TH67603B - Propeller attachment device Pressing device assembly that holds the rotor blades. And production method Assembly method And how to disassemble the rotating machinery - Google Patents

Claims (6)

Disclaimer (all) which will not appear on the advertisement page. : ------ 06/03/2018 ------ (OCR) Page 1 of the number 5 pages. Clause 1. A rotor fixing device that controls the movement of the rotor blades in the direction of the impeller groove. When the assembly that holds the impeller, the rotor is inserted into the space between the impeller grooves arranged in a direction. Along the axial surface, along the outer circumference of the rotors of the rotating machine and the impeller. A rotor that is inserted into the impeller groove, in which the rotor fixing device is composed of: the first surface in contact with the axial end surface provided for the top rotor. In which the components that hold the rotor blades are inserted; The second surface facing in the direction opposite to the direction of the first surface, the second surface Will come into contact with the axial end surface provided for the rotor blades; And a third surface facing outward or inward in the radial direction of the rotor, where the third surface is in contact with at least one of the rotors and the rotor blades to determine their position. Of the device holding the rotor impeller in the radial direction; Propeller attachment, non-shaped, overlap with gaps when viewed from the direction of the impeller groove. 2. Propeller mounting device according to claim 1, which is additionally included: the fourth facing surface. Face outward or face inward in the radial direction of the rotor. And the direction opposite to the direction of the third surface, where the fourth surface determines the position of the device Fix the rotor blades in the radial direction; And a relative relocation mechanism that changes the relative position of the third surface. And a fourth surface in the radial direction 3. Rotator impeller attachment in accordance with claim 2, where the fourth surface is in contact with at least one of the rotors. Propeller blades and rotors 4. Rotating impeller attachment in accordance with claim 2 or 3, which includes additions: the first component includes the first surface, the second surface and the third wrapper; And page 2 of the number 5, the second composite piece, which includes the fourth surface; A relative repositioning mechanism that supports the second assembly by sliding it in the direction of Radial in relation to the first component 5. Rotating impeller attachment in accordance with claim 2 or 3, which is supplemented by: one assembly including the first and fourth surfaces and The second composite, which includes the second and the third surface; A relative repositioning mechanism that supports the sliding second assembly in the direction of . Radial relative to the first component 6. Rotation rotor attachment in accordance with claim 2 or 3, which is supplemented by: one assembly including the first surface, the second surface. And the third surface and the second compound, including the fourth surface; Correlated repositioning mechanism that supports the rotatable second component within the plane. Which is perpendicular to the axial direction in relation to the first component 7. Rotator attachment in accordance with claims 1 to 6, which is additionally included. The outer edge that contains at least one of the said edges is shaped to match the shape of the impeller groove or Rotator impeller when viewed from an axial direction 8. Pressing device assembly that fixes the rotor impeller, which includes: any of the rotator impeller mounts described in Claims 1 to 7; And an insertion guide device that fixes the rotor impeller in the direction of the impeller groove 9. Pressing device that fixes the rotor impeller in accordance with claim 8, where the assembly that holds the rotator impeller is the body that Elastic, which is compressed by the knife in the radial direction of the rotating shaft; And an insertion guide device, including through holes created in the direction of the impeller groove for Pass the assembly that holds the rotor impeller through that section; 3 pages of the number 5 through holes include slanted sections with the dimensions of the through holes in the radial direction of the rotating shaft. With reduced size from the entrance to the exit of the through hole; And the shape size of the outlet in the radial direction of the rotating shaft is smaller or equal Dimensions and dimensions of gaps 1 0. Pressing device assembly that holds the rotor blades in accordance with claim 8 or 9, where the guide Insertion can be removed from one of the rotating impeller mounts. 1. Depresser assembly that holds the propeller impeller in accordance with claim 8 to 10, which is additionally assembled with a push rod that activates the impeller fixing assembly. Rotor in the direction of the impeller groove; Which the push rod included The peripheral surfaces that come into contact with the components holding the rotor, the rotor, and the apex extend beyond the peripheral surface and are placed on the center edge of the edge. Outside of End Surface 1 2. Rotating Machine Manufacturing Method, in which additional assembly methods include steps: inserting the propeller blades into the impeller groove provided in an axial direction on the surface. Along the outer circumference of the rotor of the rotating machine; The rotor blades fixing device which controls the movement of the rotor blades in the direction of Impeller groove to the rotor; Inserting components holding the rotor impeller into the space between the impeller groove and the impeller. The rotor in the direction of the impeller groove, after the process of attaching the propeller impeller attachment to the rotor, and the removal of the propeller attachment from the propeller impeller with an assembly that holds the propeller impeller. 