MEDICAL COUPLING AND MEDICAL SYSTEM COMPRISING MEDICAL COUPLING

Abstract

A coupling for fluid-tight connection of two fluid-guiding portions in medical applications. The coupling is an axially lockable quick-connect coupling and comprises a male coupling portion having a continuous first passage and a female coupling portion adapted to be slipped over the male coupling portion and having a continuous second passage. A preferably circumferential radial sealing is provided on the outer periphery of the male coupling portion and/or on the inner periphery of the female coupling portion.

Claims

1-10. (canceled)

11. A medical coupling for fluid-tight connection of two fluid-guiding portions in medical applications, the medical coupling comprising: a male coupling portion having a continuous first passage and an outer periphery; and a female coupling portion adapted to be slipped over the male coupling portion and having a continuous second passage and an inner periphery; wherein a circumferential radial sealing is provided on at least one of the outer periphery of the male coupling portion or the inner periphery of the female coupling portion; and wherein the medical coupling is an axially lockable quick-connect coupling.

12. The medical coupling according to claim 11, wherein: the male coupling portion is formed integrally with a medical apparatus.

13. The medical coupling according to claim 11, wherein: the male coupling portion includes a first fastening portion; and the male coupling portion is adapted to be fastened to a medical apparatus via the first fastening portion.

14. The medical coupling according to claim 13, wherein: the first fastening portion of the male coupling portion is a first Luer lock that is connectable to a second Luer lock of the medical apparatus.

15. The medical coupling according to claim 14, wherein the first Luer lock comprises a female internal cone and the second Luer lock comprises a male external cone.

16. The medical coupling according to claim 11, wherein: the female coupling portion is formed integrally with a fluid line.

17. The medical coupling according to claim 15, wherein: the female coupling portion includes a second fastening portion adapted to be fastened to a fluid line; the second fastening portion of the female coupling portion is a third Luer lock that is connectable to a fourth Luer lock of the fluid line; and the third Luer lock comprises a male external cone and the fourth Luer lock comprises a female internal cone.

18. The medical coupling according to claim 11, wherein: the female coupling portion includes a fastening portion; and the female coupling portion is adapted to be fastened to a fluid line via the fastening portion.

19. The medical coupling according to claim 18, wherein: the fastening portion of the female coupling portion is a first Luer lock that is connectable to a second Luer lock of the fluid line.

20. The medical coupling according to claim 19, wherein: the first Luer lock comprises a male external cone and the second Luer lock comprises a female internal cone.

21. The medical coupling according to claim 11, wherein: the male coupling portion includes a circumferential groove configured to engage a part of the female coupling portion.

22. The medical coupling according to claim 21, wherein: the part of the female coupling portion engaged by the circumferential groove of the male coupling portion is at least one snap hook.

23. The medical coupling according to claim 11, wherein: the male coupling portion and the female coupling portion can be released from each other by a release device.

24. A medical system comprising: a first fluid line; and at least one of a medical apparatus or a second fluid line, wherein: in the first fluid line a first passage is provided; and in the at least one of the medical apparatus or the second fluid line a second passage is provided; and the first fluid line can be connected to at least one of the medical apparatus or the second fluid line via a medical coupling according to claim 11 so that the first passage and the second passage are sealed to each other.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0045] The invention is best understood from the following detailed description when read in connection with the accompanying drawings. Included in the drawings are the following figures:

[0046] FIG. 1 illustrates a sectional view of an adapter including a coupling sleeve coupled thereto in accordance with a first embodiment.

[0047] FIG. 2 illustrates a sectional view of a medical apparatus comprising a coupling sleeve coupled thereto according to a second embodiment.

[0048] FIG. 3 illustrates a sectional view of an adapter comprising a coupling sleeve coupled thereto which includes a release device according to a third embodiment.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0049] FIG. 1 illustrates a first embodiment of a medical coupling according to aspects of the invention in which a substantially cylindrical adapter 2 and a coupling sleeve 4 are connected to each other. The adapter 2 includes a male coupling portion or, respectively, first coupling portion 6 on its end facing the coupling sleeve 4 and includes a first fastening portion 8 on the other end facing away from the coupling sleeve 4. In addition, the adapter 2 includes a continuous first passage 10 conically widening in the direction away from the coupling sleeve 4. In other words, a first female Luer lock internal cone 12 is formed. Furthermore, at the end of the first fastening portion 8 facing away from the coupling sleeve 4 a first external thread portion or first thread portion 14 is formed. Via the first female Luer lock internal cone 12 and the first thread portion 14 the adapter 2 can be fastened to a medical apparatus or device 16 (not shown in FIG. 1) such as a dialyzer or a machine for extracorporeal blood treatment. In the case of a dialyzer the blood-guiding lines are connected and in the case of a machine for extracorporeal blood treatment the pressure lines branching from the blood-guiding lines and guiding an air column to the pressure absorbers are connected. In other words, the adapter 2 can be fastened to each Luer lock of complementary design including a male external cone.

