JP2003107364A - Incubator for microscope observation - Google Patents

Incubator for microscope observation

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Publication number
JP2003107364A
JP2003107364A JP2001296051A JP2001296051A JP2003107364A JP 2003107364 A JP2003107364 A JP 2003107364A JP 2001296051 A JP2001296051 A JP 2001296051A JP 2001296051 A JP2001296051 A JP 2001296051A JP 2003107364 A JP2003107364 A JP 2003107364A
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JP
Japan
Prior art keywords
incubator
reservoir
closed space
container
water
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP2001296051A
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Japanese (ja)
Other versions
JP4321841B2 (en
Inventor
Hideji Tsuchiya
秀治 土屋
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Tokai Hit Co Ltd
Original Assignee
Tokai Hit Co Ltd
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Filing date
Publication date
Application filed by Tokai Hit Co Ltd filed Critical Tokai Hit Co Ltd
Priority to JP2001296051A priority Critical patent/JP4321841B2/en
Publication of JP2003107364A publication Critical patent/JP2003107364A/en
Application granted granted Critical
Publication of JP4321841B2 publication Critical patent/JP4321841B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12MAPPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
    • C12M23/00Constructional details, e.g. recesses, hinges
    • C12M23/38Caps; Covers; Plugs; Pouring means
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12MAPPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
    • C12M23/00Constructional details, e.g. recesses, hinges
    • C12M23/54Constructional details, e.g. recesses, hinges hand portable
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12MAPPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
    • C12M41/00Means for regulation, monitoring, measurement or control, e.g. flow regulation
    • C12M41/12Means for regulation, monitoring, measurement or control, e.g. flow regulation of temperature
    • C12M41/14Incubators; Climatic chambers
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12MAPPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
    • C12M41/00Means for regulation, monitoring, measurement or control, e.g. flow regulation
    • C12M41/30Means for regulation, monitoring, measurement or control, e.g. flow regulation of concentration
    • C12M41/36Means for regulation, monitoring, measurement or control, e.g. flow regulation of concentration of biomass, e.g. colony counters or by turbidity measurements

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  • Chemical & Material Sciences (AREA)
  • Health & Medical Sciences (AREA)
  • Wood Science & Technology (AREA)
  • Organic Chemistry (AREA)
  • Zoology (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Bioinformatics & Cheminformatics (AREA)
  • Microbiology (AREA)
  • General Engineering & Computer Science (AREA)
  • Genetics & Genomics (AREA)
  • Sustainable Development (AREA)
  • Biomedical Technology (AREA)
  • General Health & Medical Sciences (AREA)
  • Biochemistry (AREA)
  • Biotechnology (AREA)
  • Analytical Chemistry (AREA)
  • Clinical Laboratory Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Microscoopes, Condenser (AREA)
  • Apparatus Associated With Microorganisms And Enzymes (AREA)
  • Sampling And Sample Adjustment (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide an incubator for microscope observation with excellent user-friendliness. SOLUTION: Placing freely slidably a slide cover 5 having a transparent top plate 43 with a heat generating function on a base 3 having an enclosed space forming hole 11a an upper face of which is open demarcates an enclosed space 55, a plate type heater 13 having a translucent hole 14a in the middle blocks the bottom face of the enclosed space forming hole 11a, a cylindrical package mount 21 is fitted to the heater 13 to form a pool 23 therearound, a laterally long hand hole 43a opened/closed by a cover 53 is provided to the top plate 43, and a water supply means to the pool 23 and a CO2 gas supply means are provided. A Schale 61 with an observation sample is placed therein is mounted to the cylindrical package mount 21 via an adaptor 25. The slide cover 5 is moved to a position at which the hand hole 43a is deviated from the translucent hole 14a for observation, and the observation sample is processed by moving the slide cover 5 to a position at which the hand hole 43a faces the Schale.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【発明の属する技術分野】本発明は、顕微鏡観察用培養
器に係り、特に、顕微鏡のステージに乗せた状態で観察
試料を培養しながら観察することができる顕微鏡観察用
培養器に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a microscope observation incubator, and more particularly to a microscope observation incubator for observing an observation sample while culturing the sample on a stage of a microscope.

【0002】[0002]

【従来の技術】例えば、生命工学や生物工学といったバ
イオテクノロジー分野とか病理学分野において、細胞や
菌などの生体を培養しながら顕微鏡観察するには、通
常、目的の観察試料を温度や湿度もしくは所定のガス濃
度などの培養条件が管理された雰囲気下に置くことが必
要になる。このような条件での顕微鏡観察を行う場合、
従来は、顕微鏡から離れた別置きの培養器で観察試料を
培養しながら、それを随時取り出しては顕微鏡のステー
ジに乗せるといった方法が採られたり、培養条件を管理
できるほぼ密閉状の大きな容器で顕微鏡全体を囲って、
その顕微鏡のステージ上に観察試料を置いて観察すると
いった方法が取られていた。2. Description of the Related Art For example, in the field of biotechnology such as biotechnology or biotechnology, or in the field of pathology, microscopic observation while culturing living organisms such as cells and fungi usually involves subjecting a sample to be observed to temperature, humidity or a predetermined amount. It is necessary to place it in an atmosphere in which the culture conditions such as the gas concentration of are controlled. When performing microscope observation under such conditions,
In the past, while culturing an observation sample in a separate incubator apart from the microscope, you can take it out and place it on the stage of the microscope, or use a large container that can control culture conditions. Surround the entire microscope,
A method of placing an observation sample on the stage of the microscope and observing has been adopted.

【0003】ところが、前者の方法では、観察に手間が
掛かるだけで無く、観察試料を連続して観察したり撮影
することが不可能であると共に、その観察や撮影は培養
条件が管理されない状態で行われることになるため、正
確な観察が行えないという問題がある。また、後者の方
法では、装置が大掛かりになって場所を取り、コストも
高くつき、顕微鏡にダメージを与えることもある。しか
も、観察試料はその大きさの割に極めて大きな空間に置
かれるので、観察試料に対する培養条件の作用が不安定
になり易く、加温のための熱エネルギーやガスの消費量
にも無駄が多くなるという問題がある。However, in the former method, not only is it troublesome to observe, it is not possible to continuously observe or photograph an observation sample, but also the observation and photographing are performed under the condition that culture conditions are not controlled. Therefore, there is a problem that accurate observation cannot be performed. Further, in the latter method, the device becomes large in size and takes up space, resulting in high cost and damage to the microscope in some cases. Moreover, since the observation sample is placed in an extremely large space for its size, the action of the culture conditions on the observation sample tends to be unstable, and there is much waste of heat energy and gas consumption for heating. There is a problem of becoming.

【0004】そこで本発明者は、先に、顕微鏡のステー
ジに乗せた状態で観察試料を培養しながら観察すること
ができる顕微鏡用透明恒温培養器を提案した(特開平1
0−28546号公報に記載)。この培養器は、顕微鏡
のステージにちょうど載る程度の大きさを有し一側部の
ヒンジで上下開閉自在にした薄い箱形の容器を備えてお
り、この容器の底面部と天面部はいずれも透明発熱プレ
ートになっていて、容器内には加湿用の蒸発皿が置か
れ、容器内に二酸化炭酸ガスを供給するためのガス噴気
口などが設けられている。Therefore, the present inventor has previously proposed a transparent incubator for microscopes which allows observation while culturing an observation sample while being placed on the stage of the microscope (Japanese Patent Application Laid-Open No. 1-1999).
0-28546 gazette). This incubator is equipped with a thin box-shaped container that is just large enough to be placed on the stage of a microscope and can be opened and closed with a hinge on one side. Both the bottom and top of this container are It is a transparent heat generation plate, an evaporation dish for humidification is placed in the container, and a gas blowout port for supplying carbon dioxide gas is provided in the container.

【0005】このような構造の培養器によれば、容器内
は、蒸発皿から蒸発する蒸気で適度な湿度に保たれると
共に、透明発熱プレートの発熱によって加温され、ガス
噴気口からは二酸化炭酸ガスが供給されるので、この二
酸化炭酸ガスの供給量や透明発熱プレートの発熱量等を
制御することで所望の培養条件に調節される。そして、
容器の底面部と天面部は透明であるから、上下方向へ光
を通すことができる。従って、この容器を顕微鏡のステ
ージに乗せたまま、その中で細胞などを所望の培養条件
で培養しながら顕微鏡観察することができ、その観察
は、当然間断無く続けることができる。その上、容器の
大きさは顕微鏡のステージにちょうど載る程度の大きさ
であるから、加温に必要なエネルギーやガス供給量は必
要最小限の量で済む。According to the incubator having such a structure, the inside of the container is kept at an appropriate humidity by the vapor evaporating from the evaporating dish, and is heated by the heat generated by the transparent heat generating plate, so that the gas is emitted from the gas vents. Since carbon dioxide gas is supplied, desired culture conditions can be adjusted by controlling the supply amount of this carbon dioxide dioxide, the heat generation amount of the transparent heating plate, and the like. And
Since the bottom surface and top surface of the container are transparent, light can pass through in the vertical direction. Therefore, it is possible to perform microscopic observation while culturing cells or the like under desired culture conditions while placing this container on the stage of a microscope, and the observation can naturally be continued without interruption. In addition, since the size of the container is about the size of the stage of the microscope, the amount of energy and gas required for heating can be minimized.

【0006】[0006]

【発明が解決しようとする課題】しかしながら、この培
養器には未だ幾つかの問題が残されている。先ず、観察
途中で観察試料に何らかの処置を行う際は容器を開かざ
るを得ない。この場合、容器内に置く容器としては通常
深皿状のシャーレが用いられるため、そのシャーレの中
に器具を差し入れるには、容器をほぼ完全に開放しなけ
ればならない。この開放によって、湿度や温度、ガス濃
度等の培養条件が完全に崩されてしまって、その後培養
条件が元に戻るまでは、観察を中断しなければならな
い。However, this incubator still has some problems. First, when performing some kind of treatment on an observation sample during observation, the container must be opened. In this case, since a deep dish-shaped petri dish is usually used as the container to be placed in the container, the container must be opened almost completely in order to insert the instrument into the dish. Due to this opening, the culture conditions such as humidity, temperature, and gas concentration are completely destroyed, and then the observation must be suspended until the culture conditions are restored.

