CN1656303A

CN1656303A - Axial securing means for impeller blades

Info

Publication number: CN1656303A
Application number: CNA038118467A
Authority: CN
Inventors: D·凯斯特利; J·贝蒂
Original assignee: ABB Turbo Systems AG
Current assignee: Accelleron Industries AG
Priority date: 2002-05-24
Filing date: 2003-05-06
Publication date: 2005-08-17
Anticipated expiration: 2023-05-06
Also published as: EP1507958A1; CN100335749C; AU2003226999A1; KR20050004188A; WO2003100220A1

Abstract

The invention relates to axial securing means for impeller blades (10) of turbo generators with axial passage. In said generators the impeller blades (10) are secured radially and in a peripheral direction by means of a blade root (12) that is axially inserted into a radial groove (14) of a blade support (16). The axial securing means (20) have a securing body (22) with a first axial end region (26, 26') and a second axial end region (28), which are interconnected by a connection region (30), whereby the first end region (26, 26') engages behind a front face (32) of the blade root (12) and a front face (30) of the blade support (16) on the flow exit side and the second end region (28) engages behind a front face (34) of the blade support (16) on the flow entry side. Said end regions (26, 26', 28) help to secure the blade (10) against axial forces that originate from the flow and act from the flow entry side in the direction of arrow (A). A spring element (38) is configured in the connection region (36), said element when installed exerting a radial force between the blade root (12) and the base (15) of the radial groove. The force is sufficient to secure the impeller blade (10) in its axial position against axial forces exerted in the entry direction (B) of the flow.

Description

The axial restraint device of working blade

Technical field

The present invention relates to by the described axial restraint device that is used for axial flow turbomachine working blade of claim 1 preamble.

Effect has the centrifugal force that is produced by rotation on the working blade of axial flow turbomachine.Generally tree-like or swallow-tail form configuration connects and accepts by groove-spring that form fit connects radially is set these power by Christmas between working blade and blade rim.The axial force that axial flow direction by flowing medium produces then must be accepted by means of independent axial restraint device.

Background technique

US-A-2,928,651 disclose the example of this axial restraint device.Being used for fixing what axially go up working blade is the fixed body that is made of the plate single-piece, and its length is greater than the part that extends axially of the radial groove of swallow-tail form root of blade or the anti-phase identical formation of blade rim.What be used in addition to accept axial force is the petiolarea that plays the fixed block effect of plate, and these petiolareas are from the end face axial projection of root of blade or blade rim, and for fixedly purpose is crooked diametrically.First of two protruding petiolareas is along the central longitudinal axis separated into two parts of plate.In the opposite direction go up bending for fixing purpose in the footpath by the connecting sheet that produces in the petiolarea like this, make first connecting sheet clamp the end face of blade rim from behind, and second connecting sheet is clamped first end face of root of blade from behind for two.Second of two protruding petiolareas is crooked under installment state, makes it clamp blade rim and the second reverse end face of first end face from behind.Embed in the root of blade wedge-shaped indentation at the reed of plate centre arbor shape by the board plane projection, effect is to accept the power of axial action in blade equally.

Breach in the root of blade bother very much and manufacturing expense very high because be used for making the modern high-effect material of blade at present, for example as nickel-base alloy or titanium alloy, this breach can only be more by grinding or corrosion manufacturing.In addition, if having the axial restraint device that the inside embeds breach in the breach of root of blade of fixed body lug boss or the blade rim radial groove, installation and removal are trouble and time-consuming very.For example at US-2, in the example shown in 928,651, for example the petiolarea (label 26) that radially outward must be erected earlier for dismounting is aligned.In addition, fixed body is by the moulding of plate single-piece, and its petiolarea and axle shape reed produce by the respective curved of this plate.The material of plate must be selected for this reason like this, makes it can bend to desired shape on the one hand, but also wants the power that can accept to occur on the other hand.Therefore, this fixed body can only be confined to possible thrust and shearing force designs, and wherein, has additionally reduced the strength of materials by bending.Under normal operation, employed these material known all almost are difficult to satisfy desired performance, under the high temperature that for example occurs in this turbomachinery that runs up, even almost there is not a kind of material at high temperature still can guarantee the required axial restraint of working blade in the blade rim as turbosupercharger.In addition, in this fixed body,, must carry out bending to the petiolarea of fixed body with highi degree of accuracy for making blade accurate location on its position.

Summary of the invention

Therefore the object of the invention is, a kind of axial restraint device of the above-mentioned type is provided, and this device is made and install simple and with low cost, and guarantees that working blade is on its axial position reliably.

