DE10306833A1 - Tool head with setting ring for veneer lathe has sliding surfaces flat or with constant curvature parallel to axis of rotation - Google Patents

Abstract

The tool head (1) has radially adjustable tool holders (4) and a setting device axially adjustable relative to the axis of rotation (6). The tool holders and setting device have corresponding sliding surfaces (8). These sliding surfaces are either flat or with a constant radius of curvature relative to the axis of rotation, and one of them may have an inlay (9).

Description

The invention relates to a tool head Tool holders that can be adjusted essentially radially to an axis of rotation and an adjustment direction that can be adjusted essentially axially to the axis of rotation, in which the tool holder and the adjusting device correspond to each other via sliding surfaces. About that In addition, the invention relates to an adjustment ring for hiring a Tool holder opposite an axis of rotation, the adjusting ring being a conical one Has inside to form a plain bearing shell. Also concerns the invention a cutting machine tool, in particular a peeling machine, for processing elongated, especially of cylindrical and also conical, workpieces with round cross section.

Known peeling machines have one by one Rotation axis or peeling head rotating around a processing axis, the an adjustment device for with the peeling head revolving tool holder. Using the adjusting device these tool holders with the tools arranged on them across from a workpiece set so that the tools, for example, a scale layer remove from a hot rolled material so that after machining of the round material as a result there is a metallic bright round material.

Such a peeling machine is for example in the DE 101 29 207 A1 described, in which a shifting device displaceable to a hollow shaft is arranged in the region of a peeling head. Depending on the displacement of the adjusting device, tool holders or tools arranged thereon are moved radially to a machining axis. As a result, the tools can be individually adjusted to a diameter of a base material to be machined. In particular, there are enormous forces and therefore very high surface pressures on the contact surfaces between the tool holders and the adjusting device, which lead, for example, to heavy wear both on the adjusting device and on the tool holders.

However, since the replacement of such adjusting device only with considerable installation effort and considerable costs To achieve, this is a considerable disadvantage of previous ones Turning Heads. The same applies of course also with regard to wear the tool holder, because to exchange such tool holder relatively expensive assembly work to operate. Often comes in this regard, it is intended to replace the worn out Components complete disassembly of the lathe tool adjustment in the Area of the peeling head must be made. Despite these obvious disadvantages have so far been no solutions found to remedy the disadvantages.

It is therefore the task of the present Invention, the danger of wear in the area of a peeling head to reduce.

The object of the invention is achieved by a tool head with essentially radial to an axis of rotation adjustable tool holders and one essentially axially the rotating axis adjustable adjusting device solved which the tool holder and the adjusting device in each case via sliding surfaces correspond and the sliding surfaces are essentially flat. In contrast to previously conical sliding surfaces known Adjusting devices and the corresponding tool holders have the adjusting device according to the invention and the tool holder according to the invention essentially flat sliding surfaces on what about they correspond to each other and in particular radially to the axis of rotation acting machining forces are guided from the tool holders into the adjusting device.

In this way, according to the invention, the risk is reduced that there is between the sliding surfaces there is only a line-like contact and only thereby a small area of the corresponding sliding surfaces absorbs forces and transmits what this small area is understandably enormous Is exposed to stress. Due to the essentially flat sliding surface achieved a particularly good power distribution, so that in the area of flat sliding surfaces occurring surface pressures usually completely of the entire sliding surface can be included.

This leads to a significantly increased lifespan of the tool head according to the invention compared to conventional Tool heads.

In the sense of the invention one understands under the term "even" or "even Sliding surface "essentially surfaces, which are suitable for representing a sliding surface and essentially not curved are, so that the risk is reduced that two corresponding ones flat sliding surfaces just touch each other linearly. With the flat sliding surface are particularly within the scope of the usual Measuring accuracy of flat surfaces meant that among themselves as possible large area in Can be in contact.

Thanks to flat sliding surfaces especially wear economical realize. On the other hand, a curved surface that is parallel to the axis of rotation a constant radius of curvature has, bring these advantages because even with such an arrangement the radius of curvature the sliding surface no over changes the adjustment path, like this with conical surfaces would be the case. The basic idea of the invention is therefore to provide a sliding surface, their radius of curvature the tool holder along the path of displacement with respect to the Adjusting device not changed, being a flat sliding surface also as a sliding surface with infinite radius of curvature can be viewed.

