Mobile platforms for performing operations along an exterior of a fuselage assembly
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01C-022/00
B21J-015/28
B21J-015/02
B21J-015/10
B21J-015/14
B60G-003/14
B25J-009/16
B25J-011/00
F16B-019/06
B23P-019/10
B60G-007/00
B21J-015/32
B21J-015/40
G05B-019/418
B25B-005/16
B29C-039/12
B29C-039/22
B64C-001/06
G05D-001/00
G05D-003/12
B29C-045/14
B29C-039/02
B29C-039/10
B25J-005/00
B64F-005/10
B64F-005/50
B23P-021/00
B29L-031/00
B60P-003/025
출원번호
US-0352524
(2016-11-15)
등록번호
US-10016805
(2018-07-10)
발명자
/ 주소
Oberoi, Harinder S.
Reese, IV, Richard Griffith
Barrick, Kevin Marion
Do, Quang T.
Miller, Jeffrey Lawrence
Stojanoski, Vanco
출원인 / 주소
The Boeing Company
대리인 / 주소
Yee & Associates, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
59
초록▼
A method and apparatus for performing an assembly operation. A tool may be macro-positioned relative to an exterior of a fuselage assembly. The tool may be micro-positioned relative to a particular location on the exterior of the fuselage assembly. An end effector is removably associated with an ext
A method and apparatus for performing an assembly operation. A tool may be macro-positioned relative to an exterior of a fuselage assembly. The tool may be micro-positioned relative to a particular location on the exterior of the fuselage assembly. An end effector is removably associated with an external robotic device associated with an external mobile platform. The tool is removably associated with the end effector. An assembly operation may be performed at the particular location on the panel using the tool.
대표청구항▼
1. A method for performing an assembly operation, the method comprising: using a controller to perform the steps of: macro-positioning a tool relative to an exterior of an assembly, wherein macro-positioning comprises: driving an assembly fixture to a position using an autonomous vehicle, anddriving
1. A method for performing an assembly operation, the method comprising: using a controller to perform the steps of: macro-positioning a tool relative to an exterior of an assembly, wherein macro-positioning comprises: driving an assembly fixture to a position using an autonomous vehicle, anddriving, using the autonomous vehicle, an external mobile platform having a tool, into a position relative to the assembly fixture such that the tool is positioned relative to the exterior of the assembly;micro-positioning the tool relative to a particular location on the exterior of the assembly;performing the assembly operation at the particular location using the tool. 2. The method of claim 1 further comprising: exchanging the tool with another one of a number of tools being held by a tool magazine station associated with a platform base of the external mobile platform. 3. The method of claim 1 further comprising: removably associating an end effector with an external robotic device associated with the external mobile platform;removably associating the tool with the end effector; andexchanging the end effector with another one of a number of end effectors being held in an end effector storage associated with a platform base of the external mobile platform. 4. An apparatus comprising: a macro-positioning system associated with an external mobile platform, the external mobile platform comprising a platform base, wherein the macro-positioning system comprises: an autonomous vehicle configured to drive an assembly fixture to a position, andthe external mobile platform having a tool that is configured to be driven, using the autonomous vehicle, into a position relative to the assembly fixture such that the tool is positioned relative to an exterior of an assembly;a micro-positioning system associated with the external mobile platform; andan external robotic device associated with the external mobile platform, wherein the tool is associated with the external robotic device. 5. The apparatus of claim 4 further comprising: an end effector that is removably associated with the external robotic device. 6. The apparatus of claim 5 further comprising: the tool that is removably associated with the end effector. 7. The apparatus of claim 6, wherein the tool is selected from one of an external riveting tool for performing a riveting operation, a drilling tool for performing a drilling operation, a fastener insertion tool for performing a fastener insertion operation, and a fastener installation tool for performing a fastener installation operation. 8. The apparatus of claim 7, wherein the external riveting tool is a hammer. 9. The apparatus of claim 4, wherein the micro-positioning system comprises a movement system comprising at least one of an actuator device, a motor, a rail system, a track system, a slide system, a roller, a wheel, an elbow movement system, a wrist movement system, a swivel system, or an X-Y table. 10. The apparatus of claim 4, wherein the external mobile platform comprises: a coupling unit that is coupleable to a corresponding coupling unit associated with a cradle fixture, wherein the coupling unit comprises:a number of utility connections for a number of utilities. 11. The apparatus of claim 10, wherein the number of utilities include at least one of power, air, communications, water, or hydraulic fluid. 12. The apparatus of claim 4 further comprising: a tool exchange station associated with the external mobile platform. 13. The apparatus of claim 12, wherein the tool exchange station retains a number of tools. 14. The apparatus of claim 4 further comprising: an end effector storage associated with the external mobile platform. 15. An external mobile platform comprising: a platform base;a macro-positioning system associated with the platform base, wherein the macro-positioning system comprises: an autonomous vehicle configured to drive an assembly fixture to a position, andthe external mobile platform having a tool that is configured to be driven, using the autonomous vehicle, into a position relative to the assembly fixture such that the tool is positioned relative to an exterior of an assembly; anda micro-positioning system associated with the platform base. 16. The external mobile platform of claim 15, wherein the macro-positioning system comprises: the autonomous vehicle that is fixedly associated with the platform base. 17. The external mobile platform of claim 15, wherein the micro-positioning system comprises at least one of an external robotic device or a movement system. 