【0007】また、容器内にはシャーレ等の試料容器が
収納されるので、加湿手段である蒸発皿として大きな容
量のものを用いることは不可能であり、その貯水量には
自ずと限度がある。このため、加湿下での観察を行う場
合は、蒸発皿の貯水量以上での連続観察が不可能にな
り、これに水を加える際も、容器を完全に開放してしま
うため、培養条件が崩れてしまう。更に、ガスの供給に
よって容器内の雰囲気温度や湿度が変動しないようにす
るには、ガスを加温及び加湿された状態で容器内に供給
することが必要になるのであるが、そのためには、培養
器の外でガスの供給系をヒーターや加湿器に通すといっ
た面倒な手当てが別途必要になる。Further, since a sample container such as a petri dish is stored in the container, it is impossible to use a large-capacity evaporating dish as a humidifying means, and the stored water amount is naturally limited. For this reason, when performing observation under humidified conditions, continuous observation above the amount of water stored in the evaporating dish becomes impossible, and even when water is added to this, the container is completely opened, so the culture conditions are It will collapse. Furthermore, in order to prevent the atmospheric temperature and humidity in the container from changing due to the supply of gas, it is necessary to supply the gas into the container in a heated and humidified state. A troublesome treatment such as passing the gas supply system through a heater or a humidifier outside the incubator is required separately.

【0008】しかも、容器内に置くシャーレなどの位置
を固定する手段が無かったので、例えば無人撮影してい
る間に何らかの原因でこれが動いてしまうと、観察記録
が取れなくなってしまう。Moreover, since there is no means for fixing the position of a petri dish or the like to be placed in the container, if it moves for some reason during unmanned photographing, the observation record cannot be obtained.

【0009】本発明は上記した従来の問題点に鑑みて為
されたものであり、顕微鏡のステージに乗せた状態のま
ま観察試料の培養と観察を行うことができると共に、設
定された培養条件による雰囲気を殆ど崩さないで観察試
料に対する処置を容易に行うことができる新規な顕微鏡
観察用培養器を提供することを目的とする。また本発明
は、上記目的のほかに、場所を取らないで加湿手段を長
時間機能させたり、この加湿手段を上手く利用してガス
を加温や加湿することができ、或いは、シャーレ等の試
料容器の位置を安定に保持することができる等、使い勝
手に優れた新規な顕微鏡観察用培養器を提供することを
目的とする。The present invention has been made in view of the above-mentioned conventional problems, and it is possible to culture and observe an observation sample while being placed on the stage of a microscope, and to set the culture conditions according to the set culture conditions. It is an object of the present invention to provide a novel incubator for microscopic observation that can easily treat an observation sample without disturbing the atmosphere. Further, in addition to the above-mentioned object, the present invention allows the humidifying means to function for a long time without taking up a space, and can make good use of this humidifying means to heat or humidify a gas, or a sample such as a petri dish. An object of the present invention is to provide a novel incubator for microscopic observation, which is excellent in usability such that the position of the container can be stably held.

【0010】[0010]

【課題を解決するための手段】この目的を達成するため
に、請求項1に記載した顕微鏡観察用培養器は、上下方
向へ光を通す透光部を有し顕微鏡のステージに載置され
るベース部と、天面部の少なくとも一部が透明であり上
記ベース部の上にスライド自在に載置されて該ベース部
と協働して閉鎖空間を画成すると共にこの閉鎖空間に対
する作業を外から行うための作業口が上記天面部に設け
られたスライドカバーと、上記作業口を開閉するための
蓋と、上記閉鎖空間内に所定のガスを供給するためのガ
ス噴気部と、前記閉鎖空間を加温するための加温手段と
を備えたことを特徴とするものである。In order to achieve this object, the incubator for microscopic observation according to claim 1 has a light-transmitting portion that allows light to pass through in the vertical direction and is mounted on the stage of the microscope. The base portion and at least a part of the top surface portion are transparent and are slidably mounted on the base portion to cooperate with the base portion to define a closed space, and work on the closed space is performed from the outside. A work cover for performing the work is provided on the slide cover, a lid for opening and closing the work opening, a gas blower for supplying a predetermined gas into the closed space, and the closed space. It is characterized in that it is provided with a heating means for heating.

【0011】この顕微鏡観察用培養器にあっては、観察
試料を入れたガラスシャーレなど透明な試料容器をベー
ス部の透光部の上に置いてスライドカバーをベース部に
載置すると、当該試料容器が閉鎖空間に位置するので、
加温手段による加温温度やガス供給手段からのガス供給
量等を調節することで当該観察試料を所望の培養条件で
培養することができる。そして、ベース部をその透光部
が顕微鏡の対物レンズの光軸上に位置するようにステー
ジに乗せておけば、当該顕微鏡の照明光はスライドカバ
ーの透明な天面部と当該試料容器とベース部の透光部を
透過して対物レンズに入射するので、培養中の観察試料
を顕微鏡観察することができる。In this incubator for microscope observation, when a transparent sample container such as a glass petri dish containing an observation sample is placed on the translucent part of the base part and the slide cover is placed on the base part, the sample Since the container is located in the closed space,
The observation sample can be cultured under desired culture conditions by adjusting the heating temperature by the heating means and the gas supply amount from the gas supply means. Then, by placing the base part on the stage so that the light transmitting part is located on the optical axis of the objective lens of the microscope, the illumination light of the microscope is transmitted by the transparent top surface part of the slide cover, the sample container and the base part. Since the light is transmitted through the light-transmitting part and enters the objective lens, the observation sample during culture can be observed under a microscope.

【0012】しかも、そのように培養されている観察試
料に何らかの処置を施すときは、作業口から蓋を外して
該作業口が試料容器の真上に来るようにスライドカバー
を移動させれば、その作業口を通して目的の処置を行う
ことができ、多くの場合、この処置は顕微鏡を覗きなが
ら行うことができる。この場合、閉鎖空間は作業口にお
いて外気に開放されることにはなるが、その開放の程度
は、スライドカバーをベース部から外して閉鎖空間を完
全に開放してしまう場合に比較すれば極く僅かであっ
て、閉鎖空間内の温度やガス濃度等の培養条件が崩れる
ことは殆ど無い。従って、設定した培養条件を殆ど崩さ
ないで必要な処置を行うことができると共に、必要な処
置を終えた後直ちに観察を続けることも可能になる。Moreover, when the observation sample thus cultured is subjected to some treatment, if the lid is removed from the working port and the slide cover is moved so that the working port is directly above the sample container, The desired treatment can be performed through the working port, and in many cases, the treatment can be performed under a microscope. In this case, the closed space is opened to the outside air at the work opening, but the degree of opening is extremely small compared to the case where the slide cover is removed from the base portion and the closed space is completely opened. Even if the culture conditions are small, the culture conditions such as the temperature and gas concentration in the closed space are hardly broken. Therefore, it is possible to carry out the necessary treatment while keeping the set culture conditions almost unchanged, and to continue the observation immediately after the necessary treatment is completed.

【0013】本発明のベース部とスライドカバーの具体
的な形態、特に、これら両部材によって試料容器などを
収納できる大きさの閉鎖空間を画成するための形態とし
ては幾つか考えられる。例えば、上面が開口した空間を
ベース部に設けておいてこれに平板状のスライドカバー
を乗せる形態とか、逆に、下面が開口した空間をスライ
ドカバーに設けておいてこれを平板状のベース部に乗せ
る形態とか、或いは、ベース部とスライドカバーの両方
に設けた空間で閉鎖空間を画成する形態などが考えられ
る。この場合、ベース部に設ける透光部は上下方向へ貫
通した孔、又は、下面が透明部材で閉鎖された穴にすれ
ば良い。スライドカバーの天面部はその全体を透明にし
ても良いし、一部だけ透明にして、その透明な部分がベ
ース部の透光部に対向する位置へとスライドカバーを移
動させた状態で観察するようにしても良い。Several concrete forms of the base portion and the slide cover of the present invention, in particular, several forms are conceivable for defining a closed space of a size capable of accommodating a sample container and the like by these members. For example, a space with an open upper surface is provided in the base portion and a flat plate-shaped slide cover is placed on the space, or conversely, a space with an open lower surface is provided in the slide cover and this is used as a flat plate-shaped base portion. It is conceivable that the closed space is defined by a space provided on both the base portion and the slide cover. In this case, the light-transmitting portion provided on the base portion may be a hole penetrating in the vertical direction or a hole whose lower surface is closed by a transparent member. The entire top surface of the slide cover may be transparent, or only a part of the top surface of the slide cover may be transparent, and the transparent portion may be observed while the slide cover is moved to a position facing the transparent portion of the base. You may do it.

【0014】また、本発明のスライドカバーのスライド
方向は直線方向に限らず、何らかの必要があれば弧を描
く方向としても良い。作業口の形態も特に限定されるも
のでは無いが、この作業口を、請求項2のように、スラ
イドカバーのスライド方向とほぼ直交する方向に長い形
で形成すると、作業口を通しての作業を非常にやり易い
ものにすることができる。即ち、この培養器をスライド
カバーのスライド方向が観察者から見て前後方向となる
向きでステージに乗せると、作業口は左右方向に長い形
になるので、処置に必要な器具を対物レンズやコンデン
スレンズを避けた方向から作業口に挿入することができ
るからである。Further, the sliding direction of the slide cover of the present invention is not limited to the linear direction, but may be an arc drawing direction if necessary. The form of the work port is not particularly limited, but if this work port is formed in a long shape in a direction substantially orthogonal to the slide direction of the slide cover as in claim 2, work through the work port is extremely easy. It can be easy to do. That is, when this incubator is placed on the stage with the slide direction of the slide cover being the front-back direction when viewed from the observer, the work opening becomes long in the left-right direction. This is because it can be inserted into the work opening from the direction away from the lens.

【0015】請求項3に記載した顕微鏡観察用培養器
は、請求項1又は2に記載した顕微鏡観察用培養器にお
いて、ベース部にはその透光部を避けた位置に貯水池を
設け、この貯水池に外部から水を供給するための給水手
段を付設し、この給水手段は、貯水池の水量の減少に伴
って自動的に給水が行われる構造のものであることを特
徴とするものである。The incubator for microscopic observation according to a third aspect is the incubator for microscopic observation according to the first or second aspect, in which a base is provided with a reservoir at a position avoiding the translucent part, and the reservoir is provided. A water supply means for supplying water from the outside is additionally provided, and this water supply means has a structure in which water is automatically supplied as the amount of water in the reservoir decreases.

