IE903997A1 - Hinged centrifuge tube adapter - Google Patents

Abstract

The adapter (10<3>) supports a closed centrifuge tube within a cavity of a vertical angle centrifuge rotor and comprises two adapter segments (12<3>,14<3>) forming a recess corresponding to the size and shape of the entire length of the centrifuge tube able to be disposed therein.

Description

TITLE HINGED CENTRIFUGE TUBE ADAPTER CROSS REFERENCE TQ RELATED APPLICATION This application is a continuation-in-part of application 10 Serial Number 07/432,646, filed November 7, 1989 in the names of Romanauskas and Sheeran and assigned to the , assignee of the present invention. t Field of the Invention The present invention relates to an adapter for holding a centrifuge tube in a centrifuge rotor cavity, and in particular, to an adapter having two segments, the segments being in most cases Joined by a hinge, the hinge axis extending perpendicular to the axis of the adapter.

Desffjjplifln., of., lhe In the operation of a centrifuge it is important that the size and shape of the tube in which a liquid sample is carried closely conforms to the size and shape of the cavity in the centrifuge rotor in which the tube is received. During centrifugation the centrifugal force exerted on the tube itself and the liquid therein acts to deform the centrifuge tube. A centrifuge tube which does not closely conform to the rotor cavity may thus be deformed to the point 0 of rupture. Even if the tube does not rupture the deformation may make the tube difficult to remove from the rotor cavity. Moreover, even if the deformed tube is removable from the rotor, the return of the tube to Its undeformed shape may agitate the contents of the tube to an extent that destroys the sample separation.

When the shape and size of a centrifuge tube does not closely conform to the shape and size of the rotor cavity in which it is to be disposed a device known as a lube adapter is usually employed. The tube adapter has an interior cavity having a shape and size which closely conforms to the shape and size of the centrifuge tube being adapted. The exterior shape and size of the adapter closely conforms to the shape and size of the rotor cavity in which is is to be used. The adapter 0 serves to support a tube within the cavity in which it is received and thus serves to prevent deformation of the tube during centrifugation.

Exemplary of an adapter formed of a single unitary member is the device disclosed in United States Patent 4.304,356 (Chulay et al.). This adapter supports only the neck region of the centrifuge tube and is fabricated of a material having a lower density than the liquid being being carried therein to prevent bottoming of the adapter in the rotor cavity in the event of tube rupture.

Exemplary of an adapter formed of two piece construction is the device shown in United States Patent 3,674,197 (Mitchell et at), assigned to the assignee of this invention. This adapter comprises two discrete segments, each of which has an indentation therein. When joined the indentations form a recess for receiving a collapsible bag during centrifugation. The adapter disclosed in this patent includes aperture(s) through which tubes from the bag exit the 0 adapter. Thus, the possibility exists that the bag may extrude through these apertures if the adapter were to undergo centrifugation in a vertical angle rotor.

An adapter arrangement formed of two discrete adapter segments and useful to support the capped end of a centrifuge tube is available as part of'the Nalgene Ultra-Lok Tube System sold by Fisher Scientific Incorporated.

United States Patent 4,692,137 (Anthony) discloses a 5 tube adapter having two segments which are hinged along the lateral edges of the segments. The hinge axes align In parallel relationship to the axis of the cavity in which the adapter is received. The disposition of hinges along the lateral edges of the segments is believed disadvantageous in that such a 0 disposition may interfere with the insertion or removal of the adapter into or from the rotor cavity. -o-O-o1 5 United States Patent 3,998,383 (Romanauskas et al.) and United States Patent 4,015,775 (Rohde), both assigned to the assignee of the present invention, disclose centrifuge rotors of the vertical angle type. In such a rotor the axis of the rotor cavities is substantially parallel to the axis of rotation. When using a vertical angle rotor it is necessary that a cap be provided at the mouth of each cavity to impose a vertical restraining force on the tube disposed in the cavity. Even though the tube may be disposed in an adapter received within the cavity, without such a capping arrangement the possibility exists that the pressure of the liquid during centrifugation may rupture the tube. United States Patent 3,998,383 (Romanauskas et al.) exemplifies a typical capping arrangement i for a vertical angle rotor. 0 i Such capping arrangements must be individually threaded into the rotor body. Moreover, in order to provide proper support it is necessary that the capping arrangement be in intimate contact with the tube. Improper assembly can thus lead to the possibility of tube rupture and/or cap failure. For these reasons such capping arrangements are believed disadvantageous.

In view of the foregoing it is believed advantageous to 5 provide an adapter for use in a vertical angle rotor that eliminates the necessity of a capping mechanism for the rotor cavity.

