KR100785544B1 - Means for securing a bucket to a turbine wheel and methods of installation - Google Patents

Abstract

In a turbine having a rotor wheel 10 with an axially extending female dovetail 12 one spaced apart from one another with respect to the circumference of the wheel, a male dovetail 14 is placed at its radially inner end. The excitation bucket is inserted axially with respect to the rotor wheel to secure the bucket to the wheel. The bucket has an axial entry dovetail segment 22 having a radially opposed male dovetail when a shroud 18 is installed at the radially outer end to prevent the final or closed bucket from entering and engaging the wheel. ) To secure the final or closed bucket to the wheel. The final bucket has a female dovetail at its radially inner end, while the axial entry dovetail segment 22 has a male dovetail at its radially inner and outer sides. By radially inserting the final bucket between adjacent buckets, the male dovetail finally secures the final bucket to the rotor wheel with the axial insertion of the segment that engages the final bucket and the female dovetail of the rotor wheel.

Description

MEANS FOR SECURING A BUCKET TO A TURBINE WHEEL AND METHODS OF INSTALLATION}

FIELD OF THE INVENTION The present invention relates to the axial entry dovetail fixation between a bucket and a wheel of a turbine rotor, in particular a final or closure bucket of a series of axially inserted buckets on a turbine rotor wheel. to an axially inserted dovetail segment for securing a bucket).

Axial entry buckets, ie rotor blades, are assembled on the turbine wheel by sliding the bucket along the rotor axis into an engaged dovetail on the turbine wheel. In a conventional assembly, the turbine bucket has a radially inwardly projecting male dovetail for engaging the radially inward female dovetail of the turbine wheel. The wheel dovetails are spaced circumferentially from one another with respect to the wheel. The axial entry bucket of the turbine wheel has proved very satisfactory in assembly and use.

However, some turbine types require an integral cover or shroud at the bucket tip. Typically, the shroud has overlapping protrusions that overlap with the shrouds of adjacent buckets. For example, some shrouds have a generally Z-shaped configuration when viewed in a radially inward direction. Such buckets should be continuously assembled around the wheel using an axial entry dovetail system, and typically the protrusions of adjacent shrouds of the first assembled and then finally assembled buckets have a final axial entry bucket upstream or downstream of the wheel. Prevents assembly on all sides. The shroud protrusions that are blocked cannot be removed because the shrouds must contact each other in order to maintain a continuous circumferential engagement of the bucket at the tip of the bucket. Thus, there is a problem in securing the final or closed bucket with the shroud to the otherwise completed wheel assembly by the axial entry assembly method.

Summary of the Invention

According to the present invention, after all buckets except the final or closed bucket are secured to the rotor wheel by the axial entry method, there is provided an axial entry dovetail segment that facilitates securing the final or closed bucket to the rotor wheel. . The invention is particularly useful for securing the final bucket to the rotor wheel in an axial entry system, where the shroud of the bucket tip prevents axial entry and locking of the final bucket. In order to carry out the foregoing, an axial entry segment is provided which has a generally radially opposed male dovetail and extends generally axially. The rotor wheel has a conventional arm dovetail in a circumferentially spaced position around the wheel, including a circumferential position to receive the final bucket. However, the final bucket has a female dovetail instead of having a protruding male dovetail in the final bucket position around the wheel for complementary engagement with the female dovetail in the rotor wheel. The radially inner male dovetail of the dovetail segment matches the mating structure of the male dovetail of the bucket except the final bucket. The male dovetail opposite or radially outward of the segment has a configuration that is generally complementary to the female dovetail of the final bucket.

To assemble the bucket to the rotor wheel, a bucket having a conventional male dovetail is inserted axially into the female dovetail of the rotor wheel. This is done continuously around the rotor wheel. When all buckets except the final bucket are secured to the rotor wheel, the final bucket can be inserted between radially adjacent buckets, and is basically positioned between the first bucket assembled on the wheel and the next bucket assembled on the wheel. . Once the final bucket is properly positioned, the axial entry dovetail segment is inserted axially to engage the end bucket and the arm dovetail of the rotor wheel respectively. By enabling radial insertion of the final bucket, the shroud of the final bucket can be radially superimposed with the covers of adjacent buckets, forming a continuous circumferential engagement of the cover while maintaining the integrity of the integral cover form.

According to a preferred embodiment of the present invention, there is provided a rotor wheel having at least one axially entering arm wheel dovetail, a bucket having an arm bucket dovetail proximate a radially inner end, and the bucket to the one wheel dovetail. A turbine having an axial entry segment for securing, comprising: a generally radially opposed number extending generally axially and generally extending in the axial direction to receive axially in the bucket dovetail and wheel dovetail, respectively. A turbine is provided comprising a segment body with a dovetail.

