DE1294794B - Device for the electrolytic removal of an elongated work piece - Google Patents

Description

1 2

The invention relates to a device for the elongated workpiece inside the Electrolytically ablative machining of a long electrode can be provided that the workpiece elongated workpiece with ring-shaped, the work- at the same time the rotary movement around the longitudinal axis pieces of surrounding electrodes. The electrolyte treated. In certain cases with little work of elongated workpieces, e.g. B. 5 gap width, the flow resistance at the outlet " Wire, in nozzle-shaped electrodes for polishing, enters the gap to be large enough to be exposed known. The wire is maintained by a nozzle to maintain the superatmospheric pressure drawn, which is surrounded by an electrolyte bath. required over the entire length of the working gap Since, however, to ensure a perfect mirror-like upper back pressure of the electrodes. In this surface a superatmospheric pressure in the working io case can act as a ring-shaped collecting chamber of the room gap is required and with the electrolytic of the working gap immediately before the exit ablation If the width of the gap increases, the slot is used for the passage of the electrode. Method of Obtaining a Well-Polished Top- The invention is described below with reference to FIG

very difficult to carry out. In particular, drawings of exemplary embodiments must be more detailed with relatively little removal, d. H. with refined 15. It shows ger current density to be worked. F i g. 1 schematically shows a system that is used for the

The invention is based on the calibration of a rod, if such an arrangement were to be created, in FIG. 2 a device for attaching a

which, on elongated workpieces, has a longitudinal groove on a rod, gel-like surface even with very high working * »F i g. 3 shows an arrangement for polishing a rotational speed can be achieved. tes and

This object is achieved in a device of FIG. 4 is an end view of a drawing die for the

initially mentioned type solved in that little machining or polishing only a part of the at least two annular, the workpiece surrounding surface of an elongated workpiece, the Chambers are present, one of which the electrolyte «5 runs through this wire drawing iron, is supplied under pressure and the other one F i g. 1 shows a system for calibrating a

The collecting chamber for the electrolyte is, and that stem, with a wire drawing iron2, which is formed from at least one part of an electrode between the two chambers, the conductive disks 3 a, 3 b, 3 c, arranged from a body 3 and the electrode surrounding the workpiece. 3 d consists, where is. With this arrangement according to the invention, the entire device is forced between two insulating parts 4 over the entire length of the work surface and 5 is clamped.

fig to maintain a high pressure, because the insulating part 5 has a central bore,

The flow resistance during the reflux corresponds to which the stalk passes through, whereby this corresponding back pressure is maintained in the stream. Bore has a seal 6 which has an annular chamber 7 At least one electrode can terminate as a wire drawing 35 between the part 5 and the electrode 3 be made of iron and a cone-shaped, in and the rod 1 surrounds. This chamber is owned by The active surface of a pump 8, which narrows the passage direction, is fed, which has the in the container 10, holding electrolyte 9 sucks and under high pressure it can at least two by insulating pieces presses into said chamber and into one separate electrodes together a wire drawing iron 40 second chamber 11, which is annular in the insulating part 4 form, wherein at least one of the electrodes is arranged in on. This chamber 11 is on the left known way consists of an electrochemical side by a seal 12 made of elastic material neutral material and closed rial for the return line, which is processed on a of the current is determined. The wire drawing iron can support the peripheral surface of the rod 1. This latter several segment-shaped, ring-shaped an- 45 is still held by a sleeve 13, which a have ordered electrodes. It can also form bearings to the rod 1 at the exit from the To lead at least one electrode from a stack of ring-wire drawing iron, this sleeve being more pre-shaped Panels of a variable number with openings are made of a material that is neutral genes of decreasing cross-section exist. Due to the electrolyte is and a low this arrangement will have a very easy adjustment of 5 ° coefficient of friction on rod 1. These the device on appropriate wire cross-sections sleeve 13 can advantageously be made of polytetrafluor. consist of ethylene.

Preferably, each of these electrodes is the electrolyte, which is advantageously under one

is connected in a manner known per se to one phase with a pressure of the order of 20 kg / cm ² , multiphase alternating current source. The electrolyte-filled space surrounding each of its ends penetrates into the central bore of the electrode 3 through the workpiece and flows up to a ring target over the entire circumference of essentially conical chambers 14, which have a cross-section protruding in the center of the electrode, so that an equilibrium can be seen and is connected to a line 15 for discharging the hydraulic electrolyte exerted radially on the workpiece. This line 15 has seen forces is achieved. The at least one valve 16, which is regulated so that a wire-drawing iron, formed from at least one electrode, can be mounted on the workpiece in a floating manner, relatively high counterpressure in the line 15. is present, which is on the order of 5 to

In order to have a high surface quality of 15 kg / cm ² on the workpiece. The electrolyte then passes through a device for supplying the through a regeneration device 17 before the electrolyte returns into the container 10 in the opposite direction to the feed direction 65. This device of the elongated workpiece can be provided. Fer- 17 can simply consist of a centrifugal filter in order to have irregularities on the circumference of the or filtering walls and if an electrode is to be avoided, a feed device is intended to remove the insoluble hydroxides.

