Patent Grant
7789551
This invention relates to devices for blending materials and bags for use in such devices. The materials to be mixed or blended may be liquids or semi-liquid matter, and in some cases solids, powders or even gases. The invention is particularly concerned with the preparation of samples for bacteriological or chemical testing.
There are existing blending devices comprising a door which acts as a support for holding a sample bag and two reciprocating paddles for acting on the bag. A bag may be placed on the support and then brought into an operating position (by closing the door of the device) to clamp in position and seal the bag. The paddles are arranged to reciprocate, alternately pressing on the outer surface of the bag, kneading the contents of the bag to achieve a blending action. The paddles reciprocate over a fixed range of motion and the support can be positioned so that there is always an appropriate gap in which the bag may sit during blending. The minimum gap between the paddles and the support during blending can be termed the “paddle clearance”.
During the time that blending devices of the type described above have been on the market, techniques for analyzing samples in the fields of bacteriological and chemical testing have improved. As a result of these improvements scientists now often work with smaller samples.
In general, when working with smaller samples, a smaller paddle clearance is required. Otherwise, the paddles either fail to make contact with the bag or make insufficient contact to achieve effective blending of the contents of the bag. The result of this is that smaller samples may remain unblended.
When working with smaller samples there is also a problem in obtaining a useful blended sample. For example, a conventional bag sold for use with a blending device marketed by the applicants is designed to hold between 5 ml and 80 ml of liquids—with such sized samples, good results are achieved. However, it has been found that if 250 μl of liquid is used in this conventional bag, the result can be that you merely end up with the inside of the bag becoming wet. It can be difficult or impossible to extract a useful sample of the liquid.
It is an object of the present invention to alleviate at least some of the problems associated with the prior art.
According to a first aspect of the present invention there is provided a device for blending materials comprising a carrier support arranged to support a closed bag containing material to be blended, at least one reciprocating kneading paddle having an extended position and being arranged to apply a kneading action to the walls of a supported bag for homogenizing its contents, and adjustment means for controllably varying a spacing between the paddle when in its extended position and the carrier support.
Such an arrangement can facilitate the blending of differently sized samples. Thus, for example a device can be used for blending conventional 5 ml to 80 ml samples and for much smaller samples. Moreover the provision of adjustment means, means that it is a simple matter for a user to change the spacing between the paddle and carrier support (change the paddle clearance) for different sized samples.
Typically, the adjustment means comprises a user operable control for use in varying the spacing. The user operable control may comprise a knob which is rotatable by the user to vary the spacing.
Preferably the adjustment means is arranged so that the spacing may be varied during operation of the device. This means that the process of blending a sample may be begun and the pressure exerted on the bag, and sample, changed during the blending process.
Preferably the adjustment means comprises a cam arrangement for varying the spacing between the extended paddle position and the carrier support.
Because of the continual operation of the paddles when the device is in use and the forces exerted between the paddles and the carrier support, the adjustment mechanism needs to be robust. For this reason a cam arrangement is favored over use of a lead screw or some other threaded component, which is more likely to wear or jam over time.
The cam arrangement may comprise a pair of interacting cam portions whose cam surfaces face one another. A first of the cam portions may be mounted against rotation in the device and a second of the cam portions may be mounted in the device for rotation relative to the first cam portion. The cam portions may be arranged so that relative rotation of the pair of cam portions causes a spacing between their respective mounting points to change.
The second cam portion may be rotatable by rotation of the user operable control.
The device may comprise a backing portion on which the carrier support is mounted. The carrier support may be arranged for movement relative to the backing portion to change the spacing between the paddle when in its extended position and the carrier support. One of the cam portions may be mounted on the carrier support and the other of the cam portions may be mounted on the backing portion such that relative rotation of the cam portions causes the spacing between the carrier support and the backing portion to change, thus changing the spacing between the paddle when in its extended position and the carrier support.
Preferably the device comprises a door which comprises the backing portion, the carrier support and the adjustment means. The backing portion may comprise the outer surface of the door. The user operable control may be provided at the outer surface of the door.
Where the user operable control is a knob this may be mounted to the second cam portion and protrude through the backing portion. Thus in the case where the backing portion comprises the outer surface of the door, the knob for adjusting the paddle clearance may be provided on the door.
According to a second aspect of the present invention there is provided a sample bag comprising a generally triangular sample holding portion.