According to another preferred embodiment of the invention, a rotor wheel having an axial entry arm wheel dovetail spaced circumferentially with respect to the other with respect to the rotor wheel and at each circumferential position of the wheel dovetail In a turbine having a plurality of buckets for a wheel, a method for installing the bucket to the wheel, the method comprising: providing a female dovetail at a radially inner end of the bucket and a generally radially opposing male dove; A method is provided for installing a bucket on a wheel comprising inserting a segment with a tail axially into the bucket dovetail and the one wheel dovetail to secure one bucket and the wheel to each other.

According to another preferred embodiment of the present invention, in a turbine having a rotor wheel having axial entry arm wheel dovetails spaced apart from each other in a circumferential direction with respect to the rotor wheel, and a predetermined number of buckets for fixing to the wheel, A method of installing a bucket, the method comprising: securing the plurality of buckets by axially inserting a number of dovetails provided in a plurality of buckets less than the predetermined number into a corresponding number of female wheel dovetails; And inserting generally radially opposing male dovetails on the dovetail segments into female dovetails on the wheel and into female dovetails on the one bucket to secure the bucket to the wheels. This is provided.

It is therefore a primary object of the present invention to provide a dovetail form of a bucket and wheel for a bucket covered with an integral shroud using an axial entry dovetail, while maintaining the integrity of this shroud while at the same time the radius of the final bucket. By providing directional assembly simultaneously, the cover of the final bucket completes the cover circumferentially extending around the rotor wheel.

1 is a partial perspective view illustrating the engagement of the bucket and rotor wheel as well as the axial entry dovetail segment of the invention used to secure the final bucket;

2 is a perspective view of the axial entry dovetail segment,

3 is an end view of the axial entry dovetail.

Referring now to the drawings, and in particular to FIG. 1, a portion of the rotor wheel 10 is shown, which constitutes part of the turbine. The rotor wheel 10 has a series of female dovetails 12 that are rotatable about an axis and one spaced apart about the other around the wheel. The female dovetail 12 extends axially, ie side by side with respect to the axis of the rotor wheel, to receive an interlocking male dovetail formed at the inner end of the bucket 16. Bucket 16 constitutes a series of blades or vanes operated by hot gas in the turbine's flow path to rotate the rotor wheel. The radially inner end of the bucket 16 has a male dovetail 14 that allows the bucket to enter the female dovetail axially when engaging the bucket to the rotor wheel.

The bucket 16 also has shrouds or covers 18 at the radially outer ends of the bucket that contact each other to maintain a continuous circumferential shroud assembly around the bucket tip during final assembly. The cover 18, of course, rotates with the bucket 16 and the rotor wheel 10. As shown, the cover 18 is in a generally Z-shaped configuration when viewed in the radial direction, thus fastening or superimposing each other with adjacent covers. While Z-shaped cover configurations are preferred, there are other configurations of covers other than Z-shaped. For example, the cover may have a linearly angled edge. The specific configuration of the cover is extensive by the torsion and bending of the bucket 16 which circumferentially offsets the leading and tailing edges of the bucket.

As described above, the male dovetail 14 of the bucket 16 is assembled to the rotor wheel by axially displacing into the female dovetail. Thus, the bucket 16 is continuously coupled around the wheel. For example, the first bucket 16a is assembled to the rotor wheel 10 by axially displacing the male dovetail 14a into the female dovetail 12a. The bucket 16b is similarly assembled to the rotor wheel 10 by displacing the male dovetail 14b axially into the female dovetail 12b on the rotor wheel. The covers 18a, 18b on the buckets 16a, 16b are superimposed upon each other at this axial entry. The additional bucket is secured to the rotor wheel in the same way continuously with respect to the wheel 10, and ultimately the next final bucket 16x inserts the male dovetail 14x into the female dovetail 12x. Is installed on. Thus, except for the final bucket, the buckets are axially inserted into the rotor wheel with the cover 18 superimposed on one another and fully inserted around the rotor wheel. However, as can be appreciated from FIG. 1, the final or closed bucket 16y is inserted against the rotor wheel from both axial directions because the cover 18y cannot pass through the opening defined by the adjacent covers 18a, 18x. Can't be. As a result, different types of coupling and assembly processes are required to install the final bucket 16y to the rotor wheel 10.