【0016】本発明を実施するに当たって、閉鎖空間を
加湿するための加湿手段としては、適宜な蒸発皿を置く
だけの形態も考えられるが、この請求項3のように構成
すれば、培養器には小さな容量の貯水池を設けるだけで
済むし、水を補充するのにいちいちスライドカバーを外
す必要が無く、長時間連続して観察することができる。
特に、対物レンズが捉えた映像をビデオカメラなどで長
時間自動撮影する場合でも、水の補充のためにその顕微
鏡に人が付いている必要が無くなる。In carrying out the present invention, as a humidifying means for humidifying the closed space, it is conceivable that only an appropriate evaporating dish is placed, but if it is constructed as in claim 3, the incubator can be used. It requires only a small capacity reservoir, and you do not have to remove the slide cover to replenish water, so you can observe continuously for a long time.
In particular, even when an image captured by the objective lens is automatically photographed for a long time by a video camera or the like, it is not necessary to have a person attached to the microscope for replenishing water.

【0017】付設する給水手段としては、例えば、貯水
池に設けた液面センサーからの信号に従って給水を制御
する方式のものでも良いが、貯水池より高い位置に密閉
形の適宜な給水タンクを置いて該給水タンクから延ばし
た給水パイプの給水口を貯水池に挿入しておき、貯水池
の液面が給水口より下がる度に給水タンクから水が落ち
る方式のものを用いれば非常に安価で済む。The attached water supply means may be, for example, a system of controlling the water supply in accordance with a signal from a liquid level sensor provided in the reservoir, but a suitable sealed water supply tank is placed at a position higher than the reservoir. It is very inexpensive if the water supply port of the water supply pipe extended from the water supply tank is inserted in the reservoir and water is dropped from the water supply tank every time the liquid level of the reservoir drops below the water supply port.

【0018】本発明の実施に当たり、加湿手段として前
記貯水池を設ける場合は、請求項4のように、貯水池を
加温するためのヒーターを設ければ、貯水池の水が加温
されて積極的に蒸発することで湿度を安定的に保持でき
ると共に、ヒーターの発熱度を制御することで湿度管理
を行うこともでき、加温された蒸気で閉鎖空間の加温も
行なわせることができる。この場合のヒーターは、貯水
池の中に配置する構造のものでも良いが、貯水池の底壁
を兼ねるプレート形のものにすれば、構造を複雑にしな
いで済む。In the practice of the present invention, when the reservoir is provided as a humidifying means, if a heater for heating the reservoir is provided as in claim 4, the water in the reservoir is warmed and positively heated. Humidity can be stably maintained by evaporating, humidity can be controlled by controlling the heat generation degree of the heater, and the closed space can be heated by the heated steam. The heater in this case may have a structure arranged in the reservoir, but if the heater is a plate type that also serves as the bottom wall of the reservoir, the structure does not become complicated.

【0019】請求項5に記載した顕微鏡観察用培養器
は、請求項3又は4に記載した顕微鏡観察用培養器にお
いて、ガス噴気部の口を貯水池の中に位置させたことを
特徴とするものである。従って、供給されて来るガス
は、貯水池の水に混合された後閉鎖空間に放出されるの
で、そのガスは加湿された状態で閉鎖空間に供給される
ことになる。これによって、閉鎖空間の湿度がガスによ
って変動するのをほぼ確実に防止でき、しかも、ガスを
加湿するための特別な加湿手段は全く必要としない。The incubator for microscopic observation according to claim 5 is the incubator for microscopic observation according to claim 3 or 4, characterized in that the mouth of the gas fumes is located in the reservoir. Is. Therefore, the supplied gas is discharged to the closed space after being mixed with the water in the reservoir, so that the gas is supplied to the closed space in a humidified state. This almost certainly prevents the humidity of the enclosed space from fluctuating due to the gas, and does not require any special humidifying means for humidifying the gas.

【0020】請求項6に記載した顕微鏡観察用培養器
は、請求項4に記載した顕微鏡観察用培養器において、
ガス噴気部は貯水池の中を這わせた被加温部を備えたこ
とを特徴とするものである。従って、供給されて来るガ
スは、貯水池の加温された水で間接的に加温されて閉鎖
空間に放出されるので、閉鎖空間の温度がガスによって
変動するのをほぼ確実に防止でき、しかも、ガスを加温
するための特別な加温手段を全く必要としない。The incubator for microscopic observation according to claim 6 is the incubator for microscopic observation according to claim 4,
The gas fumes are characterized by having a heated part that crawls through the reservoir. Therefore, the supplied gas is indirectly heated by the heated water in the reservoir and discharged to the closed space, so that the temperature of the closed space can be almost certainly prevented from fluctuating due to the gas, and , No special heating means is needed to heat the gas.

【0021】請求項7に記載した顕微鏡観察用培養器
は、請求項3から6のいずれかに記載した顕微鏡観察用
培養器において、透光部の少なくとも上部はベース部の
ほぼ中央に位置する筒状に形成し、この透光部の周囲を
貯水池にしたことを特徴とするものである。このように
すると、ガラスシャーレなどの試料容器は必然的に閉鎖
空間の中央部に置かれることになり、貯水池はその試料
容器を囲うように位置するので、試料容器内の湿度をよ
り安定に保つことができる。The incubator for microscopic observation according to claim 7 is the incubator for microscopic observation according to any one of claims 3 to 6, in which at least the upper part of the light-transmitting part is located substantially at the center of the base part. It is characterized in that it is formed into a shape and the circumference of this translucent part is a reservoir. By doing this, the sample container such as a glass petri dish is inevitably placed in the central part of the closed space, and the reservoir is located so as to surround the sample container, so that the humidity inside the sample container is kept more stable. be able to.

【0022】請求項8に記載した顕微鏡観察用培養器
は、請求項1から6のいずれかに記載した顕微鏡観察用
培養器において、透光部の少なくとも上部を、試料容器
が着脱自在に嵌合される筒状の容器装着部にしたことを
特徴とするものである。The incubator for microscopic observation according to claim 8 is the incubator for microscopic observation according to any one of claims 1 to 6, wherein the sample container is detachably fitted to at least the upper part of the light transmitting part. It is characterized in that it is a cylindrical container mounting portion.

【0023】従って、シャーレなどの試料容器を透光部
上に確実に置くことができると共に、培養器の中で試料
容器の位置が固定するので、資料容器が不用意に動いて
しまうことも無くて、観察に失敗が生じ難い。また、少
なくとも使用時においては、容器装着部はシャーレ等の
試料容器によって必然的に塞がれるので、閉鎖空間が容
器装着部を通して下に開放したままの構造であっても差
し支えなく、ここを透明部材等であえて塞ぐ必要は無
い。従って、その分構造を簡素化できると共に、試料容
器の下に透明部材が存在しないことで、培養器を通る光
の透過率を高めることができる。この場合、容器装着部
の内周面に試料容器が密着するシール部材、例えばOリ
ングを嵌めておけば、閉鎖空間の気密性や水密性を高め
ることができる。Therefore, the sample container such as a petri dish can be reliably placed on the translucent portion, and the position of the sample container is fixed in the incubator, so that the sample container does not move carelessly. Therefore, it is difficult for observation to fail. In addition, since the container mounting part is inevitably closed by a sample container such as a petri dish at least during use, there is no problem even if the closed space remains open downward through the container mounting part. It is not necessary to close it with a member or the like. Therefore, the structure can be simplified correspondingly, and since the transparent member does not exist under the sample container, the transmittance of light passing through the incubator can be increased. In this case, if a sealing member, such as an O-ring, with which the sample container is closely attached is fitted to the inner peripheral surface of the container mounting portion, the airtightness and watertightness of the closed space can be improved.

【0024】この請求項8の発明を実施する場合、容器
装着部の下端部に内フランジ様の位置決め座を設けてお
けば、これに装着される試料容器の底の高さが一律に定
まるので、扱いが一層楽になる。In the case of carrying out the invention of claim 8, if an inner flange-like positioning seat is provided at the lower end of the container mounting part, the height of the bottom of the sample container mounted on this is fixed uniformly. , Easier to handle.

【0025】請求項9に記載した顕微鏡観察用培養器
は、請求項8に記載した顕微鏡観察用培養器において、
容器装着部に着脱自在に装着される容器アダプターを備
えたことを特徴とするものである。細胞などの培養には
一般に円形深皿状をしたガラスシャーレが用いられる
が、このシャーレにもサイズは幾つかあるため、外径を
容器装着部の内径に合う寸法に統一し内径をサイズ違い
の複数のシャーレの外径に各別に合わせたアダプターを
用意しておけば、所望のサイズのシャーレを選択的に使
用することができて、使い勝手が広がる。The incubator for microscopic observation according to claim 9 is the incubator for microscopic observation according to claim 8,
The present invention is characterized by including a container adapter that is detachably attached to the container attachment portion. A circular deep dish-shaped glass petri dish is generally used for culturing cells and the like, but since there are several sizes in this petri dish, the outer diameter should be the same as the inner diameter of the container mounting part and the inner diameter should be different. If you prepare adapters that match the outer diameters of multiple petri dishes, you can selectively use petri dishes of the desired size, and expand the usability.

【0026】このアダプターにも、内周面にOリングな
どのシール部材を取り付けておいて、シャーレがぴった
り嵌るようにしておけば、閉鎖空間の気密性を高めた
り、貯水池の水が外へこぼれるのを防止できる。このア
ダプターを容器装着部に着脱自在に装着する形態は、単
なる嵌め合いでも良いが、ネジによる螺合とか弾性係合
爪による係合といった着脱自在な固定形態を採れば、シ
ャーレなどを取り外す際、そのシャーレ等にアダプター
が付いて来て容器装着部から外れてしまうようなことを
確実に防止できる。If a sealing member such as an O-ring is attached to the inner peripheral surface of this adapter so that the petri dish is fitted tightly, the airtightness of the closed space can be enhanced and the water in the reservoir can be spilled to the outside. Can be prevented. The form in which this adapter is detachably attached to the container attachment part may be a simple fitting, but if a detachable fixing form such as screwing with screws or engagement with elastic engaging claws is adopted, when removing the petri dish, etc. It is possible to reliably prevent the petri dish or the like from coming with an adapter and coming off the container mounting portion.

【0027】請求項10に記載した顕微鏡観察用培養器
は、請求項3から9のいずれかに記載した顕微鏡観察用
培養器において、閉鎖空間内に突出した可撓性を有する
部材の先端に温度センサーを設けたことを特徴とするも
のである。従って、この温度センサーは、これが支持さ
れている可撓性を有する部材を適宜屈曲させることで、
閉鎖空間の雰囲気温度や、貯水池の水温、試料容器内の
培養液温度など、側温対象物を任意に選んで温度計測す
ることができる。温度センサーを支持する部材として
は、当該温度センサーに接続された被覆コード自体であ
っても良いし、それとは別の線材等を用いても良い。The incubator for microscopic observation according to claim 10 is the incubator for microscopic observation according to any one of claims 3 to 9, wherein the tip of the flexible member protruding into the closed space is heated. It is characterized by having a sensor. Therefore, in this temperature sensor, by flexibly bending the flexible member supporting the temperature sensor,
The temperature can be measured by arbitrarily selecting the side temperature target such as the ambient temperature of the closed space, the water temperature of the reservoir, and the temperature of the culture solution in the sample container. The member supporting the temperature sensor may be the covered cord itself connected to the temperature sensor, or may be a wire other than that.