The generally triangular shape of the sample holding portion allows easier collection of the sample after blending. When the blending process is complete, a user may grasp the bag and, using his thumb and forefinger (or otherwise), drag the dispersed sample to an apex of the triangle. Once the sample has been collected in an apex of the triangle, a pipette tip may be inserted into the bag to collect the sample from the corner. This method results in minimal loss of sample.
Here what is important is that there is a collecting zone for the sample. Thus the expression generally triangular should be interpreted broadly, for example, the triangle could have curved sides.
According to another aspect of the present invention there is provided a sample bag comprising a sample holding portion that comprises a sample collecting portion. The sample collecting portion should preferably be small compared to the size of the bag.
According to yet another aspect of the present invention there is provided a sample bag comprising a sample holding portion and sealing means for sealing the sample holding portion until use.
The sealing means may comprise a closure portion that may be removed to allow access to the sample holding portion.
The sample bag may comprise a pair of generally rectangular sheets which may be sealed together by a pair of seal lines to form the generally triangular sample holding portion.
There may be further seal lines between the pair of sheets, although often such additional lines will serve no useful function.
A seal line may be provided to seal the sample holding portion until use. Said seal line may be provided between the pair of seal lines forming the generally triangular sample holding portion, so forming a triangular sample receiving portion sealed against the ingress of material. Said seal line may be provided in a closure portion.
To use the bag, the user may tear or cut the closure portion away from the remainder of the bag to allow access to be obtained to the interior of the sample holding portion.
One or more seal line may be applied to a generally rectangular bag to form the sample holding portion, and a further seal line may be applied to seal the sample holding portion until use.
The sample bag may be a paddle blender sample bag.
According to a third aspect of the present invention there is provided a method of preparing a sample comprising the steps of:
According to a fourth aspect of the invention there is provided apparatus comprising a device according to the first aspect of the present invention and a bag according to the second aspect of the present invention wherein the width of the bag is substantially the same as the width of a paddle in the device which is arranged to contact the bag for blending of the contents.
Throughout this specification the word “comprise”, or variations such as “comprises” or “comprising”, will be understood to imply the inclusion of a stated element, integer or step, or group of elements, integers or steps, but not the exclusion of any other element, integer or step, or group of elements, integers or steps.
A blending device and a bag for use therewith which embody the present invention are now described, by way of example only, with reference to the accompanying drawings in which:
At this basic level the device comprises a door 1 which is pivotable about a hinge provided at one end and comprises a carrier support 2 for supporting a bag 3 containing a sample to be blended. Clamping sealing means 4 is provided to hold the bag 3 and to provide a seal prior to and during operation of the device. In this embodiment a kneading means which comprises a first and second paddles 5,6 is provided. The first paddle 5 has an associated driving means 8 for reciprocatingly driving the first paddle 5 in a direction which is substantially perpendicular to the kneading surface 5a of the first paddle 5. Similarly, a second driving means 9 is provided for reciprocatingly driving the second paddle 6 in a direction which is substantially perpendicular to a kneading surface 6a of the second paddle 6. A common motor 10 provides the power for both of the driving means 8, 9 which are each in the form of transmission gearing arrangements.
The door 1 is pivotable about the hinge between an open position in which a sample bag 3 can be loaded (see
The reciprocation of the paddles 5, 6 tends to crush the sample in the bag 3 and to push the sample around the bag 3 causing the sample to be blended.
There are various different configurations of paddles that may be used in such devices and different drive patterns that may used. Thus, for example there may be a single paddle, the or each paddle may be rectangular or specially shaped to encourage circulation of the contents, there may be more than two paddles, paddles may be driven in phase, island baffles may be provided between paddles and so on.
In the present embodiment an important feature is the facility for adjusting the paddle clearance. In the present embodiment this adjustment facility is provided by a mechanism provided in the door 1, details of which are omitted from
The carrier support 2 is arranged for movement relative to the outer plate 10 of the door via operation of a cam arrangement 11. It will be seen that movement of the carrier support 2 towards and away from the outer plate 10 of the door causes the paddle clearance A to change.
The cam arrangement 11 comprises a outer cam portion 111 and a inner cam portion 112 which are provided with their respective cam surfaces facing one another and retained in contact with one another.
