阅读说明：本技术 材料转移连接器及转移流体的方法 (Material transfer connector and method of transferring fluid ) 是由 阿里瑞札·伊伯拉希姆 卡尔·德·沃尔 约翰·萨斯 于 2019-05-24 设计创作，主要内容包括：本发明提供材料转移连接器及转移流体的方法,其中,该连接器包括：基部；第一细长结构,该第一细长结构具有第一端和第二端,该第一细长结构从在该第一端处的该基部的第一侧延伸到远离该基部的该第二端,该第二端形成第一开口,该第一开口被定尺寸和被配置成接纳第一容器；导管,该导管延伸穿过该基部并具有第一端头,该第一端头在一侧或多侧被该第一细长结构围绕；第一防护件,该第一防护件定位在该第一细长结构内,其中该第一防护件包括第一表面,该第一表面与该基部的距离比该第一端头与该基部的距离远。当将该第一容器移动到该第一开口中时,该第一表面朝向该基部移动,于是该第一端头进入该第一容器,从而为该第一容器创建流体路径。(The present invention provides a material transfer connector and a method of transferring a fluid, wherein the connector comprises: a base; a first elongated structure having a first end and a second end, the first elongated structure extending from a first side of the base at the first end to the second end distal from the base, the second end forming a first opening sized and configured to receive a first container; a conduit extending through the base and having a first tip surrounded on one or more sides by the first elongated structure; a first guard positioned within the first elongated structure, wherein the first guard includes a first surface that is farther from the base than the first tip. When the first container is moved into the first opening, the first surface moves toward the base, whereupon the first end enters the first container, creating a fluid path for the first container.)

1. A material transfer connector, comprising:

A base;

A first elongated structure having a first end and a second end, the first elongated structure extending from a first side of the base at the first end to the second end distal from the base, the second end forming a first opening sized and configured to receive a first container;

A conduit extending through the base and having a first tip surrounded on one or more sides by the first elongated structure;

A first guard positioned within the first elongated structure, wherein the first guard includes a first surface that is farther from the base than the first tip; and is

Wherein when the first container is moved into the first opening, the first surface moves toward the base whereupon the first end enters the first container, thereby creating a fluid path for the first container.

2. The material transfer connector of claim 1, further comprising:

A second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container;

A second tip surrounded on one or more sides by the second elongated structure;

And

A second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is farther from the base than the second tip;

Wherein, when the second container is moved into the second opening, the second surface moves toward the base, whereupon the second end enters the second container, thereby creating a fluid path between the first container and the second container.

3. The material transfer connector of claim 2, wherein the first elongated structure radially and angularly aligns the first container with the conduit, and the second elongated structure radially and angularly aligns the second container with the conduit.

4. The material transfer connector of claim 2, wherein the first container comprises a first top portion comprising a first fluid barrier and the first end passes through the first fluid barrier; the second container includes a second top portion including a second fluid barrier, and the second end passes through the second fluid barrier.

5. The material transfer connector of claim 1 or 2, further comprising first and second springs located between the base and the first and second guards, respectively.

6. The material transfer connector of claim 2, wherein the first elongated structure comprises threads on a first inner surface, and the threads of the first elongated structure are configured to threadably interact with threads on an outer surface of the first container.

7. The material transfer connector of claim 6, wherein the second elongated structure comprises threads on a second inner surface, and the threads of the second elongated structure are configured to threadably interact with threads on an outer surface of the second container.

8. The material transfer connector of claim 1 or 2, wherein the first container contains a reagent and the second container contains a solvent for the reagent.

9. The material transfer connector of claim 2, wherein said first elongated structure is cylindrical and surrounds said first terminus.

10. The material transfer connector of claim 9, wherein said second elongated structure is cylindrical and surrounds said second terminus.

11. The material transfer connector of claim 2, wherein the first shield is compressible.

12. The material transfer connector of claim 1 or 2, wherein the first elongated structure radially and angularly aligns the first container with the conduit.

13. The material transfer connector of claim 1 or 2, wherein the first container comprises a first top portion comprising a first fluid barrier, and the first end passes through the first fluid barrier.

14. The material transfer connector of claim 1 or 2, further comprising a first spring located between the base and the first guard.

15. A method of transferring fluid between containers, the method comprising:

Transferring fluid from a first receptacle present in the first opening of the material transfer connector of claim 2 to a second receptacle present in the second opening of the material transfer connector of claim 2.

16. The method of claim 15, further comprising:

Moving a first container into the first opening of the material transfer connector of claim 1, whereby the first surface moves toward the base, the first end enters the first container and creates a fluid path between the first container and a second container present in the second opening.

Technical Field

The present invention relates to a device for transferring the contents of one container to another container.