【0028】[0028]

【発明の実施の形態】以下に、本発明の実施の形態に係
る顕微鏡観察用培養器1を図面に従って説明する。この
顕微鏡観察用培養器1は、顕微鏡のステージ63に乗せ
るベース部3と、このベース部3上にスライド自在に載
置されるスライドカバー5とで構成され、これに小型の
給水タンク32と、図示しないCO2ガスボンベやコン
トローラーなどが付属する。BEST MODE FOR CARRYING OUT THE INVENTION A microscope observing incubator 1 according to an embodiment of the present invention will be described below with reference to the drawings. The incubator 1 for microscope observation is composed of a base part 3 to be placed on a stage 63 of a microscope, and a slide cover 5 slidably mounted on the base part 3, and a small water tank 32, A CO 2 gas cylinder (not shown) and controller are included.

【0029】〔A.ベース部〕(図1、図2、図4〜図
6) ベース部3は、その基部を為すベースプレート11と、
プレート型のヒーター13と、シャーレなどの試料容器
を着脱自在に装着する容器装着部21と、容器アダプタ
ー25と、給水パイプ31と、ガス噴気管35と、温度
センサー37などから構成される。[A. Base portion] (FIGS. 1, 2, and 4 to 6) The base portion 3 includes a base plate 11 that serves as a base portion,
It is composed of a plate-type heater 13, a container mounting part 21 for removably mounting a sample container such as a petri dish, a container adapter 25, a water supply pipe 31, a gas blow tube 35, a temperature sensor 37 and the like.

【0030】〔A−1.ベースプレート〕(図1、図
2、図4〜図6) ベースプレート11は、前後方向(図1における左下方
へ向かう方向を前側とし、左上方へ向かう方向を左側と
する。)に多少長い長方形の比較的厚い板状をしてい
て、その中央部を厚み方向へ貫通した平面視円形の大き
な閉鎖空間形成孔11a(図2等参照)が形成されると
共に、その上面の左右両側端部には前後方向へ真っ直ぐ
延びる背の低いガイド壁11bが立ち上がっている。従
って、ベースプレート11の上面は左右のガイド壁11
bの間が幅の広い溝状になっていて、この溝状をした部
分にスライドカバー5が摺動自在に載置される。[A-1. Base Plate] (FIGS. 1, 2, and 4 to 6) The base plate 11 has a rectangular shape slightly longer in the front-back direction (the direction toward the lower left in FIG. 1 is the front side, and the direction toward the upper left is the left side). It has a relatively thick plate-like shape, and a large closed space forming hole 11a (see FIG. 2) having a circular shape in plan view which penetrates the central portion in the thickness direction is formed, and the left and right ends of the upper surface are formed. A short guide wall 11b extending straight in the front-rear direction stands up. Therefore, the upper surface of the base plate 11 has the left and right guide walls 11
A wide groove is formed between b, and the slide cover 5 is slidably mounted on the groove.

【0031】この溝状をした部分の四隅には、それぞ
れ、厚み方向へ貫通した大小2つの取付け孔11c、1
1dが形成されている。これら取付け孔11c、11d
はベース部3を顕微鏡のステージに固定するためのボル
トを通す孔であり、いずれも段付き孔になっていて、そ
れぞれ矩形の4頂点を為す配置形態で配置されている。
この取付け孔11c、11dの配置形態や口径は目的の
ステージに設けられているツール取付け孔の配置形態や
口径に合わせて設定される。At the four corners of this groove-shaped portion, two large and small mounting holes 11c, 1 which penetrate in the thickness direction, respectively, are provided.
1d is formed. These mounting holes 11c and 11d
Is a hole through which a bolt for fixing the base portion 3 to the stage of the microscope is inserted, and each of them is a stepped hole and is arranged in an arrangement form having four apexes of a rectangle.
The layout and diameter of the mounting holes 11c and 11d are set according to the layout and diameter of the tool mounting holes provided on the target stage.

【0032】ベースプレート11の底面には、閉鎖空間
形成孔11aの下開口を囲うように延びる丈の低い環状
凸部11e(図6参照)が形成されると共に、この環状
凸部11eの内周面沿いに延びる溝11fが形成されて
いる。また、ベースプレート11には、図2に示すよう
に、その左側面から閉鎖空間形成孔11aまで貫通した
前後2つのパイプ通し孔11g、11h及びセンサー取
付け孔11iと、その前側面から上記溝11fまで貫通
したコード通し孔11h(図2参照)が形成されてい
る。On the bottom surface of the base plate 11, there is formed an annular convex portion 11e (see FIG. 6) having a low length which extends so as to surround the lower opening of the closed space forming hole 11a, and the inner peripheral surface of the annular convex portion 11e. A groove 11f extending along the groove is formed. In addition, as shown in FIG. 2, the base plate 11 has two pipe through holes 11g and 11h and a sensor mounting hole 11i, which extend from the left side surface of the base plate 11 to the closed space forming hole 11a. A through-hole 11h (see FIG. 2) is formed.

【0033】〔A−2.ヒーター〕(図2、図6) ヒーター13は、アルニウム製の加熱プレート14及び
保護プレート15と、これらの間に位置した発熱シート
16とが互いに接着された積層構造をしており、これら
3つの部材はベースプレート11の底面に設けられてい
る前記環状凸部11eの内径より多少小さい外径を持っ
た円板形をしている。加熱プレート14と保護プレート
15には、酸化防止と表面硬化のためにアルマイトコー
ティングが為されている。[A-2. Heater] (FIGS. 2 and 6) The heater 13 has a laminated structure in which a heating plate 14 and a protection plate 15 made of aluminum are bonded to each other and a heat-generating sheet 16 positioned between them is laminated. The member has a disk shape having an outer diameter slightly smaller than the inner diameter of the annular convex portion 11e provided on the bottom surface of the base plate 11. The heating plate 14 and the protection plate 15 are anodized to prevent oxidation and harden the surface.

【0034】加熱プレート14には、閉鎖空間形成孔1
1aの内径の3分の1程度の大きさの円形をした透光孔
14aが形成され、保護プレート15には透光孔14a
より一回り大きい矩形の孔15aが形成されている。発
熱シート16は、例えば、電気的絶縁性を有する耐熱性
の良い材料に発熱体としての図示しない導線を這わせる
と共に、図示しない温度センサーを取り付けた構造のも
ので、これにも中央に円形の孔16aが形成されてい
る。The heating plate 14 has a closed space forming hole 1
A circular light transmitting hole 14a having a size about one third of the inner diameter of 1a is formed, and the protective plate 15 has a light transmitting hole 14a.
A rectangular hole 15a that is slightly larger than the rectangular hole is formed. The heat generating sheet 16 has, for example, a structure in which a conductor (not shown) as a heating element is made to hang on a material having good heat resistance having electrical insulation, and a temperature sensor (not shown) is attached to the heat generating sheet 16. The hole 16a is formed.

【0035】このような構造のヒーター13は、図6に
示すように、その透光孔14aが閉鎖空間形成孔11a
と同軸上に位置する状態で、その外周部がベースプレー
ト11の底面に接着される。これにより、閉鎖空間形成
孔11aの下開口は、透光孔14aを残してヒーター1
3で塞がれる。尚、発熱シート16に代えて、板ガラス
の表面に導電膜をコーティングした発熱ガラスを用いて
も良い。In the heater 13 having such a structure, as shown in FIG. 6, the light transmitting hole 14a has a closed space forming hole 11a.
The outer peripheral portion thereof is adhered to the bottom surface of the base plate 11 while being positioned coaxially with. As a result, the lower opening of the closed space forming hole 11a leaves the light transmitting hole 14a, and the heater 1
Blocked with 3. Instead of the heat generating sheet 16, heat generating glass in which a conductive film is coated on the surface of plate glass may be used.

【0036】ベースプレート11のコード通し孔11j
には図示しないコントローラから延びた接続コード18
の先端部が挿入され、この接続コード18の動力線は発
熱シート16に設けられている発熱体に、信号線は発熱
シート16に設けられている温度センサーに、それぞれ
接続される。ベースプレート11の底面に設けられてい
る前記溝11fはこの配線処理を行うためのもので、所
要の配線が終了したのち、絶縁性の接着剤等で埋められ
る。Cord through hole 11j of the base plate 11
Connecting cord 18 extending from a controller not shown
The power line of the connecting cord 18 is connected to the heating element provided on the heat generating sheet 16, and the signal line is connected to the temperature sensor provided on the heat generating sheet 16. The groove 11f provided on the bottom surface of the base plate 11 is for performing this wiring process, and is filled with an insulating adhesive or the like after the required wiring is completed.

【0037】〔A−3.容器装着部、貯水池、容器アダ
プター〕(図1、図2、図4〜図6) 容器装着部21は、軸方向長さが短い円筒形を為し、そ
の一端部に内フランジ様の位置決め座21aが一体に形
成されると共に、内周面にはネジ溝21bが形成されて
おり、位置決め座21aが下にある向きで、透光孔14
aと同軸になるように位置合わせしてヒーター13の上
面に接着されている。この位置決め座21aの内径は透
光孔14aよりある程度大きく、容器装着部21の高さ
は閉鎖空間形成孔11aの深さの半分程度になってい
る。しかして、この容器装着部21とヒーター13の透
光孔14aとで、ベース部3に上下方向へ光を通す透光
部が形成されると共に、閉鎖空間形成孔11aの下半分
は、容器装着部21の内側とその外側とに区画され、こ
の外側の部分は下面がヒーター13で塞がれた環状の凹
部を為す。この環状の凹部が加湿用の貯水池23を成
す。[A-3. Container mounting part, reservoir, container adapter] (FIGS. 1, 2, and 4 to 6) The container mounting part 21 has a cylindrical shape with a short axial length, and an inner flange-like positioning seat at one end thereof. 21a are integrally formed, and a thread groove 21b is formed on the inner peripheral surface of the light transmitting hole 14 so that the positioning seat 21a faces downward.
It is bonded to the upper surface of the heater 13 while being aligned so as to be coaxial with a. The inner diameter of the positioning seat 21a is somewhat larger than that of the light transmitting hole 14a, and the height of the container mounting portion 21 is about half the depth of the closed space forming hole 11a. Thus, the container mounting portion 21 and the light transmitting hole 14a of the heater 13 form a light transmitting portion that allows light to pass through in the vertical direction in the base portion 3, and the lower half of the closed space forming hole 11a is used for container mounting. The inside of the portion 21 is divided into the inside and the outside thereof, and the outside portion forms an annular recess whose lower surface is closed by the heater 13. This annular recess forms a reservoir 23 for humidification.