18. The external mobile platform of claim 17, wherein the movement system comprises at least one of an actuator device, a motor, a rail system, a track system, a slide system, a roller, a wheel, an elbow movement system, a wrist movement system, a swivel system, or an X-Y table. 19. The external mobile platform of claim 18 further comprising: an end effector storage, wherein an end effector is exchangeable with one of a number of end effectors stored in the end effector storage. 20. The external mobile platform of claim 15 further comprising: a tool exchange station, wherein the tool is exchangeable with one of a number of tools retained by the tool exchange station. 21. A method for performing fastening processes using an external mobile platform, the method comprising: driving an assembly fixture to a position using an autonomous vehicle;driving, using the autonomous vehicle, the external mobile platform into a position relative to a panel of an assembly on the assembly fixture;identifying a set of locations on the panel for performing a fastening process; andperforming the fastening process at each of the set of locations. 22. The method of claim 21, wherein identifying the set of locations comprises: locating a first temporary fastener installed in the panel;locating a second temporary fastener installed in the panel; andidentifying the set of locations between the first temporary fastener and the second temporary fastener. 23. The method of claim 22, wherein locating the first temporary fastener comprises: identifying a first location of the first temporary fastener with respect to a reference coordinate system using an imaging system. 24. The method of claim 23, wherein locating the second temporary fastener comprises: moving the imaging system in a translational direction until the second temporary fastener enters a field of view of the imaging system; andidentifying a second location of the second temporary fastener with respect to the reference coordinate system using the imaging system. 25. The method of claim 21, wherein driving the external mobile platform into the position relative to the panel of the assembly comprises: driving the autonomous vehicle fixedly associated with the external mobile platform to position the external mobile platform at the panel of the assembly. 26. The method of claim 21, wherein performing the fastening processes comprises: positioning a tool at a particular location in the set of locations; andperforming an operation of the fastening processes at the particular location. 27. The method of claim 26, wherein performing the fastening processes further comprises: exchanging the tool for a different tool; andperforming another operation of the fastening processes at the particular location using the different tool. 28. The method of claim 21, wherein performing the fastening processes comprises: performing a drilling operation at a particular location using a drilling tool;performing a fastener insertion operation at the particular location using a fastener insertion tool; andperforming a fastener installation operation at the particular location using a fastener installation tool. 29. The method of claim 28, wherein performing the fastener installation operation comprises: performing a two-stage riveting process using a first riveting tool of the external mobile platform at the particular location on an exterior of the assembly and a second riveting tool of an internal mobile platform at the particular location on an interior of the assembly. 30. A method for performing an assembly operation, the method comprising: using a controller to perform the steps of: macro-positioning a tool relative to an exterior of an assembly, wherein macro-positioning comprises: driving an assembly fixture to a position using an autonomous vehicle, anddriving, using the autonomous vehicle, an external mobile platform having a tool, into a position relative to the assembly fixture such that the tool is positioned relative to the exterior of the assembly;micro-positioning the tool relative to a particular location on the exterior of the assembly;removably coupling an end effector with an external robotic device attached to an external mobile platform;removably coupling the tool with the end effector; andperforming the assembly operation at the particular location using the tool.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (59)
Woytassek Mark A. ; Larison John A. ; Robertson Richard L., Adjustable optical train.
Joachim Lehmker DE; Karl-Heinz Muehlnickel DE; Udo-Henning Stoewer DE; Ruediger Vollmerhaus DE, Apparatus for assembling a three-dimensional structural component.
Catania Mark J. (Tonawanda NY) Weaver Jeffrey P. (East Amherst NY) Rummell Thomas H. (Cheektowaga NY) Kellner Robert J. (Orchard Park NY), Apparatus for positioning tooling.
Ross, Ricky M.; Fragola, Jr., Francis A.; Healy, Herbert C.; Young, Douglas Gibbons, Control of multiple power plants at a site to provide a distributed resource in a utility grid.
Speller ; Sr. Thomas H. (Buffalo NY) Davern John W. (North Tonawanda NY) Weaver Jeffery P. (Tonawanda NY) Andrews Mark J. (Niagara Falls NY), Five axis riveter.
Kitamura Kengo (Koshigaya JPX) Murata Hitoshi (Zama JPX), Method and system for automatically attaching sub-assembly to main assembly using industrial robots.
Oberoi, Harinder S.; Reese, IV, Richard Griffith; Barrick, Kevin Marion; Do, Quang T.; Miller, Jeffrey Lawrence; Stojanoski, Vanco, Mobile platforms for performing operations along an exterior of a fuselage assembly.
Balaud Daniel (Fontenay Aux Roses FRX) Keledjian Gaston (Boulogne-Billancourt FRX) Passemard Jean R. (Bailly-Roma Invilliers FRX), Production-line automatic machine.
Bonomi Giovanni B. (Mt. Prospect IL) Giacomini Luigi (Mt. Prospect IL) Bonomi Christiano (Des Plaines IL) Aresa Carmine (Des Plaines IL) Frigo Valerio (Des Plaines IL), Riveting process and apparatus.
Stoewer, Udo; Koehler, Bernd; Kosuch, Norbert, Two-part riveting apparatus and method for riveting barrel-shaped components such as aircraft fuselage components.
Banks David P. ; Buttrick ; Jr. James N. ; Glaisyer Charles H. ; Jones Darrell D. ; McCrum Russell C. ; Wright Philip M., Vacuum fastened guide and method for supporting tooling on a component.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.