DE2328346A1 - CHUCK FOR A CENTRIFUGAL ROTOR - Google Patents

Description

Chuck for a centrifuge rotor

The invention relates to centrifuges and in particular to a feed I with a centrifuge that can be inserted with a snap connection * * rotor. ί

When centrifuging liquids, such as blood, you need a simple feed, the 'centrifuge rotor keeps aligned and by means of which the rotor can be inserted and removed quickly and reliably. at of a blood test, the person carrying out the test should as far as possible keep technical details free will. This in turn means that you should be able to use the centrifuge rotor in a chuck that you can both Alignment is automatically given in the axial as well as in the vertical direction and the rotor is clamped in the chuck can be done with a minimum of simple movements.

The insertable rotor according to the invention can have a bell-shaped shape that tapers upwards in the shape of a truncated cone, which is not suitable for removing the rotor by hand from a

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to lift out the usual lining with an O-ring. A lining with
a mechanical ejector as disclosed in U.S. Pat
3,581,981 gives a technically acceptable one
Way of pulling the bowl off the food, but this type
a chuck for large series or some areas of application _; too expensive on a large scale. ι

The invention is based on the object of providing a lining for a j To train the centrifuge rotor in such a way that it is easy to assemble and! is easy to use. In particular, this connection of the rotor and chuck should be suitable for centrifuges for examining blood and only require simple manipulations to insert and remove the rotor from the chuck. Furthermore, the ι Chuck cheap and especially suitable for single-use rotors.

According to the invention, the chuck has an upper clamping ring and a lower chuck body on which the rotor rests for automatic alignment in the axial and vertical directions. The upper clamping ring and the lower chuck body are designed so that they form a groove between them for receiving an 'elastomeric retaining element, and they can be formed from a part j or from two separate elements,! which are pulled together by means of screws. In one case | all that is required when inserting the rotor is a snap-in. pens, while in the other embodiment the screws must also be tightened. The base of the rotor is designed so that there is an upwardly sloping shoulder over which the elastomeric holding element rests in the engagement position. In the embodiment in which the
The chuck is made up of two contractible elements, the rotor can j when the screws are used to tighten the chuck elements! can be loosened by a full turn by means of a snap movement ^; can be used in the feed. When the rotor is snapped into place J, the screws are tightened and the centrifuge is up
ready for use. The removal of the rotor is the same
simple. In the other embodiment, in which the feed

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teelement has a certain shape.

In Fig. 1 the feed and the holding element are in cross section and the rotor shown in a partial section. Apart from the shape of the outer surface of the base of the rotor on which What matters to the invention is the rotor in terms of its internal construction and operation corresponding to that in FIG US Pat. No. 3,145,713, in particular the rotor shown in FIG. 6 is formed. A more detailed description of the internal structure of the Rotor is therefore not required, only the course of the flow at the bottom of the rotor is indicated,

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consists of a single part, when inserting the rotor is usually pressed down firmly with both hands, j whereupon -.er removed again with a simple tool can be.

Exemplary embodiments according to the invention are given below explained in more detail with reference to the drawings, in which

Fig. 1 shows a vertical section through the chuck and the rotor in an embodiment in which the Lining consists of two separate elements.

Figure 2 is a bottom view of the chuck of Figure 1.

Fig. 3 shows in a cross section details of the design of the lining according to Fig. 1, the base of the Eentri-

joint rotor, the elastomer retaining ring and a screw for tightening in the release position. '

FIG. 4 shows the rotor in a manner corresponding to FIG. 3 and represents the feed in the operating position.

Fig. 5 shows in a partial section a portion of the chuck and the rotor in an embodiment in which the Food consists of a single element and the shark

The rotor 10 is held in place by an elastomeric retaining element 12 in the chuck 11 held. The chuck according to FIG. 1 consists of an upper clamping ring 13 and a lower chuck body 14, which can be attached to a rotating spindle 15, for example a spindle with temperature monitoring, such as it is described in U.S. Patent 3,604,769. There are at least three clamping elements to connect the upper and lower chuck elements 16 is provided, the arrangement of which can be seen from FIG.