[0050] The first coupling portion 6 furthermore includes a circumferential groove 18. Moreover, an O-ring 20 is arranged between the groove 18 and the end of the first coupling portion 6 facing the coupling sleeve 4 as a sealing element. The O-ring 20 may contact the outer periphery of the first coupling portion 6, may be received in an additional sealing groove shown in FIG. 3 or may be formed, e.g. by 2K injection molding, integrally with the first coupling portion 6 as a sealing element. Additionally, a shoulder 22 which extends outwardly in the radial direction is formed at the end of the first coupling portion 6 facing away from the coupling sleeve 4 or, respectively, between the first coupling portion 6 and the first fastening portion 8.

[0051] The coupling sleeve 4 acts as a female coupling portion and is formed integrally with a fluid line or a tube 24 being connected to the end of the coupling sleeve 4 distant from the adapter 2. Inside the tube 24 and the coupling sleeve 4 a second passage 26 is formed. Further, plural snap hooks 28 evenly distributed in the peripheral direction are formed on the inner surface of the coupling sleeve 4. However, it is also possible that only one single circumferential snap hook is formed.

[0052] When the coupling sleeve 4 is slipped in the direction of a sliding direction SR, i.e. along a longitudinal axis LA of the adapter 2 and of the coupling sleeve 4 in the direction of the adapter 2, the snap hooks 28 abut on an end face 30 of the adapter 2 facing the coupling sleeve 4. This will result in the fact that the coupling sleeve 4 made from plastic widens in the radial direction and the coupling sleeve 4 is adapted to be slipped further in the sliding direction SR onto the adapter 2 and, respectively, the first coupling portion 6. As soon as the snap hooks 28 are level with the groove 18 in the axial direction, i.e. along the longitudinal axis LA, they engage in the groove 18 and the coupling sleeve 4 returns into its original position not widened in the radial direction. Accordingly, the O-ring 20 of the adapter 2 comes to rest on a sealing surface 32 on the inside of the coupling sleeve 4. Thus a dense flow path is formed between the first passage 10 of the adapter 2 and the second passage 26 of the coupling sleeve 4 and, respectively, the tube 24. Furthermore, the shoulder 22 delimits the movement of the coupling sleeve 4 in the sliding direction 4 so that the snap hooks 28 are retained in the groove 18 and thus the coupling sleeve 4 is safely connected to the adapter 2. However, certain axial play between the adapter 2 and the coupling sleeve 4 is permitted as long as the snap hooks 28 are not moved out of the groove 18 and the O-ring 20 rests on the sealing surface 32.

[0053] By the coupling or quick-connect coupling according to aspects of the invention not only a tight and force-independent connection of two fluid-guiding portions such as the coupling sleeve 4 including the tube 24 and the adapter 2 can be quickly established, but it is also possible, due to the radial sealing with the O-ring 20, that the coupling sleeve 4 and the adapter 2 may rotate relative to each other about the longitudinal axis LA. Thus the tube 24 is prevented from twisting or else the Luer lock between the adapter 2 and the medical apparatus 16 is prevented from disconnecting. It is also possible that the sealing element is provided in the coupling sleeve 4 and after connection gets into contact with a sealing surface of the adapter 2.

[0054] FIG. 2 illustrates a second embodiment of a medical coupling according to aspects of the invention. Components equal to those of the first embodiment are provided with like reference numerals.

[0055] In the second embodiment, the adapter 2′ is formed integrally with the medical apparatus 16. In other words, the adapter 2′ rather is an extension of the medical apparatus 16 at the end of which facing the coupling sleeve 4′ the first coupling portion 6 is formed as male coupling portion.

[0056] In the second embodiment the coupling sleeve 4′ acts as a connector and thus connects the tube 24′ to the medical apparatus 16. The coupling sleeve 4′ comprises at its end facing the medical apparatus 16 a female coupling portion or, respectively, second coupling portion 34 and at its end facing the tube 24′ comprises a second fastening portion 36. The connection of the adapter 2′ and the coupling sleeve 4′ and, respectively, the first coupling portion 6 and the second coupling portion 34 is made analogously to the first embodiment.

