Means for compressing tubes and the like
A device (10) for stripping fluid from a tube (40) is provided that is of use in stripping blood from bloodlines after the collection of blood from donors. The device is preferably hand-held and battery-powered, having a fixed driven roller (18), a moveable idle roller (20) and a tube guide (22) extending cantilever-fashion from one end thereof. The idle roller (20) can be moved toward the fixed and driven roller (18) to form a nip therebetween which pinches the tube (40) and draws it through the nip when the driven roller (18) is rotated. Idle roller (20) is moveable in a slot (50) and in direction which is never coplanar with the plane (Y) that contains the axes of the rollers (18 & 20). The angle θ between the direction of movement of the idle roller (20) and the plane (Y) containing the axes of the rollers when the nip is formed can vary between about 30 and 90 degrees.
This invention relates to devices and methods for use in compressing hollow flexible tubes to express matter contained therein. It is particularly, but not exclusively, suited to stripping blood from tubes that are connected to blood packs.
BACKGROUNDOur prior international patent application PCT/AU01/0400 disclosed devices and methods of this nature, with particular application for the stripping of blood lines. It also reviewed relevant prior art and the uses for such devices. Some of the devices disclosed in our prior application were hand-held and self-powered. This invention is particularly concern with further improvements to the design and operation of such devices.
The devices disclosed and illustrated in our prior patent application each had a pair of rollers that could be brought together to form a nip to pinch the tube and then rotated to draw the tube through the nip, thereby stripping or expressing the contents of the tube. If desired, the rotation of the rollers could be reversed and the tube driven in the opposite direction to allow it to fill with mixed blood and anticoagulant from the blood bag. After repeating the stripping and refilling steps one or two times, the full tube can be heat-sealed to form a sausages-string of sample pouches of blood that are very useful for use in cross-matching at a later date. Of course, at the end of the stripping procedure, the rotation of the rollers is stopped and the rollers are moved apart to allow the tube to be removed from the stripping device.
As is conventional in rolling mills and calendaring devices, the axes of the rollers of our prior application always remained in a plane that was orthogonal to the direction of travel of the material therebetween while the rollers are moved together and apart. We have now found that, in handheld tube-stripping devices where power is limited, undesirable strain and power consumption is involved when forming the nip, and/or it is difficult to obtain the desired pressure or gap between the rollers at the nip.
OUTLINE OF THE INVENTIONThe present invention is based upon the realization that design and performance advantages in tube stripping devices, especially compact hand-held devices, if the roller movement that forms the nip is always at an angle to the plane that contains the axes of the rollers. For example, the angle between the roller movement and the plane of the roller axes when the nip is formed can be anywhere between about 30 degrees and 90 degrees. This is to be contrasted with conventional roller systems where the roller movement is always coplanar with the plane of the roller axes; that is, the angle between the direction of roller movement and the plane of the axes when the nip is formed is zero.
Thus, from one aspect, the present invention includes a device for expressing fluid from a tube by drawing the tube through the nip of a pair of rollers having spaced axes of rotation, one of the rollers being moveable toward the other to form the nip and away from the other to facilitate placement and removal of the tube from between the rollers, the device being characterized in that the moveable roller moves toward and away from the other in a direction that is at an angle to the plane that contains the axes of the rollers.
A tube guide may be used to guide the tube as it enters and or leaves the nip of the rollers and to assist in keeping the tube in the central portion of the nip. The tube is thus constrained to follow a defined path between the rollers and the guide when it is being stripped, and it is convenient to say that this path is ‘longitudinal’ with respect to the tube since the tube is flexible and will seldom be straight along its entire length.
Thus, from another aspect, the invention comprises a device for use in stripping fluid from a length of tube using rollers that can be brought together on opposite sides of the tube to form a nip between the rollers to compress the tube, at least one of the rollers being rotationally driven to draw the tube through the nip so as to expel fluid from the tube, the device being characterized in that the rollers are brought together to form the nip by moving one toward the other in a direction that has a longitudinal component with respect to the tube.
Conveniently, the rollers and the guide extend cantilever-fashion from the body of the device and one of the rollers is driven by first drive means and the other roller is allowed to idle, the idler roller being supported on mounting means that can be moved toward and away from the driven roller (to close and open the nip) by second drive means. The mounting means can be in the form of a yoke that straddles a drive shaft connected to the driven roller, the idler roller being rotatably mounted on one of the arms of the yoke and the second drive means being coupled to the other arm of the yoke to drive it so that the idler roller can be driven toward or away from the driven roller in the desired manner. One way of driving the yoke is to employ a leadscrew that engages with a nut in the respective arm of the yoke, the leadscrew preferably being rotated by a worm gear that forms part of the second drive means and mounted on a frame that is fixed relative to the body of the device.
