DE4230235A1 - Housing fixture for axial flow turbomachine - has two pretensioned bolts connecting lower housing halves and blade carrier at angle to horizontal - Google Patents

Abstract

The axial flow turbomachine has a number of fixtures for its housing. It has two pre-tensioned bolts (14) connecting the lower halves of the turbine housing (3) and the blade carrier (2), in at least one plane vertical to the machine axis (13). The central line (15) of the bolts runs radially at an angle (alpha) between 10 and 20 deg. to the horizontal sepg. plane (12). USE/ADVANTAGE - Housing fixture for axial flow turbomachine makes provision for ovalisation of housing.

Description

Technical field

The invention relates to an axially flow-through turbomachine with a blade coaxially suspended in a housing carrier for the guide vanes, both the housing and also the blade carrier with a horizontal parting plane are provided, in which the upper and lower Halves are screwed together.

State of the art

In such thermal turbomachinery, the problem is Becoming oval of the axially divided housings involved, in the fol called ovalization, as old as these machines itself. The causes of these undesirable deformations are mainly in the presence of temperature gradients the wall thickness to see what a different creep between the outer and inner fibers, as well as in the asymmetry caused by the parting planes.

Over the years, the problem of ovalization has been addressed helped, for example by removing the shovel carrier and were judged.  

In the case of highly loaded gas turbines in which the blade carriers despite cooling during operation temperatures from 400 to Assuming 450 ° C could possibly change the cooling influence the ovalization. However, this could the radial expansion of the blade carrier so influenced who that the shovel clearance would be reduced by what would lead to an increased risk of grazing.

Furthermore, the top and bottom of the part could The material of the bucket is cast on to simulate flange effects. The usually This would result in elliptical ovalization in a 4-praise curve reshaped.

Presentation of the invention

The invention tries ovalization with one if possible simple measure, with the already executed machine can be retrofitted.

In the case of an axially flowed turbomachine, the entry mentioned type, this is achieved according to the invention by that in at least one plane perpendicular to the machine axis the lower halves of the housing and the blade carrier in the Area of the parting plane with two preloaded screws with are connected.

It is particularly useful if the center lines of the Screws run radially at an angle between 10 ° and 20 ° to the horizontal parting plane.

Brief description of the drawing

In the drawing is an embodiment of the invention shown using an axially flow-through gas turbine. Show it:  

Fig. 1 shows a partial longitudinal section of the gas turbine;

FIG. 2 shows a cross section through the blade carrier and housing of the turbine according to line 2 in FIG. 1;

Fig. 3 is a schematic representation of the deformations;

FIG. 4 is an enlarged view of detail A in FIG. 2.

It is only essential for understanding the invention Chen elements shown. The system is not shown for example the compressor part, the combustion chamber and the full exhaust pipe and the fireplace. The flow direction the work equipment is marked with an arrow.

Way of carrying out the invention

The thermal turbomachine, here a gas turbine, of which the exhaust side and the last four axially flowed stages are shown in FIG. 1, consists essentially of the bladed rotor 1 and the blade carrier 2 equipped with guide vanes 11 . The blade carrier is suspended in the turbine housing 3 . At the turbine housing, the exhaust duct 5 is flanged, which consists essentially of a hub-side, annular inner part 6 and a ringförmi gene outer part 7 , which limit the diffuser 9 . Both elements 6 and 7 are interconnected by meh rere radial flow ribs 8 , which are arranged evenly distributed over the circumference. The annular outer part 7 is provided on the turbine side with an annular flow bar 10 which is flush with the cylinder-side contour of the turbine channel through which the flow passes.

In the cavity within the inner part 6 , the outlet side storage of the turbomachine is arranged, the rotor 1 lying in a support bearing 4 .

Fig. 2 shows the coaxial arrangement of the cylindrical housing and blade carrier in the plane of the last guide vane row. For the sake of clarity, the flanges, guide vanes and rotor are not shown.

The actual deviation from the circular shape, as observed and measured on numerous machines after a certain operating time, is shown schematically in FIG. 3 with the aid of the blade carrier. A reference circle is entered with dash-dotted lines. In the closed state, ie with screwed parting plane 12 , the blade carrier 2 is oval. The ovalization, which can be ascertained both in the plane of the first guide row and in the last row of runs, is elliptical, the large ellipse axis being in the vertical. After loosening the flange screw ben, the known 8-shape forms as a result of the different creeping across the blade carrier wall thickness. Upper part 2 _O and lower part 2 _U show different behavior with regard to the magnitude of the deformation. Absolute values are not given here because they depend on too many parameters. At least it could be established that this ovalization occurs on all machines; it has different values depending on the number of operating hours and the driving style of the machine, but always has the same appearance.

As a remedy, the connections according to the invention are introduced in the lower part of the housing and the blade carrier. This is shown in FIG. 4 to 2 expansion bolts 14, whose center lines 15 extend radially at an angle α of approximately 13 ° to the horizontal parting plane 12. The screw heads supported on the housing are secured against rotation by means of a resilient tab 16 welded to the housing. The thread end of the screws is screwed into the blade carrier. On the occasion of operation, in which both the housing and the blade carrier reach temperatures of up to 450 ° C., the blade carrier can expand outwards as long as its extension is greater than that of the housing. If, however, the blade carrier wants to expand further inwards compared to the mounting position, the screws counteract such expansion and prevent ovalization of the blade carrier. A setting parameter is the pre-tensioning of the expansion bolts.

In a further connection, not shown, the Center lines of the screws are also parallel to the horizonta len parting plane.

Reference list

1 rotor
2 shovel supports
3 turbine housings
4 support bearings
5 exhaust housing
6 inner part
7 outer part
8 flow ribs
9 diffuser
10 flow bar
11 guide vane
12 horizontal parting line
13 machine axis
14 screw
15 center line
16 tab

Claims (3)

1. Axially flowed turbomachine with a blade carrier ( 2 ) coaxially suspended in a housing ( 3 ) for the guide blades ( 11 ), both the housing and the blade carrier being provided with a horizontal separating plane ( 12 ) in which the respective upper one and the lower halves are screwed together, characterized in that in at least one plane perpendicular to the machine axis ( 13 ) the lower halves of the housing ( 3 ) and the blade carrier ( 2 ) in the region of the parting plane ( 12 ) with two prestressed screws ( 14 ) are interconnected. 2. Axially flowed turbomachine according to claim 1, characterized in that the center lines ( 15 ) of the screws ( 14 ) extend radially at an angle (α) between 10 ° and 20 ° to the horizontal parting plane ( 12 ). 3. Axial flow turbomachine according to claim 1, characterized in that the center lines ( 15 ) of the screws ( 14 ) run parallel to the horizontal parting plane ( 12 ).