US 12,352,314 B2
Air turbine starter with bearing support structure
Pallavi Tripathi, Bengaluru (IN); Subrata Nayak, Bengaluru (IN); Ramana Reddy Kollam, Bengaluru (IN); Sharad Pundlik Patil, Bengaluru (IN); Milind Chandrakant Dhabade, Bengaluru (IN); Narendra Dev Mahadevaiah, Bengaluru (IN); and Ravindra Shankar Ganiger, Bengaluru (IN)
Assigned to Unison Industries, LLC, Jacksonville, FL (US)
Filed by Unison Industries, LLC, Jacksonville, FL (US)
Filed on Dec. 21, 2022, as Appl. No. 18/086,100.
Claims priority of application No. 202211046088 (IN), filed on Aug. 12, 2022.
Prior Publication US 2024/0052890 A1, Feb. 15, 2024
Int. Cl. F16C 35/06 (2006.01); F01D 25/24 (2006.01); F16C 19/18 (2006.01)
CPC F16C 35/06 (2013.01) [F01D 25/24 (2013.01); F16C 19/18 (2013.01); F05D 2260/85 (2013.01); F16C 2360/23 (2013.01)] 20 Claims
OG exemplary drawing
 
1. An air turbine starter for starting an engine, comprising:
a stator including a housing having an inlet, an outlet, and a flow path extending between the inlet and the outlet;
a rotor including a turbine member defining a rotating axis and having a set of blades at least partially disposed within the flow path;
a bearing support structure disposed between the rotor and the stator comprising a first bearing support having a first radial stiffness (K1) and a second bearing support having a second radial stiffness (K2) different than the first radial stiffness (K1), the first bearing support being located axially forward of the second bearing support and axially closer to the inlet than the second bearing support, with respect to the rotating axis and the housing;
a first bearing carried by the first bearing support;
a second bearing carried by the second bearing support;
a spring or spacer extending between a portion of the bearing support structure and the second bearing; and
a set of flexible connectors elongated in an axial direction and extending from the first bearing support and to the second bearing support to define a spring-finger structure.
 
13. A air turbine starter for starting an engine, comprising:
a stator including a housing having an inlet, an outlet, and a flow path extending between the inlet and the outlet;
a rotor including a turbine member defining a rotating axis and having a set of blades at least partially disposed within the flow path;
a bearing support structure disposed between the rotor and the stator comprising a first bearing support having a first radial stiffness (K1) and a second bearing support having a second radial stiffness (K2) different than the first radial stiffness (K1);
a set of flexible connectors elongated in an axial direction and extending from the first bearing support and to the second bearing support to define a spring-finger structure, the first radial stiffness at least partially defined by the set of flexible connectors, wherein the set of flexible connectors define a load path between the first bearing support and the second bearing support;
a first bearing carried by the first bearing support and a second bearing axially spaced from the first bearing and carried by the second bearing support, wherein the first bearing and the second bearing are in a serial arrangement with respect to the rotating axis; and
a spring or spacer extending between a portion of the bearing support structure and the second bearing for preloading the set of flexible connectors.
 
15. An air turbine starter for starting an engine, comprising:
a stator including a housing having an inlet, an outlet, and a flow path extending between the inlet and the outlet;
a rotor including a turbine member defining a rotating axis and having a set of blades at least partially disposed within the flow path;
a bearing support structure disposed between the rotor and the stator comprising a first bearing support having a first radial stiffness (K1) and a second bearing support having a second radial stiffness (K2) different than the first radial stiffness (K1), wherein:
the first bearing support is spaced from the stator by a distance (d) to define a displacement gap;
the first bearing support can move in a radial direction toward the stator;
the bearing support structure defines a dual differential thrust rated bearing system where K1<K2 and AT1>AT2;
a set of flexible connectors elongated in an axial direction and extending between and connecting the first bearing support to the second bearing support to define a spring-finger structure, wherein the first radial stiffness is at least partially defined by the set of flexible connectors, and the set of flexible connectors define an axial space between the first bearing support and the second bearing support;
a first bearing carried by the first bearing support;
a second bearing axially spaced from the first bearing, the second bearing being carried by the second bearing support, wherein at least one of the first bearing or the second bearing is axially moveable with respect rotating axis, wherein an axial movement of the first bearing partially defines a first axial/thrust load capability (AT1) for the first bearing support, wherein the first axial/thrust load capability (AT1) is different than a second axial/thrust load capability (AT2) of the second bearing support; and
a squeeze film damper located in the displacement gap.
 
16. A bearing support structure comprising:
a first bearing support having a first stiffness (K1);
a second bearing support having a second stiffness (K2) greater than the first stiffness (K1);
a set of flexible connectors extending between and connecting the first bearing support to the second bearing support;
a first bearing carried by the first bearing support;
a second bearing axially spaced from the first bearing, the second bearing being carried by the second bearing support; and
a spring or spacer extending between a portion of the bearing support structure and the second bearing.