IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0626949
(2000-07-27)
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발명자
/ 주소 |
- Colarelli, III, Nicholas J.
- Douglas, Michael W.
- Parker, Paul Daniel
- Scribner, David M.
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출원인 / 주소 |
- Hunter Engineering Company
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
13 인용 특허 :
10 |
초록
▼
Matching multiple wheel rims and tires based upon runout and force variation measurements using balancing equipment. Centering errors and mounting errors are also reduced or eliminated. The method includes adjusting the rotational positions of the tires with respect to the wheel rims to compensate f
Matching multiple wheel rims and tires based upon runout and force variation measurements using balancing equipment. Centering errors and mounting errors are also reduced or eliminated. The method includes adjusting the rotational positions of the tires with respect to the wheel rims to compensate for wheel rim run-out and wheel/tire assembly force variations. This is accomplished in one embodiment by sequentially mounting a plurality of wheel/tire assemblies on a spindle of a balancer, measuring the rim run-out for each assembly and the force variations for each assembly, marking each tire of each assembly to identify both the individual tire and the rotational position representing the first harmonic of the tire force variation at which each tire is mounted with respect to its wheel rim, removing each tire from its wheel rim, sequentially mounting the wheel rims with tires removed on the spindle of the balancer, measuring the rim run-out for each rim, and visually indicating to a user a preferred matching between the tires and the wheel rims to minimize assembly vibration.
대표청구항
▼
Matching multiple wheel rims and tires based upon runout and force variation measurements using balancing equipment. Centering errors and mounting errors are also reduced or eliminated. The method includes adjusting the rotational positions of the tires with respect to the wheel rims to compensate f
Matching multiple wheel rims and tires based upon runout and force variation measurements using balancing equipment. Centering errors and mounting errors are also reduced or eliminated. The method includes adjusting the rotational positions of the tires with respect to the wheel rims to compensate for wheel rim run-out and wheel/tire assembly force variations. This is accomplished in one embodiment by sequentially mounting a plurality of wheel/tire assemblies on a spindle of a balancer, measuring the rim run-out for each assembly and the force variations for each assembly, marking each tire of each assembly to identify both the individual tire and the rotational position representing the first harmonic of the tire force variation at which each tire is mounted with respect to its wheel rim, removing each tire from its wheel rim, sequentially mounting the wheel rims with tires removed on the spindle of the balancer, measuring the rim run-out for each rim, and visually indicating to a user a preferred matching between the tires and the wheel rims to minimize assembly vibration. of said second portion, said roll-axis spirit level being adapted for indicating a roll attitude of the airplane; and said second portion of said housing member including an roll-axis light member, said roll-axis light member being adapted for illuminating said roll-axis spirit level. 5. The attitude indicator device as set forth in claim 1, further comprising: a solar power source plate member mounted on said housing for providing power to said light members, said solar power source plate member being coupled to said top surface of said housing. 6. The attitude indicator device as set forth in claim 5, further comprising: a battery source located in a battery compartment in said housing and being electrically coupled to said light members and said solar power source plate member; said battery source being continuously recharged by said solar power source plate member when said solar power source plate member is producing electricity thereby maintaining a full charge in said battery source so that said battery source provides backup power to said light members when said solar power source plate member is not producing electricity due to a lack of light. 7. The attitude indicator device as set forth in claim 6, further comprising: said battery compartment of said second portion including a battery cover, said battery cover being positioned on an end surface of said distal end of said second portion such that said battery cover is adapted for retaining said battery source in said battery compartment. 8. The attitude indicator device as set forth in claim 7, further comprising: a power switch for permitting manual operation of said light members, said power switch being mounted on said housing member and being electrically coupled to said light members, said solar power source plate member, and said battery source. 9. An attitude indicator device for allowing a pilot to determine an aircraft's attitude in the case of instrument or power failure, the attitude indicator device comprising: a housing member comprising an elongate first portion and an elongate second portion, each of said portions having a top surface and a bottom surface, each of said portions having an inner face positioned perpendicular to the inner face of the other said portion, longitudinal axes of each of said portions being oriented substantially perpendicular to each other; each of said portions of said housing member having walls defining an interior space; a plurality of spirit levels, each of said spirit levels being positioned in said interior space of one of said portions of said housing member, each of said spirit levels being visible through one of said inner faces; a longitudinal axis of each of said spirit levels being oriented substantially parallel to the longitudinal axis of said portion of said housing on which said spirit level is mounted such that at least two of said spirit levels are oriented perpendicular to each other to indicate relative orientation of an airplane with respect to level flight when said housing member is mounted in the airplane in an orientation that is substantially horizontal when the air plane is in level flight for providing the pilot with visual indications of pitch and roll conditions of the airplane and thereby permitting the pilot to maintain level flight without utilization of standard indicator instruments of the airplane; wherein said housing member includes a plurality of light members, said light members being positioned adjacent to said spirit levels such that said light members illuminate said spirit levels to permit the pilot to see said spirit levels in dark conditions; wherein said first portion of said housing member includes a