EP1574290A1 - Jet cutting focussing tube device and process of making same - Google Patents

Abstract

The method involves partly attaching a lateral surface of a focusing pipe (1) in sections with a sleeve (8), where the pipe is made of hard materials. An external contour (9) of the sleeve is mechanically or electromechanically processed using a work tool machine, such that the external contour is aligned concentrically to a middle axis (5) of a through hole (2) in the pipe. The sleeve is fitted on the pipe. An independent claim is also included for a focusing pipe provided with a through hole.

Description

The invention relates to a method for producing a device for a jet cutting certain focusing tube, in particular of hard material, with a concentric Opening for a high-pressure fluid jet. Furthermore, the invention relates to a Focusing tube for a device for jet cutting, in particular of hard material, with a arranged along a central axis of the focusing tube opening for a high pressure fluid jet.

When jet cutting is using a nozzle, a high-pressure fluid jet, for example a Water jet, generated. This high pressure fluid jet passes through the nozzle into a mixing chamber passed, in which abrasive substances are supplied. The mixing chamber is a focusing tube assigned, which has a hole formed as a hole, the general is greater than the high pressure fluid jet and thus can transport the abrasive. The abrasives supplied to the mixing chamber become together with the high pressure fluid jet bundled in the focusing tube and the abrasives are thereby accelerated.

The focusing tube is a wearing part and is therefore interchangeable on a device fixed for beam cutting. It consists of a hard metal, which, for example, by a sintering process is produced. The breakthrough is made by the sintering process or introduced an electromechanical or mechanical process in the focusing tube. In a fault-free introduction of the aperture this is concentric in the focusing tube. Due to manufacturing tolerances and machining inaccuracies are manufacturing defects, in particular a parallel or angular offset of the opening, but unavoidable. When blasting, however, it is crucial that the aperture centered in the Fokussierrohr to the high-pressure fluid jet and is in alignment. by virtue of This manufacturing error or tolerances this centering is often no longer guaranteed. The high-pressure fluid jet occurs slightly off-center in the opening of the Focusing tube, migrates towards the wall of the opening and strikes on this. This leads in particular in conjunction with the supplied abrasives to a reinforced uneven wear of the focusing tube and deformation of the Beam profile, which in turn leads to a deterioration of the processing result.

From DE 196 40 511 C1 it is already known to arrange the focusing tube adjustable. Low manufacturing tolerances and dimensional deviations can be achieved by an axial alignment of the focusing tube to the high-pressure fluid jet by means of manually operable adjusting screws be compensated. However, this is with an additional workload connected and leads to significant structural changes of the device.

A similar device is described in DE 39 06 657 C2 and EP 02 21 236 A1. Here, an axial alignment between a high-pressure fluid jet and a Fokussierrohr achieved by an adjustment of the nozzle forming the high-pressure water jet. The Adjustment is also done manually by means of adjustable screws, which also a higher workload is caused and constructive changes to the device necessary.

In DE 37 08 608 A1 a high-pressure water jet cutting head is described in which a nozzle rotates about its bore axis to an asymmetric deformation of the Prevent nozzle by the water jet. Existing asymmetries or angular misalignment due to manufacturing defects in the production of the nozzle can be caused by rotation However, the nozzle during operation are not compensated.

DE 38 44 344 C2 describes a device in which a highly accurate centering of a Nozzle drilling due to precise but also extremely complex cylinder or tapered fits he follows. A compensation of manufacturing inaccuracies in the production of the nozzle, in particular An angular offset of the nozzle bore, but this is not possible.

The development tendency in jet cutting is currently in the direction of miniaturization the entire device and thus also to a miniaturization of Fokussierrohres and the opening. This results in deviations in the position tolerance during insertion the opening in the focusing tube directly to a significant deterioration of the work result.

The invention is based on the object, a method for producing Fokussierrohren to create, with which a centric arrangement of openings simplified becomes. In particular, the committee should be reduced and subsequent Justagetätigkeiten should be omitted. Furthermore, the invention is based on the object, a focusing tube to create with a centrally arranged aperture.

The first object is according to the invention with a method according to the features of claim 1. The further embodiment of the invention is the subclaims To take 2 to 6.

According to the invention, therefore, a method is provided in which a sleeve at least partially connected to the focusing tube and then an outer contour of the Sleeve is processed mechanically or electromechanically so that thereby the outer contour the sleeve is centered with respect to the aperture in the focusing tube. By the Connecting the focusing tube with an additional component, the sleeve, and post-processing the outer contour can be the production of focusing tubes with centric introduced Breakthroughs are surprisingly simplified considerably. manufacturing defects can be corrected comparatively easily and the high percentage of rejects, especially in the production of miniaturized focussing tubes and openings, can be significantly reduced. Also the costs for the production of the focusing tubes decrease considerably. The adjustment work required by the prior art omitted on Fokussierrohr or on the nozzle forming the high-pressure fluid jet.

