KR19990014836A - Glass bottle holder - Google Patents

Abstract

A holder suitable for holding vials for transport on a conveyor line comprising a body (1) having a cavity (2) therein open at an upwardly facing side (4), being of suitable size and shape to receive the lower part of a vial (3), the cavity (2) having a wall surface in which are one or more recesses (6), in each recess (6) being a resilient member (7) extending into the cavity (2), to a distance sufficient to grip a vial (3) inserted into the cavity.

Description

Glass bottle holder

Specimens of biological material, such as blood extracted from patients for biological testing, are often tested using automated test equipment, in which the vials containing the samples are located at points adjacent to the conveyor line on the transport belt. Transported to the instrument. Such instruments are generally automatic and provided with a mechanical interface for transporting glass bottles to the instrument and vice versa.

Usually such glass bottles are held in a holder, which holder is configured to firmly transport the glass bottles on a conveyor and to hold them firmly in an upright orientation. Known holders generally comprise a rigid plastic body having a cavity therein into which the vial can be inserted. The problem with known holders is that holders can generally hold only one diameter of the vial tightly, so that a cavity suitable for one diameter will become too small for a larger diameter vial, so that smaller diameter vial is loose Will be fitted and will not be held upright.

EP 047644A and EP 0339775 disclose holders for glass bottles which extend inwardly so that a plurality of elastic fingers in the lower and upper positions support the glass bottles therein. U. S. Patent 531676 discloses a vial holder in which a plurality of resilient wings in a cavity hold a vial therein. U.S. Pat. No. 5,530,669 discloses a holder for a vial, in which a flexible tubular holder is located in a cavity for holding the vial. All of the holders described above are not readily adjustable in holding glass bottles having a wide range of diameters.

The present invention relates to a vial holder for containing biological samples carried along a conveyor line of an automatic test device.

The invention is illustrated by way of example only with reference to the accompanying drawings in which: FIG.

1A is a longitudinal sectional view showing one embodiment of a holder of the present invention having an inserted glass bottle.

Fig. 2-A is a top view of the holder of Fig. 1 without the vial.

Figure 3-A is a partial partial cutaway view of another embodiment of the holder of the present invention.

Fig. 4-A is a plan view of the holder of Fig. 3;

5 and 6 are views of the elastic mounting member showing the elastic mounting member of the holder of FIGS. 3 and 4;

It is an object of the present invention to provide a holder for a vial that can firmly hold glass bottles having two different diameters in an upright orientation.

Summary of the Invention

According to the invention, the glass comprises a body of a size and shape suitable for receiving a lower portion of the vial inserted therein and having a lower surface and a side and having a cavity therein which is open on the upper opposite side. Holders suitable for holding bottles in an upright orientation for transport on a conveyor line are provided with one or more recesses in the inner opposing wall surface of the cavity, within each recess there is an elastic member extending into the cavity, The member is characterized in that it extends into the cavity at a distance sufficient to grip on the cavity inserted vial.

Description of the invention

The vial is a known vial used to receive biological samples, typically blood, on a conveyor of known automated test equipment, such as small glass or plastic tubes having a volume of about 17 ml and a diameter of about 1-2 cm. Can be. The conveyor can be a Flex Link-XS ^TM or a Flex Link-XM ^TM type conveyor.

The body of the holder may be made of any type of material and means. Preferably, the holder body may be made of moldable or other processable plastic material such as polyethylene, polypropylene, PTFE, and the like. The body can be made generally cylindrical. One of the ends of such a cylinder preferably forms a flat base and a holder can be placed on the base, while the other end of the cylinder on the conveyor can be made generally flat and has an upward facing side with the cavity open. Can be formed.

The cavity is preferably a generally cylindrical cavity, but may alternatively consist of a polygon. In a cylindrical body, the axis of such a cavity can be parallel to the longitudinal axis of the body, and the two axes can be coaxial. The width (ie the diameter of the cylindrical cavity) should be at least the width (eg the diameter of the widest glass bottle inserted into the cavity). The longitudinal depth of the cavity should be less than the length of the vial inserted into it, but should be of sufficient length so that the vial can be stably held in the holder. Typically, such vials are affixed with a machine readable adhesive label (eg, bar code), and such adhesive labels can be read by sensors arranged along the conveyor to enable detection and identification of the vials. Can be properly processed by an automatic machine or the like which responds to the information on the label. The depth of the cavity must be defined such that the label is exposed on the upper end of the holder. As an alternative, the upper end of the holder may have a downwardly extending incision, for example the upper end may be made into a castle shape. Such a configuration allows the label to be easily read without being blocked by a portion of the body.

The recesses may extend partially through the wall of the body between the cavity and the outer surface, or may include holes that completely pass through the body between the cavity and the outer surface. Each member may be elastically moveable within the recess and extend into the cavity. The member may be elastic in nature, for example may be made of an elastic material having shapes and dimensions capable of exhibiting elasticity, and additionally or alternatively the members may be elastically movable in the recess. It may be resilient by one or more elastic elements that may be positioned and supported on such movable members.

