SU1440623A1 - Method of machining bodies of rotation - Google Patents

Abstract

The invention relates to metalworking and can be used in the treatment of shaped bodies of rotation, in particular a convex shape, for example, paraboloid. The purpose of the invention is to increase processing performance and expand technological capabilities. The processing of the workpiece are shaped frezoy. The workpiece and the milling cutter are positioned on the intersecting axes and they are informed about the rotation around these axes. When machining continuous surfaces, the part may not rotate around an axis. The radius of the working surface of the cutter is chosen equal to the radius of the largest cross-section of the workpiece. In order to obtain shaped surfaces, parts report movement in three mutually perpendicular directions and rotation around an axis, perpendicular to the axis of the milling cutter and the workpiece. The rotation is carried out in accordance with the conditions for locating the diameter of the smaller end of the cutter parallel to the axis of rotation of the workpiece in the same plane with the axis of rotation of the workpiece. 4 nl.

Description

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The invention relates to metalworking and can be used in the treatment of shaped rotating bodies, in particular of a convex shape, for example, paraboloid.

The purpose of the invention is to increase processing performance and expand technological capabilities.

The purpose of the invention is achieved due to the greater length of the arc of contact of the cutter with the part and the ability to process intermittent (with edges) surfaces.

Fig, 1 shows the implementation of the proposed method; in fig. 2 - the relative position of the cutter and the details at the beginning and end of the course of the cutter (the position is conventionally changed); FIG. 3 is a view A of FIG. 1, high processing time; ::. Fig, 4 - the same, the final moment of processing,

Processing are as follows

The workpiece 1, for example, of paraboloid shape is installed in the device 2, which has the ability to rotate around the horizontal axis. The fixture 2 is placed on the table 3 by turning around the vertical axis Z. The processing is carried out by a shaped cutter 4, the radius R of the curvature of the working part of the cutter 4 is equal to the radius of the largest cross section of the workpiece 1. The axis of the cutter 4 is crossed with the axis of the workpiece 1. The vertical axis Z is perpendicular to the axis cutters and parts.

The workpiece 1 is processed by simultaneous longitudinal movement along the X axis, rotating around the axis

Z and moving along the axis Y and Z. When machining discontinuous surfaces, the workpiece 1 is reported to continuously rotate around a horizontal axis that coincides with its own axis of rotation.

During processing, the workpiece is rotated around the Z axis from the condition that the diameter of the smaller end face is cut parallel to the axis of rotation of the workpiece in the same plane as the axis of rotation of the workpiece.

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A method of processing rotation bodies in which the workpiece and the tool are mounted on intersecting axes and informed about the rotation about these axes, while the workpiece is informed about the rotation about an axis parallel to the straight, perpendicular to the axis, and moving in the direction.

perpendicular to this straight line, which is due to the fact that, in order to increase the processing capacity and expand technological capabilities, the processing is carried out with a shaped cutter, the radius of the working part of which is equal to the radius of the largest cross section of the workpiece, which indicates additional movement in the direction perpendicular the direction of the first movement, while in the course of processing the workpiece is rotated from the condition of the symmetry point of the smaller end of the cutter in the plane passing through the axis beyond cooking.

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Claims (2)

Claim A method of processing bodies of revolution, in which the workpiece and tool are mounted on intersecting axes and are told to rotate around these axes, while the workpiece is informed of a rotation around an axis parallel to a straight line perpendicular to these axes, and moving in a direction perpendicular to this straight line, that, in order to increase processing productivity and expand technological capabilities, the processing is carried out by a shaped cutter, the radius of the working hour V * of which is equal to the radius of the largest cross section of the workpiece which report additional movement in the direction perpendicular to the direction of the first movement, while during processing the rotation of the workpiece is carried out from the condition of the location of the symmetry point of the smaller end of the cutter in a plane passing through the axis of the workpiece. - 1,440,623 FIG. 2 view A