DE102006015442A1 - Electro-chemical machining electrode for electrically conductive material, has electro-chemical machining active section, which has tapering outside geometry towards face of electrode - Google Patents

Abstract

The electrode (1) has an electro-chemical machining active section (2), which has tapering outside geometry towards the face of the electrode. A channel is provided, which runs within the electrode for electrolyte supply, which flows in the central range (4) of the face. The outside geometry of the electrode with the orifice of the channel is formed as rotationally symmetrical.

Description

The The invention relates to an electrode for electrochemical machining one of an electrically conductive Material formed object to be processed.

The publication EP 0 801 598 B1 discloses a method for ECM (ElectroChemical Machining) machining of workpieces. However, the workpieces disclosed therein are essentially small components, such as a shaving foil or a shaving head of an electric shaver, so that the method taught does not depend on the current conditions and, in particular, the current density and power values of the system to be applied for ECM processing Machining cases in mechanical and automotive engineering is easy to transfer. Likewise, no electrode is taught in the document that allows, for example, a drilling in the automotive industry.

From the EP 0 259 691 A2 For example, an electrode head for electrochemically lowering an external geometry on a workpiece is known. However, again, no ECM machining electrode is disclosed that allows for ECM machining of, for example, a bore or otherwise configured deep cavity in a workpiece.

Furthermore, from the DE 199 59 593 A1 discloses a method of making a bore by ECM machining, which proposes drilling in two or more operations. In this case, an electrode is subjected to different voltage values and feed rates, so that in a first step, the bore is made with an allowance and the bore is machined to the final dimension in the subsequent work steps. The disadvantage, however, is that the DE 199 59 593 A1 does not provide a detailed description of the electrode and that the method described requires several steps.

outgoing The invention is based on the object of the prior art an electrode for electrochemical machining one of an electrical conductive Specify material formed object to be processed, the one process-reliable, fast and economical processing, for example from a hole, in one step. At the same time a transferability to other geometric configurations of deep cavities, such as For example, an internal toothing, be ensured. This should especially characterized by a positionally accurate leadership.

The Task is in relation to the electrode to be specified for electrochemical Processing solved by the features of claim 1. Further advantageous embodiments and refinements of the invention go from the dependent claims and the description.

The Task with respect to the electrode to be specified according to the invention solved that the electrode for electrochemical machining of a electrically conductive Material formed object to be machined an ECM-active section having an outer geometry tapering towards the face of the electrode, wherein within the electrode, a channel for supplying electrolyte, which opens centrally in the area of the front.

Of the Advantage of the invention is that the to the face of the Electrode tapered First enter the geometry of the electrode into ECM-active machining becomes. Guaranteed the tapering towards the front Geometry that only ever has a small electrode area for ECM machining is active and thus the Abtragsfläche and also the Abtragsprodukte be substantially reduced. This allows in advantageously a much higher feed rate the electrode of more than 3mm / min, preferably from 5 to 6mm / min, so that the efficiency of processing is increased. In addition will the process reliability of ECM machining due to the reduced removal area is essential elevated, because the working surface, at which shorts and thus an unwanted termination of processing can take place, essential is reduced. As a result, the quality of the processed also increases Surface.

simultaneously provides the tapered outer geometry for this, that the electrode during the ECM processing itself accurately positions and guides.

In Connection with the central feeder of electrolyte solution in ECM machining through the central mouth in the face of the Electrode creates the added benefit of being involved in ECM machining training flow the electrolyte solution for one Centering of the electrode ensures.

advantageously, is the outer geometry of the Electrode with the mouth of the channel formed rotationally symmetrical, since this is the stability of the centering the electrode is increased by the forming in the working gap flow. simultaneously guaranteed this embodiment, that fewer vortices occur in the flow and process stability thus further advantageously increased becomes.

In a further advantageous embodiment of the electrode are on the peripheral surface of the outer geometry of the electrode one or more fe arranged end elements, which in particular exert the function of a seal which acts unidirectionally sealing depending on the flow direction.

Advantageous it is thereby that better flow conditions of the electrolyte solution for ECM machining be reached, since such elements conduct the flow in one direction, while in the other direction as a kind of sealing or check valve Act. This means, they are unidirectional. Thus, the process stability is advantageously increased and the Surface quality of the processing surface is increased.

