DE10039196A1 - Vacuum-insertion valve for medical instrument has duct, suction opening with closure piece operated by control and liquid membrane barrier. - Google Patents

Abstract

A vacuum-duct (18) in the valve opens out into a suction opening (6) which has a closure piece (10) movable between an open and closing position. The closure piece is operated by a control (14) and are rigidly connected, preferably as a plunger with a closure head. The vacuum duct contains a liquid-barrier (22) especially in the form of a gas-permeable membrane. The vacuum duct opens into the control via an inlet (20) on the periphery of the control.

Description

The present invention relates to a vacuum induction valve for medical technology cal devices, which has a vacuum channel that into a suction opening empties.

With such a vacuum inlet valve can be used in medical devices against negative pressure. In connection with dialysis machines it is knows to use disposable cartridges called disposable, where in a cassette body provided with channel or chamber-like fluid recesses are covered with a flexible film. The flexible film becomes Zwec ke the sealing of the fluid recess by means of a com to the cassette body complementary counterpart pressed. Advantageously, between the dis Posableseiten and the machine-side surfaces ge a vacuum source be coupled to ensure the corresponding function. This is for both Actuators such as diaphragm pumps as well as for sensors, such as. B. Rele pressure sensors vant. For example, DE 198 37 667 A1 shows a multifunction sensor Measurement of parameters of medical liquids using a measuring plate various sensors is pressed against a flexible membrane, the one  Measuring chamber for the medical liquid limited. Between the flexible mem Bran and the measuring plate, a negative pressure is applied to the measuring plate-side Bring sensors into direct contact with the membrane. For this purpose, in the measuring plate vacuum channels are formed.

The introduction of negative pressure using simple vacuum channels is however in vie There is room for improvement in all respects. So through such a simple vacuum um channel z. B. liquid are sucked off, which then in an undesirable manner the suction device can get. On the other hand, there is the problem that the disposable-side membrane lies on the suction opening and closes it, causing a further suction of possibly still between the disposab Air on the reading side and on the machine side is prevented.

The present invention is therefore based on the object of Inlet valve to create the introduction of negative pressure in medicine technical devices can be improved and previously occurring Problems are avoided.

This object is achieved according to the invention by a vacuum induction valve Claim 1 solved. Preferred embodiments of the invention are the subject of subclaims.

The vacuum inlet valve therefore has a closure for the suction opening, between an open position and one close the suction opening the position is movable, and an actuating part for actuating the closure between its open position and its closed position. The Closing the suction opening provides mechanical protection for the inside of the valve space and thus of the parts behind the suction opening and the to the Valve connectable device interior. In the rest position, for. B. at a Reini the machine-side surfaces of the vacuum channel are covered.  

In a further development of the invention, a liquid barrier is in the vacuum channel, in particular switched a gas permeable membrane. The liquid barrier prevents suction of liquid, so that it does not accidentally get inside space of the vacuum device to be connected to the valve. The The liquid barrier is preferably downstream of the suction opening in the suction direction arranged. It is located in the vacuum channel at a distance from the suction opening. here ensures that when the shutter is in the closed position, the Ab suction opening the sensitive liquid barrier is protected and z. B. at a Cleaning the device cannot be damaged.

According to an advantageous embodiment of the invention, the closure for the Ab Suction opening integrally formed in one piece on the actuating part. Preferably are the closure and the actuating part as a plunger, the one plate shaped closure head. The plunger locking head is more appropriate so far complementary to the suction opening that he ver can close.

In order to achieve a compact arrangement, the vacuum channel can extend through the Actuate part or can extend a portion of the vacuum channel in the Actuating part can be formed. The vacuum channel preferably enters sow flow downstream of the suction opening through an inlet opening in the actuator supply part, which is closed by the liquid barrier. The liquid lock is therefore between the vacuum formed in the actuating part Channel section and the vacuum extending to the suction opening Channel section switched.

In particular, the inlet opening on a peripheral surface of the actuation Part can be arranged and the liquid barrier, the actuating part in the loading around the entrance opening surrounded by a cuff. A special attachment device for the liquid barrier can be omitted. Preferably the liquid is keitssperre designed as an elastic cuff, the non-positively or frictionally the actuator sits. The actuating part can basically be different  Have cross-sectional shapes. According to a preferred embodiment, the actuator is supply part cylindrical in the region of the inlet opening, in particular be he sits in this area a circular cylindrical cross section.

In order to prevent that there is contact with the surface on the machine side Foil such as B. a disposable membrane and the like on the suction opening lays and closes it unintentionally, is a public education in further development of the invention Stop provided for keeping the suction opening open, the suction opening may be upstream. The opening stop holds the face the suction opening is open. The connection of the vacuum channel via the suction The opening with the space to be extracted is in the radial direction between the front opening stop and the suction opening ensured.