SUMMARY OF THB INVENTION The present Invention relates to an adapter having an axis therethrough for supporting a centrifuge tube within a cavity in a centrifuge rotor. The cavity itself has an axis therethrough, with the axis of the adapter, in use, aligning in parallel relationship with the axis of the cavity. The adapter comprises a first and a second adapter segment, each segment having an exterior surface and a mating surface thereon. Each segment has an indentation in the mating surface thereof. The segments may be connected by at least one hinge that supports the segments for relative pivotal movement about a hinge axis from an open to a mated position. The hinge axis extends perpendicular to the axis of the adapter.

When in the mated position the mating surfaces of the segments are in contacting relationship and the indentations therein cooperate to define a recess having a predetermined shape. In one embodiment of the adapter of the present invention, used with a centrifuge tube having a body with a neck thereon in which a portion of the neck has a constricted 0 region when the tube is capped, the indentation in each segment is shaped such that when the segments are in the mated position the recess is sized to closely correspond to the configuration of at least the neck of the tube. In this embodiment at least one of the segments has a feature on the mating surface thereof that projects into the indentation ς..·. i therein. When the segments are in the mated position and the neck of the tube is received within the adapter the feature is received within the constricted region of the neck of the tube.

A collar may be provided to prevent the bottoming of the tube in the cavity.

In another embodiment of the adapter of the present invention the indentation in each segment is shaped such that when the segments are in the mated position the recess so 0 defined is sized to closely correspond to the size and configuration of the centrifuge tube’ over its entire length. .0-0*0» In another aspect the present invention relates to an adapter for supporting a closed centrifuge tube having'a predetermined size and configuration within a cavity in a vertical angle centrifuge rotor. The rotor is rotatable to a predetermined maximum speed. The adapter has a central axis extending therethrough that, in use, aligns in parallel relationship both with the axis of the rotor cavity in which the adapter is disposed and with the axis of rotation of the vertical angle rotor. The adapter comprises a first and a second adapter segment, each of which has an exterior surface and a mating surface thereon. Each segment has an indentation in the mating surface thereof. The indentations are shaped such that when the segments are joined along their mating surfaces the indentations cooperate to define a recess able to totally surround a centrifuge tube disposed therein. Each adapter 0 segment is fabricated of a material that has sufficient strength to withstand the vertical forces created by the pressure of a liquid under centrifugation. Thus, use of an adapter in accordance with this aspect of the present invention permits a tube to be centrifuged in a vertical angle centrifuge rotor , t * 1 without the necessity of a happing ' mechanism being placed in ; the rotor cavity.

In still another aspect the mating surface on each adaptei 5 segment defines a predetermined angle with respect to a plane that is normal to a plane containing the line of action along which the adapter segments are Joined. Inclination of the mating surfaces of the adapter segments allows the same to displace relative to each other to totally fill the rotor cavity in 0 which they are disposed without any separation being defined between the segments. Inclined mating surfaces may be provided on any of the adapter segments disclosed in the present application.

BRIEF DESCRIPTION OF THE DRAWINGS * The invention will be more fully understood from the following detailed description thereof, taken in connection with the accompanying drawings, which form a part of this application and in which: Figure 1 is an exploded perspective view of an adapter according to a first embodiment of the present invention for supporting the neck region of a centrifuge tube of the type in which a portion of the tube neck has a constricted region thereon when capped, the adapter being shown in the open position; Figure 2 is a fragmentary elevation view, in section, of 0 the tube adapter of Figure 1 in use and supporting the neck portion of a centrifuge tube in a fixed angle rotor cavity; Figure 3 an exploded perspective view of an adapter according to a second embodiment of the present invention for supporting the full length of a centrifuge tube within a rotor cavity, the adapter being shown in the open position; Figure 4 is a fragmentary elevation view, in section, of 5 the tube adapter of Figure 2 in use and supporting a centrifuge tube over its entire axial length in a fixed angle rotor cavity; Figure 5 is a perspective view similar to Figure 3 of a modification of the embodiment of the tube adapter there 0 shown for use with an open top tube; Figure 6 Is a fragmentary eleyation view, in section, of the centrifuge tube adapter of Figure 5 in use and supporting a centrifuge lube over Its entire axial length in a fixed angle rotor cavity; Figure 7A is a perspective view of an adapter in accordance with another aspect of the present invention used to support a closed tube within the cavity of a vertical angle rotor, the adapter segments being independent of each other, while Figure 7B is a modification of the embodiment of adapter shown in Figure 7A in which the adapter segments are hinged; Figure 8 is a fragmentary elevational view of an adapter shown in either Figure 7A or 7B in use and supporting a centrifuge tube over its entire axial length in a vertical angle centrifuge rotor cavity, with a portion of the tube being broken away; and 0 Figures 9A and 9B are sectional views taken along section lines 9A-9A, 9B-9B in Figure 8 showing the inclination of the mating surfaces of the adapter segments, the view of Figure 9A illustrating the relationship of the adapter segments with respect lo each other, with respect to the tube received in the adapter, and with respect to the rotor cavity in which the adapter is placed while rotor is al rest while the view of Figure 9B shows the relationship of the adapter segments with respect to each other, with respect to the tube received in the adapter, and with respect lo the rotor cavity in which the adapter is placed when the rotor is rotating.