The elastic element (s) may include one or more elastic pads, springs, etc., located in the recess behind the members, and may include a collar or partial collar supported inwardly on and around the body and members. . Collar or partial collars are particularly suitable when the recess is a hole passing through the body entirely between the cavity and the outer surface, which collar and partial collar may surround the body.

Each recess may generally be in the form of a longitudinal slot and may suitably extend over 50% of the body length, but are relatively narrow. Members suitable for such recesses can in turn be made long and thin, and thus can extend into the cavity more than 50% of their length to stably hold the vial therein. The members should be provided with limiting means such as, for example, end stop contact surfaces which prevent the members from falling completely into the cavity. The elastic collar or partial collar may suitably prevent the member (s) from falling out, and alternatively end stops may be provided to prevent this. As an alternative or in addition, the recess may be provided in a tapered shape that is wider towards the outer surface and the member (s) may have a corresponding portion, for example wedge shaped. The recess (es) and member (s) may each be provided with engaging guide surfaces such that the member (s) are moved in and out of the recess in the direction of the guide, for example in a cylindrical cavity the member (s) is generally radial It may be guided to move elastically in the direction.

The elastic collar can be, for example, an elastomer band, the partial collar can be an elastic plastic or metal circlip, and can be conveniently fitted with guide grooves in the body and member (s). The collar or partial collar can surround the upper portion of the member, such that the member can be elastically pivoted around its lower portion.

In the cylindrical cavity, the members can extend radially inward. The inner ends of the members serve as an inner gripping surface having a width between opposing ends less than the width between the sides of the cavity, and consequently the holder is a diameter between the width between the ends of the opposing members and the width of the cavity. It is possible to hold a glass bottle having a holder so that the holder can accommodate a glass bottle having a range of diameters between the two widths.

The body may embody additional features suitable for use in an automatic conveyor system, which features, for example, in processing a metal base providing a low center of gravity and a system on a conveyor provided for example for automatic testing. External grooves or other engagement features, etc. to facilitate engagement.

In addition, at the base or bottom of the holder, some type of conductive material may be provided in the vial that provides a means for sensing by conduction of conductive, capacitive, electromagnetic or metal probes. This provides for example means for sensing the presence of a holder on an automatic conveyor line or for adjusting the depth at which the needle is moved, for example when the metal suction needle is introduced into the vial as a means for removing the test sample. Additionally or alternatively, the window may be disposed in the lower portion of the holder, so that the window is provided with optical or audio means for detecting the presence of the probe at a particular location in the tube. This sensing means has an interface with the test device probe. The sensing means provide a means to prevent such a probe from descending too far into the vial, to prevent damage to the vial itself and to prevent the probe from becoming inoperative due to contact with the vial surface.

The present invention also provides an automated test apparatus for a biological sample comprising a holder as described above and a transport system suitable for transporting the holder.

The present invention also provides a method for automated testing of biological samples in a glass bottle, which includes transporting the glass bottle during an automatic test operation in a conveyor system, wherein the glass bottle is held in a holder as described above.

1, 2, 3 and 4, the holder comprises a generally cylindrical rigid polyethylene body 1. 1 is a longitudinal sectional view taken along the line A-A of FIG. Within the body 1 is a cylindrical cavity 2 having a diameter capable of receiving a glass bottle 3 inserted therein upright through the opening end of the cavity 2 at the upper end face 4 of the body. . The vial 3 is placed on the bottom surface 5 of the corresponding shape of the cavity 2.

Three recesses 6 extend completely into the cavity 2 through the side of the body 1 at circumferential intervals of 120 °. Three members 7 are movably positioned in the elongated shape made of plastic at the circumferential interval of 120 ° in the recess 6. The members 7 are shaped and sized so as to be able to slide smoothly in and outward in the recess 6 in their recesses 6, but are prevented from falling into the cavity by the end stop contact surfaces 8, 9.

A circumferential groove 10 is formed in the outer surface of the member 7 around the body 1. The groove 10 has an elastic collar 11, which is elastically supported on the member 7 to press the member inwards.

The upper edge of the member 7 is inclined in the shape of a ramp to facilitate the insertion of the vial 3, which causes the member 7 to be pressed outward in response to the elasticity of the collar. This results in the member 7 elastically holding the glass bottle 3.

The upper end of the body 1 has a cutout 12 to facilitate reading of information from the bar code label on the vial 3 which is inserted therein when the label extends to a position near the bottom of the vial. It is formed into a castle shape.

The flat base 13 of the body 1 is formed by pressing the friction fit metal insert 14, which allows the holder to be stably seated on the conveyor line and the position of the holder 1 on the conveyor For example, it can be sensed by an electronic sensor responsive to capacitance, conductivity or electromagneticity. By placing a label 15 supporting the optically readable bar code on the vial 3, information can be read from the vial 3 by a suitable sensor. On the outer surface of the body 1 there is a groove 16 which facilitates the engagement with the guide means on the conveyor and / or other processing device.