1 3. Method for manufacturing rotating machines according to claim 12, which includes additional steps: fixing the components that hold the rotor blades in the guiding device. Insert the insertion line of Chin assembly that fixes the rotor blades into the gap; And page 4 of the number 5, making the insertion guide device, which secures the components that hold the spinner impeller, face the surface The axial end of the rotor impeller or the rotor on the side of which the rotor fixing assembly is inserted and the assembly that holds the rotor impeller in a position facing the gap in the direction. Of the impeller groove; Each of these steps is performed prior to the insertion procedure that fixes the rotor blades. Enter the gap between the impeller groove and the rotor groove in the direction of the impeller groove 1 4. The manufacturing method of the rotating machinery according to claim 12 or 13, where the assembly that holds the rotor. A number is inserted sequentially in the direction of the impeller groove in the process of inserting the riveted assembly. The rotor impeller enters the space between the impeller groove and the rotor groove in the direction of the impeller groove. 1 5. Rotating machine assembly method, in which additional assembly methods are performed: Inserting the impeller into the impeller groove provided. Occurs in the axial direction on the surface Along the outer circumference of the spinning machine's rotor; Attachment of a propeller blade attachment, which controls the movement of the rotor blades in the direction Of the impeller groove to the rotator; And inserting components that hold the rotor impeller into the space between the impeller groove and the impeller The rotor in the direction of the impeller groove, after the process of attaching the propeller impeller attachment to the rotor, and the removal of the propeller attachment from the propeller impeller with an assembly that holds the propeller impeller. 1 6. Method for disassembling the rotating machinery, which is an additional assembly method by step: removing the seal that is placed between the impeller and the rotor that is inserted into it. The impeller grooves are arranged in The axial direction on the surface along the outer circumference of the rotating machine and the rotor; The rotor blades fixing device which controls the movement of the rotor blades in the direction of Impeller groove to the rotor; And page 5 of number 5, inserting a guide device into the space between the rotor and the rotor blades in the direction of Impeller groove and driving assembly that holds the rotor impeller out in the direction of impeller groove ------------ 1. Propeller attachment device that controls the movement of the rotor impeller in the direction of the groove. Impeller When the components holding the rotor impeller are inserted into the space between the impeller grooves provided in The axial direction on the surface along the outer circumference of the rotating machine rotor and A rotating impeller inserted into the impeller groove Where the rotator impeller mounts are included: One surface in contact with the axial end surface provided for the top rotor. In which the components that hold the rotor blades are inserted; The second surface facing the opposite direction of the first surface. In which the second surface will Contact with the axial end surface provided for the rotor, the rotor, and the third surface facing outward or inward in the radial direction of the rotor. Where a third surface is in contact with at least one of the rotors and the rotor blades to determine the position. Of rotating impeller attachment In the radial direction; A propeller-shaped attachment that does not overlap the gap when viewed from the direction of the impeller groove. 2. The propeller mounting device according to claim 1, which is additionally included: a fourth surface facing outward. Outside or facing inward in the radial direction of the rotor And the direction opposite to the direction of the third surface Where the fourth surface determines the position of the fastener The rotor rotors in the radial direction and the relative displacement mechanism changes the relative position of the third surface. And a fourth surface in the radial direction 3. Propeller Propeller 2, where the fourth surface is in contact with at least one of the Propeller and rotator impeller 4. Rotator attachment in accordance with claim 2 or 3, which includes additions: one assembly including first surface, second surface. And the third surface and the second composite, which includes the fourth surface; A relative repositioning mechanism that supports the second assembly by sliding it in the direction of Radial in relation to the first component 5. Propeller holder, propeller 2 or 3, which includes additions: one assembly including the first and fourth surfaces and The second composite, which includes the second and the third surface; A relative repositioning mechanism that supports the sliding second assembly in the direction of Radial in relation to the first component 6. Rotating impeller attachment in accordance with claim 2 or 3, which is supplemented by additions: the first assembly, which includes the first surface, the second surface and the third surface. And the second composite, which includes the fourth surface; A relative repositioning mechanism that supports the second rotating assembly within the plane. That are perpendicular to the axial direction in relation to the first component 7. Rotator attachment in accordance with claims 1 to 6, either Which included additional With at least one outer edge of the edge having a shape that matches the shape of the impeller groove. Or the rotor blades when viewed from an axial direction. 