A rotor includes a plurality of holding cavities for holding specimen containers, respectively. A transverse cross sectional shape of the holding cavity is a substantially triangular shape having one vertex on an inner circumference side of the rotor. Two vertices of the substantially triangular sha
A rotor includes a plurality of holding cavities for holding specimen containers, respectively. A transverse cross sectional shape of the holding cavity is a substantially triangular shape having one vertex on an inner circumference side of the rotor. Two vertices of the substantially triangular shape are arranged on an outer circumference side of the rotor so as to have equidistance from a rotary shaft of the rotor. Spacing between sides of the substantially triangular shape in a circumferential direction of the rotor gradually increase over 60% or more a radial length of the holding cavity from an innermost circumferential position to the outer circumference side of the rotor when viewed in its transverse plane.
대표청구항▼
1. A centrifugal separator comprising: a plurality of specimen containers;a rotor having a plurality of holding cavities for holding each of the plurality of specimen containers, respectively;a drive unit that rotates the rotor; anda rotor chamber that accommodates the rotor;wherein a transverse cro
1. A centrifugal separator comprising: a plurality of specimen containers;a rotor having a plurality of holding cavities for holding each of the plurality of specimen containers, respectively;a drive unit that rotates the rotor; anda rotor chamber that accommodates the rotor;wherein a transverse cross sectional shape of each of the plurality of holding cavities is a substantially triangular shape having one vertex on an inner circumference side of the rotor,wherein two vertices of the substantially triangular shape are arranged on an outer circumference side of the rotor so as to have equidistance from a rotary shaft of the rotor, andwherein a spacing between sides of the substantially triangular shape in a circumferential direction of the rotor gradually increases over 60% or more a radial length of the holding cavity from an innermost circumferential position to the outer circumference side of the rotor when viewed in its transverse plane,wherein a transverse cross sectional shape of each of the specimen containers is a substantially equilateral triangle, and each of the plurality of specimen containers are configured to be inserted into each of the plurality of holding cavities which are arranged at a plurality of positions in a circumferential direction, andwherein a diameter of the rotor is between 350 mm and 450 mm, a height of the rotor body is between 200 mm and 250 mm, and a specimen capacity of each of the plurality of specimen containers is greater than 1200 ml. 2. The centrifugal separator according to claim 1, wherein tangential lines of two sides that form the vertex located on the inner circumference side of the substantial triangle make an angle of 45° or more and under 90°. 3. The centrifugal separator according to claim 2, wherein each angle made by two of tangential lines of the respective sides of the holding cavity is 60°. 4. The centrifugal separator according to claim 1, wherein the rotor is formed from a metallic alloy by integral molding, and each of the plurality of holding cavities is formed so as to tilt with respect to a rotary shaft of the rotor such that a center axis of each of the plurality of holding cavities extends from the rotary shaft of the rotor in a downward direction. 5. A centrifugal separator comprising: a plurality of specimen containers;a rotor having a plurality of holding cavities for holding each of the plurality of specimen containers, respectively;a drive unit that rotates the rotor; anda rotor chamber that accommodates the rotor;wherein a horizontal transverse cross sectional shape of each of the plurality of holding cavities is a substantial triangle having three vertices,wherein in relation to vertical arrangement of each of the plurality of holding cavities, each of the plurality of holding cavities the holding cavity is formed so as to tilt with respect to a rotary shaft of the rotor such that a turning radius of each of the plurality of holding cavities becomes greater from an opening in an upper portion to a bottom of the hole, andwherein each of the plurality of holding cavities is configured such that, when each of the plurality of specimen containers is inserted into the holding cavity, a distance (L1) between a vertical center line of each of the plurality of specimen containers and an inner wall on an inner side of each of the plurality of specimen containers becomes greater than a distance (L2) between the vertical center line and an inner wall on an outer side of each of the plurality of specimen containers, within a longitudinal cross section including the vertical center line of each of the plurality of specimen containers and the rotary shaft of the rotor. 6. The centrifugal separator according to claim 5, wherein each of the plurality of holding cavities is arranged such that one of the three vertices lying in the transverse plane is located on an innermost circumference of the rotor and that remaining two vertices are located on an outer circumference side of the rotor so as to have equidistance from the rotary shaft of the rotor. 