DE3515848A1 - Valve for a medicament metering device - Google Patents

Abstract

A valve (1) for controlling an infusion solution in a medicament metering device comprises a closure body (9) located inside a valve housing (3) and an external magnet (23) located outside the valve housing (3). The closure body (9) is made symmetrically relative to the main flow direction (29) of the infusion liquid in the valve housing (3). The closing force or the switching position of the valve (1) are caused by the magnetic force emanating from the external magnet (23). The advantage of the arrangement is that the valve (1) contains only one mobile part and that the valve housing (1) is adapted to this mobile part. This results in formation of a small dead space and favourable flow characteristics. <IMAGE>

Description

Valve for a drug dispenser

The invention relates to a valve for controlling an infusion solution in a medicament dosing device with one arranged within a valve housing Closing body, which consists at least partially of a magnetizable ble material and which can be moved by an external magnet.

In medical technology, drug dosing devices are widely used, to keep a patient on a drug such as for an extended period of time z. B. to supply insulin. These dispensers usually have a refillable Drug storage on. If external access to the medication store is difficult, z. B.

because the dosing device is implanted, it is necessary to refill it and / or emptying the drug reservoir valves (cf. DE-OS 33 33 977, Fig. 1). The valves prevent the presence of a differential pressure between the outflow opening back suction of the connected catheter and the conveying or storage system or leakage of infusion fluid. The valves can be actively controlled Be valves or check valves.

In the European patent 0,031,850 a valve is the opening described type. In the interior of a cuboid valve housing is a disc provided with a magnet is provided as the closure body. These is in the closed position at an outlet opening which is provided with an O-ring is on. The disc is clamped in at the end. It results in a proportionate large dead space.

Valves are in dosing devices for functional reliability and thus Critical to patient safety. So you should Hermetically sealed, flow-efficient on the inside and, if possible, designed without dead space be. The materials used should be based on the drug being promoted be constant. Years of contact with the infusion fluid are not allowed lead to signs of fatigue or to changes in the material properties. Around To achieve trouble-free operation and high switching reliability, that should Valve consist of as few and uncomplicated components as possible. This is important, because only miniaturized components are used in implantable devices.

The object of the present invention is to provide a valve of the type mentioned at the beginning Kind to train in such a way that it consists of relatively few parts, and that one aerodynamic, low dead space design of the interior is made possible.

This object is achieved according to the invention in that the closing body symmetrical to the main flow direction of the infusion liquid in the valve housing is trained.

The symmetrical, in particular rotationally symmetrical, closing body forms here with an optionally separate sealing element such. B. a O-ring the valve seat.

This valve has the advantage that in the valve interior except that The streamlined closing body has no other moving parts are. Sensitive infusion fluid such as Am- sulin not damaged by mechanical stress.

Another advantage is that doing so with the infusion fluid Compatible materials can be used.

The closure body is preferably rotationally symmetrical to the main flow direction educated. It is therefore easy to manufacture. It fills a large part of it of the shape-adapted interior of the valve housing, whereby only a small Dead space is created.

A particularly advantageous embodiment of the invention is distinguished characterized in that the external magnet is displaceable parallel to the main flow direction is.

This means that when the valve is used as a non-return valve, the magnetic bias applied by the external magnet to the magnetic or magnetizable Closing body exercises to adjust continuously.

The bias can range from a maximum value to a minimum value Change zero down.

To increase the closing force, it is advantageous to use the closing body to train partially or entirely as permanent magnets. The magnetization of the internally arranged magnet should be aligned so that this internal magnet encounters either repulsion or attraction with the external magnet and thereby keeps the valve inlet opening closed.

There is a further, particularly advantageous embodiment of the valve in that the external magnet is between two stops in the main flow direction is movably arranged. With this configuration, there is the possibility of the Use the valve as an active switching valve with a jump jump effect. With an implanted Dosing device z. B. can by placing a permanent or electromagnet the switching state of the valve can be changed on the body surface of the patient. This permanent magnet or electromagnet, which is present outside the dispenser, becomes hereinafter referred to as "external magnet".

It is useful when refilling the dispenser if that Valve is arranged in the course of the catheter.

If, with the external magnet at a first stop, the passage is open in normal dosing mode, can be switched over using the external magnet the external magnet is pressed against a second stop and thereby the passage of the valve are closed. This prevents medication from being refilled pours into the patient's body.

Further advantages and configurations of the invention emerge from the dependent claims in connection with the figures. 1 shows a valve with a bottle-shaped closing body and FIG. 2 shows a valve with a cylindrical closing body.

In Figure 1, 1 denotes a valve, which is used as a check valve or works as a switching valve and that in an implantable dosing device for a liquid drug, preferably insulin, is used. The valve 1 includes a valve housing 3, which consists of a hollow cylindrical housing part 4 and two axially aligned, T-shaped connecting pieces 4, 5 introduced at the end each of which a catheter 7 or 8 is connected. The nozzle 4 could also be connected directly to a conveyor or a drug reservoir. A cavity 8 is located inside the valve housing 3 provided in which is a closing body 9. The closing body 9 has at its one End of a spherical rounding 11 in the form of a thickening. The closing body 9 is designed in the shape of a bottle or cone and is rotationally symmetrical to it Longitudinal axis 10.

