DE3303718C1 - Injection valve for puncture implements or infusion devices - Google Patents

Abstract

The invention provides an injection component which can be easily disinfected by avoiding a moist chamber above the closure element, has a closure mechanism which can be opened very easily, and gives a reliably tight closure even after actuation many times, so that no contamination is able to penetrate into a liquid line. For this purpose, the closure element has a membrane (18) which is convex outwards and is formed on one side of a ring (17) which is fixed in the vicinity of the outer opening of the channel (14) in a housing (10). The membrane (18) is provided in its middle with perforations (19) to allow the injectate from a syringe tip (24) to pass through. A clamping ring (21) is used to secure it. <IMAGE>

Description

Finally, injection valves are also known that the injection of preparations into an infusion line without a cannula. Here is in a housing made of hard plastic a locking body of a special design is used, which seals the housing to the injection side, while one is open to the outside Connection piece or insertion shaft receives the syringe cone and in this seals. Such a known injection valve (DE-GM 79 05 206) uses a plate attached to the inner end of the connecting piece for the syringe cone, the has a central part suspended from elastic bands, which acts as a closure body serves and can be pressed down by the face of the syringe cone. At a Another known such injection valve, the closure body consists of a Hat-shaped rubber body, the opening of which to accommodate the syringe cone to the outside is directed and the infusion line facing arc to the passage of the Syringe cone is slotted (DE-GM 78 12 248). It is also the case with an infusion cannula known, a cup-shaped valve membrane in a through-channel of a housing use, the opening of which faces the free end of the housing and whose inside the through-channel, the arched floor has a narrow, short one Has incision for the passage of the liquid to be injected (DE-OS 21 06 266). The syringe cone is also pushed into the cavity of the valve membrane. The disadvantage of these injection valves that work without a cannula is that that in in all cases above the closure body or the liquid-permeable Part of the same creates an outwardly open, moist chamber made up of drops of liquid which adhere to the syringe cone.

Such liquid residues can even in very small amounts if the puncture device or the infusion device is left idle for a certain period of time become contaminated with the injection valve and lead to bacterial growth. Even subsequent disinfection cannot be satisfactory with these injection valves Remedy because they are because of the narrow shape of the connecting piece or insertion shaft for the syringe cone not enough on internal parts of the closure body acts. Since the housing bodies of these injection valves are not bacteria-proof for the rest connect, the possibility of contamination increases.

According to an older suggestion (P 31 32 323.5) this is to be avoided Particulate and microbial combinations provided for an injection valve, that an elastically depressible closure body is arranged in a connection piece is that the top of the closure body is in its relaxed state on free end of the housing is located. The closure body is designed as a plug, which is elastic due to its own elasticity or under the action of a spring in the connecting piece can be depressed and its top side in the resting state with the end face of the connecting piece approximately aligns. In this position there is practically no dead space above of the closure body in the connection piece, so that no bacterial sump can form can. In addition, the freely accessible top of the closure body can be disinfected well will. However, to press down the closure body with the syringe cone a certain force can be exerted, e.g. B. when using the injection valve in indwelling vein cannulas attached to the patient's skin of surface pressure acts on the patient. When a patient from a filling the syringe is administered several times small amounts at intervals, Depending on the strength of the compressive force, the patient may experience stress. the to open the closure body necessary overcoming a resistance is in rest also inconvenient for the user. The sterility benefits mentioned will be also aimed at with another known injection valve (DE-GM 81 24 084), whose closure body consists of a plate clamped at its edge, which an arcuate tongue to form a tongue that can be depressed by the syringe cone Has incision. With this injection valve, after repeated injections and repeated tongue depressions result in sealing problems.

The invention is based on the object of an injection valve to be designed in such a way that, while avoiding a humid chamber the locking mechanism above the locking body to enable good disinfectability is very easy to open and reliable even after repeated actuation tightly closes to prevent contamination from entering the liquid line a puncture device or an infusion device.

This object is achieved in that the closure body is dome-shaped has outwardly curved, perforated membrane, the edge area in the form of a Ring is designed in the vicinity of the free end of the through channel in the Housing is attached.

The perforated, dome-shaped, outwardly curved membrane is used in the Attaching the syringe cone is pressed inwards into the housing and seals the syringe cone when injecting through the perforation holes to the outside. As in the forming the convex membrane in a concave shape practically no resistance can be overcome must, the effort is correspondingly low and the patient remains stress-free. The ease of movement is convenient for the user and enables injection without any displacement of the fluid line leading into the patient's body, z. B. an indwelling venous cannula. The membrane, which is pressed inward, decreases after being withdrawn of the syringe cone due to its resilience its outwardly curved dome shape again, the perforation holes through which the injectate is pushed was to close reliably. The closability of the perforations is made possible by supports the elastic tension force generated by the membrane curvature in the material, so that a reliable tightness of the Injek even after repeated injections tion valve is guaranteed after pulling out the syringe cone. The top the dome-shaped outwardly curved membrane is essentially free from enclosing it Housing parts, so that a damp chamber is avoided and the top is can be disinfected well. The entire injection valve is thus easy to use Manageable, disinfectable, low-contamination accessories for single-use medical products made of plastic, such as puncture devices and infusion devices, the injection of injectables makes it safer for the patient and makes it easier for the user, In an advantageous embodiment of the invention is at the transition between the membrane and an outwardly open circumferential groove is formed in the ring. This the dome surrounding, their circumferential shape adapted groove improves the resilience of the dome-shaped membrane, so that when putting on and pulling back the syringe cone the closing of the perforations is supported by the increased springback. The depth of the groove is advantageously greater than its width in the radial direction. It widens axially outwards in a wedge shape.

