EP1216770A2 - Method and device for casting a mould part used during the fabrication of a turbine blade - Google Patents

Abstract

The tool has several tool blocks (1,2) locking together with at least one having a rotary or sliding insert (7,8) which adjoins the hollow cavity (5) and can be fixed in different positions relative to the block so that different geometrical hollows can be formed in the different positions. The insert can be used to determine the hot gas geometry of the turbine blade.

Description

Technical application area

The present invention relates to a tool for casting a molded part for the production of a Turbine blade, in which several tool blocks in assembled in a form-fitting manner form a cavity for the molding, in the over one or more flow openings Material, especially wax, can be introduced. The The invention further relates to a method for the production of a molded part for a turbine blade with such a tool.

When developing turbine blades are in the various stages of development, such as the casting, machining or manufacturing development, numerous tests and adjustments to make themselves also on the original tool development can impact. Just differences between the aerodynamic model calculations and later real properties of the manufactured system can require a new set of tools Creation of the original molded parts.

In the manufacturing and development process one Turbine blade will first meet the requirements just shape of the turbine blade as three-dimensional Model calculated. From this model Injection molds are made that are casting a Molding with the calculated three-dimensional shape enable. These injection molding tools are used usually composed of several tool blocks, which in assembled in a form-fitting manner form a cavity for the molded part. In the formed cavity is over one or more Access openings melted wax under high pressure injected. The injected wax hardens its cooling to a molded part in the through the Injection molding tools given shape. Subsequently the tool blocks are removed. With that on this Form provided part is made in a known manner a ceramic mold for later precision casting the turbine blade produces.

The manufacture of tool blocks for the Injection mold is very complex because it is in the Usually made of steel and the shape of the later turbine blade already as precise as possible should set. Furthermore, the form fit sufficient between the individual tool blocks Sealing effect against that under high pressure achieve injected wax.

Especially the dimensioning and manufacture of the first row of turbine inlet guide vanes makes very high demands because of this first Row of the flow pattern of the hot gas very sensitive being affected. A minimal deviation of the Angle of attack of these guide vanes from an ideal value already leads to a significant pressure increase or Pressure reduction in the gas turbine, which is significant can affect efficiency. In case of a such an undesirable deviation must therefore New molded part with a correspondingly changed angle of attack are generated, for which the creation of a completely new injection molding tool is required. Furthermore, throughout the manufacturing process several additional tolerances too take into account that also significant influence can take on the flow of the hot gas. Scatters in cast machining are an example or deviations in coating thicknesses called. Such deviations are in the initial Dimensioning of the molded part not yet known and can therefore also a retrospectively Change the geometry of the injection molding tools after pull yourself.

Based on this state of the art Invention, the object of a tool and a Process for producing a molded part for a Specify turbine blade with which a light Change of the inflow geometry or the angle of attack the turbine blade without completely rebuilding the Injection molding tool can be managed.

Presentation of the invention

The task is done with the tool or 9 solved the method of claims. Advantageous configurations of the tool and Procedures are the subject of the subclaims.

The tool according to the invention for casting a Molded parts for the manufacture of a turbine blade is composed of several tool blocks. This Tool blocks form when in a given Form positively assembled or pushed together be, a cavity for the molding, in the one or more designated Access openings flowable material, such as melted wax, can be introduced. The This tool is characterized in that at least one of the tool blocks rotates or slidable insert or insert that takes with one surface adjacent to the cavity and in different Positions and / or orientations is fixable with respect to the tool block, so that in the different positions and / or orientations the insertion or use different Cavity geometries or cavity volumes are formed become.

The insertion or use is preferably in this case made of the same material as the tool blocks and can be inserted in a form-fitting manner. Through the Possibility in different positions and / or orientations of the insert or insert can generate different cavity geometries a subsequent adjustment of the geometry of the molded part by reintroducing or injecting the liquid material in the cavity at accordingly changed position and / or orientation of the Inserts can be made. A new production of the entire injection mold, d. H. the shaping This means that the inner surfaces of the respective tool blocks not necessary anymore. Of course you can or several inserts or inserts in one or several tool blocks can be provided, the Specialist according to the intended setting or Can arrange adjustment. The slots will be then before pouring the flowable material into the desired position with a suitable one Fixative fixes it so that it holds its position and / or orientation during the filling and The flowable material no longer cures to change. The fixation of one or more slots is preferably done using mounting pins that are in correspondingly provided recesses on the respective Intervene in tool blocks. The mounting pins through openings in the slot inserted. The corresponding recesses the tool blocks are according to the desired gradation the adjustment options as correspondingly fine Lace pattern.

