ANTI-FREE FLOW MECHANISM

Abstract

The present invention discloses an anti-free flow mechanism for a finger-type peristaltic infusion pump (DDS) and methods for avoiding anti-free-flow. The mechanism comprises: a passive mechanical interface (MS) which integrally accommodates a portion of the flexible infusion tube, and an anti-free flow valve (AFFV) which is a spring-activated latch, which is incorporated within said MS. The maneuverable latch is secured in the MS either in CLOSED or OPEN configurations: in its CLOSED configuration no flow is provided, and in its OPEN configuration, a free flow is facilitated. Said anti-free flow mechanism is configured in a manner such that when the MS is not properly mounted in the DDS, said AFFV is automatically actuated via one or more integrated springs, to its CLOSED configuration. When the MS is properly mounted in the DDS, said latch is adapted to be automatically switched to the OPEN configuration.

Description

FIELD OF THE INVENTION

The present invention generally relates to an anti-free flow mechanism for a finger-type peristaltic infusion pump.

BACKGROUND OF THE INVENTION

An infusion pump infuses fluids, medication or nutrients into a patient's circulatory system. It is generally used intravenously, although subcutaneous, arterial and epidural infusions are occasionally used.

Infusion pumps can administer fluids in ways that would be impractically expensive or unreliable if performed manually by nursing staff. For example, they can administer as little as 0.1 mL per hour injections, injections every minute, injections with repeated boluses requested by the patient, up to maximum number per hour, or fluids whose volumes vary by the time of day. Because they can also produce quite high but controlled pressures, they can inject controlled amounts of fluids e.g., subcutaneously or epidurally.

Among other safety features available on some pumps, anti-free flow mechanisms and anti-free-flow devices prevent blood from draining from the patient, or infusate from freely entering the patient, when the infusion pump is being set up.

Various approaches were taken in the literature to ensure anti-free-flow in those pumps. Hence for example, U.S. Pat. No. 6,261,262 discloses a peristaltic pump with housing, a pump head in the housing, and a receiving path defined along housing and pump head for receiving tubing. Nevertheless, an effective anti-free flow provided in a passive mechanical interface (MS) which integrally accommodates a portion of the flexible infusion-tube wherein a flow of infusion fluid is provided is still a long felt need.

SUMMARY OF THE INVENTION

It is thus the object of the present invention to provide an anti-free flow mechanism for a finger-type peristaltic infusion pump (DDS); the mechanism comprising (i) a passive mechanical interface (MS) which integrally accommodates a portion of the flexible infusion-tube, and (ii) an anti-free flow valve (AFFV) which is a spring-activated latch incorporated within the MS. The maneuverable latch is secured in the MS either in a CLOSED or OPEN configuration. In its CLOSED configuration no flow is provided, and vice versa, in its OPEN configuration, a free flow is facilitated. The anti-free flow mechanism is configured in a manner such that when the MS is not properly mounted in said DDS, the AFFV is automatically actuated via a plurality of springs, and especially a set of one or more integrated springs, to its CLOSED configuration, and vice versa: It is configured in a manner such that when the MS is properly mounted in said DDS, the latch is adapted to be automatically switched to the OPEN configuration. The terms ‘AFFV’ and ‘spring-activated latch’ are used hereinafter interchangeably.

Another object of the present invention is to provide an anti-free flow mechanism as defined above, wherein the AFFV is adapted to be manually switched to a secured-OPEN configuration when the MS is not mounted in said DDS. The configuration-switch is possibly provided by applying a continuous pressure on the AFFV, and vice versa: Immediately after stopping to press, the AFFV is switched to its CLOSED configuration. Another object of the present invention is to provide an anti-free flow mechanism as defined above, wherein the AFFV is adapted to be manually switched to its OPEN configuration when the MS is not mounted in the DDS. The switching is provided possibly by applying a single tilting press on the AFFV. The OPEN configuration is possibly followed by either (i) switching said AFFV to its CLOSED configuration or (ii) switching the AFFV to its secured-OPEN configuration.

Another object of the present invention is to provide an anti-free flow mechanism as defined above, wherein the AFFV is adapted to be automatically switched to its CLOSED configuration when the MS is switched-out of the DDS, regardless of the initial OPEN/CLOSED configuration of the AFFV (when the MS was mounted in said DDS).

Still another object of the present invention is to provide an anti-free flow mechanism as defined above, wherein the AFFV is especially adapted to be manually switched to its various OPEN/CLOSED configurations by one hand.

