Medium connector

Abstract

A medium connector including a passage configured to allow for the flow of medium, and a multi-portion engagement surface positioned about the passage. The multi-portion engagement surface includes a first surface portion, and a second surface portion. The first surface portion is configured to provide an interference fit with a corresponding sealing surface of a mating connector. The second surface portion is configured to provide a clearance fit with the corresponding sealing surface of the mating connector. The ratio of the first surface portion and the second surface portion is selected to regulate an engagement force between the medium connector and the mating connector.

Claims

1. A connector combination comprising: a mating connector comprising a sealing surface forming an interior passage; and a medium connector configured to engage the mating connector, the medium connector comprising: a passage configured to allow for the flow of medium; and a multi-portion engagement surface positioned about the passage, the multi-portion engagement surface including: a first surface portion, and a second surface portion, wherein the first surface portion is configured to provide an interference fit with the sealing surface of the mating connector that forms a seal and the second surface portion is configured to provide a clearance fit with the sealing surface of the mating connector; wherein a ratio of the first surface portion and the second surface portion regulates an engagement force between the medium connector and the mating connector when the multi-portion engagement surface engages the mating connector at an insertion depth required to ensure full engagement between the medium connector and the mating connector.

2. The connector combination of claim 1, wherein the sealing surface of the mating connector has a continuous 6% taper.

3. The connector combination of claim 1, wherein the multi-portion engagement surface includes a tapered surface, the first surface portion having a first taper angle, and the second surface portion having a second taper angle that is less than the first taper angle.

4. The connector combination of claim 3, wherein the second surface portion is generally cylindrical.

5. The connector combination of claim 1, wherein the multi-portion engagement surface includes a tapered surface, the first surface portion having a first taper angle, and the second surface portion having a second taper angle that is greater than the first taper angle.

6. The connector combination of claim 1, wherein the second surface portion include one or more recesses.

7. The connector combination of claim 6, wherein the one or more recesses include one or more radial slots.

8. The connector combination of claim 6, wherein the one or more recesses include one or more longitudinal slots.

9. The connector combination of claim 1, further comprising one or more retention features.

10. The connector combination of claim 9, wherein the one or more retention features include one or more snap-fit features.

11. A connector combination comprising: a mating connector comprising a sealing surface; and a medium connector configured to engage the mating connector, the medium connector comprising: a passage configured to allow for the flow of medium; and a tapered multi-portion engagement surface positioned about the passage, the tapered multi-portion engagement surface including: a first surface portion, and a second surface portion, wherein the first surface portion has a first taper angle configured to provide an interference fit with the sealing surface of the mating connector that forms a seal and the second surface portion has a second taper angle configured to provide a clearance fit with the sealing surface of the mating connector; wherein a ratio of the tapers of the first surface portion and the second surface portion is selected to regulate an engagement force between the medium connector and the mating connector when the tapered multi-portion engagement surface engages the mating connector at an insertion depth required to ensure full engagement between the medium connector and the mating connector.

12. The connector combination of claim 11, wherein the sealing surface of the mating connector has a continuous 6% taper.

13. The connector combination of claim 11, wherein the second taper angle is less than the first taper angle.

14. The connector combination of claim 13, wherein the second surface portion is generally cylindrical.

15. The connector combination of claim 11, wherein the second taper angle is greater than the first taper angle.

16. The connector combination of claim 11, further including one or more retention features.

17. The connector combination of claim 16, wherein the one or more retention features include a snap fit feature.

18. A connector combination comprising: a medium connector comprising: a base portion configured to connect to a medium carrying component; a passage configured to allow for the flow of medium; a multi-portion engagement surface positioned about the passage and extending outward from the base portion, the multi-portion engagement surface including: a first surface portion located at an end of the multi-portion engagement surface opposite the base portion, and a second surface portion extending from the base portion to the first surface portion, and a mating connector comprising: a sealing surface forming an interior passage, the sealing surface configured to engage at least a portion of the multi-portion engagement surface of the medium connector within the interior passage; wherein the first surface portion of the medium connector is configured to engage the sealing surface of the mating connector to provide an interference fit that forms a seal and the second surface portion of the medium connector is configured to provide a clearance fit with the sealing surface of the mating connector; and wherein a ratio of the first surface portion and the second surface portion is selected to regulate an engagement force between the medium connector and the mating connector when the multi-portion engagement surface engages the mating connector at an insertion depth required to ensure full engagement between the medium connector and the mating connector.