Background

The contents of the transfer vessel may be part of many operations, such as preparation of reagents, preparation of buffers, preparation of stock solutions, preparation of samples for testing, and the like. In some examples of transferring the contents of a vessel, the material in one vessel may be transferred to another vessel containing another material, which may be a fluid or a solid. Transferring material from the container may result in loss of at least a portion of the transferred material, contamination of the material, or exposure of personnel or equipment to the transferred material. Furthermore, the specific situation of material transfer may be limited by accuracy and reproducibility requirements as well as time constraints.

It would be desirable to have an apparatus and method that can assist in the transfer of material from a container, and in some cases can reduce the likelihood of contamination or exposure, improve safety or simplify or make more efficient the transfer operation.

Disclosure of Invention

In a first aspect disclosed herein, there is provided a material transfer connector comprising: a base; a first elongated structure having a first end and a second end, the first elongated structure extending from a first side of the base at the first end to the second end distal from the base, the second end forming a first opening sized and configured to receive a first container; a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a catheter extending through the base and having a first tip surrounded on one or more sides by the first elongated structure and a second tip surrounded on one or more sides by the second elongated structure; a first guard positioned within the first elongated structure, wherein the first guard includes a first surface that is farther from the base than the first tip; and a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein when the first container is moved into the first opening, the first surface moves toward the base such that the first end enters the first container, and when the second container is moved into the second opening, the second surface moves toward the base such that the second end enters the second container, thereby creating a fluid path between the first container and the second container.

In a second aspect, there is provided a method of transferring fluid between containers, the method comprising: moving a first container into a first opening of a material transfer connector, wherein the material transfer connector comprises: a base; a first elongated structure having a first end and a second end, the first elongated structure extending from a first side of the base at the first end to the second end distal from the base, the second end forming a first opening sized and configured to receive a first container; a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a catheter extending through the base and having a first tip surrounded on one or more sides by the first elongated structure and a second tip surrounded on one or more sides by the second elongated structure; a first guard positioned within the first elongated structure, wherein the first guard includes a first surface that is farther from the base than the first tip; and a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein, when the first container is moved into the first opening, the first surface moves toward the base, whereupon the first end enters the first container, and when the second container is moved into the second opening, the second surface moves toward the base, whereupon the second end enters the second container, thereby creating a fluid path between the first container and the second container, and the first surface moves toward the base, whereupon the first end enters the first container and creates a fluid path between the first container and a second container present in the second opening; and transferring fluid between the first container and the second container.

In a third aspect, there is provided a material transfer connector comprising: a base; a first elongated structure having a first end and a second end, the first elongated structure extending from a first side of the base at the first end to the second end distal from the base, the second end forming a first opening sized and configured to receive a first container; a conduit extending through the base and having a first tip surrounded on one or more sides by the first elongated structure; a first guard positioned within the first elongated structure, wherein the first guard includes a first surface that is farther from the base than the first tip; and wherein when the first container is moved into the first opening, the first surface moves toward the base whereupon the first end enters the first container, thereby creating a fluid path for the first container.

In a fourth aspect, a material transfer connector is provided. The material transfer connector includes: a base; a first elongated structure having a first end and a second end, the first elongated structure extending from a first side of the base at the first end to the second end distal from the base, the second end forming a first opening sized and configured to receive a first container; a conduit extending through the base and having a first tip surrounded on one or more sides by the first elongated structure; a first guard positioned within the first elongated structure, wherein the first guard includes a first surface that is farther from the base than the first tip; and wherein when the first container is moved into the first opening, the first surface moves toward the base whereupon the first end enters the first container, thereby creating a fluid path for the first container.

In one embodiment of the fourth embodiment, the material transfer connector further comprises: a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein, when the second container is moved into the second opening, the second surface moves toward the base such that the second end enters the second container, thereby creating a fluid path between the first container and the second container.

in one embodiment of the fourth embodiment, the material transfer connector further comprises: a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein, when the second container is moved into the second opening, the second surface moves toward the base, whereupon the second tip enters the second container, creating a fluid path between the first container and the second container, the first elongated structure radially and angularly aligning the first container with the conduit, the second elongated structure radially and angularly aligning the second container with the conduit.

In one embodiment of the fourth embodiment, the material transfer connector further comprises: a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein, when the second container is moved into the second opening, the second surface moves toward the base, whereupon the second tip enters the second container, creating a fluid path between the first container and the second container, wherein the first container comprises a first top portion comprising a first fluid barrier and the first tip passes through the first fluid barrier, the second container comprises a second top portion comprising a second fluid barrier and the second tip passes through the second fluid barrier.

