Rotary kinetic fluid motors or pumps – Including thermal expansion joint – Resilient
Reexamination Certificate
2002-08-16
2004-03-30
Look, Edward K. (Department: 3745)
Rotary kinetic fluid motors or pumps
Including thermal expansion joint
Resilient
C415S139000, C029S557000
Reexamination Certificate
active
06712581
ABSTRACT:
TECHNICAL FIELD
The invention relates to a process for producing a groove-like recess which is part of a strip seal between two components which enclose a gap, using a material-removing process technology to create the groove-like recess in the two components in such a manner that the groove-like recess in each of the two components, after orientation with respect to one another, lie substantially opposite one another in an end position in which they enclose the gap between them, and that a strip element can be introduced into the groove-like recesses in such a manner that the strip element at least partially projects into both groove-like recesses and, under the action of a force, forms a substantially gastight join with the groove-like recesses in the two components. The invention also describes a groove-like recess of this type as part of a strip seal.
PRIOR ART
Strip seals of the generic type described above are used in particular in gas turbine technology, in order to preferably completely eliminate leakage flows which occur through the gap between two components arranged directly adjacent to one another.
The explanations given below relate to a specific application of a strip seal within a gas turbine, but it should be noted at this point that strip seals are used in a wide range of other application areas, to which the following statements can readily be transferred.
U.S. Pat. No. 5,531,457 has disclosed a strip seal arrangement which is used to seal two adjacent gas turbine blades or vanes in order to delimit the volume of the hot-gas passage in a gastight manner from a cooling air volume located below the blade or vane roots. The rotor blades or guide vanes which are arranged in large numbers over the circumferential direction of a rotor or stator arrangement project into what are known as securing grooves, in order for them to be secured by means of their roots, and as a result adopt a fixed position relative to the gas turbine blades or vanes which are in each case arranged adjacent to them. For cooling purposes, the individual gas turbine blades or vanes are supplied with highly compressed cooling air, which is generally branched off from the compressor stage of the gas turbine installation via bypass lines, from the sides of their roots. Most of the incoming air supplied passes into a cooling passage system which is machined into the gas turbine blade or vane and provides cooling passage openings in the region of the respective blade or vane roots in order to feeding cooling air. However, cooling air losses occur at those locations at which, between two gas turbine blades or vanes arranged adjacent to one another in a row of blades or vanes, there is a gap between the turbine blades or vanes which preferably adjoin one another in the root region. Although it is known that leakage or loss flows which occur through gaps of this type can be reduced considerably by minimizing the gap width, a tight fit of this type between two adjacent gas turbine blades or vanes leads to mechanical constraints which are associated with considerable material stresses in particular on account of the high thermal loads and the thermal expansion of the materials.
An alternative, effective seal which is also gentle on the material is illustrated and described in the abovementioned U.S. Pat. No. 5,531,457, in particular in FIG. 3 of this patent. In this case, the root regions of two adjacent turbine blades or vanes each provide the opposite, groove-like recesses, into which a strip element projects on both sides, in order to effectively reduce a leakage flow through the gap enclosed between the two blade or vane roots.
Hitherto, groove-like recesses of this type have been produced using erosion techniques which are known per se and allow what are known as pierced grooves to be introduced. In this context, spark-erosion material-removal processes, in particular cavity sinking by spark erosion, are particularly preferably suitable, allowing pierced or countersunk grooves of virtually any desired shape and size to be machined into the solid material of the blade or vane root. The use of erosion processes leads to a high-quality surface within the groove-like recess produced using the process, which makes a considerable contribution to producing a gastight seal by means of the strip element which is introduced in the groove. However, a drawback of erosion processes of this type is the very considerable amount of time which is required to produce the sealing grooves with a high surface quality and which greatly increases costs in particular for industrial mass production.
Although alternative material-removal processes are also known, such as for example grinding, which likewise allows good surface qualities to be achieved within the groove-like recess which can be produced by the grinding process, grinding processes can only be used at grooves which are open on the longitudinal side, with a free groove outlet. Therefore, countersunk or pierced groove profiles cannot be produced by means of simple grinding processes. Moreover, the possible options for different shaping in terms of the internal contour in the groove-like recess or sealing groove are very limited when grinding is used.
SUMMARY OF THE INVENTION
The object of the invention is to provide a process for producing a groove-like recess, which in particular forms part of a strip seal between two components which enclose a sealing gap, using a material-removing process in such a manner that, firstly, it is possible to achieve a high surface quality at the groove surface, which is required in order to produce a desired gastight seal, and secondly the material-removing process used also allows industrial mass production with considerably reduced production costs, i.e. with much shorter process times.
A further object is to provide a groove-like recess which satisfies the above requirements and in particular has an optimized sealing action.
The solution to the object on which the invention is based forms the subject matter of claim
1
. Claim
14
relates to a groove-like recess which is formed in accordance with the invention as part of a strip seal which, in a particularly preferred application as described in claims
16
and
17
, is used in turbo machines, in particular gas turbine installations.
According to the invention, a process for producing a groove-like recess in accordance with the preamble of claim
1
is carried out in such a manner that the material-removing process technology is carried out in at least two successive steps, namely in a first step in which material is removed at a first material-removal rate and in a subsequent second step, in which material is removed at a second material-removal rate, and that the first material-removal rate is greater than the second material-removal rate. Unlike in the previous known way of producing a groove-like recess which is to be introduced into a component and which is part of a strip seal, in which the groove-like recess is obtained with the aid of an erosion process which produces a high surface quality of the groove, according to the invention removal of material is carried out in two steps, of which a first step involves removing material as quickly as possible by what is known as roughing, producing a machined surface which has a slightly lower surface quality, which can nonetheless deliberately be accepted. Only in a subsequent second step is material within the groove-like recess which already exists removed by means of a finishing operation using a material-removal process which, although it has a slower material-removal rate, leads to a much higher surface quality, as is the case, for example, with the erosion process which is known per se.
According to the invention, it has been recognized that, in order to avoid unnecessarily long process times during the production of the abovementioned groove-like recesses, material can be removed at high material-removal rates in groove regions which do not come into contact with the strip element during the subsequent sealing action
Florjancic Stefan
Rathmann Ulrich
Alstom Technology LTD
Cermak Adam J.
Look Edward K.
McCoy Kimya N
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