DETAILED DESCRIPTION QF THE ΙΝΥΕΝΠΩΝ Throughout the following detailed description, similar 0 reference numerals refer to similar elements in all Figures of the drawings.

Figure 1 is an exploded perspective view of an adapter, generally indicated by the reference character 10, according to IS a first embodiment of the present invention. The adapter 10 in accordance with this embodiment is useful for supporting a centrifuge tube T of the type having a body portion B will» a closed end C, the body B tapering through a transition region R to a narrowed neck region N. The neck N serves as the liquid port through which a liquid under test may be loaded into the tube T. When the tube T is capped at least one portion D of the neck N becomes radially inwardly constricted, thereby forming a constricted region in the neck of the tube. Preferably the capping assembly disclosed in United States Patent 4,552,278 (Romanauskas) Is used to cap the tube, so that the neck N of the tube has a corrugated configuration imparted thereto. The corrugated configuration has at least one but preferably a plurality of circumferentially extending corrugations formed in the neck N. It should be understood that any other capping 0 arrangement may be used, so long as any form of constricted region is imparted to the configuration of the neck K.

The adapter 10 is comprised of a first adapter segment and an identical second adapter segment 14. Each segment 12, 14 has an exterior surface 16 and a planar mating surface ΐ 18 thereon. The exterior surface 16 of each segment is defined by a generally cylindrical lateral surface portion 20 and a planar upper surface portion 22. in the preferred instance an enlarged collar 24 is disposed intermediate the lateral surface portion 20 and the upper surface portion 22. When the segments 12, 14 are mated together the mating surfaces 18 thereof are joined in abutting contact. As will become clearer herein the member so produced has an axis 10A (best seen in Figure 2) extending therethrough. As is best seen in Figure 2 the configuration and size of the adjacent lateral surface portions 20 closely corresponds to the configuration and diameter of a rotor cavity 40 in which the adapter 10 is used. The upper surface portions 22 of the conjoined segments are accessible when the adapter 10 is received in the rotor cavity 40. t The segments 12 and 14 are connected and supported for relative pivotal movement with respect to each other by at least one hinge 26. The hinge 26 may take the form of a live hinge bridging the upper surface portions 22 of the segments 12, 14, or may, if desired, take the form of a coined hinge. The term live hinge refers to a- hinge type, typically made of a polypropylene material, which must be flexed or bent before the plastic is cooled or permanently set. Such hinges are complete without secondary operations. The term coined hinge refers to a hinge that is cold-formed, usually by a stamping operation. The stamping operation creates a narrower and a thinner flexing region which defines a hinge. These forms of hinges are defined in the Handbook of Plastics 0 and Elastomers, McGraw-Hill Book Company 1975, (Charles A.

Harper, Editor) at page 12-9.

However formed, in accordance with the present invention the axis 26A of the hinge 26, that is, the axis about which occurs the relative pivotal motion of the segments, • extends perpendicular to the ] axis 10A of the adapter 10. This relationship of the hinge axis 26A to the axis 10A of the adapter 10 is best illustrated in Figure 2.

The mating surface 18 of each of the adapter segments 12. 14 has an indentation 28 therein. The indentation 28 in each segment 12, 14 corresponds to the size and contour of at least a portion of the tube T. Thus, when the segments 12, 14 are mated, the indentations 28 therein cooperate to define a 0 recess 30 (Figure 2) that corresponds to the size and shape of at least a predetermined portion of the tube T that is received therein.

In the embodiment of Figure 1, in which the adapter 10 is configured and sized tn support only the neck N and the, transition region R of the tube T, at least one but preferably both indentations 28 contains a feature 34, in the form of a circumferentially extending ridge, that corresponds in size and is located complementarity to the position of the constriction D in the neck N of the tube.

