SU1627383A1 - Method for magnetoabrasive machining of inner surfaces of nonmagnetic tubular parts - Google Patents

Abstract

The invention relates to mechanical engineering and can be used in magnetic-abrasive machining of internal surfaces of non-magnetic tubular products. The purpose of the invention is to improve the performance and quality of processing due to the peculiarities of the pole tip of the magnetic system, creating a rotating magnetic field. A cylindrical pole tip 2 is selected with an end working surface in the form of a sector 3 formed by two bevels, the intersection point of which on the end surface is separated from the axis of rotation of the tip 2 at a distance of a (0.5 - 1.0) d, where d is the inner diameter tubular product 1. Into the cavity of the tubular product, insert a portion of the magnetically abrasive powder “1. The pole tip 2 is rotated around its axis, and product 1 is given the feed movement to the treatment area perpendicular to the axis of rotation of the pole tip 2 and rotation around its axis opposite to the direction of rotation of sector 3 at the entrance to the treatment area. Under the influence of a magnetic field, a brush of powder 4 performs primary processing of the surface area of the tubular product 1. When the product 1 is advanced into the second part of the treatment zone, where the direction of rotation of the brush coincides with the direction of rotation of the product 1, the inner surface section receives the final finishing. 2 Il. VIZA S L S o y CH SA 00 00

Description

The invention relates to mechanical engineering and can be used in the finishing treatment of the inner surfaces of non-magnetic tubular products of small diameter in a magnetic field using a ferromagnetic powder as a cutting tool.

The purpose of the invention is to improve the quality and productivity of processing.

1 shows a diagram of the implementation of the proposed method; figure 2 - view And figure 1.

The method is carried out as follows.

Depending on the diameter of the inner surface of the tubular product 1, a cylindrical pole tip 2 is selected with an end working surface in the form of a sector 3 formed by two bevels, the point of intersection of which on the end surface is separated from the axis of rotation of the tip at a distance a (0.5 - 1.0 ) d, where d is the inner diameter of the workpiece, and a portion of the magnetically abrasive powder 4 is introduced into the cavity of the tubular product. The pole tip 2 is given a rotational motion around its axis, and the product is given a feed motion In the treatment area perpendicular to the axis of rotation of the pole tip 2 and the rotational movement around its axis is opposite to the entrance to the treatment zone in the direction of rotation of the end working surface in the form of a sector 3 of the pole tip, under the influence of a magnetic field which rotates a brush of magnetically abrasive powder 4, which produces primary roughing of the inner surface area of the tubular product 1. When the product 1 is advanced into the second part of the treatment zone, where the direction of rotation of the brush is% of a magnetic abra Live powder 4 coincides with the direction of rotation of the product 1, the area of the inner surface of the tubular product receives the final finishing treatment. Thus, the inner surface of the tubular product is processed along its entire length.

The method allows processing of tubular products of box section. In this case, the product being processed is given a feed movement perpendicular to the axis of rotation of the pole piece when the face of the product is parallel to

the plane of rotation of the pole tip. After machining the inner plane of one face, the product is rotated until the next face is installed parallel to the plane of rotation of the pole piece,

impart to the product a movement of feeding perpendicular to the axis of rotation of the pole piece and the inner surface of this face is processed along its entire length.

Thus, the use of the proposed method of magnetic-abrasive processing provides high-quality and high-performance processing of internal surfaces.

Claims (1)

Invention Formula The method of magnetic-abrasive machining of internal surfaces of non-magnetic tubular products, in which the product is informed about the rotation about its axis and the movement of the feed relative to the magnetic system, designed to create a rotating magnetic field, interacting with the magnetic abrasive powder placed in the product, in order to improve the quality and productivity of the treatment , the magnetic field is created by a rotating cylindrical pole tip of the magnetic system with an end working surface in the form of a sector formed by two bevels, the intersection point of which is on the face surface is separated from the axis of rotation of the pole piece at a distance of (0.5 - 1.0) d, where d is the inner diameter of the tubular product, the axis of rotation and the direction of movement of the product feed are chosen perpendicular to the axis of rotation of the pole piece, and the direction of rotation of the pole tip is opposite to the direction of rotation of the pole tip at the entrance of the product into the treatment area. "  I L / g. 7 B