【0038】容器アダプター25は、軸方向長さが短い
円筒形をしており、その外周面には容器装着部21のネ
ジ溝21bに螺合するネジ山25aが形成され、内周面
の軸方向中間部に形成された溝にOリング26が取り付
けられている。この容器アダプター25は、図6に示す
ように、容器装着部21の内側にネジ入れることで、該
容器装着部21に着脱自在に取り付けられる。図面で
は、この容器アダプター25を1つだけ示してあるが、
実際には、市販されているシャーレ61のサイズに応じ
て内径サイズが異なる複数個用意され、使用するシャー
レのサイズに応じたものを選んで容器装着部21に取り
付けるようになっている。The container adapter 25 has a cylindrical shape with a short axial length, and has a screw thread 25a formed on its outer peripheral surface to be screwed into the thread groove 21b of the container mounting portion 21. The O-ring 26 is attached to the groove formed in the middle portion in the direction. As shown in FIG. 6, the container adapter 25 is removably attached to the container mounting portion 21 by screwing into the container mounting portion 21. Although only one container adapter 25 is shown in the drawing,
Actually, a plurality of commercially available petri dishes 61 having different inner diameters are prepared, and one suitable for the petri dish size to be used is selected and attached to the container mounting portion 21.

【0039】シャーレ61は、容器アダプター25に図
6に示すように装着される。即ち、シャーレ61は、そ
の開口面を上にして、外周壁をOリング26に多少きつ
目に嵌めながらヒーター13に軽く乗るように装着す
る。このようにしてシャーレ61が装着されると、透光
孔14aの直ぐ上にシャーレ61の底壁が位置すると共
に、容器装着部21の内側空間の下面が当該シャーレ6
1によって塞がれるので、閉鎖空間形成孔11aの下面
の全体が塞がれることになる。The petri dish 61 is attached to the container adapter 25 as shown in FIG. That is, the petri dish 61 is mounted so that the opening surface of the petri dish 61 faces upward and the outer peripheral wall of the petri dish 61 is slightly fitted on the O-ring 26 while slightly riding on the heater 13. When the petri dish 61 is mounted in this manner, the bottom wall of the petri dish 61 is located immediately above the light transmitting hole 14a, and the lower surface of the inner space of the container mounting portion 21 is the petri dish 6.
Since it is closed by 1, the entire lower surface of the closed space forming hole 11a is closed.

【0040】〔A−4.給水パイプ、ガス噴気管、温度
センサー〕(図1、図2、図4〜図6) ベースプレート11に形成されているパイプ通し孔11
g、11hの一方11gには給水パイプ31が通され、
別のパイプ通し孔11hにはガス噴気管35が通され
る。また、センサー取付け孔11iには温度センサー3
7を備えたセンサーホルダー38が取り付けられる。[A-4. Water supply pipe, gas blow pipe, temperature sensor] (FIGS. 1, 2, and 4 to 6) Pipe through hole 11 formed in the base plate 11
The water supply pipe 31 is passed through one of 11g of g and 11h,
The gas fumes 35 are passed through another pipe through hole 11h. Further, the temperature sensor 3 is provided in the sensor mounting hole 11i.
A sensor holder 38 with 7 is attached.

【0041】給水パイプ31は、給水タンク32と協働
して貯水池23に水を供給したり、その貯水量を一定に
保持するための補給を行うものであって、その一端部3
1aは、閉鎖空間形成孔11a内に突出して下向きに屈
曲しており、この屈曲した部分の口が、容器装着部21
の上端より稍低い高さで貯水池23に臨むように設けら
れる。この給水パイプ31の他端部には、給水タンク3
2の底部にある排水口から延びた給水チューブ33が連
結される。給水タンク32は、排水口以外密閉される構
造になっている。The water supply pipe 31 cooperates with the water supply tank 32 to supply water to the reservoir 23 or to replenish it so as to keep the amount of stored water constant.
1a projects into the closed space forming hole 11a and is bent downward, and the mouth of this bent portion is the container mounting portion 21.
It is installed so as to face the reservoir 23 at a height slightly lower than the upper end of the. At the other end of the water supply pipe 31, the water supply tank 3
A water supply tube 33 extending from a drainage port at the bottom of 2 is connected. The water supply tank 32 has a structure that is hermetically sealed except for the drainage port.

【0042】ガス噴気管35は、閉鎖空間55へCO2
ガスを供給するためのものであり、その一端には図示し
ないCO2ガスボンベから延びたチューブが接続され
る。また、このガス噴気管35のうち、パイプ通し孔1
1hから閉鎖空間形成孔11a内へ出た部分は、容器装
着部21の周りをほぼ一周する円環形に屈曲した被加温
部35aになっていて、貯水池23の底面を這うように
延びている。従って、この円環形に屈曲した被加温部3
5aは、貯水池23に蓄えられた水の中を通される。The gas blow pipe 35 is fed into the closed space 55 with CO 2 gas.
It is for supplying gas, and a tube extending from a CO 2 gas cylinder (not shown) is connected to one end thereof. In addition, of the gas fumes 35, the pipe passage hole 1
A portion extending from 1h into the closed space forming hole 11a is a heated portion 35a that is bent in an annular shape and makes a round around the container mounting portion 21 and extends so as to crawl on the bottom surface of the reservoir 23. . Therefore, the heated portion 3 bent in the annular shape
The water 5a is passed through the water stored in the reservoir 23.

【0043】センサーホルダー38には図示しないコン
トローラーから延びた被覆コード39が通されており、
この被覆コード39は、貯水池23の半径余りの長さが
センサーホルダー38から閉鎖空間形成孔11a内に引
き出されていて、この引き出された部分の先端に温度セ
ンサー37が取り付けられている。この温度センサー3
7は、通常は、図6に示すように貯水池23の上方に置
いて使用されるが、必要に応じて、被覆コード39を曲
げて別の位置へ移す。A cover cord 39 extending from a controller (not shown) is passed through the sensor holder 38,
The coating cord 39 is drawn out from the sensor holder 38 into the closed space forming hole 11a by the length of the radius of the reservoir 23, and the temperature sensor 37 is attached to the tip of the drawn-out portion. This temperature sensor 3
7 is usually used by being placed above the reservoir 23 as shown in FIG. 6, but if necessary, the covering cord 39 is bent and moved to another position.

【0044】〔B.スライドカバー〕(図1、図3〜図
6) 〔B−1.構造〕スライドカバー5は、カバー本体41
と、このカバー本体41に取り付けられたトッププレー
ト43と、このトッププレート43の作業口を開閉する
ための蓋53等から構成され、カバー本体41とトップ
プレート43とで、下面が開口した薄い箱形を為す。[B. Slide cover] (FIGS. 1 and 3 to 6) [B-1. Structure] The slide cover 5 is a cover body 41.
And a top plate 43 attached to the cover body 41, a lid 53 for opening and closing a work opening of the top plate 43, and the like, and the cover body 41 and the top plate 43 form a thin box whose bottom surface is open. Make a shape.

【0045】カバー本体41は、大きな窓41eを有す
る平面視ほぼ正方形の枠形を為す天板41aと、その下
面の外周部に沿って延びる丈の低い周壁41bとが合成
樹脂で一体に形成されており、左右幅は、ベースプレー
ト11の左右のガイド壁11b間に摺動自在にぴったり
収まる寸法になっている。天板41aの前端部下面には
左右方向へ延びる配線溝41c(図3等参照)が形成さ
れ、周壁41bの前側部中央にはコード通し孔41dが
形成されている。In the cover body 41, a top plate 41a having a large window 41e and having a substantially square frame shape in plan view and a peripheral wall 41b having a low length extending along the outer peripheral portion of the lower surface thereof are integrally formed of synthetic resin. The left and right widths are dimensioned to be slidably fitted between the left and right guide walls 11b of the base plate 11. A wiring groove 41c (see FIG. 3 and the like) extending in the left-right direction is formed on the lower surface of the front end portion of the top plate 41a, and a cord passage hole 41d is formed at the center of the front side portion of the peripheral wall 41b.

【0046】トッププレート43(図6に断面構造を示
してある)は、透明で矩形の平板状をした強化ガラス4
4を2枚有し、この一方のガラスの一面には所謂ITO
膜などの透明な導電膜45がコーティングされると共
に、該導電膜45の互いに対向する側端部に一対の電極
46(図3参照)が各別に設けられており、この導電膜
45を挟む形で2枚の強化ガラス44を互いに貼り合わ
せた構造になっている。従って、トッププレート43
は、導電膜45に通電されることで発熱するヒーター機
能を持つ。そして、トッププレート43の中央部から前
側へある程度外れた位置には左右方向に長い長孔状の作
業口43aが形成されている。この作業口43aは、そ
の中央部がトッププレート43の左右方向における中央
部に位置し、その長さはベース部3の容器装着部21の
直径より稍長い。The top plate 43 (the cross-sectional structure is shown in FIG. 6) is a transparent, rectangular flat plate-shaped tempered glass 4
There are two sheets of glass No. 4, one side of which is so-called ITO
A transparent conductive film 45 such as a film is coated, and a pair of electrodes 46 (see FIG. 3) are separately provided at opposite side ends of the conductive film 45. 2 has a structure in which two pieces of tempered glass 44 are attached to each other. Therefore, the top plate 43
Has a heater function of generating heat when the conductive film 45 is energized. A work hole 43a having a long hole extending in the left-right direction is formed at a position slightly deviated from the central portion of the top plate 43 to the front side. The working port 43a has a central portion located at the central portion in the left-right direction of the top plate 43, and its length is slightly larger than the diameter of the container mounting portion 21 of the base portion 3.

