JPS59638A - Sampling unit - Google Patents

Abstract

PURPOSE:To prevent effectively the evaporation of a liquid to be inspected, by covering an opening of a sample cup with a composite sheet piled up two sheets and providing a nozzle capable of inserting into the sheet. CONSTITUTION:A composite sheet is made by a sheet member 3C of a covering part 3 of a sample cassette 1 by piling up the 1st sheet 3D made of parafilm etc. having a fixed tension and an adhesive property and the 2nd sheet 3E made of cellophane etc. resisting to the tension at the time of breaking the sheet 3D. Further, a nozzle 4 is provided with a guide member 4A formed sharply at its tip end. In case of setting up dimensions suitably, the sheet 3C is stuck closely to the opening part of a sample cup 2 exactly by covering the part 3 on the cassette 1. Next, when the member 4 is inserted, only a hole is bored without tearing by using the composite sheet and a liquid to be inspected is sucked by a pipe 4B. For this reason, the evaporation of the liquid to be inspected is prevented effectively.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a sampling unit installed in a clinical automated chemical analyzer.

[Technical background of the invention and its problems]

Conventionally, a sampling unit equipped in a clinical automated chemical analyzer has a sample unit in which a large number of sample cups are arranged, and a suction/discharge device that has a nozzle that can go in and out of the sample cup. The nozzle is moved horizontally above the sample unit in a fixed position until the sample unit is moved, or the nozzle is lowered into a predetermined sample cup in the sample unit, and a predetermined amount of the analyte fluid in the sample cup is removed. After the nozzle is raised, the sample body fluid held in the nozzle is dispensed and discharged into the reaction tube.

Although current sample cups have large openings, it is difficult to inject a sample body fluid into a large number of sample cups in a sample unit and then dispense it into a reaction tube without sealing the openings. When the sample unit is applied to the nozzle, the analyte fluid in the sample cup evaporates while the analyte is sequentially aspirated by the nozzle, causing concentration of the analyte fluid. As a result, there is a possibility that an error may occur in the measured value of the subject's body fluid. In order to prevent the sample cup from evaporating, the sample cup opening should be provided with a lid, but for example, a glass plate or a thick rubber plate is not suitable as the lid.

This is because the nozzle in a conventional sample unit is a flexible Teflon tube, so the nozzle cannot pass through the plastic plate that is the lid, which will interfere with the suction operation. It is. Therefore, a sheet with breaking strength and adhesion that allows insertion of a Teflon tube nozzle, such as Parafilm (trade name: American, Kan Co., Ltd.) -C
-1+ Sample Force It is possible to apply pressure to the opening of the sample cup tightly to prevent evaporation of the sample body fluid within the sample cup. However, when the Parafilm is pasted tightly over the opening of the sample cup, tension is applied to the Parafilm, so it may come apart as soon as the nozzle is inserted through the Parafilm covering the opening of the sample cup. The entire film is broken, and the sample cup opening is in the same state as if no cover was placed on it, making it impossible to prevent evaporation of the sample body fluid.

[Purpose of the invention]

This invention was made in view of the above-mentioned circumstances, and it is possible to easily insert a nozzle into the lid that covers the opening of the sample cup, and the entire lid does not break even when the nozzle is inserted. (The purpose of the present invention is to provide a sample unit that can effectively prevent evaporation of a subject's body fluid within a sample cup.

[Summary of the invention]

The outline of the present invention for achieving the above object is to provide a sampling unit that sucks a sample liquid contained in a sample cup into a nozzle and discharges the sample liquid held in the nozzle into a reaction tube. a lid part that covers the opening and has a composite sheet formed by polymerizing a first sheet having tension and a sheet of 1g2 that resists the tension when the first sheet is broken; and a lid part that can be inserted into the composite sheet. The device is characterized in that it is equipped with a nozzle that prevents evaporation of the body fluid to be examined.

[Embodiments of the invention]

An embodiment of the invention will be described with reference to the drawings.