In an advantageous development of the invention, the outside has the dome-shaped membrane is roughly hemispherical, while its inside is closed Lines run elliptically up to the inner surface of the ring. In this way this prevents the membrane, which is pressed inward, from becoming jammed in the interior of the ring and does not spring back into its arched starting position.

The wall thickness of the dome-shaped membrane can be in its central area be less than in their edge area. Alternatively, the wall thickness can be in the middle area be larger than in the edge area.

The perforations are advantageously in the central area of the dome-shaped Membrane arranged so that the injection liquid squeezed out of the syringe cone meets the perforations in a straight line and opens the one with the dome-shaped one Membrane in one piece made of latex molded ring is in the axial direction of the through-channel thick. Its outer face and its inner face run parallel to each other. The inner face of the ring lies against a shoulder of the housing on and for clamping the ring ges is against his outer face a clamping ring attached. The diameter and the cross-sectional profile of the inner edge of the clamping ring are the outer diameter and the curvature adapted to the dome-shaped membrane. The clamping ring is made of stiff material and it can be fixed by flanging the outer edge of the housing and / or by Welding done.

Exemplary embodiments of the invention are shown schematically in the drawing shown. 1 shows an embodiment of the injection valve with a closure body in longitudinal section and FIG. 2 a longitudinal section of another embodiment of the Closure body.

An injection valve for puncture devices or infusion devices can be inserted radially into a fluid line leading to the patient or it can be at the end of the liquid line.

This depends on the intended use of the puncture device or the infusion device and it is for the inventive design of the injection valve irrelevant.

In the example of FIG. 1 on a so-called injection stopper a sleeve-shaped, circular cylindrical housing 10 is provided, in its line-side Part of an axial connection cone 11 is arranged, of one with internal threads 12 provided jacket 13 is surrounded. When connecting the housing 10 to a connecting element on a liquid line, the connecting cone 11 becomes a conical one that is adapted to it Bore of the connecting element introduced and locking elements of the connecting element are screwed into the threads 12 of the jacket 13. That way will the through-channel 14 of the housing extending through the connecting cone 11 10 with a seal against the atmosphere with the interior of the liquid line tied together.

In the outer end of the housing 10 there is a shoulder 15, on which the inner end face 16 of a cylindrical ring 17 made of latex rests. On the side of the ring 17 facing away from the inner end face 16 is a dome-shaped outwardly curved membrane 18 formed in one piece, which in its central area Has perforations 19. The outside 18a of the membrane 18 is approximately hemispherical designed and its inside 20 runs in closed lines up to Inner surface 16 of the ring 17 is elliptical. The circular edge area of the hemispherical Membrane 18 has a smaller wall thickness than its tip. This is intended to improve the resilience the membrane 18 can be improved.

To secure the ring 17 and the dome-shaped membrane 18 existing closure body in the housing 10 is used on the outer end face 16a of the ring 17 lying flat clamping ring 21 made of hard plastic, which the The dome of the membrane 18 surrounds and against its edge on the free outer surface folded flanged edge 22 of the housing 10 presses.

The diameter and the cross-sectional profile of the inner edge 23 of the Clamping ring 21 are the outer diameter and the radius of curvature of the convex Idle state membrane 18 adapted. This means that the inside diameter of the clamping ring 21 increases towards the interior of the housing 10.

In the idle state, the outside 18a of the membrane 18 is approximately in the plane of the flange 22 of the housing 10 and in this position the outside 18a including the free part of the clamping ring 21 are well disinfected.

If the cone 24 of an injection syringe against the outside 18a attached to the outwardly curved membrane 18 and pushed forward in the direction of the housing 10, so the membrane 18 shifts inward and takes the dashed concave Position a. The membrane 18 is thereby pushed by the pressure of the cone 24 and of the injectate squeezed out of it, causing the perforations 19 open and the Injek did through the passage 14 into the liquid line let through. During the injection, the forces resting against the cone 24 of the syringe concave deformed membrane 18 and the plant of the cone 24 against the edge of the smaller Opening of the clamping ring 21 seals the injection valve to the outside.

As soon as the cone 24 is pulled out of the injection valve, the membrane 18 automatically returns to the rest position shown in solid lines back, the perforations 19 close tightly and the fluid path through the housing 10 is locked to the outside again.

