JP2011247640A - Unit construct device for forming embedding block for biological sample, including independent basket for biological sample processing that can perform fixation, transfer and liquid chemical processing of biological sample and be unit-connected and fitted with embedding frame-like base body, unit connected and fitted construct cassette for biological sample and burr-free embedding tray which is the unit construct device - Google Patents

Unit construct device for forming embedding block for biological sample, including independent basket for biological sample processing that can perform fixation, transfer and liquid chemical processing of biological sample and be unit-connected and fitted with embedding frame-like base body, unit connected and fitted construct cassette for biological sample and burr-free embedding tray which is the unit construct device Download PDF

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JP2011247640A
JP2011247640A JP2010118485A JP2010118485A JP2011247640A JP 2011247640 A JP2011247640 A JP 2011247640A JP 2010118485 A JP2010118485 A JP 2010118485A JP 2010118485 A JP2010118485 A JP 2010118485A JP 2011247640 A JP2011247640 A JP 2011247640A
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unit
embedding
frame
lid
biological sample
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JP5681386B2 (en
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Teiji Takezaki
悌二 竹崎
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TAKEZAKI TAKESHI
TANIZAKI TEIJI
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TAKEZAKI TAKESHI
TANIZAKI TEIJI
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Abstract

PROBLEM TO BE SOLVED: To provide a system for surely transmitting patient and biological sample data, surely connecting pathology/sample formation side data, storing/transmitting an information amount equal to or more than a conventional cassette direct bar code print data amount, preventing the contamination/damage/loss/shift of the sample and a data recording/storage part, and not generating medical waste, in a cassette for pathological/biological sample.SOLUTION: Molding is performed as three kinds of construct units respectively separated and made independent in the function forms of a bottom part, a lid body freely detachably fitted/connected to the upper side opening of the embedding frame-like base body, and the embedding frame-like base body. An independent basket for the biological sample processing capable of fixation/transfer/chemical processing/data transmission connection of the biological sample, an embedding frame-like base body porous liquid permeable container bottom part which is a chemical processing basket of the sample, and a lid body which is the chemical processing basket of the sample and has porous liquid permeable holes are turned to the independent constructs of a support base for fixing a block sample usable that are usable without being abandoned. As the unit construct device of a unit connected and fitted construct cassette system for the biological sample, an embedding tray with a watertight frame made of a synthetic resin is molded.

Description

本発明は、患者や生物試料の病理・組織学的検査における確実なデータ伝達と包埋ブロックカセット試料の作製に関するものである。   The present invention relates to reliable data transmission and preparation of an embedded block cassette sample in pathological and histological examinations of patients and biological samples.

従来の病理・生物試料用カセットは図33Aに示す様に上側に開口部を形成しその下側に多孔通液性の底部U3と或いは小型試料収納用仕切小部屋(図BのU6)とその外側壁にデータ記録部U1を成形した枠状基体Uと、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔V3を有する蓋体Vから成る2個のパーツから成り立っていて、該多孔性底部である外側壁にデータ記録部U1を成形した枠状基体と該包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔V3を有する蓋体Vとで構築された病理・生物試料の試料収納籠の役目と試料包埋ブロック作製時の台木の役目と該病理・生物試料の手書き又はプラスチック用印字機による試料データ番号や試料名の伝達の役目の三つの機能担当を担い実用に供されている。
実用の前記従来の病理・生物試料用カセットは、前記多孔性底部U3である成形した枠状基体Uと該包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔V3を有する蓋体Vとで構築された病理・生物試料の試料収納籠が病理・生物試料の試料データの記録部U1を有し、該多孔性底部である成形した枠状基体Uが試料包埋ブロック作製時の台木の役目を担う試料データが該病理・生物試料の試料収納籠の試料データをそのまま引き継いで、また該包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔(図33のBのV3)を有する蓋体(図33のBのV)を透明の合成樹脂製で成形すると該病理・生物試料の試料収納籠内に収納されている病理・生物試料が蓋を開けることなく内部の病理・生物試料の確認が出来るのみで、従来はその実用性は見込まれていた。
As shown in FIG. 33A, the conventional cassette for pathological / biological samples has an opening on the upper side, and a porous liquid-permeable bottom U3 on the lower side or a small compartment for storing a small sample (U6 in FIG. B) and its Two of a frame-shaped substrate U formed with a data recording portion U1 on the outer side wall and a lid V having a perforated liquid passage hole V3 detachably fitted and connected to the upper opening of the embedded frame-shaped substrate. A frame-shaped base formed of parts and having a data recording portion U1 formed on the outer wall, which is the porous bottom, and a porous liquid passage hole V3 that is detachably fitted and connected to the upper opening of the embedded frame-shaped base. The path of the pathology / biological sample constructed with the lid V having the function and the role of the rootstock at the time of preparation of the sample embedding block and the sample data number by handwriting of the pathology / biological sample or the printing machine for plastic Responsible for three functions responsible for the transmission of sample names.
The conventional cassette for pathological / biological sample in practical use is a porous liquid passage hole that is detachably fitted and connected to the molded frame-like base U that is the porous bottom U3 and the upper opening of the embedded frame-like base. A specimen storage basket for pathology / biological samples constructed with a lid V having V3 has a recording unit U1 for pathology / biological sample data, and the molded frame-like substrate U, which is the porous bottom, is provided with a sample package. The sample data that plays the role of the rootstock at the time of the preparation of the buried block takes over the sample data of the pathology / biological sample storage box as it is, and is detachably fitted and connected to the upper opening of the embedded frame-shaped substrate. When a lid body (V in FIG. 33B) having a porous fluid passage hole (B3 in FIG. 33) is formed of a transparent synthetic resin, the pathology stored in the pathology / biological sample storage container・ Only the biological pathology and biological sample can be confirmed without opening the lid. Practicality had been expected.