A last object of the present invention is to provide a method for providing an anti-free flow mechanism in a finger-type peristaltic infusion pump (DDS). The method comprises steps as follows:

(a) obtaining an anti-free flow mechanism for a finger-type peristaltic infusion pump (DDS); said mechanism comprising (i) a passive mechanical interface (MS) which integrally accommodates a portion of the flexible infusion-tube, and (ii) an anti-free flow valve (AFFV) which is a spring-activated latch incorporated within said MS. Said maneuverable latch is secured in said MS either in CLOSED or OPEN configurations. In its CLOSED configuration no flow is provided, and vice versa: In its OPEN configuration, a free flow is facilitated. Said anti-free flow mechanism is configured in a manner such that when the MS is not properly mounted in the DDS, the AFFV is automatically actuated via a plurality of springs, and especially a set of one or more integrated springs, to its CLOSED configuration; and vice versa: It is configured in a manner such that when said MS is properly mounted in said DDS, said latch is adapted to be automatically switched to said OPEN configuration; and

(b) one or more of the following steps:

(i) manually switching the AFFV to a TEMPORARILY-OPEN configuration when the MS is not mounted in the DDS. The switching is provided possibly by applying a continuous pressure on said AFFV, and vice versa: Immediately after stopping to press, the AFFV is switched to its CLOSED configuration;

(ii) automatically switching said AFFV to its CLOSED configuration when the MS is switched-out of the DDS, regardless of the initial SECURED-OPEN/TEMPORARILY-OPEN/CLOSED configuration of said AFFV, when the MS was mounted in said DDS); and,

(iii) manually switching the AFFV to its various OPEN/CLOSED configurations by one hand, while the MS is not mounted in the DDS.

BRIEF DESCRIPTION OF THE FIGURES

In order to understand the invention and to see how it may be implemented in practice, a plurality of preferred embodiments will now be described, by way of non-limiting example only, with reference to the accompanying drawing, in which

FIG. 1 schematically illustrates a cross-section of a DDS-MS with anti-free flow mechanism according to one embodiment of the present invention;

FIGS. 2a-2c schematically illustrate detailed cross-sections of an MS with AFFV in various OPEN/CLOSED configurations according to one embodiment of the present invention;

FIG. 3 schematically illustrates cross-sections of an anti-free flow mechanism in a CLOSED configuration;

FIGS. 4a-4c schematically illustrate cross-sections of an anti-free flow mechanism in various OPEN/CLOSED configurations with a view of both AFFV and springs, according to one embodiment of the present invention; and,

FIGS. 5a-5c schematically illustrate simplified cross-sections of an anti-free flow mechanism in its various OPEN/CLOSED configurations.

DETAILED DESCRIPTION OF THE INVENTION

The following description is provided so as to enable any person skilled in the art to make use of said invention and sets forth the best modes contemplated by the inventor of carrying out this invention. Various modifications, however, will remain apparent to those skilled in the art, since the generic principles of the present invention have been defined specifically to provide an anti-free flow mechanism for a finger-type peristaltic infusion pump.

The term ‘plurality’ refers hereinafter to any integer number equal to or higher than 1, e.g., 2, 4 etc.

An anti-free flow mechanism is incorporated within a passive mechanical interface. The interface is adapted for mounting of a flexible infusion tube in a finger-type peristaltic infusion pump in a reversible yet secured manner.

The present invention discloses a passive mechanical interface, denoted hereinafter by the term ‘MS’, being a mechanical interface of the set of tubing to the DDS, that has no moving parts or static members being an integral part of the aforesaid pumping mechanism or sensors thereof, e.g., pistons, hinges, cams, wheels, sealing membranes, gaskets, etc. The MS is interlaced with an integrated anti-free flow mechanism, useful for mounting a flexible infusion tube to a finger-type peristaltic infusion pump, so as to provide a uni-directional or bi-directional flow, provided by the pump solely in a predetermined direction of an infusion.

The MS reversibly yet securely mounts the tube in a predetermined 3D orientation so it is facing the pumping mechanism and various sensors of the infusion pump. The MS hence comprises a mechanical conductor for the set of tubing that acts as an interface of said tubing to a pump and an anti-free flow valve (AFFV).

Reference is now made to FIG. 1, schematically illustrating a cross section of a DDS and anti-free flow mechanism according to one embodiment of the present invention. A passive mechanical interface (MS, 3) is mounted in a finger-type peristaltic infusion pump (4) so that pressing fingers (6) and sensors (here, bubble detector, 7) are perfectly oriented towards a flexible infusion-tube (5) accommodated in said MS. The anti-free flow mechanism comprises an anti-free flow latch (1), valve or shutoff located in the MS (3), facing an AFFV-activating member (2) located in the DDS. The AFFV is now in its CLOSED configuration and infused fluid is not flowing via tube (5). By mounting MS in the DDS (See Open-Close arrow), AFFV is pressed against the AFFV-activating member (2) and AFFV is automatically switched on to its OPEN configuration, and flow of the infused fluid is allowed via tube (5).

Reference is now made to FIGS. 2a-2c, schematically illustrating an AFFV mechanism in three different OPEN/CLOSED configurations. Those schemes present both valves and springs oriented in various configurations.

