JPH07128206A - Sample holder - Google Patents

Abstract

PURPOSE:To retain samples of different sizes and samples of different thicknesses with one kind of sample holders. CONSTITUTION:A sample holder H is provided with a holder body member 1 having a sample-holding plate fitting part 3 in which a light-transmitting window 3a for transmitting rays for analysis is formed and being detachably fitted in the optical path of the rays for analysis, sample holding plates 4 being detachably fitted to the sample-holding plate fitting part 3 and also having a light-transmitting aperture 4a that has been formed in the position corresponding to the light-transmitting window 3a, a turning arm 9 that has been turnably supported by the holder body member 1, a sample-pressing replacement member 13 that has been turnably and detachably fitted to the end part of the turning arm 9 and provided with a light-transmitting aperture 13c (not shown) in its central part, and retaining-force producing means 7, 17 for retaining the turning arm 9 in such a state that the sample-pressing replacement member 13 has been pressed against the sample holding plates 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention holds a sample for use in microscopic analysis or spectroscopic analysis, and is detachably mounted in the optical path of light used for analysis (that is, analysis light). Regarding

[0002]

2. Description of the Related Art The following technique is known as a conventional sample holder of this type. (J01) (Technology shown in FIG. 8) Sample support plate 0 made of a magnetic material and having a light transmission opening 01a
1 and a sample holder 02 made of a rubber magnet, which has a light transmission port 02a that is attached to and detached from the sample support plate 01 by magnetic force, (J02) (technology shown in FIG. 9) A sample support plate 03 having a transmission port 03a and a plurality of screws 03b provided upright around the transmission port 03a, a sample pressing member 04 having a light transmission port 04a and a through hole 04b through which the plurality of screws 03b pass, and the screw. A sample holder composed of a nut 05 that is screwed to 03b and presses the sample pressing member 04 toward the sample support plate,

[0003]

The above-mentioned prior art has the following problems. (J01) Problem This conventional sample holder can be used for a thin sheet-shaped sample, but cannot be used for a thick sample. In addition, a large number of sample holders in which the diameter of the light transmission port differs depending on the area of the sample must be prepared. Problem of (J02) Although this conventional sample holder can be used for a sample having a large thickness, it is necessary to prepare a large number of sample holders having different diameters of light transmission openings according to the size of the sample.

Therefore, conventionally, a large number of sample holders had to be prepared according to the size of the sample to be analyzed. Further, in the above-mentioned prior art, when a mulled sample is sandwiched between a pair of sandwiching members (for example, a sample support plate and a sample pressing member) having a light transmission port for measurement, the thickness cannot be freely selected. there were. The conventional sample holder corresponds to many types of samples such as thickness and size,
A large storage space was required because a large number of sample holders had to be prepared.

In view of the above-mentioned circumstances, the present invention has the following contents (O01). (O01) Providing a sample holder that can hold samples of various sizes.

[0006]

Next, the constitution of the present invention devised to solve the above-mentioned problems will be described. The constituent elements of the present invention will be described in correspondence with the constituent elements of the embodiments described later. For simplification, the reference numerals of the constituent elements of the embodiment are enclosed in parentheses. The reason why the present invention is described in association with the reference numerals of the embodiments described later is to facilitate the understanding of the present invention and not to limit the scope of the present invention to the embodiments.

In order to solve the above-mentioned problems, the sample holder (H) of the present invention has the following requirements: (Y01) A translucent window (3a) for transmitting the analysis light is formed. Holder body members (1), (Y02) which have the sample support plate mounting part (3) and which are detachably mounted in the optical path (L) of the analysis light. A sample support plate (4), (Y03), which is detachably mounted and has an opening (4a) for light transmission formed at a position corresponding to the transparent window (3a), the holder body member (1)
Rotating arms (9), (Y04) rotatably supported by
Sample holding replacement member (13), which is rotatably and detachably attached to the tip of the rotating arm (9) and has a light transmission port (13c) formed in the center, (Y05) The sample holding replacement Holding force generating means (7, 17) for holding the rotating arm (9) in a state in which the member (13) is pressed against the sample support plate (4).

