KR820001379Y1 - Vessel for test of a very small quantity sample - Google Patents

Abstract

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Description

Microsample Container

1 is a cross-sectional view showing a conventional sample container.

(A)-(e) is sectional drawing which shows the various examples of the container main body which concerns on this invention.

3 is a cross-sectional view showing an example of the present invention microsample container.

The present invention relates to a microsample container used for fluorescence X-ray analysis. In general, fluorescence X-ray analysis irradiates primary X-rays to a sample, thereby measuring fluorescence X-rays (also referred to as characteristic X-rays) having a wavelength inherent to the component emitted from the measurement component in the sample. This is an analysis method to find out the concentration.

For example, when it is going to measure the sulfur concentration in petroleum by the said fluorescent X-ray analysis method, if the petroleum is, for example, petroleum stored in a tank, the quantity of a required sample can be ensured enough.

However, when the petroleum can only be obtained in a small amount, such as marine oil, for example, the quantity of samples available is limited and it is necessary to use the sample effectively.

The present invention relates to a microsample container which is particularly effective when the amount of samples available in this way is limited to a very small amount.

A conventionally used sample container is equipped with a radiation-transmitting film (e.g., a polyester film) 2 at the bottom of a conventional container body 1 in which both the top and the bottom are open as shown in FIG. The periphery of the membrane 2 is fixed to the outer side of the container body 1 by the fastener 3 (outer frame or 0 ring, etc.), and a lid is attached to the upper part of the container body as necessary. 4) is filled in the bottom of the container body mounted with the membrane (2), the primary X-rays are irradiated to the sample (4) through the membrane (2) of the bottom, generated from the sample to remove the membrane (2) Fluorescence X-rays passing through are detected.

In this case, a certain amount of sample thickness or more than a certain amount of sample irradiation area is required, but the irradiation area can be effectively supplemented according to the irradiation period of the primary X-ray, but the thickness of the sample in terms of measurement accuracy A certain thickness (effective thickness; eg about 3 mm of sulfur in petroleum products) is required.

If the amount of sample is large enough, the sample thickness can be secured at all times.However, if the amount of sample is small, it is necessary to secure the sample thickness even at the expense of some irradiation area. It was necessary to make the area small and to secure the sample thickness. However, the method of changing the size of the sample container itself whenever the amount of the sample changes is that it is not necessary to prepare a large number of sample containers (each of which is different in size), and also in regard to setting the sample container. Subtle changes in the mounting position of the sample container greatly affect the amount of fluorescent X-rays to be measured. Therefore, it is necessary to always place it in a constant position, and it is necessary to remodel the adapter according to the sample container and attach it after analysis. It was.

The present invention has been made in consideration of the above, and an object of the present invention is to provide a trace sample container which can easily ensure a sufficient thickness of a sample.

Hereinafter, an embodiment of the present invention will be described.

2 (a) to (e) show various examples of the container body of the microsample container according to the present invention. The container body 11 shown in FIG. 2 (a) has a bottom surface 11a of the center portion. And a sample filling space 15 formed on the bottom 11a and the top 11b at the center of the main body is formed in the taper so as to incline upward over the outer edge portion of the main body. The inner diameter of (15) is considerably smaller than the outer diameter of the container main body 11, for example, 1 / 2-1 / 3.

In addition, the bottom surface 11a forms a sample container while being tapered and in close contact.

In particular, the adhesion can prevent leakage of the sample, and the sample can be effectively used.

The container body 21 shown in FIG. 2 (b) has a sample injection hole 26 in the center of the main body, and is opened at the bottom face 21a in the lower portion of the injection hole 26 to open the injection hole. It has a sample filling space 25 in communication with (26).

And the bottom surface 21a has comprised the taper which inclined upward from the center part to the outer periphery part similarly to the case of FIG. 2 (a).

The container body 31 shown in FIG. 2 (d) has a sample filling space 35 similar to that of FIG. 2 (a), but the upper surface 31b is formed in a tapered shape like the bottom surface 31a. It is.

In addition, this taper makes it easy to put a sample, and it becomes especially effective when the sample injection hole of a small diameter is formed like FIG. 2 (d) mentioned later.

The container body 41 of FIG. 2 (d) has the same structure as the container body 21 of FIG. 2 (b) and the container body 31 of FIG. 2 (c). It has the sample injection hole 46, it has the sample filling space 45 below, and the upper surface 41b and the lower surface 41a taper together.

The container body 51 shown in FIG. 2 (e) is substantially the same as the container body 41 of FIG. 2 (d), but has an air exhaust hole 57 through the upper surface 51b and the sample filling space 55. ) Is different.

The air hole 57 is formed to quickly introduce the sample into the sample filling space 55 from the sample injection hole 56.

In particular, it is effective when the diameter of the sample injection hole 56 is made small so that an extra sample can be made as small as possible.

In addition, in the figure, reference numeral 60 denotes an annular groove for hooking the outside of the container to be described later, or the 0 ring or the like.

In addition, these container bodies 11 to 51 are generally cylindrical, and therefore, when the bottom of the main body and the upper surface of the main body are tapered, the bottom and the upper surface have a substantially reverse conical shape.

Also, the sample filling space portion and the sample injection hole are usually circular in cross section.

FIG. 3 shows an example of a trace sample container when the container body 41 shown in FIG. 2 (d) is used, and is located on the bottom surface 41a of the metal body (may be made of plastic). For example, a radiation-permeable membrane 42 made of a polyester film is mounted, and the periphery of the membrane 42 is pulled upward by a plastic outer container 43 or a 0-ring, etc. The sample 44 is poured into the upper surface 41b of the concave top surface 41b of the container body 41, and is filled in the filling space 45 below from the injection hole 46.

Reference numeral 48 denotes an X-ray irradiation tube, and 49 denotes a detector.

In addition, when the sample amount is about 1 cc, the outer diameter d ₁ of the container body 41 used for this container is 40 mm. The inner diameter d ₂ of the sample injection hole 46 is 5 mm. The height of the sample filling space 45, that is, the effective thickness H required for the analysis is 3 mm, and the inner diameter D of the space 45 is 20 mm. to be.

The container body according to the present invention can be made of plastic or other suitable material depending on the nature of the sample.

Moreover, you may make it possible to attach a lid to the upper part of a container main body as needed.

As described above, the microsample container of the present invention has a container body having a sample filling space portion in the middle lower portion that can take the effective thickness of the sample required for analysis, so that a sufficient sample thickness can be secured even when the amount of the sample is small. Furthermore, only the container body is changed according to the amount of the sample, so that the analysis can be performed simply and easily, and furthermore, the structure is relatively simple, so that it can be provided at low cost.

Claims (1)

The bottom face 41a has a sample filling space 45 having an opening diameter that is open at the bottom face 41a at the center lower portion of the container body 41 and can take an effective thickness necessary for analysis for a given amount of sample. ) Is a tapered container body 41, which is inclined upwardly from its center to its outer edge, a radiopaque membrane mounted on the bottom surface 41a of the container body 41, and a fixture for fixing the membrane. A small amount having a sample purchase hole 46 in the central portion of the container body 41 through the space portion 45 on the upper surface of the container body 41 and smaller than the diameter of the sample filling space portion 45. Sample container.