FI56353C - PROVTAGNINGSANORDNING FOER VAETSKA - Google Patents

Description

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Patent · och registerstyrelsen 'Ansakin utltgd och utl.skriftun publkurud 28.09.79 (32) (33) (31) Pjry4utty utuolkuus — Buglrd prlorttut 23-0¾. 73

Japan-Japan (JP) ¾756¾ / 73 (71) Terumo Corporation, M-1,2-chome, Hatagaya, Shibuya-ku, Tokyo,

The present invention relates to a sampling device for a liquid, which device comprises a sampling container in which: Katsuhiko Ikeda, Chiba, Japan-Japan (JP) (7¾) Oy Kolster Ab (5¾) Sampling device for a liquid - Provtagningsanordning för vätska is a closed end and an open end, and an elastomeric closure comprising a cylindrical closure body having an upper and a lower end.

In the medical, biological or laboratory field, closures are used widely to close containers, such as an emptied blood sample tube or other test tubes. Unexpected detachment of such a closure or stopper from the container by the pressure created when the closure is fitted or inserted into the container or by an increase in internal pressure due to elevated temperature shall be prevented and the closure shall be designed to close the container tightly. For this purpose, the closure has been designed in different ways in various inventions in the past.

U.S. Patent No. 3,057,502 uses a plurality of ring ribs in the outer circumference of a cylindrical, hollow body of a resilient plastic closure. The outer circumference of the ring rib forms a contact surface with the inner wall of the glass tube. According to said patent, the surface of the ring rib is further roughened to increase the coefficient of friction between the inner wall of the glass tube and the body of the closure.

U.S. Patent No. 3,136,440 relates to a self-sealing, permeable closure for a closed container made of elastomeric material 2,535,353. This closure includes a cylindrical plug and an enlarged, flanged end made in one piece at the top. Corresponding recesses are made in the plug g> a at the end, which are separated by two recesses with a film with a concave part at the top and a convex part at the bottom. The outer diameter of this stopper is slightly larger than the inner diameter of the container so that the stopper can close the container tightly. In addition, a circumferential groove is made around the part of the stopper right next to the head, which reduces the stresses at this part of the stopper as a result of the closure head resisting compression of the stopper when it is inserted into the container opening.

Previous closures, including the closures of the two U.S. patents mentioned, are designed to firmly engage the container at the point where the closure is forced into the container.

The closure does not perform its function completely, even if it is once forced into the tank. Usually, the closure is repeatedly removed from the container to examine the contents of this container. The air inside the tank is compressed when the shutter is kept forced into the tank. When the closure is pulled out of the container, it will therefore pop out with force, and if the contents are liquid, then it is likely to pop out at the same time. In addition, when the closure is removed, the liquid content often adheres to the inner wall surface of the container opening portion, reducing the frictional force between the closure and the container inner wall, causing the closure to rise gradually so that it is easily released by compressed air. As a result, for example, the disadvantage of the blood sample tube used in connection with the blood test was that the blood spread around and infected the subject. An ordinary rubber closure used with an emptied blood sample tube is shaped so that the contact portion of the surface of the closure body with the inner wall of the container is maximized to maintain the emptied space. In such a rubber closure, the closure body, except for its upper end, is therefore shaped so that its outer diameter is larger than the inner diameter of the container, and so that the blood sampling needle can easily penetrate the closure body, recesses are made in both ends of the closure. When this closure is put back into the container once it has been removed from it, its strength when installed decreases more and it is more likely to cause the above-mentioned problems compared to the closure used with a standard, fully tapered test tube.

It is therefore an object of the invention to provide a sampling device with a closure made of an elastomeric material which closes the container and which cannot be released unexpectedly from the container once it has been placed inside it.

Another object of the invention is to provide a closure designed to close a container without detaching from it even when it is raised by the action of the air compressed inside the container, which air was compressed when the closure was fastened.

56353 These objects can be achieved by a sampling device according to the invention, characterized mainly in that said sampling container is provided with an annular projection projecting inwards at the edge of the open end of the container and an annular groove formed in the closure body. by connecting said container to said portion of the closure body above it and the annular groove is spaced apart from the upper end of the closure body and comes into contact with the annular projection to hold the closure in place when the closure inserted into the container rises due to internal pressure.

An understanding of the present invention will be facilitated by the following detailed description taken in conjunction with the accompanying drawings, in which:

Figure 1 shows a front view of a closure according to the invention, partly in cross-section; Figures 2 to k show different views of the operation of the closure shown in Figure 1: and Figures 5 to 7 show front views of other embodiments of the closure according to the invention.

The invention will now be described with reference to the accompanying drawings. In Fig. 1, reference numeral 1 indicates a closure according to the invention made of a flexible material, e.g. vulcanized rubber, mainly butyl rubber, and having a hardness of approximately 50 ° when its head is pressed sideways with a hardness probe according to a Japanese industry standard. The closure 1 is fitted or inserted into the opening of the container, e.g. an emptied blood sample tube 2 with an annular protrusion projecting inwards at the edge of the opening of the container to close the tube 2. When the tube is made of glass, the protrusion may be one which inevitably forms during heating of the opening portion of the container. When the volume of the tube is 7 ml, the inside diameter of the container is approximately 10.50 mm. The closure 1 consists of a cylindrical body 3 tapering from its lower end 10 to its lowest end and having a maximum diameter of about 11.8 nm, and an enlarged end 4 made in one piece at the upper end of the body. Recesses 5 and 6 are made in the lower end surface of the closure body 3 and in the upper end surface of the closure head so that the blood sampling needle can be easily inserted into the center portion of the closure 1. In this case, when a blood sampling needle with a diameter of 0.80 nm is inserted at 20 rmm / min, the penetration resistance has a penetration resistance of about 3.0 pounds as measured by a Chatillon meter. As mentioned above, the structure of the closure body is designed to be flexible. The body 3 of the closure 4 S6353 is provided with an annular groove 9 »spaced from the lower end of the head 4 and in the part of the outer circumference of the body near the lower end 10 of the body 3. The annular groove 9 has a longitudinal section with a line connecting the upper end of the groove E1 the groove base 11, is obliquely towards the base 11 and the line connecting the second upper end E2 of the groove and the groove base 11 is perpendicular to the central axis of the closure body. The longitudinal section of the groove can have any shape if the groove only needs to connect the protrusion of the container.

