RU136346U1 - VACUUM TUBE - Google Patents

Abstract

A vacuum tube for collecting biological fluids, including a cylindrical element with one open end, a rubber stopper, which ensures the tightness of the cylindrical element, a plastic cap, characterized in that it includes an external housing made of an inert polymer doped with a dye that attenuates light intensity, at the cylindrical element and the outer casing are connected by protrusions on the outer side of the upper part of the cylindrical element, which are included in the corresponding there are grooves in the inner side in the upper part of the outer case, the cylindrical element also has a disk on the upper edge, the plane of which is perpendicular to the generatrix of the test tube and the outer diameter of which is larger than the diameter of the upper edge of the outer case, at least two recesses are concentric on the lower side of the disk the disk and having a variable depth, and on the edge of the outer casing there are protrusions corresponding to the indicated recesses.

Description

The utility model relates to medical instruments and can be used for rapid sampling of biological fluids.

From the patent No. 2166284 RU, a vacuum device for a fine needle aspiration biopsy is known, it contains a cylinder in the form of a cylinder evacuated by an external source, and a vacuum sampling system with a needle. The vacuum sampling system contains a medical tube connector and a filter trap with a replaceable plastic film with holes of 1-2 microns. The vacuum cylinder is made with a valve and a control button to provide the possibility of creating a metered constant level of vacuum in the vacuum sampling system. The device allows the doctor to freely and accurately orient the needle when it is inserted into the target organ, even with small (2-4 mm) sizes of lesions. One cylinder with a volume of 50 cm ³ with a vacuum vacuum of 0.5 kg / cm ² allows you to perform 5-6 aspiration biopsies. The described solution is complex and expensive.

From US Pat. No. 4,856,533, a vacuum blood collection tube is known comprising a tubular reservoir having an opening through which air can be removed and a plug that makes the neck airtight and able to maintain reduced pressure conditions within said container. The specified vessel is made of polyethylene terephthalate, copolymers of polyethylene terephthalate, or acrylonitrile resin. The inner walls of the vessel contain hydrophilic substances that are difficult or impossible to dissolve in water and which prevent adhesion of the blood substance to the inner walls of the tube, a water-soluble substance, and inorganic adsorption substances. The closest is the evacuated blood collection device known from patent No. 0106290 EP, containing a cylindrical element having one end closed and the other end open, and a punctured stop element serving to tightly close the open to end of the cylindrical element. The disadvantage is the low degree of protection of the sample from external factors.

The purpose of the utility model is to increase the functional properties of sampling tubes.

The goal is achieved due to the design of the vacuum tube, which in addition to the cylindrical element with one open end and the tube includes an external casing made of an inert polymer doped with a dye that attenuates the light intensity. The result is the protection of the biological sample from exposure to external light sources, which increases the shelf life of the biological fluid and reduces the likelihood of distortion of the analysis results.

Also, the goal is achieved by connecting the cylindrical element and the outer tube housing. The cylindrical element and the outer casing are interconnected by protrusions on the outer side of the upper part of the cylindrical element, which enter the corresponding grooves in the inner side in the upper part of the outer casing. Due to this, the external housing is fixed on the cylindrical element. Also, the cylindrical element has a disk on the upper edge, the plane of which is perpendicular to the generatrix of the test tube and whose outer diameter is larger than the diameter of the upper edge of the outer casing. Moreover, on the lower side of the disk there are at least two recesses, concentric to the disk, and having a variable depth. The indicated recesses correspond to the protrusions on the edge of the outer casing. Due to this, when the outer casing is rotated relative to the cylindrical element, the outer casing moves along the tube and disconnects from it. Also, due to the disk on the upper edge, the convenience of working with centrifuges, automatic and semi-automatic analyzers of various types is increased.

Utility Model Implementation

The vacuum tube is made in the form of a hollow cylinder with one open side, made, for example, of transparent polyethylene terephthalate by extrusion. The cylinder may contain a filler, for example, a clot activator, EDTA, lithium heparin or another. Also, the design of the vacuum tube includes a rubber stopper, which provides a tight closing of the cylinder canopy, as well as a plastic cover that fixes the rubber stopper and has a color coding in accordance with the filler. The rubber stopper is designed for piercing during the procedure for taking biological fluid. The tube also includes an outer casing made of opaque plastic, for example, doped with polypropylene dye. The cylindrical element and the outer casing are interconnected by protrusions up to 1 mm high, available on the outer side of the upper part of the cylindrical element, which enter the corresponding grooves in the inner side in the upper part of the outer casing. Also, the cylindrical element has a disk on the upper edge, the plane of which is perpendicular to the generatrix of the test tube and whose outer diameter is larger than the diameter of the upper edge of the outer casing. Moreover, on the lower side of the disk there are at least two recesses, concentric to the disk, and having a variable depth. The indicated recesses correspond to the protrusions on the edge of the outer casing.

Description of drawings

Figure 1 shows a cylindrical element of a vacuum tube assembly with an external casing. 1 - cylindrical element, 2 - external opaque case, 3 - protrusion on the cylindrical element meshing with a groove on the outer case, 4 - recess with variable depth, 5 - protrusion.

Claims (1)

A vacuum tube for collecting biological fluids, including a cylindrical element with one open end, a rubber stopper, which ensures the tightness of the cylindrical element, a plastic cap, characterized in that it includes an external housing made of an inert polymer doped with a dye that attenuates light intensity, at the cylindrical element and the outer casing are connected by protrusions on the outer side of the upper part of the cylindrical element, which are included in the corresponding there are grooves in the inner side in the upper part of the outer case, the cylindrical element also has a disk on the upper edge, the plane of which is perpendicular to the generatrix of the test tube and the outer diameter of which is larger than the diameter of the upper edge of the outer case, at least two recesses are concentric on the lower side of the disk the disk and having a variable depth, and on the edge of the outer casing there are protrusions corresponding to the indicated recesses.

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