DE2128245A1 - Machine with one rotor - Google Patents

Description

3PAT B NTAWWAIjT

DIPL. EiG. H. HOIjZEK

«Ο AUGSBURG

TIiASSB 14 ι S1373

W. 531

Augsburg, June 1, 1971

Westinghouse Electric Corporation, Westinghouse Building, Gateway Center, Pittsburgh, Allegheny County, Pennsylvania 15 222, V. St. A.

Machine with one rotor

The invention relates to a machine with a rotor that has a tubular outer housing and an in has this housed tubular inner housing.

Such machines include, for example

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Turbines, the invention in detail a Arrangement for holding the inner housing in the outer housing concerns.

It is known that the smallest possible between the rotor and the inner housing of such machines Distances are aimed for.

The outer and inner housings are usually divided into upper and lower halves, which at Turbines, the rotor construction provided with blades and a corresponding stationary guide blade construction surround.

During assembly, the halves of the inner casing are provided with the stationary guide vanes. Then the lower half of the inner housing is inserted into the lower half of the outer housing, after which the rotor is placed in the lower halves of the housing and the upper half of the inner housing reversed is attached to the lower inner housing half. Finally, the top half of the outer case becomes reversed attached to its lower half.

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Recently, when assembling turbines, support screws have become radial from the outer casing used, by means of which the inner housing is aligned vertically and horizontally and thereby in the outer housing can be centered. When the inner housing finally aligns with the machine's longitudinal axis, a_complicated and costly assembly with a multitude of screws and fittings are inserted into the inner housing hold it in the outer housing. . |

However, an arrangement must always be provided by means of which the inner housing moves axially and thereby can be brought into tight contact with the outer housing so that no high-pressure cooling air can leak out. For the Sealing is an annular collar extending radially outward on the inner housing and on the outer housing an annular flange extending radially inward is provided. The inner housing takes up during assembly

a "non-adjacent" longitudinal position in which ^

the said annular collar and the said annular flange do not come into contact with each other when the upper half of the outer housing is deposited on the lower housing half will. As a result, the sealing surfaces are in front of a possible

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Damage protected. After then the outer housing assumes its position, the inner housing must be moved so that the collar is fluid-tight on the ring flange. According to the known state of the art, this is done by means of a number of expensive Hydraulic cylinders caused each by a large number of correspondingly large openings in the Outer housing can be brought into position through and then removed again.

The object of the invention is to be achieved in a machine of the type mentioned above, a simpler, to achieve more time-saving and therefore cheaper assembly. '

This object is achieved according to the invention solved that the inner housing is held in the outer housing by a plurality of eccentric devices, which are adjustably housed in openings in the outer housing and in slots formed in the inner housing protrude.

The invention avoids machining and complicated handling during assembly,

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since the eccentric devices can easily be inserted into the aforementioned slots. This will make the Assembly and installation time is shortened, which also results in lower costs.

An embodiment of the invention is shown in the drawings and will be described in more detail below described. Show it

Fig. 1 is a schematic side view

an axial flow gas turbine plant according to the invention,

Fig. 2 is a schematic cross section

view essentially along the plane II-II in Fig. 1,

3 is a schematic side view

of the turbine part of the power plant shown in Fig. 1 in a partially open, supported and thus warped position,

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Fig. 4 is a perspective view

part of the lower halves of the outer and inner housings of the Turbine, the rotor construction with the rotor blades and the stationary guide vanes are omitted for a better overview are and

Fig. 5 is a schematic end view

an eccentric device according to the invention of the turbine shown in FIGS. 1 to 4.

The gas turbine system 10 of the axial flow type which is shown in FIG. 1 and incorporates the subject matter of the invention has an air compressor 12, a combustion section 14, a turbine section 16, an air inlet housing 18 and an exhaust hood 20.

The entire machine is made up of an outer casing structure 22 enclosed, which consists of an inlet housing 23, a compressor 24, a combustion chamber

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housing 25, a turbine housing 26 and an outlet housing 27. These housings, which among each other and with the housing 18 and the exhaust hood 20 in each case by means of outer peripheral flanges screwed together are connected to each other are in a coincident with the central longitudinal axis of the rotor 'Horizontal plane divided into upper and lower housing halves, which are known per se for reasons of expediency for manufacturing, assembly and

maintenance-related dismantling on horizontal splashes "

are screwed together.

The compressor section 12 has an inner housing 3> a compressor rotor structure 31 and alternately successive rings of stationary guide vanes and rotating rotor blades 33, these blades from left to right with reference to FIG. 1 are continuously shorter. The turbine section has an inner casing 34, a turbine rotor structure 35'J and alternately successive rings of stationary guide vanes 36a and rotor blades 36b, which with With reference to FIG. 1, they are made progressively longer from left to right. One of the outer case 26 and the inner housing 34 formed annular chamber A is used

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for receiving the pressurized cooling air for the hollow guide vanes 36a.