This purpose is achieved by the axial restraint device with the described feature of claim 1, and wherein, the working blade of impeller is fixed by means of the fixed body of axial restraint device correspondence.Fixed body has axial first petiolarea and axial second petiolarea, and they interconnect by the connection area.Under installment state, the connection area is arranged in the gap that constitutes between root of blade end and the radial groove bottom.First petiolarea constitutes like this, makes it use the end face of clamping flow exit side upper blade root and blade rim from behind.Second petiolarea constitutes like this, makes it use the end face of clamping from behind facing to flow admission side upper blade wheel rim.According to the present invention, the connection area has an elastic component, in the power that applies a kind of radial effect under the state of packing into by this elastic component between root of blade and radial groove bottom, this power is enough to overcome the moving Way in of axial force longshore current working blade is fixed on its axial position.Can not have radial indentation by this configuration and constitute root of blade and radial groove, thereby significantly reduced manufacture cost.In addition, in the radial groove of fixed body can being packed into simply according to axial restraint device of the present invention, subsequently blade is inserted in the radial groove with root of blade.Dismounting can be carried out with reverse order equally simply.Need not as crooked or reverse the petiolarea of fixed body or fixed body.Reduced the required time that mounts and dismounts like this.

Elastic component constitutes in the mode of ripple in the connection area very simply.This ripple can be by single whole ripple, by double wave or many ripples, perhaps also can by upwards or downward half-wave constitute.If this elastic component constitutes with the waveform bend mode of connection area, fixed body can be made especially simply so.But this ripple also can be when processing fixed body by material block or just is arranged in the fixed body when casting etc., thereby need not bending afterwards.

What have advantage especially is, the bending of waveform extends axially the twice to ten times that is equivalent to the connection area radial thickness in the part substantially at it, because reach the force rate of the best in the gap between radial groove bottom and the root of blade end like this.

If root of blade its at least on half the axial length with the connection area rubbing contact of fixed body, can also further improve the power effect so.

If fixed body is made by high-temperature steel, it also can easily use on the turbomachinery that runs up so.In a particularly preferred mode of execution, fixed body is made by nickel-base alloy.

Manufacture view especially simply is that the fixed body single-piece constitutes.

The flange of solid formation guarantees good especially in the axial direction fixing in first and second petiolareas of fixed body, because these flanges can not be aligned.But it is contemplated that also petiolarea constitutes in the mode of flexible plates end.It is unimportant how the end of fixed body constitutes, by from casting, burn into sheet material stamping-out and/or can make fixed body very simply by laser.

Other preferred embodiment are the theme of dependent claims.

Description of drawings

By the preferred embodiment shown in the accompanying drawing theme of the present invention is elaborated below.Wherein:

Fig. 1 part is fixed on blade on the blade rim and a part of blade rim utilization axial section along blade rim radial groove bottom according to a preferred implementation of axial restraint device of the present invention;

Fig. 2 is to illustrate second mode of execution according to axial restraint device of the present invention with the similar schematic representation of Fig. 1;

Fig. 3 is to illustrate the 3rd mode of execution according to axial restraint device of the present invention with the similar schematic representation of Fig. 1 and 2;

Fig. 4 with Fig. 1-3 similarly schematic representation another mode of execution according to axial restraint device of the present invention is shown.

Reference numeral of using in the accompanying drawing and implication summary column thereof are in the reference character table.The mode of execution of being introduced is given an example for theme of the present invention, there is no restriction.

Embodiment

Fig. 1 and 2 illustrates the part of the working blade 10 that has tree-like root of blade 12 on Christmas respectively, and root of blade is fixed in the tree-like radial groove 14 on reverse identical Christmas of blade rim 16.In the gap 18 between the radial groove bottom 15 of the end 13 of root of blade 12 and radial groove 14, the fixed body 22 according to axial restraint device 20 of the present invention is set, this fixed body is structure as a whole in an illustrated embodiment.The flow direction that applies working medium to working blade 10 adopts arrow A to represent here.With this flow to A opposite-with compare by the power that flows to the A effect-much smaller axial force acts on working blade 10 on direction B.Overcome two power A according to axial restraint device 20 of the present invention, B guarantees that working blade 10 accurately remains on its axial position.

Preferably the fixed body of being made by for example nickel-base alloy as nimonic nickel-base alloy 90 22 has two

petiolareas

26,26 ' and 28, fixed body 22 utilizes the part that extends axially that extends axially part or root of blade 12 of these petiolarea bulged blade wheel rim 16 radial grooves 14.

