JP2007330143A - Culture vessel regulating body, holder and culture apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a culture vessel regulating body that positions various culture vessels without increasing cost, and to provide a holder and a culture apparatus. <P>SOLUTION: A culture vessel regulating plate 300 is equipped with vessel holes 301 for directly positioning the relative position relation of cell culture vessels 200 to the holder 100 to place the cell culture vessels 200 and a small hole 302 for positioning the culture vessel regulating plate 300 on the holder 100. When the cell culture vessels 200 are placed on the holder 100, the culture vessel regulating plate 300 is attached to the holder 100 and then the cell culture vessels 200 are inserted into the vessel holes 301. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a culture vessel regulating body, a holder, and a culture apparatus that regulate a culture vessel.

Patent Document 1 discloses an adapter for a culture container that facilitates handling of the culture container and more reliably prevents the culture container from falling.
This culture container adapter is provided with a protrusion on the bottom surface of the container mounting portion, and the protrusion and the culture container are fitted together.

However, there are various types of culture containers such as dishes, well plates, flasks, etc., and they are properly used depending on the application. Even in the same container, there are slight variations in dimensions due to differences in manufacturers, There are many different types.
Therefore, as in the case of the culture vessel adapter of Patent Document 1, when the container mounting portion and the protruding portion are integrally molded, all manufacturers and all types must be dealt with, resulting in an increase in mold production costs. there were.
JP 2005-333823 A

  An object of the present invention is to provide a culture vessel regulation body, a holder, and a culture device that can position various types of culture vessels without cost.

The present invention solves the above problems by the following means. For ease of understanding, reference numerals corresponding to the drawings showing an embodiment of the present invention are given and described, but the present invention is not limited to this.
The invention of claim 1 includes a container positioning part (301) for directly or indirectly positioning a relative positional relationship of the culture container (200) with respect to a holder (100) for placing the culture container (200), and the It is the culture container regulation body (300) in which the regulation body side positioning part (302) which positions to a holder (100) was formed.
According to a second aspect of the present invention, in the culture vessel restricting body (300) according to the first aspect, the restricting body side positioning portion (302) is fitted to a protrusion (101) provided on the holder (100). It is a culture vessel regulation body (300) characterized by being a hole (302).
The invention of claim 3 is the culture vessel regulation body (300) according to claim 1 or claim 2, wherein the vessel positioning portion (301) is at least partially in the outer shape of the culture vessel (200). A culture vessel regulating body (300) characterized in that a combined shape is formed.
The invention of claim 4 is the culture vessel regulating body (300-3) according to any one of claims 1 to 3, wherein the vessel positioning portion (301) is the culture vessel (200-3). ) Is a culture vessel regulating body (300-3), characterized in that an insertion portion (305) for inserting a finger is formed in an adjacent portion.
The invention of claim 5 is the culture vessel restricting body (300-2) according to any one of claims 1 to 4, wherein the vessel positioning portion (301) is formed of the culture vessel (200-2). , And a space gap (304) for elastically deforming the protrusion (303) and the vicinity thereof is formed. -2).
The invention of claim 6 is the culture vessel regulating body (300) according to any one of claims 1 to 5, wherein the culture vessel regulating body (300) is a member that blocks light and / or A culture vessel regulation body (300) characterized by being formed of a member that prevents reflection of light.
A seventh aspect of the present invention provides the culture container regulating body (300-4) according to any one of the first to sixth aspects, wherein the moisture absorption absorbs liquid spilled from the culture container (200-4). It is a culture container regulation body (300-4) characterized by providing a sheet | seat (400).
The invention according to claim 8 is the culture vessel regulation body (300-4) according to claim 7, wherein the hygroscopic sheet (400) is at least partially formed of the outer shape of the culture vessel (200-4) and Or it is the culture container regulation body (300-4) characterized by the shape corresponding to the internal shape of the said holder (100) being formed.
The invention of claim 9 is the culture vessel regulating body (300-4) according to claim 7 or claim 8, wherein the moisture absorbing sheet (400) is extended to the culture vessel (200-4) side. A portion (402) is formed, and the extension portion (402) is sandwiched between the culture vessel (200-4) and the culture vessel regulating body (300-4), and the culture vessel (200- It is a culture vessel regulation body (300-4) characterized by positioning 4).
Invention of Claim 10 is a holder (100) in which the holder side positioning part (101) which positions the culture container control body (300) of any one of Claim 1 to Claim 9 was formed. .
The invention according to claim 11 is the holder (100) according to claim 10, wherein the holder side positioning portion (101) is provided on the culture vessel regulating body (300) and / or the moisture absorbing sheet (400). The holder (100) is characterized in that the protrusion (101) is fitted to the hole (302, 401).
The invention of claim 12 is the holder (100-5) of claim 11, wherein the protrusion (101) is provided on a plurality of sides (A, B), The holder (100-5) is characterized in that the form of the protrusion (101) provided is different from the form of the protrusion (101) provided on the other side (B).
According to a thirteenth aspect of the present invention, in the holder (600, 900) according to the tenth aspect, the holder (600, 900) attaches the culture vessel regulating body (500, 800) to the bottom surface of the holder (600, 900). The holder (600, 900) is characterized by having a support portion (600a, 900a, 900b) for supporting at a predetermined height.
The invention of claim 14 is a culture vessel regulating body (300) according to any one of claims 1 to 9, and a holder (10) according to any one of claims 10 to 13. 100, 16).
Note that the configuration described with reference numerals may be improved as appropriate, or at least a part thereof may be replaced with another component.

