The present invention relates to a check valve assembly according to claim 1. It further relates to a medical functional device according to claim 12 and a blood treatment apparatus according to claim 16.
One object of the present invention is to provide a further check valve assembly. In addition, suitable functional devices and blood treatment apparatuses are to be provided.
This object according to the present invention is solved by a check valve assembly having the features of claim 1. It is further solved by means of the functional medical device having the features of claim 12 and by the blood treatment apparatus having the features of claim 16.
According to the present invention a check valve assembly having an inlet and an outlet for medical fluids, in particular, a working fluid, which comprises a valve body is thus proposed. The check valve assembly allows in an initial state a working fluid and/or a sterilization fluid to flow through the check valve assembly in both flow directions, that is from the inlet to the outlet, and vice versa. Further, the check valve assembly in an operating state allows only one flow direction of the working fluid, that is, from the inlet to the outlet.
The check valve assembly comprises a pin-pin-reception connection. This is embodied such that the check valve assembly can be transferred from the initial state into the operating state by applying a force on the pin-pin-reception connection or on the pin and/or by an impression of path on the pin-pin-reception connection or on the pin, preferably in the longitudinal direction of pin and pin-reception respectively.
The transfer can be effected by applying or by means of applying a force onto the pin-pin-reception connection, e.g. via the film in the initial state and by an effect or a force therethrough.
The medical functional device according to the present invention comprises at least one check valve assembly according to the present invention.
According to the present invention the blood treatment apparatus, preferably embodied as a dialysis apparatus, comprises a receiving section for receiving a medical functional device according to the present invention.
The blood treatment apparatus according to the present invention comprises a movable limiting device, e.g. a door, for limiting the receiving section. The limiting device is embodied in a way such that through its movement one or all check valve assemblies received in the receiving section of the medical functional device is transferred from the initial state into the operating state.
In all of the following versions the use of the expression may or may have“, etc. is to be understood as a synonym to is preferably” or “preferably has”, etc. and it is to explain an exemplary embodiment according to the invention.
Whenever numerical words are mentioned herein, the skilled person understands this as an indication of a numerically lower limit. As long as it does not lead to any discernible contradiction for the skilled person, the skilled person, therefore, implicitly reads for example in the indication “one” at all times “at least one”. This understanding is also encompassed by the present invention as well as the interpretation that, for example, “one” can alternatively be meant as “exactly one”, as long as this is technically possible in the view of the skilled person. Both of which are encompassed by the present invention, and apply to all used numerical words herein.
Advantageous further developments of the present invention are each subject-matter of dependent claims and embodiments.
Exemplary embodiments according to the present invention may comprise one or more of the following stated features in any arbitrary combination.
In some exemplary embodiments according to the present invention, the pin-reception-pin-connection may be, or may comprise, the combination of a pin reception (or a pin-reception section) for receiving a pin and a pin, wherein the pin is arranged to move in the pin reception and relative to it.
The check valve arrangement is embodied in some exemplary embodiments according to the present invention to adopt or take exactly one or at least one operating position in addition to an initial position.
In some exemplary embodiments according to the present invention, the initial state is the first functional position, which serves for sterilizing, and the operating state is the second functional position showing a check function or check valve function.
In some exemplary embodiments according to the present invention, the check valve assembly may alternatively or in addition to the pin-pin-reception connection comprise a pin-pin-reception guide or guide system.
In particular exemplary embodiments of the check valve assembly according to the present invention, the pin-pin-reception connection is embodied such that the check valve assembly remains in an operating position after applying force on the pin-pin-reception connection and/or after an impression of path on the pin-pin-reception connection also after the force was released. This continuation describes the condition herein indicated as locked or latched state. An alternative term for this condition is “remanent activation” or “remanently activated”
In some exemplary embodiments according to the present invention, the check valve assembly comprises in the initial state a bypass by means of which the sterilization fluid may flow through the check valve assembly.
In particular exemplary embodiments according to the present invention, the check valve assembly comprises only in the initial state a bypass for the flow of the sterilization fluid, but not also in the operating state.
In certain exemplary embodiments according to the present invention, the check valve assembly comprises in the initial state a bypass that does not serve for the main flow of the working fluid, for the flow through of the sterilization fluid.
In some exemplary embodiments of the check valve assembly according to the present invention, the pin-reception of the pin-pin-reception connection is the bypass or it encompasses or forms, at least in part, the bypass.
In specific exemplary embodiments of the check valve assembly according to the invention, the pin-reception is a clearance hole or a blind hole.
In certain exemplary embodiments of the check valve assembly according to the invention, the pin-reception is a result of drilling; a result of insert molding in others.
In some exemplary embodiments of the check valve assembly according to the invention, the pin-reception exclusively, or at least in a section of it, comprises a circular cross section.
In particular exemplary embodiments of the check valve assembly according to the present invention, the pin of the pin-pin-reception connection is of hollow interior and it encompasses or forms, at least in part, the bypass.
In certain exemplary embodiments of the check valve assembly according to the present invention, the pin of the pin-pin-reception connection is continuously or sectionwise hollow.