19. The combination of claim 18, wherein the multi-portion engagement surface includes a tapered surface, the first surface portion having a first taper angle, and the second surface portion having a second taper angle that is less than the first taper angle.

20. The combination of claim 19, wherein the second surface portion is generally cylindrical.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1A diagrammatically depicts a first embodiment of a medium connector assembly, including a medium connector and a mating connector in a dis-engaged configuration;

(2) FIG. 1B diagrammatically depicts the first embodiment of the medium connector assembly of FIG. 1A in an engaged configuration;

(3) FIG. 2A diagrammatically depicts another embodiment of a medium connector assembly, including a medium connector and a mating connector in a dis-engaged configuration;

(4) FIG. 2B diagrammatically depicts the medium connector assembly of FIG. 2A in an engaged configuration;

(5) FIG. 3 diagrammatically depicts another embodiment of a medium connector assembly;

(6) FIG. 4 diagrammatically depicts another embodiment of a medium connector assembly;

(7) FIG. 5 diagrammatically depicts another embodiment of a medium connector assembly;

(8) FIGS. 6A and 6B diagrammatically depict another embodiment of a medium connector assembly; and

(9) FIG. 7 diagrammatically depicts another embodiment of a medium connector.

(10) Like reference symbols in the various drawings indicate like elements.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

(11) Referring to FIG. 1A, there is shown a medium connector assembly 100 for connecting medium carrying components (not shown) and allowing the flow of medium therebetween. Examples of medium carrying components may include, but are not limited to, a delivery catheter and an insulin delivery pump, a fluid supply (such as an intravenous fluid supply bag, a dialysate supply, etc.) and a pump supply catheter, or the like. Connector assembly 100 may include medium connector 102 associated with a first medium carrying component (not shown) and mating connector 104 associated with a second medium carrying component.

(12) Medium connector 102 may include passage 106 to allow for the flow of medium. The medium flowing between the medium carrying components, e.g., via passage 106, may include liquids (e.g., insulin, dialysate, saline solution, or the like), gases (e.g., air, oxygen, nitrogen, or the like), suspensions, or the like. Further, medium connector 102 may include multi-portion engagement surface 108, generally, positioned about passage 106. Multi-portion engagement surface 108 may include first surface portion 110, and second surface portion 112.

(13) As will be discussed in greater detail below, first surface portion 110 of multi-portion engagement surface 108 may be configured to provide an interference fit with corresponding sealing surface 114 of mating connector 104. Further, second surface portion 112 of multi-portion engagement surface 108 may be configured to provide a clearance fit with corresponding sealing surface 114 of mating connector 104. The ratio of first surface portion 110 and second surface portion 112 may be selected to regulate an engagement between medium connector 102 and mating connector 104.

(14) For example, corresponding sealing surface 114 of mating connector 104 may include a tapered surface, e.g., which may include a 6% taper (e.g., approximately 3.4 degree included taper) of a standard Luer taper connector (e.g., as defined by the ISO 594 standard). Of course, corresponding sealing surface 114 may include tapers other than a 6% Luer taper. Multi-portion engagement surface 108 may similarly include a tapered surface, in which first surface portion 110 may have a first taper angle, and second surface portion 112 may have a second taper angle that is less than the first taper angle. In one particular embodiment, the second taper angle may approach zero, such that second surface portion 112 may be generally cylindrical (e.g., may include a slight taper, such as a draft angle to facilitate manufacture). Of course, second surface portion 112 may include other, non-cylindrical, taper angles.

(15) Continuing with the above-stated example, first surface portion 110 of multi-portion engagement surface 108 may include a first taper angle corresponding to the angle of corresponding sealing surface 114 of mating connector 104 (e.g., a 6% taper). As shown in FIG. 1B, the corresponding taper of first surface portion 110 may provide an interference fit with corresponding sealing surface 114 of mating connector 104. As also shown, the second taper angle of second surface portion 112 may provide a clearance fit with corresponding sealing surface 114 of mating connector 104, e.g., which may result in at least partial clearance 116 between second surface portion 112 and corresponding sealing surface 114.