A particularly high life expectancy have the adjusting device and the tool holder of the tool head according to the invention, if the sliding surfaces additionally still hardened are.

Especially sees in this context a variant before that at least one sliding surface has an inlay, which preferably made of a wear-resistant material is. If necessary, such an inlay can be replaced quickly and inexpensively become. Although about that going further, individual flat areas of the predominantly conical Adjusting device, as mentioned, hardened his. However, this is very expensive, so using the inlays is essential cost-effective and thus also economically more meaningful wear-resistant, flat sliding surfaces to be provided.

In addition, it is advantageous if the inlay is a hard metal plate is. This allows the production costs of the adjusting device further reduce the tool holder as these components are not yet additionally a surface hardening process have to undergo. This also further lowers manufacturing costs. Because of the engagement of a hard metal plate to realize a flat sliding surface, it is advantageously possible to use a Standard part for forming a flat sliding surface, which is a mass product particularly inexpensive is producible to use.

By using an inlay from a wear-resistant The good vapor properties of the softer material Component adjustment device and tool holder - maintain and secondly, a wear-resistant one Component surface - inlay - created. The adjusting device and the tool holder are therefore special good against an early Wear protected and about that can out the adjusting device and the tool holder are still mechanical Absorb shocks well without To run the risk of early damage.

It is particularly advantageous if the inlay can be replaced on the adjusting device and / or on the Tool holder is fixed. It is understood that such Inlay through diverse Arranged on the adjusting device or on the tool holders can be. For example the inlays are glued. It is also beneficial if the inlays by means of a screw connection, for example with four cylinder head screws, solvable and exchangeable on the adjusting device and / or on the tool holders are attached.

Especially with regard to screwed Inlays are possible to replace worn inlays with new inlays without doing so Replace the adjusting device or the tool holder completely to have to. This largely prevents disassembly of the tool head.

A special design variant provides that the adjusting device also has a cone bushing. A conical bushing is well suited to this along an axial shaft to be relocated and above also radially other components by means of their conical assemblies to shift to the wave. In this respect, for others Components taking advantage of a taper bush while otherwise by the sliding surfaces of the invention Wear the heavily used areas is reduced.

Preferably, the cone bushing an adjustment ring. As a result, an adjusting device is structurally particularly simple created, which is also displaceable relative to a hollow shaft.

So that a sliding surface of a Adjusting device and a sliding surface of a corresponding tool holder preferably extensively with each other Are active contact, it is advantageous if a flat sliding surface of the Adjusting device essentially parallel to a corresponding one sliding surface a tool holder, preferably a flat sliding surface Tool holder is arranged. With good parallelism between the two sliding surfaces there is a particularly good active contact and a good distribution of force or correspondingly low surface pressure over a preferably huge Area of the sliding surfaces in front.

The object of the invention will also from an adjustment ring for positioning a tool holder against one Axis of rotation released, the adjusting ring has a conically shaped inside for Form a plain bearing shell surface has and the conical plain bearing shell surface at least one substantially has flat plain bearing area.

Accordingly, it is special advantageous if the inside of the adjustment ring at least in Partial areas, especially in the area of the sliding surfaces, even is trained. This allows a power transmission between the adjusting ring and a tool holder take place over a large area, which significantly stresses the components in these areas is reduced.

On the one hand, by means of the adjustment ring the rotationally symmetrical sliding surface can be used that it allows the adjusting ring still structurally relative to a hollow shaft particularly easy to relocate. On the other hand, the adjustment ring according to the invention much more resistant to wear the particularly heavily loaded areas in which the adjusting ring on its sliding surfaces according to the invention the tool holder comes into active contact. This will increase the lifespan the adjustment ring significantly increased.