When the closure body 3 is gradually raised from the position where it is placed in the blood sample tube 2, at the upper end of the body, e.g. by the pressure inside the blood sample tube, the annular groove 9 engages with the tube projection 2, preventing the closure body from rising. The groove is made in the closure body at a distance from the upper end of the body or preferably near the lower end of the body.

The choice of the location of the groove must also take into account the hardness of the closure, the height of the tank projection or the depth of the groove. However, the height of the protrusion of the container must, of course, be limited to the area within which the closure can be placed in the container.

The operation of the closure according to the invention will now be described with reference to Figures 2-4. · The closure 1 seals the emptied blood sample tube 2 airtightly before the blood sample is taken, and the interior of the tube is in the inflated state. The closure body 3 is inserted into the opening of the blood sample tube 2 at the lower end of the enlarged end 4. When the needle of the blood sampling device is inserted into the closure 1 to take a blood sample, the vacuum inside the tube decreases, so that the closure changes to a manually removable state.

When a general blood test (red cell number, white blood cell number, or blood cell volume value) is performed, a large amount of blood is taken into an emptied blood sample tube 2, which has first been filled with an anti-coagulant. The closure 1 (see Figure 2) is then removed from the tube and blood is removed from it to the extent required by one experiment, and the closure 1 is reattached (see Figure 3). The tube to which the closure is attached is placed in the blood-mixing device until the next test is performed, or it is shaken by hand when the next test is performed, whereby the blood mixes with the anticoagulant. The above procedures are performed repeatedly until the experiments are performed. During these operations, the sample blood often adheres to the closure 1 and reduces the coefficient of friction between the closure body 3 and the inner wall of the blood sample tube 2, so that the closure may detach from the tube. Although the closure 1 is then forced into the tube 2 again and the closure body 3 is placed deep enough in the tube at the lower end of the head 4, the insertion has the effect that the pressure inside the tube Θ increases and the increased pressure gradually raises the closure. As shown in Fig. 4, the annular groove 9 made in the body 3 is then in tight contact with the annular projection P of the blood sample tube 2, stopping the upward movement of the closure 1 completely and thus preventing the closure from detaching from the tube. When the blood sample tube is placed far apart or shaken to mix its mass, it also remains closed and does not allow the mass to escape. With regard to the internal pressure of the pipe, the rise of the closure body 3 strains the internal pressure which had previously been relatively increased by the insertion of the body m 3 into the pipe. Therefore, the mass cannot be forced to pop out of the tube when the closure is removed.

The use of an annular groove near the lower end 10 of the body 3 when the closure 1 is inserted causes the annular lower end 10 to bend in the opposite direction to the insertion direction of the closure, which facilitates the insertion of the closure.

Figures 5-7 respectively show other embodiments of a closure according to the invention. Fig. 5 shows a closure in which the lower end of the closure body 3 is well tapered; and an annular protrusion 13 having an outer circumference substantially flush with the outer circumference of the body 3 is formed in the central portion of the outer circumference of the tapered portion, the ring 13 and the tapered plane above it forming an annular groove therebetween. Figure 6 shows a second closure with a tapered, curved surface. Figure 7 shows a second closure with an annular groove 16 made in the central part of the outer circumference of the body.

In the described embodiments, the case where the closure of the invention is used with an emptied blood sample tube was discussed, but the problems described above do not occur only with this tube, and the closure of the invention can thus be used with other containers, e.g. conventional test tubes.

By using the closure according to the invention, it is possible to effectively prevent the infection caused by the popping of the closure or the spreading of the filling mass after the closure has been removed. Recently, infection within a hospital has become a significant problem, e.g., the transmission of serum biliary tract infection or syphilis to a blood tester through a patient's blood, which spreads, e.g., in a hospital examination room or laboratory room. By using the closure according to the invention, such infection can be completely prevented inside the hospital. The closure according to the invention is thus extremely effective in a practical application.

Claims (3)

6 56353 A sampling device for a liquid, the device comprising a sampling container (2) having a closed end and an open end, and an elastomeric closure (1) comprising a cylindrical closure body (3), if the upper and lower ends are characterized by that said sampling container (2) is provided with an annular projection (P) projecting inwards at the edge of the open end of the container (2) and that an annular groove (9) is formed in the closure body C31, the closure body (3) extending to the open end of the container (2) closing the container (2) by connecting said protrusion (P) with a part of the closure body (3) above it and the annular groove (9) is at a certain distance from the upper end of the closure body (3) and comes into contact with the annular projection (9) to be held in place when the closure (1) inserted in the container (2) rises due to the internal pressure. Sampling device according to claim 1, characterized in that the closure body (3) is tapered at its lower end and said annular groove (9) is delimited by an annular protrusion (13) formed in the intermediate part of the outer circumference of said tapered portion and having an outer circumference made of the closure body. (3) substantially conforming to the outer circumference and the tapered tight surface is arranged above said annular protrusion (13). A sampling device according to claim 1, characterized in that said annular groove (9) is formed in the vicinity of the lower end (5) of said closure body.