Classifications

• • F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
  • F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
  • F04B—POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
  • F04B43/00—Machines, pumps, or pumping installations having flexible working members
  • F04B43/12—Machines, pumps, or pumping installations having flexible working members having peristaltic action
  • F04B43/1253—Machines, pumps, or pumping installations having flexible working members having peristaltic action by using two or more rollers as squeezing elements, the rollers moving on an arc of a circle during squeezing

Definitions

• a chemotherapeutic agent or the like may be continuously administered to a tumor site of a patient, for example in the liver or pancreas, through an implanted catheter, while the infusion pump, being small enough to be carried or worn, continuously pumps a predetermined dose of chemotherapeutic agent on a continuous 24 hour a day basis. Excellent clinical results have been achieved by this type of treatment. Alternatively, medicines or other solutions having higher dosage requirements may also be applied by the pump.
• the therapy which is available through a miniature pump capable of administering medication on a 24 hour basis becomes available to even more people despite visual handicaps, age, and state of debilitation, to open up this promising therapy to such people without the need of as frequent medical supervision, permitting the people to live at home and to go about daily activities while being treated.
• This pump can be used to pump a self-contained, small bag of solution, and it can be also used to pump larger volumes of parenteral and other solution as desired.
• a pressure pump for fluids through flexible tubing which comprises a pressure member of generally circular periphery and means for moving the pressure member in orbital motion about an axis of rotation.
• a sleeve member is also positioned about the pressure member and spaced for receiving and retaining the flexible tubing in an annular space between the pressure member and the sleeve member, with the tubing surrounding the pressure member for pumping of fluids through the tubing.
• the sleeve member is divided into a pair of jaws attached together at one end in hinged relation to permit opening and closing of the jaws about the pressure member to facilitate installation of the tubing.
• the jaws define end surfaces which abut together in the closed position, and slots defined through the end surfaces communicating between the annular space and the area outside the pressure pump to receive lengths of the flexible tubing occupying the annular space and extending into and out of the annular space through the slots.
• the slots are preferably proportioned to cause the lengths of tubing in the slots to abut together while the jaws are closed, to reduce the possibility of fluid leakage through the tubing when the pressure member is displaced in its orbital motion toward the abutting lengths of tubing in the slots.
• the slots may also be preferable for the slots to permit the lengths of tubing therein to each be folded about an angle of substantially 180°.
• This provides room for r- latch means to be provided to retain the jaws in closed position.
• the latch means is removed from engagement with the jaws to permit their opening.
• the latch means can be a sliding member or any other type of latching means.
• added slot means can be formed into the latch means which engages the jaws.
• the lengths of tubing thus do not have to be folded about an angle of substantially 180° but instead can pass upwardly through the slot in the latch means. This avoids any possible 5 kinking of the tubing that may be caused by folding it about the angle of substantially 180° as described above.
• Figure 1 is a perspective Q view of the pressure pump of this invention with the jaws in fully open position in preparation for loading of the flexible tubing.
• Figure 2 is another perspective view of the pressure pump showing how one jaw can be rotated to its closed position and the tube threaded through the slot on the end surface thereof.
• Figure 3 is a fragmentary perspective view showing how the other jaw can be brought to its closed position 5 and the tubing threaded through the slot and the end surface thereof in similar manner to the first jaw.
• Figure 4 is a fragmentary perspective view showing how one form of latch means can be brought forward to retain the jaws in closed position.
• Figure 5 is a perspective view of an alternative embodiment of the pressure pump of this invention, shown in a configuration similar to that of Figure 2.
• Figure 6 is a perspective view of the pressure pump of Figure 5, shown carried in a housing, with the pump ] _5 carrying tubing connecting between a small bag of solution at one end and a catheter at the other end, and showing the latch means in closed position with the tubing passing therethrough.
• Pressure pump 10 in accordance with this invention is provided.
• Pressure pump 10 may be carried by any type of casing that may be desired, typically for example in the manner of the
• Pressure pump 10 includes a pressure member 12 of generally circular periphery, rotatably attached to a crank on a shaft whic is rotatable by motor 14, through gear box 15, so that pressure member 12 moves in orbital motion about an axis of rotation to achieve the orbital 5 motion.
• Sleeve member 16 is positionable about the pressure member and spaced for receiving and retaining flexible tubing 18 in an annular space 20 which is definable between the pressure member 12 and sleeve member 16 for pumping of fluids through the tubing by the orbital motion of pressure member 12.
• Sleeve member 16 is divided into a pair of jaws 22 attached together at one end in hinged relation about pin 24 to permit opening and closing of jaws 22 about 0 pressure member 12, to .facilitate installation of tubing 18.
