SU1096065A1 - Method of electric discharge machining of multiple-profile spiral holes - Google Patents

Abstract

METHOD ELECTRIC PROCESSING OF MULTI-PROFILE SPIRAL HOLES, in which electric tools are transmitted in translation from the feed drive and rotated with a copier installed on the electrode-tool side, characterized in that, in order to improve the accuracy of processing, it is necessary to use a copier mounted on the copier side, in order to improve the accuracy of processing, in advance on the copy site. is connected to a power source and a fixed profile is stitched in it by informing the electrode-tool of translational motion, after which the workpiece is disconnected from stochni.ka power and processing details are received by the copier. X Oi About SG) SP

Description

Design relates to electrophysical and electrochemical processing methods, in particular, to the electrical aero processing of multi-spiral helical holes.

There is a method of electroerosive processing of internal spiral holes, in which the tool electrode is set to work movements in the direction of the part using a copier and a 1J feed drive,

The disadvantage of the known method is low copying accuracy. So, as the electrode tool deepens, the finished areas of the spiral holes continue to touch it because of the gaps in the kinematic part of the machine, and the possible non-parallelism of the installation of the electric tool relative to the axis of rotation, which leads to additional parasitic disruptions distorting the profile of the spiral holes. In addition, a disadvantage is the high cost of making a copier.

The purpose of the invention is to improve the accuracy of processing and reduce the cost of manufacture of a copier ..

The goal is achieved by the fact that, before the workpiece is machined, the workpiece is placed under the copier along the axis of the hole being pierced, the hole of the specified hole is pierced in it

Aa

a profile with an electrode tool in the presence of only an axial feed, after which the electrode tool is set to translational and rotational movements using a copier

and drive.

FIG. 1 schematically shows a device for implementing the proposed method; on . 2 is a section A-A in FIG. one; in fig. 3 - node 1

0 na fi 1.

Previously on the end face 1 through the gaskets 2 and 3 set the workpiece copier 4 and fixed with clamps clamping devices, billet

5 ku is connected to a power source. Then, with the axial feed of the electrode-. Instrument 5 is stitched with the workpiece of the copier and cut off the power source.

The processing of a multi-profile spiral hole in the part is produced by an electrode tool, which is reported to have translational and rotational movements using a copier and a spring actuator (not shown. The spring supply drive provides a selection of clutch between the electric tool and the copier by constantly pressing the back of the 6 to the copier.

The proposed processing method ensures copying accuracy.

0 profile of the electrode tool on the part and reducing the cost of production of the copier.

/one

fig.Z

Claims (1)

METHOD. ELECTROEROSION PROCESSING OF MULTI-PROFILE SPIRAL HOLES, in which the electric tool is set to translate from the feed drive and rotate by means of a copier mounted on the side of the tool electrode, characterized in that, in order to increase the accuracy of processing, a workpiece is first installed at the copier location, which is connected to a power source and flashing a predetermined profile in it by communicating to the electrode-tool translational motion, after which the workpiece is disconnected from the power source Nia and details of the treatment are obtained by the copier. FIG. 7