3 4

separate, which are separated in the electrolyte during the other by annular insulating parts 27, 28 and 29

Form anodic dissolution of part 1. separated. The insulating part 28 has an annular shape

A power source, not shown, has a chamber 30 and a line 31 for the drainage of the

Current between the rod 1 and the conical electrolyte on. Parts 21 and 22 each have

Surface of the recess of the electrode 3 towards 5 an annular chamber 33 or 34 and a line

run through, the current density 100 A / cm ² or device 31 or 32 for the supply of the electrolyte.

can achieve more and the positive terminal above. As before, these chambers 33, 34 are open

a brush 18 with the rod 1, the negative of the outside by seals 35 and 36

Terminal connected to electrode 3 via a connection 19,

connected is. io The wire drawing iron shown in Fig. 2 is used

In order to carry out the machining of the rod 1, to produce parallel grooves in the rod 1. This is shifted in the direction of the arrow F , electrodes and the insulating parts, while the electrolyte, with the aid of the pump 8, has an inner recess, the shape of which Circulated and a strong current through which corresponds to the cross section through which the rod 1 is passed on the space between the rod 1 and the electrode 15 of the height of the electrode or the gezotrode 3 under consideration. In this way, it has a separate insulating part.

Material on the entire surface of the rod 1 The electrodes 23-26 are alternating with

picked up. If a simple electrolyte is used the negative and positive terminals are one

is connected, which is essentially an aqueous solution direct current source, not shown

consists of NaCl, is made at the same time as a Schnei- so is. Since the electrodes 23 and 25 with the negative

len machining an excellent polish of the tive, the electrodes 24 and 26 with the positive

machined surfaces achieved by steel bars. Are connected to the terminal, no editing

In the embodiment according to FIG. 1 extended device compared to the electrodes 24 and 26, which from

the conical hole of the electrode 3 must be an electrochemically neutral material up to the point

passage of the insulating piece 4 and goes with one of the pieces, for example made of graphite. The entire processing

rounded surface 20 into the chamber 11 over. This device takes place with respect to the electrodes 23 and 25,

Rounding off is intended to create eddies of the electrolyte connected to the negative pole of the source

prevent uneven processing of the are while the return of the current without

Would cause rod 1. Contact via electrodes 24 and 26 is effected.

Since at the end of the smaller cross section of the conical 30 F i g. 3 illustrates an application of the invention, see the hole of the electrode, d. H. at the point according to which a three-phase network as a power source inhabits the processing cycle through which Kam is used stops. In this case two are at odds 11 fresh electrolyte is brought in, the following wire drawing iron is carried out along a wire 38 At this point the machining is arranged under the one to be polished, each of the best possible conditions. 35 mentioned wire drawing iron, three electrodes 39, 40, 41

The exit hole of the elementary electrode 3 α has the phases r, s and / of the network

is bounded by a sharp edge, which is a very connected. These electrodes are all made of

clear end of the processing zone and accordingly electrochemically neutral material, for example

ensures an accurate calibration of the rod 1. Graphite, and are from each other by insulating

It is possible to separate the final diameter of the rod 1 40 parts 42. The entirety of the electrodes

to regulate by the number of discs 3 a, lies between two pieces of insulating material 43 and

3 b, 3 c is changed and by their inner diameter 44, in which chambers 45 and 46 for supply and

knife is chosen accordingly. Discharge of the electrolyte are arranged.