First petiolarea

26,26 of fixed body 22 ' be solid double flange.Radially form fit connects with the blade rim end face of clamping from behind on the flow exit side 30 among inward flange 26 embodiment shown here, and footpath outward flange 26 ' same form fit connects the earthy root of blade end face of clamping from behind on the flow exit side 32.Be provided with second petiolarea 28 separatedly on first petiolarea 26,26 ' axially, its under installment state inner radial with the end face 34 of clamping flow admission side upper blade wheel rim 12 from behind.Two

petiolareas

26,26 ' and 28 axially interconnect by connection area 36.Connection area 36 has rectangular cross section, and its size on its whole axial length is constant substantially.Can make fixed body 22 so very simply and process blade rim 16 simply and root of blade 12.But also it is contemplated that the cross section of other any kinds, as semicircle, polygonal or the like.

Connection area 36 among Fig. 1 has the elastic component 38 of single ripple 40 forms of connection area 36 at flow exit side.This list ripple 40 is compared with connection area 36 radial thicknesss, roughly has extend axially partly (the illustrating not in scale) of two sesquialters.Ripple 40 can be made by a block of material in when casting or in stamping-out, milling or when utilizing laser beam cutting, perhaps using under the situation that allows bending or draw piece, makes by the corresponding deformation of connection area.In back two kinds of methods, the cross section in ripple 40 zones is compared slightly with other constant substantially cross sections of connection area 36 and is reduced.

The connection area 36 of fixed body 22 shown in Figure 2 has the ripple as elastic component 38 equally, it constitute by half-wave 42 and with Fig. 1 in ripple 40 opposite being arranged on the flow admission side.As among all figure, for ease of observing, gap 18, fixed body 22 and elastic component 38 illustrate equally not in scale here.But the radially extension in gap 18 is equivalent to the radial thickness of connection area 36 substantially between root of blade terminal 13 and the radial groove bottom 15.

Fig. 3 and 4 mode of execution and the difference of front mode of execution be, root of blade 12 ' and radial groove 14 ' be swallow-tail form.Elastic component 38 also is to be made of ripple at flow exit side, wherein, is half as much again ripple 44 among Fig. 3, then is double wave 45 among Fig. 4.Root of blade 12 among Fig. 3 and 4 ' with radial groove 14 ' the different examples that develop simultaneously of swallowtail shape illustrate, as long as root of blade 12 and radial groove 14 with radially with tangent direction on guarantee stator blade 10 mode form groove-spring and be connected, foundation axial restraint device 20 of the present invention just can use in root of blade shape that all can be imagined and radial groove shape.

Foundation shown in Figure 5 axial restraint device 20 of the present invention is equivalent to device shown in Figure 1 in principle.But in this embodiment,

petiolarea

26,26 ' and 28 produce by crooked in known manner, and replace single ripple or double wave, basic axially on the center of connection area 36 many ripples 48 are set.

As can know from Fig. 1 and 2 see, root of blade 12 on the elastic component 38 that constitutes by single ripple 40, double wave 45 or many ripples 48 at ripple 40,45, connection area 36 rubbing contact of 48 both sides and fixed body 22.Do like this and have advantage especially, because during operation and the radial force additional centrifugal force that applies by means of the elastic component 38 between root of blade terminal 13 and the radial groove bottom 15 act on fixed body 22 and blade 10, this centrifugal force at elastic component 38 by ripple 40, strengthened acting on the frictional force of elastic component both sides during 45,48 formations.In contrast, elastic component 38 causes root of blade 12 only at ripple 42 by constituting of half-wave 42 or half as much again ripple 44, on 44 the side with connection area 36 rubbing contact of fixed body 22, and under a plurality of ripple camber line situations at most and one or more ripple camber line 46 rubbing contact, this point in Fig. 3 by shown in the half as much again ripple 44.Except that half-wave and half as much again ripple, also can have the ripple of two sesquialters, three sesquialters or the like.Whether the part that extends axially of ripple is that half-wave, single ripple are irrelevant until the concrete formation of many ripples with them, can be in connection area 36 radial thicknesss roughly in the zone of twice to ten times.What have advantage is, single-piece upper blade root 12 is extending axially on the part and fixed body 22 rubbing contact of half at least roughly, and the there can make full use of action of centrifugal force better then.Elastic component 38 is as the formation of half-wave, Dan Bo etc., its extend axially part with and extend axially part with connection area 36 and compare setting in gap 18, depend on the active force and the geometrical shape of rotor, blade 10 and blade rim 16.