A sampling unit, which is an embodiment of the present invention, is a device that is installed in an automatic chemical analyzer and aspirates and dispenses a large number of sample body fluids into a large number of reaction tubes that perform various biochemical reactions. As shown in Figure 1 (b),
As shown in FIG. Sample cassettes 1 arranged in a shape
A lid part 6 covers the upper opening of each sample cup 2 by being placed on the upper surface thereof, and a lid part 6 is placed above the sample cassette 1 to move above the sample cassette along the row of sample cups 2 and to a predetermined position. sample cup 2
It descends into the sample cup 2, sucks the sample body fluid stored in the sample cup 2, rises above the sample cup 2 after suction, then moves above the reaction tube (not shown), and discharges a predetermined amount of the sample body fluid into the reaction tube. or a nozzle (not shown) for dispensing.

The lid part B will be explained in more detail. As shown in FIG. 2, the lid portion 6 includes a housing that can be attached to the top surface of the cassette case 1, and a sheet member 3C stretched over the entire opening tc opened on the top surface of the housing. It is preferable that the height h of the housing is smaller than the height from the opening of the sampling cup 2 erected in the cassette case 1 to the top surface of the cassette case 1. This is because, if the extractor is attached to the top surface of the cassette case 1 in which the sampling cup 2 is placed, the sheet member will come into close contact with the opening of the sample cup 2. The sheet member DA is a first sheet 6D that is stretched with a constant tension and has adhesive properties, and a second sheet y that resists the tension when the first sheet 3Z is broken. For example, it is a composite sheet formed by polymerizing cellophane, polypropylene, etc. (in this specification, "sheet" includes "film"). The composite sheet may be one in which the first sheet W and the second sheet (3E) are polymerized via a suitable adhesive, for example, a adhesive sheet made of cellophane as a paste is polymerized on a rose film, or , the first sheet 6D may be laminated or coated with a second sheet material. The first sheet 6D requires constant tension and adhesion, as shown in FIG. 6, to cover the opening of the sample cup 2 tightly with the sheet member 6C without causing any slack. It's for a reason.

Next, as shown in FIG. 4, the nozzle 4 is configured to be able to rise and fall, and has an internal hollow guide member υ having a sharp tip, for example, a metal It comprises a pipe and a suction/discharge pipe block made of, for example, Teflon, which is disposed within the guide member 4.4 and is formed so as to be able to come in and out from the tip of the guide member 4A. The guide member υ guides the suction and discharge pipe 4B into the reaction tube 2 by piercing and passing through the sheet member r. The suction and discharge pipe 4B is drawn out from the tip of the guide member 4A inserted through the sheet member 6C, and is configured to suction the sample body fluid within the reaction tube 2.

Next, the operation of the sample unit having the above configuration will be explained. First, the sample cups 2 containing the body fluid to be examined are arranged in a matrix in the opening 1A of the sample cassette 1, and then the lid 6 is attached to the top surface of the sample cassette 1. In this case, the height h of the sapon S4 of the lid part 3 is smaller than the height from the top surface of the sample cassette 1 to the opening of the sample cup 2, and the first height of the sheet member is constant with the adhesiveness. Since the opening of the sample cup 2 can be tightly covered with the sheet member 6C. Then, the nozzle 4 moves above the sample cassette 1 with the first part 6 attached, and the nozzle 4 is positioned above the predetermined reaction tube 2, as shown in the fourth tooth). At this time, in the nozzle 4, the suction and discharge pipe 4B is about to be accommodated in the guide member 4A.

Next, the entire nozzle 4 is lowered, and the sharp tip of the guide member υ causes the tip of the nozzle 4 to pass through the sheet member DA and pierce the inside of the sample cup 2, as shown in FIG. In this case, if the sheet member y is formed only of the first sheet 6D, the first sheet 6D has tension, so when the nozzle 4 is inserted through the first sheet 5D, This would simply cause the entire sheet member y to break, but in this invention,
First sheet 6DK second sheet as sheet member y)
Since a composite sheet formed by polymerizing 3E is used, even if the nozzle 4 is inserted into the sheet member 6C, the second sheet 6D resists the tension when the first sheet 6D breaks.
EK prevents the entire sheet member 3C from breaking (,
The sheet member y has a hole formed by the nozzle 4. After inserting the mK nozzle 4 in the sample cup 2, insert the suction and discharge pipe 4B housed inside the guide member 4A into the tip of the guide member 4A. Then, a predetermined amount of the sample body fluid is sucked into the suction and discharge pipe 4B.The suction ridge and the suction and discharge pipe 4B are raised and housed in the guide member 4A, and then the nozzle 4 and move on to the discharge operation into the reaction tube.