The insert (s) are preferably like this designed to be the surfaces of the Determine molded part that the course of the hot gas path determine or co-determine the turbine blade. A particularly advantageous embodiment relates here the arrangement of two inserts or inserts in opposite tool blocks. The inserts or Inserts are designed such that they put together a cylindrical slide-in unit to determine the geometry of the airfoil form. The one from the two inserts or inserts Compound slide-in unit is in the tool blocks rotatable about its longitudinal axis and can be in fix different rotation positions. By different Rotation positions of this plug-in unit different angles of attack of the Realize the airfoil.

Fixing options are preferred in spacing provided that the angle of attack can be changed in increments of 0.25 - 0.5 ° can. In this way it is very quick, easy and without the redesign of the tool blocks Create molded part with changed angle of attack, if it turns out during the further development that the angle of attack originally conceived due to Manufacturing tolerances the requirements for the hot gas path not fulfilled.

Such an embodiment of the tool has the further advantage that it also enables molded parts for Turbine blades made in different plants can be done without a separate tool to have to provide. This can, for example with one and the same tool turbine blades for turbine systems with different flow conditions or other mass flows as they are produced especially with different types of fuel operated gas turbines occur.

For an adjustment of the dividing lines in the tool Change of position and / or orientation of the Inserts can be present, which the Move dividing lines and / or a possible game between the slot and the tool block or balance between the individual inserts. in this connection it is also conceivable, preferably already corresponding wedge-shaped spaces between the inserts provide in the corresponding spacers can be inserted after positioning the inserts are.

In a further embodiment of the present tool is in a tool block, the essentially the shape of the blade platform and the blade root serves, one along an axis slidable insert provided by the Move the height of the bucket platform is set. The displacement axis corresponds here the z-direction when using the later turbine blade coincides with the radial direction.

In the manufacture of the molded part, the individual tool blocks assembled, preferably pushed together, the insert or inserts brought into a position and / or orientation with the desired geometry of the cavity or later molding is generated, and in this position fixed to the tool blocks. Then will melted wax under high pressure in the sun generated cavity injected and there by cooling solidified. After solidification, the tool blocks with the associated inserts or inserts separated from the hardened wax molding. Through the Intermediate pieces already described will be a separation the inserts of the molded part relieved.

The tool and the associated procedure for Injection molding of a molded part for the production of a Turbine blade is particularly suitable for the Setting the angle of attack of the airfoil of the Turbine blade or for adjusting the height of the Blade platform of the turbine blade. Special The tool offers advantages in cases where a higher number of adjustments during the development of the Turbine blade must be made. The more Adjustments are required, the more benefits offers the present method, because not for everyone Adaptation made a new injection mold must become. Rather, the adjustments can be made through easy adjustment of the slide within the Implement tool.

The tool or the associated procedure relate primarily to manufacturing of molded parts made of wax. However, the expert is obvious that other meltable ones besides wax Materials for the production of the molded part with the present tool can be used. The materials of the tool blocks also play no essential role for the invention, so that Specialist for this according to the respective Application required materials available stand. The external design of the individual Tool blocks can also be used according to the known prior art.

Brief description of the drawings

Fig. 1

ein Beispiel für ein Spritzgießwerkzeug, das sich aus mehreren Werkzeugblöcken zusammensetzt;

Fig. 2

schematisch den Aufbau einer Turbinenschaufel; und

Fig. 3

ein Beispiel für die Ausgestaltung eines Einsatzes in einem Werkzeug gemäß der vorliegenden Erfindung.

The invention is briefly explained again below using an exemplary embodiment in conjunction with the drawings without restricting the general inventive concept. Here show:

Fig. 1

an example of an injection mold, which is composed of several tool blocks;

Fig. 2

schematically the structure of a turbine blade; and

Fig. 3

an example of the design of an insert in a tool according to the present invention.