In some exemplary embodiments of the check valve assembly according to the present invention, the pin of the pin-pin-reception connection is open, at least partially, on one or on both of its front or end areas.
In particular exemplary embodiments of the check valve assembly according to the present invention, the pin of the pin-pin-reception connection comprises side openings, that is, those found in its shell surface.
In some exemplary embodiments of the check valve assembly according to the invention, the pin-pin-reception connection is a pin-pin-reception combination.
In particular exemplary embodiments of the check valve assembly according to the present invention, the pin of the pin-pin-reception connection seals up, at least areawise, on its outer periphery against the valve body.
In some exemplary embodiments of the check valve assembly according to the present invention, the pin has in the area of its outer periphery “scope or clearance or play” for at least a part of the bypass flow.
In particular exemplary embodiments of the check valve assembly according to the present invention, the valve body comprises the pin as well as the pin-reception.
In certain exemplary embodiments according to the present invention, the check valve assembly in the operating state comprises a friction connection of the pin with at least one section of the pin-reception.
In specific exemplary embodiments according to the invention, an outer diameter of the pin—in the area of its connection with (or its reception in) the pin-reception—is bigger, to an extent which may be denoted here as excess, than an inside diameter of the pin-reception which is required—in case this is desired—to achieve a friction closure between pin and pin-reception.
In some exemplary embodiments of the check valve assembly according to the present invention, the valve body comprises a first area with a pin-reception for the pin or for the pin-pin-reception connection, and a second area for sealing a flow path of the working fluid in the operating state, wherein the second area is more flexible or softer than the first area, or the first area is more rigid than the second area.
In particular exemplary embodiments of the check valve assembly according to the present invention, the valve body or a valve insert is made of hard resin or comprises resin.
In certain exemplary embodiments of the check valve assembly according to the present invention, the valve body or the valve insert is produced as a 2-component-injection-molded part.
In some of the exemplary embodiments of the check valve assembly according to the present invention, the pin-pin-reception connection is embodied so as to keep the check valve assembly in the operating state by means of friction or frictional closure and/or form closure.
In particular exemplary embodiments of the check valve assembly according to present invention, the pin-pin-reception connection is embodied so as to keep the check valve assembly in the operating state solely by means of friction closure and/or form closure.
In some exemplary embodiments according to the present invention, the medical functional device is a blood cassette or blood tubing set, in particular for dialysis with at least one check valve assembly.
In particular exemplary embodiments of the medical functional device according to the present invention, the check valve assembly comprises a valve seat, and optionally a film for sealing the valve seat, the working fluid and/or the sterilization fluid against the surrounding.
In some exemplary embodiments of the medical functional device according to the present invention, the pin is connected to the valve seat or is part thereof. The pin-reception is movable or adjustable relative to the pin and it is part of the valve body.
In some exemplary embodiments of the medical functional device according to the present invention, the pin-reception is movable relative to the pin and it is part of the valve body while achieving a friction closure between pin and pin-reception.
In certain exemplary embodiments according to the present invention, the medical functional device is provided with at least two check valve assemblies which are arranged such that they are preferably transferable at the same time from the initial state into the operating state or may be activated as a check valve.
Some or all embodiments according to the present invention may comprise one or more of the advantages mentioned above or below.
In certain embodiments according to the present invention, a sealing lip is made of an elastomer. Due to the elasticity of the elastomer, the sealing lip is therefore advantageously used also as tolerance compensation, however, without significantly changing the opening pressure of the check valve assembly by an increase of a bias on the sealing lip.
In particular embodiments according to the present invention, areas of the check valve assembly which are made of elastomer, advantageously serve for the tolerance compensation in an assembling procedure of the check valve assembly, in particular by pressing the valve body and the sealing lip into a cassette body. For example, upon pressing, a force may be applied to an elastomeric area that is connected to the sealing lip. This elastomeric area may also be connected to a valve body made of a hard resin, in particular a 2-component resin part (2-component injection molding part). Upon pressing, a force can be eventually and advantageously (preferably exclusively) applied to the elastomer, without damaging the valve body. This is a further advantageous tolerance compensation by means of the elastomer.
In some check valve assemblies according to the present invention, their activation, i.e. their check function may be advantageously maintained even after the removal of the medical functional device or the disposable embodied as a medical functional device by way of example. Thus, the leakage of liquid can be prevented also in case of the removal of the medical functional device, by means of the remanently (or permanently) activated check valve assembly according to the present invention. Hereby two hose clamps on the disposable and a required activity of the user for their actuation may be saved.
Furthermore, it requires no covering sleeve in the substituate connector (as described in WO 2010/121819 A1 of the applicant of the invention for exemplary functional devices (there: a blood cassette)) and an associated working stroke of the machine to maintain the protection against contamination caused by the liquid leaking out of the medical functional device for example, a blood cassette.
The check valve assemblies according to the present invention can advantageously ensure the necessary robustness against an early activation in the production prior to the sterilization.