It is particularly advantageous if the planar plain bearing area can be fastened detachably and interchangeably to the adjusting ring. This means that if the plain bearing area is still worn, the entire adjusting ring does not have to be replaced immediately, but only partially in the area the plain bearing surfaces. This reduces maintenance costs, among other things, since the adjustment ring itself can be used considerably longer.

One is structurally particularly simple wear resistant Half bearing surface realized when the plain bearing area has an inlay which tougher Has material properties than the wear ring. Preferably is this inlay a standard part, which is manufactured in mass production becomes. It goes without saying that the inlay is much easier to harden than this with regard to an inside of a plain bearing shell surface of a Adjustment ring is possible.

It also does the job the invention of a cutting machine tool, in particular from a peeling machine, for machining linear workpieces solved using a tool head and / or an adjustment ring for positioning a tool holder with one of the features described above.

Other advantages, goals and characteristics of the present Invention will become apparent from the following explanation of accompanying drawings described in which two tool heads are shown as an example are.

It shows

1 a perspective view of a first tool head and

2 a partially sectioned view of another tool head which rotates around a workpiece to be peeled.

The in 1 shown tool head 1 consists essentially of an adjustment ring 2 , from a tool holder holder 3 as well as four on the movement holder holder 3 arranged tool holder 4 (here numbered only as an example). The tool holder 4 each have a tool 5 (numbered here only as an example) with which a workpiece 17 (please refer 2 ) from a layer of scale 18 (see also 2 ) are exempted or otherwise processed.

The tool head 1 rotates when machining the workpiece 17 around a machining axis 6 , The tool holder 4 by means of the adjustment ring 2 radially opposite the machining axis 6 hired so the tools 5 towards the workpiece 17 can be employed accordingly.

The tool holder 4 are each in the tool holder holder 3 led them to the tools 5 towards the workpiece 17 or the machining axis 6 hold and guide radially displaceable.

The individual adjustment of the tool holder 4 happens here by a displacement of the adjusting ring 2 in the axial direction 7 , the displacement of the adjusting ring 2 accordingly axially to the machining axis 6 runs.

The inside 2A of the adjustment ring 2 is conical in itself. The tool holder 4 communicate via sliding surfaces 4A with flat sliding surfaces 8th of the adjustment ring 2 which are provided in the conical area. The tool holder 3 remains with the axial displacement of the adjustment ring 2 towards a Hollwelle 13 (please refer 2 ) usually on the hollow shaft 13 fixed so that the adjusting ring 2 relative to the tool holder 3 emotional.

Both the sliding surfaces 4A the tool holder 4 as well as the sliding surfaces communicating with them 8th of the adjustment ring 2 are designed so that the sliding surfaces communicate with each other 4A and 8th interact with one another as far as possible.

Around the flat sliding surfaces 8th on the inside 2A of the adjustment ring 2 The sliding surfaces are particularly easy to construct 8th in this embodiment by inlays 9 realized. The inlays 9 are hard metal plates, which are attached using four Allen screws 10 (numbered here only as an example) on a designated groove 11 on the inside 2A of the adjustment ring 2 are arranged.

Through the inlays 9 is implemented in two ways. First are the inlays 9 such on the inside 2A of the adjustment ring 2 arranged that they are essentially opposite the machining axis 6 run exactly like the rest of the conical inside 2A , Second, the inlays 9 on their sliding surfaces 8th no curved surface like the rest of the inside 2A In contrast, they are flat, that is, without curvature.

Tool holders 4 can thus move the adjustment ring axially 2 along the machining axis 6 easily radially with respect to the machining axis 6 be shifted and are also with the adjusting ring 2 or the inside 2A of the adjustment ring 2 over flat sliding surfaces 4A and 8th in interaction, so that in the area of these sliding surfaces 4A and 8th , especially radial forces better from the tool holders 4 on the adjustment ring 2 be transmitted. The areas around or on the sliding surfaces are therefore subject to 4A and 8th significantly less wear than with conventional tool heads 1 ,

At this point it should be pointed out that such flat sliding surfaces 8th not only, as shown in this embodiment, by means of inlays 9 can be realized. It is understood that such flat sliding surfaces 8th also directly on the inside 2A of the adjustment ring 2 can be worked on. However, the use of the proposed inlays 9 particularly economical because these inlays 9 when critical wear is reached by loosening the Allen screws 10 easily replaced and with new inlays 9 can be replaced.