The rotor 10, which is an insertable rotor for one-time Gebraudji can be, is via a stationary external connection 20 to a source for the liquid to be centrifuged (e.g. blood) by means of an inlet line 21 and an outlet line 22 to a storage container for the overflowing liquid (e.g. blood plasma) connected. The stationary inlet line 2 (j) is in communication with a stationary feed tube 23 which extends into the rotor. Seals like those in U.S. Patents 3,409,213 and 3,565,330 provide the required contamination-free seal between the stationary components and the rotating rotor 10. like the baffles 24 and 25 shown in Fig. 1, guide the flow of liquid to the outside and cause the centrifuged Solids (e.g. red blood cells) collect in the centrifuge rotor.

The rotor housing consists of a tapered, bell-shaped Section 30 and a lower portion 31 which is connected to the bell-shaped portion so that by means of a seal, not shown, results in a fluid-tight space within the housing. The lower section has from inside outwards a circular straightening surface 32 located in the middle, a surface 33 sloping upwards, which occupies most of the lower section, and a flat peripheral surface 34.

As can be seen from Fig. 3, is at the lower part of the base <.

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- j -

of the bell-shaped portion, a tapered shoulder 35 is formed on the outer circumference, the inclination angle θ of which is approximately 45 °, that is, 45 ° + 15 °. The shoulder 35 is formed between a lower wall section, which consists of a slightly inclined wall surface 36 and a vertical wall surface 37, and an upper vertical wall section 38. The angle φ formed between the wall surface 36 and the vertical 'right is in the range between 15 and 30 °. The height dimension of the vertical wall surface 37 _f, which corresponds to the maximum diameter of the base of the rotor, is normally about 0.8 mm (0.03 inch). Although the wall surface 36 can also run vertically, according to a preferred embodiment a type of projection is formed on the edge of the base so that the bowl or rotor can be inserted more easily. The meaning of the shoulder 35 and its arrangement will be clear from the following.

As shown in FIG. 1, the upper surface of the chuck body 14 has, from the inside outwards, a flat j in the middle Hole 40, the diameter of which is that of the one in the middle circular straightening surface 32 of the rotor corresponds to a upwardly sloping surface 41, that of the inclined surface 33 of the rotor corresponds, but runs at a distance from this, and a flat annular surface 42 that of the flat or the horizontal circumferential surface 34 of the rotor. By the plant of the flat peripheral surfaces 34 and 42 and in the In the center of the circular straightening surface 32 of the rotor in the shallow bore 40, the rotor is automatically in the chuck body aligned both in the vertical and in the axial direction. The chuck is on the spindle 15 via a ring 43 attached by any suitable means, for example by using an adhesive in conjunction with a tight cylindrical seat.

The lower chuck body 14 has on the outer circumference a flat or horizontally running surface 44 which is somewhat lower than the flat annular surface 42, as in FIGS. 3 and 4

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show more clearly. These two flat annular surfaces 42 and 44 are connected by an upwardly extending ring 45, the top surface 46 of which forms one side of a groove 47, which is used to receive an elastomeric retaining element in the form of an O-ring 12. The inner surface 48 of the ring 45 has a diameter that between the vertical wall surface 37 of the lower wall portion of the rotor base a play of preferably is about 0.25 mm (0.010 inch). This clearance can be between about 0.2 and 0.4 mm (0.008 and 0.015 inches).

The lower edge of the shoulder 35 on the rotor base is present

preferably between about 2.5 and 5.0 mm (0.1 and 0.2 inch) \ to the vertical stop, that is the annular surface 42 'for a rotor having a diameter between about 100 and 140 mm (4.0 and 5.5 inches) as measured against vertical wall surface 37 of the lower portion of the rotor base. The relationship! the edge height of the rotor base, measured between the lower edge of the shoulder 35 and the vertical stop, to the outer diameter of the rotor base can thus be between about 2.5 / 140 and 5.0 / 100 or between about 0.02 and 0, 05 lie. Another ratio that can be used to determine the shape of the rotor base and the engagement device is the ratio of the edge height of the rotor base (distance between the surface 42 and the lower edge of the wall surface 37) to the edge height of the shoulder (distance between the surface 42 and I the lower edge of the shoulder 35). This ratio should be between about 0.2 and 0.6.

