Claims
- 1. A rotor apparatus rotatable about an axis of rotation comprising:
- a generally elongated arm having a major axis, the arm being formed from a plurality of turns of fiber wound in generally parallel side portions connected through curved end turn portions, the fiber in each side portion being generally parallel to the major axis, the height dimension of a side portion of the arm at a point substantially midway along its length being less than the height dimension of the arm at its end turn portions; and
- a sample carrier positioned within each end turn portion.
- 2. The rotor of claim 1 wherein a cross-sectional area taken through a side portion is substantially equal to a cross-sectional area taken through an end turn portion.
- 3. The rotor of claim 1 wherein the specific modulus of elasticity of a fiber lying at a predetermined radial distance from the axis of rotation is greater than the modulus of elasticity of a fiber lying radially inwardly of the predetermined radial distance.
- 4. The rotor of claim 1 wherein the length of the fiber in a layer of a side portion disposed a predetermined distance radially inwardly of a reference axis extending through the side portion is substantially equal to the length of the fiber in a layer of the side portion disposed the same predetermined distance radially outwardly of the reference axis.
- 5. The rotor of claim 1 further comprising a wrapping of fibers extending transversely across the side portions of the arms.
- 6. The rotor of claim 1 further comprising a plurality of bracing fibers disposed radially outwardly of each side portion generally midway therealong.
- 7. The rotor of claim 1 wherein the fiber is coated with a matrix material which is curable to impart rigidity to the arm.
- 8. An M place centrifuge rotor comprising a tiered stack of N-arms, where N equals one-half M, each arm being a generally elongated member having a major axis, each arm being formed from a plurality of turns of fiber wound in generally parallel side portions connected through curved end turn portions, the fiber in each side portion being generally parallel to the major axis, the height dimension of a side portion of each arm at a point substantially midway along its length being less than the height dimension of the arm at its end turn portions.
- 9. The rotor of claim 8 further comprising a sample carrier positioned within each end turn portion.
- 10. The rotor of claim 8 wherein the major axis of each of the N arms of the tiered stack is angularly offset from the axis of an adjacent arm by an angle equal to 180.degree. divided by N.
- 11. The rotor of claim 9 wherein the major axis of each of the N arms of the tiered stack is angularly offset from the axis of an adjacent arm by an angle equal to 180.degree. divided by N.
- 12. The rotor of claim 11 wherein the height dimension of each arm in the stacked tier taken substantially at the central portion thereof is equal to 1/N times the height dimension of the arm at its end turn portions.
- 13. The rotor of claim 9 wherein the height dimension of each arm in the stacked tier taken substantially at the central portion thereof is equal to 1/N times the height dimension of the arm at its end turn portions.
- 14. The rotor of claim 10 wherein the height dimension of each arm in the stacked tier taken substantially at the central portion thereof is equal to 1/N times the height dimension of the arm at its end turn portions.
- 15. The rotor of claim 8 wherein the height dimension of each arm in the stacked tier taken substantially at the central portion thereof is equal to 1/N times the height dimension of the arm at its end turn portions.
- 16. An M-place centrifuge rotor comprising:
- a first and second tiered stack of N arms each, where N equals one-half M, the first and second tiered stacks being themselves disposed in stacked relationship;
- each arm in the upper of the tiered stacks being arranged in vertical registry with an arm in the lower of the tiered stacks,
- each arm in each tiered stack being a generally elongated member having a major axis, each arm being formed from a plurality of turns of fiber wound in generally parallel side portions connected through curved end turn portions, the fiber in each side portion being generally parallel to the major axis, the height dimension of a side portion of each arm at a point substantially midway along its length being less than the height of the arm at its end turn portions.
- 17. The rotor of claim 16 further comprising sample carriers received within the end turn portions of the registered arms.
- 18. The rotor of claim 16 wherein the axis of each of the N arms of each tiered stack is angularly offset from the axis of an adjacent arm of its tiered stack by an angle equal to 180.degree. divided by N.
- 19. The rotor of claim 17 wherein the axis of each of the N arms of each tiered stack is angularly offset from the axis of an adjacent arm of its tiered stack by an angle equal to 180.degree. divided by N.
- 20. The rotor of claim 19 wherein the height dimension of each arm in each tiered stack taken substantially at the central portion thereof is equal to 1/N times the height dimension of the arm at its end turn portions.
- 21. The rotor of claim 17 wherein the height dimension of each arm in each tiered stack taken substantially at the central portion thereof is equal to 1/N times the height dimension of the arm at its end turn portions.
- 22. The rotor of claim 18 wherein the height dimension of each arm in each tiered stack taken substantially at the central portion thereof is equal to 1/N times the height dimension of the arm at its end turn portions.
- 23. The rotor of claim 16 wherein the height dimension of each arm in each tiered stack taken substantially at the central portion thereof is equal to 1/N times the height dimension of the arm at its end turn portions.
Parent Case Info
This application is a continuation of application Ser. No. 684,937 filed 12/21/84, now abandoned.
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Continuations (1)
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Number |
Date |
Country |
Parent |
684937 |
Dec 1984 |
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