【0047】トッププレート43の上面にはセンサー保
持板48が取り付けられる。このセンサー保持板48の
先端部下面にはトッププレート43の温度を検出するた
めの温度センサー49が取り付けられていて、この温度
センサー49が作業口43aの前脇の位置でトッププレ
ート43の上面に接するように、センサー保持板48が
トッププレート43に固定される。このようなトッププ
レート43は、その外周部がカバー本体41の天板41
aに下から接着される。これによって、カバー本体41
の窓41eが作業口43aだけを残してトッププレート
43で塞がれる。尚、カバー本体41の天板41aにお
ける前端部下面の中間位置には浅い切欠が形成されてお
り、この切欠に上記センサー保持板48の前端部が収ま
る。A sensor holding plate 48 is attached to the upper surface of the top plate 43. A temperature sensor 49 for detecting the temperature of the top plate 43 is attached to the lower surface of the front end portion of the sensor holding plate 48, and the temperature sensor 49 is provided on the upper surface of the top plate 43 at a position in front of the working opening 43a. The sensor holding plate 48 is fixed to the top plate 43 so as to be in contact with each other. Such a top plate 43 has an outer peripheral portion which is a top plate 41 of the cover body 41.
It is adhered to a from below. As a result, the cover body 41
41e is closed by the top plate 43, leaving only the working opening 43a. A shallow notch is formed at an intermediate position on the lower surface of the front end portion of the top plate 41a of the cover body 41, and the front end portion of the sensor holding plate 48 fits in this notch.

【0048】そして、カバー本体41のコード通し孔4
1dには、図示しないコントローラから延びた接続コー
ド50の先端部が挿入され、この接続コード50の動力
線は配線溝41cを這わされてトッププレート43の電
極46に接続され、信号線は温度センサー49から延び
ている図示しないリード線に接続される。従って、電極
46を経て導電膜45に通電が為されると、この導電膜
45が発熱して2枚の強化ガラス44が加熱される。強
化ガラス44の温度は温度センサー49によってコント
ローラーへフィードバックされ、それによって、導電膜
45の発熱温度が制御される。Then, the cord through hole 4 of the cover body 41
A tip portion of a connection cord 50 extending from a controller (not shown) is inserted into 1d, a power line of the connection cord 50 is laid along a wiring groove 41c and connected to an electrode 46 of the top plate 43, and a signal line is a temperature sensor. It is connected to a lead wire (not shown) extending from 49. Therefore, when electricity is applied to the conductive film 45 via the electrode 46, the conductive film 45 generates heat and the two tempered glass 44 are heated. The temperature of the tempered glass 44 is fed back to the controller by the temperature sensor 49, whereby the heat generation temperature of the conductive film 45 is controlled.

【0049】トッププレート43の作業口43aには、
着脱自在な蓋53が設けられる。この蓋53はプラスチ
ック製のもので、作業口43aより一回り大きい板状を
為すと共に、その下面に作業口43aにぴったり嵌る大
きさの栓部53aが一体に形成されており、この栓部5
3aを作業口43aに嵌めることで当該作業口43aが
塞がれる。尚、この蓋53は、ガラスで形成しても良
い。At the work opening 43a of the top plate 43,
A detachable lid 53 is provided. The lid 53 is made of plastic and has a plate shape slightly larger than the work opening 43a, and a plug portion 53a having a size fitting the work opening 43a is integrally formed on the lower surface of the lid 53.
The work opening 43a is closed by fitting the work opening 3a into the work opening 43a. The lid 53 may be made of glass.

【0050】〔B−2.ベース部への載置と空間の画成
等〕以上のように構成されたスライドカバー5は、図1
に示すようにベース部3に乗せる。即ち、スライドカバ
ー5は、ベースプレート11の上面を覆うように、左右
のガイド壁11bの間に置く。従って、スライドカバー
5は、ガイド壁11bによって案内されることで、ベー
ス部3上を前後方向へスライドできる状態で置かれ、そ
の作業口43aはスライドカバー5のスライド方向と直
交する方向に長い形となる。スライドカバー5は、ベー
ス部3から外れない範囲において、図4に示す観察位置
すなわちベースプレート11の後端寄りに寄った位置
と、図1及び図5に示す処置位置すなわちベースプレー
ト11の前端寄りに寄った位置との間で移動できる。[B-2. Placement on Base and Definition of Space, etc.] The slide cover 5 configured as described above is shown in FIG.
As shown in FIG. That is, the slide cover 5 is placed between the left and right guide walls 11b so as to cover the upper surface of the base plate 11. Therefore, the slide cover 5 is placed in a state of being slidable in the front-rear direction on the base portion 3 by being guided by the guide wall 11b, and the working port 43a thereof has a long shape in a direction orthogonal to the sliding direction of the slide cover 5. Becomes The slide cover 5 is located near the rear end of the base plate 11 and the observation position shown in FIG. 4 and the treatment position shown in FIG. 1 and FIG. You can move to and from different positions.

【0051】スライドカバー5を観察位置へと移動させ
た状態では、図4を見て分かるように、その作業口43
a及びこれに取り付けた蓋53が、ベース部3のヒータ
ー13の透光孔14aや、容器装着部21に取り付けら
れたシャーレ61から完全に外れたところに来る。ま
た、スライドカバー5を処置位置へと移動させた状態で
は、図5を見て分かるように、その作業口43aが、容
器装着部21に取り付けられたシャーレ61や透光孔1
4aの中央部に真上から臨む。In the state where the slide cover 5 is moved to the observation position, as shown in FIG.
a and the lid 53 attached thereto come to a position completely removed from the light transmitting hole 14a of the heater 13 of the base portion 3 and the petri dish 61 attached to the container mounting portion 21. Further, in the state in which the slide cover 5 is moved to the treatment position, as can be seen from FIG. 5, the working port 43a has a petri dish 61 attached to the container mounting portion 21 and the transparent hole 1.
It faces the central part of 4a from directly above.

【0052】そして、スライドカバー5が少なくとも観
察位置から処置位置までの間にある状態では、ベースプ
レート11の上面は常にスライドカバー5によって覆わ
れ、それにより、スライドカバー5の内部空間と閉鎖空
間形成孔11aとで、貯水池23と容器装着部21を底
部とする閉鎖空間55が画成され、この閉鎖空間55内
に前記温度センサー37が位置する。顕微鏡観察用培養
器1は以上のように構成されている。Then, when the slide cover 5 is at least between the observation position and the treatment position, the upper surface of the base plate 11 is always covered with the slide cover 5, whereby the inner space of the slide cover 5 and the closed space forming hole are formed. 11a defines a closed space 55 having the reservoir 23 and the container mounting portion 21 at the bottom, and the temperature sensor 37 is located in the closed space 55. The microscope incubator 1 is configured as described above.

【0053】〔C.使用方法と作用〕(図1、図4〜図
6) 次に、顕微鏡観察用培養器1の使用方法と作用を説明す
る。 〔C−1.培養器の取付け、給水と蒸気の発生、CO2
ガス供給〕培養器1を使用するときは、これを図1、図
6に示すように顕微鏡のステージ63に乗せる。この場
合、ベースプレート11の環状凸部11eはステージ6
3のツール嵌込み孔63aに収める。また、当該ステー
ジ63に前記取付け孔11cと11dのいずれかが一致
するツール取付け孔が設けられている場合は、該当する
方の取付け孔11c又は11dを通して当該ツール取付
け孔にボルトを取り付けることで、ベース部3をステー
ジ63に固定する。[C. Method of Use and Action] (FIGS. 1 and 4 to 6) Next, a method of use and action of the incubator 1 for microscope observation will be described. [C-1. Installation of incubator, water supply and steam generation, CO 2
Gas Supply] When the incubator 1 is used, it is placed on the stage 63 of the microscope as shown in FIGS. In this case, the annular protrusion 11e of the base plate 11 is the stage 6
3 into the tool fitting hole 63a. Further, when the stage 63 is provided with a tool mounting hole in which one of the mounting holes 11c and 11d is aligned, by mounting a bolt into the tool mounting hole through the corresponding mounting hole 11c or 11d, The base part 3 is fixed to the stage 63.

【0054】給水タンク32は、これに水を入れて、適
宜なハンガーに掛けることで、ステージ61上のベース
部3より高い位置に置く。すると、給水タンク32内の
水は、自重で給水チューブ33から給水パイプ31を経
て、ベース部3の貯水池23に流れ落ちて行き、この貯
水池23に溜まる。そして、貯水池23に溜まった水の
水面が給水パイプ31の一端部31aの口に達すると貯
水池23への水の供給が停止する。蒸発などによってこ
の水面が下がると、吸水パイプ31の口から給水タンク
32に空気が入って、それと入れ替わりに給水パイプ3
1内の水が貯水池23に落ちる。これを繰り返すことで
貯水池23の水面が一定に保持される。従って、給水パ
イプ31内が空にならない限り、貯水池23には常時一
定量の、即ち、容器装着部21の上端より稍低い高さに
水面がある量の水が蓄えられる。前記ガス噴気管35の
円環形をした被加温部35aはこのように蓄えられる水
に沈む。The water supply tank 32 is placed at a position higher than the base portion 3 on the stage 61 by putting water in it and hanging it on an appropriate hanger. Then, the water in the water supply tank 32 flows down from the water supply tube 33 through the water supply pipe 31 by its own weight to the water reservoir 23 of the base portion 3 and accumulates in the water reservoir 23. Then, when the surface of the water accumulated in the reservoir 23 reaches the mouth of the one end 31a of the water supply pipe 31, the supply of water to the reservoir 23 is stopped. When the water level drops due to evaporation or the like, air enters the water supply tank 32 through the mouth of the water absorption pipe 31 and replaces it with water.
The water in 1 falls into the reservoir 23. By repeating this, the water surface of the reservoir 23 is kept constant. Therefore, as long as the water supply pipe 31 is not empty, the reservoir 23 always stores a certain amount of water, that is, an amount of water whose height is slightly lower than the upper end of the container mounting portion 21. The ring-shaped heated portion 35a of the gas jet tube 35 sinks in the water thus stored.

【0055】図示しないコントローラーを操作してヒー
ター13を駆動させると、その発熱シート16が発熱し
て貯水池23の水を加熱するので、その水が積極的に蒸
発する。従って、ベース部3にスライドカバー5が乗っ
ている状態では、閉鎖空間55が蒸気で満たされ、当
然、容器装着部21に装着されたシャーレ61の中もこ
の蒸気に晒される。この蒸気によって、閉鎖空間55
は、湿度90〜95%に保たれると共に、ヒーター13
の発熱度に応じた温度に保持される。この場合、シャー
レ61は閉鎖空間55の中央部に位置し、それを囲うよ
うに貯水池23が位置するので、シャーレ61内の湿度
はムラ無く均一に保たれる。When the heater (13) is driven by operating a controller (not shown), the heat generating sheet (16) generates heat to heat the water in the reservoir (23), so that the water is positively evaporated. Therefore, when the slide cover 5 is mounted on the base portion 3, the closed space 55 is filled with steam, and the petri dish 61 mounted on the container mounting portion 21 is naturally exposed to this steam. Due to this steam, the closed space 55
Is maintained at a humidity of 90 to 95% and the heater 13
The temperature is maintained according to the heat generation degree of. In this case, since the petri dish 61 is located in the central portion of the closed space 55 and the water reservoir 23 is located so as to surround it, the humidity inside the petri dish 61 can be kept uniform.