To do this, instead of providing a final bucket 16y with a male dovetail similar to the male dovetail 14 at the radially inner end of the other bucket 16, it is axially along the radially inner end. It provides a final bucket 16y with an arm dovetail 20 extending to. In addition, an axial entry dovetail segment 22 is provided for coupling the final bucket 16y to the rotor wheel 10 at the female dovetail coupling 12y as best shown in FIG. 2. The dovetail coupling portion 12y is the same as the dovetail coupling portion 14 spaced circumferentially around the rotor wheel 10. The axial entry dovetail segment 22 includes male dovetails 24, 26 protruding along the radially opposite face of the segment, the segment being in the axial length of the male dovetail on the bucket 16. Extend in the axial direction at a corresponding distance. The radially innermost male dovetail 24 of the segment 22 has a generally complementary shape with the female dovetail 12y, while the radially outer male dovetail 26 on the segment 22 has a final bucket ( 16y) has a generally complementary shape with the arm dovetail 20. By using the axial entry dovetail segment 22, the final bucket 16y can be joined from the radial direction and assembled to the rotor bucket 10 and the first bucket 16a assembled to the rotor wheel 10. Located between the final buckets 16x. By radially inserting the bucket 16y, the radially inner base of the bucket is easily located between the radially inner bases of adjacent buckets 16a, 16x. In addition, the cover 18y of the final bucket 16y is nested between the covers 18a and 18x of the adjacent bucket. In order to secure the final or closed bucket 16y to the rotor wheel 10, the axially entering dovetail segment 22 is moved axially so that the male dovetail and the rotor wheel 10 of the final bucket 16y are moved. Each is engaged.

Referring to FIG. 2, the coupling structure of the radial male dovetail 24 of the segment 22 is the same as the female dovetail of the rotor wheel. That is, the hooks 25 of the dovetail are substantially complementary to each other. Likewise, the radially outer male dovetail 26 of the segment 22 has a shape complementary to the female dovetail of the final or closed bucket 16y. That is, the male dovetail hook 27 is substantially complementary to the female dovetail hook. In addition, a protrusion or tang is provided on the segment 22. These tangs 28 inhibit tangential movement of the arm dovetail of the engaged final or closed bucket. Of course, the hooks 25, 27 engage with corresponding hooks in the wheel dovetail and corresponding hooks in the arm dovetail of the final bucket at final assembly.

Although the present invention has been described in connection with what is currently recognized as the most practical and preferred embodiment, the invention is not limited to the above-described embodiment, but rather various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It will be understood that it is intended to include.

Claims (8)

A plurality of axial entry buckets having a rotor wheel 10 and a first male dovetail 14, each of which is fixable to the rotor wheel 10 and penetrates a first female dovetail 12 in the rotor wheel. (16a, 16b;... 16x), each bucket comprising a shroud 18 in the form of seating on the shroud 18 of adjacent blades to form a continuous circumferential shroud assembly; In the turbine, The last mounted bucket assembly comprises an additional bucket 16y configured to attach to the rotor wheel from radial direction such that the associated shroud 18 rests on the shroud of an adjacent axial entry bucket, wherein the additional bucket A radially inner portion of the additional bucket and a feature 24 complementary to the first female dovetail 12 in the rotor wheel, including a second female dovetail 20 disposed at this radially inner end. A second male dovetail 22 having a shape 26 complementary to the second female dovetail 20 at the end is disposed simultaneously on the first and second female dovetails 12, 20 and Characterized in that an additional bucket 16y can be attached to the rotor wheel 10. turbine. The method of claim 1, The second male dovetail is a segment body 22 having generally radially opposed male dovetails 24, 26, wherein one of the dovetails is at least two protruding to each side of the segment. A fir tree shape comprising four hooks turbine. delete delete A method of installing a turbine bucket to a turbine rotor wheel (10), wherein the rotor wheel (10) has a first axial entry arm dovetail (12) circumferentially spaced about the rotor wheel (10) from the other one. Each arm dovetail 12 is configured to receive one of a plurality of buckets 16a, 16b, ... 16x, 16y attached to the rotor wheel 10, each bucket A method of installing a bucket, comprising: a continuous circumferential shroud assembly, comprising a shroud 18 shaped to seat the shroud 18 of an adjacent blade. Providing a second arm dovetail 20 on the radially inner end of at least one 16y of the plurality of buckets; Providing a first male dovetail 14 allowing each remaining bucket to be attached to the rotor wheel 10 on the radially inner ends of the remaining plurality of buckets 16a, 16b,... 16x; , Inserting each male dovetail 14 along the axial direction into the first female dovetail 12 such that each remaining bucket is attached to the rotor wheel 10, Installing the last bucket (16y) of the plurality of buckets from the radial direction to the rotor wheel (10) to seat the shroud (18) relative to the adjacent shroud (18) of the remaining buckets; A second male dovetail 22 is axially inserted into the first female dovetail 12 and the second female dovetail 20 of the last bucket of the plurality of buckets, so that the last bucket and the wheel 10 Fixing the two to each other How to install a bucket. delete delete delete

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