The compressor rotor construction j51 is connected via a shaft 37 to the turbine rotor construction ~ $ K which drives it. The rotor structure J1 and and the shaft 37 together form a rotor axis 38 which is rotatably supported at its ends in bearings 39. The rotor axis 38 of the turbine can be connected to an output shaft 40 for transmitting a drive force to a load (not shown).

As can best be seen from FIGS. 2 and 4, the outer housing 26 of the turbine section is l6 divided along a central horizontal plane into an upper half 26a and a lower half 26b, which are connected to one another by means of screws 42 on horizontally extending outer paddles 41. The turbine outer housing 26 is also provided with a peripheral flange 43, which is used for connection to the adjacent housing 25 and 27 (Fig. 1) is used. The turbine inner casing 34 is in an upper half 34a and a lower half 3 ^ b divided which at longitudinal horizontal flanges 44 by means of

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suitable screws 46 are connected to one another.

The inner housing j54 is held in the outer housing 26 by a plurality of eccentric devices 52, which are accommodated in the manner shown in FIGS. 2 and 4 in openings extending radially through the turbine outer housing 26 and extending into axially extending slots 54 on the circumference of the inner housing extend into it. As Fig. 2 shows, a total of four eccentric devices 52 f are provided for supporting the inner housing 34, two of which are arranged in an imaginary vertical plane passing through the axis of the rotor ~ yy , on the one hand above the upper housing half J4a and on the other hand under the lower housing half J4b . The two other eccentric devices 52 are arranged below the imaginary central horizontal plane, each at the same distance from a vertical center line on the lower housing half J4b.

In FIG. 4, for the sake of clarity, the rotor construction 35i is the rotor blades 36a. and the stationary guide vanes 36b not shown. 4 shows three of the eccentric devices 52, the lowermost of which is shown in a partially disassembled state.

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From this partially disassembled representation it can be seen that the individual eccentric devices each has a socket body 56 with an eccentric opening and one housed in this opening Have bolts 58. The socket body 56 and the Bolts 58 are each rotatable with respect to one another.

The bolts 58 have at their radially inner ends " each pin 59 (Fig. 4 and 5). The slots each have a size corresponding to the pin 59, so that they each take up, the slots 5 ^ are axially longer than the pins are wide, for a reason to be explained below.

Two support screws 6l (FIGS. 2 to 4) are screwed through the lower half 26b of the turbine outer housing 26, each of which runs essentially radially from both sides of the vertical center line. The support screws 6l are initially required to align the inner housing ^ 4 concentrically with the rotor axis of rotation RR ^r.

Two more screws 63 are below one

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imaginary horizontal center plane with the same distance from the vertical center line in each case is screwed radially through the lower half 26b of the outer housing 26, as shown in FIG. Fig. 3 shows only one of these screws 63, which respectively on them associated lever 64 (Fig. 4) press on the inner wall of the lower half 26b of the outer housing are pivotably mounted on a bearing 66 by means of a bearing pin 67.

3 shows the turbine section 16 in the jacked-up position with the upper half 26a of the outer housing 26 removed. It can be seen that the inner housing consists of a frustoconical housing part 34c and a cylindrical housing part 34d. An annular collar 69 protrudes radially outward from the inner housing 34 and is located between the frustoconical part 34c and the cylindrical part 34d. An annular flange 71 protrudes radially inward from the outer housing, which is marked with a

its flange surface on the left with reference to the drawings is fluid-tight to that with reference to the drawings rests on the right annular collar surface of the annular collar 69, as can be seen most clearly from FIGS. 1 and 4.

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Although a total of four eccentric devices 52 are provided in the exemplary embodiment described here, can also be used to a greater or lesser extent.

During the assembly of the turbine section 16, the lower half 26b of the outer casing is axially aligned with a tensioned wire or laser beam which represents the rotor axis RR ¹ (FIGS. 2 and 4).

The halves 34a and 34b of the inner housing 34 are provided with the stationary guide vanes 36b. Thereafter the lower half 3 ^ b of the inner housing into the Lower half 26b of the outer housing 26 drained and held by the support screws 6l.

The upper half 34a of the inner housing is then placed in such a way that it assumes a "non-abutting" position, which is to be understood as meaning that the annular collar 69 does not come into contact with the annular flange 71. By radially adjusting the support screws 6l, the inner casing ~ $ Κ can be moved vertically and horizontally and thus aligned concentrically with the rotor rotation axis RR ^1.