【0056】閉鎖空間55に蒸気が発生すると、トップ
プレート43が曇るが、この曇りは、該トッププレート
43の導電膜45に通電することで防止できる。即ち、
導電膜45に通電すると、これが発熱してガラス44を
加熱するので、トッププレート43上での結露が防止さ
れるからである。When steam is generated in the closed space 55, the top plate 43 becomes cloudy. This clouding can be prevented by energizing the conductive film 45 of the top plate 43. That is,
This is because when the conductive film 45 is energized, it generates heat and heats the glass 44, so that dew condensation on the top plate 43 is prevented.

【0057】前記したように、ガス噴気管35の被加温
部35aは貯水池23の水に沈むので、この水が加温さ
れると被加温部35aも加温される。従って、ガス噴気
管35に送給されて来るCO2ガスは、被加温部35a
を通る間に貯水池23の水とほぼ同じ温度に加温される
と共に、噴気口35bから水中に噴射して加湿され、そ
の状態で蒸気と共に閉鎖空間55内に拡がる。従って、
閉鎖空間55内の湿度と温度が、供給されてくるガスに
よって変動されることは殆ど無い。As described above, the heated portion 35a of the gas fumes 35 is submerged in the water in the reservoir 23, so that when the water is heated, the heated portion 35a is also heated. Therefore, the CO 2 gas sent to the gas fumes 35 is heated by the heated portion 35a.
While being heated, the water is heated to almost the same temperature as that of the water in the reservoir 23, is sprayed into the water from the fumarole 35b to be humidified, and in that state, the steam spreads in the closed space 55. Therefore,
The humidity and temperature in the closed space 55 are hardly changed by the supplied gas.

【0058】〔C−2.培養条件の選択的設定と観察〕
ヒーター13の駆動やCO2ガスの供給は、観察意図に
応じて選ぶ。例えば、CO2ガスの雰囲気だけで観察し
たい場合は、ヒーター13を駆動しないでCO2ガスの
供給だけを行えば、シャーレ61内の試料は、ほぼ室温
の主としてCO2ガスのみの雰囲気下に置かれる。ま
た、加温高湿度下だけで観察したい場合は、CO2ガス
の供給はしないで、ヒーター13を駆動すれば、シャー
レ61内の試料は、湿度90〜95%程度の雰囲気下に
おかれる。この場合の雰囲気温度は、ヒーター13に対
する通電量を調節することでかなり正確に設定できる。
そして、ヒーター13の駆動とCO2ガスの供給の両方
を行えば、シャーレ61内の試料Sは、CO2ガスを含
む湿度90〜95%程度であってヒーター13の発熱量
に応じた温度に加温された雰囲気に置かれる。[C-2. Selective setting and observation of culture conditions]
The driving of the heater 13 and the supply of CO 2 gas are selected according to the observation intention. For example, when it is desired to observe only in the atmosphere of CO 2 gas, if the heater 13 is not driven and only the CO 2 gas is supplied, the sample in the petri dish 61 is placed in an atmosphere of mainly CO 2 gas at about room temperature. Get burned. Further, when it is desired to observe only under high temperature and high humidity, CO 2 gas is not supplied and the heater 13 is driven so that the sample in the petri dish 61 is placed in an atmosphere with a humidity of about 90 to 95%. The ambient temperature in this case can be set fairly accurately by adjusting the amount of electricity supplied to the heater 13.
Then, by performing both the supply of the driving and CO 2 gas heater 13, the sample S held in the dish 61 is a humidity of about 90% to 95% including the CO 2 gas to a temperature depending on the heating value of the heater 13 Placed in a warm atmosphere.

【0059】尚、これらいずれの場合でも、トッププレ
ート43には貯水池23から蒸発する蒸気が着くので、
トッププレート43は発熱モードにしておくのが良い。
この場合、導電膜45への通電は、温度センサー49が
検知するトッププレート43の温度とコントローラーで
設定した温度とを比較して制御される。In any of these cases, since the vapor evaporated from the reservoir 23 reaches the top plate 43,
The top plate 43 is preferably set in the heat generation mode.
In this case, the energization of the conductive film 45 is controlled by comparing the temperature of the top plate 43 detected by the temperature sensor 49 with the temperature set by the controller.

【0060】観察資料を入れたシャーレ61を培養器1
に装着するタイミングは任意であるが、基本的には、培
養雰囲気を作った状態で行うのが良い。すなわち、所望
のシャーレ61に合う容器アダプター25を容器装着部
21に装着した状態で、スライドカバー5を一旦ベース
部3に乗せて閉鎖空間55を画成し、貯水池23に水を
蓄え、ヒーター13を所要の温度に駆動して蒸気を発生
させ、所要量のCO2ガスを供給して所望の培養雰囲気
を作る。そして、シャーレ61には目的の培養液と試料
Sを入れておき、容器アダプター21の上方を開放する
のに必要最小限の距離スライドカバー5を滑らせて、そ
のシャーレ61を容器アダプター25に装着して、スラ
イドカバー5を観察位置に戻す。シャーレ61は、ヒー
ター13に軽く乗るまで押し込む。作業口43aは蓋5
3で塞いでおく。The dish 61 containing the observation material is placed in the incubator 1
Although the timing of attachment to the can is arbitrary, it is basically preferable to perform it in a state where a culture atmosphere is created. That is, with the container adapter 25 that fits the desired petri dish 61 attached to the container attachment portion 21, the slide cover 5 is once placed on the base portion 3 to define the closed space 55, water is stored in the reservoir 23, and the heater 13 Is driven to a required temperature to generate steam, and a required amount of CO 2 gas is supplied to create a desired culture atmosphere. Then, the target culture solution and the sample S are put in the petri dish 61, the slide cover 5 is slid a minimum distance necessary to open the upper part of the container adapter 21, and the petri dish 61 is attached to the container adapter 25. Then, the slide cover 5 is returned to the observation position. The petri dish 61 is pushed in until it gets on the heater 13 lightly. Working port 43a is lid 5
Block with 3.

【0061】閉鎖空間55は、直に設定雰囲気に達して
安定するので、シャーレ61内の観察資料は、ほぼ当初
から、設定された培養雰囲気に置かれて培養が進行す
る。シャーレ61は透光孔14aの真上において閉鎖空
間55の中央部にしっかり装着されるので、その位置が
不用意に動くことは有り得ないし、コンデンサレンズ6
6から射出した光がトッププレート43、目的の試料
S、シャーレ61の底壁、透光孔14aを透過して対物
レンズ65に入射する。Since the closed space 55 directly reaches the set atmosphere and becomes stable, the observation material in the petri dish 61 is placed in the set culture atmosphere from almost the beginning and the culture proceeds. Since the petri dish 61 is firmly attached to the central portion of the closed space 55 right above the light transmitting hole 14a, its position cannot move carelessly, and the condenser lens 6
The light emitted from 6 passes through the top plate 43, the target sample S, the bottom wall of the petri dish 61, and the light transmitting hole 14a, and enters the objective lens 65.

【0062】ベース部3に設けられている前記温度セン
サー37は、次のように使用する。閉鎖空間55の雰囲
気温度を測定したいときは、図6に示すように貯水池2
3の上方に置き、水温を測定したいときは貯水池23の
水に漬け、観察試料Sの温度を測定したいときは、シャ
ーレ61内の培養液に漬けて代理的に測定する。これら
いずれの場合も、温度センサー37と被覆コード39
は、上方から見て、透光孔14aを外れた位置に置く。
この温度センサー37が検出した温度は、図示しない温
度表示部に表示される。The temperature sensor 37 provided on the base portion 3 is used as follows. When you want to measure the ambient temperature of the closed space 55, as shown in FIG.
3 is placed above 3, and when it is desired to measure the water temperature, it is immersed in the water of the reservoir 23, and when it is desired to measure the temperature of the observation sample S, it is immersed in the culture solution in the petri dish 61 to perform the proxy measurement. In any of these cases, the temperature sensor 37 and the coating cord 39
Is placed at a position outside the transparent hole 14a when viewed from above.
The temperature detected by the temperature sensor 37 is displayed on a temperature display unit (not shown).

【0063】〔C−3.観察試料に対する処置〕このよ
うにして観察を行っている途中で、シャーレ61内の試
料Sに対して何らかの処置を行うとき、例えば、核を入
れたり、異なる培養液を足したり、薬剤を加えたりする
ときは、蓋53を取り外してスライドカバー5を処置位
置へと滑らせる。これにより、開放された作業口43a
がシャーレ61内の中央部辺りに真上から臨むので、こ
の作業口43aを通して必要な処置を施す。この場合、
作業口43aの端は、コンデンサレンズ65から側方へ
外れているため、コンデンサレンズ65を避けた方向か
ら所要の器具を作業口43aに挿入することができる。
必要な処置が終わったら、スライドカバー5を観察位置
に戻して蓋53を取り付ける。[C-3. Treatment of Observation Sample] When some treatment is performed on the sample S in the Petri dish 61 during the observation as described above, for example, a nucleus is added, a different culture solution is added, or a drug is added. When doing so, the lid 53 is removed and the slide cover 5 is slid to the treatment position. As a result, the opened work opening 43a
Faces the center of the petri dish 61 from directly above, and the necessary treatment is performed through the working port 43a. in this case,
Since the end of the work opening 43a is laterally removed from the condenser lens 65, a desired tool can be inserted into the work opening 43a from a direction avoiding the condenser lens 65.
After the necessary treatment is completed, the slide cover 5 is returned to the observation position and the lid 53 is attached.

【0064】このように処置を行っている間、閉鎖空間
55は、小さな作業口43aが開放されるだけであるか
ら、閉鎖空間55の温度や湿度、CO2ガス濃度が目立
って変化することは無い。従って、観察途中で観察試料
に何らかの処置を行う場合でも、雰囲気を安定に保つこ
とができる。During the treatment as described above, since the small working port 43a is only opened in the closed space 55, the temperature, the humidity and the CO 2 gas concentration of the closed space 55 are not significantly changed. There is no. Therefore, the atmosphere can be kept stable even when the observation sample is subjected to some treatment during the observation.