3, 4, 5 and 6, yet another holder of the present invention is shown, in which the corresponding parts are shown with the same reference numerals. In the holders of FIGS. 3, 4, 5 and 6, three recesses 17 are provided at 120 ° circumferential intervals and extend completely into the cavity 2 through the side of the body 1. . The recess 17 is open to the top surface 4 of the body 1 and has parallel sides as shown in FIGS. 3 and 4.

In the recess 17, three members 18 (only one clearly shown in FIG. 4) are freely positioned in the elongated shape made of plastic as shown in FIGS. 5 and 6. 5 is a side view and FIG. 6 is a cross-sectional view taken along the line B-B in FIG. The members 18 have a shape and size that allow them to glide smoothly in and outward in the recess 17, but end stop contact surfaces 19 at their outer ends and contact feet 20 at their lower ends. Falling jointly by the foot is suppressed and contacted against the corresponding steps 21, 22 in the recess 17.

A circumferential groove 23 is formed around the main body 1, and a corresponding groove 24 is formed in the outer surface of the member 18. The groove 17 is provided with an elastic collar (not shown in FIG. 3, corresponding to reference numeral 11), which is elastically supported on the member 18 when placed in place in the recess 17. To press the member inward. Thus, the member 18 can slide smoothly radially in and out in the recess 17.

The upper surface 25 of the member 18 is inclined ramp-shaped for ease of insertion of the vial 3 (not shown in FIGS. 3-6), which opposes the member 18 against the elasticity of the collar. To the outside. This results in the member 18 elastically holding the glass bottle 3.

The features of the holder of FIGS. 3-6 are that the inner surface 26 of the member 18 fits at the same height as the cylindrical shape of the cavity 2 when the member 18 is pressed outward in the recess 17. And the foot 20 can be fitted at the same height as the step 22 in the recess 17. This facilitates the holding of the glass bottle 3 having an outer diameter up to the entire inner diameter of the cavity 2 by the holder of the present invention.

The holders of FIGS. 5, 6 and 7 are provided with a metal base 10 (not shown) similar to the holders of FIGS. 1 to 4 and in close friction fit at the lower part of the cavity 2. Is fulfilling. On the upper surface 27 of the base 10 is formed an upright center with a rim 28 around the central conical hollow portion 29. This rim 28 provides a flat surface so that the bottom is stably positioned in a flat glass bottle (not shown), while the conical hollow portion 29 is stable in a round glass bottle (not shown). To be able.

Claims (15)

Generally comprising a body having a cavity sized and shaped to accommodate a lower portion of the glass bottle inserted therein, the body having a lower surface and a side and having a cavity therein open at an upper opposite side of the body; A holder suitable for holding in an upright orientation, One or more recesses are provided on the inner opposing wall surface of the cavity, within each recess there is an elastic member extending into the cavity, each member extending into the cavity at a distance sufficient to grip on a vial inserted into the cavity. Holder characterized in that. 2. The body of claim 1, wherein the body is generally cylindrical, one of the ends of the cylinder forming a flat base, the other end of the cylinder forming an upward facing side with the cavity open, and the cavity of the vial being inserted therein. A holder, characterized in that it is generally cylindrical or polygonal, which is shallower than its length but has a longitudinal depth sufficient for the vial to be stably held in the holder. 3. A holder according to claim 2, wherein the upper end of the holder has a cutout extending downward. 4. A holder according to any one of claims 1, 2 or 3, wherein the recesses extend partially through the wall of the body between the cavity and the outer surface. 4. A holder as claimed in any one of claims 1, 2 or 3, wherein the recesses comprise a hole completely passing through the body between the cavity and the outer surface. The holder according to any one of the preceding claims, wherein the member is elastically movable within the recess and extends into the cavity. A holder according to any of the preceding claims, wherein the member is inherently elastic. The holder as claimed in claim 1, wherein the member is resiliently positioned in the recess and is elastically constituted by one or more elastic elements supported on the movable member. 9. The holder of claim 8, wherein the resilient element is one or more resilient pads, springs, etc., located in the recesses at the rear of the members. The holder of claim 8, wherein the resilient element comprises a collar or partial collar supported from the rear to the inward on the member around the body and the member. A holder according to any of the preceding claims, wherein the recess can be formed generally in the form of a longitudinal slot. A holder according to any of the preceding claims, wherein the members are provided with limiting means for preventing the members from completely falling into the cavity. The holder of claim 1, wherein the base is made of plastic material and provided with a metal base to provide a low center of gravity. An automatic test device for a biological sample comprising a holder as claimed in any one of the preceding claims and a conveyor system suitable for transporting the holder. A method of automatically testing biological samples in a vial, Transporting the vial during an automatic test operation on a conveyor system, wherein the vial is held in a holder as claimed in any one of the preceding claims.