  According to the present invention, various types of culture vessels can be positioned without cost.

Hereinafter, the present invention will be described in more detail with reference to the drawings and the like.
[First Embodiment]
FIG. 1 is a diagram illustrating a cell culture device according to the first embodiment. 1A is an external view of the cell culture device, and FIG. 1B is a diagram showing details in the thermostatic chamber and connection of the control unit.
As shown in FIG. 1, the cell culture device 10 includes a thermostatic chamber 11, an opening / closing door 12, a carry-in / out unit 13, an information storage unit 20, an information display unit 30, an operation input unit 40, and a control unit 50. This is an apparatus that is provided with a storage unit 60, an observation unit 70, and a conveyance unit 80, and that can culture a plurality of cells and automatically observe the progress thereof.
The thermostatic chamber 11 is a chamber kept constant in an atmosphere having a temperature of 37 ° C., a humidity of 97%, and a CO ₂ concentration of 5%.
The open / close door 12 is a door provided on the entire front surface of the thermostatic chamber 11, and is opened and closed when maintenance of the storage unit 60, the observation unit 70, and the transfer unit 80 disposed in the thermostatic chamber 11 is performed. . In addition, a loading / unloading unit 13, an information display unit 30, and an operation input unit 40 are disposed on the open / close door 12 to improve the operability for the user.

The carry-in / out unit 13 is a carry-in / out port for carrying cells into and out of the thermostatic chamber 11. When there is no cell loading / unloading, it is closed by the loading / unloading door 14 in order to maintain the atmosphere in the thermostat 11.
The carry-in / out door 14 is a door having a lock mechanism that restricts opening and closing inside the thermostatic chamber 11.
The cell culture container 15 is a container for culturing cells, and is, for example, a dish, a well plate, a flask, or the like.
The holder 16 is a holding member for properly arranging the cell culture container 15 in each part of the storage unit 60, the observation unit 70, and the transport unit 80 in the cell culture apparatus 10.

The information storage unit 20 is a memory that stores information such as cell information and cell observation results observed by the observation unit 70. The cell information is mainly cell-specific information such as cell type, medium composition information, initial cell number, medium exchange frequency and passage period, and the type of cell culture vessel 15 associated therewith, It also includes cell manager information for managing the cells, cell culture experiment information (experiment name), cell culture history information, and the like.
The information display unit 30 is a display that displays information stored in the information storage unit 20, information related to operation of the cell culture device 10, and the like. In order to improve the visibility for the user, FIG. As shown, the information display unit 30 can be tilted by the tilt mechanism 32 (arrow A).