A particularly expedient development of the method is also created by that, the sleeve-shaped component is shrunk onto the Fokussierohr. This is it possible, the sleeve-shaped component against rotation and captive on the focusing tube too fix. Additional fixing between the focusing tube and the sleeve-shaped Component are not required.

Particularly promising is a variant of the method according to the invention, in which the outer contour of the sleeve is machined. Through the machining the outer contour of the sleeve is in a particularly simple and extremely effective way and manner reaches a centering of the opening with respect to the outer contour of the sleeve.

It proves to be particularly advantageous that the focusing tube for the mechanical Machining is clamped in a workpiece holder such that a central axis the aperture corresponds to a rotation axis for mechanical processing. As a result, a possibility is created, the outer contour of the sleeve, for example in Turn off a machine tool in a single setup such that the central axis the aperture is arranged concentrically to the outer contour of the sleeve.

It has proven to be particularly practical that the focusing tube is used for the mechanical Machining between two cone tips is clamped. By appropriate geometries the conical tips create a simple possibility, the central axis of the opening and to arrange the axis of rotation concentrically for mechanical processing.

Another particularly favorable modification of the method is achieved in that the Opening is introduced by an erosion process in the focusing tube. The erosion process has in practice due to the length of the aperture to be introduced enforced. The breakthrough, however, could also be due to the sintering process or others electromechanical or mechanical methods are introduced into the focusing tube.

The second task, a focusing tube with a centrally arranged aperture to provide, according to the invention with a Fokussierrohr according to the features of claim 7. The subclaims 8 to 11 relate to particularly expedient Further developments of the invention.

Thus, according to the invention, a focusing tube for a high pressure fluid jet is provided at which a lateral surface of the focusing tube at least in sections with a sleeve is connectable such that an outer contour of the sleeve concentric with a central axis of the Opening is arranged. As a result, the production of centrally arranged Openings in Fokussierrohren much easier. Furthermore, the committee be considerably reduced in the production and the manufacturing cost of Fokussierrohre. Justagetätigkeiten by adjusting screws according to the prior art are not required. The sleeve has a tuned to the course of the central axis of the opening Outer contour on, this vote the outer contour before connecting with the focusing tube, but also after connecting to the focusing tube can be done. For this purpose, the outer contour of the sleeve is mechanically, for example by machining, by means of a Machine tool edited.

Another particularly advantageous development of the focusing tube is achieved by that the sleeve at least partially comprises a metallic material. This can the outer contour of the sleeve by means of a conventional machine tool with the required Precision be edited so that the outer contour concentric with a central axis the opening is.

Another particularly useful development of Fokussierrohrs is also characterized created that the opening at least a funnel-like entrance area and / or Output range has. For the mechanical or machining of the Outer contour of the sleeve, the focusing tube is clamped in a machine tool. In These funnel-like entrance areas become the conical tips of a workpiece holder introduced a machine tool, which fix the focusing tube such that the axis of rotation the machine tool is arranged concentrically to the central axis of the opening is. For this purpose, the conical tips on suitable geometries. The funnel-like Entrance area of the opening proves especially for the supply of abrasives and the subsequent bundling with the high-pressure fluid jet as particularly advantageous.

Particularly practical is also a modification of the focusing tube according to the invention in which the outer contour of the sleeve has an insertion aid. Through this insertion aid is an exact introduction of the focusing tube in the associated recording of Device for beam cutting realized. Thus, it can be ensured that the High pressure fluid jet is arranged in alignment with the aperture in the focusing tube.

It proves to be particularly advantageous that the sleeve has an eccentric inner contour having. As a result, a positional error of the aperture in the focusing tube is exclusive balanced by attaching the sleeve to the focusing tube. It requires For example, a parallel offset of the opening different sleeves with different eccentricities.

Fig.1

eine geschnittene Darstellung eines Fokussierrohrs mit einer zentrisch angeordneten Durchbrechung;

Fig.2

eine geschnittene Darstellung eines Fokussierrohrs mit einem Parallelversatz der Durchbrechung;

Fig.3

eine geschnittene Darstellung eines Fokussierrohrs mit einem Winkelversatz der Durchbrechung;

Fig.4

ein erfindungsgemäßes Fokussierrohr mit einer Hülse;

Fig. 5

eine teilweise geschnittene Darstellung eines in einer Werkzeugmaschine eingespannten Fokussierrohrs.

