DE4142494A1 - Check valve for medicinal use - has flexible membrane disc, which generates surface contact on sealing surface - Google Patents

Abstract

The disc (3) is sealingly clamped on its radially outer circumference (6) between two hub bodies. The first body (7) has the intake passage (1), and the second (8) has the discharge passage (2). The disc engages sealing on the sealing surface (4) of the second hub body, and it has several passage apertures (9). The sealing surface is curved and shaped like a lens and lies above a recess (10) in the first body. The membrane is either round or polygonal and the passage apertures are very close to the discharge passage. USE/ADVANTAGE - For tubes in fusion system, diagnostic devices, syringes, intravenous hoses. Closes rapidly and securely, very precise manufacture.

Description

A check valve is known (US-A1-49 66 199), the middle is flowed through and is based on a membrane disc. The back impact valve is economical to manufacture and has one a membrane disk consisting of a silicone disk ver casual great sensitivity in both flow directions. The Check valve contains a non-perforated membrane disc, which is loose, d. H. the membrane disc is not about egg NEN pin or the like held in place. Both the The middle part and the edge of the membrane disc move axially with appropriate operating conditions. There are several el elements are provided that keep the membrane disc centered. A opposite flow directs the reflux to the center of the downstream surface of the membrane disc. The reflux lifts the membrane disc from supporting edges, over which it during of the forward flow is curved and closes it off a concave sealing surface. This membrane disc is against high pressure in the forward direction by a river deflector and against strong reflux pressure through the concave sealing surface protected. In the absence of previous or back fluid pressure takes the diaphragm disc a neutral one Position in which they are against the reflux by Her position of a line contact with a convex curved Surface that is on the upstream side of the membrane disc is located, closes.  

Such check valves are used in medicine for piping fusion systems, diagnostic equipment, syringes, intravenous tubing u. Like. needed. Those to such a return Check valves to be made are of two types:

• a) the check valves must close very securely and the Closing time may only be a fraction of a second and
• b) the production must not only economically but also be statistically very accurate.

There are strict legal regulations and investigations seen to be a consistent and uniform function to ensure safety. The functional reliability of such Check valves are e.g. B. by the technical monitoring Association (TÜV) checked and only after corresponding positive results Approval for medical use follows.

The invention specified in claim 1 is therefore Problem, a quick closing and safe return propose a check valve, not only economically adjustable, but - what is the most important aspect here what is seen is also statistically functional means that of 100,000 check valves manufactured only a negligible part may appear as a committee.

The advantages achieved with the invention are in particular in that the membrane disc by its external definition can perform more precise opening and closing movements and none Line contact but creates surface contacts and in that a very precisely adjustable flow cross section through the through river openings is created, which is built quickly and quickly can be broken down. There is only a slight deflection of the Current causes, with the main flow more towards the center concentrated. This advantage arises from a possible one small distance of the flow openings to the sealing surface.  

When the pressure of a forward flow decreases, therefore, subsides the membrane disc with its surrounding the flow openings Surface parts quickly back onto the sealing surface and thus closes the flow gap. The advantages arise for both gases and also for liquids.

Further advantageous features emerge from claim 2, the according to the sealing surface on which the membrane disc seals is lenticularly arched. The sealing surface under supports a certain preload in the membrane disc, so that a neutral position as in the prior art is not is achieved. The opening movement is time here saves having to travel an useless way.

Another embodiment provides that the sealing surface of the second hub body a recess in the first hub body ge opposite, their edge edge distance to the sealing surface minus the thickness of the membrane disc the path of movement of the membrane disc ben outer surface for setting the diameter to be determined flow volume limited. In this way, a maximum can also be reached deflection of the membrane disc are limited so that this cannot be overused or face other points can be dimensioned very thin (e.g. less than 1 mm thick).

It is also advantageous that the flow openings of the Membrane disk consist of circular holes. This will simplifies the manufacture of the membrane disc.

An improvement of the invention is also achieved by that the flow openings in the membrane disc just next to a cross-sectional expansion of the inlet passage or Exit passages are arranged. The fluid is there immediately in a sufficient quantity for the flow.  

The properties of the membrane disc, its manufacture and its Assembly, as well as their operating position can also be done vary that the membrane disc is a circular or polygo nal outline. The advantage of a polygonal outline, e.g. B. a square, can not in connection with one round cross-section of the connecting lines can be of importance.

An additional improvement of the invention is that the membrane disc in an analog recess second hub body is in which also an annular front jump of the first hub body engages and on the membrane disc edge presses. This will make the membrane during assembly disc in the correct position while simultaneously Press the sealing surfaces against each other.

The position of the two hub bodies relative to one another, however, further features of the invention are defined in which the second hub body by a circumferential ring rib in radially outer peripheral region of the membrane disc to the first Hub body is fixed. By appropriate dimensions can this creates a permanent connection.

According to a special feature, a particularly secure ver bond created, however, by the fact that the first and the second Hub body at least after mounting the membrane disc their radially outer circumference are tightly connected.

An embodiment of the invention is shown in the drawing and is described in more detail below.

Show it

Fig. 1 is an axial cross section through a completely assembled check valve,

Fig. 2 is a left side view of the diaphragm plate,

Fig. 3 is a partial axial section according to section "A" in Fig. 1 on an enlarged scale.