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Then the three lower eccentric devices are inserted into the slots 5 ^. It can be seen from FIG. 5 that the bolts 58 and thereby their pins can be moved to the left and to the right by rotating the socket body 56, as is done in Pig. 5 is represented by dash-dotted lines. The pins are each held in alignment with the slots 5 ^ assigned to them when the socket bodies 56 are rotated relative to the bolts 58. Such a loading |

movement of the pin 59 is the axial position of the same changed, which makes axially longer formed slots 54 necessary in the manner mentioned. Through this one obtains the agility that is required around the inner housing 34 in a simple and quick manner with respect to the rotor axis of rotation R-R 'in the correct Able to bring and around this inner casing 3 ^ within of the outer housing 26 to be attached.

· # I After then the eccentric devices 52 in the

Slots 5 ^ - engage and align the whole array is, the bolts 58 with their socket bodies 56 firmly connected, which can be done, for example, by welding.

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These eccentric devices 52 are then attached to the outer housing 26 by suitable means.

As mentioned earlier, the upper half becomes 34a (Pig. 3) of the inner housing in a "non-abutting" position on the lower half 34b of the inner housing lowered. By turning the screws 63, the levers 64 are then pivoted, whereby they are attached to the Apply annular collar 69 of inner housing 34 (FIGS. 2 and 4). As a result, the levers 64 move the inner housing 34 in the axial direction, as a result of which the annular collar 69 is fluid-tight is pressed against the annular flange 7I. This prevents the abutting one another Sealing surfaces are damaged. Finally, the support screws 6l and 63 are then loosened and, if necessary, completely he r stupidly.

When servicing the turbine rotor structure (Fig. 3), the lower half 26b of the outer casing 26 in the middle between the flanges 43 a lifting jack 73 are placed. Instead of one individual lifting jack 73 could of course also be used two lifting jacks, which each

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are placed under the flanges 43.

The outer housing 26 is raised by means of the lifting jack 73 raised and thereby bent slightly upwards, whereby between the circumferential flanges 43 and the upper Half 26a of the outer housing (the lower half is still screwed), axial clearances C arise. This bending also produces small clearances d between the annular collar 69 and the annular flange 71. Through this j The interacting sealing surfaces of the annular collar 69 and of the annular flange 70 are in front of clearance d Damage protected when the upper half 26a of the outer housing 26 either from the lower half 26b of this Outer housing is lifted or placed on this.

After the upper half 26a of the outer housing of the turbine has been placed back onto the lower half 26b of this outer housing 26, the levers 64 are pivoted by turning the screws 63 and thereby %

the inner housing 34 shifted axially so that the collar is pressed fluidly against the annular flange 71.

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Claims (6)

/ 6 Claims; C ^ IJ machine with a rotor that is a tubular Outer housing and a tube-like housed in this Having inner housing, characterized in that the inner housing (j54) in the outer housing (26) by a plurality of eccentric devices (52) which are held in openings in the outer housing are housed adjustable and protrude into slots (54) formed in the inner housing. 2. Machine according to claim 1, characterized in that the inner housing (34) has a radially outwardly has protruding annular collar (69), on which a fluid-tight, radially inwardly extending The annular flange (71) of the outer housing (26) rests. 3. Machine according to claim 1 or 2, characterized by a plurality of through the outer housing (26) extending therethrough and on the 'inner housing (34) abutting screws (6l), by means of which the inner housing can be aligned in a plane perpendicular to the machine axis of rotation (R-R '), and by another plane - 16 - 10 9 8 5 3/118? A plurality of extending through the outer housing and on, on the inside of the outer housing pivotally mounted levers (64) abutting screws (63), the levers in the axial direction adjoin the inner housing in such a way that these levers move when they are actuated by means of the aforementioned Put another large number of screws on the inner housing and move it axially so that the Inner housing fluid-tight in the manner mentioned | is applied to the outer housing. 4 «machine according to one of claims 1 to J5, characterized in that each eccentric device (52) has a socket body (56) with an eccentric through has an opening leading through it, in which a bolt (58) rotatable relative to the socket body is housed, which the latter can be moved into a position in which he is in the associated slot (54) in the inner housing (54) ' can be used. 5. Machine according to claim 4, characterized in that that the bolts (58) of the eccentric devices (52) - 17 10 9 8 5 3/1187 each has a pin (59) at its radially inner end have and that the slots (5 ^) formed in the inner housing (j54) have a shape corresponding to these pins to have, 6. Machine according to claim 4 or 5 *, characterized in that that the socket body (56) of the eccentric devices (52) each with their associated Bolts (58) are welded when the inner housing (34) is properly aligned in the outer housing (26). - 18 10 9 8 5 3/1187 AS . Blank page