The upper clamping ring 13 of the chuck has, as FIGS. 3 and 4 show, an inner surface which is machined in this way is that a lower vertical wall portion 51 and an upper vertical wall portion 52 with a smaller diameter is available. These wall sections are connected to one another via a shoulder 53. The lower vertical wall section 51 is aligned with the outer surface of the ring 45 so that he can concern himself with this. The upper part of the wall sectiong

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51 and shoulder 53 form the other two sides of the groove 47 for the retaining element, the width of which can be adjusted to change the cross-sectional shape of the O-ring so that it can holds or releases the rotor, as can be seen from FIGS. ; = ·

The elements 16 for tensioning the chuck are expediently made from screws 55, which are provided with an internal thread, in which the threaded shaft of a screw 56 with Button head can be screwed in.

To insert the rotor into the chuck, the clamping elements are tightened by turning the clamping screws 55 by about one turn released so that the clamping ring and the chuck body assume the position shown in FIG. The rotor is on by hand detected the upper part and then pressed firmly down into the chuck so that it assumes the position shown in FIG. What matters is the insertion of the shoulder 35 under a narrow section of the O-ring 12. The j The rotor is automatically aligned in the chuck. The tensioning elements are then turned by turning the screws 55 tightened about a full turn. As Fig. 4 shows, the O-ring is deformed by pressing the clamping ring 13, that it engages with the shoulder 35 on the rotor and rests tightly against it. The rotor is held firmly in the chuck when this goes around. After centrifugation, the clamping ring is lifted by loosening the screws 55 and the rotor is removed, by tilting it a little.

5 illustrates a second embodiment in a partial section of the chuck and the retaining element, the lower chuck body and the upper ring being made in one piece so that clamping elements such as the clamping screws 55 and the screws 56 in the embodiment according to FIGS. 3 and 4 are omitted. In FIG. 5, the same components are provided with the same reference numerals as in FIGS. 3 and 4. '

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The chuck 11 of Fig. 5 consists of a single piece of metal 60, which the lower chuck body 61 and arranged above Lining ring 62 forms. It is of course also possible to design these elements as separate components and to pass them through using a suitable device such as screws to secure them together. However, this will usually not be the case be the preferred embodiment. The groove 63 »in that of the elastomer Retaining ring 64 is machined on the inner surface 65 of the chuck ring 62. The holding element 64 is an elastomeric ring body which is designed or cut so that it is inserted in the groove 63 and tightly rests against the lower vertical wall surface 37 and the shoulder 35 of the lower rotor section. In this exemplary embodiment, the cross-sectional shape of the holding element 64 is rectangular with a triangular one Approach 66, which is made with the inner upper section consists of one piece, the lower protruding surface 67 of the triangle is formed so that it on the shoulder 35 the rotor base is tight or tight.

A comparison with the retaining ring 12 according to FIGS. 3 and 4 shows that this retaining element 64, which is designed in a certain way 5 serves the same purpose and acts in the same way as the retaining ring 12. The embodiment according to FIG. 5 has the advantage that the operator can insert and remove the rotor without loosening and tightening screws Need to become. The rotor is inserted in that. it vertically downwards strongly into the one shown in FIG Clamping position is pressed. A tool "70, which is a rubber-coated tool, is used to remove the rotor Can be lever 71 to which a handle 72 is attached. With the lever 71 is pressed on the centrifuge housing 30, the inner wall of the protective housing 73, which is arranged around the centrifuge, serves as an abutment for the lever 71. By a slight tilting movement of the handle 72, a portion of the shoulder 35 is pushed out and from the corresponding one The engagement surface of the holding element 64 is released. this

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is sufficient to be able to remove the entire rotor from the chuck.

The insertion of the rotor is therefore very simple and requires only minimal skill on the part of the operator. After the rotor is snapped into the clamping position in which it is held in the chuck by the elastomeric retaining element, it can through a slight tilt by hand can easily be taken out again, with only slightly on the upper part of the rotor needs to be pressed in the horizontal direction. The lining is simple and inexpensive to manufacture.

