JPS63112974A - Sample processing apparatus - Google Patents

Abstract

PURPOSE:To promote refining and homogenizing of a sample in a short time, by forming a tapered part in the lower part of a bottomed vessel, a tapered part copying the shape of the above-mentioned tapered part in the lower part of a rotating and processing unit provided in the vessel and further a roughened surface part on the surface of the processing unit. CONSTITUTION:A processing unit 3 provided in a bottomed vessel 1 is rotated to process a sample in the vessel 1. In the process, a tapered part (1a) is formed in the lower part of the vessel 1 and a tapered part (3a) of the processing unit copying the shape of the tapered part (1a) is simultaneously formed in the lower part of the processing unit 3. Furthermore, a roughened surface part (3b) is formed on the surface of the processing unit 3 to rotate the processing unit 3 and process the sample in the vessel 1. As a result, a sample ranging from a relatively soft sample, e.g. plant, etc., to a relatively hard sample, e.g. animal organ, etc., can be rapidly, and surely, refined and homogenized.

Description

[Detailed Description of the Invention] a. Field of Industrial Application The present invention relates to a sample processing device (homogenizer), and in particular, it is used for efficiently microprocessing, stirring, and homogenizing small amounts of samples made of animals, plants, etc. Concerning new improvements.

b. Conventional technology This type of sample processing equipment that has been used in the past includes:
Various configurations have been adopted and proposed, and to describe typical configurations, here, although no documents disclosing their specific contents are shown, Figures 7 to 9
The configuration shown in the figure can be mentioned.

That is, in the case of the configuration shown in FIG. 7, a workpiece 3 having a shaft portion 2 is rotatably provided in a bottomed container 1, and the surface of the workpiece 3 is formed into a mirror surface. There is.

Further, the lower part 1a of the container 1 is formed into a substantially flat shape,
The lower part 3a of the workpiece B is also formed in a substantially flat shape.

Further, in other conventional examples shown in FIGS. 8 and 9, the lower part 1a of the container 1 is formed in a tapered shape, and the workpieces 3 provided in the container 1 have diameters that are different from each other. It has a configuration in which a pair of different cylindrical bodies 4 and 5 are arranged coaxially, and each of these cylindrical bodies 4 and 5 has a plurality of round holes 6 formed therein as shown in FIG. ing. Although not shown in the drawings, a structure having a rotary blade instead of the cylinder 4 is also used.

Conventional sample processing equipment is configured as described above.
The operation will be explained below.

First, in the case of the conventional configuration shown in FIG. 7, when a sample (not shown) is placed in the container 1 and the workpiece 6 is rotated by a drive motor (not shown), the sample is crushed and made fine by the workpiece B. .

In addition, in the case of the configuration shown in FIGS. 8 and 9, the sample (for example, animal organs, etc.) placed in the container 1 is passed from the outside of each cylinder 4 and 5 through the hole 6 to the cylinder 4. When the sample is guided into the hollow part 4a and sent to the lower part 1a of the container 1 and passes through each hole 6 of each cylinder 4 and 5, the cylinder 4 is rotating, so each hole 6 performs a cross movement. As a result, each hole 6 acts as a blade and is made finer.

C9 Problems to be Solved by the Invention Since the conventional sample processing apparatus is configured as described above, it has had the following various problems.

(1) First, in the case of the conventional configuration shown in FIG.
Because the surface is mirror-like, relatively soft samples such as plants can be made fine and homogenized, but it has been difficult to homogenize samples made of hard materials.

(2) Also, in the case of the conventional configuration shown in FIGS. 8 and 9,
It is easy to miniaturize and homogenize samples made of relatively hard materials such as animals, but the processed object cannot reach the tapered part formed at the bottom of the container, and it is difficult to quickly and uniformly process the entire sample. It was difficult to homogenize without

The present invention was made to solve the various problems as described above, and in particular, in a container having a tapered part,
It is an object of the present invention to provide a sample processing device that can efficiently perform microfabrication and homogenize stirring regardless of the type of sample, such as animals or plants.

d. Means for Solving the Problems The sample processing apparatus according to the present invention rotates a processing body provided in a bottomed container to process a sample in the container. The workpiece is configured to include a tapered part formed at the lower part, a workpiece taper part formed at the lower part of the workpiece and following the shape of the taper part, and a rough surface part formed on the surface of the workpiece. .

