SE509392C2 - Device for a rotor machine - Google Patents

Abstract

A device for a rotary machine with a stator part (2) and a rotary part (1) supported therein comprises first support means (5) arranged to absorb forces appearing between the stator part (2) and the rotary part (1), and second support means (7) arranged to absorb forces appearing between the rotary part (1) and the stator part (2) and exceeding a certain level, as the forces absorbed by the first support means (5) reach this level.

Description

15 20 25 30 35 - walking parts. 509 392 parts are able to carry the rotor and hold it in a centered position in the rotor machine without being subjected to any appreciable deformation, and partly due to their deformation can accommodate the geometric changes obtained in the rotor machine by temperature differences and associated heat expansion phenomena. it is of course important that the rotor is kept centered even in such deformations of said portions due to temperature differences. According to prior art, such elastically deformable portions have, for example, consisted of elastically deformable, conically and annularly shaped bodies, arranged between and connected to the bearing housing in which the rotor part is mounted and the stator. However, sometimes forces arise between the rotor part and the stator part which significantly exceed the normal forces and which in that case also have to be absorbed by said elastically deformable portions. Such a case is, for example, when vane loss, ie that a rotor blade comes loose during operation, occurs in turbine-type rotor machines, whereby high forces arise between the stator part and the rotor part. In order for the elastically deformable portions to be able to absorb these forces even exceptionally, a significant oversizing of these is required in relation to the dimension which, with given materials and geometric design, is required for absorbing only the gravity of the rotor. oversizing leads, among other things, to a poorer Such an ability of the portions to absorb the force-induced dimensional changes by elastic deformation by thereby offering a greater resistance to such deformation and thus does not allow the stator and which is caused by the temperature rotor to expand differently. . 10 15 20 25 30 35 _ vase by means of a needle, 509 592 Under no circumstances may the said portions be so narrowly dimensioned that they do not have the strength to absorb the large forces which arise, for example, in connection with blade loss, as this could lead to very costly and serious accidents in. ro- suitable to drive- such as combustion gas or tower machines of, for example, turbine type, steam, of high or very high temperature. Therefore, according to prior art, oversizing of the elastically deformable portions is a necessity.

SUMMARY OF THE INVENTION The object of the present invention is to provide a device of the kind mentioned in the introduction, which makes it possible to absorb extremely large forces in a rotor machine, for example in connection with vane loss.

According to the invention, this object is achieved in that the device comprises other auxiliary means, i.e. that the forces reach a certain level, which is set up - when the forces absorbed by the first auxiliary means occupy this level exceeding forces of the stator part. According to a preferred embodiment, the first support means comprise a first support element arranged to absorb by elastic deformation forces caused by dimensional changes of at least one of the stator part and the rotor part and the second support means comprise a second support element which is rigid in relation to the first support element in the load-bearing direction.

Thereby the advantage is achieved that the other support means, due to their rigidity in the load-bearing direction, are forced to absorb large forces or stresses without appreciable deformation. Even in the case of very large radial forces, such as those which occur in a rotor machine in connection with blade loss (thereby also the very large forces which strive to loosen), it is counteracted after displacing the rotor shaft radially relative to its normal operating position. However, in normal operation, when no such exceptional radial forces occur, the advantage that smaller, temperature-induced dimensional changes between rotor part and stator part can be soft, ie elastic, can be transmitted through the elastic deformation of the first support elements without interfering with the function of the other support means. .

According to a further embodiment, the first and second support means are arranged in parallel. As a result, the forces between the rotor part and the stator part, which are not absorbed by the first means due to their elastic deformation, are automatically conducted to the second support means. constructively simple design of the first and second support means to ensure that the second support means perform their function as soon as the first support means The parallel arrangement also allows one to absorb a certain level of force and thereby obtain a certain degree of elastic deformation.

According to a further preferred embodiment, the first support means are arranged to absorb forces caused by dimensional changes of at least one of the rotor part and the stator part which arise between stator part and rotor part due to temperature influence present in the rotor machine and said level of the voltages corresponds to a level equal to the sum of the force of gravity exerted on the first support means by the rotor and the forces which arise between the rotor part and the stator part due to the temperature influence present in the rotor machine.

In this way, the advantage is achieved in particular that the first support means can be dimensioned only in order to keep the rotor centered in the rotor mode in the most efficient possible way. skin and absorb forces up to the level defined above, whether these are caused by temperature influence or by other influences, and thus do not need to be made unnecessarily rigid in the face of the risk of being exposed to larger forces.

According to a further preferred embodiment, the first support means are fixedly connected at a first surface to the stator part and at a second surface fixedly connected to a bearing device in which the rotor part is rotatably mounted.

Thereby, the first support means form a direct link between stator part and rotor part and function as support means for it. bearing device: L which the rotor part is rotatably mounted. The first support means can thus be made in one piece with the stator part and / or with the bearing device.

According to a further preferred embodiment, the second support means are arranged between the stator part and a bearing device in which the rotor part is rotatably mounted, the support means being arranged at a distance from at least one of the stator part and the bearing device in the unloaded state of the other support means.

