EP0195321B1

EP0195321B1 - Automatic centrifugal balancing mechanism

Info

Publication number: EP0195321B1
Application number: EP19860102975
Authority: EP
Inventors: James Thomas Holen
Original assignee: Abbott Laboratories
Current assignee: Abbott Laboratories
Priority date: 1985-03-19
Filing date: 1986-03-06
Publication date: 1990-01-24
Also published as: EP0195321A2; EP0195321A3; JPS61216758A; CA1259974A; DE3668425D1

Description

Background of the Invention

Technical Field

This invention relates to apparatus for chemical testing, and more specifically to an automatic balancing mechanism for use with centrifuge apparatus used in such chemical testing.

Background Art

In EP-A-0,160,282; EP-A-0,160,901; and EP-A-0,160,283 (state of the art according to art. 54(3) E.P.C.), chemical testing apparatus in the form of a centrifuge is disclosed. Such apparatus, as described in such copending applications, the disclosures of which are incorporated herein by reference, is particularly suitable for use in carrying out chemical testing procedures on various biological fluids, such as blood, serum, urine, spinal and amniotic fluids, and the like. As described in those copending applications, the centrifuge apparatus includes a plate member adapted to rotate at high speeds about an axis on which there is mounted one or more holding member(s) capable of receiving a sample processor card which rotates with the plate member. The holding member is adapted to receive a sample processor card; the card defines a series of channels and/or chambers through which liquid undergoing testing can be moved under the influence of centrifugal force.
In the preferred embodiments of the aforementioned centrifuge apparatus, the holding member is itself mounted for rotation relative to the plate member so that the direction of centrifugal force exerted on the sample processor card can be changed to control the flow of liquids therethrough, thereby to effect transfer and ultimate mixing of liquids from one chamber in the processor card to another.
Known from US-A-3,834,613 is a balancing mechanism for a rotor whereby a spring biased counterweight can move radially in the same compartment as a sample container. When the sample container is present the weight is displaced radially inwardly. The size, density and positioning of the weight are governed by a complicated equation.
US-A-3,762,635 is a balancing mechanism for a bucket centrifuge whereby weights are placed in position in the bucket to balance the rotor.
In the inventions described in the aforementioned copending applications, the sample processor card can be provided with a reagent for mixing with, for example, a blood sample, and the mixing is effected by means of centrifugal force. Accordingly, when the disclosed chemical testing apparatus is in operation, the centrifugal force can release the reagent, separate solid particulate matter from the fluid of the blood, measure both the reagent and the blood fluid, mix them together, and finally, transport them to a chamber from which the product of the chemical testing can be measured, for example by optical means, to determine the results of the test. Generally, such results wil be an indication of the presence or amount of a particular analyte of interest in the sample.
In the preferred centrigugal apparatus described in the foregoing copending applications, the plate member is usually provided with two or more holding members adapted to receive a sample processor card. Since the position and weight of the holding members with sample processor cards mounted thereon is substantially the same, two sample processor cards can be mounted symmetrically relative to the axis of rotation of the plate member to balance the latter during rotation. In some instances, however, the number of sample processor cards which are physically positioned in the holding members mounted on the rotatable plate member do not distribute the weight symmetrically relative to the axis of rotation, thereby resulting in imbalance of the rotating plate member. There is accordingly a need to provide means to automatically balance the plate member so that, whether a sample processor card is present in each holding member or not, a substantially uniform balance in the rotatable plate member is nonetheless achieved.

Summary of the Invention

The concepts of the present invention reside in apparatus for generating centrifugal forces, and preferably include a plate member adapted to rotate at high speeds about an axis on which there is mounted, radially of the axis, a holding means. The holding means is mounted on the plate member for rotation therewith, and, when the holding means are more than one in number, are preferably positioned symmetrically in relation to the axis of rotation of the plate member.
As described in the foregoing copending applications, the holding means is adapted to receive an article to be subjected to centrifugal force. The article is, preferably, a sample processor card which defines a series of channels and/or chambers through which liquid undergoing testing can be moved under the influence of centrifugal force.
The automatic balancing mechanism of the present invention, which upon such centrifugal apparatus as aforedescribed, includes at least one counterweight means positioned on the plate member between the holding means and the axis of rotation of the plate member. Also positioned on the plate member is a trigger means adjacent to the holding means and adapted to engage the article to be subjected to centrifugal force. Thus, when such an article is positioned in the holding means, the trigger means engages the counterweight means and prevents displacement by centrifugal force of the counterweight means. On the other hand, when no such article is positioned in the holding means, the trigger means does not engage the counterweight means, and thus centrifugal force, when the plate member is rotated about its axis, displaces the counterweight mean toward the holding means, thereby to counterbalance the holding means not containing the article.
It has been found, in accordance with preferred embodiments of the invention, that a sample processor card positioned in the holding means can be counterbalanced by the counterweight means when no corresponding sample processor card is positioned in any other holding means on the plate member. Because this automatic balancing feature is virtually self-activating without the need for a separate actuation, apart from positioning or not positioning a sample processor card in the holding means, the user of the centrifugal apparaus is assured that it will be balanced even when it is used with an odd number of sample processor cards.
It is accordingly an object of the present invention to provide an automatically-acting balance mechanism for balancing centrifuges of the type aforedescribed.
It is a more specific object of the invention to provide such an automatic balancing mechanism for centrifuges in which that mechanism automatically balances the rotating plate member of the centrifuge when no sample processor card is present in a given holding member.
These and other objects of the invention which will become apparent hereinafter, are achieved by an apparatus for generating centrifugal forces as defined in claim 1.
These and other objects and attendant advantages of the invention will appear more fully hereinafter from the detailed description which follows. For purposes of illustration, but not of limitation, preferred embodiments of the invention are shown and described with reference to the accompanying drawings.