(Supplementary Explanation of the Present Invention) The sample support plate (4) removably mounted on the sample support plate mounting portion (3) of the holder body member (1) has a holder body member (1) made of stainless steel. If the sample support plate (4) is made of a rubber magnet plate while using a magnetic material such as, it is simple and convenient. It is also possible to adopt a configuration in which a sample support plate guide groove is provided in the sample support plate mounting portion (3) and the sample support plate (4) is detachably mounted in the sample support plate guide groove. In this case, as the material of the holder body member (1) and the sample support plate (4), various materials having appropriate hardness, strength, elasticity or the like can be used.

The rotating arm (9) can be rotatably supported on the rotating arm supporting member (6) by attaching the rotating arm supporting member (6) to the holder body member (1). The rotating arm (9) can be rotatably supported by a rotating arm support member (6) formed integrally with the holder body member (1). The sample pressing exchange member (13) can be directly attached to the tip of the rotary arm (9), but the sample pressing frame member () is attached to the tip of the rotary arm (9). 1
1) rotatably supporting the sample pressing frame member (1
It can also be detachably attached to 1). The holding force generating means (7, 17) rotates the rotating arm (9), and a tip portion (9) of the rotating arm (9).
Various means having a function of pressing the sample pressing exchange member (13) detachably attached to a, 9a) to the sample support plate (4) can be adopted. For example,
A spring arranged between the base end of the rotating arm (9) and the holder body member (1) may be employed so as to apply a rotational force to the rotating arm (9). Further, the rotating arm (9) is supported by the holder body member (1).
An arm pressing member (17) movable with respect to
By this arm pressing member (17), the rotating arm (9)
Can also be held in a predetermined rotational position.

(Embodiment 1 of the present invention) The sample holder of Embodiment 1 of the present invention is the same as the sample holder of the present invention,
(Y06) The holder body member (1) is made of a magnetic material, characterized by having the following requirements:
(Y07) The sample support plate (4) was composed of a plate-shaped rubber magnet.

(Embodiment 2 of the present invention) The sample holder according to Embodiment 2 of the present invention is the same as the above-mentioned present invention or Embodiment 1 of the present invention.
(Y08) The sample holder exchange member (13), wherein the sample holder has the following requirements.
Was detachably attached to the sample pressing frame member (11) rotatably supported by the tip portions (9a, 9a) of the rotating arm (9).

[0012]

[Action]

(Operation of the present invention) Next, the operation of the present invention having the above-mentioned features will be described. In the sample holder (H) of the present invention having the above-mentioned characteristics, the holder body member (1) is detachably mounted in the optical path (L) of the analysis light. The sample support plate (4) is detachably attached to the sample support plate attachment portion (3) of the holder body member (1). In that state, the light transmission opening (4a) of the sample support plate (4) corresponds to the translucent window (3a) formed in the sample support plate mounting portion (3) for transmitting the analysis light. Are placed. A sample pressing replacement member (13) is rotatably and detachably attached to a tip end portion (9a, 9a) of a rotating arm (9) rotatably supported by the holder body member (1). The holding force generating means (7, 17) holds the rotating arm (9) in a state in which the sample pressing exchange member (13) is pressed against the sample support plate (4). Therefore, the sample support plate (4) and the sample pressing exchange member (1
The sample can be sandwiched between 3).