Ways of Carrying Out the Invention

Figure 1 shows an example of an injection mold for the production of molded parts for turbine blades. The tool consists of a base plate 15, on which 4 tool blocks 1 - 4 are arranged. Base plate and tool blocks consist of one Steel material. The tool blocks can be in corresponding Guides of the base plate 15 shifted as can be seen from the figure. The Inner surfaces of these tool blocks 1 - 4 are of this type shaped that after assembly, they unite Form cavity which is the shape for the finished item Specifies molding.

The individual tool blocks are in this Example pushed together in the respective tours, so that they form-fit the cavity to the outside caulk. In the base plate 15 is in this example a wax injection opening 6 is provided, via which injected liquid wax over corresponding Dotted channels in the cavity 5 arrives. The wax is under high pressure injected and by cooling in the cavity solidified. Then the tool blocks 1 - 4 of the wax molded part created in this way Cut. This separation happens through the pulling apart of the individual tool blocks in the Guides. For this purpose, the present Example corresponding handles 16 on the tool blocks intended. Such an arrangement is already out known in the art, but can also for Tool of the present invention can be used then at least one boundary surface of the through the tool blocks 1 - 4 formed cavity 5 through an area of a not in this illustration visible insert or insert is formed.

With such a tool, molded parts for Turbine blades, such as those made of Figure 2 can be seen. This Figure 2 shows the typical components of a turbine blade 10, the Blade 11, a blade band 13 and one Platform 12. For the manufacture of such a assembled molding are the inner surfaces of the Tool blocks 1 and 2 of Figure 1 to determine the Suction and pressure side of the airfoil 11, the Tool block 3 for determining the shape of the Bucket platform 12 and the tool block 4 for Determination of the shape of the blade band 13 designed.

If the geometry of the inner surfaces is fixed these tool blocks 1 - 4 do not exist Possibility of a subsequent adjustment of the Geometry, for example, to create another Angle of attack of the airfoil. Such Adjustment is possible with the invention Tool realized in a possible design variant is shown in Figure 3. Figure 3 shows only part of the tool the tool blocks 1 and 2 to determine the Blade 11. The other tool blocks 3 and 4 1 are designed like this is known from the prior art.

In contrast to the known tools of the State of the art for the production of molded parts for turbine blades, the present tool shows in this example two tool blocks 1 and 2, the one insert 7 or 8 each form-fitting take up. For this purpose, the inner surfaces of the two tool blocks 1 and 2 formed accordingly. When assembling the two tool blocks with theirs Inserts 7 and 8 become cylindrical Insert unit 9 formed within the Tool blocks 1, 2 is rotatable about its longitudinal axis, such as this is indicated by the arrow in FIG. 3. The two inserts 7 and 8 form in cooperation the geometric shape for the airfoil 11, d. H. are the surfaces delimiting the cavity 5 corresponding to the pressure and suction side of the airfoil formed.

Let the insert unit 9 rotate any angle of attack of the airfoil 11th opposite the platform 12 or the blade band 13 produce. The insertion unit 9 is about in the figure Fixing pins, not shown, relative to the Tool blocks 1 and 2 in the correspondingly desired Fixed position. Tool blocks 1 and 2 assign an appropriate hole pattern for this purpose different settings.

In this embodiment, one continues to essentially wedge-shaped cavity between the two inserts 7, 8 at the transition to the tool blocks 1, 2 provided in the interchangeable intermediate pieces 16 are used. These intermediate pieces 14 facilitate the disassembly of the individual tool blocks after hardening of the injected material.

The tool is in a preferred embodiment designed so that the angle of attack, d. H. the insertion unit 9, in steps of approximately 0.25 - Turn 0.5 ° by a maximum angle of about 2 - 3 ° and can be fixed. This is enough for development a turbine blade considering possible later adjustment changes.

In the same way, a corresponding insert, this time in the direction of blocks 1 and 2 designed to be displaceable, in the tool block 3 be provided to the height of the platform 12 of the To be able to adjust molded part. Of course other surfaces of the molded part in this way changeable or adjustable if a corresponding movable insert is provided.