The adapter 10 shown in Figures 1 and 2 is especially useful when the diameter of body B of the tube T is equal to the diameter of a cavity 40 in a centrifuge rotor 42, but the overall length L of the tube T is less than the axial length of the cavity. The rotor cavity 40 has an axis 40A therethrough that aligns in parallel relationship with the axis 10A of the adapter 10 when the same is disposed therein. In use, as is best seen in connection with Figure 2, the adapter 10 defined by the 0 mated segments 12, 14 serves to support the neck N and the transition region R of the tube T within the cavity 40.

To mount the tube T in the cavity, the lube T is inserted into one of the segments 12, 14, so that the feature 34 on the segment(s) is received within the constricted region D in the neck N of the tube T when : the segments are in the mated position. Tho oogmonto 13, 1 The axial length of the adapter 10 is selected such that when the tube T is received in the cavity 40, the upper surface portions 18 on the segments 12, 14 are accessible to a user.

The hinge 26 may be formed so as to define a useful lifting appliance, as shown in Figure 2. Thus, to withdraw the tube T at the end of a centrifugation run, a user grasps the hinge 26 I and lifts the tube from the cavity 40. It should be appreciated from the foregoing that the feature 34 in such an instance defines a lifting surface which acts against the material of the tube in the constricted region D in the neck N thereof, and thus serves to transmit the lifting force to the tube T to withdraw the same from the cavity. The lube T may is withdrawn without unduly agitating the separation within the tube T.

In some cases the rotor 42 may have a shoulder 44 defined about the mouth of the cavity 40. The shoulder 44 is preferably located on the rotor 42 at a position that is axially beneath the collars 24 on the segments 12, 14 when the adapter is received within the cavity, thereby to guard against the possibility that tube rupture will permit the adapter 10 to 0 enter into the cavity 40.

The segments 12, 14 with the hinge 26 therebetween are preferably integrally formed from a suitable material, such as polypropylene. Of course, the segments 12, 14 may be otherwise fabricated from one or more pieces, using other *S. ‘manufacturing techniques and other materials, and assembled to define the adapter 10. Similar techniques may be used to form any other embodiment of the adapter illustrated and discussed herein.

For those instances wherein the diameter of the tube T is less than the corresponding diameter of the cavity 40 the adapter 10* shown in Figures 3 and 4 finds utility. In this embodiment of the invention the recess 30' (Figure 4) formed by the cooperative association of the indentations 28' in the mated adapter segments 12*, 14' is configured to correspond to the size and shape of the tube T over the entire axial length L* thereof. For this purpose the segments 12', 14' are each provided with an axial extension 36 having a bottom wall 38.

The bottom wall 38 need not completely close the bottom of the adapter 12', 14, , as is Illustrated, but may only partly close the same. The presence of the extension 36 and the bottom wall 38 permit the recess 30* defined when the segments 12*, 14’ are joined to receive the entire axial length L* of the tube T*.

Figure 4 illustrates this embodiment of the invention in use. When the tube T is received in the recess 30' the closed end C' of the tube Τ' is contacted by the interior surface of the bottom wall 38. Preferably the indentations 28' in the segments 12', 14* are placed such that the tube T* lies as close to the bottom of the rotor cavity 40, thereby to maximize the centrifugal force imposed on the liquid sample. It should also be noted that in this embodiment of the invention the feature 34 present in the embodiment of Figure 1 is not required, since 0 the requisite lifting force transmission surface is defined by the bottom wall 38 operating against the bottom end C* of the tube T. It is also noted that in this embodiment of the invention the collar 24 may be eliminated.

V.

Figure 5 illustrates a modification of the embodiment of the invention shown in Figure 3. In this embodiment, the tube T“ has the form of a test tube, with no constriction present to define a neck N, In this Instance, the segments 12, 14 are modified to exhibit indentations 28 similar to those shown in Figure 3, but which correspond in size and shape to the test tube T over the entire axial length L thereof.

In whatever one of the embodiments used, the hinge 1 0 · between the segments is disposed on the upper surface portion of the exterior surface of the adapter segments. Such a disposition is believed advantageous in that it locates the hinge at a position where the hinge does not interfere with the receipt of the adapter within the rotor cavity. At the same time the hinge defines a useful lifting appliance. -o-0-oAlthough the adapter previously illustrated and 20 discussed may find utility in the environment of a vertical angle rotor, such a utilization may typically require the provision of a suitable capping arrangement to prevent tube failure. The capping arrangement is required in the case that the adapter does not completely surround the tube, such as shown in Figures 1 and 2. However, a capping arrangement is also required if the adapter does completely surround the tube, as shown in Figures 3 through 6, but does not have sufficient strength to withstand the vertical force due to liquid pressure ί under centrifugation. j As outlined earlier, capping arrangement may be viewed as disadvantageous for various reasons. Accordingly, it is believed desirable to provide an adapter able to support a closed tube T in a vertical angle rotor without the necessity of a capping mechanism. Figures 7 A and 7B illustrate such an ' adapter in accordance with another aspect of the present s invention. Figure 7A illustrates an unhinged embodiment of the vertical angle rotor adapter, while Figure 7B shows a hinged embodiment thereof.

