SU1306614A1 - Tool for drawing tubes - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to wire production, in particular to the drawing of pipes on a fixed mandrel. The purpose of the invention is to reduce dragging. The tool contains fiber 1, has areas: working conic and associated with it calibrating in the direction of the output end of the die. The length of the conical die is (0.08-0.2) d, where d is its smallest diameter. The angle of inclination of the generatrix of this section is

Description

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FIELD OF THE INVENTION The invention relates to wire production, in particular to the drawing of pipes on a fixed mandrel.

The purpose of the invention is to reduce dragging.

The drawing shows the tool in the deformed form and, longitudinal section.

The tool consists of a die 1 and a fixed mandrel 2 introduced into its drawing channel, through which annular gap a pipe is drawn. Voloka 1 has a conical working area and a kanbuyutsyy-conjugated section with an angle of inclination of the generatrix o, inclined in the same direction as the working section. The width of the calibration section along the generatrix is 0.08-0.2 of the diameter of the smaller base of the conical section. The fixed frame 2 is made conical with the angle of inclination of the generatrix smaller than the friction angle. The angle of inclination of the generator of the calibrating portion is 2-4 of the angle of inclination of the generator mandrel.

The drawing by means of the proposed tool is carried out as follows.

When drawing, the diameter and thickness of the pipe wall 3 decrease.

These geometrical parameters provide an enlarged zone of compression of the pipe wall on the mandrel during drawing, which makes it possible to distribute its deformation most favorably as it is compressed, consequently, to reduce the drawing force.

Studies have shown that when performing the angle of inclination of the generatrix of the conical calibrating section of the die cC, where / i is the inclination angle of the generatrix of the mandrel, the effect of the taper of the calibrating flow does not significantly improve the conditions for the tube formation in the tool. not reduced. At 72, the drag force decreases by approximately 15%, and when it rises again, which is associated with a significant increase in the influence of the friction angle of the pipe against the die in the area of the calibrator. A prerequisite for reducing dragging is to choose the length of the gauge portion of the die along the generatrix within 0.08-0.2 d, where d is the smallest diameter of the gauge portion. It was determined that over-fulfillment

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This condition of the LINE (T | 1 2-4 leads to an increase in the drag force. When choosing the length of the calibrating section less than ii specified due to a significant decrease in the pipe deformation zone along the wall, the drag force increases. When choosing the length of the calibrating section greater than the specified due to a significant increase This zone also has increased drag gain.

Studies have also found that in the proposed tool there is no need to cylindrical after the conical calibrating section, because in this place the rule due to the taper will not participate in the compression of the pipe. In addition, the presence of such a site would increase the strain force due to an increase in the contact area of the pipe with the tool.

Example. They dragged steel pipes of size, 8 from a billet of size, 5. The angle of the working cone of the die was 13 °, the angle of inclination of the forming mandrel was 5-1 °; the angle of inclination of the generatrix of the conic calibrating section is 3-3 ° The width of the calibrating area along the generatrix O, mm.

Before drawing, the workpiece is copper coated and worn. The drag force was 151 kN. With the drawing of such pipes at / 3 1 °, the width of the cylindrical calibrating section of 5 m: m, the drag force was 176 kN.

Thus, the drawing of pipes in the proposed tool provides a reduction in the drag force by 14%.

Claims (1)

Invention Formula A tool for drawing pipes containing a fiber with a working conic and calibrating them, inside which there is a fixed conical mandrel with a cone angle smaller than the cone angle of the working section of the drawing, characterized in that, in order to reduce the drawing force, the calibrating section of the drawing is made conical, tapering to the output end of the die with an angle of inclination of the generatrix of 2-4 angles of inclination of the generator mandrel, and the width of the calibrating portion along the generatrix is 0.08-0.2 of the diameter from the smaller base.