In the embodiment of FIG. 2, there is the closure body from a cylindrical ring 25 made of latex, on one side of which a dome-shaped outwardly curved membrane 26 is integrally formed. The outside of the membrane 26 has a hemispherical shape and its edge is at the transition to the ring 25 of a circular, Uninterrupted groove 27, which is open to the outside, is surrounded. The groove 27 expands outwardly wedge-shaped and their depth is greater than their radial width.

The groove 27 improves the resilience of the depressed Diaphragm 26 in the convex rest position shown. The wall thickness of the membrane 26 is substantially uniform over most of it. Only in the middle area is a wall thickness reduction with the help of a small recess 28 on the inside provided and the edge portion of the membrane 26 is somewhat thinner. This training improves the closability of perforations 29 and the resilience properties of the membrane 26. The perforations 29 are located in the central region of the membrane 26 and are used for the passage of the injectate when the membrane 26 is concave.

The ring 25 has a cylindrical peripheral surface 30 and he is bounded by an outer end face 31 and an inner end face 32, the are parallel to each other and at right angles to the peripheral surface 30.

The curvature of the inner surface 33 of the ring 25 and the membrane 26 is also elliptically shaped in this example, so that the depressed membrane 26 is not hindered by jamming in its spring back.

The outside of the membrane 26 is in the convex rest position approximately in the plane of the outwardly facing end face of a housing, so that does not form a humid chamber above it, contaminated in the residual liquid with the next injection is supplied to the patient. In addition, the free surface the injection valve and the dome-shaped membrane 26 are well disinfected, which also contributes to increasing the safety of such an injection valve.

Claims (11)

Claims: 1. Injection valve for puncture devices or Infu Sion devices with a hollow socket-like housing, the axial through-channel connected to a fluid line leading into the body of a patient is, in which housing an elastically depressible closure body, which located in the relaxed state at the free end of the housing, is arranged against the outside of which the cone of a syringe can be attached, which means that it is not possible to use it I n e t that the closure body perforated a dome-shaped arched outward Has membrane (18; 26), the edge area of which is designed in the form of a ring (17; 25) is located in the vicinity of the free end of the through channel (14) in the housing (10) is attached. 2. Injection valve according to claim 1, characterized in that at the transition between the membrane (26) and the ring (25) an outwardly open, circumferential groove (-27) is formed. 3. Injection valve according to claim 2, characterized in that the depth of the groove (27) is greater than its width in the radial direction. 4. Injection valve according to claim 2 or 3, characterized in that that the groove (27) widens axially outwardly in a wedge shape. 5. Injection valve according to one of claims 1 to 4, characterized in that that the outside (18a) of the dome-shaped membrane (18) has an approximately hemispherical shape and that its inside (20) in closed lines up to the inner surface (16) of the ring (17) is elliptical. 6. Injection valve according to one of claims 1 to 5, characterized in that that the wall thickness of the dome-shaped membrane (26) is less in its central region is than in their peripheral area. 7. Injection valve according to one of claims 1 to 5, characterized in that that the wall thickness of the dome-shaped membrane (18) is greater in its central region is than in their peripheral area. 8. Injection valve according to one of claims 1 to 7, characterized in that that the perforations (19; 29) in the central region of the dome-shaped membrane (18; 26) are arranged. 9. Injection valve according to one of claims 1 to 8, characterized in that that the ring (17; 25) is made thick in the axial direction of the through channel (14) is and that its outer end face (16a, 31) and its inner end face (16; 32) run parallel to each other. 10. Injection valve according to claim 9, characterized in that the inner end face (16; 32) of the ring (17; 25) against a shoulder (15) of the Housing (10) rests and that for clamping the ring (17; 25) against its outer A clamping ring (21) is attached to the end face (16a; 31). 11. Injection valve according to claim 10, characterized in that the diameter and the cross-sectional profile of the inner edge (23) of the clamping ring (21) the outer diameter and the curvature of the dome-shaped membrane (18) are adapted. The invention relates to an injection valve for puncture devices or infusion devices with a hollow socket-like housing, the axial Through channel to a liquid line leading into the body of a patient is connected, in which housing an elastically depressible closure body, which is located in the relaxed state at the free end of the housing, arranged is, against the outside of which the cone of a syringe can be attached. Injectables, like antibiotics, vitamins, etc., come in syringes drawn from ampoules and given to the patient immediately either intravenously or intramuscularly administered by means of a cannula placed on the syringe cone. A patient has already had a venous access through either a short catheter in the back of the hand or forearm area or through a catheter Created in large-lumen vessels, there is the possible administration of injectables directly by coupling the syringe cone without an attached cannula to the catheter hub. If an infusion therapy has been initiated, there is still the possibility of over an injection valve integrated in an infusion line in the form of a widened Inject hose body made of latex rubber using a cannula. The Punctured the wall of the tube body with the cannula. Plugs are also known (DE-GM 77 27 563), in the sleeve-shaped housing at the free end a disk-shaped flat latex membrane is attached. Injection is also carried out afterwards piercing the closed latex membrane by means of a placed on the syringe Cannula. There is a risk that the cannula will cause particles of material from the The latex membrane is punched out and scraped off the housing wall that covers the Infusion line into the patient's body. Also requires the use an additional cannula increased material expenditure.