In the system according to FIG. 1, the wire drawing The machining current runs from an Elekeisen2 on a machine which has a 45 trode to its neighboring one by ensuring a part of the advancement of the bar 1. As the electrolyte runs the length of wire 38 through it. As a result of the small distance between these electrodes under pressure evenly around the entire circumference of the rod 1, the wire puller 2 can be mounted floatingly on the machine through the wire 38 currents of an intensity, that is to say they run much higher than when the so that it is possible to move it in all directions transversely 5 ° return of the current through this wire through to the axis to the rod 1. That would be wired. The last electrode of a wire drawing iron must, however, be fixed in the longitudinal direction in proportion and the first electrode of the following wire strand to the rod 1, around its drawing iron are connected to the same phase, shifting under the action of the pressure of the in order to avoid that to avoid the wire 38 between an electrolyte which supplies a component parallel to the arrow F 55 wire drawing iron and the following of a current. This floating is traversed. The heating of the wire is particularly significant for polishing - this is kept to a minimum, and it is not absolutely possible to use large total amperages, rectilinear rods, or descaling operations. By arranging a sequence of several wire drawing irons Fig. 2 shows a second embodiment of a 60 in the path of the wire 38, wire drawing iron, which consists of a stack of wires, the speed of passage of the wire for a trode, the diameter reduction given with insulating spacers and a maxi are arranged alternately. In the case shown, malstrom in the wire are multiplied,
If the wire-drawing iron has two end parts 21 and 22 At the same time as the polishing of the wire, the parts 4 and 5 of the first embodiment can also be calibrated. In shape correspond, and four ring-shaped electrodes to a certain extent, the final diameter 23, 24, 25 and 26, which between these parts 21 and the wire can be varied by only placing the Ge-22. These electrodes are pre-speed of the wire and / or the strength of the

Machining current, but not the wire drawing iron is changed.

Because of the mentioned advantage of the devices described, the balance of the electrolyte Radial forces acting on the workpiece are of interest to a wire drawing iron can also be used when only part of the circumference of an elongate body 50 is being machined shall be. F i g. 4 shows such a wire drawing iron in the event that the or body 50 to be calibrated has an I-shape and the only surfaces to be machined on the two Sides of the soul of the I. The wire drawing iron has two electrodes 45 and 46, which through Isolating blocks 47 and 48 are separated and connected to one another by bolts 49. In this way the two electrodes have the same voltage and they can be used in combination with other electrodes - or with bearings - designed to keep the stream flowing to the elongated To feed body 50 at a point which is axially offset with respect to the two electrodes 45,46 is. In this case again have the electrolyte on the wire drawing iron and on the elongated Pressures exerted by the body have no component in a plane perpendicular to the axis of the elongated Body 50 lies.

In a modified embodiment, the electrodes 45 and 46 can be isolated from one another and each be connected to a pole of the power source so that only one of these electrodes is dated From the editing point of view would be active. This wire drawing iron can then be supplemented by a second one axially offset and connected to the source so that the other electrode for the Editing is effective.

When using a three-phase alternating current, a wire drawing iron can be used, its inner wall consists of three electrodes, each of which is connected to a phase of the supply network is. The dividing line between these electrodes preferably runs opposite the axis of displacement of the elongated body at an angle in order to avoid that this dividing line marks the leaves machined bodies. Another means of preventing these traces is to use the to set elongated body at the same time during its advance in revolutions.

It is possible to work with constant feed and a constant voltage source, like this that the machining current automatically adjusts itself to the value that is necessary for the passage of the body in the wire drawing iron.

Claims (10)

Patent claims: 1. Device for the electrolytic machining of an elongated workpiece with 55 ring-shaped electrodes surrounding the workpiece, characterized in that there are at least two ring-shaped chambers surrounding the workpiece, one of which is supplied with the electrolyte under pressure and the other is a collecting chamber for the electrolyte, and that between the two chambers at least part of one the workpiece surrounding electrode is arranged. ■ 2. Device according to claim 1, characterized in that that at least one electrode is designed as a wire drawing iron and a conical, has active surface narrowing in the direction of passage. 3. Apparatus according to claim 1, characterized in that at least two by insulating pieces separate electrodes together form a wire drawing iron, at least one of the Electrodes are made of an electrochemically neutral material in a manner known per se and is intended for the return of the current. 4. Apparatus according to claim 3, characterized in that the wire drawing iron is several Has segment-shaped, annularly arranged electrodes. 5. Apparatus according to claim 3, characterized in that at least one electrode a stack of annular plates of variable number with openings of decreasing number Cross section. 6. Device according to one of claims 3 to 5, characterized in that each electrode connected in a manner known per se to one phase of a multiphase alternating current source is. 7. Device according to one of claims 1 to 5, characterized in that the workpiece surrounding space filled with electrolyte is essentially constant over the entire circumference Has cross-section, so that a balance of the radially exerted hydraulic on the workpiece Forces is achieved. 8. The device according to claim 7 with a wire drawing iron formed from at least one electrode, characterized in that the wire drawing iron is mounted in a floating manner on the workpiece is. 9. The device according to claim 1, characterized by means for feeding the Electrolyte opposite to the direction of advance of the elongated workpiece (1). 10. The device according to claim 1, characterized by a feed device for the elongate Workpiece inside the electrode, the workpiece simultaneously rotating issued around the longitudinal axis. 1 sheet of drawings