WO2006032070A1

WO2006032070A1 - Device for the dosed intake and delivery of a liquid

Info

Publication number: WO2006032070A1
Application number: PCT/AT2005/000379
Authority: WO
Inventors: Bernhard GALLNBÖCK
Original assignee: Pro-Med Medizinische Produktions- Und Handels-Ag
Priority date: 2004-09-22
Filing date: 2005-09-21
Publication date: 2006-03-30
Also published as: AT501250B1; AT501250A1

Abstract

The invention relates to a device (1) for the dosed intake and delivery of a liquid, especially an infusion liquid. Said device comprises a cylinder (3) embodying a liquid chamber (2) that can be pressurised, a piston (7) which is guided in the cylinder (6) along the cylinder axis (8), and at least one line (4, 5) for introducing liquid into the liquid chamber (2) and for dispensing liquid from the same. The aim of the invention is to ensure that the device is easy to handle and to prevent the risk of contamination of the infusion solution as far as possible. To this end, the piston (7) can be displaced in the cylinder (3), against an elastic force, from an idle position (R) defined by an abutment, to an end position (E) defined by an abutment, in order to displace a defined cylinder volume.

Description

Device for metered intake and delivery of fluid

Technical area

The invention relates to a device for the metered intake and delivery of liquid, in particular infusion liquid, comprising a cylinder which pressurizes a liquid chamber and a piston guided along the cylinder axis in the cylinder and at least one line for introducing and discharging liquid from the liquid chamber.

State of the art

Drugs for infusion are usually sold as concentrates or lyophilisates. This allows a more stable storage of the medically effective substance and an individual adjustment of the dose and the total amount of infusion to a patient. The dosage of infusion solution from a Infusi¬ onsgebinde in a drug vial for reconstitution and dilution of the drug, and for returning this drug solution in the infusion container or the dosage of a drug from a drug into an infusion container to be transferred drug solution is usually carried out by syringes and needles. On the one hand, the disadvantage of this procedure lies in the relatively high manipulation effort and in the danger of contaminating the environment or the operator with a potentially highly effective medicament on the one hand (for example a cytotoxic agent) Substance) and the microbial contamination of the drug or the drug ready for infusion diluted drug on the other hand. In addition, the possibility of puncture wounds when handling nails and cannulas has received ever increasing attention in recent times, so that the use of such agents should be avoided as far as possible or, if at all, should only be ensured.

Presentation of the invention

The invention is therefore an object of the invention to provide a device for metered recording and dispensing of liquid of the type described above, which avoids the simplest possible handling contamination risks for the infusion solution, and as possible no risk of injury by needles.

The invention solves this problem in that the piston in the cylinder for the purpose of displacement of a defined cylinder volume against spring force from a stop-limited rest position in a stop-limited end position is displaced.

The device according to the invention allows a transfer of a precisely defined amount of liquid, for example an infusion carrier solution such as sodium chloride or the like, into a drug container and optionally a return of the dissolved or diluted drug to a solvent container, e.g. B. an infusion bag or an infusion bottle. The transferred amount of liquid is dependent on the liquid chamber volume, wherein a transfer of a certain amount of a liquid can be done for example by repeated actuation of the device. Upon actuation of the piston, a defined cylinder volume is displaced, with a liquid optionally being sucked into the cylinder or conveyed out of the cylinder. It is irrelevant for the invention, whether the piston at minimum or maximum liquid chamber volume in its rest position or at maximum or minimum liquid chamber volume in his End position is located. Thus, by operating the piston against the spring force, depending on the embodiment of the device, optionally liquid can be sucked into the liquid chamber volume or conveyed out of the liquid chamber.

In order to further reduce the risk of contamination of infusion fluid, and also to avoid the possibility of injury by needles, it is advisable if the cylinder has two ports which are alternately flow-connected to the fluid chamber. Thus, for example, when displacing the piston from one position into the other, liquid can be sucked in via a first connection and the liquid can be conveyed out of the device via the second connection when relocating the piston into the first position without having to handle needles ( and vice versa).

If liquid is to be conveyed in the opposite direction, for example, the connections can be interchanged or a switching device can be provided with which the liquid flow through the device can be reversed. In the structurally simplest case, each of the connections includes a check valve to which the two check valves are arranged in the sense of a flow of the liquid through the cylinder from one connection to the other in the cylinder.