Furthermore, the check valve assemblies according to the present invention, in the automatic production, may offer advantages in the safe sterilization and in the improvement of quality of the check valve functions. These include a secured continuance in the initial position, until completion of the gas sterilization, small and defined changes of features through the gas sterilization, in particular regarding the opening pressure, minimizing the changes of features in the built-in check valve assemblies by means of mechanical, thermal or irradiation-induced stress during storage and transport, which may affect the secure and accurate activation within the setting up procedure, avoidance of the previously tolerated projection or overlap of the film-side front area of the check valve assemblies over the film plane of the cassette (check valve assemblies cause local buckling in the film) to guarantee a safely producible film weld seam starting from a constant flat film placed on the cassette, a more tolerances-tolerant embodiment of the individual parts and their interaction both during assembly as well as in their interaction with the treatment machine while providing high reproducibility of the tightness of the opening pressure and the flow-pressure drop characteristics, and thereby secure function even in high volume production.
The blood cassette 200 comprises a cassette body 201, which is embodied as a hard part, and a film 203. It further comprises an inlet 205 for a working fluid (for example blood) as well as an outlet which is not shown because it is at a right angel to the drawing plane. The blood cassette 200 comprises a valve seat 207 in the area of its cassette body 201.
Fixations 209 keep the film 203 fixed to the cassette body 201. The fixation could be gluing connection, pressed connection, welded connection or the like.
The check valve assembly 100 is in the valve seat 207. This comprises a valve body 101 with a pin-reception 103 and a pin 105 inserted in the pin-reception 103. The pin-reception 103 and the pin 105 form a pin-reception-pin connection in which the pin 105 can relatively move to the pin-reception 103 and is thereby guided by it.
The valve body 101 comprises furthermore a circumferentially closed sealing lip 106 which presses against a stop face 206 of the valve body 207 and causes the check valve effect of the check valve assembly 100 or hereto contributes to it.
In addition, the check valve assembly 100 or its valve body 101 comprises a circumferential switch plate 108 which is spaced here in the shown initial state from a stop face 208 for the switch plate 108. The switch plate 108 is connected to the pin 105 and serves for simple and tilt-safe application of force F on the pin 105.
The check valve assembly 100 of
The fluid can continue to spread along an inlet opening 109 which is preferably orthogonal to the pin-reception 103. Alternatively or in addition, the fluid may, in certain exemplary embodiments according to the present invention, enter the long-stretched interior of the optionally hollow pin 105, and re-exit therefrom through non-illustrated opening in the side and/or front area of the pin 105. Alternatively or in addition, the bypass 107 is formed by the space between the distance area 208 and the switch plate 108.
By means of a force F effecting in the direction of the arrow, which is preferably being applied by means of a section, such as a door 303, of the treatment apparatus 300 shown only in
Through the application of the force F, the pin 105 was shifted so far along the pin-reception 103 towards the inside of the cassette body 200 so that the bypass 107 is now closed. A (working) fluid, for example blood, a medication or substituate, can flow through the check valve assembly 100 in the operating state shown here, in which the check valve is activated, only under correspondingly high pressure and only in the direction from the inlet 205 to the outlet, but not reversed.
The distance or space between the distance area 208 and switch plate 108 no longer exists. Both elements touch each other, which is a sign that the pin 105 was shifted sufficiently deep into the pin-reception 103.
As in the initial state of
The pin 103 still maintains the check valve position shown in
Alternatively or in addition to the herein described friction closure, by means of which the pin 105, after it has been moved by means of the force F, is stuck in the position shown in
As shown in
The check valve assembly 100 shown in
The flow of sterilization medium is ensured by the bypass 107. However, also encompassed by the present invention are check valve assemblies which in each unlatched (initial) state are still sufficiently permeable for the sterilization agent. Such embodiments according to the present invention do not require a bypass. An example of such an embodiment is shown in
The embodiment of
The embodiment of
With respect to
The valve body 101 is, here purely by way of example, made of resin, especially polycarbonate (abbreviated PC). The sealing lip 106, purely by way of example, is made of elastomer. The valve insert, consisting of valve body 101 and sealing lip 106 or comprising them, is thus produced as a 2-component part, preferably sprayed or casted (2-component injection molding part).
From here, the fluid may further move past the not yet closed sealing lip 106, which in
The film 203 is already applied to the cassette body 201 and is affixed by fixations 209 to the latter, for example glued, welded, etc.
The free path 107a is closed in the position of the valve body 101 with respect to the valve seat 207 shown in
The blood cassette 200 comprises in addition to the check valve assembly 100 already known from the preceding figures, a second check valve assembly 100a.
The limiting device 303 or door comprises two activation plungers 305. They are arranged so that to apply activation force, denoted above with F, at the same time, on either both valve bodies 101 or both pins 105 of the check valve assemblies 100 and 100a.
The number of check valve assemblies 100, 100a shown in
The fixation of the limiting device 303 or door on the blood treatment apparatus 300 is also shown by way of example as a hinge connection. Any other mechanism by means of which one or more check valve assemblies, preferably automatically, preferably at the same time, can be activated are also encompassed in the present invention.
Number | Date | Country | Kind |
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10 2014 103 489.9 | Mar 2014 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2015/055278 | 3/13/2015 | WO | 00 |