DE102018101527A1 - axial flow - Google Patents

Abstract

Axial flow machine, in particular axial turbine, with a stator-side housing (1) which defines a flow channel (2), with a rotor-side impeller (3) carrying blades (4), and with a stator-side guide (5), which adjustable guide vanes (6 ), wherein radially outer pins (6a) of the guide vanes (6) are mounted in a guide blade carrier (7), wherein on the pin (6a) of the guide vanes (6) engage linkage (8) coupled to a collar (9) are, and wherein on the adjusting ring (9) an actuating device (10) engages, via which the adjusting ring (9) and the adjusting ring (9), the guide vanes (6) are rotatable. The actuating device (10) has at least one actuating rod (11) whose longitudinal axis and whose actuating direction extending in the direction of the longitudinal axis extends in the circumferential direction or tangentially to the circumferential direction of the adjusting ring (9).

Description

The invention relates to an axial flow machine, in particular an axial turbine, according to the preamble of claim 1.

From the DE 100 16 745 B4 An axial flow machine according to the preamble of claim 1 is known. Thus, the axial flow machine known from this prior art has a stator-side housing, which defines a flow channel for a fluid. The axial flow machine further has a rotor-side impeller which carries blades which are positioned in the flow channel. Furthermore, the axial-flow machine has a stator-side distributor, which has adjustable guide vanes. Radially outer pegs of the nozzle vanes are mounted in a vane carrier. At the radially outer pin of the vane engage the lever. The articulated levers are coupled to an adjusting ring, wherein on the adjusting ring engages an actuating device via which the adjusting ring is displaceable so as to displace or displace the guide vanes via the displacement of the adjusting ring.

From the DE 100 16 745 B4 It is known that the actuating device has an actuating rod which extends in the axial direction, and is guided in a recess of the housing. This recess of the housing, through which the actuating rod of the actuator extends, is arcuate in order to allow a corresponding adjustment of the adjusting ring in the circumferential direction. Due to such a circular arc-shaped recess, it is difficult to seal the passage area of the actuating rod through the housing.

There is a need for a novel axial flow machine in which the passage area of the actuator through the housing, which engages the adjusting ring, can be better sealed.

On this basis, the present invention has the object to provide a novel axial flow machine. This object is achieved by an axial flow machine according to claim 1.

According to the invention, the actuating device has at least one actuating rod whose longitudinal axis and whose actuating direction extending in the direction of the longitudinal axis extends in the circumferential direction or tangentially to the circumferential direction of the adjusting ring.

The respective actuating rod executes exclusively a one-dimensional, linear actuating movement.

With the present invention, it is proposed that the or each actuating rod of the actuating device extends in the circumferential direction or tangential to the circumferential direction of the adjusting ring through the housing. For displacement of the adjusting ring, the actuating rod only performs a one-dimensional movement, namely lifting movement, in the direction of the longitudinal axis of the respective actuating rod. Therefore, the respective operating rod can be advantageously sealed against the housing.

According to an advantageous development, the actuating device on two actuating rods, the two actuating rods preferably offset by 180 ° attack on the adjusting ring, and wherein a first actuating rods acts as a push rod and a second actuating rods as a pull rod. Hereby, a particularly advantageous displacement of the adjusting ring is possible.

According to an advantageous development, the respective actuating rod is guided linearly displaceable in a guide, wherein a guide housing of the guide extends through a recess in the housing and the actuating rod through the guide housing. This allows a particularly advantageous displacement of the respective actuating rod and sealing of the passage area of the actuating device through the housing.

Preferably, a projection of the respective guide housing bears against an outer wall of the housing of the axial flow machine and forms a sealing surface which extends perpendicular to the longitudinal axis of the respective actuating rod in order to seal the respective guide housing relative to the housing. The respective guide housing preferably receives a seal which seals the respective actuating rod in the respective guide housing. These features serve the particularly preferred sealing of the guide relative to the housing of the axial flow machine and the respective actuating rod relative to the guide housing of the guide and thus relative to the housing of the axial flow machine.

• 1 einen ausschnittsweisen Axialschnitt durch eine erfindungsgemäße Axialströmungsmaschine;
• 2 einen ausschnittsweisen Radialschnitt durch eine erfindungsgemäße Axialströmungsmaschine in Schnittrichtung II-II; und
• 3 das Detail III.

Preferred embodiments of the invention will become apparent from the dependent claims and the description below. Embodiments of the invention will be described, without being limited thereto, with reference to the drawings. Showing:

• 1 a partial axial section through an axial flow according to the invention;
• 2 a fragmentary radial section through an axial flow according to the invention in the cutting direction II-II ; and
• 3 the detail III ,

The invention relates to an axial flow machine, in particular an axial turbine.

1 and 2 show in detail two different cross-sections through an axial flow according to the invention, which is designed as an axial turbine. 3 shows the detail III the 2 ,

The axial flow machine has a stator-side housing 1 , From the stator-side housing 1 are a turbine inlet housing 1a and a turbine exhaust housing 1b shown. The housing 1 defines a flow channel 2 for a fluid.

The axial turbine also has a rotor-side impeller 3 , which blades 4 wearing. The blades 4 of the impeller 3 are flowed by the fluid flowing through the flow channel 2 flows.

The axial turbine also has a stator-side diffuser 5 , The stator-side diffuser 5 has guide vanes 6 on that in the flow channel 2 are positioned. The vanes 6 are adjustable, namely rotatable.