The display form changing unit 31 is a display control unit that simply expresses the time lapse of individual cell information by color change.
The operation input unit 40 is an input for inputting cell information, determining the operation content of the cell culture device 10 according to the content displayed on the information display unit 30, and inputting an operation instruction to the control unit 50. It is a device and is composed of a plurality of buttons.
The control unit 50 is a control circuit that controls the atmosphere in the thermostat 11 to a constant environment, and controls the observation unit 70 and the transport unit 80 in the thermostat 11 in an integrated manner according to the operation content of the operation input unit 40. is there.

  The user specifying unit 51 is a confirmation circuit that is provided in the control unit 50 and determines whether or not the cell culture device 10 can log in by allowing the user to input a user ID. The cell culture device 10 is managed so that it cannot be operated unless a password set in advance by the user is properly input, and an arbitrary operation by a third party is prevented. In addition, the user ID is associated with the cell administrator information of the stored cell, and when multiple users are registered, so as not to accidentally operate the cells of other registered users, The cell manager information managing the cells in the information storage unit 20 is restricted so that the operation can be performed only on the cells whose user ID matches.

The storage section 60 is an area where the inside is divided into a plurality of storage sections 61, and the cell culture container 15 containing cells is stored in each storage section 61 via the holder 16 and cultured. In the present embodiment, a total of 27 storage compartments 61 are provided in nine rows in the vertical direction and three rows in the horizontal direction.
The observation unit 70 includes a microscope 71 having an LED light source, a lens, and a camera, and an XY stage 72 that freely moves in a horizontal plane. The cell culture container 15 is disposed on the XY stage 72 together with the holder 16, and the XY stage. 72 is an observation mechanism that moves 72 to a predetermined position and observes (photographs) the cells in the cell culture container 15 with the microscope 71.

  The transfer unit 80 includes a transfer arm 81, a moving member 82, a screw shaft 83, an arm motor 84, and a moving motor 85. 16 is a conveyance mechanism that conveys the material together. In the transport unit 80, a moving member 82 screwed to a screw shaft 83 having a spiral groove on its surface is driven by a moving motor 85 to move in the vertical direction (arrow B) and is supported by the moving member 82. The transfer arm 81 moves in the horizontal direction by the arm motor 84 (arrow C), and delivers the cell culture container 15 to the carry-in / out unit 13, the storage unit 60, or the observation unit 70. Further, the screw shaft 83 is provided with a mechanism (not shown) that moves in a direction (horizontal direction) perpendicular to the paper surface of FIG.

FIGS. 2A and 2B are diagrams illustrating the holder 100 and the culture vessel regulating plate 300 according to the first embodiment. FIG. 2A is a plan view, and FIG. 2B is a perspective view from the side. is there. Note that the holder 100 and the cell culture container 200 correspond to the holder 16 and the cell culture container 15 of FIG.
The holder 100 is used to place the cell culture vessel 200, and a pin 101 for positioning the culture vessel restriction plate 300 is formed. The pin 101 is fitted into a small hole 302 provided in the culture vessel restriction plate 300. . In the present embodiment, the cell culture container 200 is a dish-shaped container called a dish.

The culture vessel regulating plate 300 has a container hole 301 and a small hole 302 formed therein.
Five container holes 301 are formed, and are holes for directly positioning the relative positional relationship of the cell culture container 200 with respect to the holder 100. It has become.
The small hole 302 is a hole for positioning the culture vessel regulating plate 300 in the holder 100 and is fitted to the pin 101 provided in the holder 100.

  The culture vessel regulation plate 300 is made of a dark resin material that blocks light or prevents light reflection, and is symmetrical with respect to the center point A of the culture vessel regulation plate 300. Is formed.

  When placing the cell culture container 200 on the holder 100, first, the pin 101 and the small hole 302 are fitted, the culture container regulating plate 300 is attached to the holder 100, and then the cell is placed in the container hole 301. The culture vessel 200 is inserted.

