Abstract: Provided is a two-piece shrouded impeller, and methods for manufacturing and assembling a two-piece shrouded impeller. The two-piece shrouded impeller, in accordance with one embodiment, may have a one-piece partially shrouded impeller having a central hub, a number of blades integrally attached to the hub, and one or more integral partial shroud sections integrally attached to the blades. The two-piece shrouded impeller in this embodiment may also have a separate shroud section that attaches to the one-piece shrouded impeller, so that the separate shroud section and the partial shroud sections combine to form a completed shroud that covers the impeller blades. The separate shroud section may attach to the one-piece shrouded impeller with a snap joint, or with an interference fit, or using a squeeze deformable ring. Once attached, the shroud section may be bonded to the one-piece shrouded impeller by brazing, stick welding, ultrasonic welding, or electron beam welding.
Abstract: Provided is a two-piece shrouded impeller, and methods for manufacturing and assembling a two-piece shrouded impeller. The two-piece shrouded impeller, in accordance with one embodiment, may have a one-piece partially shrouded impeller having a central hub, a number of blades integrally attached to the hub, and one or more integral partial shroud sections integrally attached to the blades. The two-piece shrouded impeller in this embodiment may also have a separate shroud section that attaches to the one-piece shrouded impeller, so that the separate shroud section and the partial shroud sections combine to form a completed shroud that covers the impeller blades. The separate shroud section may attach to the one-piece shrouded impeller with a snap joint, or with an interference fit, or using a squeeze deformable ring. Once attached, the shroud section may be bonded to the one-piece shrouded impeller by brazing, stick welding, ultrasonic welding, or electron beam welding.
Abstract: A system and method for electrochemically machining a work-piece contains a fixture capable of receiving a work-piece and securing the work-piece to the fixture. An electrolyte source is also provided. In addition, the system contains a rotary drive subassembly capable of receiving a portion of the work-piece therein, motion of the rotary drive assembly being determined by a received control signal, wherein frequency and amplitude of the control signal increases and decreases motion of the rotary drive subassembly, and wherein the control signal is a trapezoidal waveform.
Type:
Grant
Filed:
July 6, 2007
Date of Patent:
November 15, 2011
Assignee:
Turbocam, Inc.
Inventors:
Thomas S. McGee, Marian B. Noronha, Hans Hendrik Wolters
Abstract: A system and method for electrochemically machining a work-piece contains a fixture capable of receiving a work-piece and securing the work-piece to the fixture. An electrolyte source is also provided. In addition, the system contains a rotary drive subassembly capable of receiving a portion of the work-piece therein, motion of the rotary drive assembly being determined by a received control signal, wherein frequency and amplitude of the control signal increases and decreases motion of the rotary drive subassembly, and wherein the control signal is a trapezoidal waveform.
Type:
Application
Filed:
July 6, 2007
Publication date:
January 8, 2009
Applicant:
Turbocam, Inc.
Inventors:
Thomas S. McGee, Marian B. Noronha, Hans Hendrik Wolters