Lobular elastic tube alignment system for providing precise four-way alignment of components
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16B-005/12
B62D-024/00
B62D-027/00
F16B-005/00
F16B-005/06
F16B-019/00
출원번호
US-0945231
(2013-07-18)
등록번호
US-9303667
(2016-04-05)
발명자
/ 주소
Morris, Steven E.
Lawall, Jennifer P.
출원인 / 주소
GM GLOBAL TECHNOLOGY OPERATIONS, LLC
대리인 / 주소
Cantor Colburn LLP
인용정보
피인용 횟수 :
6인용 특허 :
226
초록▼
An elastically averaged alignment system includes a first component and a second component. The first component includes a first alignment member and an elastically deformable alignment element fixedly disposed with respect to the first alignment member. The second component includes a second alignm
An elastically averaged alignment system includes a first component and a second component. The first component includes a first alignment member and an elastically deformable alignment element fixedly disposed with respect to the first alignment member. The second component includes a second alignment member and an alignment feature fixedly disposed with respect to the second alignment member. The elastically deformable alignment element is configured and disposed to interferingly, deformably and matingly engage the alignment feature. The elastically deformable alignment element includes a lobular hollow tube having a cross-section having at least three outwardly oriented lobes relative to a central axis of the hollow tube, and the alignment feature includes a circular aperture. Portions of the elastically deformable alignment element when inserted into the alignment feature elastically deform to an elastically averaged final configuration that aligns the first alignment member with the second alignment member in four planar orthogonal directions.
대표청구항▼
1. An elastically averaged alignment system, comprising: a first component comprising a first alignment member and an elastically deformable alignment element fixedly disposed with respect to the first alignment member;a second component comprising a second alignment member and an alignment feature
1. An elastically averaged alignment system, comprising: a first component comprising a first alignment member and an elastically deformable alignment element fixedly disposed with respect to the first alignment member;a second component comprising a second alignment member and an alignment feature fixedly disposed with respect to the second alignment member;wherein the elastically deformable alignment element is configured and disposed to interferingly, deformably and matingly engage the alignment feature;wherein the elastically deformable alignment element comprises a lobular hollow tube having a cross-section comprising at least three outwardly oriented lobes relative to a central axis of the hollow tube, and the alignment feature comprises a circular aperture; andwherein portions of the elastically deformable alignment element when inserted into the alignment feature elastically deform to an elastically averaged final configuration that aligns the first alignment member with the second alignment member in four planar orthogonal directions;wherein the lobular hollow tube comprises a tube wall having three apex wall portions equally distributed about a central axis of the lobular hollow tube and three connection wall portions interconnected between the apex wall portions, wherein the apex wall portions are sized to create an interference fit with the circular aperture, wherein the connecting wall portion are sized to fit within the circular aperture with clearance therebetween, and wherein the connecting wall portions are configured to elastically deform toward the central axis of the lobular hollow tube, away from the central axis of the lobular hollow tube, or in combination that includes elastic deformation toward and away from the central axis of the lobular hollow tube. 2. The elastically averaged alignment system of claim 1, wherein the lobular hollow tube comprises a tri-lobular hollow tube. 3. The elastically averaged alignment system of claim 1, wherein the diameter of the circular aperture is sized to create an interference fit with each lobe of the lobular hollow tube. 4. The elastically averaged alignment system of claim 1, wherein the three connecting wall portions are curved inward toward the central axis of the lobular hollow tube. 5. The elastically averaged alignment system of claim 1, wherein the three connecting wall portions are curved outward away from the central axis of the lobular hollow tube. 6. The elastically averaged alignment system of claim 1, wherein an outer perimeter of the lobular hollow tube has a length that is less than a circumference of the circular aperture. 7. The elastically averaged alignment system of claim 1, wherein the elastically deformable alignment element is integrally formed with the first alignment member to form a single part. 8. The elastically averaged alignment system of claim 1, wherein the alignment feature is integrally formed with the second alignment member to form a single part. 9. The elastically averaged alignment system of claim 1, wherein the first component and the second component each have respective engagement sides relative to each other, and further wherein: the second alignment member comprises a chamfer on its respective engagement side that circumscribes the circular aperture. 