In this state, the light transmission port (13c) formed in the center of the sample pressing exchange member (13) is
The sample support plate mounting portion (3) is arranged so as to correspond to the transparent window (3a) and the sample support plate (4) for transmitting light (4a). Therefore, the analysis light passing through the light transmission opening (13c), the light transmission opening (4a), and the light transmission window (3a) is the sample support plate (4) and the sample pressing exchange member (13). Can be incident on the sample sandwiched between and. The sample support plate (4) is attachable / detachable to / from the sample support plate mounting portion (3) of the holder body member (1), and the sample pressing exchange member (13) is the rotating arm (9).
Since the sample support plate (4) and the sample pressing exchange member (13) can be easily attached to and detached from the tip end portions (9a, 9a), different types can be easily exchanged. Therefore, a sample support plate (4) having different sizes of the light transmission opening (4a) and a sample pressing exchange member (13) having different size of the light transmission port (13c) are prepared, and The sample support plate (4) and the sample pressing exchange member (13) can be replaced and used depending on the type. For this reason, it is not necessary to prepare a variety of sample holders (H) having complicated structures such as a mechanism for holding the sample, so that it is possible to save the storage space and the manufacturing cost.

(Operation of Embodiment 1 of the Present Invention) In the sample holder (H) of Embodiment 1 of the present invention, the holder body member (1) is made of a magnetic material, and the sample support plate (4) is It is composed of a plate-shaped rubber magnet. Therefore, the sample support plate (4) can be attached / detached to / from the sample support plate mounting portion (3) of the holder body member (1) very easily.

(Operation of Embodiment 2 of the Present Invention) In the sample holder (H) of Embodiment 2 of the present invention, the sample pressing exchange member (13) includes the distal end portion (9a, 9a) of the rotating arm (9).
9a) rotatably supported sample holding frame member (1
Since it is configured to be detachably attached to 1), it is possible to simplify the configuration of the sample pressing replacement member (13) at the tip end portions (9a, 9a) of the rotating arm (9). That is, the tip (9a, 9a) of the rotating arm (9)
The sample pressing exchange member (13) is detachably attached to the rotating arm (9) by removably mounting the sample pressing exchange member (13) on the rotatable sample pressing frame member (11). The structure of the sample pressing exchange member (13) is simpler than that of the structure in which it is directly rotatable and detachably mounted.

[0016]

EXAMPLES Examples of the sample holder of the present invention will now be described with reference to the drawings, but the present invention is not limited to the following examples. FIG. 1 is a partially exploded perspective view of an embodiment of the sample holder of the present invention. FIG. 2 is a plan view of the same embodiment. 3 is a side view of the same embodiment as seen from the arrow III in FIG. FIG. 4 is a perspective view of a spring that functions as a holding force generating means used in the same embodiment. 5 is an explanatory view of the main part of the embodiment, FIG. 5A is an exploded perspective view of the main part, FIG.
B is an exploded sectional view of a main part. FIG. 6 is an explanatory diagram of a configuration in which the sample holder of the same embodiment is mounted midway in the optical path of the analysis light. FIG. 7 is a partial cross-sectional view showing a state in which the sample holder of the same embodiment is mounted in the optical path of the analysis light.

6 and 7, a vertical holder mounting panel P (see FIG. 7) is arranged in the middle of the optical path L (see FIG. 7) of infrared light (analysis light) of the infrared spectroscopic analysis device. ing. The holder mounting panel P has a through hole Pa (see FIG. 7) formed in a portion corresponding to the optical path L. On one surface of the holder mounting panel P, a pair of holder mounting guides G and G (FIG. 6) for forming the holder mounting guide grooves G1 and G1 (see FIG. 6) on both sides of the through hole are provided.
(See) is located. A stopper S is arranged corresponding to the lower end positions of the holder mounting guide grooves G1 and G1.

1 to 3, the sample holder H has a substantially rectangular flat plate-shaped holder body member 1. The holder body member 1 is made of a magnetic material (for example, stainless steel). Guided protrusions 2 and 2 are provided on both sides of the holder main body member 1 along the longitudinal direction thereof. Further, a sample support plate mounting portion 3 formed by a rectangular shallow recess is provided at the center of the holder body 1 in the longitudinal direction. A circular light-transmitting window 3a through which the analysis light is transmitted is formed in the center of the sample support plate mounting portion 3. A sample support plate 4 formed of a rectangular plate-shaped rubber magnet is detachably mounted on the sample support plate mounting portion 3. A circular light transmission opening 4a is formed in the center of the sample support plate 4. The rectangular sample support plate 4 and the sample support plate mounting portion 3 are formed to have substantially the same size, and when the sample support plate 4 is mounted on the sample support plate mounting portion 3, the light transmitting window 3a and the light transmitting window 3a are formed. The center positions of the openings 4a for use are substantially aligned with each other. As this sample support plate 4, a large number of different sizes of the light transmission openings 4a are prepared, and an appropriate one is selected and used according to the size of the sample to be analyzed.