しかし、臨床側での患者試料や研究所での生物試料の採取時から病理・生物試料の前記試料収納籠内に移し換える標本作製時の該病理・生物試料の試料データの転記ミスや試料の入れ間違い・混入・紛失に対しては一切の機能や対策を持っていないという欠点があった。   However, the sample data of the pathology / biological sample at the time of preparation of the specimen to be transferred from the collection of the patient sample on the clinical side or the biological sample in the laboratory to the sample storage cage of the pathology / biological sample or the sample There was a drawback that it did not have any function or countermeasure against mistakes, mixing and loss.

更に、最近従来のカセットのデータ記録部に病理・生物試料の試料データをバーコードや二次元データコードを直接印字する印字機が開発されて、カセットデータ記録部に直接印字された従来の病理・生物試料用カセットが使用されてきている。
その実用性は確かにあるが、合成樹脂製カセットのデータ記録部には一般的に、試料データ番号や試料名の手書き用の為に、シュボが形成されていて印字機の印字角度或いはインク噴射角度に因って印字結果に擦れや印字不備が生じている。また、印字が目視的には正常でもバーコードや二次元データコードの読み取り機の読み取り認識結果は、該合成樹脂製カセットのデータ記録部のシュボ大きさや深さや角度とカセット着色の微妙な色調の差によって認識しないし、その認識データ容量も多くを期待することが出来ない状態である。
Furthermore, recently, a printer that directly prints barcode and two-dimensional data code on pathological / biological sample data on the data recording part of the conventional cassette has been developed, and the conventional pathology / biological data directly printed on the cassette data recording part has been developed. Biological sample cassettes have been used.
Although its practicality is certain, in general, the data recording part of the synthetic resin cassette is formed with a stub for handwriting of the sample data number and the sample name, so that the printing angle of the printing press or the ink ejection Depending on the angle, rubbing or imperfect printing occurs in the printing result. In addition, even if the printing is visually normal, the reading and recognition result of the barcode or two-dimensional data code reader shows that the size, depth and angle of the data recording portion of the synthetic resin cassette and the subtle color tone of the cassette coloring. It is not recognized by the difference, and the recognition data capacity cannot be expected to be large.

この改善策として、本発明者は既に特許文献1と特許文献4とで病理・生物試料用カセットに於いて、上側に開口部を形成しその下側に多孔通液性の底部とその外側壁にデータ記録部を成形した枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有するデータ記録部の保護板付き蓋体を発明して、例えば印字ラベルを保護する提案をしているが、保護板付き蓋を試料包埋ブロック作製時の外してしまうので、該試料包埋ブロックのデータ記録部上に貼り付けたバーコードや二次元データコード印字ラベルは数年後には剥げ落ちる可能性が高い欠点を有していた。   As an improvement measure, the present inventor has already disclosed in Patent Document 1 and Patent Document 4 a pathological / biological sample cassette in which an opening is formed on the upper side and a porous liquid-permeable bottom and its outer wall on the lower side. Inventing a lid with a protective plate for a data recording section having a frame-shaped base formed with a data recording section and a porous liquid passage hole detachably fitted and connected to the upper opening of the embedded frame-shaped base For example, we have proposed to protect the printed label, but since the lid with the protective plate is removed during the preparation of the sample-embedded block, a barcode or two-dimensional label affixed on the data recording section of the sample-embedded block Data code printed labels had the disadvantage of being likely to peel off after several years.

更にまた、従来の病理・生物試料用カセットの脱着自在に嵌合・連結する多孔通液孔を有する蓋体には多孔性蓋の機能のみの役割しかなく、リサイクル蓋はステンレス製蓋にのみ期待されていて、多くの合成樹脂製蓋体は試料包埋ブロック作製時以後に医療廃棄物として廃棄されて環境破壊の原因にも成っている。
これは、従来の病理・生物試料用カセットの試料包埋ブロックの台木強度と確実な試料データの連結・伝達と包埋ブロックカセット試料の確実な保存管理の面からも大きな損失である。
Furthermore, a lid having a porous liquid passage hole for detachably fitting and connecting a conventional cassette for pathological / biological samples has only a role of a porous lid, and a recycling lid is expected only for a stainless steel lid. In addition, many synthetic resin lids are discarded as medical waste after the preparation of the sample-embedded block, causing environmental destruction.
This is a significant loss from the standpoints of the strength of rootstock of the sample embedding block of the cassette for pathological / biological sample, the reliable connection and transmission of the sample data, and the reliable storage management of the embedded block cassette sample.