The check valve is especially designed for medical applications in fluid technology. It is switched between a left line as shown in FIG. 1 and a right line. Accordingly, an input passage 1 (as an input to the left line) and an output passage 2 (as an output from the right line, which are not shown) are seen before. The non-return valve works in pressure ranges from 0.1 to 0.002 bar, whereby the non-return function must operate at the smallest pressures or pressure differences and the opening function in short times.

Between the inlet passage 1 and the outlet passage 2 , a membrane disc 3 is arranged, which is biased according to the pressure side. It is therefore made of a flexible len material, such as. B. silicone. In the event of overpressure in the outlet passage 2 , the membrane disk 3 lifts off from a sealing surface 4 and, depending on the gap size, a flow cross section 5 is created . In the event of overpressure or no pressure on one side or the other, the membrane disc 3 closes securely on the sealing surface 4 , so that no fluid can flow at least on one side.

These effects are achieved overall safely and quickly and in each of the check valves thus produced in that the diaphragm disc 3 in its radially outer peripheral region 6 between a first hub body 7 provided with the inlet passage 1 and a second hub body 8 provided with the outlet passage 2 sealing all around is clamped and that the membrane disc 3 on the sealing surface 4 of the second hub body 8 is sealingly provided with a plurality of flow openings 9 . The sealing surface 4 , on which the membrane disc 3 rests in a sealing manner, is curved in the form of a lens and shaped in the sense of a prestress.

The sealing surface 4 of the second hub body 7 is a recess 10 in the first hub body 7 opposite, the edge edge distance 11 to the sealing surface 4 minus a thickness 12 of Mem membrane 3 limits the path of movement of the outer membrane surface 13 for setting the maximum flow volume.

The flow openings 9 of the diaphragm disk 3 consist of circular holes 14 in the exemplary embodiment. They are also in the membrane disc 3 just next to a cross-sectional expansion 15 of the inlet passage 1 and the outlet passage 2 viewed radially. The membrane disc 3 can have a circular (as drawn) or a polygonal outline. The Mem branscheibe 3 is in its radially outer peripheral region in an analog recess 17 of the second hub body 8 , in which an annular projection 18 of the first hub body 7 engages and presses on a membrane disc edge 19 .

In addition, the second hub body 8 is fixed by a circumferential ring rib 20 in the radially outer peripheral region 6 of the diaphragm disk 3 to the first hub body 7 and can no longer shift after the Mon days. As a special safety measure it is provided that the first and second hub bodies 7 , 8 are tightly connected to one another at least on their radially outer circumference after the assembly of the diaphragm disk 3 , as a result of which an undesired opening of the check valve by a non-specialist man is avoided.

Claims (9)

1. Check valve, especially for medical applications in fluid technology, and for pressure differences in the size range of 0.1-0.002 bar (0.04 psig) with an inlet passage and an outlet passage and between the inlet and outlet passage arranged membrane disc made of a flexible material, which at excess pressure in the outlet passage can be lifted off from a sealing surface, whereby a flow cross-section arises and which can be pressed onto the sealing surface safely and in minimal times in the event of overpressure in the inlet passage, characterized in that the membrane disc ( 3 ) in its radially outer circumferential area ( 6 ) between a with the Input passage ( 1 ) provided first hub body ( 7 ) and one with the passage passage ( 2 ) from the second hub body ( 8 ) is clamped all around and that the diaphragm disc ( 3 ) on a sealing surface ( 4 ) of the second hub body ( 8 ) sealingly rests with several flow openings ( 9 ) is provided. 2. Check valve according to claim 1, characterized in that the sealing surface ( 4 ), on which the membrane disc ( 3 ) lies sealingly, is lenticularly curved. 3. Check valve according to claim 1 or 2, characterized in that the sealing surface ( 4 ) of the second hub body ( 8 ) opposite a recess ( 10 ) in the first hub body ( 7 ), the edge edge distance ( 11 ) to the sealing surface ( 4 ) minus the Thickness ( 12 ) of the membrane disk ( 3 ) limits the path of movement of the membrane disk outer surface ( 13 ) for setting the flow volume to be determined. 4. Check valve according to claim 1, characterized in that the flow openings ( 9 ) of the membrane disc ( 3 ) consist of circular holes ( 14 ). 5. Check valve according to claims 1 or 4, characterized in that the flow openings ( 9 ) in the membrane disc ( 3 ) are arranged just next to a cross-sectional widening ( 15 ) of the inlet passage ( 1 ) or the outlet passage ( 2 ). 6. Check valve according to claims 1 to 5, characterized in that the membrane disc ( 3 ) has a circular or polygonal outline ( 16 ). 7. Non-return valve according to claims 1 to 5, characterized in that the membrane disc ( 3 ) in its radially outer order region ( 6 ) in an analogously designed recess ( 17 ) of the second hub body ( 8 ), in which also an annular Projection ( 18 ) of the first hub body ( 7 ) engages and presses on the membrane disc edge ( 19 ). 8. Check valve according to claims 1 to 7, characterized in that the second hub body ( 8 ) is fixed by a circumferential annular rib ( 20 ) in the radially outer peripheral region ( 6 ) of the membrane disc ( 3 ) to the first hub body ( 7 ). 9. Check valve according to claims 1 to 8, characterized in that the first and the second hub body ( 7 , 8 ) after the assembly of the diaphragm disk ( 3 ) are tightly connected to one another at least on their radially outer circumference ( 21 ).