Unimportant with the concrete formation of fixing device 20, installation and removal are same simple all the time and rapidly: in the radial groove 14 of during installation fixed body 22 being packed into, make petiolarea 26 ' and 28 usefulness clamp two

end faces

30,34 of blade rim 16 from behind.Then working blade 10 is radially inserted in the radial groove 14 on fixed body 22, wherein, must overcome the radial effect power that can be considered surface friction drag that applies by elastic component 38.Working blade continue is inserted in the radial groove 14, until it utilize the end face 32 of its flow exit side and first petiolarea 26,26 ' footpath outward flange 26 ' contact.Carry out in reverse order during dismounting.The bigger axial force that acts on flow direction A is by

petiolarea

26,26 ' and 28 accept, and on reverse B the much smaller axial force of effect, and radially clamp the frictional force reaction that root of blade 12 produces by what in radial groove 14, apply by means of elastic component 38.

The reference numeral table

The direction that A flows from flow admission side

B is from the direction of flow exit side power

10 working-blades

12 roots of blade

13 root of blade ends

14 radial slots

15 radial grooves bottom

16 blade rims

18 radial clearances

20 axial restraint devices

22 fixed bodies

26,26 ' the first petiolarea

28 second petiolareas

30 blade rim flow exit side end faces

32 root of blade flow exit side end faces

34 blade rim flow admission side end faces

36 connection areas

38 elastic components

40 single ripples

42 half-waves

44 half as much again ripples

45 double waves

46 ripple camber lines

Ripple more than 48

Claims

1. the axial restraint device of the turbomachinery working blade (10) of axial flow, wherein, working blade (10) radially with on the tangent direction is fixed by means of the root of blade (12) in the radial groove (14) that axially inserts a blade rim (16), wherein, axial restraint device (20) comprises a fixed body (22), this fixed body comprises the fixedly device of fixed body (22) of the moving relative blade rim of direction (16) of adverse current, the device of relative fixed body (22) steady job blade (10) on flow direction, the relative fixing device of fixed body (22) of blade rim (16) on flow direction, and the device of moving direction relative fixed body (22) the steady job blade (10) of adverse current, it is characterized in that, at least one of device that is used for fixing is connected and composed by frictional fit between fixed body (22) and working blade (10) or fixed body (22) and the blade rim (16), and the connection of frictional fit is applied in radical elasticity.

2. by the described axial restraint device of claim 1, it is characterized in that, fixed body (22) comprises axial first petiolarea (26,26 ') and axial second petiolarea (28), they interconnect by means of connection area (36), wherein, connection area (36) is arranged under the installment state of fixed body (22) in the gap (18) that constitutes between root of blade end (12) and the radial groove bottom (15), as being used for fixedly device first petiolarea (26 of fixed body (22) of the moving direction of relative blade rim (16) adverse current, 26 ') clamp the end face (30) of flow exit side upper blade wheel rim (16) from behind, as device first petiolarea (26 that is used for relative fixed body (22) steady job blade (10) on flow direction, 26 ') clamp the end face (32) of flow exit side upper blade root (12) from behind, as be used for relative blade rim (16) on flow direction fixedly device second petiolarea (28) of fixed body (22) clamp the end face (34) of flow admission side upper blade wheel rim (16) from behind, move the device fixed body (22) of direction steady job blade (10) comprises a radial effect in connection area (36) elastic component (38) as being used for relative fixed body (22) adverse current, this elastic component forms frictional fit with root of blade (12) and is connected.

3. by the described axial restraint device of claim 2, it is characterized in that elastic component (38) constitutes in the mode of the ripple (40,42,44,45,48) of connection area (36).

4. by the described axial restraint device of claim 3, it is characterized in that ripple (40,42,44,45,48) extends axially the twice to ten times that is equivalent to connection area (36) radial thickness in the part substantially at it.

5. by one of claim 2-4 described axial restraint device, it is characterized in that the radially extension in gap (18) is equivalent to the radial thickness of connection area (36) substantially between root of blade end (13) and the radial groove bottom (15).

6. by the described axial restraint device of one of claim 2-5, it is characterized in that, root of blade (12) under installment state approximately its at least on half the axial length with connection area (36) rubbing contact of fixed body (22).

7. by one of claim 2-6 described axial restraint device, it is characterized in that the material of fixed body (22) is high-temperature steel, particularly nickel-base alloy.

8. by one of claim 2-7 described axial restraint device, it is characterized in that fixed body (22) single-piece constitutes.

9. by one of claim 2-8 described axial restraint device, it is characterized in that first petiolarea (26,26 ') and second petiolarea (28) constitute in the mode of solid flanges.

10. by the described axial restraint device of one of claim 2-9, it is characterized in that fixed body (22) is by by sheet material stamping-out, burn into milling and/or by the laser manufacturing.