In one embodiment of the fourth aspect, the material transfer connector optionally further comprises: a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein when the second container is moved into the second opening, the second surface moves toward the base, whereupon the second tip enters the second container, thereby creating a fluid path between the first container and the second container, the material transfer connector further comprising a first spring and a second spring, the first spring and the second spring being located between the base and the first guard and the second guard, respectively.

In one embodiment of the fourth embodiment, the material transfer connector further comprises: a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein, when the second container is moved into the second opening, the second surface moves toward the base, whereupon the second tip enters the second container, creating a fluid path between the first container and the second container, the first elongated structure comprises threads on a first inner surface, and the threads of the first elongated structure are configured to threadably interact with threads on an outer surface of the first container.

In one embodiment of the fourth embodiment, the material transfer connector further comprises: a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein, when the second container is moved into the second opening, the second surface moves toward the base, whereupon the second tip enters the second container, creating a fluid path between the first container and the second container, the first elongated structure comprises threads on a first inner surface and the threads of the first elongated structure are configured to threadably interact with threads on an outer surface of the first container, the second elongated structure comprises threads on a second inner surface and the threads of the second elongated structure are configured to threadably interact with threads on an outer surface of the second container.

In one embodiment of the fourth aspect, the material transfer connector optionally further comprises: a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein, when the second container is moved into the second opening, the second surface moves toward the base, whereupon the second tip enters the second container, thereby creating a fluid path between the first container containing a reagent and the second container containing a solvent for the reagent.

In one embodiment of the fourth embodiment, the material transfer connector further comprises: a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein, when the second container is moved into the second opening, the second surface moves toward the base, whereupon the second tip enters the second container, creating a fluid path between the first container and the second container, wherein the first elongated structure is cylindrical and surrounds the first tip.

In one embodiment of the fourth embodiment, the material transfer connector further comprises: a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein, when the second container is moved into the second opening, the second surface moves toward the base, whereupon the second tip enters the second container, creating a fluid path between the first container and the second container, wherein the first elongated structure is cylindrical and surrounds the first tip, and the second elongated structure is cylindrical and surrounds the second tip.

In one embodiment of the fourth embodiment, the material transfer connector further comprises: a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein, when the second container is moved into the second opening, the second surface moves toward the base, whereupon the second tip enters the second container, creating a fluid path between the first container and the second container, wherein the first shield is compressible.

In one embodiment of the fourth aspect, the material transfer connector optionally further comprises: a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein when the second container is moved into the second opening, the second surface moves toward the base whereupon the second tip enters the second container creating a fluid path between the first container and the second container, the material transfer connector further comprising a first spring and a second spring located between the base and the first and second shields, respectively, wherein the first elongated structure radially and angularly aligns the first container with the conduit.

In one embodiment of the fourth aspect, the material transfer connector optionally further comprises: a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein, when the second container is moved into the second opening, the second surface moves toward the base whereupon the second tip enters the second container, creating a fluid path between the first container and the second container, the material transfer connector further comprising a first spring and a second spring located between the base and the first guard and the second guard, respectively, wherein the first container comprises a first top comprising a first fluid barrier and the first tip passes through the first fluid barrier.

in one embodiment of the fourth aspect, the material transfer connector optionally further comprises: a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein when the second container is moved into the second opening, the second surface moves toward the base such that the second tip enters the second container, thereby creating a fluid path between the first container and the second container, the material transfer connector further comprising a first spring and a second spring, the first spring and the second spring being located between the base and the first guard and the second guard, respectively, and a first spring, the first spring being located between the base and the first guard.

In embodiments that use a material transfer connector that includes a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein, when the second container is moved into the second opening, the second surface moves toward the base, whereupon the second tip enters the second container, thereby creating a fluid path between the first container and the second container-the method comprising: transferring fluid from a first receptacle present in the first opening of the material transfer connector to a second receptacle present in the second opening of the material transfer connector.

in embodiments that use a material transfer connector that includes a second elongated structure having a third end and a fourth end, the second elongated structure extending from a second side of the base at the third end to the fourth end distal from the base, the fourth end forming a second opening sized and configured to receive a second container; a second tip surrounded on one or more sides by the second elongated structure; a second guard positioned within the second elongated structure, wherein the second guard includes a second surface that is further from the base than the second tip; wherein, when the second container is moved into the second opening, the second surface moves toward the base, whereupon the second tip enters the second container, thereby creating a fluid path between the first container and the second container-the method comprising: moving a first container into the first opening of the material transfer connector of claim 1, whereby the first surface moves toward the base, whereupon the first end enters the first container and creates a fluid path between the first container and a second container present in the second opening, and transfers fluid from a first container present in the first opening of the material transfer connector to a second container present in the second opening of the material transfer connector.