【0065】以上、本発明の実施の形態を説明したが、
本発明の具体的構成がこの実施の形態に限定されるもの
では無く、本発明の要旨から外れない範囲での設計変更
等があっても本発明に含まれる。例えば、実施の形態で
は、スライドカバーの天面部のほぼ全体を透明にした
が、この天面部の透明な部分はベース部の透光部に対応
した範囲に限っても良い。また、作業口を開閉する蓋
は、天面部上でスライドする構造や、天面部にヒンジで
回動自在に支持された構造にすることも考えられる。実
施の形態においては、この蓋をプラスチック又はガラス
で形成するようにしたが、作業口に高い気密性を要求す
る場合は、その全体又は一部をゴムで形成すると良い。
更に、ガス噴気部を水中に這わす場合、その水中の部分
に多数の噴気孔を設けておいて、広い範囲からガスが噴
射するようにすれば、閉鎖空間内にほぼ均等にガスを供
給できる。The embodiment of the present invention has been described above.
The specific configuration of the present invention is not limited to this embodiment, and the present invention includes a design change and the like within a range not departing from the gist of the present invention. For example, in the embodiment, almost the entire top surface portion of the slide cover is made transparent, but the transparent portion of this top surface portion may be limited to the range corresponding to the light transmitting portion of the base portion. It is also conceivable that the lid that opens and closes the work opening may have a structure that slides on the top surface portion or a structure that is rotatably supported on the top surface portion by a hinge. In the embodiment, the lid is made of plastic or glass, but if a high airtightness is required for the work port, it is preferable that the lid is entirely or partially made of rubber.
Further, when the gas fumes are crawled in water, if a large number of fumes are provided in the underwater part and the gas is injected from a wide range, the gas can be supplied almost evenly into the closed space. .

【0066】[0066]

【発明の効果】以上のように、本発明によれば、顕微鏡
のステージに乗せた状態のまま観察試料の培養と観察を
行うことができると共に、設定された培養条件による雰
囲気を殆ど崩さないで観察試料に対する処置を容易に行
うことができる。また、場所を取らないで加湿手段を長
時間機能させたり、この加湿手段を利用して供給ガスの
加温や加湿を行わせることができ、或いは、シャーレ等
の試料容器の位置を安定に保持することができる等、使
い勝手に優れた顕微鏡観察用培養器を提供することがで
きる。As described above, according to the present invention, it is possible to culture and observe an observation sample while being placed on the stage of a microscope, and at the same time, the atmosphere under the set culture conditions is not destroyed. The observation sample can be easily treated. In addition, the humidifying means can be operated for a long time without taking up space, and the humidifying means can be used to heat or humidify the supply gas, or the position of the sample container such as a petri dish can be held stably. It is possible to provide an incubator for microscopic observation which is excellent in usability.

【図面の簡単な説明】[Brief description of drawings]

【図1】本発明の実施の形態に係る顕微鏡観察用培養器
を、顕微鏡のステージに乗せた状態で示す斜視図であ
る。FIG. 1 is a perspective view showing an incubator for microscopic observation according to an embodiment of the present invention in a state of being placed on a stage of a microscope.

【図2】図1に示す顕微鏡観察用培養器のベース部を分
解した拡大斜視図である。FIG. 2 is an enlarged perspective view in which a base portion of the incubator for microscopic observation shown in FIG. 1 is disassembled.

【図3】図1に示す顕微鏡観察用培養器のスライドカバ
ーを分解した拡大斜視図である。FIG. 3 is an enlarged perspective view in which a slide cover of the incubator for microscopic observation shown in FIG. 1 is disassembled.

【図4】図1に示す顕微鏡観察用培養器を、スライドカ
バーが観察位置に来ている状態で示す拡大平面図であ
る。FIG. 4 is an enlarged plan view showing the incubator for microscopic observation shown in FIG. 1 in a state where the slide cover is at an observation position.

【図5】図1に示す顕微鏡観察用培養器を、スライドカ
バーが処置位置に来ている状態で示す拡大平面図であ
る。5 is an enlarged plan view showing the microscope incubator shown in FIG. 1 in a state where the slide cover is at a treatment position.

【図6】図4のA−A線に沿って切断した拡大断面図で
ある。FIG. 6 is an enlarged cross-sectional view taken along the line AA of FIG.

【符号の説明】[Explanation of symbols]

1…顕微鏡観察用培養器 3…ベース部 5…スラ
イドカバー 13…ヒーター 14a、21…透光部 21…容
器装着部 23…貯水池 23、31、32、33…加温手段
25…容器アダプター 31、32、33…給水手段 35…ガス噴気部
35a…被加温部 35b…ガス噴気部の口 37…温度センサー 3
9…可撓性を有する部材 43…天面部 43a…作業口 53…蓋 55
…閉鎖空間 63…ステージDESCRIPTION OF SYMBOLS 1 ... Incubator for microscope observation 3 ... Base part 5 ... Slide cover 13 ... Heater 14a, 21 ... Translucent part 21 ... Container mounting part 23 ... Reservoir 23, 31, 32, 33 ... Heating means
25 ... Container adapters 31, 32, 33 ... Water supply means 35 ... Gas blower
35a ... Heated part 35b ... Mouth of gas blowing part 37 ... Temperature sensor 3
9 ... Flexible member 43 ... Top part 43a ... Working port 53 ... Lid 55
… Closed space 63… Stage

───────────────────────────────────────────────────── フロントページの続き Fターム(参考) 2G052 AA33 AA36 AB00 AD34 AD54 DA05 DA12 DA22 DA33 EB12 FA02 FA03 FD17 GA32 HA17 JA04 JA09 JA11 2H052 AD24 AD25 4B029 AA03 AA07 BB01 EA11 EA16 EA20 FA02    ─────────────────────────────────────────────────── ─── Continued front page    F term (reference) 2G052 AA33 AA36 AB00 AD34 AD54                       DA05 DA12 DA22 DA33 EB12                       FA02 FA03 FD17 GA32 HA17                       JA04 JA09 JA11                 2H052 AD24 AD25                 4B029 AA03 AA07 BB01 EA11 EA16                       EA20 FA02

Claims (10)

【特許請求の範囲】[Claims] 【請求項1】上下方向へ光を通す透光部を有し顕微鏡の
ステージに載置されるベース部と、天面部の少なくとも
一部が透明であり上記ベース部の上にスライド自在に載
置されて該ベース部と協働して閉鎖空間を画成すると共
にこの閉鎖空間に対する作業を外から行うための作業口
が上記天面部に設けられたスライドカバーと、上記作業
口を開閉するための蓋と、上記閉鎖空間内に所定のガス
を供給するためのガス噴気部と、前記閉鎖空間を加温す
るための加温手段とを備えたことを特徴とする顕微鏡観
察用培養器。1. A base portion having a light-transmitting portion that allows light to pass through in a vertical direction and placed on a stage of a microscope, and at least a part of a ceiling portion is transparent and is slidably placed on the base portion. And a slide port provided on the top surface part for forming a closed space in cooperation with the base part and for performing work on the closed space from the outside, and for opening and closing the work port. An incubator for microscopic observation, comprising a lid, a gas blower for supplying a predetermined gas into the closed space, and a heating means for heating the closed space. 【請求項2】請求項1に記載した顕微鏡観察用培養器に
おいて、作業口は、スライドカバーのスライド方向とほ
ぼ直交する方向に長い形で形成したことを特徴とする顕
微鏡観察用培養器。2. The incubator for microscopic observation according to claim 1, wherein the working port is formed in a long shape in a direction substantially orthogonal to the sliding direction of the slide cover. 【請求項3】請求項1又は2に記載した顕微鏡観察用培
養器において、ベース部にはその透光部を避けた位置に
貯水池を設け、この貯水池に外部から水を供給するため
の給水手段を付設し、この給水手段は、貯水池の水量の
減少に伴って自動的に給水が行われる構造のものである
ことを特徴とする顕微鏡観察用培養器。3. The incubator for microscopic observation according to claim 1 or 2, wherein a water reservoir is provided in the base portion at a position avoiding the translucent portion, and water supply means for supplying water to the reservoir from the outside. An incubator for microscopic observation, characterized in that the water supply means has a structure in which water is automatically supplied as the amount of water in the reservoir decreases. 【請求項4】請求項3に記載した顕微鏡観察用培養器に
おいて、貯水池を加熱するためのヒーターを設けたこと
を特徴とする顕微鏡観察用培養器。4. An incubator for microscope observation according to claim 3, further comprising a heater for heating the reservoir. 【請求項5】請求項3又は4に記載した顕微鏡観察用培
養器において、ガス噴気部の口を貯水池の中に位置させ
たことを特徴とする顕微鏡観察用培養器。5. The incubator for microscope observation according to claim 3 or 4, characterized in that the mouth of the gas blower is located in the reservoir. 【請求項6】請求項4に記載した顕微鏡観察用培養器に
おいて、ガス噴気部は貯水池の中を這わせた被加温部を
備えたことを特徴とする顕微鏡観察用培養器。6. The incubator for microscopic observation according to claim 4, wherein the gas blower part has a heated part which is arranged in the reservoir. 【請求項7】請求項3から6のいずれかに記載した顕微
鏡観察用培養器において、透光部の少なくとも上部はベ
ース部のほぼ中央に位置する筒状に形成し、この透光部
の周囲を貯水池にしたことを特徴とする顕微鏡観察用培
養器。7. The incubator for microscopic observation according to any one of claims 3 to 6, wherein at least the upper portion of the light-transmitting portion is formed in a cylindrical shape located substantially at the center of the base portion, and the periphery of the light-transmitting portion is formed. An incubator for microscopic observation, characterized by being used as a reservoir. 【請求項8】請求項1から6のいずれかに記載した顕微
鏡観察用培養器において、透光部の少なくとも上部を、
試料容器が着脱自在に嵌合される筒状の容器装着部にし
たことを特徴とする顕微鏡観察用培養器。8. The incubator for microscopic observation according to any one of claims 1 to 6, wherein at least the upper part of the translucent part is
An incubator for microscopic observation, characterized by having a cylindrical container mounting portion into which a sample container is detachably fitted. 【請求項9】請求項8に記載した顕微鏡観察用培養器に
おいて、容器装着部に着脱自在に装着される容器アダプ
ターを備えたことを特徴とする顕微鏡観察用培養器。9. The incubator for microscope observation according to claim 8, further comprising a container adapter that is detachably attached to the container attachment part. 【請求項10】請求項3から9のいずれかに記載した顕
微鏡観察用培養器において、閉鎖空間内に突出した可撓
性を有する部材の先端に温度センサーを設けたことを特
徴とする顕微鏡観察用培養器。10. The incubator for microscope observation according to any one of claims 3 to 9, wherein a temperature sensor is provided at the tip of a flexible member protruding into the closed space. Incubator.
JP2001296051A 2001-09-27 2001-09-27 Microscope incubator Expired - Fee Related JP4321841B2 (en)

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