When the sample unit is configured as described above, the opening of the sample cup 2 is covered with the sheet member of the lid part 6, so that the sample body fluid is removed until the nozzle 4 aspirates the sample body fluid. Evaporation can be prevented, and even if the nozzle 4 is inserted through the sheet member 6C, the nozzle 4 is not inserted into the sheet member 6C.
Since only a small hole is opened and the entire sheet member 6C is not broken, subsequent evaporation of the subject's body fluid can be prevented.

Although one embodiment of the present invention has been described above in detail, the present invention is not limited to the embodiment described above, and can be implemented with appropriate modifications within the scope of the gist of the invention.

The lid in the above embodiment covers all the openings of a large number of sample cups arranged in rows and columns on the cassette case, but one opening of each sample cup is covered.
- The lid part may be configured to cover the lid. In other words, an opening having a smaller diameter than the sample cup opening is provided on the end face of a bottomed cylindrical cap that can be fitted onto the outer periphery of the bottomed cylindrical sample cup opening. The lid portion is constructed by stretching a sheet member similar to the above. Providing a lid for each sample cup is convenient because the body fluid to be examined can be stored in each sample cup.

Further, the nozzle in the above embodiment had a guide member and a suction and discharge pipe that was arranged inside the guide member and could be moved in and out, but the nozzle was a metal suction and discharge pipe with a sharp tip. It's okay. In this way, the device and members can be simplified.

In addition, if the depth of the sample cup opening in the sample cassette is approximately the same as the height of the sample cup, and the sample cup is attached to the sample cassette,
When using a sample cassette in which the upper surface of the sample cassette and the upper end surface of the opening of the sample cup are on the same plane, the composite sheet covers the entire upper surface of the sample cassette, and the casing in which the composite sheet is stretched is placed on the same plane as the sample cassette. The lid portion may be configured to be able to fit onto the top of the cassette.

〔Effect of the invention〕

According to this invention, since the opening of the sample cup is provided with a lid, it is possible to prevent the evaporation of the specimen body fluid until it is aspirated by the nozzle, and the composite sheet in the lid can be prevented by the nozzle. Even if the composite sheet is pierced, the entire composite sheet will not break, but only a small hole will be created, so even if the nozzle is used to aspirate the sample fluid many times, it is possible to prevent the sample fluid from evaporating during that period. . Therefore, there is almost no evaporation of the specimen fluid (the amount of evaporation of the specimen fluid through the holes in the composite sheet made with the nozzle is negligible and can be ignored), and the sampling unit of the present invention is equipped with almost no evaporation of the specimen fluid. Analysis data obtained by an automatic chemical analyzer can be made accurate.

[Brief explanation of the drawing]

Figure 1) is a perspective view showing a sample cassette in which a sample cup is placed, Figure 1 (b) is a perspective view showing a state in which a lid is attached to a sample cassette in which a sample cup is placed, and Figure 2 is a perspective view of the lid. Figure @6 is a cross-sectional view showing a sample cup covered with a composite sheet, and
C4 and 0 in FIG. C4 are explanatory factors showing a series of operations when a nozzle sucks a sample body fluid in a sample cup covered with a composite sheet. 2...sample cup, 3...lid, da.
...Composite sheet, ribs...1st sea), 3ff...
Second sheet, 4... Nozzle, 4A... Guide member, M... Suction and discharge pipe. Agent Patent Attorney Masayoshi Misawa 5PI2 Figure 3

Claims (3)

[Claims] (1) A sampling unit that aspirates the body fluid contained in a sample cup into a nozzle and discharges the body fluid held in the nozzle into a reaction tube, which covers the opening of the sample cup and has a tension of 1. a lid portion having a composite sheet formed by polymerizing a first sheet and a second sheet that resists the tension when the first sheet is broken; and a nozzle that can be inserted into the composite sheet; A sampling unit characterized by preventing liquid evaporation. (2) Sampling according to claim 1, wherein the nozzle has a guide member with a sharp tip and a suction/discharge pipe that is arranged in the guide member and can enter and exit the guide member. unit. (3) The sampling unit according to claim 1, wherein the nozzle is a metal pipe with a sharp tip.