Drawings

Fig. 1 shows a schematic view of one embodiment of a material transfer connector.

Fig. 2 shows a schematic view of one embodiment of a material transfer connector.

Fig. 3 shows a schematic top view of one embodiment of a material transfer connector.

fig. 4 shows a schematic view of one embodiment of a material transfer connector.

Fig. 5 shows a schematic view of one embodiment of a material transfer connector.

Fig. 6 shows a schematic view of one embodiment of a material transfer connector.

Fig. 7 shows a schematic view of one embodiment of a material transfer connector.

Figure 8 shows a photograph of one embodiment of a lid.

Figure 9 shows a photograph of the components of one embodiment of the lid.

Fig. 10 shows a schematic view of the components of one embodiment of a material transfer connector.

fig. 11 shows a photograph of a partially assembled embodiment of a material transfer connector.

fig. 12 shows a photograph of a partially assembled embodiment of a material transfer connector.

Fig. 13 shows a photograph of one embodiment of a material transfer connector.

Fig. 14 shows a photograph of one embodiment of a material transfer connector and container.

Fig. 15 shows a photograph of one embodiment of a material transfer connector and container.

Fig. 16 shows a schematic view of one embodiment of a material transfer connector and container.

Fig. 17 shows a schematic view of one embodiment of a material transfer connector and container.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a thorough description of various specific embodiments disclosed herein. However, it will be understood by those skilled in the art that the presently claimed invention may be practiced without all of the specific details discussed below. In other instances, well-known features have not been described in order not to obscure the present invention.

Some uses of the material transfer apparatus may include use with quality control materials, or may be in a quality control environment. Commercially available quality control materials can be used in clinical diagnostic laboratories to monitor the accuracy and precision of manual and automated clinical testing methods and procedures. These control articles (controls) can be prepared by incorporating various analytes (e.g., drugs, hormones, enzymes, antibodies, etc.) into a base matrix containing various additives such as stabilizers and antimicrobials, and are provided in liquid and lyophilized forms. In some embodiments, a processed human base matrix such as human serum or human urine can be used to manufacture a quality control article to ensure that the control article is as sensitive as an actual patient sample to achieve a desired analytical variance. The quality control article may be provided as a single analyte or multi-analyte control article in a bi-level or tri-level configuration to monitor and challenge the performance of the test method above, near, and below the medical decision point for each assay. In some embodiments, the control may have an analyte list containing relevant analytes, such as tumor markers, or analytes measured by one type of detection technique, such as conventional chemical analytes measured by photometry or urine analyte measured by reflectance photometry using a dry chemical reagent strip. In some cases, the control can be originally designed, developed, and optimized to meet the needs of some popular test methods and techniques (e.g., analyte concentration, number of control levels, etc.), and can vary as the detection technique changes. In addition, the quality control material can be designed to be stable, provide lot-to-lot repeatability, and be cost effective.

Several embodiments of methods or processes for making customized control articles can be envisioned that can be quickly and easily made as needed at the point-of-use and that can meet laboratory quality control requirements relating to the following requirements:

Number of control levels

Controlling the amount of analyte in an article

Controlling the concentration of an analyte in an article

Base substrate for use in control articles

Control of shelf life of articles (generally limited to the most unstable analytes in the prior art)

It may be desirable for embodiments of these methods or processes to be configured for reconstituting a dried material, such as lyophilized beads (beads), to reduce the amount of manual handling and transfer of liquid to the lyophilized beads, and vice versa.

In some cases, the amount of manually handled or transferred material (whether dry or fluid) can be reduced by using a connector between the containers holding the components to be combined, wherein the connector allows one material to pass from one container to another through the connector. In some embodiments, such a connector can facilitate the introduction of a volume of a base matrix (solid or fluid) into an analyte bead (or other solid or fluid) in order to reconstitute the analyte bead or combine materials and prepare a quality control material. In some embodiments, the base matrix and/or analyte beads (or other solid or fluid) may be pre-measured and loaded into a container to be used with the connector.

The material transfer connector may be configured to engage with a container, such as a bottle, flask, test tube, beaker, syringe, jar, pipette, or other container, whether closed or open. The material transfer connector may also be configured to engage with equipment, such as a reactor, a tank, a chromatography system, or other laboratory, industrial, or analytical equipment. In some embodiments, the material transfer connector may engage with two receptacles, two pieces of equipment, or one receptacle and one piece of testing equipment. In some embodiments, the material transfer connector may facilitate the transfer of a fluid or solid, or a combination thereof, in one container to a container holding the fluid, solid, or a combination thereof.