Reference is now made to FIG. 3, schematically illustrating the anti-free flow mechanism according to one embodiment of the present invention, being temporarily in its CLOSED configuration. MS (3) is accommodating flexible infusion tube (5).

Reference is now made to FIGS. 4a-4c, schematically presenting a various OPEN/CLOSED configurations of the anti-free flow mechanism. FIG. 4a illustrates the MS wherein AFFV is in its OPEN and secured configuration. The MS (3) here accommodates an infusion tube (5), wherein the AFFV (1) is in connection to a plurality (e.g., 1-4) of retrieving springs (13). FIG. 4b illustrates the MS wherein the AFFV is in its OPEN configuration. FIG. 4c illustrates the MS wherein the AFFV is in its CLOSED configuration.

Reference is now made to FIGS. 5a-c, schematically presenting various OPEN/CLOSED configurations of the anti-free flow mechanism without showing the spring members. FIG. 5a presents the MS wherein the AFFV is in its OPEN and secured configuration. FIG. 5b illustrates the MS wherein the AFFV is in its OPEN configuration. FIG. 5c illustrates the MS wherein AFFV is in its CLOSED configuration.

Claims

1. An anti-free flow mechanism for a finger-type peristaltic infusion pump (DDS); said mechanism comprising (i) a passive mechanical interface (MS) which integrally accommodates a portion of the flexible infusion-tube, and (ii) an anti-free flow valve (AFFV) which is a spring-activated latch, said latch is incorporated within said MS; wherein said maneuverable latch is secured in said MS either in CLOSE or OPEN configurations: in its CLOSE configuration no flow is provided, and vice versa, in its OPEN configuration, a free flow is facilitated; said anti-free flow mechanism is configures in a minter that when said MS is not properly mounted in said DDS, said AFFV is automatically actuated via a plurality, especially a set of one or more integrated springs, to its CLOSE configuration; and vice versa, it is configures in a manner that when said MS is properly mounted in said DDS, said latch is adapted to be automatically switched to said OPEN configuration.

2. An anti-free flow mechanism according to claim 1, wherein said AFFV is adapted to be manually switched to a TEMPORALLY-OPEN configuration whereat the MS is not mounted in said DDS; said configuration-switch is provided possible by applying a continuous press on said AFFV, and vice versa, immediately after stop pressing said AFFV is switched to its CLOSE configuration.

3. An anti-free flow mechanism as defined in claim 1 or in any of its dependent claims wherein said AFFV is adapted to be manually switched to its TEMPORALLY-OPEN configuration whereat the MS is not mounted in said DDS; said AFFV is further adapted to be switched on to an self maintained SECURED-OPEN configuration; and wherein this SECURED-OPEN configuration is possibly re-switched to the TEMPORALLY-OPEN configuration by applying an inverted tilting press.

4. An anti-free flow mechanism as defined in claim 1 or in any of its dependent claims wherein said AFFV is adapted to be automatically switched to its CLOSE configuration whereat MS is switched-out of the DDS, regardless to the initial SECURED-OPEN/TEMPORALLY-OPEN/CLOSE configuration of said AFFV, namely when the MS was mounted in said DDS).

5. An anti-free flow mechanism as defined in claim 1 or in any of its dependent claims especially adapted to be manually switched to its various OPEN/CLOSE configuration by one hand, while the MS is not mounted in said DDS.

6. A method for avoiding anti-free flow in a finger-type peristaltic infusion pump; said method comprising steps of (a) obtaining an anti-free flow mechanism for a finger-type peristaltic infusion pump; said mechanism comprising (i a passive mechanical interface (MS) which integrally accommodates a portion of the flexible infusion-tube, and (ii) an anti-free flow valve (AFFV) which is a spring-activated latch, said latch is incorporated within said MS; wherein said maneuverable latch is secured in said MS either in CLOSE or OPEN configurations: in its CLOSE configuration no flow is provided, and vice versa, in its OPEN configuration, a free flow is facilitated; said anti-free flow mechanism is configures in a manner that when said MS is not properly mounted in said DDS, said AFFV is automatically actuated via a plurality, especially a set of one or more integrated springs, to its CLOSE configuration; and vice versa, it is configures in a manner that when said MS is properly mounted in said pump, said latch is adapted to be automatically switched to said OPEN configuration; and (b), one or more of the following steps: (i) manually switching said AFFV to a TEMPORALLY-OPEN configuration whereat the MS is not mounted in said DDS; said switch is provided possible by applying a continuous press on said AFFV, and vice versa, immediately after stop pressing said AFFV is switched to its CLOSE configuration; (ii) automatically switching said AFFV to its CLOSE configuration whereat MS is switched-out of the pump, regardless to the initial SECURED-OPEN/TEMPORALLY-OPEN/CLOSE configuration of said AFFV, namely when the MS was mounted in said DDS); and, (iii) manually switching said AFFV to its various OPEN/CLOSE configurations by one hand, while the MS is not mounted in said pump.