The inner cam portion 112 is mounted to the carrier support 2 on a surface which is opposite that which is for supporting an inserted bag 3. The inner cam portion 112 is fixed against rotation.
The outer cam portion 111 is mounted in a cam portion housing 113. The housing 113 comprises a knob 113a, which projects through an aperture formed in the outer plate 110 of the door 1. The cam portion housing 113 is mounted for rotation relative to the outer plate 110 of the door 1 and the outer cam portion 111 is mounted so as to rotate with the cam portion housing 113.
Thus the outer cam portion 111 is arranged for rotation relative to the inner cam portion 112. Furthermore the cam surfaces on the two cam portions 111, 112 are arranged so that relative rotation between the cam portions 111,112 from a start position causes the cam portions 111,112 to be driven apart.
Therefore, rotation of the knob 113a by a user causes the carrier support 2 to move relative to the outer plate 10 of the door and hence changes the paddle clearance. It should be noted that the paddle clearance may be adjusted from the exterior of the device—i.e., by operation of the knob 113a and that the paddle clearance can be adjusted during operation of the device if required. Furthermore, within the range of adjustment provided, the paddle clearance may be varied continuously.
However, to give cam adjustment it will be clear that all that is required is the provision of interacting surfaces which allow a user to change the separation between components by movement of these surfaces relative to one another. Thus the movement might be linear rather than rotary and there may be a single cam portion and an appropriate following portion. However rotary movement is preferred, as is the provision of a pair of interacting cam portions. Even in such a case the cam portions need not have the same or similar cam surfaces, they merely need to interact to give the desired separation effect.
The surface of the inner cam portion 111 comprises a flat circular portion 111a having no camming function and a rim portion 111b. The rim portion 111b varies in height around the circumference of the inner cam portion 111 reaching five peaks 111c to form a saw tooth like profile (the side of the rim portion 111b can be seen in
It will be appreciated that differing numbers of peaks and differing cam profiles may be chosen to give different effects. It has in fact been found that the use of three ramp like portions with three respective peaks is particularly effective. Although not shown in the drawings, in the present embodiment stop means are provided to prevent a user turning the knob such that the cam surfaces jump of the end of respective peaks causing a collapse of the carrier support towards the outer plate of the door 1. The stop position can be chosen to keep a desired minimum zone of contact between the facing cam surfaces.
With the carrier support 2 in the withdrawn position, shown in
With the carrier support in the extended position, shown in
Alternative embodiments may be constructed so that when the carrier support 2 is in the extended position there is effectively a zero paddle clearance, allowing the user to select as small a clearance as desired. Further, of course the paddle clearance may be adjusted in use.
Many different types of sample bags may be used with devices of the general type described above.
When the bag 3 is placed in a blending device of the type described above and the door 1 is closed, the clamping sealing means 4 seals the receiving portion 30.
A sample may be readily inserted into the bag 3 via the open edge 31. The sample may then be blended using the blending device as described above. After blending has been completed a user may grasp the bag 3 and, using his thumb and forefinger (or otherwise) drag the dispersed sample to the apex 34 of the receiving portion 30. Once the sample has been collected in the apex 34, a pipette tip may be inserted into the receiving portion 30 to collect the sample from the apex 34. This method results in minimal loss of sample.
It will be seen that other generally triangular shaped receiving portions may be provided to similar effect—for example there may be curved seal lines.
Besides the seal lines mentioned above there may be other seal lines between sheets of plastic making up the bag. One or more seal line may be added to a conventional rectangular sample bag to give the desired receiving portion 30. In such a case a single diagonal sealing line could provide a triangular receiving portion with one of the existing edges of the bag giving the other edge of the receiving portion.
The bag may be dimensioned so as to closely match the size of the kneading surface 5a,6a of one of the paddles 5,6 of the blending device. Where the kneading surface 5a,6a is rectangular, this rectangle may be of the same size and shape as that of the sample bag.
| Number | Date | Country | Kind |
|---|---|---|---|
| 0405173.6 | Mar 2004 | GB | national |
| 0405188.4 | Mar 2004 | GB | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/GB2005/000867 | 3/7/2005 | WO | 00 | 9/7/2006 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2005/084787 | 9/15/2005 | WO | A |
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| 1402538 | Sep 1975 | GB |
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| Number | Date | Country | |
|---|---|---|---|
| 20070140047 A1 | Jun 2007 | US |