Fig. 1 shows one embodiment of a material transfer connector in which a conduit 12 passes through a base 14. The conduit 12 may have a first tip 16, the first tip 16 being configured to engage with a first container 20 or with a piece of equipment, for example. In some embodiments, the first end may be blunt. In some embodiments, the first end may be sharpened. In some embodiments, the first tip may be configured to engage with a medical device, such as by being configured to include a male luer (luer) or female luer (or luer lock) connection. In some embodiments, first tip 16 may be configured to pierce a top or a top including a membrane that closes first container 20. In some embodiments, the first end may terminate in a sharp point with an opening at or near the apex 22 of the sharp point. In some embodiments, the catheter 12 may be a double-ended needle or a hypodermic needle.

In some embodiments of the material transfer connector, the conduit 12 may have a second tip 18, the second tip 18 configured to engage with a second container 24 or piece of equipment. The second head 18 may be of any suitable design, such as those described herein with respect to the first head 16, wherein the design of the first head 16 and the second head 18 are independently selected.

In some embodiments, the first elongated structure 26 may extend from the base 14 to the second end 46 of the first elongated structure 26 at a first end 48 of the first elongated structure 26, capable of surrounding the first tip 16 on one or more sides. The first elongated structure 26 may extend parallel to the conduit 12 and may serve as a guide for the first container 20, for example by engaging with one end of the first container 20 or one side of the first container 20 or both the side and one end of the first container 20, to assist in aligning the first container 20 with the conduit 12. In some embodiments, the elongated structure 26 may radially align the first container 20 relative to the catheter 12, the first tip 16, or the tip 22 of the first tip 16. In some embodiments, the first elongated structure 26 may align the first container 20 at an angle relative to the catheter 12, the first tip 16, or the top end 22 of the first tip 16. In some embodiments, the alignment (radial and/or angular alignment) of the first container may position the first container 16 such that the first end 16 enters the first container 20 at a predetermined location, such as through the penetrable cap 30 on the first container 20.

The penetrable cap may be resealable or non-resealable. In some embodiments, the cap 30 may comprise an elastomeric material or a plastic material, for example at predetermined points. The elastomeric material may be any suitable elastomeric material, such as one that is chemically and structurally compatible with the intended contents and storage conditions (e.g., temperature, pressure, vacuum, etc.). The elastomeric material may include, for example, rubber (natural or synthetic rubber) as well as other types of elastomeric materials, such as urethane, nitrile, butyl rubber, halogenated butyl rubber, chloroprene, polybutadiene, and the like. In some embodiments, the elastomeric material may be in the form of a membrane, such as may be used in medical vials, configured to be pierced with a hypodermic needle. The plastic material may be any suitable plastic material, including hard and soft plastics, such as materials that are chemically and structurally compatible with the intended contents and storage conditions (e.g., temperature, pressure, vacuum, etc.).

In some embodiments, the elongated structure 26 may be positioned along the conduit 12 on only one side of the conduit 12, and may be configured to allow the first container to be moved along the conduit 12, allowing the first tip to enter the first container, such as by the first tip piercing a cap 30 of the first container 20.

In some embodiments, the lid 30 may extend into an opening of the first or second container 20, 24. The lid 30 may extend fully or partially into the first or second containers 20, 24. In some embodiments, the elastomeric cover 30 or elastomeric portion of the cover 30 may extend into the first or second container. In some embodiments, the lid 30 may seal against the top of the first or second container or against the inner surface of the first or second container. In some embodiments, such as shown in fig. 8, the lid 30 may have one or more protrusions 64, the protrusions 64 extending into the first or second container to secure or assist in securing the lid 30 to the first or second container. Embodiments of the cover 30 may include a penetrable portion 66, such as the cover 30 shown in fig. 8. In some embodiments, the penetrable portion 66 may be configured to be penetrated by the catheter 12 or the tip of the catheter 12, for example. In some embodiments, the penetrable portion 66 may be thinner or softer than adjacent portions of the cover 30 or otherwise more easily penetrable than adjacent portions of the cover 30.

In some embodiments of the cap 30, external threads 60 may be present. Fig. 8 and 9 show an embodiment of a cap 30 having external threads 60. As shown in fig. 9, the external threads 60 may be separable from the rest of the cap 30. In other embodiments, the external threads 60 may be non-separable from other portions or the rest of the cap 30. In some embodiments, the external threads 60 may be integrally formed with the cap 30, such as by molding, casting, or the like. In some embodiments, the external threads 60 may be bonded to other portions of the lid 30, such as by gluing, bonding, melting, welding, or the like.

in some embodiments, the elongated structure 26 may be located on two or more sides of the conduit 12, such as on two or more sides of the conduit 12 by being comprised of two or more portions extending from the base 14 at different locations on the base 14. In some embodiments, portions of the elongated structure 26 may be positioned around the catheter 12 by being positioned around the catheter 12 at two or more locations. In some embodiments, portions of the elongated structure 26 may be positioned around the conduit 12 by forming a grid or wall around at least a portion of the conduit 12. In some embodiments, the elongated structure 26 may include a plurality of separate portions extending from the base 14.