The vertical angle rotor adapter shown in Figures 7A and 7B is generally indicated by the reference character 103 and is generally similar to the adapters 10* and 10 discussed in connection with Figures 3 and 5 in the sense that the adapter 103 is arranged to totally surround the tube T disposed therewithin. The adapter 103 comprises a first adapter segment 123 and a second adapter segment 143. Each segment 123, 143 has an exterior surface 163 thereon. The exterior surface i<53 of each segment 123, 143 is defined by a generally cylindrical lateral surface portion 203 and a planar upper surface portion 223.

In accordance with the embodiment of the invention shown in Figures 7A and 7B the adapter segment 123 has a planar mating surface 183 thereon while the adapter segment 143 has a planar mating surface 193 thereon. For a reason which is explained more fully herein the mating surfaces 183 and 193 on the segments 123 and 143, respectively, arc angled with respect to a predetermined reference plane, to be defined.

The inclination of the mating surfaces 183 and 193 on the segments 123 and 143, respectively, is believed best seen in Figures 9A and 9B. It should be understood that the mating surfaces of the adapter segments in any of the embodiments shown in Figures 1 through 6 may also be inclined in the j manner shown in Figures 9A and 9B.

The mating surfaces 183 and 193 of each of the adapter segments 123 and 143, respectively, each have an indentation 283 therein. The indentation 283 in each segment 123 and 143 corresponds to the size and contour of the entire axial length L ίο of the tube T. Thus, when The segments 123 and 143 are mated the indentations 283 therein cooperate to define a recess 303 (Figure 8) that corresponds to the size and shape of the entire axial length of the tube T (Figures 1 and 8) that is received therein. That is to say, the indentations 283 in each segment are shaped such that when the segments 123 and 143 are joined along their respective mating surfaces 183 and 193 the indentations 283 in each segment cooperate to define a recess 303 able to totally surround a centrifuge tube T disposed therein.

Figure 8 illustrates the adapter 103 in accordance with this aspect of the present invention in use in the environment of a vertical angle centrifuge rotor 42v. In such a rotor the axis of each cavity 40v is parallel or approaching parallel (with an inclination angle of not more than fifteen (15) degrees) to the axis of rotation A of the rotor. As seen from Figure 8 the adapter 103 has a central axis 103A that in use, aligns with the axis of the cavity 40v in which it is disposed and with the axis of rotation A of the vertical angle rotor 42v.

In the embodiment of the invention shown in Figure 7A, the segments 123, 143 are independent of each other. These segments 123, 143 may be joined by moving each segment toward the other along a line of action 48 thereby to bring the mating surfaces 123, 143 thereof in abutting contact. As used herein the term “line of action is meant to denote that direction of motion which joins the segments 123, 143 such that, in a given predetermined plane perpendicular to the 0 central axis 103A simultaneous contact of both sides of the j segments 123, 143 occurs.

In Figure 7B the segments 123, 143 are connected and supported for relative pivotal movement with respect to each other by at least one hinge 263. The pivotal axis 263 A (Figure 8) of the hinge 263, that is, the axis about which occurs the relative pivotal motion of the segments 123, 143, extends perpendicular to the axis 103 A of the adapter 103. As discussed earlier the hinge 263 may lake the form of a live hinge bridging the upper surface portions 223 of the segments 123, 143, or may, if desired, lake lhe form of a coined hinge; Accordingly the segments 123, 143, as shown in the embodiment of Figure 7B may also be joined by moving each : segment toward the other along the line of action 48. In the 0 embodiment of Figure 7B it is noted that the line of action 48 also lies in the plane perpendicular to the pivotal axis 263A of i the hinge 263.

With reference to the sectional views of Figures 9 A and 9B, the inclination of the surfaces 183, 193 may be most clearly seen. (Sectioning of the adapter has been ommitted from Figures 9A and 9B for clarity of illustration). When the segments 123, 143 are joined, the tube T is totally surrounded by the adapter 103. By inclining the mating surfaces 183, 193 the segments 123, 143 may expand during centrifugation to fill the entirety of the rotor cavity 40v. Thus, any variations in the size of the various cavities 40v in a given rotor, variations in cavity size from rotor to rotor, and variations in the thickness of the segments from adapter to adapter may be accommodated without breaking the total containment of the ; tube T by the adapter.