LIST OF REFERENCE NUMBERS

1

Tool block for the print side

2

Tool block for the suction side

3

Tool block for the bucket platform

4

Tool block for the blade band

5

cavity

6

access openings

7

Insert or insert

8th

Insert or insert

9

assembled plug-in unit

10

turbine blade

11

airfoil

12

blade platform

13

shovel ribbon

14

spacers

15

baseplate

16

handle

Claims (13)

Tool for casting a molded part for the manufacture of a turbine blade,
with a plurality of tool blocks (1, 2, 3, 4) which, in a predetermined manner, form-fittingly form a cavity (5) for the molded part, into which flowable material can be introduced via one or more access openings (6),
characterized in that at least one of the tool blocks (1, 2) receives a rotatable or displaceable insert or insert (7, 8) which adjoins the cavity (5) with a surface and in different positions and / or orientations relative to the at least one a tool block (1, 2) can be fixed, so that different cavity geometries are formed in the different positions and / or orientations of the insert or insert (7, 8). Tool according to claim 1
characterized in that the insert or insert (7, 8) determines or co-determines the hot gas geometry of the airfoil (11) of the turbine blade (10). Tool according to claim 1 or 2,
characterized in that at least two inserts or inserts (7, 8) are formed in opposite tool blocks (1, 2) in such a way that, when assembled, they form a cylindrical insert unit (9) for determining the geometry of the airfoil (11), which is used to adjust the Angle of attack of the airfoil (11) can be rotated about its longitudinal axis in the tool blocks (1, 2) and can be fixed in various rotational positions. Tool according to one of claims 1 to 3,
characterized in that the rotatable insert or insert (7, 8) can be fixed in rotational positions which each differ by 0.25 to 0.5 °. Tool according to one of claims 1 to 4,
characterized in that the or another insert or insert in a tool block (3) which defines the geometry of the blade platform (12) is arranged to be displaceable along an axis in such a way that different heights of the blade platform (12) are generated in different displacement positions. Tool according to one of claims 1 to 5,
characterized in that intermediate pieces (14) are provided which can be inserted into the spaces occurring between the insert or insert (7, 8) and the tool blocks (1, 2) and / or between a plurality of inserts or inserts (7, 8). Tool according to one of claims 1 to 6,
characterized in that the at least one insert or insert (7, 8) in the different positions and / or orientations can be fixed relative to the tool block (1, 2) by means of fastening pins which engage in corresponding recesses in the tool block (1, 2). Tool according to one of claims 1 to 7,
characterized in that the tool blocks (1, 2, 3, 4) a tool block (1) for the pressure side of the airfoil (11), a tool block (2) for the suction side of the airfoil (11), a tool block (3) for the Bucket platform (12) and a tool block (4) for the blade band (13) of the turbine blade (10), which are arranged on a base plate (15). Method for producing a molded part for a turbine blade, in which several tool blocks (1, 2, 3, 4) are positively assembled to form a cavity (5) that specifies the shape of the turbine blade, liquid material, in particular wax, into the cavity (5) is introduced and hardened in the cavity (5) and the tool blocks (1, 2, 3, 4) are subsequently removed,
characterized in that at least one tool block (1, 2) is used which receives a rotatable or displaceable insert or insert (7, 8) which adjoins the cavity (5) with a surface, the insert or insert (7 , 8) is fixed in a position and / or orientation relative to the at least one tool block (1, 2) before the liquid material is introduced in order to adjust the shape of the cavity (5) with the selected position and / or orientation. The method of claim 9
characterized in that the insert or insert (7, 8) is fixed in the selected position and / or orientation with fastening pins relative to the tool block (1, 2). A method according to claim 9 or 10,
characterized in that intermediate pieces (14) are inserted between the insert or insert (7, 8) and the tool blocks (1, 2) and / or between several inserts or inserts (7, 8) before the liquid material is introduced , Method according to one of claims 9 to 11 for Setting the angle of attack of the airfoil (11) of the turbine blade (10) on the molded part. Method according to one of claims 9 to 11 for Adjusting the height of the bucket platform (12) the turbine blade (10) on the molded part.

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