In some embodiments, the elongated structure 26 may completely surround the conduit 12, such as by being in the form of a cylindrical or other closed structure (e.g., an oval or polygon), or partially surround the conduit 12, such as by being in the form of a curved wall.

in some embodiments, the distance that the elongated structure extends from the base 14 may be approximately equal to the distance that the conduit 12 extends from the base 14 into the first opening 2, or 1-2 times, or 2-3 times, or 3-4 times, or more, the distance. In some embodiments, the distance that the elongated structure 26 extends from the base 14 may be less than the distance that the conduit 12 extends from the base 14 into the first opening 2. In some embodiments, the elongated structure 26 may extend a sufficient distance from the base 14 to align the conduit 12 with the first container 20 and/or the lid 30 of the first container 20 before the conduit 12 contacts or enters the first container 20 or the lid 30 of the first container 20. In some embodiments, the elongated structure 26 may limit the radial positioning of the first container 20 by aligning the first container 20 around the first container 20 on a sufficient number of sides or around a sufficient portion of the perimeter of the first container 20 such that the first tip 16 enters the first container 20 or its lid 30 at or within an acceptable margin of a predetermined point. In some embodiments, the predetermined point or the predetermined point and acceptable edge may be a thinner region and/or a region of a different material or otherwise more easily penetrable region than the adjacent region of the lid 30 or the first container 20. In some embodiments, the elongated structure 26 may angularly align the first container 20 by surrounding the conduit 12 and interacting with one end or side of the container 20 to limit variations in the angular position of the container 20 relative to the conduit 12 or the first tip 16, e.g., so that the first tip 16 enters the container 20 through a low obstruction or unobstructed area. In some embodiments, misalignment may cause the first tip 16 to contact or be blocked by a portion of one end or side of the container 20 when the first container 20 is moved into the first opening or along the first elongated structure 26 toward the first tip 16. In some embodiments, misalignment may result in the first terminus 16 attempting to pass through such a portion of the cover 30: which is thicker than the predetermined point or is harder than the predetermined point or is otherwise more difficult for the first tip 16 to penetrate.

In some embodiments, the connector 1 can have a second elongated structure 28, and the second elongated structure 28 can extend from the base 14 to a second end 50 of the second elongated structure 28 at a first end 52 of the second elongated structure 28, capable of surrounding the second tip 18 on one or more sides. In some embodiments, the second elongated structure 28 may extend parallel to the conduit 12 and may serve as a guide for the second container 24, for example by engaging with one end of the second container 24 or one side of the second container 24 or both one side and one end of the second container 24, to assist in aligning the second container 24 with the conduit 12. In some embodiments, the second elongated structure 28 may radially align the second container 24 relative to the catheter 12, the second tip 18, or the top end 34 of the second tip 18. In some embodiments, the second elongated structure 28 may align the second container 24 at an angle relative to the catheter 12, the second tip 18, or the top end 34 of the second tip 18. In some embodiments, the alignment (radial and/or angular alignment) of the second container may position the second container 24 such that the second end 18 enters the second container 24 at a predetermined location, such as through a penetrable cap 30 on the second container 24.

In some embodiments, the second elongated structure 28 may be positioned along the catheter 12 on only one side of the catheter 12, and may be configured to allow the second container to move along the catheter 12, enabling access to the first tip.

In some embodiments, the second elongated structure 28 may be located on two or more sides of the catheter 12, for example on two or more sides of the catheter 12 by being comprised of two or more portions extending from the base 14 at different locations on the base 14. In some embodiments, portions of the second elongated structure 28 may be positioned around the catheter 12 by being positioned around the catheter 12 at two or more locations. In some embodiments, portions of the second elongated structure 28 may be positioned around the conduit 12 by forming a grid or wall around at least a portion of the conduit 12. In some embodiments, the second elongated structure 28 may comprise a plurality of separate portions extending from the base 14.

In some embodiments, the second elongated structure 28 may completely surround the conduit 12, such as by being in the form of a cylindrical or other closed structure (e.g., an oval or polygon), or partially surround the conduit 12, such as by being in the form of a curved wall.