Thus, according to the first embodiment, there are the following effects.
(1) Since the cell culture container 200 is positioned using the culture container restriction plate 300, it is not necessary to change the shape of the holder 100 even if the shape of the cell culture container 200 changes, and the culture container restriction plate 300 is replaced. Therefore, various types of cell culture containers 200 can be positioned without cost.
(2) The culture vessel regulating plate 300 can be easily attached and detached by the pins 101 and the small holes 302.
(3) Since the container hole 301 is a hole having a shape matching the outer shape of the cell culture container 200, the cell culture container 200 can be accurately positioned.

(4) Since the culture vessel regulation plate 300 is formed of a member that blocks light or a member that prevents reflection of light, it can cut the scattered light around.
(5) Since the culture vessel regulation plate 300 is formed of a resin material, mass production is easy and the culture vessel regulation plate 300 itself can be reduced in weight.
(6) Since the culture vessel regulation plate 300 has a point-symmetric shape with respect to the center point A, the culture vessel regulation plate 300 can be used as it is even if it is turned over, and is excellent in handleability.
[Second Embodiment]

FIG. 3 is a diagram illustrating the holder 100 and the culture vessel restriction plate 300-2 according to the second embodiment. In addition, the part which fulfill | performs the same function as 1st Embodiment mentioned above attaches | subjects the same code | symbol or the code | symbol unified at the end, and abbreviate | omits the overlapping description and drawing suitably.
The culture container regulating plate 300-2 of the second embodiment handles two cell culture containers 200-2. In the figure, the cell culture vessel 200-2 is not placed on the holder 100.
Three convex portions 303 are formed in the container hole 301 so as to contact the cell culture container 200-2. In addition, a space gap 304 for elastically deforming the convex portion 303 and its vicinity is formed outside the convex portion 303 with which the cell culture vessel 200-2 contacts in the culture vessel regulating plate 300-2. .

Thus, according to the second embodiment, when the cell culture container 200-2 is inserted into the container hole 301, the convex part 303 is pushed in the direction of the space gap 304 by the inserted cell culture container 200-2, and the convex part The cell culture container 200-2 can be reliably fixed by elastically deforming 303 and its vicinity.
[Third Embodiment]

FIG. 4 is a diagram illustrating the holder 100 and the culture vessel restriction plate 300-3 according to the third embodiment.
The culture vessel regulating plate 300-3 of the third embodiment handles a cell culture vessel 200-3 that is larger than those of the first and second embodiments.
The culture vessel regulating plate 300-3 is composed of two pieces 300-3A and 300-3B, and the cell culture vessel 200-3 is sandwiched from both sides.
In addition, the container hole 301 is formed with an insertion portion 305 for inserting a finger in a portion adjacent to the cell culture container 200-3.

As described above, according to the third embodiment, since the cell culture container 200-3 can be sandwiched between the two culture container regulation plates 300-3A and 300-3B, it approaches the outer frame of the holder 100. Even a large cell culture vessel 200-3 can be accurately positioned.
Moreover, since the insertion part 305 for inserting a finger is formed, the cell culture container 200-3 can be easily placed and taken out.
[Fourth Embodiment]

FIG. 5 is a view for explaining the holder 100 and the culture vessel regulating plate 300-4 according to the fourth embodiment. In FIG. 5A, the cell culture vessel 200-4 is placed on the holder 100. In FIG. 5B, the cell culture container 200-4 is placed on the holder 100.
4th Embodiment arrange | positions the moisture absorption sheet 400 above the culture container control board 300-4 of the shape similar to 3rd Embodiment.
The moisture absorbing sheet 400 is a white sheet that is fixed to the culture vessel regulating plate 300-4 with a double-sided tape or the like and absorbs the culture solution spilled from the cell culture vessel 200-4. is there.
Further, the moisture absorbent sheet 400 is formed with a small hole 401, an extension portion 402, a slit 403, and an insertion portion cut 404.