10. The elastically averaged alignment system of claim 1, wherein the first component and the second component each have respective engagement sides relative to each other, and further wherein: the lobular hollow tube of the elastically deformable alignment element comprises a proximal end proximate the first alignment member and a distal end distal to the first alignment member; andthe distal end comprises a taper on its respective engagement side. 11. The elastically averaged alignment system of claim 1, wherein the elastically deformable alignment element is a first of a plurality of the elastically deformable alignment element, wherein the alignment feature is a first of a plurality of the alignment feature, and further comprising: a second of the plurality of the elastically deformable alignment element fixedly disposed with respect to the first alignment member and spaced apart from the first of the plurality of elastically deformable alignment element;a second of the plurality of the alignment feature fixedly disposed with respect to the second alignment member and spaced apart from the first of the plurality of the alignment feature;wherein the second of the plurality of the elastically deformable alignment element is configured and disposed to interferingly, deformably and matingly engage the second of the plurality of the alignment feature; andwherein portions of each of the first and second of the plurality of the elastically deformable alignment elements when inserted into respective ones of the first and second of the plurality of the alignment features elastically deform to an elastically averaged final configuration that further aligns the first alignment member with the second alignment member in four planar orthogonal directions. 12. The elastically averaged alignment system of claim 1, wherein the elastically deformable alignment element is a first elastically deformable alignment element and the alignment feature is a first alignment feature, and further wherein: the first alignment member further comprises a second elastically deformable alignment element comprising a hollow tube having a circular cross-section relative to a central axis thereof, the second elastically deformable alignment element being space apart from the first elastically deformable alignment element;the second alignment member further comprises a second alignment feature comprising a slotted aperture spaced apart from the first alignment feature, the slotted aperture having a major axis oriented orthogonal to a central axis of the first alignment feature; andwherein the second elastically deformable alignment element is configured and disposed to interferingly, deformably and matingly engage the second alignment feature in a compressive mode and not in a bending mode. 13. The elastically averaged alignment system of claim 1, wherein the elastically deformable alignment element is a first elastically deformable alignment element and the alignment feature is a first alignment feature, and further wherein: the first alignment member further comprises a second elastically deformable alignment element comprising a hollow tube having a circular cross-section relative to a central axis thereof, the second elastically deformable alignment element being spaced apart from the first elastically deformable alignment element;the second alignment member further comprises a second alignment feature comprising a slotted aperture spaced apart from the first alignment feature, the slotted aperture having a major axis oriented in a plane orthogonal to a central axis of the first alignment feature; andwherein the second elastically deformable alignment element is configured and disposed to interferingly, deformably and matingly engage the second alignment feature in a compressive and in a bending mode. 14. The elastically averaged alignment system of claim 1, wherein: at least one of the first component and the second component comprises a standoff disposed proximate the elastically deformable alignment element, and disposed and configured to provide a point of engagement between the alignment feature and the elastically deformable alignment element at an elevation “h” above the base of the elastically deformable alignment element. 15. A vehicle, comprising: a body; andan elastically averaged alignment system integrally arranged with the body, the elastically averaged alignment system comprising:a first component comprising a first alignment member and an elastically deformable alignment element fixedly disposed with respect to the first alignment member;a second component comprising a second alignment member and an alignment feature fixedly disposed with respect to the second alignment member;wherein the elastically deformable alignment element is configured and disposed to interferingly, deformably and matingly engage the alignment feature;wherein the elastically deformable alignment element comprises a lobular hollow tube having a cross-section comprising at least three outwardly oriented lobes relative to a central axis of the hollow tube, and the alignment feature comprises a circular aperture; andwherein portions of the elastically deformable alignment element when inserted into the alignment feature elastically deform to an elastically averaged final configuration that aligns the first alignment member with the second alignment member in four planar orthogonal directions;wherein the lobular hollow tube comprises a tube wall having three apex wall portions equally distributed about a central axis of the lobular hollow tube and three connection wall portions interconnected between the apex wall portions, wherein the apex wall portions are sized to create an interference fit with the circular aperture, wherein the connecting wall portions are sized to fit within the circular aperture with clearance therebetween, and wherein the connecting wall portions are configured to elastically deform toward the central axis of the lobular hollow tube, away from the central axis of the lobular hollow tube, or in a combination that includes elastic deformation toward and away from the central axis of the lobular hollow tube.
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