In some embodiments, the second elongated structure 28 may extend from the base 14 a distance approximately equal to the distance the conduit 12 extends from the base 14 into the second opening 4, or 1-2 times, or 2-3 times, or 3-4 times, or more times the distance. In some embodiments, the second elongated structure 28 may extend a distance from the base 14 that is less than the distance the conduit 12 extends from the base 14 into the second opening 4. In some embodiments, the second elongated structure 28 may extend a sufficient distance from the base 14 to align the conduit 12 with the second container 24 and/or the lid 30 of the second container 24 before the conduit 12 contacts or enters the second container 24 or the lid 30 of the second container 24. In some embodiments, the second elongated structure 28 may limit the radial positioning of the second container 24 by aligning the first container around the second container 24 on a sufficient number of sides or around the second container 24 over a sufficient portion of the perimeter of the second container 24 so that the second end 18 enters the second container 24 or its lid 30 at or within an acceptable margin of the predetermined point. In some embodiments, the predetermined point or the predetermined point and acceptable edge may be a thinner region and/or a region of a different material or otherwise more easily penetrable region than an adjacent region of the lid 30 or the second container 24. In some embodiments, the second elongated structure 28 may angularly align the second container 24 by surrounding the conduit 12 and interacting with an end or side of the second container 24 to limit variations in the angular position of the second container 24 relative to the conduit 12 or the second end head 18, e.g., so that the second end head 18 enters the second container 24 through a low obstruction or unobstructed area. In some embodiments, misalignment may cause the second tip 18 to contact or be blocked by a portion of an end or side of the second container 24 when the second container 24 is moved into the second opening or along the second elongated structure 28 toward the second tip 18. In some embodiments, misalignment may result in the second end 18 attempting to pass through such a portion of the cover 30: which is thicker than the predetermined point or is harder than the predetermined point or is otherwise more difficult for the second tip 18 to penetrate.

fig. 10-13 illustrate the components and assembly of one embodiment of a material transfer connector. Here, the first and second elongated structures 26,28 are hollow cylinders, the base 14 being composed of two pieces which trap the flange 17 of the flanged double-ended needle between them. The outer sleeve 15 is fitted around the base 14 and the first ends 48,52 of the first and second elongated structures 26, 28. Assembled material transfer connector 1 as shown in fig. 13, first and second receptacles 20,24 are positioned in first and second openings 2,4 of material transfer connector 1.

Protective element

In some embodiments of the material transfer connector 1, it may be desirable to design the material transfer connector 1 to reduce the likelihood of the first or second stubs 16,18 poking or otherwise injuring a person, such as by a finger prick. In some embodiments, the first elongated structure 26 and/or the second elongated structure 28 may be configured to define a channel 6, wherein a transverse opening dimension 8 (e.g., opening diameter) limits finger or other item travel along the interior of the first and/or second elongated structures 26, 28. In some embodiments, the transverse opening size and distance between the second end 46,50 of the first or second elongated structure 26,28 and the first or second tip 16,18 may be configured to limit finger or other object travel in the first opening 2 or the second opening 4 and reduce the likelihood of finger or other object contact with the first or second tip 16, 18.

In some embodiments of the material transfer connector 1, a guard may be used to reduce the likelihood of a finger or other object contacting the first or second tips 16, 18. In some embodiments of the guard, the first guard 42 may include a first surface 54 positioned between the base 14 and the second end 46 of the first elongated structure 26. The first surface 54 may be positioned between the tip of the catheter and the second end of the elongated structure. Fig. 2 illustrates a first surface 54 of the first guard 42 between the first tip 16 and the second end 46 of the first elongated structure. In this position, the first guard member 42 covers the first tip 16 because the first tip 16 is below the first surface 54 of the first guard member 42. As the first container 20 moves along the first elongated structure 26 and along the channel 6 into the first opening 2 toward the conduit 12 and the first tip 16, the end of the first container 20 may push the first surface 54 of the first guard 42 toward the base 14, thereby exposing the first tip 16 to the first container 20 and optionally to the lid 30 of the first container 20. When the first tip 16 is exposed, it may enter the first container 20, for example by passing through the cover 30, for example by penetrating a penetrable membrane in the cover 30. Fig. 3 shows a top view of material transfer connector 1, where first elongated structure 26, conduit 12, guard 42, and top surface 54 are visible, while guard 42 has optional protrusion 66 and optional opening 68 therein, opening 68 allowing conduit 12 to pass through guard 42. The projections of the guard 42 fit into the slots of the first elongated structure 26 to provide alignment.

In some embodiments, the first guard 42 may be or may include a solid material or a compressible material. Suitable solid materials may include metal, wood, plastic, elastomers, or other materials that are substantially incompressible under conditions of use. Suitable compressible materials may include foam, such as closed or open cell foam or other sufficiently soft material that is compressed by the first container 20 as the first container 20 enters the first opening 2 and presses against the first surface 54 of the first guard 42.