A U-shaped rotating arm supporting member 6 is arranged at one end side portion in the longitudinal direction of the holder main body member 1. The rotating arm supporting member 6 is fixed together with the leaf spring 7 shown in FIG. It is fixed to the holder body member 1. A shaft support hole 6a is formed in each of the U-shaped ends of the rotary arm support member 6. A shaft (not shown) to be inserted into the shaft support hole 6a is provided on both side surfaces of the base end portion (right end portion in FIGS. 1 to 3) of the plate-shaped rotary arm 9, and the shaft is It is fitted into the shaft support hole 6a. Therefore,
The rotary arm 9 is rotatably supported around the shaft support hole 6a of the rotary arm support member 6. The tip side portion (the left end side portion in FIGS. 1 to 3) of the plate-shaped rotating arm 9 is cut out in a substantially semicircular shape, and has bifurcated tip portions 9a, 9a.
A shaft support hole (not shown) similar to the shaft support hole 6a is provided in the bifurcated tip portions 9a, 9a. Further, the intermediate portion of the rotary arm 9 is formed to be bent, and a screw rod through hole 9b (see FIGS. 1 and 5A) is formed in the intermediate portion.

Fitted in the shaft support holes (not shown) provided in the bifurcated tip portions 9a, 9a of the rotary arm 9 at positions separated by 180 ° from the outer circumference of the cylindrical frame member 11, respectively. Shafts 11a, 11a (see FIG. 5) are provided.
Therefore, the sample pressing frame member 11 has the tip portion 9a.
Are rotatably supported by the bifurcated tip portions 9a, 9a of the rotary arm 9 by shafts 11a, 11a fitted in shaft support holes (not shown). The sample holding frame member 11 is
As shown in FIG. 5, a ring-shaped protruding portion 11b is formed on one surface (lower surface in FIG. 5B), and a rubber ring (elastic material) 12 is attached to the outer periphery of the protruding portion 11b. The rubber ring 12 is a member for preventing the hard sample holding frame member 11 from directly pressing the sample and damaging the sample. A female screw 11c is formed on the inner surface of the cylindrical sample pressing frame member 11.

The sample pressing exchange member 13 detachably attached to the sample pressing frame member 11 includes an operation flange 13a for rotating by hand and a cylindrical inner surface of the sample pressing frame member 11. The male screw 13b is screwed with the female screw 11c. Further, the sample pressing exchange member 13 has a light transmission port 13c formed at the center thereof. Furthermore, the sample pressing exchange member 13 has a ring-shaped protrusion 13d on the outer surface of the operation flange 13a.
Is formed, and a rubber ring (elastic material) 14 is attached to the outer periphery of the protruding portion 13d. The rubber ring 14 is a member for preventing the hard sample pressing exchange member 13 from directly pressing the sample and damaging the sample. From the elements indicated by the reference numerals 11 to 14, the sample pressing member 1
5 are configured.

As can be seen from FIGS. 1 and 3, the tip portion of the arm position holding screw rod 16 having the base end portion screwed into the holder body member 1 has a screw rod through hole 9 in the rotary arm 9.
penetrates b. An arm position holding nut (arm holding member) 1 is attached to the tip of the arm position holding screw rod 16.
7 is screwed. On the outer peripheral portion of the arm position holding nut 17, a large number of fine grooves are formed so as to prevent slipping when the knob 17 is rotated by hand. This arm position holding nut 1
By rotating 7 the arm position holding nut 17 moves along the arm position holding screw rod 16.