The small hole 401 is a hole for positioning the moisture absorbing sheet 400 in the holder 100, and fits with the pin 101 provided in the holder 100.
The extension 402 is a portion extended to the cell culture container 200-4 side. When the cell culture container 200-4 is inserted into the container hole 301, the inner wall of the culture container regulation plate 300-4 and the cell culture container 200- 4 is pulled into the inside of the container hole 301 while contacting the outer wall of 4 and sandwiched between the cell culture container 200-4 and the culture container regulating plate 300-4 to position the cell culture container 200-4. . Therefore, the culture vessel regulating plate 300-4 positions the cell culture vessel 200-4 indirectly via the extension 402.
The slit 403 is a notch provided in the vicinity of the extension 402 of the moisture absorbent sheet 400 and in a direction perpendicular to the contact surface between the cell culture container 200-4 and the moisture absorbent sheet 400.
The insertion portion cut 404 is a cut for preventing the moisture absorbent sheet 400 from overlapping the insertion portion 305 of the culture vessel regulating plate 300-4.
Moreover, the moisture absorption sheet 400 has a shape that matches the outer shape of the cell culture container 200-4 at the portion that contacts the cell culture container 200-4, and the portion that contacts the holder 100 is the inner shape of the holder 100. The shape matches the shape.

Thus, according to 4th Embodiment, since the moisture absorption sheet 400 is arrange | positioned, when conveying the holder 100 or mounting the cell culture container 200-4 on the holder 100, a culture solution It is possible to cope with the case where the liquid leaks, and to prevent contamination of other cells (mixing various things).
In addition, the extension 402 of the moisture absorbent sheet 400 is sandwiched between the cell culture container 200-4 and the culture container regulating plate 300-4 to position the cell culture container 200-4. In this case, even if there is a slight difference in the size of the cell culture container 200-4 due to differences in manufacturers, the cell culture container 200- can be accommodated in the container hole 301 while absorbing the difference. 4 can be inserted.
Furthermore, since the slit 403 is formed in the vicinity of the extension portion 402 of the moisture absorbent sheet 400, when the cell culture container 200-4 is inserted into the container hole 301, the force applied to the moisture absorbent sheet 400 is dispersed and the cell culture is performed. The container 200-4 can be inserted smoothly.
On the other hand, the moisture-absorbing sheet 400 is a white sheet, and since the culture solution is usually a colored liquid, it can be confirmed by color change that the culture solution has been spilled.
[Fifth Embodiment]

FIG. 6 is a diagram for explaining a holder 100-5 and a culture vessel restriction plate 300-5 according to the fifth embodiment.
The culture vessel regulation plate 300-5 of the fifth embodiment handles a bottle-shaped cell culture vessel 200-5 called a flask.
The culture vessel regulation plate 300-5 is composed of two small pieces 300-5A and 300-5B having a substantially right triangle, and two small holes 302 that fit into the pins 101 are formed. The inclined part is pressed from both sides. The lower part of the cell culture vessel 200-5 is pressed by the wall surface of the holder 100-5.
Further, the pin 101 is provided on two sides (side A, side B), four pins 101 are provided on one side (side A), and on the other side (side B), Two pins 101 are provided.

Thus, according to the fifth embodiment, even the cell culture container 200-5 that occupies substantially the entire surface of the holder 100-5, such as the flask-shaped cell culture container 200-5, is positioned efficiently. can do.
Further, since the number of pins 101 provided on the side A is different from the number of pins 101 provided on the side B, the place where the culture vessel regulation plate 300-5 is attached is limited to the side A side, and the cell culture vessel The direction of the placement of 200-5 can be shown, and the placement direction of the cell culture container 200-5 is not mistaken.
[Sixth Embodiment]

FIG. 7 is a diagram for explaining the holder 100 and the culture vessel regulating plate 300-6 according to the sixth embodiment.
The culture vessel regulation plate 300-6 of the sixth embodiment handles a plate-shaped cell culture vessel 200-6 called a well plate.
The culture vessel regulation plate 300-6 is a horizontally long straight type, and contacts the side surface of the cell culture vessel 200-6 to position the cell culture vessel 200-6.
Thus, according to the sixth embodiment, even a plate-shaped cell culture container 200-6 called a well plate can be reliably positioned.
[Seventh Embodiment]