- 10 -

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Claims (8)

Claims Centrifuge with a rotor which is held in a chuck arranged on a rotatably mounted spindle, characterized in that the rotor (10) can be inserted into the chuck (11) by means of a snap connection, a) wherein the chuck with a lower chuck body (14), the upper surface of which from the inside to the outside one in the Flat hole (40) in the middle, an upward sloping surface (41), a flat annular surface (42) and an upwardly extending ring (45) with a substantially planar, circular upper one Has surface (46), and b) is provided with an upper lining ring (13) whose Inner surface with the circular upper surface (46) of the ring (45) on the lower chuck body a groove (47) forms, c) in which an elastomeric holding element (12) is arranged, and d) the rotor (10) having a lower part (31) _t its outer surface from the inside to the outside, a circular straightening surface (32) arranged in the center for contact with the wall of the shallow bore (40) in the center of the chuck , an upwardly sloping surface (33) »the area of which corresponds essentially to that of the sloping surface (41) on the lower chuck body (14) and which runs at a distance therefrom, and on the circumference a flat annular surface (34) to rest on the annular surface (42) of the lower chuck body, and e) is provided with a rotor housing (30) which is connected to this lower part (31) and forms a rotor base, the one sloping outwards from bottom to top Section (36), a lower vertical 409807/0328 Engaging portion (37), which corresponds to the maximum diameter of the rotor and opposite the inner wall of the upwardly extending ring (45) on the lower chuck body (14) is just exposed, one inclined inwards extending engaging shoulder (35) and an upper vertical portion (38), wherein "the lower vertical Engaging portion (37) and the engaging shoulder (35) with a lock during operation of the rotor form the holding element (12). 2.'Zentrifuge according to claim 1, characterized in that the angle (0) between the outwardly sloping one Section (36) of the rotor base and the inner wall (48) of the upwardly extending ring (45) on the lower lining _; body (14) is between about 15 and 30 °. j 3 · Centrifuge according to claim 1, characterized in that: the play between the lower vertical engagement portion (37) of the rotor base and the inner wall (48) of the upwardly extending ring (45) on the lower chuck body is about 0.2 to 0.4 mm (0.008 to 0.015 inches). 4. Centrifuge according to claim 1, characterized in that the ratio of the height dimension of the rotor base as measured from the flat annular surface (42) of the lower chuck body (14) to the lower edge of the shoulder (35), to the outer diameter of the lower vertical engagement section (37) the rotor base is between about 0.02 and 0.05. 5. Centrifuge according to claim 1, characterized in that the ratio of the height dimension of the rotor base, measured from the flat ring surface (42) on the lower chuck body (14) to the lower edge of the lower vertical engagement section (37), to the height dimension of the shoulder (35), measured from the flat ring surface (42) to the lower edge of the shoulder, between about 0.2 and 0.6. - 12 4098 0 7/0328 6. Centrifuge according to claim 1, characterized in that the lower chuck body (14) from the upper chuck ring (13) is separated and has a flat peripheral surface (44), which surrounds the ring (45) and is lower than the flat ring surface (42), the inner surface of the upper lining ring (13) is formed by a lower vertical wall surface (51) and an upper vertical wall surface (52), which are connected to one another by a shoulder (53), a portion of this lower vertical wall surface rests on the outer surface of the ring (45) and forms the groove (47) with the shoulder (53), and that a device (16) is provided for bracing the upper chuck ring (13) with the lower chuck body (14). 7. Centrifuge according to claim 1, characterized in that the lower chuck body (61) and the upper chuck ring (62) consist of a single piece and the retaining element (64) has a generally rectangular cross-sectional shape with a after is provided on the inside projecting, triangular extension (66) which is formed on the upper part of the holding element and with this in one piece, the lower surface (67) of this approach (66) for a tight fit on the inclined shoulder (35) of the rotor base is formed. 8. Centrifuge according to claim 1, characterized in that the angle of inclination of this inclined shoulder (35) on the Base de.s rotor housing (30) is about 45 °. 0-9 807/0328