Due to the fact that the mentioned distance exists, the other means of support will thus not contribute with any power absorption between and the stator part as long as this distance exists. Such an embodiment rotor part 10 15 20 25 30 35 509 392 allows a simple construction which necessitates a reduction of the distance to the same extent as the deformation of the support means elastic first increases.

According to a further preferred embodiment, they are. other support means arranged between the stator part and a bearing device in which the rotor part is rotatably mounted and to abut against both of these in their active, force-absorbing state.

Thereby it is possible to design and dimension the first and second support means in such a way that the second support means reach abutment against the bearing device and the stator part at the same time, while the first support means much correspond to the absorbed forces of elastically deformed just as previously defined the size level.

According to a further preferred embodiment, the second support means comprise an annular support element and are arranged around a bearing device for the rotor part.

The annular design is advantageous, among other things, in that it allows the absorption of radial forces between and directions in the plane of rotation of the rotor part. An evenly distributed power consumption is thereby obtained. Alternatively can. the other aids include. a plurality of segrotor part stator part in all ment, e.g. spaced apart lugs, which together define a ring, arranged around the bearing device.

According to a further preferred embodiment, the stator part is provided. with. channels for the passage of 10 V and their 509 392 rotor machine flowing hot medium, the first and second support means being arranged at the radially channel intersecting portions of the first and second extending, the torque member. This means that the support means are arranged at portions of the stator part where it is subjected to significant temperature impact function consequently becomes particularly important because it can be regarded there as the matter that in an efficient and structurally advantageously caused forces between rotor part and stator part, both up by dimensional changes caused by, for example, temperature influence, smaller forces caused by weight larger forces caused by, for example, blade loss of the rotor of the rotor part. driven me- The rotor machine is preferably a turbine, partly one of the media steam and combustion gas.

Additional advantages and advantageous features of the invention appear from the following description and other, non-independent patent claims.

BRIEF DESCRIPTION OF THE DRAWINGS The following is a detailed description of exemplary preferred embodiments of the invention with reference to the accompanying drawings, in which: Fig. 1 is a cross-sectional view schematically showing arranged between the rotor part and the stator part of a rotor machine, the arrangement according to the invention, is a cross-sectional view, similar to that of Fig. 1, as Fig. 2 shows the device according to the invention, arranged at a channeled stator portion, and Fig. 3 is a cross-sectional view according to III-III in Fig. 2, showing the device in the plane of rotation of the rotor. DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION Figs. 1-3 show a preferred embodiment of the device according to the invention. The device is arranged in a rotor machine which comprises a rotor part 1 and a stator part 2. The rotor part 1 is, via a bearing device in the form of a bearing housing 3 and a bearing 4 arranged therein, rotatably arranged in the stator part 2.

The rotor machine is preferably a turbine driven by one of the media steam and combustion gas. However, it is also conceivable that the rotor machine in question is of a different type.

Between the stator part 2 and the bearing housing 3, first support means 5 are arranged. The support means 5 annular body, which at two opposite ends is here pre-comprises a bonded with the bearing device 3, 4 and the stator part 2, respectively, and which has at least one conically shaped portion and extends around the rotor shaft 6 and is substantially concentric therewith. The conical portion has a wall thickness that is significantly smaller than the size of the body's extent in the radial direction. It is also substantially smaller than the size of the extent of said portion between the ends thereof.

The support means 5 is connected at one surface at one end to the bearing housing 3 and at a surface at its other end connected to the stator part 2. Dimensional changes of 10 15 20 25 30 35. At the same time 509 392 the rotor part 1 and the stator part 2 due to, for example, temperature differences between them are occupied by the support means 5. In particular, the support means 5 can accommodate radial dimensional changes of the rotor part and the stator part 2 by its conical design and dimensioning thereof. . transmitted via the support means 5 the normal forces which act on the bearing device 3, 4 due to its own and the weight of the rotor. This must be done in such a way that the support means significantly changes the position of the rotor center in relation to the stator 6. In some cases, however, extreme forces can be expected to occur between the rotor part 1 and the stator part 2. An example of such occasions is those arising in connection with so-called blade loss. , at which imbalance occurs in the high speed one and the transmitted deformations in the non-rotating rotor part 1 the radial forces must preferably with as small a deviation as possible of the axis of the rotor part 1 in relation to the position it assumes in connection with normal operation when entering. thereby arising from the rotor part 1 of the stator part 2, no such extreme forces arise- In order to transmit the additional forces which thereby appear beyond the level which is expected to be absorbed by the first support means 5, the device comprises second support means 7, the radial direction is rigid in relation to the supports with which in the blade 5 and transmits these additional forces between the rotor part 1 and the stator part 2 while exhibiting as small deformations as possible in the radial direction. In the preferred. In this embodiment, the second support means 7 are formed by an annular body, which is connected to the bearing device 3, 4 and extends around it. The support means 7 are in this case. essentially. concentric with the bearing device 3, axis of rotation 6. 4 as well as the rotor part Between the surface of the support means 7 facing the stator part 2 and the latter is present, as long as the forces prevailing between the rotor part 1 and the stator part 2 is less than the maximum force level expected to be absorbed by the first support means 5, a distance e between this surface 8 and an opposite surface 9 of the stator part 2. This means that when the first support means 5 are deformed so much in the radial direction that contact occurs between the surfaces 8 and 9, in addition the occurring voltages between the rotor part all of them 1 and the stator part 2 will be transferred between them via the other support means 7.