It contains a cylindrical permanent magnet inside 13, which is magnetized in the direction of the axis 10. The North Pole is through N-N and the South Pole denoted by S-S. The magnet 13 is of a layer or shell 15 completely surrounded by titanium. He is thereby from corrosion or other chemical Decomposition protected. The permanent magnet 13 and the shell 15 thus form together the movable closing body 13.

The interior 8 is adapted to its aerodynamically favorable symmetrical shape. The spherical, thickened rounding 11 is part of the titanium layer 15.

Opposite the spherical rounding 11 and symmetrical to the closing body 13 there is a sealing ring or O-ring 17, which acts as a sealing element and z. B. consists of silicone rubber. The inner diameter of the sealing ring 17 is chosen so that the spherical rounding 11 can not slip through and with the sealing ring 17 forms the valve seat. The sealing ring 17 is in a recess or cylindrical Recess 19 embedded in the nozzle 4 and so against slipping in the direction of the Axis 10 secured. It is thus clear that the entire valve 1 is rotationally symmetrical is trained. The valve housing 3 is connected to a mounting plate 21.

The valve housing 3 is coaxial with an annular permanent magnet 23 surrounded, which is either displaceable in its axial direction or with the mounting plate 21 firmly connected via fastening means (not shown) is. the Displaceability is indicated by a double arrow 25. The one externally on the housing part 4 seated ring magnet 23 is also axially magnetized, which in turn by a North Pole N and a South Pole S is marked. It is placed so that it is in the one shown Valve closed position opposite the magnet 13 inside the check valve 1 is offset in the middle. In the shown closed position, the magnets collide 13, 23, so that there is a tight valve seat.

By moving axially parallel to the double arrow 25, the relative Position between ring magnet 23 and internal magnet 13 can be changed. This will the repulsive force (with a different magnetization also the mutually attractive one Force) of the two magnets 13, 23 changed. In the case shown, as mentioned, the two magnets 13, 23 magnetized and arranged to repel. The middle Both magnets 13, 23, have the same thickness, are about half a magnet thickness offset against each other. The result is a tipping effect.

That is, when the ring magnet 23 over the unstable position of the two Magnets 13, 23 are pushed towards each other to the left, there is the closing body 13 free the O-ring 17 and thus the liquid inlet opening. The unstable situation is given when both magnets 13, 23 are aligned with one another, d. H. if their centers coincide.

If the valve 1 works as a check valve, it flows in the open mode an infusion liquid 27 into the valve 1 along the arrow 29. Of the Arrow 29 simultaneously marks the main flow direction and the axis of symmetry of the Valve 1. The conveying device for the infusion liquid 27 has one to overcome certain force in order to remove the spherical rounding 11 from the sealing ring 17 to solve. Corresponding to the magnetic force set via the position of the ring magnet 23 a minimum pressure must be built up by the infusion solution 27 in order to generate the restoring force of the check valve 1 to overcome.

In open-loop operation, the rounding 11 is thus more or less wide removed from the O-ring 17. The surface 28 of the connecting piece 5 acts as a limit stop.

If the direction of flow of the infusion solution 27 should change, lies the spherical rounding 11 immediately rests firmly on the sealing ring 17. In the pressureless The contact pressure is determined solely by the repulsive force of the two magnets 13 and 23 causes. Arises in the nozzle 4, in which the sealing ring 17 is located, a negative pressure, the contact pressure is increased by this. The check valve 1 is thus in its blocking direction.

It is considered an advantage of the valve 1 that inside the valve 1 only one moving part, namely the closing body 9, is present. This Closing body 9 does not include a mechanical spring, such as. B. a spiral or leaf spring, which could be attacked by the infusion solution over time, what even can lead to breakage of the spring, but a magnetized spring ". When it slackens regeneration is easily possible due to the magnetic spring force. You can either the ring magnet 23 can be exchanged, or the magnets 13, 23 can be magnetized again will.

In both cases it is not necessary to dismantle the check valve 1.

It should also be mentioned that the closing body 9 is by no means partially or must include a magnet entirely. It is also possible, the closing body 9 wholly or partially made of soft iron or another material with good magnetic properties.

Another advantage is that the interior is almost completely filled 8 of the valve housing 3 through the closing body 9. There is hardly any turbulence of the infusion liquid 27, and the dead space is kept small.

The spherical rounding 11 at the end is a particular advantage of the closing body 9 viewed, which forms the closing surface. Because of that it is not necessary to store the closing body 9 in a complex manner. He is free to move. Even if the closing body 9 is slightly crooked in the valve 1, so when the layer 15 is the Valve housing 3 touches inside, is a secure seal between sealing ring 17 and spherical rounding 11 under the force of the magnets 13, 23 guaranteed.