Brief Description of the Drawings

Figure 1 is a top view in elevation of a schematic diagram of centrifugal apparatus embodying the automatic balancing concepts of the present invention;
Figure 2 is a side-elevational view in cross- section, and partially broken away to show details of construction, of the apparatus shown in Figure 1, taken generally along the line 2-2 thereof;
Figure 3 is a partially schematic view of a portion of the apparatus shown in Figure 1, and showing a portion of the centrifugal apparatus in an initial operational (rotational) condition; and
Figure 4 is a view similar to Figure 3 but showing the portion of the apparatus in a fully rotational operational condition.

Detailed Description of the Invention

Referring now in more detail to the drawings, Figures 1 and 2 illustrate preferred centrifugal apparatus embodying the concepts of the invention. The centrifuge generally shown includes a plate member 10 which is mounted for rotation about an axis 12. The plate member 10 is preferably driven by a suitable drive means 14, which may be, for example, an electric motor operating at high speeds. While plate member 10 is illust- trated in Figure 1 as a circular plate, it will be understood that its configuration is not critical to the practice of the invention. For example, it is equally possible to employ a centrifugal arm mounted for rotation about an axis.
Mounted on plate member 10 is at least one sample processor card holding means 16 (although in the preferred embodiment shown, two holding means 16 are illustrated). The holding means 16 is adapted to receive a sample processor card, as described more fully in the foregoing copending applications. As is described in such copending applications, the card holder 16 is preferably in the nature of a tray and is rotatably mounted relative to the plate member 10 on an axis 18, specifically connected to means 20 (Figure 2) to rotate the card holder 16. Since the particular means 20 to rotate the holding means 16 forms no part of the present invention, the details thereof have been omitted from the drawings for the sake of simplicity.
While the axis of rotation 12 of the plate member 10 is illustrated in Figure 2 as being vertical, it will be understood by those skilled in the art that the orientation of the axis 12 is not critical to the practice of the invention. Accordingly, the axis of rotation of the plate member 10, while preferably vertical, can also be horizontal, or inclined in any direction, since the effects of gravity on the sample processor card rotating with the plate member 10 are negligible.
In the preferred practice of the invention, the card holder 16 can be rotated or indexed relative to the plate member 10 by the means 20. In an especialy preferred embodiment, the holding means 16 can be rotated or indexed substantially 90° relative to the plate member 10. However, as will be appreciated by those skilled in the art, the holding means 16 can be rotatable by an amount greater than 90°, up to and including a full 360°. The important feature is that the card holder 16 be adapted to receive the sample processor card which is rotated relative to the plate member 10 so that the direction of the centrifugal force acting on the sample processor card can be altered to effect the necessary fluid-transport functions during the chemical testing operation.
For ease of description, shown in Figures 1 and 2 are a pair of holding means 16 mounted symmetrically with respect to the axis of rotation 12 of the plate member 10. As will be appreciated by those skilled in the art, it is equally possible, and sometimes preferred, to equip the plate member 10 with only one or a greater number than two, of holding means 16 which can be, and preferably are, symmetrically spaced about the plate member 10.
The automatic balancing device of the present invention includes a pair of counterweights 22 and 22' which are capable of displacement along a radius of the axis of rotation 12 of the plate member 10 toward and away from the holding means 16. Each of the counterweights 22 and 22' is spring-biased by means of spring means 24 and 24', whereby the counterweight can be maintained in a stored position, illustrated by reference to the counterweight 22' in Figure 1.
Positioned adjacent to the holding means 16 is a trigger means 26, pivotally mounted about a pivot point 28. The trigger means 26 has a portion 30 adapted to engage a corresponding engagement means 32 of the counterweight 22. The trigger means includes a cam surface 34 which is adapted to engage a lateral surface 36 of a sample processor card 38, when the latter is positioned in the holding means 16.
Considering the right-hand holding means 16 in Figure 1, a sample processor card 38, placed in the holding means 16, serves to pivot the trigger means 26' against the effect of a spring 40', so that the engaging portion 30' of the trigger means 26' engages the corresponding engaging means 32' of the counterweight 22'. Thus, as the plate member 10 is rotated, the counterweight 22' is prevented, by the engagement of the trigger means 26' with the counterweight 22', from being displaced toward the holding means 16.
When no sample processor card is positioned in the holding means 16, as shown in the left-hand side of Figure 1, the trigger means 26 is biased by means of spring 40 away from engagement with the counterweight means 22. Thus, as the plate member 10 is rotated, the counterweight 22 is displaced against the action of the spring 24 toward the left-hand holding means 16 shown in Figure 1. The displacement of the counterweight 22 away from the axis of rotation 12 of the plate member 10, as is appreciated by those skilled in the art, serves to counterbalance absence of the weight of the sample processor card 38 in the left-hand holding means 16.
Thus, a sample processor card 38, by means of the trigger means 26', causes the counterweight 22' to remain in the stored position because of its presence, while the absence of a sample processor card in the left-hand holding means 16 allows the counterweight 22to be displaced away from the axis of rotation 12 of the plate member 10 to a balancing position, thereby to offset and counterbalance the absence of the sample processor card in the left-hand holding means 16 of Figure 1.
It will be well understood by those skilled in the art that other configurations and arrangements of the counterweight with respect to the sample processor card holding means are possible. For example, it is possible to employ one counterbalance system for each of a plurality of pairs of sample processor card holding means 16 upon the plate member 10. In that way, a sample processor card would always be provided to the holding means 16 not equipped with the automatic balancing device, while the opposite holding means 16 would be provided with an automatic balancing mechanism to counterbalance the sample processor card when no sample processor card is used in such opposite holding means 16.
Referring now to Figures 3 and 4 of the drawings for a further explanation of the operation of a centrifuge incorporating the concepts of the present invention, in a preferred embodiment thereof, an enlarged view of the counterweight 22', trigger means 26' and sample processor card 38 of Figures 1 and 2 is shown. In operation of the centrifuge and concommitant rotation of the plate member 10, as previously described, initial engagement of the trigger means 26' with the counterweight 22' is shown in Figure 3. In such initial engagement, a gap 42 exists between an upper edge 32" of the engagement means 32' of the counterweight 22'; and portion 30' of the trigger means 26'; the gap 42 is present at the beginning of rotation of the plate member 10 when the centrifuge is initially placed in operation, as is the case when, for example, assays or chemical tests are being performed using the centrifuge. At this point in operation, the trigger means 26' is in contact with the card 38 along its cam surface 34'. However, as shown in Figure 4, as the plate member 10 rotationally accelerates, the weight of the counterweight 22' bearing against the trigger means 26' further rotates the latter so that the gap 42 closes and the portion 30' of the trigger means 26' contacts the upper edge 32" of the engagement means 32'. The trigger means 26' therefore is no longer in contact along its cam surface 34' with the card 38. Thus, the card 38 can rotate freely relative to the plate member 10 without being hindered by the action of trigger means 26'.
Where technical features mentioned in any claim are followed by reference signs, those reference signs have been included for the sole purpose of increasing the intelligibility of the claims and accordingly, such reference signs do not have any limiting effect on the scope of each element identified by way of example by such reference signs.