The support means 7 can also be regarded as a surface of the bearing device 3 or an associated part, which, in the inactive state of the other support means, has a distance to a corresponding surface of the stator part 2 or an associated part, and that in the active state of the other support means 7 this distance is that abutment between eliminated so the surfaces are present.

It should be noted that the distance e: L in the case that the rotor machine consists of, for example, one. gas turbine is very small in relation to the diameter of the rotor part including rotor blades. The distance e is preferably of the order of a few tenths of a millimeter when the said diameter is of the order of 1 meter.

From Fig. 3 it further appears that the stator part 2 is provided with channels 10 for passage through of working medium flowing in the rotor machine. This medium may be some of the media vapor and which can be expected to have high It is then easy to realize that of temgas, temperature. temperature changes induced dimensional changes will occur in the rotor part 1 and the stator part 2 because the flowing medium heats up to the channels 10 adjacent portions 11 of the stator part 2 as it passes through these channels. The device according to the invention is particularly well suited for application to a rotor machine of this type.

Of course, a number of modifications and variants of the described device are possible within the scope of the invention without, therefore, departing from the spirit of the invention.

As an example, it can be mentioned that a number of different designs of the first and the second support means 5 and 7, respectively, may exist and that the design of these as a body in the form of a truncated cone and an annular body, respectively, are currently preferred embodiments which here, however, is shown for purpose only. it is possible that the second support means 7, when they are constituted by an annular body as shown, in the inactive state are connected to the stator part or a part connected thereto and have a distance to the bearing device 3, in the active state, abut the bearing device 3 or a part connected thereto and thereby form a stator-exemplifying example.

Claims (14)

10 15 20 25 30 35 509 592 12 Patent claims Device for a rotor machine, wherein the rotor machine comprises a stator part (2) and a rotor part (1) stored therein, first support means (5) are arranged to absorb forces scm1 occurs * between the stator part (2) (1). and the rotor part and wherein it comprises second support means (7), which are arranged that, when the forces absorbed by the first support means (5) reach a certain level, this level exceeds forces exceeding forces which occur between the rotor part (1) and the stator part (2). , characterized. in that the second support means (7) are arranged between the stator part (2) and a bearing device (3, 4) in which the rotor part (1) is rotatably mounted, the second support means having a distance (e) to at least one of the state of the stator part (2) and the unloaded device (3, 4) of the other support means (7). Device according to claim 1, characterized in that the first (5) and second (7) means are arranged between the rotor part (1) and the stator part (2). or 2, comprises a Device according to claim 1, characterized in that the first support means (5) are first support elements which are arranged to absorb forces caused by dimensional changes of at least one of the stator part and the rotor part by elastic deformation. Device according to one of the preceding claims, characterized in that the second support means (7) comprise a second support element which is rigid in relation to the direction of the first support element (5). i loaduppta- 10 15 20 25 30 35 509 392 13 Device 'according to any one of the preceding claims, that the first and second support means (7) are arranged in parallel. characterized therefrom, len (5) respectively Device according to one of the preceding claims, characterized in that the first support means (5) are arranged to absorb forces caused by dimensional changes of at least one temperature influence present in the rotor part (1) and the stator part (2) of the rotor machine. due to in Device 'according to any one of the preceding claims, characterized in that said level of the forces corresponds to a level equal to the sum of the force of gravity exerted on the first support means (5) and the forces arising between the rotor part (1) and stator part (2) temperature influence. pà. basic. of i. rotor machine occurring Device 'according to any one of the preceding claims, that the first support means (5) and, when characterized therefrom, at one surface are fixedly connected to the stator part (7) and a second surface are fixedly connected to a bearing device (3, 4) in which rotor part (1) is rotatably mounted. Device 'according to any one of the preceding claims, characterized in. hence, that the other aids. (7) are arranged between the stator part (2) and a bearing device (3, 4) in which the rotor part (1) is rotatably mounted and arranged to abut against both of these in the position of the other support means. active, voltage-absorbing Device according to one of the preceding claims, characterized in that the first support means comprise an annular body arranged between the stator part (2) and a bearing device 10 (20, 509 392 14 (3, 4), which in two set ends are connected to the bearing device (3, 4) the stator part (2) at least one conically shaped portion. respectively and 'which' has Device according to one of the preceding claims, in that the second support means (7) support elements and are arranged characterized therefrom, comprise an annular shape around a bearing device (3, 4) for the rotor part (1). Device according to one of the preceding claims, in that the stator part (2) for passing through characterized material in the rotor machine is provided with channels (10) of hot medium. flowing, Device according to claim 12, characterized in that the first (5) and second (7) support means are arranged at radially extending portions (11) of the stator part (2) crossing the channels (10). Device according to one of the preceding claims, characterized in that the rotor machine is a turbine, driven by one of the media steam and combustion gas.