It is also clear from Figure 9A that when the segments 123, 143 are mated the interior surface of the interior recess 0 303 of the adapter 103 is interrupted by the inwardly projecting corners 50 on the mating surface 193 of the segment 143. The corners 50 lie inwardly of the corresponding corners 52 defined on the mating surface 123. The radial distance Rj measured between the central axis 103 A and the interior surface of the adapter segment 143 in the region of the j indentation 283 therein is less than the radial distance R2 measured between the central axis 103A and the interior surface of the adapter segment 123 in the region of the indentation 283 therein. For reference purposes it is convenient at this point to define the radial distance R3 as the distance between the central axis Ϊ03 and the exterior surface of the adapter segment 143 in the region of the indentation 283 therein and the radial distance R2 as the distance between the central axis 103 and the exterior surface of the adapter segment 123 in the region of the indentation 283 therein. The thickness of the segment 123 is equal to the difference between the distances R4 and R2. while thickness of the segment 143 is equal to the difference between the distances Ra and Ri.

To accommodate the instance where the rotor cavity 40v is at its largest possible tolerance and the thickness of the segments of the adapter are at their smallest possible : tolerance, the arc length of the inner surface of the segment 143 (i.e., the distance between the points 50-50) in a plane 20 perpendicular to the adapter axis 103A (the plane of Figure 9A) plus the arc length of the inner surface of the segment 123 (i.e., the distance between the points 52-52) in the same plane must equal the circumference of the inside of the adapter ln a plane perpendicular to the adapter axis 103A in the case when the adapter of the smallest segment thickness is conformed to the largest rotor cavity, as illustrated in Figure 9B.

The magnitude of angles of inclination of the surfaces may be measured by reference to a reference plane 54. The 0 reference plane 54 is that plane that contains both the vertical ί central axis 103 of the adapter 103 and at least one of the inwardly projecting corners 50 of the adapter segment 143. Alternatively, the reference plane 54 may be defined as the plane that is normal to tho line of action 48 (superimposed on Figure 9A) along which the segments 123, 143 are joined ί together. Measured with respect to the reference plane 54 the inclination of the surfaces 183 and 193 lies in the range of angles from about 10 to about 80 degrees. Preferably, each angle is forty five (45) degrees.

It should be noted that although the surfaces 183 and 193 are shown as being inclined to the same degree (i.e., the angles of the surfaces 183 and 193 with respect to the reference plane 54 are equal), such is not necessarily required. It is only necessary that the inclination of the surfaces 183 and 193 be such that the segments are maintained in mutual contact if they expand during centrifugation to fill the cavity 40v. It should also be noted that the segments 123 and 143 may be other than circular, and can be ellipsoidal, if desired.

J tAn adapter in accordance with this embodiment of the present invention may be fabricated from any suitable material so long as the resulting adapter has sufficient strength (as that term is defined herein). The material of choice must exhibit other desirable properties, such as appropriate ultimate strength, appropriate modulus of elasticity, suitable chemical compatibility with any liquid sample being centrifuged and ability to withstand autoclaving. Suitable plastic materials include polypropylene, polyamide, acetal, polyphenylene oxide, polyvinyl cholorlde, polycarbonate or polyethylene. Other plastic or metallic materials (either homogeneous (neat) or fiber reinforced) with similar or better mechanical and chemical properties for the application under consideration may also be used. The adapter may be formed in any 0 convenient manner consistent with the material selected, such as molding, machining, casting or forging.

In order to support a tube Tina vertical angle rotor without the assistance of the restraining force provided by a capping mechanism, the adapter 103 must exhibit sufficient k. strength to absorb the forces imposed on the tube T by the pressure of the liquid therein. Thus, as the term is used herein,sufficient strength means that the adapter must be able to withstand the forces imposed on it during centrifugation without failing or deforming to the extent that the tube carried therein ruptures.

Whether a given adapter sufficient strength, and thus falls within the scope of the claims of the present invention, can be determined from various readily ascertainable operating parameters of the vertical angle rotor In which the adapter is to be used and the application to which the adapter is to be put. These parameters are the specific weight of the liquid sample within the tube received by adapter, the radius Ri which represents the minimum distance to the sample from the axis A of rotation (Figure 8), the diameter Do (Figure 8) of the rotor cavity, the thickness of the adapter segment, the inside diameter of the tube, and the speed of rotation of the vertical angle rotor.