In FIG. 2, the same parts are given the same reference numerals as in FIG 1 occupied. In this embodiment, the valve 1 is a switching valve in which the external ring magnet 23 movable between the mounting plate 21 as the first stop and a mounting plate 31 is mounted as a second stop. Is the ring magnet 23 by an external magnetic field (not shown) generated by an external magnet is generated, pressed against the mounting plate 31, see. Fig. 2, so he pulls that magnetizable piece of material 13 against the sealing ring 17, and the valve 1 is closed. If the ring magnet 23 is now replaced by an oppositely directed (also not shown) external magnetic field, which can be generated by now inverted external magnets can, pressed against the first stop 21, it pulls as a result of this change in position the magnet 13 away from the sealing ring 17, and the valve 1 is open.

The mounting plate 21 (first stop) and the mounting plate 31 (second Stop) can both be permanently magnetized to ensure bistable behavior of the valve 1 to achieve. After removing one or the other (not shown) the external magnetic field, the ring magnet 23 remains in its position. It is also possible by magnetizing only one stop 21, 31 or by a (not shown) mechanical return spring on the ring magnet 21 a monostable behavior of the valve 1 to achieve. After removing the external magnetic field (not shown), the Ring magnet 23 then returns to its predetermined position. This is considered essential Considered advantage of this embodiment.

In addition, FIG. 2 shows an embodiment that is different from FIG. 1 of the closing body 9 selected. It has a cylindrical shape here. Its the sealing ring 17 opposite end face is flattened. The flat or the beveled Edges act as a closing surface. With this valve 1 it is not necessary to use the sealing ring 17 to be embedded in a recess. Here, too, there is one related to the main flow direction 29 rotationally symmetrical shape available.

The dimensions of the check valve 1 according to Figure 1 or the valve 1 of Figure 2 are small. The housing 3 has, for. B. about 5 mm outer diameter, the Magnet 13 approx.

2.5 mm outside diameter and the spherical thickening 11 has a radius of approx. 0.75 mm. It is therefore particularly suitable in the course of a catheter to be built in.

15 claims 2 figures

Claims (15)

Claims 1. Valve (1) for controlling an infusion solution in a medicament dosing device with one arranged inside a valve housing (3) Closing body (9) which consists at least partially of a magnetizable material and which is displaceable by an external magnet (23), d a d u r c h g e k e n n z e i c h -n e t that the closing body (9) is symmetrical to the main flow direction (29) of the infusion liquid is formed in the valve housing (3). 2. Valve according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that the closing body (9) is at least partially designed as a permanent magnet (9) is, and that the external magnet (23) is so arranged in the valve-closed position is that its direction of magnetization is in the direction of magnetization of the intern arranged permanent magnet (13) has (Fig. 1). 3. Valve according to claim 1 or 2, d a d u r c h g e -k e n n z e i c h n e t that the external magnet (23) is a ring magnet, which in the axial direction is magnetized (Fig. 1). 4. Valve according to claim 3, d a d u r c h g e k e n n -z e i c h n e t that in the closed position the permanent magnet (9) relative to the external Magnet (23) is arranged offset in the main flow direction (29) (Fig.l). 5. Valve according to one of claims 1 to 4, d a -d u r c h g e k e n n z e i c h n e t that the closing body (9) is a full cylinder, and that the an end face of the solid cylinder is provided as a closing surface. 6. Valve according to one of claims 1 to 4, d a -d u r c h g e k e It is noted that the closing body (9) is a full cylinder, the beveled Has edges that are intended as a closing surface (Fig. 2). 7. Valve according to one of claims 1 to 4, d a -d u r c h g e k e n n z e i c h n e t that the closing body (9) is bottle-shaped and has a spherical rounding (11) at the end of the bottle neck, which acts as a closing surface is provided (Fig. 1). 8. Valve according to one of claims 1 to 7, d a -g e k e n n z e i c h n e t that the external magnet (23) is parallel to the main flow direction (29) is movable. 9. Valve according to one of claims 1 to 8, d a -d u r c h g e k e It is noted that the wall of the valve housing (3) is made of titanium. 10. Valve according to one of claims 2 to 9, d a -d u r c h g e k It is noted that the internally arranged permanent magnet (13) is completely is surrounded by a titanium capsule (15). 11. Valve according to one of claims 1 to 10, d a -d u r c h g e k It is noted that the external magnet (23) is between two stops (21, 31) is arranged to be movable in the main flow direction (Fig. 2). 12. Valve according to claim 11, d a d u r c h g e -k e n n z e i c h n e t that at least one of the two stops (21, 31) can be magnetized. 13. Valve according to one of claims 1 to 12, d a -d u r c h g e k It is noted that the closing body (9) is designed to be rotationally symmetrical is. 14. Valve according to one of claims 1 to 13, d a -d u r c h g e k It is noted that the interior of the valve housing (3) to the shape of the Closing body (9) is adapted (Fig. 1). 15. Valve according to one of claims 1 to 14, d a -d u r c h g e k It is noted that the counter-sealing surface is formed by an O-ring (17) is.