The rotary arm 9 is moved by the leaf spring 7.
The tip portions 9a, 9a of the constantly rotating arm 9 are the holder body member 1
It is receiving the rotational force to approach. Therefore, as shown by the solid line in FIG. 3, the sample pressing frame member 11 rotatably held by the tip portions 9a, 9a and the sample pressing exchange member 13 detachably attached thereto are the leaf springs 7 It is pressed against the surface of the sample support plate 4 by the elastic force of. As can be seen from FIG. 3, when the base end side portion (the right end side portion in the figure) of the rotating arm 9 is pressed against the holder main body member 1 side against the leaf spring 7, as shown by the chain double-dashed line in FIG. In addition, the tip of the rotary arm 9 and the sample pressing exchange member 13 supported by the rotary arm 9 are configured to be separated from the surface of the sample support plate 4.

However, the rotary arm 9 has an arm position holding nut (that is, an arm pressing member) whose position is adjusted along the arm position holding screw rod 16.
The rotation is regulated by 17. By bringing the arm position holding nut 17 close to the holder main body member 1 along the arm position holding screw rod 16, the positions of the rotating arm 9 and the sample pressing exchange member 13 mounted on the tip end of the rotary arm 9 are adjusted. The sample can be held while being sandwiched between the support plate 4 and the sample pressing exchange member 13. The leaf spring 7
The arm position holding nut 17 and the arm position holding nut 17 both have a function as a holding force generating means for holding the rotary arm 9 in a state where the sample pressing exchange member 13 is pressed against the sample support plate 4. Note that either the leaf spring 7 or the arm position holding nut 17 can be omitted.

As shown in FIGS. 1 to 3, a posture adjusting screw 18 is provided on a portion of the holder body member 1 opposite to the portion where the rotary arm support member 6 is arranged.
The attitude adjusting screw 18 is a screw for adjusting the attitude of the sample holder H with respect to the holder mounting panel P shown in FIG. 7, and its tip portion penetrates the holder body member 1 as shown in FIG. The holder mounting panel P is brought into contact with the panel P.

(Operation of Embodiment) Next, the operation of the embodiment of the sample holder of the present invention having the above-mentioned features will be described. Sample support plate mounting portion 3 of the holder body member 1 of the sample holder H
A sample support plate 4 having an opening 4a for transmitting light according to the type of sample is detachably attached to the. In that state,
The light transmission opening 4a of the sample support plate 4 is arranged corresponding to the translucent window 3a formed in the sample support plate mounting portion 3 for transmitting the analysis light. The holder body member 1
Tip parts 9a, 9a of the rotating arm 9 rotatably supported by
The sample holding frame 11 rotatably attached to the sample holding frame 11 is detachably mounted with a sample holding exchange member 13 having a light transmission port 13c of a size corresponding to the type of sample.

In this state, when the base end portion of the rotating arm 9 is pressed against the holder body member 1 side, the tip end portion of the rotating arm 9 separates from the holder body member 1. Therefore, when the pressing force of the base end portion of the rotary arm 9 is released after the sample is placed on the sample support plate 4, the tip end portion of the rotary arm 9 is moved to the holder body member 1 side by the elastic force of the leaf spring 7. Rotate to get closer. At this time, the sample is sandwiched between the sample support plate 4 and the sample pressing exchange member 13. Next, the arm position holding nut 17 is rotated and brought into contact with the upper surface of the rotating arm 9. In this state, the rotating arm 9 cannot rotate, and the sample sandwiched between the sample support plate 4 and the sample pressing exchange member 13 is securely held at that position. Further, in this state, the light transmission port 13c formed in the central portion of the sample pressing exchange member 13 corresponds to the light transmission window 3a of the sample support plate mounting portion 3 and the light transmission opening 4a of the sample support plate 4. Are placed.