The pressure at any location across the diameter of the tube in which the liquid sample is disposed is ω2 P ® _ a ( Ro2 - Ri2) (1) where P is the pressure (psi), ω is the rotational velocity of the rotor (radians per 0’ second), g is acceleration due to gravity (inches per second2), a is the specific weight of the sample (Lbf per inch3), Ro ia the distance to the point of interest x where the pressur^ value is desired from liie center of rotation (inches), and Ri is the minimum distance to the sample 5 from the axis A of rotation (inches).

The total vertical force F that the adapter must withstand is then found by integrating this pressure function over the circular cross sectional area of the inside of the tube.

Knowing the adapter dimensions and the force F, the average stress in the wall of the adapter can be determined in accordance with the relationship: (2) («74 )( Do2 - Dj?) where s is the stress (psi), F is the force (Lbf) Do is the diameter of the rotor cavity, and Di is the inside diameter of the adapter when operating at speed, which equals the diameter of the rotor cavity minus the thickness of each of the segments of the adapter (Figure 9B).

Based on the identity of the material used in the given 0 adapter, the modulus of elasticity of that material may be readily obtained. An estimation of the vertical deformation of the adapter may be found by multiplying the initial length of the adapter by the average stress divided by the modulus of modulus of elasticity of the adapter material. If the average stress calculated in Equation (2) is less than the ultimate i strength of the adapter material, and the predicted deformation is less that the deformation that will cause first leakage in the tube carried within the adapter, then the given adapter is to be construed to have sufficient strength for at least one operating cycle, and therefore fall within the contemplation of the present invention. The determination of sufficient strength as set forth above under operating conditions will verify both the analysis and the conclusion of i the sufficiency of strength of the adapter.

! ' It should be understood that it is within the contemplation of this invention to use an adapter in accordance herewith to support a tube or a predetermined portion thereof within a cavity provided in another adapter, thereby making the use of the adapter in accordance with this invention amenable for use in the environment of a swinging bucket rotor. i -0*0-020 Those skilled in the art, having the benefit of the teachings of the present invention may impart numerous modifications thereto. It should be understood that such modifications are to be construed to lie within the scope of the present invention, as defined by the appended claims.

Claims (24)

1. ' CLAIMS: ί

1. An adapter for supporting a centrifuge tube within a cavity in a centrifug6 rotor, the tube having a predetermined size and configuration, the adapter having an axis extending 5 therethrough that, in use, aligns in parallel relationship with an axis of the rotor cavity in which the adapter is disposed, the ; adapter comprising; a first and a second adapter segment, each segment 1 0 having ail exterior surface and a mating surface thereon, each segment having an indentation in the mating surface thereof, at least one hinge connecting the segments and supporting the relative pivotal movement, about a hinge axis, 15 of at least one segment with respect to the other from an open to a mated position, the hinge axis extending perpendicular to the axis of the adapter, in the mated position, the mating surfaces of the

2. 0 segments being disposed in contacting relationship and the indentations therein cooperating to define a recess having a size and shape that corresponds to the size and shape of at least a portion of the tube, 2 5 2. The adapter of claim 1 wherein the centrifuge tube has a body with a neck thereon, a portion of the neck having a constricted region thereon when the tube is capped, the indentation in each segment being shaped such that

3. 0 when the segments are in the mated position the indentations cooperate to define a recess that corresponds to the size and : shape of the neck of the tube, at least one of the segments having a feature on the 3 5 mating surface thereof that projects into the indentation ΐ,ί ! therein such that, when the segments are in the mated position and the tube is received within the adapter, the feature ie received within the constricted region in the neck of tho tube. 5 3. The adapter of claim 1 wherein the centrifuge tube has a body with a predetermined configuration over its entire length, the indentation in each segment being shaped such ; that when the segments are in the mated position the indentations j cooperate to define a recess that corresponds to the size and 10 , shape of the centrifuge tube over its entire length.

4. The adapter of claim 3 further comprising an enlarged collar disposed on the exterior surface of at least one of the segments.

5. , The adapter of claim 2 further comprising an enlarged collar disposed on the exterior surface of at least one of the segments. 20

6. The adapter of claim 1 further comprising an enlarged collar disposed on the exterior surface of at least one of the segments.

7. The adaptor of claim 3 Wherein the mating surface on 25 the first adapter segment defines a first predetermined angle with respect to a predetermined plane while the mating surface on the second adapter segment defines a second predetermined angle with respect to the predetermined reference plane, the reference plane being defined as the plane 3 0 that contains the axis of the adapter and that lies normal to the line of action along which the segments of the adapter are mated.