Radially outer pin 6a the vanes 6 are in a vane carrier 7 guided. At those sections of the pins 6a facing the vane carrier 7 protrude radially outside, engage lever 8th on, which are also referred to as levers.

The levers 8th grab on a collar 9 on, which can be rotated in the circumferential direction, about its twisting movement, the lever 8th and over the lever 8th the vanes 6 of the distributor 5 to twist.

In 2 are just a few vanes 6 shown. In the circumferential direction next to the illustrated vanes 6 are more vanes in the flow channel 2 positioned.

To the collar 9 to shift in the circumferential direction, engages the collar 9 an actuator 10 on. The actuating device 10 includes at least one actuating rod 11 whose longitudinal axis and whose direction of actuation extending in the direction of the longitudinal axis, in 2 by a double arrow 12 is visualized, in the circumferential direction or tangential to the circumferential direction of the adjusting ring 9 extends.

Preferably, the actuating device comprises 10 two such actuating rods 11 , preferably offset by 180 ° on the collar 9 attack, in which case a first operating rod 11 as a push rod and a second operating rod 11 acts as a tie rod, depending on which direction the collar is in 9 is to relocate, so depending on whether in 2 the collar 9 to turn clockwise or counterclockwise.

The respective actuating rod 11 the actuator 10 performs exclusively a one-dimensional, linear adjusting movement and extends for this purpose by a preferably formed as a circular bore recess in the housing 1 , As 3 can be removed, is the respective operating rod 11 in a guided tour 12 linearly guided, the leadership 12 a guide housing 13 and one in the guide housing 13 received guide element 17 having. At the guide element 17 For example, it may be a sliding block.

The guide housing 13 extends through the recess in the housing 1 through, the operating rod 11 extends through the guide 12 therethrough.

The guide housing 13 has a paragraph 14 on, on the case 11 the axial flow machine rests, namely on an outer wall of the housing 1 , being between the outer wall of the housing 1 and the lead 14 a sealing surface 15 is formed, which is perpendicular to the longitudinal direction of the respective actuating rod 11 extends.

In addition to this sealing of the guide housing 13 opposite the housing 1 is a seal 16 present, which is the sealing of the actuating rod 11 opposite the guide housing 13 serves, with this seal 16 together with the guide element 17 in the guide housing 13 is included.

In the case of the axial-flow machine according to the invention, therefore, the adjustment movement of the adjusting ring 9 , over which ultimately the vanes 6 be relocated, round in cross section actuation rods 11 initiated in cross-sectionally round recesses of the housing 1 are guided and perform only a one-dimensional, translational stroke. This allows the penetration area of the actuating rods 11 opposite the housing 1 the axial flow machine are sealed easily and reliably. The risk of leakage is reduced.

LIST OF REFERENCE NUMBERS

1

casing

1a

inflow housing

1b

outflow housing

2

flow channel

3

Wheel

4

blade

5

diffuser

6

vane

6a

spigot

7

guide vane

8th

Feedback lever

9

collar

10

actuator

11

actuating rod

12

guide

13

guide housing

14

attack

15

sealing surface

16

poetry

17

guide element

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10016745 B4 [0002, 0003]

Claims (8)

Axial flow machine, in particular axial turbine, with a stator-side housing (1), which defines a flow channel (2), with a rotor-side impeller (3) which carries moving blades (4), with a stator-side guide apparatus (5), which adjustable guide vanes (6) wherein radially outer pins (6a) of the guide vanes (6) are mounted in a guide blade carrier (7), wherein on the pin (6a) of the guide vanes (6) engage linkage (8), which are coupled to a collar (9) , and wherein on the adjusting ring (9) an actuating device (10) engages, via which the adjusting ring (9) and the adjusting ring (9), the guide vanes (6) are rotatable, characterized in that the actuating device (10) at least one actuating rod (11), whose longitudinal axis and extending in the direction of the longitudinal axis actuating direction extending in the circumferential direction or tangential to the circumferential direction of the adjusting ring (9). Axial flow machine after Claim 1 , characterized in that the actuating device (10) has two actuating rods (11). Axial flow machine after Claim 2 , characterized in that the two actuating rods (11) offset by 180 ° on the adjusting ring (9) engage, wherein a first actuating rod (11) as a push rod and a second actuating rod (11) acts as a tie rod. Axial flow machine according to one of Claims 1 to 3 , characterized in that the respective actuating rod (11) executes exclusively a one-dimensional, linear adjusting movement. Axial flow machine according to one of Claims 1 to 4 , characterized in that the respective actuating rod (11) extends through a recess in the housing (1). Axial flow machine according to one of Claims 1 to 5 , characterized in that the respective actuating rod (11) in a guide (12) is guided linearly displaceable, wherein a guide housing (13) of the guide (12) through a recess in the housing (1) and the actuating rod (11) through the Guide housing (13) extends. Axial flow machine after Claim 6 , characterized in that a projection (14) of the respective guide housing (13) abuts against an outer wall of the housing (1) and forms a sealing surface (15) which extends perpendicular to the longitudinal axis of the respective actuating rod (11) to the respective guide housing (13) with respect to the housing (1) to seal. Axial flow machine after Claim 6 or 7 , characterized in that the respective guide housing (13) receives a seal (17) which seals the respective actuating rod (11) in the respective guide housing (13).

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