DESCRIPTION OF AN EXAMPLEHaving broadly portrayed the nature of the present invention, one example of a device formed in accordance with the principles of the invention outlined above will now be described with reference to the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
Referring generally to
A pair of pads 30 and 32 are affixed to the top of device 10, as shown in
The normal mode of operation of the device will thus be as follows: (i) device 10 is held in one hand, (ii) starting with rollers 18 and 20 apart, the tube 40 is placed in position between them and under guide 22 using the other hand, (iii) pad switch 34 is then operated by a finger of the first hand to close the rollers onto tube 40, rollers 18 and 20 being driven forwards (ie, in the direction of arrows 44) upon activation of switch 34 to close them so that, when closed, tube 40 is driven longitudinally (with respect to the tube) in the direction of arrow 42, (iv) upon reaching the blood bag or sealed needle-end of the tube, pad switch 36 is operated and held down to reverse the roller drive until the starting point is reached, (v) whereupon pad 36 is released and rollers 18 and 20 are again driven forwards, and finally (vi), when sufficient forward and reversing of the rollers had been effected, pad switch 34 is operated to open the rollers again, automatically effecting inactivation of the roller drive and allowing tube 40 to be removed from device 10. This mode of operation is substantially as disclosed in our prior patent.
In this example, roller 18 is mounted fixedly relative to body 12 of device 10 and is driven by first drive means (to be described), while roller 20 is an idler roller that is moveable within body 12 toward and away from fixed roller 18, the direction of movement being vertical, that is, parallel with the joint 13 between the two halves 12a and 12b of body 12 and generally longitudinal with respect to the tube (when in place, as in
In the arrangement of
It is important to note that the direction of movement of moveable roller 20 or 20a is never coplanar with the plane Y defined by the axes of the two rollers 18, 18a and 20, 20a, whether the rollers are open or closed. This contrasts with the prior art where the direction of movement of the moveable roller is always coplanar with the axes of the two rollers. While
Turning now to
Yoke 72 is driven up and down by means of a vertical leadscrew 74 that engages a nut 76 fixed in the top of yoke arm 72b, which is bored to take leadscrew 74. The top of leadscrew 74 is mounted for rotation in a bearing 76 fitted into a horizontal plate 66b that forms part of frame 66, the lower portion of leadscrew 74 being rotationally and slidingly located by a bearing 78 that is mounted in the bottom part of yoke arm 72b and retained there by a circlip 80. A worm-wheel 82 is fixed to leadscrew 74 below yoke arm 72b, the lower extremity of leadscrew 78 being mounted for rotation in a bearing 84 fitted in a lower horizontal plate 66c of frame 66. Worm-wheel 82 is engaged by a worm 86 that is mounted on a horizontal shaft 88 that is driven by a second low-voltage motor and gearbox assembly 90, the front end of shaft being located in a bearing (not shown) located in front element 66a of frame 66. Thus, in this example, the second drive means can encompass motor 90, shaft 88, worm and gear 86 and 82 and leadscrew 74 and nut 76, either in their entirety or in part.
It will be seen that rotation of shaft 88 by motor 90 in one direction or the other will effect the rotation of leadscrew 74 in nut 76 (via worm drive 82/86) and cause yoke 72 to be driven up or down, carrying idler roller 20 with it. The slot 50 in frame 66a (visible in front face 24 of device 10) permits this movement, as already noted. Though not shown in the drawings, it is desirable that both the up and down movements of yoke 72 be set by limit switches connected in the power circuit to motor 90. This technique is well known in the art and can be used to effect fine adjustment of the upper limit of travel of roller 20 to set the roller nip X to the desired gap. It will also be seen that, because shaft 60 (by which fixed roller 18 is driven) passes through the central opening 92 of yoke 72, it and roller 18 are free to rotate whatever the position of the yoke. [As shown in
While the above example illustrates a device that is particularly useful for stripping blood lines, it will be appreciated that disclosed principle of roller movement can have application elsewhere and that many changes can be made to this example without departing from the scope of the mechanism as defined by the following claims. For example, the device need not be battery powered as power can readily be supplied to the drive means via a trailing electrical lead.
Claims
1. A device for expressing fluid from a tube by drawing the tube through the nip formed between a first roller and a second roller respectively having first and second axes, the second roller being moveable toward the first to form the nip and away from the first to facilitate placement and removal of the tube from between the rollers, the device being characterized in that:
- the second roller is mounted for movement toward and away from the first roller in a direction that is at an angle to the plane containing the axes of the rollers; that is, in a direction that is not coplanar with the axes of the rollers.
2. A device for expressing fluid from a tube according to claim 1 wherein said angle is between 30 and 90 degrees when the nip between the rollers is formed.
