DE685061C - Device for the manufacture of blades for combat, air or gas turbines - Google Patents

Description

The invention relates to a device for producing blades for steam, air or Gas turbines, namely blades that are individually attached to the turbine wheel. These blades usually have a hollow-cylindrical deflection surface, whose Mechanical processing has so far been carried out using various milling, planing and grinding processes.

The mechanical processing of such hollow cylindrical deflection surfaces prepares according to the previous methods always difficulties because it is not possible to use the milling, planing or To provide the grinding tool with a sufficiently strong shaft or handle. Particularly Such processing is made more difficult by the fact that the large centrifugal forces and the high temperature of today's turbines, the outer cover sheet of the blade is made from one piece with the blade body, if possible must be worked out. As a result, the hollow cylindrical deflection surface is also fixed on the outside Transverse wall completed, while the inner end is covered by the blade root. If the deflection surface is worked in with a small milling cutter, for example should, this milling cutter must therefore have a very thin and long shank, so it can only remove small chips or result in an imprecise and unclean work surface, which Requires rework.

According to another method, which is not yet part of the state of the art, the Machined hollow cylindrical deflection surfaces with a tool, which is around their The center of curvature rotates and is lifted off in the radial direction after each cut. Since the accelerations necessary to carry out the radial pitching and lifting movements as well as the accelerations to be moved Masses are relatively large, vibrations occur across the machine to be processed Area that becomes imprecise and unclean as a result. Improving can be a decrease the acceleration act what

however, in mass production at an uneconomically low operating speed leads.

The object of the invention eliminates these disadvantages by using a device one machining the hollow cylindrical deflecting surface of the blade, which rotates around the center of curvature of this deflecting surface Rotary tool, according to the invention, blade and tool after each Chip removal on the deflection surface can be axially displaced against one another so far that the tool no longer touches the shovel until the start of the next cut. The operation performed by the device is known in part. The invention is only in the device for manufacturing the relatively difficult to manufacture Turbine blades seen. In the drawings is the working process the device according to the invention shown in various examples.

Fig. Ι shows in two cracks the work process with lifting and setting the tool in the axial direction, with the blade turning completely.

Fig. 2 shows in two cracks the working process with the tool at a standstill, with the blade completely turns over and the lifting and pitching movements during the rotation executes in the axial direction.

Fig. 3 shows in two cracks the working process in which the shovel during of their rotation executes a lifting and adjusting movement in the axial direction and at the same time the tool makes corresponding movements in the radial direction.

In Fig. Ι the blade rotates about the axis 1-I ₁ which coincides with the center line of the hollow cylindrical deflection surface. While it passes through the positions m, η, ο , the tool is in position ρ and processes the hollow cylinder surface. After the shovel has left position 0 and the cutting process has ended, the tool is moved to position α , ie moved in the axial direction so far that the shovel back and the cover sheet pass the tool edge. Shortly before the shovel reaches the position m again, the tool is shifted back in the axial direction into the position p so that a new cut can begin.

In Fig. 2 , the tool stands still during the entire process, and the shovel rotates again about the axis II. The hollow cylinder surface is machined while the blade passes through the positions m, n, 0. After leaving position 0 , the cut is finished and the shovel moves axially by the distance r, so that it comes completely out of engagement with the tool. However, it continues to rotate uninterruptedly and, before it reaches the position η , is shifted back to its original position in the axial direction so that a new cut can begin.

The closer the deflection angle of the blades approaches 180 °, the faster the lifting and pitching movements have to be if a reasonably economical cutting speed is to be achieved, or if very thin tools have to be used. This disadvantage is eliminated by a device, the operation of which is shown in FIG. Here, the blade rotates continuously around the axis II and is shifted by the distance r to the left after each cut and to the right before the start of the new cut - that is, in the axial direction. At the same time, however, the tool is also pushed back by the distances in the radial direction after each cut and advanced again by the same distance before the start of the new cut. In this way, excessively high speeds of the lifting and setting movements can be avoided with the simultaneous use of a powerful tool. It does not matter whether the radial and axial movement are carried out by the shovel or by the tool, or whether both movements are carried out by the shovel while the tool is stationary or reversing. "

Depending on the prevailing conditions, a device with the one or applied to another operation. The device can be used for both turbine blades made of square, round or otherwise suitably preformed To cut out material from the solid as well as for the completion of already by forging, pressing, rolling or blades prepared by machining. The feet to the after Attachment of the blades to the turbine wheel can be made before or after machining will. If they are already completed beforehand, they can advantageously do so be used to clamp the blades firmly and precisely during the machining process.

Claims (4)

Patent claims: i. Device for the production of blades for steam, air or gas turbines, which are individually attached to the turbine runner, with a die Hollow cylindrical deflection surface of the blade, which is around the center of curvature this deflection surface rotates, machin- Tending turning tool, characterized in that the tool and workpiece after each chip removal on the deflection surface axially or at the same time axially and radially so far against each other are that the tool does not touch the workpiece until the start of the next cut. 2. Apparatus according to claim i, characterized in that the tool is axially displaceable when the workpiece is stationary in the longitudinal direction (Fig. i). 3. Apparatus according to claim 1, characterized in that the workpiece is axially displaceable when the tool is stationary (Fig. 2). 4. Apparatus according to claim 1 and 3, characterized in that the displacements of workpiece and tool in both radial and axial directions, with either the Workpiece or the tool both or workpiece and tool each perform a movement (Fig. 3). 1 sheet of drawings