Especially It is also advantageous that by the resilient elements an additional centering effect of the electrode is achieved as it is the electrode defined in the gap between the electrode and the machining object Space for the object to be processed. This leads to a further increase the process stability. Advantageously, the resilient elements of an insulating material manufactured or provided with an insulating coating, so that they do not act ECM-active and through them no further material removal takes place.

In In a further advantageous embodiment, the electrode has a plurality within the electrode extending channels for supplying electrolyte, which open into a single, common opening on the front side.

Of the Advantage of this embodiment is that in a simple manner the temperature of the electrode during ECM editing through the feeder a defined tempered electrolyte can be controlled.

Preferably has the electrode for electrochemical machining of a an electrically conductive Material formed object to be machined two ECM-active sections with different geometric configuration, wherein a first section a tapering to the front side of the electrode outer geometry and a second, subsequent to the first section section one, along its longitudinal extent constant outer shell geometry having.

Of the The advantage here is that so in an electrode sections to a coarse pre-processing and subsequent finishing are integrated. The face to the front the electrode tapers The geometry of the electrode is that part of the electrode that is first in the ECM-active processing will arrive. Guaranteed the tapering towards the front Geometry that only ever has a small electrode area for ECM machining is active and thus the Abtragsfläche and also the Abtragsprodukte be substantially reduced. This allows in advantageously a much higher feed rate the electrode of more than 3mm / min, preferably from 5 to 6mm / min, so that the profitability of the processing further increased becomes. additionally the electrode is precisely positioned by the tapering geometry and the process reliability of ECM machining due to the reduced removal surface significantly elevated.

advantageously, is the tapered geometry form as a truncated cone, since so a uniform flow of the electrolyte solution in the Gap between the electrode and the object to be machined reached and thus the removal products are reliably removed. The tapered geometry but can be dependent formed by the machining geometry in other geometry be, such as a tapered geometry with oval Reference and end face or as a pyramidal segment.

The reference surface the rejuvenating Geometry is smaller to dimension than the one to be produced Finished geometry, since this is processed only when the second ECM-active portion of the electrode, i. the section with the over the longitudinal extent constant lateral surface, for ECM-active processing. The geometry of the lateral surface is to choose according to the finished geometry to be produced. Preferably They thereby as a circular, polygonal or oval cross-section or also to be interpreted as a gearing cross-section, but not on this limited.

One Another advantage of the electrode according to the invention is that at the processing of the final Finished geometry through the over the length constant lateral surface only a very small amount of material has to be removed and thus for the Finishing the high feed rate of the electrode rough preprocessing can be maintained without Disadvantages regarding the surface quality of the working surface or Process reliability can be expected.

In an advantageous embodiment of the electrode according to the invention, are the first and the subsequent second ECM-active section the electrode as a thin-walled and / or in one piece designed closed trained profile cross-section.

The advantage of this embodiment is that the electrode surface is further reduced by the reduced wall thickness at the beginning of the ECM machining and thus the process reliability is increased with the same system performance or ECM machining also on machining systems Process reliability is possible with lower power. The wall thickness is preferably to form 0.1 to 2 mm, but may be formed depending on the processing case in thinner wall thickness, for example of sheet material, or in thicker wall thickness.

When Another advantage is the use of in this embodiment easy and inexpensive to produce Hollow sections possible. For example, you can so hollow sections with different sections easily and inexpensively via hydroforming or other manufacturing processes are produced. Advantageous is going to be that one piece Hollow cross-section a homogeneous transition of the first ECM-active section of tapered cross section to the second ECM-active section can be created. This is special then advantageous if a polygonal contour or tooth contour uniformly the first ECM-active section into the second ECM-active section.

In a further advantageous embodiment of the electrode has the lateral surface the electrode partially on an insulating coating.

Of the The advantage here is that in the areas where the lateral surface of Electrode coated is no more material removal takes place and thus inadmissible Material removal is avoided because the insulating coating, preferably carbon-based and in a thickness of a few microns, in particular 5-10μm, designed, acts as an electrical insulator. At the same time, the very small thickness of the coating ensures that the machining gap between electrode and material to be machined during ECM machining, preferably set to a gap width of 0.1 to 0.15mm is not significantly reduced. Thus, an essential one Influencing the flow the electrolyte solution excluded by the working gap through the insulating coating of the lateral surface.