[0057] In the coupling sleeve 4′ moreover a continuous third passage 38 is formed along the longitudinal axis LA. The second fastening portion 36 is a Luer lock. That is, the third passage 38 is enclosed by a male Luer lock external cone 40 extending in the direction of the tube 24′. In addition, at the radially outer end of the second fastening portion 36 an internal thread portion or, respectively, second thread portion 42 is provided.

[0058] The end of the tube 24′ facing the coupling sleeve 4′ is a Luer lock designed to be complementary to the Luer lock of the coupling sleeve 4′. In this way the second passage 26′ conically widens toward the coupling sleeve 4′. In other words, a second female Luer lock internal cone 44 is formed. Moreover, at the end of the hose 24′ facing away from the coupling sleeve 4′ a second external thread portion or, respectively, third thread portion 46 is formed.

[0059] When the first coupling portion 6 and the coupling sleeve 4′ are coupled, as afore-described, and in addition the tube 24′ and the coupling sleeve 4′ are interconnected via the Luer lock, a tight flow path can be provided from the second passage 26′ in the tube 24′ via the third passage 38 in the coupling sleeve 4′ to the first passage 10′ in the medical apparatus 16.

[0060] The afore-described embodiments illustrate various options as to how the tube 24 and the medical apparatus 16 can be connected to each other. However, further options of combining the various connections are possible as well. For example, the adapter 2 can be fastened, on the one hand, via a Luer lock to the medical apparatus and, on the other hand, can be engaged in the coupling sleeve 4′ which is fastened to the tube 24′ via a Luer lock.

[0061] FIG. 3 illustrates a third embodiment of a medical coupling according to aspects of the invention. Components equal to those of the first and second embodiments are provided with like reference numerals.

[0062] In the third embodiment, the coupling sleeve 4″ additionally includes a release device 48 comprising a lever 50 and a pin 52. In the locked state as shown in FIG. 3 the lever 50 is arranged in parallel to the longitudinal axis LA and the pin 52 is arranged perpendicularly to the longitudinal axis LA. The lever 50 is articulated at its end facing the adapter 2″ to an end of the pin 52 facing away from the adapter 2″. Furthermore, the release device 48 is provided in a recess 54 of the coupling sleeve 4″ and is articulated to the coupling sleeve 4″ via a pivoting point 56.

[0063] In order to be able to connect the coupling sleeve 4″ to the adapter 2″ the lever 50 has to be moved inwardly in the radial direction at its end facing away from the adapter 2″. In this way the pin 52 is moved outwardly in the radial direction and the coupling sleeve 4″ can be slipped in the sliding direction SR onto the adapter 2″ and, respectively, the first coupling portion 6″. As soon as a front boundary area 58 of the coupling sleeve 4″ facing the adapter 2″ abuts against the shoulder 22, the groove 18 is level with the pin 52 in the axial direction. When the lever 50 is released, i.e. is no longer actuated, the lever returns into its home position in parallel to the longitudinal axis LA and the pin 52 moves into the groove 18 so that the adapter 2″ and the coupling sleeve 4″ are connected to each other. For releasing the connection the lever 50 in turn has to be actuated, namely, moved inwardly in the radial direction. In this way the pin 52 moves out of the groove 18 and the coupling sleeve 4″ may be removed from the adapter 2″ against the sliding direction SR.

[0064] The coupling is thus designed to be releasable in the axial direction. However, this can also be realized via a release key or the like instead of via a release lever. In the afore-described third embodiment the unlocking device 48 is disposed on the coupling sleeve 4″. It is also possible, however, to dispose the release device 48 on the adapter 2″.

[0065] Hereinafter, several differences and advantageous configurations of the third embodiment as compared to the first and second embodiments will be described.

[0066] In the third embodiment the O-ring 20 is received in a sealing groove 60. In this way, the radial extension of the sealing element is delimited. This configuration may also be used in the first and second embodiments, as advantageously in this way the snap hooks 28 are adapted to properly slide over the O-ring 20 when the coupling sleeve is slipped on.

[0067] Moreover, in the third embodiment the end face 30 of the adapter 2″ is not directly adjacent to the coupling sleeve 4″. Rather, a radially outwardly widened receiving opening 62 in which the first coupling portion 6″ can be received is connected to the second passage 26 in the direction of the adapter 2″. The first passage 10″, too, is widened outwardly in the radial direction toward the coupling sleeve 4″.

[0068] Further, not only one locking and, respectively, release device 48 has to be provided in the third embodiment. There may also be distributed two or more thereof preferably evenly in the peripheral direction. In addition, the adapter 2″ of the third embodiment either may be adapted to be fastened, analogously to the adapter 2 of the first embodiment, to the medical apparatus 16 or may be formed integrally with the medical apparatus 16 analogously to the adapter 2′ of the second embodiment.