A complex handling with the connections of the cylinder for the purpose of conveying direction reversal or for connecting the cylinder to a Zwi¬ rule container for mixing liquids can be essentially avoided if the cylinder is rotatably mounted around the cylinder axis in a Zylin¬ dergehäuse, wherein where appropriate, the two connections of the cylinder are alternately connected alternately to at least two connections formed by the cylinder housing. However, the rotational position of the cylinder can also be adjusted so that all three ports are closed. Thus, more than two connections can be provided in the cylinder housing, wherein it can be provided by rotating the cylinder in the cylinder housing simple way is possible to connect different ports of the cylinder housing via the cylinder with each other.

A particularly compact and easy-to-use device for the metered recording and dispensing of liquid, which avoids contamination risks for the infusion solution with simple handling and low risk of injury by needling, is created when the cylinder housing part of an infusion pump with a Liquid container and preferably a gas pressure generator for expelling liquid from the container, wherein the container is flow-connected to a terminal of the infusion pump via lines and the cylinder and the liquid chamber. Thus, drugs can be applied via the connection in the container and ready-mixed infusion solution from the container.

So that medicaments for reconstitution and dilution of the medicament, for example, are first conveyed into a first mixing container, transferred therefrom after rotation of the cylinder into an infusion container and can be dispensed from the container after further rotation of the cylinder, it is recommended that the cylinder housing Part of an infusion pump with at least two liquid containers and preferably a gas pressure generator for expelling liquid from at least one container, wherein either the two containers with each other or one of the two containers with a connection of the infusion pump via lines and the cylinder and its liquid chamber flow-connected are.

In order to adapt the liquid chamber volume to a wide variety of needs, it is recommended that the distance between stop-limited rest position and stop-limited end position with respect to the cylinder axis is adjustable by means of an adjustment. By adjusting the distance between the two end positions, the piston stroke in the cylinder is thus optionally increased or reduced, whereby of course the volume of the liquid chamber also changes in the same sense. Particularly simple conditions arise when the adjusting device is a stop for the piston forming, screwed onto the cylinder coaxial with the cylinder axis union nut, which preferably has a Betä¬ opening for the piston. The distance between the two end positions can thus be adjusted by screwing or unscrewing the nut on the cylinder to the desired extent. The piston can be displaced through the actuating opening in the union nut in the direction of its end position. If the cylinder additionally has subdivisions for subdivision, it is possible to simply set the liquid chamber volume precisely by turning the union nut. An unintentional twisting of the union nut can be prevented if, on the other hand, a latching device is provided between the union nut on the one hand and the housing, which allows the union nut to snap against the housing or piston during adjustment of the liquid chamber volume of, for example, 5 ml.

Short description of the drawing

In the drawing, the invention is shown schematically, for example. Show it:

Fig. 1 shows a device according to the invention in a partially sectioned side view and

2 shows the device from FIG. 1 in a front view, FIG. 3 shows a construction variant of a device according to the invention in a partially sectioned side view,

Fig. 4 shows the device of Fig. 3 in section along the line IV-IV and Fig. 5 to 7 infusion pump with a device according to the invention of Fig. 3 and 4 on a reduced scale.

Way to carry out the invention

A device 1 according to the invention for the metered admission and delivery of infusion fluid comprises a cylinder 3 forming a pressurizable fluid chamber 2 and two lines 4, 5 for input and output Dispensing of liquid from the liquid chamber 2. In the cylinder 3, a piston 7 along the cylinder axis 8 is adjustably guided, which in order to Verdrän¬ tion of a defined cylinder volume against the force of at least one spring 9 from a stop-rest position R in a stop-limited end position E is displaced.

The position of the abutment-limited rest position R can be adjusted with respect to the end position E on the cylinder axis 8 by means of a stop 10 for the piston 7, which is screwed onto the cylinder 3 coaxially with the cylinder axis 8 and can be adjusted (FIG. 1). The distance between the rest position R and the end position E and thus the defined liquid chamber volume, which is displaced in a stroke of the piston 7, can be adjusted in a simple manner by turning the union nut 11 over the cylinder 3. The piston 7 carries an actuating projection 12, which projects through an actuating opening 13 of the union nut 11 in order to ensure a simple actuation of the piston 7 can. In order to be able to set the liquid chamber volume exactly upon rotation of the union nut 11, the cylinder 3 has bull partitions 14. Between union nut 11 and piston 7, a latching device 15 is provided, which avoids unintentional adjustment of the Überwurf¬ nut 11 and thus the liquid chamber volume. The piston 7 is rotatably held in the cylinder 6 in this case via the springs 9.