pitch-axis spirit level, said pitch-axis spirit level being positioned such that a longitudinal axis of said pitch-axis spirit level is substantially parallel to a longitudinal axis of said first portion, said pitch-axis spirit level being adapted fo r indicating the pitch condition of the airplane; wherein said first portion of said housing member includes an pitch-axis light member, said pitch-axis light member being adapted for illuminating said pitch-axis spirit level; wherein said second portion of said housing member includes an roll-axis spirit level, said roll-axis spirit level being positioned such that a longitudinal axis of said roll-axis spirit level is substantially parallel to a longitudinal axis of said second portion, said roll-axis spirit level being adapted for indicating a roll attitude of the airplane; wherein said second portion of said housing member includes an roll-axis light member, said roll-axis light member being adapted for illuminating said roll-axis spirit level; a solar power source plate member being mounted on said housing for providing power to said light members, said solar power source plate member being coupled to said top surface of said housing; a battery source being located in a battery compartment in said housing and being electrically coupled to said light members and said solar power source plate member; wherein said battery source is continuously recharged by said solar power source plate member when said solar power source plate member is producing electricity thereby maintaining a full charge in said battery source so that said battery source provides backup power to said light members when said solar power source plate member is not producing electricity due to a lack of light; wherein said battery compartment of said second portion includes a battery cover, said battery cover being positioned on an end surface of said distal end of said second portion such that said battery cover is adapted for retaining said battery source in said battery compartment; and a power switch for permitting manual operation of said light members, said power switch being mounted on said housing member and being electrically coupled to said light members, said solar power source plate member, and said battery source. 10. An attitude indicator system, comprising: an airplane having a dash with an upper surface; and an attitude indicator device for allowing a pilot to determine an aircraft's attitude in the case of instrument or power failure, said attitude indicator device being rested on said upper surface of said dash of said airplane, said attitude indicator device comprising: a housing member comprising an elongate first portion and an elongate second portion, each of said portions having a top surface and a bottom surface, each of said portions having an inner face positioned perpendicular to the inner face of the other said portion, longitudinal axes of each of said portions being oriented substantially perpendicular to each other; each of said portions of said housing member having walls defining an interior space; a plurality of spirit levels, each of said spirit levels being positioned in said interior space of one of said portions of said housing member, each of said spirit levels being visible through one of said inner faces; a longitudinal axis of each of said spirit levels being oriented substantially parallel to the longitudinal axis of said portion of said housing on which said spirit level is mounted such that at least two of said spirit levels are oriented perpendicular to each other to indicate relative orientation of an airplane with respect to level flight when said housing member is mounted in the airplane in an orientation that is substantially horizontal when the air plane is in level flight for providing the pilot with visual indications of pitch and roll conditions of the airplane and thereby permitting the pilot to maintain level flight without utilization of standard indicator instruments of the airplane. 11. The system of claim 10 wherein a plurality of light members are mounted on said housing, said light members being positioned adjacent to said spirit levels such that said light members illuminat e said spirit levels to permit the pilot to see said spirit levels in dark conditions. 12. The system of claim 10 wherein said first portion of said housing member includes a pitch-axis spirit level, said pitch-axis spirit level being positioned such that a longitudinal axis of said pitch-axis spirit level is substantially parallel to a longitudinal axis of said first portion, said pitch-axis spirit level being adapted for indicating the pitch condition of the airplane; and wherein said first portion of said housing member includes an pitch-axis light member, said pitch-axis light member being adapted for illuminating said pitch-axis spirit level. 13. The system of claim 12 wherein said second portion of said housing member includes a roll-axis spirit level, said roll-axis spirit level being positioned such that a longitudinal axis of said roll-axis spirit level is substantially parallel to a longitudinal axis of said second portion, said roll-axis spirit level being adapted for indicating a roll attitude of the airplane; and wherein said second portion of said housing member includes a roll-axis light member, said roll-axis light member being adapted for illuminating said roll-axis spirit level. 14. The system of claim 10 further comprising a solar power source plate member mounted on said housing for providing power to said light members, said solar power source plate member being coupled to said top surface of said housing. 15. The system of claim 14 further comprising: a battery source located in a battery compartment in said housing and being electrically coupled to said light members and said solar power source plate member; said battery source being continuously recharged by said solar power source plate member when said solar power source plate member is producing electricity thereby maintaining a full charge in said battery source so that said battery source provides backup power to said light members when said solar power source plate member is not producing electricity due to a lack of light. 16. The system of claim 15 wherein said battery compartment of said second portion includes a battery cover, said battery cover being positioned on an end surface of said distal end of said second portion such that said battery cover is adapted for retaining said battery source in said battery compartment. 17. The system of claim 16 further comprising a power switch for permitting manual operation of said light members, said power switch being mounted on said housing member and being electrically coupled to said light members, said solar power source plate member, and said battery source.
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