SU785008A1 - Device for electro-erosion working of holes - Google Patents

Description

The invention relates to the technology of metal processing, most suitable for electroerosive processing of metals and can be applied in mechanical engineering. In the case of EDM machining of holes of small diameter, e.g. 0.3 mm, metal wire is usually used, which is attached to the saucer by clamping or soldering. Such an elactroc has a small length and it is possible to burn through only a few holes without a tool change. If in one part it is necessary to burn a lot of holes, then after each tool change, thre. There is a new machine setting, extra time to accurately position the holes in the part. Of the known devices for treatment of small holes, the closest to the described technical essence is a device for fixing and supplying thin erosion electrodes. These are devices, & It contains a holder with a clip, a bushing with a guide and an electrode-wire. In it, when replacing wires of one diameter with another, it is necessary to change the sleeve. The wire passes through the guide with a gap, which may cause the holes to be irregularly shaped. The aim of the invention is to increase the accuracy of processing holes of small diameter and to enable the use of one device with a set of electrodes-wires of different diameters without changing the sleeve. To achieve this goal, a device comprising a holder with a clip, a sleeve with a guide and an expansion ring,. Introduced transitional vupka. A rigid bushing and a movable holder with a clip are rigidly connected with it. At the same time, the same bushing is made in the guide bushing as in the holder. The clamp is made in the form of two prisms, one of which is fixed, and the other has

the possibility of elastic displacement in a plane perpendicular to the axis of the electrode-wire.

A ring with stops for contact with the surface to be treated is placed on the transition sleeve.

The invention is illustrated in the drawings, where in FIG. 1 shows a general view of the device in section; FIG. 2 is a section through a clip of a holder; in fig. 3 slit guide; in fig. 4 shows the type of guiding holders in the section: ze; Fig. 5 is a view of the sleeve. With the fixed prism of the guide cut in section, turned 90.

The device (see FIG. 1) consists of a holder 1, a sleeve 2, an adapter sleeve 3 and an electrode-wire 4,

The tool holder 1 is made in the form of a rod with three oval guides 5,

on which grooves 6 are cut at an angle to the axis of the holder 1 P1, and three faces 7 on one of which have a groove 8 (see, figs, 1 and 4),

The oval guides 5 are angled 120 one to the other.

The grooves 6 serve to remove the products of erosion in the event of their possible penetration into the gap between the two guide rails 5 and the transition sleeve 3. The depth and width of the grooves can be 0.2-0.5 mm, in the section of the groove can have a triangle or rectangle shape. The angle of inclination of the grooves to the axis of the holder may be 45,

Elements 5-7 perform the functions of guides that determine the accuracy of the Schrock electrode wire.

A adapter sleeve 3 is put on the holder 1, in the upper part of which a U-shaped spring 9 is attached, which through holes 10 in the sleeve 3 enters the groove 8 of the holder I and serves to fix the sleeve 3 on the holder 1.

The sleeve 2 and the ring 11 with stops 12 are fastened to the lower part of the transition sleeve 3. This serves to set the gap between the workpiece 13 and the sleeve 2. The ring 11 is made of biological material, can move along the transition sleeve 3 and roll with the screw 14,

The clamping of the holder 1 (see Fig. 2) consists of a fixed prism 15, a movable prism 16 mounted on the spring 17. The priam 16 is retracted from the electric wire 4 by a screw 18,

The guide sleeve 2 (see FIG. 3) consists of a fixed prism 19,

which slides the electrode-wire 4, pressed against the prism 19 by the movable prism 20, mounted on the spring 21

The device works as follows.

The tool holder 1 is inserted into the holder of an EDM machine. Moving the transition sleeve 3 set the length of the electrode-wire 4, and the ring 11 is the required gap between the workpiece 13 and the sleeve 2. Turn on the machine. The device will move to the part 13. until the processing of the hole in the part 13 begins. The stops 12 of the ring 11 will touch the parts 13 (or the device on which the part is fixed) and provide a constant clearance between the workpiece 13 and the sleeve 2 necessary for washing the treated hole with kerosene. Sleeve 2 with adapter sleeve; 3 stops and will stand, and the holder,. 1 with the wire electrode 4 will move downward as the hole in the part 13 is machined.

After burning the hole, the device rises. To burn the next hole, the part 13 is moved to the required size, the machine head moves down and the part is repeated.

The proposed device makes it possible to increase the processing accuracy of small-diameter holes, since the electrode-wire moves in the direction without a gap.

The device allows the use of a relatively long wire, which makes it possible to process many holes without a tool change, which requires time for a new machine setting, and improves the accuracy of the specified distances between the holes.

The electrode wire is device 1a and protected from accidental impacts.

Claims (3)

1. A device for electroerosive machining of apertures with an electrode-wire passing through a holder with a clip and guide sleeve, characterized in that, in order to increase the accuracy of machining of small-diameter holes and expand technology 5. There are seven possibilities, a transition sleeve is inserted into it, with which the guide sleeve is rigidly connected and elastically, with the possibility of axial movement, the clamp, and the guide sleeve is provided with a clip similar to that of the holder, the clip being made in the vice of two prisms, one of which is stationary, and the second has the possibility of elastic displacement in a plane perpendicular to the axis of the electrode-wire. 2. The device according to claim 1, characterized in that a ring of insulating material is provided with a possibility of axial movement on the transition sleeve, provided with stops designed for contact with the surface to be treated. 3. A device according to claim 1, characterized in that the holder is connected to the adapter sleeve with a flat spring which is rigidly fixed to. last and enters the groove, made in the holder. Sources of information taken into account during the examination 1. Swiss patent No. 537244, cl. B 23. P 1/12, published. 1973. fU2. i 19rif 5