JPS62235570A - Specimen sampling apparatus - Google Patents

Abstract

PURPOSE:To perform a better sampling of a specimen with a simple construction, by moving a holder serving as needle guide downward to fit at an inlet of a sample bottle while the lowered position is detected to check the presence of a bottle. CONSTITUTION:With the lowering of a lever 15 through a solenoid 17, a holder 12 with a central hole 13 having a guiding tapered part for easier insertion of a needle 11 for sample injection is fitted at an inlet of a sample bottle 1. The lowered position of the holder 12 is detected with a detection means 20 to check the presence of a bottle a and a bottle 1 for sample to be injected is fixed to prevent it 1 from rising together with the holder 12 during the lift of the needle 11. This enables better sampling of a specimen with a simple construction eliminating the need for a highly accurate component including the case where the bottles are immersed into a cooling tank.

Description

[Detailed Description of the Invention] l Mitate 11 (Industrial Application Field) The present invention is applicable to liquid chromatograph autosamplers, autoanalyzers, flow injection samplers, ultraviolet spectrophotometer samplers for clinical testing, etc. Regarding sample sampling devices used in devices that aspirate the sample in a sample bottle with a needle and provide it for analysis, we have adopted a method in which the holder is attached to the sample from above, thereby simultaneously providing the functions required of this type of sampler. The present invention relates to a sample sampling device that satisfies the requirements of the present invention.

(Prior technology) Liquid chromatograph autosampler, automatic analyzer,
Blow injection sampler.

Various types of samplers, such as samplers for ultraviolet spectrophotometers for clinical testing, operate differently after sampling, but the process of aspirating the sample in the sample bottle is the same for all of them. That is, a needle is lowered into a sample bottle with a stopper, and after aspirating a predetermined amount of the sample therein, the needle is pulled up.

This type of sampling device requires the following functions. First, the needle descends into the center of the sample vial, which is especially important when the vial has a small diameter. Second, the sample bottle must be fixed so that it does not float when the needle is pulled up.The stopper is made of rubber, so if it is not fixed, the needle and stopper will stick together and the sample bottle will float up as the needle rises. 3,
It is necessary to be able to detect the presence or absence of a sample bottle, and to stop sample aspiration when the sample bottle is not in a predetermined position.

(Problems to be Solved by the Invention) Methods conventionally implemented to meet the above requirements and their drawbacks will now be described.

#) Requirement 1 depended on the precision of the machining process. The sample bottle holder is accurately positioned using a position detection sensor, etc., as described below, but whether the needle descends to the center of the sample bottle depends on machine precision such as variations in the sample bottle diameter and time errors in needle installation. Therefore, the lowering and installation work was necessary.

As an example that satisfies the second requirement, as shown in Figure 1,
There is a system in which a single holding plate 2 is placed over all the sample bottles containing samples. In the figure, 3 is a sample bottle holder, and 4 is a fixing bolt. In this conventional example, the structure of the holding plate is simple, but it is necessary to remove the holding plate each time to replace one sample bottle, making it difficult to operate. There is also a method of fixing only the bottle, but since it is fixed by sliding the presser plate horizontally, the height and horizontal orientation need to be adjusted. In other words, as shown in Fig. 2a, if the height of the presser plate 5 is too low relative to the sample bottle l (5° as indicated by the dashed line), it will collide with the sample bottle.
As shown in the figure, if the horizontal orientation of the presser plate 5 is deviated (5 degrees as indicated by the dashed line), the presser plate will be positioned above the center of the sample tube and will interfere with the needle coming down. In both figures, the presser plate 3 indicated by a solid line moves horizontally in the direction of the arrow at the correct operating position.

For the third request, as shown in Figures 3a and b,
A method is known in which the presence or absence of the sample bottle 1 is mechanically detected using a solenoid 6 or a microswitch 7. In these examples, when the plunger of solenoid 6 or the lever of microswitch 7 reaches the position indicated by the dotted line in the figure, it is determined that there is no sample bottle, and although there is an advantage that fewer parts are used, the biasing force of the solenoid or microswitch is There is a risk of the sample bottle being misaligned. Furthermore, this method cannot be used when the sample bottle is immersed in a cooling tank to cool the sample; there is also an optical method that uses a combination of a lamp 8 and a detector 9, as shown in Figure 3C. In this case, there is no need to worry about the sample bottle being misaligned, but as in the above example, sample cooling is not possible.

