CS259308B1 - Equipment for drawing tubes or polygon cross-section bars - Google Patents

Abstract

The equipment deals with the production of pipes and rods of polygonal cross sections of the input semi-circular products by drawing Cold. The device is a problem production of polygonal tubes and rods of round blanks cold drawing, creating suitable ones deformation conditions for deformation input blank of circular cross section to the desired polygonal body the new shape of the pulling tools die and mandrel in their line transitional forming zone. Line shapes the intermediate forming zone are formed by a casing of a body having on input circular base and exit base in the shape of a polygon. Circuits both bases are connected in a straight line lines.

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for drawing tubes or rods of polygonal cross-sections from starting blanks of tubes or rods of circular cross-sections in their transition forming zone in which the geometric nature of the cross-section of the drawn body is changed.

In the prior art drawing process of polygonal rods by drawing, rods having the same geometric cross-sectional character as the finished rod being drawn are used as the preform. Therefore, the drawing dies also have a shape of identical geometric character with the geometric character of the drawn rod in the cross sections along their entire length. Thus, during the drawing, the geometric character of the cross-sectional shape of the bar does not change, only its dimensions change. When drawing the polygonal cross-sectional bars from the circular cross-sectional bars of the classical shape described, there is insufficient flow of material into the places of the forming edges, which results in a considerable rounding.

When drawing the polygonal cross-sectional tubes from the starting circular cross-sectional tubes, the die of the classical shape described is also used as the outer forming tool, and a solid prismatic mandrel is used as the inner forming tool. During the drawing process, the outer and inner surface of the drawn tube also imperfectly flows the formed material into the places of the forming edges, which is manifested by their considerable curvature. On the inner surface of the formed tube, this imperfect flow of material into the edges is eliminated by the effect of the inner forming tool, the mandrel. The drawing results in a tube of polygonal cross-section, but having a substantially weakened wall at these points due to the rounding of the edges of the outer surface.

A section die is known for drawing tubes or rods of polygonal cross-section from initial circular sections, which instead of the die of the described classical shape, by its shape and dimensional continuity of individual strips and the shape of the transition zone itself improves filling of edges with In the transition forming zone, there is a condition of zero deformation at the points of forming of the drawn body improving its sharpness.

This feature of the line die is eliminated by the device according to the invention, which is based on new shapes of the line transition forming zone, ensuring the condition of zero deformation only in the places of forming edges of the drawn body in all its cross sections. The line transition forming zone of the die and the mandrel is formed by a body shell having a circular base at the inlet and a polygon-shaped base at the outlet. Circuits of the input circular and output polygon bases connect the forming lines lying in the axial beam or in the beam with the tool axis! parallel planes. The resulting linear surfaces form the shape of the tools in the transition forming zone.

The line transition forming zone follows in shape and dimension the previous leveling zone and the following calibration zone. The entry leveling zone is formed in the die by a truncated cone housing having the same base with the following line transition forming zone. The inlet equalization zone of the traction mandrel is either a truncated cone or cylindrical casing having an identical base to the inlet base of the next line transition forming zone. The calibration zone of both tools is formed by a sheath of a polygonal prism, the base of which is the same as the outlet base of the line transition forming zone.

The novel effect of the shape of the drawing tools in the line transition forming zone on the drawn body is characterized in that the geometric characteristic of the drawn body cross-section changes continuously from the circular cross-section to the polygonal cross-section. This shape change occurs due to the drawing tools whose shapes provide zero deformation in this deformation zone only at the edges of the drawn body forming.

The attached drawing shows an exemplary embodiment of drawing tools according to the invention. The device consists of an outer drawing tool, a die 1 and an inner drawing tool, a mandrel 2 for drawing a hexagonal tube.

The working surface of the die 1 consists of a truncated cone shell 3 whose height determines the length of the lubrication zone, a truncated cone shell 5 whose height determines the length of the leveling zone when rods are drawn or the length of the pulling and leveling zone when pipes are drawn. The apex angle of the lubrication zone is always greater than the apex angle of the leveling zone cone. The straightening zone is followed by a line transition forming zone, which is formed by straight lines 7 above each side of the polygonal cross-section of the drawn tube or bar.

The last part of the working surface of the die is a calibration zone formed by the sheath of the polygonal prism 9, whose dimensions are identical to the external dimensions of the extracted body. The working surface of the mandrel is formed by the sheath of the truncated cone or cylinder 4, whose height determines the length of the equalization zone of the traction mandrel. The straightening zone of the tension mandrel g is followed by a line transition forming zone, which is formed by straight lines 6 above each side of the inner contour of the drawn tube of polygonal cross-section. The last part of the working surface of the drawing mandrel 2 is a calibration zone formed by the sheath of a polygonal prism t1 whose dimensions are identical to the internal dimensions of the extended polygonal tube. The length of the calibration zone of the die 1 and the mandrel 2 is the same.

The die 1 and mandrel 2 of the present invention are intended for drawing tubes or rods of multi-angular cross-section from starting tubes or rods of circular cross-section.

Claims (3)

object of the invention Apparatus for drawing tubes or rods of polygonal cross-sections from precursors of circular cross-section consisting of drawing tools, dies and a mandrel, characterized in that the shape of the drawing tools in their line transition forming zone is formed by straight surfaces (7, 6) whose forming lines lying in a bundle of axes or bundled with the axis of tools of parallel planes, the circuits of the input circular and output polygonal bases connect the formed casing of the line transition forming zone of the die (1) and the mandrel (2). Device according to claim 1, characterized in that the shells of the straight surfaces (7, 6) forming the line transition forming zones of the two drawing tools are connected in their entry circular bases to the sheath bases of the rotating bodies forming the shape of the two tools in their leveling zones. Device according to Claims 1 and 2, characterized in that the sheaths of the straight surfaces (7, 6) forming the line transition forming zones of the two drawing tools are connected in their output polygonal bases to the sheath bases of the polygonal prisms (9, 8) forming the shape. both towing tools in their calibration zones.