• Knob 26 may be provided for manual rotation of the crankshaft that carries pressure member 12, to orbitally move the pressure member to facilitate the installation 5 of tubing 18. Also, sliding latch 28 is provided to latch jaws 22 into their closed position by sliding about latching projections 30, to prevent the reopening of jaws 22 during operation as particularly shown in Figure 4. The specific design of latch member 28 may be 0 as disclosed in previously cited PCT publication.
• jaws 22 each define end surfaces 32 which abut together in the closed position as shown for example in Figures 3 or 4. Slots 34 are defined through end surfaces 32, being 5 proportioned to communicate between annular space 20 and the outside of pressure pump 10 to receive lengths of tubing 18 which extend from the exterior into annular space 20, and once again extending out of annular space 20 into the exterior region about pump 10. Accordingly, Q tubing 18 may connect at one end to a container of solution which is to be administered to a patient, and at its other end to a catheter communicating with the arteriovenous system of a patient, and optionally extending to an actual organ of the patient, for example a tumor site at the liver, the pancreas, or elsewhere.
• the orbital motion of pressure member 12 causes solution to be pumped through tubing 18 at an exactly predetermined, low volume rate in a manner dependent upon the velocity of such orbital motion of pressure member 12.
• tubing 18 can be folded in each slot 34 about an angle of substantially 180° so that the tubing within annular space 20 undergoes a
• the structure of this invention is very easy to load with tubing 18 so that it becomes more usable by an elderly or debilitated person.
• the basic steps of loading are illustrated by Figures 1-4.
• tubing 18 is placed between the open jaws 22 and pressure member 12.
• One of the jaws 22 is then closed as shown in Figure 2, and tubing 18 placed into slot 34 and bent double into an angle of approximately 180°.
• the other jaw 22 is then closed, with tubing 18 placed in the other slot 34 as shown in Figure 2 to achieve the configuration of Figure 3.
• the segments of tubing 18 are stretched down into their bent, 180° relationship by pulling downwardly, and latch 28 is passed over the jaws and tubing to form the latched configuration of Figure 4.
• pump 10 can be operated, with liquid passing through tubing 18 in a manner which is entirely dependent upon the rate of orbital motion of pressure member 12.
• the configuration of the pump of this invention is also advantageous because it avoids the situation where the tubing is wound about the pressure member more than 360°. This results in a higher flow capacity, when compared with prior models of the pump operating at equal power outputs. Thus the battery operated pumps will last longer when designed in accordance with this invention, all else being eqtfal, and higher flow capacities can be achieved.
• Pressure sensing means may be provided as a safety measure to shut off the pump in the event of an occlusion or blockage of the pump output.
• Pressure pump 10a includes pressure member 12a which is rotatable by motor 14a in a manner similar to the previous embodiment.
• Sleeve member 16a, divided into jaws 22a, is provided to receive tubing 18a in the space defined between pressure member 12a and sleeve 16a when jaws 22a are in their closed position, all as in the previous embodiment.
• Sliding latch 28a is provided as previously described, and may be of identical design to the previous embodiment and to that of the cited PCT publication except for ' the presence of cut away slot 40 positioned with its open mouth at the front end of sliding latch 28a. Accordingly, tubing 18a, when mounted in pump 10a, does not have to bend into a substantially 180° angle as in the embodiment of Figures 1 through 3, but instead tubing 18a can extend upwardly through end slots 34a of jaws 22a, and then through slot 40 of latch 28a, forming an angle of approximately 90° with the lengths of tubing occupying slots 34a in typically abutting relation, to eliminate any possibility of occlusion of tube 18a by kinking. Thus, tubing 18a can communicate with a bag of solution 42 at one end and with a catheter adapter 44, for example, at its other end.
• Bag 44 may be retained within housing 46, which also carries pump 10a as shown.
• Housing 46 has a hinged lid 48 which may be latched by latch r.ember 28a in a manner described in further detail in the cited PCT publication.
• Pump housing 46 and its ancillary parts may also be of the design cited in that publication.
• bag 42 may be a liter of parenteral solution hanging from an IV pole, with pump 10a being also attached to the IV pole for precise administration of large volume parenteral solutions or, if desired, large volumes of enteral solutions in an enteral feeding system through the gastrointestinal tract.
• pump 10a being also attached to the IV pole for precise administration of large volume parenteral solutions or, if desired, large volumes of enteral solutions in an enteral feeding system through the gastrointestinal tract.
• the pump can be controlled by appropriate gearing to give any desired controllable range of flow volume.
• the pump of this invention may, of course, carry a battery, or may be powered by any desired power source.

Landscapes

• Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• General Engineering & Computer Science (AREA)
• Infusion, Injection, And Reservoir Apparatuses (AREA)

Applications Claiming Priority (2)

Publications (2)

Family

ID=23503187

Family Applications (1)

Country Status (3)

Families Citing this family (3)

Family Cites Families (3)

• 1983
  • 1983-04-11 WO PCT/US1983/000528 patent/WO1983004285A1/fr not_active Application Discontinuation
  • 1983-04-11 EP EP19830901673 patent/EP0110915A4/fr not_active Withdrawn
  • 1983-04-29 CA CA000427026A patent/CA1199545A/fr not_active Expired

Non-Patent Citations (2)

Also Published As

Similar Documents

Legal Events