In FIGS. 6 and 7, the guided ridges 2 and 2 of the holder main body member 1 of the sample holder H holding the sample are provided on the holder mounting panel P (see FIG. 7). It is inserted into the holder mounting guide grooves G1 and G1 (see FIG. 6) formed by the holder mounting guides G and G (see FIG. 6). At this time, the tip of the sample pressing holder H is positioned by a stopper S arranged corresponding to the lower end positions of the holder mounting guide grooves G1 and G1. In this state, the through hole Pa (see FIG. 7) of the holder mounting panel P formed in the optical path L of the analysis light and the light transmission port 1 formed in the central portion of the sample pressing exchange member 13
3c (see FIG. 5), the transparent window 3a of the sample support plate mounting portion 3
(See FIG. 1) and the light transmission opening 4a of the sample support plate 4.
(See FIG. 1) are arranged overlapping. The posture of the sample holder H with respect to the holder mounting panel P, that is, the posture with respect to the optical path L of the analysis light can be adjusted by the posture adjusting screw 18. The analysis light transmitted through the sample is
It is detected by an inspection device (not shown).

(Modifications) Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the above-mentioned embodiments, but is within the scope of the gist of the present invention described in the claims. Thus, various changes can be made. A modified embodiment of the present invention is illustrated below. (H01) Instead of being integrally formed with the holder main body member 1, the guided ridge 2 can be integrally formed by separately manufacturing. It is also possible to form a guided groove instead of the guided ridge. In that case, the guide G can be formed as a ridge. (H02) Further, the sample support plate 4 can use a plate-shaped metal magnet instead of the rubber magnet. (H03) The present invention can also be applied to a reflection type analyzer.

[0030]

The image output apparatus of the present invention has the following effects. (E01) Since it is possible to hold various samples having different sizes and various samples having different thicknesses with one sample holder having a replacement part with a simple structure, the number of sample holders to be prepared Is less. Therefore, the storage space of the sample holder and the manufacturing cost can be saved in total.

[Brief description of drawings]

FIG. 1 is a partially exploded perspective view of an embodiment of a sample holder of the present invention.

FIG. 2 is a plan view of the same embodiment.

FIG. 3 is a side view of the embodiment as seen from an arrow III in FIG.

FIG. 4 is a perspective view of a spring functioning as a holding force generating means used in the embodiment.

5A and 5B are explanatory views of a main part of the embodiment, FIG. 5A is an exploded perspective view of the main part, and FIG. 5B is an exploded cross-sectional view of the main part.

FIG. 6 is an explanatory diagram of a configuration in which the sample holder of the embodiment is mounted in the optical path of the analysis light.

FIG. 7 is a partial cross-sectional view showing a state in which the sample holder of the same example is mounted in the optical path of the analysis light.

FIG. 8 is a diagram showing a conventional example of a sample holder.

FIG. 9 is a diagram showing another conventional example of the sample holder.

[Explanation of symbols]

H ... sample holder, L ... optical path of analysis light, 1 ... holder body member, 3 ... sample support plate mounting portion, 3a ... translucent window, 4 ... sample support plate, 4a ... light transmission opening, 6 ... rotation Arm supporting member, 7 ... Holding force generating means (leaf spring), 9 ... Rotating arm,
Reference numeral 9a ... Tip portion, 11 ... Sample pressing frame member, 13 ... Sample pressing replacement member, 13c ... Light transmitting port, 17 ... Holding force generating means (arm position holding nut)

Claims (1)

[Claims] 1. A sample holder having the following requirements, (Y0
1) A holder main body member having a sample support plate mounting portion formed with a translucent window through which the analysis light is transmitted and detachably mounted in the optical path of the analysis light, (Y02) The sample support plate mounting portion A sample support plate that is detachably attached to and has an opening for light transmission formed at a position corresponding to the transparent window.
(Y03) A rotating arm rotatably supported by the holder main body member, (Y04) A sample pressing member rotatably and detachably attached to a tip end portion of the rotating arm and having a light transmission port formed in a central portion thereof. (Y05) Holding force generating means for holding the rotating arm in a state in which the sample pressing member is pressed against the sample support plate.