes containing a bending template, a clamp, a clamping matrix, a puller fixed on it by means of a rod and installed on the inside of the pipe, the mandrel, smoothing shoe, the workpiece feeding mechanism, collet chuck, the mandrel is equipped with its outer the diameter of the cylindrical adapter with a shank on which the annular groove is made, with a threaded socket along the axis and with a through radial hole between them, its shape-supporting part has tori th surface end portion end - an axial bore and two mutually parallel through holes, the axes of which are tangential to the generatrix of the bore and equipped with pins, cooperating with an annular groove of the shank adapter.

Description

The proposed utility model relates to the field of metal forming and can be used in pipe bending production to obtain parts of the necessary configuration by deformation of the direct billet.

Known tube bending machines, for example, TGSP models with CNC, designed for bending pipes made of steel, aluminum and titanium alloys, consisting of a bending template, clamp, clamping matrix, movable slide, smoothing shoe, mandrel, feeding mechanism and turning blanks, collet chuck, puller mandrel. (“Production of pipelines of hydrogas systems of aircraft”, B.N. Maryin, V.M. Sapozhnikov, Yu.L. Ivanov, etc. - M .: Mashinostroenie, 1998, pp. 202-203).

The mandrels are necessary to prevent corrugation during deformation. They are installed inside the pipe and are attached to the puller via traction. There are various mandrels in design and technological use, for example, spoon-shaped mandrels made with a curvature corresponding to the curvature of the pipe in the inner surface of the wall along the outer radius of the bend (“Production of pipelines for hydrogas systems of aircraft”, B.N. Maryin, V.M. Sapozhnikov, Yu.L. Ivanov et al. - M.: Mechanical Engineering, 1998, p. 208).

The technological equipment for pipe bending, consisting of a bending template, a clamp, a clamping matrix, a puller, fixed, is adopted as the closest analogue

on it by means of traction and a mandrel installed inside the pipe, a smoothing shoe, staples and cork (“Production of pipelines for hydrogas systems of aircraft”, B.N. Maryin, V.M.Sapozhnikov, Yu.L. Ivanov, etc. - M .: Engineering, 1998, p. 205).

Spoon-shaped mandrels are installed so that the upper mating point of the forming and cylindrical parts of the mandrel are located on the axis of the center of the bending template. However, from the inner bending radius of the pipe, the spoon-shaped mandrel is straightforward, which does not exclude the enveloping of the material and the seizure of the inner surface of the pipe from the occurring local contact stresses in tangential directions.

The task to which the proposed utility model is aimed is the expansion of technological capabilities, improving the quality of pipe bending.

The technical result is achieved by the fact that in technological equipment for bending pipes containing a bending template, a clamp, a clamping matrix, a puller fixed on it by means of a rod and installed on the inside of the pipe, the mandrel, smoothing shoe, the workpiece feeding mechanism, collet chuck, the mandrel is equipped with its outer the diameter of the cylindrical adapter with a shank on which the annular groove is made, with a threaded socket along the axis and with a through radial hole between them, its shape-supporting part has tori th surface end portion end - an axial bore and two mutually parallel through holes, the axes of which are tangential to the generatrix of the bore and equipped with pins, cooperating with an annular groove of the shank adapter.

Figure 1 shows the design of the proposed tooling for bending pipes, figure 2 - the design of the mandrel, figure 3 - section AA, figure 2, figure 4 - tooling when you turn the bending template at an angle "α" .

Tooling for bending pipes 1 contains a bending template 2, a clamp 3, a clamping die 4, a puller 5 mounted on it by means of a rod 6 and installed on the mandrel 7, a smoothing shoe 8, a workpiece feeding mechanism 9 and a collet 10.

The mandrel 7 consists of a cylindrical adapter 11 corresponding to its outer diameter with a shank 12, on which an annular groove 13 is made.

The adapter 11 has a threaded socket 14 located along its axis, as well as a through radial hole 15 between the threaded socket and the shank.

The shape-supporting part of the mandrel 7 is formed by a torus surface 16, line 17 is the interface between the forming and the cylindrical part of the mandrel 7.

An axial bore 18 and two through holes 19 and 20 parallel to each other, the axes of which are tangent to the generatrix of the bore 18, are made at the end of the end part of the mandrel 7, pins 21 and 22 are inserted into the holes 19 and 20, which interact with the annular groove 13 of the shank 12 adapter 11.

The mandrel 7 with the adapter 11, the threaded socket 14 is installed on the rod 6 of the puller 5. The threaded connection is tightened using the radial hole 15. In this case, the mandrel 7 with the rod 6 is set so that the connection line 17 of the forming and cylindrical parts of the mandrel are located on the axis of the center of the bending template 2 The bending pipe 1 is pressed against the bending template 2 by the clamp 3.

Bending template 2 starts to rotate. When turning through an angle α, the pipe 1, while maintaining the axial position by means of the pressure matrix 4, begins to bend.

In the process of pipe deformation, contact stresses arise, a significant part of which is caused by tangential forces. As a result, the mandrel 7 rotates around its longitudinal axis due to the annular groove 13, on the shank 12 of the adapter 11 and the pins 21 and 22.

The possibility of rotation of the mandrel 7 during the bending process allows to facilitate the bending process by reducing friction from the tangential forces arising in the process of bending the pipe. Which improves the quality of the obtained bent pipe, and also extends the technological capabilities of existing mandrels.

Claims (1)

Tooling for bending pipes, containing a bending template, a clamp, a clamping matrix, a puller mounted on it by means of a rod and a mandrel installed inside the pipe, a smoothing shoe, a workpiece feeding mechanism, a collet chuck, characterized in that the mandrel is equipped with a cylindrical adapter corresponding to its outer diameter with a shank on which an annular groove is made with a threaded socket along the axis and a through radial hole between them, its shape-supporting part has a torus surface, an end face part - an axial bore and two through holes parallel to each other, whose axes are tangent to the generatrix of the bore and equipped with pins that interact with the annular groove of the adapter shank.