FIG. 8 is a diagram showing the seventh embodiment, and shows a cross-sectional view of the holder 600 in which the culture vessel 200 is regulated by the culture vessel regulating plate 500.
The culture vessel regulation plate 500 in FIG. 8 is made of a flat rectangular plate material, and has a hole that is slightly wider than the outer dimensions of the culture vessel 200 in order to regulate the culture vessel 200.
The holder 600 has a rectangular shape including the culture vessel regulating plate 500, and the side wall extends in a crank shape from the bottom of the holder 600.
The crank-shaped horizontally extending inner walls 600a are formed on both sides of the holder 600, support both side ends of the culture vessel regulating plate 500, and have a predetermined height (for example, about 1 to 2 mm) from the bottom of the holder 600. A culture vessel regulating plate 500 is held.
Similarly, outer walls 600b extending in the horizontal direction in the form of a crank are formed on both sides of the holder 600, and are scooped up by the U-shaped transport arm 81 of the transport unit 80, and the holder 600 is transported.
The U-shaped transfer arm 81 of the transfer unit 80 is inserted between the outer wall 600 b of the holder 600 and the concave groove 72 a of the stage 72 on which the holder 600 is placed, and can lift the holder 600.
The reason why the concave groove 72a is provided is that the culture vessel regulating plate 500 is supported by the crank-shaped inner and outer walls of the holder 600 and is received by the transport arm 81 for transport. This is because it is necessary to secure a space for insertion into the 600 crank-shaped portion.
The other structure of the holder 600 is the same as that of the already described embodiment, and the description is omitted.
[Eighth Embodiment]

FIG. 9 is a view showing the eighth embodiment, and shows a cross-sectional view of the holder 900 in which the culture vessel 200 is regulated by the culture vessel regulating plate 800.
The culture vessel regulating plate 800 of FIG. 9 is made of a rectangular plate material similar to that of FIG. 8, and the different points are supported by the holder 900, so that point will be described in detail.
The culture vessel regulating plate 800 of FIG. 9 is supported by boss-like two-stage protruding pins 900 a and 900 b formed on the holder 900. The two-stage projecting pins are provided in the holder 900 with at least three parts having the same shape.
The culture vessel regulating plate 800 has a hole 800a that fits into the small-diameter pin 900a of the two-stage protruding pin, and is supported by the tip surface of the large-diameter pin 900b.
The shape of the holder 900 in FIG. 9 is basically the same as that of the holder 100 in FIG.
In this way, by supporting the culture vessel regulating plate 800 at a predetermined height from the bottom surface of the holder 900, the holder 900 is not damaged when the culture vessel regulating plate 800 is attached or detached. Even if the culture solution spills, the culture solution can be kept between the culture vessel regulating plate 800 and the holder 900.

(Modification)
Each embodiment can be modified as follows.
(1) Although the culture vessel restricting body has been described as an example of a plate-shaped culture vessel restricting plate, it may be a three-dimensional shape.
(2) The culture vessel regulating body may be a simple spacer. In this case, the spacer needs to have a shape that fills the gap between the cell culture container and the holder, but does not require pins or small holes. And this spacer is arrange | positioned in the clearance gap between a cell culture container and a holder. In this spacer, the part that comes into contact with the cell culture container serves as a container positioning part, and the part that comes into contact with the holder serves as a regulating body side positioning part.
(3) Although the culture vessel regulating plate has been described as an example of being formed of resin, it may be formed of metal.
(4) The hygroscopic sheet has been described as being integrated with the culture vessel regulating plate, but may be a separate body.
(5) In the case where the shape of the cell culture container is large, the example of dividing the culture container regulating plate into two parts has been described.
(6) In the fifth embodiment, the example in which the number of pins is varied to show the directionality of the cell culture container has been described, but the directionality may be shown by changing the pin arrangement position.
In addition, although embodiment mentioned above and a modification can also be used in combination suitably, detailed description is abbreviate | omitted. Further, the present invention is not limited to the embodiment described above.