In a development of the invention, the opening stop is movable, in particular can be moved away from the suction opening in the opposite direction to the suction opening and a possible disposition on it to push bran away. In particular, the opening stop of the closure be formed for the suction opening. For this purpose, the closure is so movable formed that he face against the suction direction through the suction opening can be driven out. The suction opening can be pressed on a simple extension of the closure against the suction direction is achieved become. The closure therefore has a double function. For one thing, he closes the suction opening when it is driven onto it from the outside. The other holds it opens the suction opening and prevents unintentional closing of the the same if he has moved to his open position. The closure is preferred formed as an opening plate and is on the outside, d. H. depending on the arranged suction side facing the suction opening.

The closure or the cooperating actuating part can on ver different ways are operated. According to a preferred embodiment The invention is a fluid pressure device, in particular a compressed air device device provided with which the actuating part and thus the closure reciprocate  can be. A preloading device is expediently used for the front tension of the closure or the actuating part in its closing Position provided so that the fluid pressure device only for on pressing the closure is provided.

In a development of the invention, a piston is slidably mounted in the valve body device that acts on the actuating part. The piston and the actuator can NEN have parallel axes of action and in particular arranged coaxially to each other be nice. The piston and the actuating part are preferably rigid with one another connected so that the actuator is guided by the piston.

In particular, a releasable Ver can between the piston and the actuator part Binding can be provided so that the actuating part with the provided thereon Closure for the purpose of replacement when worn simply by the piston can be dismantled. Preferably, the releasable connection between the Section of the actuating part on which the fluid barrier is provided, and the Piston provided so that the liquid barrier easily disassembled when worn can be.

In a further development of the invention there is a central valve bore in the valve body provided, in which the piston is slidably and which of the piston in a Pressure chamber and is divided into a vacuum channel section. In the vacuum Channel portion of the valve bore may extend the actuating part that the Connects the piston with the closure for the suction opening. One end of the Valve bore forms the suction port of the valve, while the other end of the Valve bore or its section forming the pressure chamber with a pressure fluid source is connected.

The vacuum channel advantageously extends through the piston, from where it preferably passes through the pressure chamber to a vacuum Connection is made. The vacuum channel section thus has in particular three Sections, namely on the one hand the vacuum formed by the valve bore  Channel section that connects directly to the suction opening, on the other hand the vacuum channel section formed inside the piston, and finally egg NEN passed through the pressure chamber and its boundary wall Vacuum channel section, all of which are in flow connection with one another. The vacuum channel section formed by the valve bore and that in the piston trained vacuum channel section can through the vacuum channel section be connected to each other, which is formed in the actuating part.

In a further development of the invention, the pressure enclosed by the valve bore is chamber limited by a cover that opposite the suction opening closes the end of the valve bore. There can be compressed air in the cover be provided connection through which the pressure chamber is pressurized can be. Furthermore, a vacuum connection can pass through the cover be guided with the vacuum channel guided through the pressure chamber in Ver bond stands.

The piston advantageously has two end positions, between which it is movable. Stroke limit stops for the piston can be from a stu fen-shaped heel in the valve bore and one end of the valve bore tion closing cover are formed.

The biasing device for biasing the closure in its lock ßende position can interact with this in various ways stand. If the lock and actuator are not firmly connected The biasing device expediently engages directly on the Clasp on. In the advantageous embodiment of the invention, in which the actuator supply part is rigidly connected to the closure, the biasing device acts advantageously on the actuator part on the closure. In particular, can attack the pretensioner on the piston if it is more advantageous Way connected via the actuating part with the closure accordingly previously described. In a particularly advantageous manner, the Kol bens a spring between the piston and a valve bore side shoulder  arranged, which pushes the piston into the retracted closed position. The The pretensioner has its point of attack with respect to the releasable connection between the piston and the actuating part on the side facing away from the closure the connection. This allows the actuator to be actuated in a particularly simple manner supply part with the closure provided thereon and the liquid barrier Dismantle wear without loosening the pretensioner or should be expanded.

The invention is described below on the basis of a preferred exemplary embodiment and an accompanying drawing explained. The only figure shows one Longitudinal section through a vacuum inlet valve according to a preferred embodiment tion of the invention.