In a further advantageous embodiment of the electrode has the Electrode at least one channel for supplying electrolyte.

Of the The advantage is that in the ECM processing by a Such supply of electrolyte solution a flow adjusts the electrode centered and stabilized and the the removal products are transported reliably out of the machining gap.

following becomes the electrode according to the invention based on an embodiment explained in more detail. The The invention is not limited to the exemplified electrode limited.

1 shows a not to scale side view of an inventive electrode for ECM machining without representation of the bonding means of the electrode to a processing device for ECM machining.

2 shows an end view of the electrode according to the invention.

The electrode ( 1 ) for ECM machining serves to produce a hole of 20 mm and, in the embodiment, has a truncated cone section in a front region as two ECM-active sections ( 2 ) and a cylinder surface section which is constant over the width ( 3 ) on. The unspecified rear portion of the electrode ( 1 ) comprises, inter alia, a supply line over that of the electrode ( 1 ) during the ECM processing an electrolyte solution is supplied. The electrolyte solution flows at the end of the electrode during ECM processing ( 1 ) through the central mouth ( 4 ) out.

The first ECM-active section ( 2 ) of the electrode ( 1 ) is designed as a truncated cone with a longitudinal extent of 7mm. The frontal diameter of the truncated cone is 5mm, while the diameter at the base of the cone is 19mm.

The second ECM-active section ( 3 ) of the electrode ( 1 ) is designed as a cylinder section with a diameter of 19.8 mm. Thus, a bore with a diameter of 20mm is produced at a machining gap of 0.1mm to be set. The cylinder section ( 3 ) is in the rear region of the electrode ( 1 ) coated with an insulating carbon coating.

The transition from the first section ( 2 ) to the second section ( 3 ) is designed with a radius of 0.5mm.

The front area of the electrode ( 1 ) with the ECM Active Sections ( 2 ) 3 ) is produced as a one-piece deep-drawn part with a wall thickness of 0.25 mm and a joining method with the rear portion of the electrode ( 1 ) connected.

During ECM processing, the object to be processed in the central region of the mouth ( 4 ) arise a survey. This is advantageously used to direct the flow of the emerging from the mouth of the electrolyte solution, so that the flow centered and positioned the electrode, less turbulence is generated and process reliability is increased.

Claims (8)

Electrode ( 1 ) for electrochemical processing tion of an object to be processed formed from an electrically conductive material, characterized in that the electrode ( 1 ) an ECM-active section ( 2 ), which in the direction of the end face of the electrode ( 1 ) has a tapered outer geometry, and has a channel extending inside the electrode for supplying electrolyte, which centrally in the area ( 4 ) opens the front side. Electrode ( 1 ) according to claim 1, characterized in that the outer geometry of the electrode ( 1 ) with the mouth ( 4 ) of the channel is rotationally symmetrical. Electrode ( 1 ) according to claim 1 or 2, characterized in that on the peripheral surface of the outer geometry of the electrode ( 1 ) one or more resilient elements are arranged, which in particular exert the function of a seal which acts unidirectionally sealing in dependence on the flow direction. Electrode ( 1 ) according to one of the preceding claims, characterized in that the electrode ( 1 ) several within the electrode ( 1 ) extending channels for supplying electrolyte, which in a single, common opening ( 4 ) open at the front. Electrode ( 1 ) according to one of the preceding claims, characterized in that the electrode ( 1 ) has two ECM-active sections with different geometrical configuration, wherein a first section ( 2 ) one to the front of the electrode ( 1 ) has a tapering outer geometry and a second section adjoining the first section ( 3 ) has a, along its longitudinal extent constant outer shell geometry. Electrode ( 1 ) according to claim 5, characterized in that the first ( 2 ) and the subsequent second section ( 3 ) of the electrode ( 1 ) have a thin-walled and / or integrally formed closed profile cross-section. Electrode ( 1 ) according to one of the preceding claims, characterized in that the constant shell geometry ( 3 ) of the electrode ( 1 ) has as outer contour the contour of a circle, a polygon or an oval. Electrode ( 1 ) according to one of the preceding claims, characterized in that the lateral surface ( 3 ) of the electrode ( 1 ) partially has an insulating coating.