8. An adapter for supporting a closed centrifuge tube 3 5 within a cavity in a vertical angle centrifuge rotor comprising a ‘ first and a second adapter segment, each segment having ah exterior surface and a mating surface thereon, each segment having an indentation in the mating surface thereof, the indentation in each segment being shaped such that when the 5 segments are joined along their mating surfaces the indentations cooperate to define a recess able to totally surround a centrifuge tube disposed therein, the adapter being fabricated of a material that has sufficient strength to withstand the vertical forces created by the pressure of a 10 ί liquid carried in the tube under centrifugation.

9. The adaptor of claim 8 wherein the mating surface on the first adapter segment defines a first predetermined angle with respect to a predetermined plane while the mating 1 5 surface on the second adapter segment defines a second predetermined angle with respect to the predetermined reference plane, the reference plane being defined as the plane that contains the axis of the adapter and that lies normal to the line of action along which the segments of the adapter are 20 ! mated.

10. The adaptor of claim 9 wherein the first ' predetermined angle and the second predetermined angle pre equal.

11. The adaptor of claim 9 wherein the first predetermined angle lies within the range from about ten (10) ; to about eighty (80) degrees. 3 0

12. The adaptor of claim 9 wherein the second predetermined angle lies within the range from about ten (10) to about eighty (80) degrees.

13. The adaptor of claim 14 wherein the second predetermined angle lies within the range from about ten (10) to about eighty (80) degrees^

14. An adapter for supporting a centrifuge tube having a predetermined size and configuration within a cavity in a centrifuge rotor, the adapter having an axis extending therethrough that, in use, aliens in parallel relationship with an axis of the rotor cavity in which the adapter is disposed, the adapter comprising: a first and a second adapter segment, each segment having an exterior surface and a mating surface thereon, each segment having an indentation in the mating surface thereof, 1 5 the indentation in each segment being shaped such that when the segments are joined along their mating surfaces the indentations cooperate to define a recess able to totally : surround a centrifuge tube disposed therein, 20 the mating surface on the first adapter segment having a pair of edges thereon that projects into the recess in the adapter. i

15. The adapter of claiin 14 wherein the mating surface 2 5 on the first adapter segment defines a first predetermined angle with respect to a predetermined reference plane while the mating surface on the second adapter segment defines a second predetermined angle with respect to the predetermined reference plane, the reference plane being defined as the plane 3 0 that contains the axis of the adapter and that lies normal to the line of action along which the segments of the adapter are mated

16. The adapter of claim 15 wherein the centrifuge rotor is a vertical angle rotor, and wherein the adapter segments are (,; ' fabricated of a material that I has sufficient strength to withstand the vertical forces created by the pressure of a liquid under centrifugation. 5

17. The adapter of claim 14 wherein the centrifuge rotor i is a vertical angle rotor, and wherein the adapter segments are fabricated of a material that; has sufficient strength to withstand the vertical forces ^created by the pressure of a ι liquid under centrifugation. :

18. The adapter of claim 17 further comprising at least one hinge connecting the segments and supporting the relative pivotal movement, about a hinge axis, of at least one segment with respect to the other from an open to a mated position, the 1 5 hinge axis extending perpendicular to the axis of the adapter. »

19. The adapter of claim 16 further comprising at least one hinge connecting the segments and supporting the relative pivotal movement, about a hinge axis, of at least one segment 20. With respect to the other from an open to a mated position, the hinge axis extending perpendicular to the axis of the adapter.

20. The adapter of claim 15 further comprising at least one hinge connecting the segments and supporting the relative 2 5 pivotal movement, about a hinge axis, of at least one segment with respect to the other from an open to a mated position, the hinge axis extending perpendicular to the axis of the adapter.

21. The adapter of claim 14 further comprising at least 3 0 one hinge connecting the segments and supporting the relative pivotal movement, about a hinge axis, of at least one segment with respect to the other from an open to a mated position, the hinge axis extending perpendicular to the axis of the adapter.

22. An adapter for supporting a centrifuge tube within a cavity in a centrifuge rotor, or an adapter for supporting a centrifuge tube having a predetermined size and configuration within a cavity in a centrifuge rotor, substantially in accordance with any of the embodiments herein described with reference to and as shown in the accompanying drawings.

23. An adapter for supporting a closed centrifuge tube within a cavity in a vertical angle centrifuge tube substantially in accordance with any of the embodiments herein described with reference to and as shown in Figures 7 to 9 of the accompanying drawings.

24. The features of the foregoing specification, or any obvious equivalent thereof, in any novel selection.