The valve shown in the figure has a valve body 1 with a preferably cylindrical, step-shaped outer contour. A central valve bore 2 is provided in the valve body 1 , which is designed as a through recess. The valve bore 2 has, as the figure shows, a step-shaped shoulder 3 , which separates a large diameter bore section 4 from a small diameter bore section 5 . One end of the valve bore 2 on the side of the bore section 5 with a small diameter, ie the end of the valve bore 2 lying below according to the figure forms a suction opening 6 . The opposite end 7 of the valve bore 2 is closed with a cover 8 .

In the valve bore 2, a plunger seated 9 which is slidably guided in the valve bore. 2 The plunger 9 protrudes from the valve bore 2 on the side of the suction opening 6 . At its protruding end an enlarged diameter opening plate 10 is formed, which forms a closure head for the suction opening 6 . The opening plate 10 has a larger diameter than the suction opening 6 , so that it can close the latter from the outside. The opening plate 10 and the suction opening 6 each have beveled, in particular conical fitting surfaces 11 which are essentially complementary to one another, so that the opening divider 10 can fit snugly on the suction opening 6 to close it.

At its end opposite the opening plate 10 , the plunger 9 is designed as a piston 12 , which fits snugly in the bore section 4 with a large diameter. Between the opposite circumferential walls of the piston 12 and the valve bore 2 , a suitable seal 13 can be connected before, preferably in the form of a sealing ring.

The piston 12 is rigidly connected to the opening plate 10 by a tappet shaft 14 , the diameter of which is smaller than the diameter of the bore section 5 , so that an annular gap is provided between the tappet shaft 14 and the valve bore 2 . The tappet shaft 14 forms the actuating part for the opening plate 10 in order to open and close it.

As the figure shows, the tappet shaft 14 is formed in several parts. An actuating part integrally connected to the opening plate 10 is detachably connected to a piston-side actuating part. A screw connection 15 can preferably be provided as the connecting means. As a result, the part of the tappet 9 on the opening plate side can be dismantled in a simple manner and replaced when worn.

In order to be able to move the plunger 9 back and forth, a compressed air connection 16 is provided in the cover 8 , through which the piston 12 can be pressurized with compressed air. The lying towards the cover 8 section of the valve bore 2 bil det a pressure chamber which is limited on the one hand by the wall of the valve bore 2 , on the other hand by the end face of the piston 12 and finally by the cover 8 .

The piston 12 is biased by a spiral spring 17 to close the suction opening 6 . As the figure shows, the spiral spring 17 sits between the piston 12 and the shoulder 3 in the valve bore 2 . By pressurizing the piston 12 through the compressed air connection 16 , the latter is pressed against the pre-tension of the spiral spring 17 towards the suction opening 6 , that is, according to the figure downward.

For introducing negative pressure via the suction opening 6 , a Va vacuum channel 18 is provided in the valve, which connects the suction opening 6 to a vacuum connection 19 , which is preferably provided coaxially to the valve bore 2 in the cover 8 . As a vacuum channel 18 is used immediately after the suction opening 6 of the annular gap between the wall of the valve bore 2 and the tappet shaft 14 , in which air and the like can be sucked out when the tappet shaft 16 is extended. The vacuum channel 18 then occurs via an inlet opening 20 in the tappet shaft 14 and is formed in this in the form of a bore. The vacuum channel 18 thus extends through the tappet 9 , both through its tappet shaft 14 and through the piston 12 . The Va vacuum channel 18 is formed as a central bore in the plunger 9 , which is guided by means of a transverse bore on the outer surface of the plunger shaft 14 . From the piston 12 , the vacuum channel 18 is continued through the valve bore 2 by means of a vacuum line 21 which leads through the cover 8 and is connected there to the vacuum connection 19 . As the figure shows, the vacuum channel 18 extends through the screw connection 15 , which is designed to be fluid-tight for this purpose.

To prevent liquid from being sucked off, the inlet opening 20 of the vacuum channel 18 in the tappet shaft 14 is closed with a liquid lock 22 . An air-permeable membrane is provided as the liquid barrier 22 , which is cuff-like over the peripheral surface of the tappet shaft 14 . It can preferably be designed to be elastic so that it sits non-positively or frictionally on the tappet shaft 14 .

As the figure shows, a seal 23 sits on the tappet shaft 14, which seals the gap between the tappet shaft 14 and the valve bore 2 . As a result, the volume of the vacuum channel 18 is limited and kept small. A sealing ring is preferably provided as the seal 23 . The seal 23 can be arranged in an advantageous manner on the actuating part of the plunger 9 , which is connected to the opening plate 10 and can be screwed together with the rest of the plunger. As a result, the seal 23 can be replaced in a simple manner if wear has occurred. In an advantageous manner, the opening plate 10 with the actuating part formed thereon, the liquid lock 22 and the seal 23 form a preassembled unit which can be replaced quickly and easily as an interchangeable insert when worn over the detachable connection 15 .