Therefore, an object of the present invention is to take into account the drawbacks of the above-mentioned conventional example, and (1) allow the needle to descend to the center of the sample bottle without depending on the precision of machine work, fix only the sample bottle from which the needle descends, and facilitate adjustment; It is an object of the present invention to provide a sample sampling device in which a detection means does not cause displacement of a sample bottle and does not interfere with cooling.

First of all (Means for solving the problem) In order to achieve the above object, the sample sampling device of the present invention is used in a device that aspirates a sample in a sample bottle with a needle and provides it for analysis. The present invention includes a holder attached to the entrance of the sample bottle from above and having a guide hole formed in the center through which a needle passes, a means for vertically moving the holder, and a means for detecting when the holder has been lowered to a predetermined level position. It is characterized by comprising a detection means for detecting.

In order to perform the above-mentioned vertical movement and level position detection, a preferred embodiment is provided with a lever that is fixed to the holder and moves up and down together with the holder, one end of which is fixed to the holder, and a part of the lever that is connected to the vertical movement means. and the other end is configured to function as a level detection end. Further, it is preferable that the guide hole of the holder be tapered so that the holder also serves as a needle guide.

In other words, in the present invention, since the holder is attached and fixed from above each sampling bottle, it is possible to fix only the sample bottle from which the needle descends by easily adjusting the position without causing any displacement, and there is no interference with cooling the sample. Moreover, since the holder also serves as a needle guide, the needle can be guided to the center of the sample bottle without requiring strict mechanical precision.

The vertical movement means can be composed of a combination of an electromagnetic solenoid and a spring, a motor and a feed screw, a belt and a pulley, or a linear motor, and the level position of the hole and goo can be determined by optical, mechanical, or magnetic methods. can also be detected.

(Example) An example of the present invention will be described in detail with reference to FIGS. 4 to 10. In the figure, the same numbers as in the figure of the conventional example represent corresponding parts.

First, referring to FIG. 4, the sample bottle 1 is equipped with a rubber stopper lO, and a sample is placed inside. - The needle 11 moves vertically, penetrates the stopper 10 and descends into the sample bottle l to aspirate the sample, then rises and returns to its original position and moves on to the next sampling.In the present invention, the holder 1
2 is applied from above to the entrance of the sampling bottle 1, thereby fixing the sampling bottle 1. In other words.

The holder 12 is made of a substantially cylindrical body having a center hole 13, and a flange 14 is provided on the outer periphery of the bottom surface to form a bottom recess, and the outer bottom recess engages with the upper end of the sample bottle 1 to attach the holder 12. be done. Further, as shown in the figure, the upper part of the center hole 13 is tapered to open upward, and the holder 12 also serves as a guide for the needle 11 that descends into the sample bottle 1 through the center hole 13. There is.

The holder 12 is moved up and down by the up and down movement means 16 via the lever 15, so that it is applied to the sample bottle l before the needle 11 is lowered and removed therefrom after the needle 11 has been raised. The means 16 consists of a vertical combination of a solenoid 17 and a spring 18, and a plunger 19 that projects from the lower end of the solenoid 17 and is always urged upward by a spring 1B advances/retracts in response to energization/blocking of the solenoid. do. One end (right end in the figure) of the lever 15 is fixed to the holder 13, and a part near the other end (left end in the figure) is connected to the tip of the plunger 19. Therefore, as the plunger 19 moves forward/backwards, the lever 15 and the holder 12 move down/up together.

Furthermore, in the present invention, a detection means 20 is provided for detecting the level position of the holder 13 and detecting that the holder has descended beyond the position where it should engage with the upper end of the sample bottle 1, that is, that the sample bottle 1 is not present. In the illustrated example, the detection means 20 consists of a photo-in crack, and when the other end (left end) of the lever 15 moves to block the optical path of the photo-in crack, an electric signal is output, and the level position of the lever and holder is detected. is detected. As shown in the figure, the photo interrupter is installed at a location lower than the position of the other end of the lever 15 when the holder 12 is in the attached state, so the output from the photo interrupter can only be obtained when the lever is lowered further. That is, when there is no sample bin. Therefore, the presence or absence of a sample bottle can be reliably detected.

Next, to explain the operation, when the solenoid 17 is not energized, the plunger 19 is pulled back by the spring 18, and the lever 15 and holder 12 are moved far above the sample bottle l as shown by the solid line in FIG. in the top position. When the solenoid 17 is energized here, the sixth
As shown in the figure, the lever 15 and holder 12 are lowered,
A holder 12 is attached from above to the entrance of the sample bottle 1 to fix the sample bottle. In this state, the needle descends and heads toward the sample bottle l, but since the upper end of the holder 12 has a tapered shape that opens upward, even if the needle position is slightly off the center of the sample bottle, the needle will continue to taper. is guided through the center of the stopper lO.