(16) The contact surface area of medium connector 102 and mating connector 104 may remain generally constant once first surface portion 110 has engaged corresponding sealing surface 114. For example, as first surface portion 110 may be configured to provide an interference fit with corresponding sealing surface 114, while second surface portion 112 of multi-portion engagement surface 108 may be configured to provide a clearance fit with corresponding sealing surface 114, only first surface portion 110 may engage corresponding sealing surface 114.

(17) Once first surface portion 110 engages corresponding sealing surface 114, further insertion of medium connector 102 relative to mating connector 104 may be attributable to the elastic and/or plastic deformation force of medium connector 102 in the region of first surface portion 110 and/or of mating connector 104 in the region of contact between corresponding sealing surface 114 and first surface portion 110 (e.g., as first surface portion 110 is forced into the progressively smaller opening provided by corresponding sealing surface 114), and the frictional interaction between first surface portion 110 and corresponding sealing surface 114 of mating connector 104.

(18) As such, the ratio of first surface portion 110 and second surface portion 112 may be selected to regulate an engagement force between medium connector 102 and mating connector 104. As discussed above, second surface portion 112 may be configured to provide a clearance fit with corresponding sealing surface 114, and as such may not contribute to the engagement force (e.g., the insertion force per increment of axial insertion) between medium connector 102 and mating connector 104. Therefore, the ratio of first surface portion 110 to second surface portion 112 may be increased to increase the engagement force between medium connector 102 and mating connector 104. Conversely, the ratio of first surface portion 110 to second surface portion 112 may be decreased to decrease the engagement force between medium connector 102 and mating connector 104.

(19) The ability to regulate the engagement force between medium connector 102 and mating connector 104 (e.g., based upon the ratio of first surface portion 110 and second surface portion 112) may allow the use of features associated with medium connector 102 (and/or the first associated medium carrying component) and/or mating connector 104 (and/or the second associated medium carrying component) which may require a minimum insertion depth to be achieved within a selected range of insertion forces. For example, medium connector 102 may include one or more retention features, e.g., which may facilitate a positive engagement and/or relative position between medium connector 102 and mating connector 104. As shown in FIGS. 1A and 1B, the one or more retention features may include one or more snap-fit features (e.g., cooperating snap-fit features 118, 120A, respectively associated with medium connector 102 and mating connector 104). As shown, one or more of cooperating snap-fit features 118, 120A may be disposed on a cantilever feature (e.g., cantilever arm 122), e.g., which may facilitate engagement/dis-engagement of cooperating snap fit features 118, 120A. Snap-fit features 118, 120A may require a minimum insertion depth to provide engagement therebetween. As described above, the ratio of first surface portion 110 and second surface portion 112 may be selected to regulate the engagement force between medium connector 102 and mating connector 104 associated with the insertion depth necessary to provide engagement between snap-fit features 118, 120A. While regulating the engagement force between the medium connector and the mating connector has been described in connection with the use of retention features, this is not intended as a limitation of the present disclosure, as the ability to regulate the engagement force between the medium connector and the mating connector may equally be used for other purposes.

(20) Referring also to FIGS. 2A and 2B, in a related embodiment, the medium connector assembly may include medium connector 102 associated with a first medium carrying component (not shown) and mating connector 104 associated with a second medium carrying component. As shown, one or more of the cooperating snap-fit features (e.g., cooperating snap-fit features 118, 120B) may be provided as a feature associated with one of the mating surfaces of the medium connector assembly (e.g., snap-fit feature 120b may be formed on member 124 defining corresponding sealing surface 114). Based upon, at least in part, the illustrated exemplary embodiments of FIGS. 1A-1B and 2A-2B, various additional/alternative arrangements may be readily understood, and are contemplated by the present disclosure.