8. Pressing device assemblies that hold the rotator impeller, including: any of the rotator impeller mounts described in Claims 1 to 7; and Insertion Guidance Attachment Fixture Fixing Impeller Rotates in the Direction of Impeller Groove 9. Pressing Device Fixing Propeller Propeller 8 Where the Fixture Fixing Propeller is a flexible body which will Is compressed in the radial direction of the rotating shaft; And an insertion guide device, including through holes created in the direction of the impeller groove for Pass the assembly that holds the rotor blades through the part; The through hole includes an inclined portion with the dimensions of the through hole in the radial direction of the rotating shaft at There is a reduction in size from the inlet through the inlet of the through hole and the shape of the outlet. In the radial direction of the rotating shaft is smaller or equal in size. Geometry of Gaps 1 0. Pressing device that holds the rotor blades in accordance with claim 8 or 9, where the guide Insertion can be removed from the propeller 1 attachment. 1. Pressing device that holds the rotor impeller in accordance with any 8 to 10 claim, which is supplemented by a push rod that activates the assembly that holds the rotor impeller in the direction of the impeller groove. Which the push rod included The end surfaces that come into contact with the components that hold the rotor blades and The extremity that extends beyond the distal surface. And placed on the middle side of the edge Outside of the distal surface 1 2.Production method of rotating machinery The method of further assembly is further incorporated by steps: inserting the rotor blades into the impeller grooves arranged in an axial direction on the surface according to The outer circumference of the spinning machine's rotor; The rotor blades fixing device which controls the movement of the rotor blades in the direction of The impeller groove onto the rotor and the insertion of the components holding the rotor impeller into the space between the impeller groove and the impeller. The rotor in the direction of the impeller groove after the process of attaching the rotor fixing device to the rotor 1 3. The manufacturing method of the rotating machine according to claim 12, which is supplemented by the procedure: fixing the assembly that fixes the rotor blades in an insertion guide that guides the insertion line of the part. Assembly that holds the rotor blades into the gap and Making the insertion guide, which secures the fixing element of the rotor blades, faces the surface. The axial end of the rotor, the rotor, or the rotor, on the side where the assembly that holds the rotor impeller is Insert and align the components that hold the rotor impeller in a position facing the gap in the direction of the impeller groove.Each of these steps is performed prior to the insertion process of fixing the rotor impeller. Enters the gap between the impeller groove and the rotor groove in the direction of the impeller groove 1 4. Method for manufacturing rotating machinery according to claim 12 or 13, where the components that hold the impeller A number of rotators are inserted sequentially in the direction of the impeller groove in the process of inserting the Immobilize the rotor impeller into the space between the impeller groove and the propeller groove in the direction of the impeller groove 1. 5. How to assemble the rotating machinery The method of further assembly is further incorporated by steps: inserting the rotor blades into the impeller grooves arranged in an axial direction on the surface according to The outer circumference of the spinning machine's rotor; The rotor blades fixing device which controls the movement of the rotor blades in the direction of The impeller groove onto the rotor and the insertion of the components holding the rotor impeller into the space between the impeller groove and the impeller. The rotor in the direction of the impeller groove after the process of attaching the rotor fixing device to the rotor 1 6. How to disassemble rotating machinery The assembly method is further incorporated by steps: removing the seal plate placed between the rotor blades inserted into the impeller groove provided in The axial direction on the surface along the external circumference of the rotating machine and the rotator; A heavy duty propeller attachment that controls the movement of the rotor blades in the direction of The impeller groove onto the rotor and insertion of the impeller into the space between the rotor and the impeller in the direction of the impeller groove and the actuation of the fixing components of the impeller in the direction of the impeller groove.