3. A device for use in stripping fluid from a length of tube, the device having first and second rollers that are respectively rotatable about first and second axes of rotation and which can be brought together on opposite sides of the tube to form a nip between the rollers and a pinch-point in the tube, and the device having drive means for rotating at least one of the rollers so as to move the pinch-point longitudinally along the tube to expel fluid from the tube, the device being characterized in that:
- the rollers are brought together to form the nip by moving the second roller toward the first in a direction that has a longitudinal component with respect to the tube, when the device is in use.
4. A device according to claim 3 wherein:
- the device has a body that includes a frame,
- the first and second rollers are mounted on the frame so as to extend cantilever-fashion from the body,
- first drive means is provided within the body and fixed to the frame for rotating the first roller about its axis, the axis of the first roller being fixed with respect to the frame,
- the second roller is an idle roller mounted for free rotation about its axis on mounting means that is moveable with respect to the frame so as to be adapted to move the second roller relative to the first roller, and
- second drive means is provided within the body and fixed to the frame, said second drive means being adapted to move said mounting means, together with the second roller mounted thereon, with respect to the frame.
5. A device according to claim 4 wherein:
- the first roller is mounted for rotation by a shaft that extends from one end of the roller and is coupled to the first drive means so that the first roller can be rotated by the shaft,
- said mounting means is in the form of a yoke that straddles said shaft, the yoke having two opposing arms with the shaft arranged therebetween and the yoke being slidably mounted on the frame within the body,
- the second roller is mounted on one of said arms of the yoke, and
- said second drive means is coupled to the other arm of the yoke to effect the movement of the mounting means.
6. A device according to claim 5 wherein:
- a leadscrew is mounted for rotation on the frame and is engaged with a nut that is secured to said other arm of the yoke so that rotation of the leadscrew will effect movement of the mounting means and the second roller relative to the frame,
- said second drive means is rotatably coupled to the leadscrew so as be able to rotate the leadscrew in one direction so as to move the yoke to carry the second roller toward the first roller and in the other direction so as to move the yoke to carry the second roller away from the first roller.
7. A device according to claim 6 wherein:
- a worm wheel is fitted to one end of the leadscrew and a worm that engages the leadscrew is fitted to a second shaft that is coupled to the second drive means for rotation thereby in either direction.
8. A device according to claim 7 wherein:
- a guide is provided for constraining the lateral movement of the tube and for ensuring its longitudinal movement.
9. A device according to claim 1 wherein:
- the device has a body that includes a frame,
- the first and second rollers are mounted on the frame so as to extend cantilever-fashion from the body,
- first drive means is provided within the body and fixed to the frame for rotating the first roller about its axis, the axis of the first roller being fixed with respect to the frame,
- the second roller is an idle roller mounted for free rotation about its axis on mounting means that is moveable with respect to the frame so as to be adapted to move the second roller relative to the first roller, and
- second drive means is provided within the body and fixed to the frame, said second drive means being adapted to move said mounting means, together with the second roller mounted thereon, with respect to the frame.
10. A device according to claim 9 wherein:
- the first roller is mounted for rotation by a shaft that extends from one end of the roller and is coupled to the first drive means so that the first roller can be rotated by the shaft,
- said mounting means is in the form of a yoke that straddles said shaft, the yoke having two opposing arms with the shaft arranged therebetween and the yoke being slidably mounted on the frame within the body,
- the second roller is mounted on one of said arms of the yoke, and
- said second drive means is coupled to the other arm of the yoke to effect the movement of the mounting means.
11. A device according to claim 10 wherein:
- a leadscrew is mounted for rotation on the frame and is engaged with a nut that is secured to said other arm of the yoke so that rotation of the leadscrew will effect movement of the mounting means and the second roller relative to the frame,
- said second drive means is rotatably coupled to the leadscrew so as be able to rotate the leadscrew in one direction so as to move the yoke to carry the second roller toward the first roller and in the other direction so as to move the yoke to carry the second roller away from the first roller.
12. A device according to claim 11 wherein:
- a worm wheel is fitted to one end of the leadscrew and a worm that engages the leadscrew is fitted to a second shaft that is coupled to the second drive means for rotation thereby in either direction.
13. A device according to claim 12 wherein:
- a guide is provided for constraining the lateral movement of the tube and for ensuring its longitudinal movement.
14. A device according to claim 1 wherein:
- a guide is provided for constraining the lateral movement of the tube and for ensuring its longitudinal movement.
15. A device according to claim 3 wherein:
- a guide is provided for constraining the lateral movement of the tube and for ensuring its longitudinal movement.
Type: Application
Filed: Sep 19, 2003
Publication Date: Apr 20, 2006
Inventors: Craig Wilson (New South Wales), Jagmohanbir Dillon (Capital Territory), William Mobbs (Capital Territory)
Application Number: 10/528,327
International Classification: B65D 35/28 (20060101);