JP3188169B2 - Stator vane nozzle ring of exhaust gas turbocharger - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vane nozzle ring for guiding exhaust gas to turbine vanes in an exhaust gas turbine turbocharger.

[0002]

2. Description of the Related Art FIG. 2 shows a conventional structure of a stationary vane nozzle ring on a turbocharger turbine side. The stationary blade nozzle ring 1 is installed immediately before the turbine rotor blade 4 to increase the speed of the exhaust gas supplied from the gas inlet casing 2 and drive the rotor 3.

As shown here, when the blade height of the turbine rotor blade 4 is low, the nozzle outer ring of the stator blade nozzle ring 1 is adjusted in order to adjust the outlet portion of the stator blade nozzle ring 1 to the blade height. The height of the exhaust gas inflow portion of the gas inlet casing 2 matches the height of the nozzle inlet portion 1a as a cone-shaped structure in which the height of the nozzle blade 1a on the turbine blade 4 side is reduced.

[0004] Since the gas inlet casing 2 is commonly used, such a structure is employed. The stator blade nozzle ring 1 is fixed to the casing by bolts 6.

[0005]

The above-mentioned prior art has the following disadvantages. That is, in order to allow the exhaust gas to flow smoothly into the turbine blades 4 having different blade heights, the cone-shaped outer ring 1a of the stator blade nozzle ring 1 is manufactured in accordance with the blade height of the turbine blades 4. There is a need to.

However, if the nozzle outer ring 1a has a cone shape, it is difficult to attach the nozzle outer ring 1a to the nozzle blade 1c, and this may cause a cost increase.

SUMMARY OF THE INVENTION The present invention solves such a problem in the prior art, and makes it possible to easily and reliably mount the nozzle outer ring and the nozzle blade in the manufacture thereof, and to provide a stationary blade nozzle ring in which the flow of exhaust gas is smooth. The task is to provide.

[0008]

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and a parallel passage of exhaust gas is provided by an outlet casing, a nozzle outer ring having the same height as the nozzle, and a nozzle inner ring parallel to the nozzle outer ring. Forming a stationary blade nozzle ring of an exhaust gas turbine supercharger in which a cone-shaped rectifying member that expands toward the upstream side of exhaust gas is disposed on a nozzle inlet side of the nozzle outer ring. Since the ring and the inner ring of the nozzle are arranged in parallel so as to form a parallel passage of exhaust gas, it is easy to attach the outer ring of the nozzle to the nozzle blades, and the upstream provided at the nozzle inlet of the outer ring of the nozzle. A cone-shaped rectifying member that expands toward the side is configured to guide the flow of exhaust gas flowing into the stator vane nozzle ring without disturbing the flow.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described with reference to FIG. Note that, for the sake of simplicity, the same parts as those of the related art described above with reference to FIG. 2 are denoted by the same reference numerals in the drawings, and redundant description will be omitted.

Reference numeral 1a denotes an outer ring of the nozzle, which is formed at a so-called equal height position where the distance from the axis is equal to that of the gas outlet casing 2 'on the downstream side, with its inner surface extending in a direction parallel to the axis.

Reference numeral 1b denotes an inner ring of the nozzle.
And a parallel passage for exhaust gas is formed between the nozzle and the outer ring 1a.

Reference numeral 1c denotes a nozzle blade which is radially arranged on the outer periphery of the nozzle inner ring 1b and is attached to the nozzle inner ring 1b and the nozzle outer ring 1a.

Reference numeral 1d denotes a cone-shaped rectifying member having the shape of a flange of a cone ring, one end of which is fixed to the nozzle outer ring 1a, and the other end of which is extended toward the upstream side of the exhaust gas.

The cone-shaped flow regulating member 1d is generally fixed to the nozzle outer ring 1a by welding.
It may be formed integrally with the nozzle outer ring 1a. The other end of the rectifying member 1d opposite to the fixed end is close to the gas inlet casing 2, but this end is formed as a free end.

Reference numeral 1e denotes a closing flange, which is disposed between the outer ring 1a of the nozzle and the gas inlet casing 2 and closes a gap between the two. The closing flange 1e may be fixed at one end to the nozzle outer ring 1a by welding, fixed using a fixing tool such as a screw, or formed as an integral part with the nozzle outer ring 1a. Although it is in contact with the gas inlet casing 2, it is formed as a free end without being fixed.

The nozzle outer ring 1a and the nozzle inner ring 1
b, nozzle blade 1c, rectifying member 1d, and closing flange 1
and e form a stationary vane nozzle ring 1.

In the present embodiment, as described above, the nozzle outer ring 1a and the nozzle inner ring 1b are arranged in parallel, and the nozzle blades 1c fit therein. Even if the outer ring 1a of the nozzle and the gas outlet casing 2 'are formed at the same height, the outer ring 1a of the nozzle and the nozzle blade 1
c can be easily and reliably mounted.

Further, since the stationary vane nozzle ring 1 is provided with the conical rectifying member 1d on the inlet side thereof, the exhaust gas flow smoothly flows to the stationary vane nozzle ring 1 without any flow disturbance. It can be introduced.

When the height of the moving blade 4 changes, the nozzle outer ring 1a also follows and changes the height. In this case, the rectifying member 1d is upstream in accordance with the height of the moving blade 4. The degree of spread to the side, that is, the angle of the cone may be replaced with a different one, or a member having a different length may be selected.

Although the present invention has been described with reference to the illustrated embodiment, the present invention is not limited to such an embodiment.
It goes without saying that various changes may be made to the specific structure within the scope of the present invention.

[0021]

As described above, according to the present invention, the outer ring of the nozzle and the inner ring of the nozzle are arranged in parallel to form a parallel passage for exhaust gas. Even in the case where the nozzle outer ring is formed to be lower and the nozzle outer ring is formed at the same height, the mounting of the nozzle blade interposed in the parallel passage and the nozzle outer ring is extremely easily and reliably performed. Is what you can do.

Further, even if the inlet side of the nozzle ring is lowered due to the lower outer ring of the nozzle following the height of the outlet casing, the nozzle ring is guided by the cone-shaped rectifying member provided on the inlet side. The flow of the exhaust gas is smoothly and smoothly introduced into the parallel passages of the nozzle ring without being disturbed, and an apparatus having no problem in function and performance can be obtained.

[Brief description of the drawings]

FIG. 1 is a sectional view showing the structure of a nozzle ring according to an embodiment of the present invention.

FIG. 2 is a sectional view showing the structure of a conventional nozzle ring having a low blade height.

[Explanation of symbols]

 Reference Signs List 1 stationary blade nozzle ring 1a nozzle outer ring 1b nozzle inner ring 1c nozzle blade 1d cone-shaped rectifying member

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int. Cl. ⁷ , DB name) F02B 39/00 F01D 9/02 F01D 9/04 F01D 9/06 F01D 25/24

Claims (1)

(57) [Claims] 1. An exhaust gas parallel passage is formed by an outlet casing, a nozzle outer ring at the same height, and a nozzle inner ring parallel to the nozzle outer ring, and an exhaust gas upstream side is provided at a nozzle inlet side of the nozzle outer ring. A stationary nozzle nozzle ring of an exhaust gas turbine supercharger, wherein a cone-shaped rectifying member expanding toward the nozzle ring is disposed.