The function of the valve is as follows:
In the rest position of the valve, the suction opening is closed by the opening plate 10 6, the plunger 9 is pressed by the coil spring 17 to its closed position.

In order to introduce vacuum via the suction opening 6 , 16 compressed air is added to the piston 12 via the compressed air connection, so that this overcomes the pretension of the spiral spring 17 and the plunger 9 moves downward according to the figure, so that the opening plate 10 from the suction opening 6 is lifted off.

The orifice plate 10 occurs the front side, so that a normally opening lying on the plate 10 disposable film is pushed through the aperture plate 10 from the exhaust port 6 through the suction opening 6 addition. As a result, the suction opening 6 is open.

The vacuum connection 19 is then connected to a vacuum source or this is activated so that gaseous fluid is sucked through the suction opening 6 via the vacuum channel 18 . Liquid is separated from the liquid barrier 22 , which only lets gaseous fluids through.

Claims (14)

1. Vacuum inlet valve for medical devices, with

• a) a vacuum channel ( 18 ) which opens into a suction opening ( 6 ),
• b) a closure ( 10 ) for the suction opening ( 6 ) which is movable between a ge open position and a position closing the suction opening, and
• c) an actuating part ( 14 ) for actuating the closure ( 10 ) between its open position and its closing position.

2. Vacuum inlet valve according to the preceding claim, wherein the closure ( 10 ) and the actuating part ( 14 ) are rigidly connected to one another, are preferably designed as a plunger with a closure head. 3. Vacuum inlet valve according to one of the preceding claims, wherein in the vacuum channel ( 18 ) a liquid barrier ( 22 ), in particular a gas-permeable membrane is connected. 4. Vacuum inlet valve according to one of the preceding claims, wherein the vacuum channel ( 18 ) extends through the actuating part ( 14 ). 5. Vacuum inlet valve according to one of the two preceding claims, wherein the vacuum channel ( 18 ) in the suction direction downstream of the suction opening ( 6 ) through an inlet opening ( 20 ) in the actuating part ( 14 ) and the inlet opening through the liquid barrier ( 22nd ) is closed, preferably before the inlet opening ( 20 ) on a peripheral surface of the actuating part ( 14 ) and the liquid barrier ( 22 ) surrounds the actuating part ( 14 ) in the loading area of the inlet opening ( 20 ) like a cuff. 6. Device according to one of the preceding claims, wherein an opening stop ( 10 ) is provided to keep the suction opening ( 6 ) open, preferably the suction opening can be stored in front, in particular by the closure for the suction opening. 7. Vacuum inlet valve according to one of the preceding claims, wherein a fluid pressure device, in particular a compressed air device, is provided for actuating the actuating part ( 14 ). 8. Vacuum inlet valve according to one of the preceding claims, wherein a piston ( 12 ) is displaceably mounted in the valve body ( 1 ), which acts on the actuating part ( 14 ), preferably the piston ( 12 ) with the actuating part ( 14 ) rigid, in particular by means of releasable connecting means ( 15 ). 9. Vacuum inlet valve according to the preceding claim, wherein a central valve bore ( 2 ) is provided in which the piston ( 12 ) is slidably and which is divided by the piston into a pressure chamber and a vacuum channel section, one end of the Valve bore ( 2 ) forms the suction opening ( 6 ) and the other end of the valve bore ( 2 ) can be connected to a source of pressurized fluid, in particular the vacuum channel section formed by the valve bore ( 2 ) with a vacuum channel section formed in the piston Flow connection is established, which is again in flow connection with a vacuum channel section ( 21 ) guided through the pressure chamber. 10. Vacuum inlet valve according to the preceding claim, wherein the suction opening ( 6 ) opposite end of the valve bore ( 2 ) is closed with egg ner cover ( 8 ) through which a compressed air connection ( 16 ) and / or a vacuum connection ( 19th ) are performed. 11. Vacuum inlet valve according to one of the preceding claims, wherein piston stroke limit stops ( 3 , 8 ) are provided. 12. Vacuum inlet valve according to one of the preceding claims, wherein a biasing device ( 17 ) for biasing the closure ( 10 ) in its ne closing position is provided, preferably via the actuation supply part ( 14 ) acts on the closure ( 10 ). 13. Vacuum inlet valve according to one of the preceding claims, wherein it is assigned to a disposable cassette and / or inserted into a dialysis machine is building. 14. Use the vacuum induction valve according to one of the preceding the claims for introducing negative pressure in a medical technology Device, in particular in a dialysis machine with a disposable cassette.