The cylinder 3 has two ports 16, 17 which are alternately flow-connected to the fluid chamber 2. According to the illustrated embodiment, liquid from a hinted dargestell¬ th pharmaceutical vial 18 via a check valve 19 (for example, a ball or a diaphragm valve) and the line 4 are sucked into the liquid chamber 2, when the piston moves from its end position E in its rest position R. becomes. If the piston is displaced from the rest position R into its end position E, liquid is discharged from the liquid chamber 2 via the line 5 and the check valve 20 out of the device. According to the exemplary embodiment according to FIGS. 3 to 7 of an apparatus according to the invention, the cylinder 3 is mounted rotatably about the cylinder axis 8 in a cylinder housing 6, the two connections 16, 17 of the cylinder being alternately formed simultaneously on two out of three from the cylinder housing 6 Ports 21, 22, 23 are connected or in a middle position both ports are blocked. In this case, an actuating handle 24 for the piston 7 and the cylinder 3, for example via a Keilverzah¬ voltage rotatably connected to each other, but the actuating handle 24 and piston 7 together in the cylinder 3 along the cylinder axis 8 slidably guided.

Referring now to Figures 5-7, the cylinder housing 6 is part of an infusion pump 25 having two fluid reservoirs 26, 27 and a gas pressure generator 28 for expelling fluid from the reservoir 27. A gas pressure generator of interest is disclosed, for example, in WO 95/23 641 A1 , The two containers 26, 27 can either be interconnected with one another or one of the two containers 26, 27 can be connected to a connection 29 of the infusion pump 25 via lines and the cylinder 3 and its liquid chamber 2. Thus, drugs for reconstitution and dilution of the drug, for example, may first be delivered to the first container 26 via port 29 (Figure 7), then transferred to the second container 27 after rotation of the cylinder 3 (Figure 6) and another Turning the cylinder are discharged from the container 27 (Fig. 5). The container 27 is associated with a coupling 30 for dispensing infusion liquid.

Claims

Patent claim:

1. A device for the metered intake and delivery of liquid, in particular infusion liquid, comprising a cylinder which pressurizes a fluid chamber and a piston guided along the cylinder axis in the cylinder and at least one line for introducing and discharging fluid from the fluid chamber, characterized gekenn¬ characterized in that the piston (7) in the cylinder (3) for the purpose of displacement of a defi¬ ned cylinder volume against spring force from a stop-rest position (R) in a stop-limited end position (E) is displaced.

2. Apparatus according to claim 1, characterized in that the cylinder (3) has two connections (16, 17) which are alternately fluidly connected to the Flüssigkeits¬ chamber (2) via a respective line (4, 5).

3. A device according to claim 2, characterized in that each Lei¬ device (4, 5) a non-return valve (19, 20) listen, wherein the check valves (19, 20) in the sense of a flow of liquid through the cylinder (3) a terminal (4, 5) to the other terminal (5, 4) in the cylinder (3) are arranged.

4. Device according to one of claims 2 to 3, characterized gekennzeich¬ net, that the cylinder (3) about the cylinder axis (8) rotatably in a Zylinder¬ housing (6) is mounted, wherein the two terminals (16,17) of the Cylinder (3), optionally simultaneously, alternately to at least two of the Zylin¬ dergehäuse (6) formed terminals (21, 22, 23) are connected.

5. Device according to one of claims 1 to 4, characterized gekennzeich¬ net, that the distance between stop-limited rest position (R) and an¬ stop-limited end position (E) on the cylinder axis (8) is adjustable by means of a Ver¬ adjusting device.

6. Apparatus according to claim 5, characterized in that the Ver¬ adjusting device is a stopper (10) for the piston (7) forming, on the cylinder (3) coaxial with the cylinder axis (8) screwed union nut (11), preferably an actuating opening (13) for the piston (7).

7. Apparatus according to claim 6, characterized in that between the union nut (11) on the one hand and cylinder (3) or piston (7) on the other hand, a latching device (15) is provided.

8. Device according to one of claims 1 to 7, characterized gekennzeich¬ net, that the cylinder housing (6) part of an infusion pump (25) with a liquid container (26, 27) and preferably a gas pressure generator (28) for expelling liquid from the container (26, 27), wherein the Behäl¬ ter (26, 27) with a connection (21) of the infusion pump (25) via lines and the cylinder (3) and its liquid chamber (2) is flow-connected.

9. Device according to one of claims 1 to 7, characterized gekennzeich¬ net, that the cylinder housing (6) part of an infusion pump (25) with wenig¬ least two liquid containers (26, 27) and preferably a Gasdruck¬ generator (28) for expelling of liquid from at least one container (26, 27), wherein either the two containers (26, 27) with one another or one of the two containers (26, 27) with a connection (21, 22, 23) of the infusion pump (25 ) via lines and the cylinder (3) and its fluid keit¬ chamber (2) are flow-connected.