SU1382560A1 - Method of manufacturing a member of screw spiral - Google Patents

Abstract

The invention relates to the treatment of metals by pressure, in particular, to methods for manufacturing an element of a screw auger. The goal is to increase productivity by reducing labor intensity. On a flat spot mark the triangle (T) 2. To the vertices of its base, isosceles T 11 and 12 are extended. Between the response sides there are intermediate sections bounded by elliptical curves and 7 and 8. T 2 is bent perpendicular to T 11. T 12 is bent perpendicular to T 2. By An unfolding auger and a simple one-sided bend simplify the manufacturing process and increase productivity. 2 Il.

Description

S. 6. S

2. 3 if 7

1

The invention relates to the field of metal forming, in particular, to methods for producing a screw in the form of a screw shaft, having a housing with helical blades attached to it.

The purpose of the invention is to increase productivity by reducing labor intensity.

Fig. 1 shows the shape of the cutting and joining of elements of a half turn of the screw; figure 2 - shaft with a single blade - single-auger.

The screw shaft has a bearing body 1. It can be a strip or a pipe. The blades are attached to the body, for example, by welding, which are fabricated as follows. An isosceles triangle 2 is laid out on a flat sheet. Intermediate section 4 plots to one side of it 3, and intermediate section 6 to another side 5. Each intermediate section is bounded outside curve 7 and 8. Each intermediate section is located between adjacent sides 3, 9 and 5, 10 triangles. Intermediate section 4, for example, is on one side adjacent to triangle 2, and on the other to triangle 11, and intermediate section 6 on one side sticks to triangle 2, and on the other side to triangle 12. Thus, the pipe end inside of which the shaft consists of an element of a half screw auger consisting of two intermediate sections and three triangles. Elements can be assembled from individual parts or cut completely, bending along the sides of triangles.

The auger is assembled as follows.

Intermediate sections 6 and 4 with respect to triangle 2 are bent in opposite directions so that the planes of triangles 2 and 1I are in perpendicular planes (figure 2) Triangle 12 will be in the plane of triangle 11, but bent by the top in the opposite direction (figure 2) .

This element is then attached in a known manner on one side of housing 1. The same element is attached on the other side of the housing. One turn of the screw is obtained. All bases of the triangles are placed on the centerline of the housing. The following elements are attached in the same way and a one-way auger is obtained.

In order to increase the rigidity of the body 1, in a plane perpendicular to it, a segment of the reinforcing element, for example, between triangles 2 and the next one on this side of the body, for example a beam segment (not shown), is installed. In this case, the bearing body acquires in cross section

0 cruciform shape.

The supporting body may be cylindrical, for example a pipe. However, in this case, in the screw element (Fig. 1), the NIKI triangle5 from the base should be cut by the radius of the pipe, and the intermediate sections 4 and 6 should be cut along a line parallel to lines 7 and 8, i.e. along lines that are the same distance from

0 lines 7 and 8.

As a result of applying the method, the spiral line is replaced by segments of ellipses, because the intermediate sections 4 and 6 are inclined

5, mi planes. Flat triangles. ki are connecting links between intermediate sections. Thus, it turns out a continuous screw blade, cut from a flat

0 someone material. The edge of the blade is not a helix, but only segments of ellipses. But the function of the auger such a blade performs e. The ellipses fit into the cylindrical surface

shchatsya.

Example. Isosceles triangles are constructed with a height of 70 mm and bases of 21 mm. Such dimensions ensure the inclination of the auger blade at a diameter of 140 mm about 30 °. The sweep is cut out of sheet material 10-20 mm stainless steel or titanium alloys (for aggressive

Wednesday).

The proposed method simplifies the screw fabrication process and improves productivity by fabricating a screw reamer and a simple bending operation.

Claims (1)

Invention Formula A method of manufacturing an element of a spiral auger, in which a flat blank is cut out of a sheet and then bent to form blades, characterized in that, in order to increase productivity by reducing the labor intensity, the workpiece is cut out in the form of a sweep, formed from a series of adjacent vertices at the bases of one-to-one isosceles triangles, as well as intermediate sections between their adjacent sides, bounded externally by ellipse curves that connect their vertices opposite to the specified bases , the blades are bent by placing two adjacent row of triangles in mutually perpendicular planes. FIG. 2