Claims

1. In an apparatus for generating centrifugal forces including a plate member (10) adapted to rotate about an axis (12) and holding means (16) mounted on the plate member (10) in rotation therewith, said holding means (16) being positioned on the plate member (10) radially of the axis of rotation (12) of the plate member (10) and being adapted to receive an article (38) to be subjected to centrifugal force, the apparatus further comprising:

(a) at least one counterweight means (22, 22') positioned on the plate member (10) between said holding means (16) and the axis of rotation (12) of the plate member (10) said counterweight means (22, 22') having means (32, 32') to releasably engage a trigger means (26, 26'), and

(b) trigger means (26, 26') positioned adjacent to said holding means (16) and adapted to engage an article (38) to be subjected to centrifugal force when such article (38) is positioned in said holding means (16), thereby to engage the counterweight means (22, 22') and prevent displacement by centrifugal force of the counterweight means (22, 22') and to allow the counterweight means (22, 22') to be displaced toward said holding means (16) when no article (38) is positioned therein, thereby to counterbalance said holding means (16).

2. Apparatus as defined in Claim 1, further including means (14) for rotating the plate member (10) about the axis (12).

3. Apparatus as defined in Claim 1, wherein said holding means (16) are rotatable relative to the plate member (10) during rotation of the plate member (10) about its axis (12), thereby to change the direction of the centrifugal force acting on said article (38).

4. Apparatus as defined in Claim 1 or 3, further including means (20) to rotate said holding means (16) relative to the plate member (10).

5. Apparatus as defined in Claim 1, wherein the trigger means (26,26') is capable of being pivoted in response to the placing of the article (38) in said holding means (16) so that the trigger means (26, 26') engages said counterweight means (22, 22') to maintain said counterweight means (22, 22') in a storage position.

6. Apparatus as defined in Claim 1, wherein the trigger means (26, 26') is biased away from engagement with said counterweight means (22, 22') so that the trigger means (26, 26') is maintained away from engagement with said counterweight means (22, 22') when no article (38) is positioned in said holding means (16).

7. Apparatus as defined in Claim 1, wherein said counterweight means (22, 22') is biased toward the axis of rotation (12) of the plate member (10).

8. Apparatus as defined in Claims 1, 3, 5 or 6, wherein said article (38) comprises a sample processor card (38) for performing a chemical analysis.