In some embodiments, the material transfer connector 1 may further comprise a spring positioned between the base 14 and the guard. In fig. 2, the first spring 56 is located between the base 14 and the first guard 42. In various embodiments, the shield used with the spring may be a compressible material or a non-compressible material. In some embodiments, both compressible and incompressible materials may be used with the spring.

Fig. 2 shows the second prevention piece 44, the second prevention piece 44 having a first surface 54. In some embodiments of the material transfer connector 1, the material transfer connector 1 may include a second guard 44, the second guard 44 including a first surface 54, the first surface 54 being positioned between the base 14 and the second end 46 of the second elongated structure 28. The first surface 54 may be positioned between the tip of the catheter and the second end of the second elongated structure 28. Fig. 2 shows the first surface 54 of the second guard 44 positioned between the second tip 18 and the second end 48 of the second elongated structure 28. In this position, the second guard member 44 covers the second tip 18 because the second tip 18 is below the first surface 54 of the second guard member 44. As the second container 24 is moved along the second elongated structure 28 into the second opening 4 toward the conduit 12 and the second tip 18, the end of the second container 24 may push the first surface 54 of the second guard 44 toward the base 14, exposing the second tip 18 to the second container 24 and optionally to the lid 30 of the second container 24. When the second head 18 is exposed, it may enter the second container 24, for example by passing through the cover 30, for example by penetrating a penetrable membrane in the cover 30.

In some embodiments, the second guard 42 may be or may include a solid material or a compressible material. Suitable solid materials may include metal, wood, plastic, elastomers, or other materials that are substantially incompressible under conditions of use. Suitable compressible materials may include foam, such as closed or open cell foam or other sufficiently soft material that is compressed by the second container 24 as the second container 24 enters the first opening 2 and presses against the first surface 54 of the first guard 44. Also shown in fig. 2 is a second spring 58 located between the base 14 and the second guard 44.

As shown in fig. 4 and 5, the first container 20 and/or the second container 24 may be moved along the channel 6 into the first and/or second openings 2,4, respectively, to contact the first surface 54 of the first and/or second guards 42,44, respectively. As the first and/or second containers 20,24 are moved further in the first and/or second openings 2,4, such as by being moved further toward the base 14, the first surfaces 54 of the first and/or second guards 42,44 move toward the base 14. Movement of the first surface 54 may be accomplished by compressing a compressible material or by compressing the first and/or second springs 56, 58. Also shown in fig. 4 and 5 are the first and second ends 16,18 having passed through the lid 30 of the first container 20 and the lid 30 of the second container 24 into the first and second containers 20, 24.

Screw thread

in some embodiments, the cap 30 may include external threads 60. In some embodiments, the external threads 60 may be integrally formed with the cap 30, or may be assembled with other portions of the cap 30. Fig. 6 shows an embodiment of the material transfer connector 1 having a first container 20 (or a second container 24) wherein the cap 30 includes external threads 60. As shown in fig. 6, one or more interior surfaces of the first elongated structure 26 (or the second elongated structure 28) may include threads 62 corresponding to the external threads 60. Fig. 6 shows first guard 42 (or second guard 44) in a retracted state, exposing first tip 16 (or second tip 18), and fig. 7 shows the container engaged with the threads and conduit. In some embodiments of the material transfer connector 1 utilizing connector threads, the first container 20 (or the second container 24) may be moved into the first opening 2 (or the second opening 4) to a position where the external threads 60 engage the internal threads 62, and then relative rotation of the material transfer connector 1 and the first container 20 (or the second container 24) may move the first container 20 (or the second container 24) and the cap 30 further into the first opening 2 (or the second opening 4) toward the base 14, first pushing the first guard 42 (or the second guard 44) toward the base 14, exposing the first head 16 (or the second head 18) to the first container 20 (or the second connector 24) and the cap 30 (see fig. 7). In some embodiments of the material transfer connector 1 that utilize connector threads, the threads may extend further toward the second end 46,54 of the first elongated structure 26 (or the second elongated structure 28) than the first surface 54 of the first guard 42 (or the second guard 44), or the first surface 54 of the first guard 42 (or the second guard 44) may extend further toward the second end 46,54 of the first elongated structure 26 (or the second elongated structure) than the internal threads. In some embodiments, only one of the first and second elongated structures 26,28 includes internal threads 62. In some embodiments, both the first and second elongated structures 26,28 may include internal threads 62. In some embodiments, only one of the first and second containers 20,24 utilizes a cap 30 that includes external threads 60. In some embodiments, both the first and second containers 20,24 utilize a cap 30 that includes external threads 60.