00 Effect In the sample processing apparatus according to the present invention, the shape of the tapered part of the workpiece follows the internal shape of the tapered part of the container, so when the workpiece is rotated, the groove of the workpiece causes the sample to be finely cut. homogenization of the sample can be achieved in a very short time.

f. Examples Hereinafter, preferred examples of the sample processing apparatus according to the present invention will be described in detail with reference to the drawings.

It should be noted that the same or equivalent parts as in the conventional example will be described with the same reference numerals.

Figures 1 to 6 are for showing the sample processing apparatus according to the present invention. Figure 1 is a sectional view showing the first embodiment, and Figure 2 is a front view showing the processed body of Figure 1. , Fig. 3 is a bottom view of Fig. 2, Fig. 4 is a sectional view showing the second embodiment, Fig. 5 is a front view showing the processed body of Fig. 4, and Fig. 6 is a bottom view of Fig. 5. It is.

First, in the case of the first embodiment shown in Figs. 1 to 3, the configuration is suitable for processing relatively soft samples such as vegetable fibers, and in the figures, those indicated by the reference numeral 1 are It is a bottom-shaped container, and the lower part of this container 1 has a tapered part 1a.
is formed. Incidentally, this container 1 uses a centrifuge tube, and is configured so that it can be attached to a centrifuge as is.

A workpiece 3 supported by a shaft 2 is rotatably provided in the container 1, and a workpiece tapered part 3a is formed at the lower part of the workpiece 3. The shape is substantially similar to the internal shape of the tapered portion 1a of the container 1, and is configured to provide a slight clearance.

Furthermore, as shown in FIGS. 2 and 3, four grooves 3b are formed at every 90 degrees on the surface of the workpiece 3 to form a rough surface. acts as a cutter and is made of polypropylene or Teflon material.

Next, in the case of the second embodiment shown in FIGS. 4 to 6,
This configuration is suitable for processing relatively hard samples such as animal tissues. In the figure, the container designated by reference numeral 1 is a bottomed container, and the lower part of the container 1 has a tapered part 1.
a is formed.

A container lid 1d is detachably provided in an opening 1b formed at the upper end of the container 1 via an integrally formed connecting piece 1C.

Furthermore, a workpiece 3 supported by a shaft 2 is rotatably provided in the container 1, and a workpiece tapered part 3a is formed at the lower part of the workpiece 3. Details 6
The shape is substantially similar to the internal shape of the tapered portion 1a of the container 1, and is configured to provide a slight clearance.

As shown in FIGS. 5 and 6, the surface of the workpiece 6 has a large number of spiral grooves 3 in a direction different from the axial direction.
A rough surface portion 3b is formed, and these groove portions 3b act as a cutter and are made of polypropylene or Teflon material. Note that this groove portion 6b is formed in a direction of rotation that allows the sample to be sent downward.

Furthermore, a lid 7 that penetrates and is held by the shaft 2 is detachably provided in the opening 1b of the container 1,
The bearing 8 provided on the lid 7 is made of an O-ring and has a sealing function and a bearing function.

The sample processing apparatus according to the present invention is configured as described above, and its operation will be explained below.

First, in the case of the first embodiment, the workpiece 3 is pulled up and the container 1 is
After putting a sample made of plant fiber, etc. into the container, the processed body 3 is put into the container 1, and the container 4 (not shown) is placed in the container 1. When the moving means is connected to the shaft portion 2 and operated, the workpiece 3 rotates at a predetermined number of rotations, and is finely cut and homogenized by the groove portion 3b.

In the case of the second embodiment, when the processed body 3 is pulled up, the lid body 7 is also separated from the container 1 together with the processed body 3, and after putting a sample of animal tissue etc. into the container 1, the processed body 6 is removed from the container. 1 and by fitting the lid 8 into the opening,
The shaft portion 2 is rotatably supported by a bearing, and the inside of the container 1 is maintained in a sealed state. Therefore, even if a radioactive substance is added to the sample in the container 1, the radioactive substance will not scatter outside the container 1.

In the above-mentioned state, when the shaft portion 2 is rotated by a drive means (not shown), the workpiece 3 rotates at a predetermined number of rotations,
The sample is finely cut by a large number of grooves 3b, and is constantly sent downward to be homogenized.

After processing, if the sample contains radioactive materials,
The lid 7 is not removed from the container 1 and is transferred to the next analyzer (not shown) to perform the required analysis.

In addition, if the above-mentioned sample is a normal safe sample that does not contain radioactive materials, after processing is completed, the processed body 6 together with the lid body 7 is removed.
can be removed from the container 1, the container lid 1d is fitted into the opening 1b, and the container can be moved to another location or to another analysis device.