If the sample bottle is not set, as shown in FIG. 7, the lever 15 will further descend from the state in which the holder 12 is attached as shown in FIG. 6, and will stop when the plunger 19 is fully extended. At this position, the optical path of the photointerrupter 20 is blocked, and the absence of the sample bottle is detected.

In the above embodiment, a photo-in rack is used as the detection means 20, but a micro switch 21 or a reed switch 22 may also be used as shown in FIGS. 8a and 8b. In FIG. 8a, the lever 15 is A level position detection signal is obtained by descending and pressing the microswitch 21 in the same manner as above. In FIG. 8b, a magnet 23 is attached to the lower surface of the other end of the lever 15, and when the lever 15 similarly descends and the magnet 23 approaches the reed switch 22, its contact closes and a detection signal of the level position is obtained.

Further, in the above example, the plunger 19 is connected to the solenoid 17.
Although the plunger 19 is projected downward from the solenoid 17 and the lever 15 is connected to its lower end, as shown in FIG. , is effective when there is no space above the sample bin.

Furthermore, in the example illustrated above, the vertical moving means 16 is a combination of a solenoid and a spring, but other configurations are also possible. For example, in FIG.
is rotated by a motor 25, a gear 26 attached to the left end of the lever 15 is engaged, and the lever 15 and holder 12 are moved up and down by the rotation of the feed screw 24. The configuration operations other than the vertical movement means are the same as in the above example. In addition, a combination of a belt and a pulley or a near motor can also be used.

(Effects of the Invention) As described above, according to the present invention, the holder is attached and fixed from above each sampling bottle, and since the holder also serves as a needle guide, the center of the needle and sample bottle is Even if the needle is slightly out of place, the needle can be guided to the center of the sample bottle, only the sample bottle on which the needle descends can be fixed, alignment can be easily adjusted, and the absence of a sample bottle can be reliably detected. A sample sampling device is obtained in which the sample bottle does not shift and does not interfere with cooling.

[Brief explanation of drawings]

Figure 1 is a diagram for explaining a conventional sample bin fixing method, Figures 2a and b are diagrams for explaining another conventional fixing method, and Figures 3a, b, and C are diagrams for explaining the presence and absence of a conventional sample bin. The figure which shows the method of detecting. FIG. 4 is a diagram showing the configuration of the sample sampling device of the present invention, FIG. 5 is a diagram showing the device in a power-shielded state, and FIG. 6 is a diagram showing the state in which the holder is attached to the entrance of the sample bottle. 7 is a diagram showing the operating state when no sample bin exists, FIGS. 8a and 8b are diagrams showing a modified example of the level position detection means, and FIG. 9 is a diagram showing a different arrangement example of the embodiment of FIG. 4. diagram showing,
FIG. 1θ is a diagram showing an example of a modification of the vertical moving means. 11.Sample bottle, 11.Holder. 12... Holder, 15... Fist lever, 16... Vertical movement means, 17... Solenoid, 18... Spring,
19... plunger, 20... detection means, 21.
...Micro switch, 22...Reed switch, 2
4...Feed screw, 25...Motor. Applicant JASCO Corporation Agent Yukio Maruyama ul @aml (Q) (b) (C) Figure 7! Figure E8 (Q) (b) 1st
figure

Claims (5)

[Claims] (1) A sample sampling device used in a device that aspirates a sample in a sample bottle with a needle and provides it for analysis, and is attached to the entrance of the sample bottle from above and has a guide hole formed in the center through which the needle passes. A sample sampling device comprising: a holder; means for vertically moving the holder; and detecting means for detecting that the holder has been lowered to a predetermined level. (2) A lever is provided that is fixed to the holder and moves up and down together with the holder, one end of the lever is fixed to the holder, a part is connected to the up and down moving means, and the other end functions as a level detection end. A sample sampling device according to claim 1, characterized in that: (3) The sample sampling device according to claim 1, wherein the guide hole of the holder is tapered and the holder also serves as a needle guide. (4) The sample sampling device according to claim 1, wherein the vertical moving means comprises a combination of an electromagnetic solenoid and a spring, a motor and a feed screw, a belt and a pulley, or a linear motor. (5) The sample sampling device according to claim 1, wherein the detection means detects the level position of the holder by any one of optical, mechanical, or magnetic methods.