The sliding surfaces 4A on the tool holders 4 are advantageous anyway because they are much easier to attach to the tool holder 4 can be worked on as the known sliding surfaces 4A with a coni shape. But inlays can also be used here 9 can be used advantageously, for example, on the adjusting ring 2 arranged inlay 9 with one on a tool holder 4 arranged inlay 9 communicated.

The Indian 2 illustrated tool head 12 has a structure similar to that of the 1 well-known tool head 1 , so that components with the same effect in both exemplary embodiments are provided with the same reference numerals.

The tool head 12 has an adjustment ring 2 that on a hollow shaft 13 in the axial direction 7 along the machining axis 6 can slide. In addition, the hollow shaft 13 on her the adjusting ring 2 facing end 16 a tool holder holder 3 on which the individual tool holder 4 leads.

The tool holder 4 point to their the machining axis 6 facing side tools 5 with which the workpiece 17 from its scale layer 18 machined exempt or otherwise can be edited. To do this, the workpiece moves 17 in the feed direction 19 along the machining axis 6 ,

Between the tool holder 4 and the adjustment ring 2 are inlays 9 arranged and the inlays 9 have flat sliding surfaces 8th so the tool holder 4 which are also in the area of the flat sliding surfaces 8th of the inlays 9 flat sliding surfaces 4A exhibit. Thus the tool holder 4 over flat sliding surfaces 4A with flat sliding surfaces 8th of the adjustment ring 2 communicate even though the inside 2A of the adjusting ring 2 is otherwise conical.

Claims (11)

Tool head ( 1 ; 12 ) with essentially radial to an axis of rotation ( 6 ) adjustable tool holders ( 4 ) and one essentially axial to the axis of rotation ( 6 ) adjustable adjusting device, in which the tool holder ( 4 ) and the adjusting device each via sliding surfaces ( 4A . 8th ) correspond to each other, characterized in that the sliding surfaces ( 4A . 8th ) are essentially flat or parallel to the axis of rotation ( 6 ) have a constant radius of curvature. Tool head ( 1 ; 12 ) according to claim 1, characterized in that at least one sliding surface ( 4A . 8th ) an inlay ( 9 ), which is preferably made of a wear-resistant material. Tool head ( 1 ; 12 ) according to claim 2, characterized in that the inlay ( 9 ) is a hard metal plate. Tool head ( 1 ; 12 ) according to one of claims 1 to 3, characterized in that an inlay ( 9 ) exchangeable on the adjusting device and / or on the tool holders ( 4 ) is fixed. Tool head ( 1 ; 12 ) according to one of claims 1 to 4, characterized in that the adjusting device has a cone bushing. Tool head ( 1 ; 12 ) according to claim 5, characterized in that the cone bushing an adjusting ring ( 2 ) is. Tool head ( 1 ; 12 ) according to one of claims 1 to 6, characterized in that a flat sliding surface ( 8th ) of the adjusting device essentially parallel to a corresponding sliding surface ( 4A ) a tool holder ( 4 ), preferably a flat sliding surface ( 4A ) a tool holder ( 4 ), is arranged. Adjustment ring ( 2 ) to position a tool holder ( 4 ) with respect to an axis of rotation ( 6 ), the adjustment ring ( 2 ) a conical inside ( 2A ) to form a plain bearing shell surface, characterized in that the conical plain bearing shell surface has at least one essentially flat plain bearing region. Adjustment ring ( 2 ) according to claim 8, characterized in that the planar plain bearing region is detachable and replaceable on the adjusting ring ( 2 ) is attached. Adjustment ring ( 2 ) according to one of claims 8 or 9, characterized in that the planar plain bearing region is an inlay ( 9 ) with harder material properties than the adjustment ring ( 2 ) having. Cutting machine tool, in particular peeling machine, for machining elongated workpieces ( 17 ), characterized by a tool head ( 1 ; 12 ) and / or an adjustment ring ( 2 ) according to one of the preceding claims.