It is a figure which shows the cell culture apparatus of 1st Embodiment. It is a figure explaining the holder 100 and the culture container control board 300 by 1st Embodiment. It is a figure explaining the holder 100 by 2nd Embodiment, and the culture container control board 300-2. It is a figure explaining the holder 100 by 3rd Embodiment, and the culture container control board 300-3. It is a figure explaining the holder 100 by 4th Embodiment, and the culture container control board 300-4. It is a figure explaining the holder 100-5 and the culture container control board 300-5 by 5th Embodiment. It is a figure explaining the holder 100 by 6th Embodiment, and the culture container control board 300-6. It is a figure which shows 7th Embodiment. It is a figure which shows 8th Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10: Cell culture apparatus, 11: Thermostatic bath, 15: Cell culture container, 20: Information storage part, 30: Information display part, 40: Operation input part, 60: Storage part, 100, 100-5: Holder, 101: Pin, 200 to 200-6: Cell culture container, 300 to 300-6: Culture container regulating plate, 301: Container hole, 302: Small hole, 303: Projection, 304: Spatial gap, 400: Hygroscopic sheet, 401 : Small hole, 402: Extension part, 403: Slit, 404: Cut for insertion part

Claims (14)

A container positioning unit for directly or indirectly positioning the relative positional relationship of the culture container with respect to a holder for placing the culture container;
A regulating body side positioning portion for positioning to the holder;
A culture vessel regulation body in which is formed. In the culture container regulation body according to claim 1,
The restrictor-side positioning portion is a hole that fits into a protrusion provided on the holder,
A culture container regulating body characterized by In the culture vessel regulation body according to claim 1 or claim 2,
The container positioning part is formed at least partially in a shape that matches the outer shape of the culture container,
A culture container regulating body characterized by In the culture vessel regulation body according to any one of claims 1 to 3,
The container positioning part is formed with an insertion part for inserting a finger in a part where the culture container is adjacent,
A culture container regulating body characterized by In the culture vessel regulation body according to any one of claims 1 to 4,
The container positioning part is formed with a convex part in contact with the culture container,
A space gap for elastically deforming the convex portion and its vicinity is formed,
A culture container regulating body characterized by In the culture vessel regulation body according to any one of claims 1 to 5,
The culture vessel regulating body is formed of a member that blocks light and / or a member that prevents reflection of light,
A culture container regulating body characterized by In the culture vessel regulation body according to any one of claims 1 to 6,
Comprising a moisture absorbent sheet that absorbs liquid spilled from the culture vessel;
A culture container regulating body characterized by In the culture container regulation body according to claim 7,
The hygroscopic sheet is formed at least partially in a shape that matches the outer shape of the culture vessel and / or the inner shape of the holder,
A culture container regulating body characterized by In the culture vessel regulation body according to claim 7 or claim 8,
The hygroscopic sheet is formed with an extension extending to the culture container side,
The extension is sandwiched between the culture vessel and the culture vessel restrictor to position the culture vessel;
A culture container regulating body characterized by   The holder in which the holder side positioning part which positions the culture container control body of any one of Claim 1- Claim 9 was formed. The holder according to claim 10,
The holder-side positioning portion is a protrusion that fits into the culture vessel regulator and / or a hole provided in the moisture absorbent sheet;
A holder characterized by. The holder according to claim 11,
The protrusion is provided on a plurality of sides, and the form of the protrusion provided on one side is different from the form of the protrusion provided on the other side,
A holder characterized by. The holder according to claim 10,
The holder includes a support portion that supports the culture vessel regulating body at a predetermined height from the bottom surface of the holder;
A holder characterized by. The culture container regulating body according to any one of claims 1 to 9,
A holder according to any one of claims 10 to 13,
A culture apparatus comprising:

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