7. The centrifugal separator according to claim 6, wherein each of the plurality of specimen containers whose transverse cross sectional shape has three vertices can be inserted into each of the plurality of holding cavities, and a cap having a circular opening, is fitted to a top of each of the plurality of specimen containers for closing an opening of each of the plurality of specimen containers. 8. The centrifugal separator according to claim 7, wherein, in the opening of each of the plurality of specimen containers, a distance between the vertical center line and the inner wall on the inner side of the opening of each of the plurality of specimen containers is equal to a distance between the vertical center line and the inner wall on the outer side of the opening of each of the plurality of specimen containers. 9. The centrifugal separator according to claim 7, wherein the three vertices of each of the plurality of specimen containers are made at a curvature radius that is smaller than an outer diameter of the cap. 10. The centrifugal separator according to claim 7, wherein each of the plurality of holding cavities is formed such that an arbitrary one of the three vertices of each of the plurality of specimen containers is located on the innermost circumference side of each of the plurality of holding cavities. 11. A rotor for use in a centrifugal separator, comprising: a rotor body having a plurality of cavities for holding specimen containers, each of the cavities being discrete chambers bored in the rotor body and which are separated from one another by wall portions;wherein a transverse cross sectional shape of each of the cavities is a substantially triangular shape having three sides and three vertices;wherein each of the cavities is arranged such that one of the three vertices lying in the transverse plane is located on an innermost circumference of the rotor body and the remaining two vertices are located on an outer circumference side of the rotor body so as to have equidistance from a rotary shaft of the rotor body; andwherein each of three vertices is formed to have a small-arc shape of curvature radius R1 and each of three sides is formed to have a circular-arc shape of radius R2 which is greater than R1. 12. The rotor according to claim 11, further comprising: a rotor cover formed in an upper portion of the rotor body. 13. The rotor according to claim 11, wherein spacing between the two sides of the substantially triangular shape in a circumferential direction of the rotor body gradually increases over 60% or more of a radial length of the cavity from an innermost circumferential position to the outer circumference side of the rotor when viewed in its transverse plane. 14. The rotor according to claim 11, wherein the wall portions include a thinned portion that is made by downwardly boring a center area of the rotor body. 15. A centrifugal separator comprising: the rotor according to claim 11; comprising: a driver unit that rotates the rotor body; anda chamber for accommodating the rotor body. 16. A rotor for use in a centrifugal separator, comprising: a rotor body having a plurality of cavities for holding specimen containers, each of the cavities being discrete chambers bored in the rotor body and which are separated from one another by wall portions;wherein a transverse cross sectional shape of each of the cavities is a substantially triangular shape having three sides and three vertices;wherein each of the cavities is arranged such that one of the three vertices lying in the transverse plane is located on an innermost circumference of the rotor body and the remaining two vertices are located on an outer circumference side of the rotor body so as to have equidistance from a rotary shaft of the rotor body; andwherein each of three vertices is formed to have a small-arc shape of curvature radius R1 an each of three sides is formed to have a straight line shape. 17. The rotor according to claim 16, further comprising: a rotor cover formed in an upper portion of the rotor body. 18. The rotor according to claim 16, wherein spacing between the two sides of the substantially triangular shape in a circumferential direction of the rotor body gradually increases over 60% or more of a radial length of the cavity from an innermost circumferential position to the outer circumference side of the rotor when viewed in its transverse plane. 19. The rotor according to claim 16, wherein the wall portions include a thinned portion that is made by downwardly boring a center area of the rotor body. 20. A centrifugal separator comprising: the rotor according to claim 16; comprising: a driver unit that rotates the rotor body; anda chamber for accommodating the rotor body.
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이 특허에 인용된 특허 (28)
Romanauskas William A. (Southbury CT) Sheeran ; Jr. Edward T. (Southbury CT), Adapter for holding a pair of centrifuge tubes.
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Baum Samuel (Redwood City CA) Carstens Bradley D. (Mountain View CA) Glen Stephan J. (Grants Pass OR), Hybrid composite centrifuge container with interweaving fiber windings.
Glen Stefan J. (Grants Pass OR) Carstens Bradley D. (Mountain View CA), Segmented composite centrifuge rotor with a support ring interference fit about core segments.
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