The invention allows for various embodiments. To further clarify its basic principle, one of them is shown in the drawing and will be described below. This shows in

Fig.1

a sectional view of a focusing tube with a centrally disposed aperture;

Fig.2

a sectional view of a focusing tube with a parallel offset of the aperture;

Figure 3

a sectional view of a Fokussierrohrs with an angular offset of the aperture;

Figure 4

an inventive Fokussierrohr with a sleeve;

Fig. 5

a partially sectioned view of a clamped in a machine tool focusing tube.

Figure 1 shows a sectional view of a focusing tube 1 with a centrally arranged through opening 2. The opening 2 has a funnel-like Input area 3 and an output area 4. An unillustrated high pressure fluid jet and supplied abrasives, for example, for jet cutting, are in one Entrance area 3 introduced into the opening 2 and occur in the output area 4 again from the opening 2 and the focusing tube 1 from. The opening 2 is centric arranged in the focusing tube 1, that is to say a central axis 5 of the focusing tube 1 is at the same time the central axis 6 of the opening 2. By manufacturing tolerances and machining inaccuracies are manufacturing defects, especially a parallel or Angular offset of the opening 2 in the production of the focusing tubes 1 but not too avoid.

Figure 2 shows a sectional view of a focusing tube 1 with a parallel offset and Figure 3 with an angular offset of the aperture 2. The center axis 5 of the focusing tube 1 corresponds to both the parallel and the angular offset so not the central axis 6 of the opening 2. Fokussierrohre 1 with such manufacturing defects had previously be sorted out as a committee.

To avoid this committee, a lateral surface 7 of the focusing tube 1 is first connected to a sleeve 8. FIG. 4 shows a focusing tube 1 according to the invention with a shrunk-on sleeve 8. Subsequently, an outer contour 9 of the sleeve 8 is such mechanically, in particular machined, machined that the outer contour 9 of the sleeve. 8 is arranged concentrically to the opening 2 in the focusing tube 1. The focus tube 1 is then, together with the shrunk-sleeve 8 in a receptacle of a device introduced and fixed to the jet cutting, so that the high-pressure fluid jet in a Escape, that is concentric with the aperture 2 of the focusing tube 1 is arranged. Around to simplify the insertion of the focusing tube 1 in the receptacle of the device, is in the sleeve 8 incorporated an insertion aid.

FIG. 5 shows a partially cutaway view of a workpiece holder 10 a machine tool clamped focusing tube 1. Here, the focusing tube is the first clamped in the workpiece holder 10 such that a central axis 6 of the opening 2 corresponds to a rotation axis 11 of the machine tool. This will be in the Input area 3 and the output area 4 of the opening 2 correspondingly shaped exchangeable cone tips 12 introduced. Subsequently, the outer contour 9 of the sleeve 8 turned off by the machine tool so that the central axis 6 of the opening 2 is arranged concentrically to the outer contour 9 of the sleeve 8.

Claims (11)

Method for producing a focusing tube (1), in particular of hard material, intended for a device for jet cutting, with a concentric aperture (2) for a high-pressure fluid jet, in which a sleeve (8) is connected at least in sections to the focusing tube (1) and then an outer contour (9) of the sleeve (8) is machined such mechanically or electromechanically that thereby the outer contour (9) of the sleeve (8) relative to the opening (2) in the focusing tube (1) is centered. A method according to claim 1, characterized in that the sleeve (8) is shrunk onto the focusing tube (1). Method according to claims 1 or 2, characterized in that the outer contour (9) of the sleeve (8) is machined. Method according to at least one of the preceding claims, characterized in that the focusing tube (1) for mechanical processing is clamped in a workpiece holder (10) such that a central axis (6) of the aperture (2) of an axis of rotation (11) for the mechanical Processing corresponds. A method according to claim 4, characterized in that the focusing tube (1) is clamped for mechanical processing between two conical tips (12). Method according to at least one of the preceding claims, characterized in that the opening (2) is introduced into the focusing tube (1) by an erosion method. Focusing tube (1) for a device for jet cutting, in particular made of hard material, having an opening (2) arranged along a central axis (5) of the focusing tube (1) for a high-pressure fluid jet, characterized in that a lateral surface (7) of the focusing tube (1) at least in sections, with a sleeve (8) is connectable such that an outer contour (9) of the sleeve (8) is arranged concentrically to a central axis (6) of the opening (2). Focusing tube (1) according to claim 7, characterized in that the sleeve (8) at least partially comprises a metallic material. Focusing tube (1) according to claims 7 or 8, characterized in that the aperture (2) has at least one funnel-like input region (3) and / or output region (4). Focusing tube (1) according to at least one of the preceding claims 7 to 9, characterized in that the outer contour (9) of the sleeve (8) has an insertion aid. Focusing tube (1) according to at least one of the preceding claims 7 to 10, characterized in that the sleeve (8) has an eccentric inner contour.

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