(21) In addition/as an alternative to the second surface portion including a second taper angle, the second surface portion may include one or more recesses. For example, and referring also to FIG. 3, the second surface portion may include one or more recesses including one or more longitudinal slots (e.g., longitudinal slot 150), e.g., which may be formed in first surface portion 110. Longitudinal slot 150 may be configured to provide a clearance fit with cooperating sealing surface 114 of mating connector 104. For example, longitudinal slot 150 may provide a second surface portion which may not engage cooperating sealing surface 114 when first surface portion 110 is fully engaged with cooperating sealing surface 114 of mating connector 104. The ratio of first surface portion 110 and the radial slots (e.g., longitudinal slot 150) may be selected to regulate the engagement force between medium connector 102 and mating connector 104, e.g., in as much as longitudinal slot 150 may not provide a frictional engagement force with cooperating sealing surface 114 of mating connector 104.

(22) Referring also to FIG. 4, additionally/alternatively the second surface portion may include one or more recesses that may include one or more radial slots (e.g., radial slot 152). Similar to the above-described longitudinal slots (e.g., longitudinal slot 150), radial slot 152 may be configured to provide a clearance fit with corresponding sealing surface 114 of mating connector 104. As such, the ratio of first surface portion 110 and the radial slots (e.g., radial slot 152) may be selected to regulate the engagement force between medium connector 102 and mating connector 104. For example, radial slot 152 may not provide a frictional engagement force with cooperating sealing surface 114 of mating connector 104.

(23) In addition to the specifically described and depicted recesses in the form of longitudinal slots and radial slots, the one or more recesses may include various additional and/or alternative configurations (e.g., dimples, etc.), which may be configured to provide a clearance fit with the cooperating sealing surface of the mating connector. As such, the ratio of the first surface portion and the second surface portion (including one or more recesses) may be selected to regulate an engagement force between the medium connector and the mating connector. Further, it will be appreciated that the number, arrangement, and character of the one or more recesses may vary according to design criteria and preference.

(24) While the above-described embodiments have been depicted having a multi-portion engagement surface configured as a male medium connector portion, referring also to FIGS. 5 through 7, medium connector 102 may additionally/alternatively be configured as a female connector portion. For example, medium connector 102 may include a female connector portion having a multi-portion engagement surface including first surface portion 110 and second surface portion 112. As shown in FIG. 5, the multi-portion engagement surface may include a tapered surface, in which first surface portion 110 may have a first taper angle configured to provide an interference fit with cooperating sealing surface 114 of male mating connector 104. Further, second surface portion 112 may have a second taper angle that is greater than the first taper angle. As such, second surface portion 112 may be configured to provide a clearance fit with cooperating sealing surface 114 of male mating connector 104.

(25) Further, the second surface portion may include one or more recesses. For example, and referring also to FIGS. 6A and 6B, the one or more recesses may include one or more longitudinal slots (e.g., longitudinal slot 150A, 150B). Similar to previously described embodiments, first surface portion 110 may be configured to provide an interference fit with cooperating sealing surface 114 of male mating connector 104. Further, the second surface portion, including longitudinal slot 150A, 150B, may be configured to provide a clearance fit with cooperating sealing surface 114 of male mating connector 104. Medium connector 102 may include sealing region 154, which may not include longitudinal slots, e.g., to thereby facilitate achieving a seal between first surface portion 110 and cooperating sealing surface 114 of mating connector 104.

(26) Referring also to FIG. 7, the second surface portion may include one or more recesses, in which the one or more recesses may include one or more radial slots (e.g., radial slot 152). Radial slot 152 may be configured to provide a clearance fit with cooperating sealing surface 114 of male mating connector 104.

(27) In addition to the specifically described and depicted recesses in the form of longitudinal slots and radial slots, the one or more recesses may include various additional and/or alternative configurations (e.g., dimples, etc.), which may be configured to provide a clearance fit with the cooperating sealing surface of the mating connector. As such, the ratio of the first surface portion and the second surface portion (including one or more recesses) may be selected to regulate an engagement force between the medium connector and the mating connector. Further, it will be appreciated that the number, arrangement, and character of the one or more recesses may vary according to design criteria and preference.

(28) A number of implementations have been described. Nevertheless, it will be understood that various modifications may be made. Accordingly, other implementations are within the scope of the following claims.