SU634859A1 - Method of marking-out hole centres on internal surface of spherical work - Google Patents

Description

one

The invention relates to antenna technology and can be used in marking the centers of the holes for horns in blocks of antenna devices.

Methods are known for marking hole centers on the inner surface of a spherical part, such as an antenna unit, on a marking machine, in which marks are made by performing relative movement of the workpiece and the machine spindle in a flat rectangular coordinate system 1.

A disadvantage of the known methods is the insufficient accuracy of marking in large-sized spherical parts.

The aim of the invention is to improve the accuracy of marking in large-sized spherical parts.

For this, the workpiece is positioned so that the equatorial plane of the sphere, of which the block is a part, is perpendicular to the plane of the specified coordinate system and parallel to one of its axes, recalculates the coordinates of the centers of the holes from the spherical system to the rectangular system of coordinates lying on one parallel, and then go to the other parallels.

FIG. 1 shows a device in which the proposed method is implemented; in fig. 2 - antenna unit block with marks of the centers of the holes for horns on the concave surface of the sphere.

The proposed method is implemented, for example, in a device that contains a caliper 1 with a spindle 2, a core 3 for marking the centers of the holes, which move along the guide 4. The machine table 5 can move in a direction perpendicular to the displacement of the caliper. The machine is equipped with a reading device (not shown) to control the movement of the caliper 1 and the table 5.

The unit 6 of the antenna device, on the inner spherical surface of which it is necessary to mark the centers of the holes, is part of a sphere 7 of large radius. The part of the sphere, which is a block of the antenna device, is bounded by two lines of 8 large circles and two arcs 9 parallel to line 10 of a large circle of a sphere located horizontally.

Holes And under the horns are located at the intersection of the lines of large circles with arcs parallel to the lines of a large circle of a sphere located horizontally. The holes are arranged in rows.

The method of drying is as follows.

Unit 6 is closed, for example, with screws 12 in special tool 13 on the machine table 5 so that the equatorial plane 14 of sphere 7 is perpendicular to the plane of the coordinate system and parallel to one of its axes, i.e. the equatorial plane 14 was perpendicular to the plane of the table 5 of the machine.

The marking of the centers of the drainage holes is effected in a rectangular coordinate system with a nomosh, a core inserted into the spindle 2 by not moving the support 1 and the table 5 in two mutually perpendicular directions in the plane of the table 5 of the machine. Since the holes for the horns should be arranged in rows, the tool is first moved but parallels in a straight line until the center of the last hole in the row is marked, and then the transition to the remaining parallels is made by moving the table.

Claims (1)

Invention Formula The method of marking the centers of holes on the inner surface of a spherical part, for example an antenna unit, on a marking machine, in which marks are made by performing relative movement of the workpiece on the machine tool in a flat rectangular coordinate system, characterized in that markings in large spherical parts, the workpiece is positioned so that the equatorial plane of the sphere, of which the block is a part, is perpendicular to the area said bone coordinate system and is parallel to one of its axes, the centers of holes converted coordinates nz spherical system nr rectangular coordinate system and mark a first hole centers, lezhaschnh on the same parallel, and then carried out the transition to the remaining m-parallel. Sources of information taken into consideration at the examination 1. Firago V.P. Fundamentals of designing technological processes and devices .- Surface treatment methods. M., “Mashinostroenie, 1973, p. 301. fuz.