Furthermore, the container 1 in the above-mentioned first and second embodiments is
When processing a sample in a heating atmosphere or a cooling atmosphere, when the container 1 is immersed in a liquid (A) that is a heat medium as shown in FIG. 1, or for example, as shown in FIG. 2,
It is preferable to immerse the container 1 in a solid solution (B) such as Icenon (trade name), which is a heat medium.

In addition, since the container 1 described above is formed with the tapered part 1a, it can accurately accommodate even extremely suspicious ft (o, s cc) samples, and when taking it out to the outside, it becomes extremely easy to take out the sample. .

Incidentally, the groove portion 3 formed on the rough surface portion of the workpiece 3 described above
The shape of b is not limited to the configurations shown in FIGS. 2 and 5, but the same effect can be obtained even if the shape is a rough surface with a large number of protrusions other than the grooves.

Although the case in which a centrifugal tube is used as the container in this example has been described, it goes without saying that the same effects can be obtained when other ordinary containers are used.

g0 Effects of the Invention Since the sample processing apparatus according to the present invention is configured as described above, it is possible to obtain the following various effects.

(1) Since the surface of the processed object is roughened by grooves, etc., it is possible to quickly and reliably process fine samples from relatively soft samples such as plants to relatively hard samples such as animal organs. can be homogenized and homogenized.

(2) The tapered part of the processed body is formed to follow the internal shape of the tapered part of the container, so it can contact the sample placed in the lower part of the container evenly and quickly. Reliable machining operations can be obtained.

(3) By using a configuration in which only a rough surface is formed on the surface of the workpiece, it is possible to obtain exactly the same machining operation as the complicated conventional configuration shown in Fig. 8, and a significant cost reduction can be achieved. By doing so, we can fully meet the demand for disposable products.

[Brief explanation of the drawing]

1 to 6 are for showing the sample processing apparatus according to the present invention, in which FIG. 1 is a sectional view showing the first embodiment, FIG. 2 is a front view of the main part of FIG. 1, 3 is a bottom view of FIG. 2, FIG. 4 is a sectional view showing the second embodiment, FIG. 5 is a front view showing the main parts of FIG. 4, and FIG. 6 is a bottom view of FIG. 5. 7 and 9 are for illustrating the conventional structure. FIGS. 7 and 8 are sectional views, and FIG. 9 is a partial front view of the main part of FIG. 8. 1 is a container, 1a is a tapered part, 1b is an opening, 1d is a container lid, 2 is a shaft part, 3 is a processed part, 3a is a processed body tapered part, 3b
is a groove, 7 is a lid, and 8 is a bearing. Figure 2 Figure 5 Figure 7 Figure 8

Claims (11)

[Claims] (1), a processed body (3) provided in a bottomed container (1)
) in a sample processing apparatus that processes a sample in the container (1) by rotating a tapered part (1a) formed at the bottom of the container (1) and a tapered part (1a) formed at the bottom of the workpiece (3). , a tapered part (3) of the workpiece following the shape of the tapered part (1a)
a) and a rough surface portion formed on the surface of the workpiece (3), and the sample in the container (1) is processed by rotating the workpiece (3). A sample processing device featuring: (2) The sample processing apparatus according to claim 1, characterized in that the rough surface portion consists of a groove portion (3b). (3) The sample processing apparatus according to claim 2, wherein the grooves (3b) are formed at approximately 90-degree intervals. (4) The sample processing apparatus according to claim 2, characterized in that a large number of the grooves (3b) are formed in a direction different from the axial direction of the workpiece (3). (5) The upper end of the processed body (3) is provided with the container (1).
A sample processing device according to any one of claims 1 to 4, characterized in that a shaft portion (2) extending outward is provided. (6) A lid (7) having a bearing (8) is provided to pass through the shaft (2), and the lid (7) is connected to the opening (1b) of the container (1). The sample processing apparatus according to claim 5, characterized in that the sample processing apparatus is configured so that they can be fitted together. (7) The shaft portion (2) and the processed body (3) are removably provided in the container (1), as set forth in claim 5 or 6. Sample processing equipment. (8) At the end of the opening (1b) of the container (1),
The sample processing apparatus according to any one of claims 1 to 7, characterized in that a container lid (1d) is provided. (9) The sample processing apparatus according to any one of claims 1 to 8, wherein the container (1) is immersed in a heat medium. (10) The sample processing apparatus according to any one of claims 1 to 9, wherein the heat medium is a liquid. (11) The sample processing apparatus according to any one of claims 1 to 9, wherein the heat medium is a solid solution.