また更に、従来の病理・生物試料用カセットではICチップ(RFID)を取り付けたカセットは本願発明者が発明した特許文献3と特許文献4にも提案されているが、本格的な実施は成されていない。それは、一つはICチップ(RFID)がまだ高価であること。二つめは多くの有機溶媒に耐薬品性のコーティング形成されたICチップ(RFID)が特に高価で少ないこと。三つ目はICチップ(RFID)には目視データが必要であるが、その目視データ記録容量が貧弱であること等々が考えられる。   Furthermore, in conventional pathological / biological sample cassettes, cassettes with IC chips (RFID) attached are also proposed in Patent Document 3 and Patent Document 4 invented by the present inventor. Not. For one thing, IC chips (RFID) are still expensive. Second, IC chips (RFID) with chemical-resistant coatings formed on many organic solvents are particularly expensive and scarce. Third, the IC chip (RFID) requires visual data, but its visual data recording capacity is poor.

また更に、従来の病理・生物試料用カセットでは、本願発明者が発明した特許文献1と特許文献2のバリ無し包埋皿と包埋方法と特願文献4のバリ除去装置のバリ無し包埋法と特許文献5のバリ(図43の12a・12b)の発生が少ない包埋皿(図43)C・D・E・Fが考案されているが、まだその水密枠の水密性と包埋作業の作業性と包埋皿の積み重ね収納性等々に問題があり、バリの除去作業の更なる省力と包埋作業と薄切作業の自動化と臨床・試料採取側から標本作製側への試料データの確実な連結・伝達の為には、試料包埋ブロック作製時の包埋剤のバリ発生を更に無くす工夫が必要である。   Furthermore, in the conventional cassette for pathological / biological sample, the burr-free embedding dish and embedding method of Patent Document 1 and Patent Document 2 invented by the present inventor and the burr-free embedding of the burr removing apparatus of Patent Application Document 4 are disclosed. The embedding plate (Fig. 43) CD, D, E, and F with less generation of burrs (12a and 12b in Fig. 43) is devised, but the watertightness and embedding of the watertight frame is still devised. There are problems such as workability and stacking and storage of embedding dishes, etc., further labor saving of burr removal work, automation of embedding work and slicing work, and sample data from clinical / sample collection side to specimen preparation side In order to achieve reliable connection and transmission, it is necessary to devise a method that further eliminates the generation of burrs in the embedding agent when preparing the sample embedding block.

特許第4013192号特許公報Japanese Patent No. 4013192 特許第4058709号特許公報Patent No. 4058709 特開2008−26097公開特許公報Japanese Patent Laid-Open No. 2008-26097 特開2009−168737公開特許公報Japanese Patent Application Laid-Open No. 2009-168737 特開2001−116669公開特許公報Japanese Patent Laid-Open No. 2001-116669

解決しようとする問題点は、患者試料や生物試料の採取時の試料や臨床データを含む試料・検体データの病理・標本作製側への確実な伝達と病理・標本作製側データとの確かな連結を確保して、検体(試料と試料データ)の照合を保証して、検体の取り間違いや紛失・混入を最大限に防止することである。   The problem to be solved is the reliable transmission of pathological / specimen preparation side data to the pathology / specimen preparation side of the sample / specimen data including sample and clinical data at the time of collection of patient samples and biological samples. To ensure the verification of the specimen (sample and specimen data) and to prevent mistakes, loss, and mixing of specimens.

解決しようとする問題点は、前記患者試料や生物試料の採取時の試料や臨床データを含む試料・検体データと病理・標本作製側データとの連結データ(例えば、検体スペック番号やカルテ番号や患者・試料名等)の試料ブロックの台木である包埋枠状基体のデータ記録部・記憶部への安全必要量のデータ自動書込と読み取りを保証することである。   The problem to be solved is the connection data (for example, specimen spec number, chart number, patient, etc.) of sample / specimen data including pathology / specimen preparation side data including sample and clinical data at the time of collection of the patient sample or biological sample. (2) To guarantee the automatic writing and reading of the required amount of data to the data recording / storage unit of the embedded frame-shaped substrate that is the rootstock of the sample block (sample name, etc.).

更に解決しようとする問題点は、前記試料ブロックの台木である包埋枠状基体の試料データ記録部・記憶部を保護して試料ブロックカセット作製時以後も試料ブロックの台木である包埋枠状基体のデータ記録部・記録部が汚染したり脱落したりすることを防止することである。   The problem to be further solved is that the sample data recording / storage unit of the embedding frame-shaped substrate, which is the root block of the sample block, is protected and the embedding is the root block of the sample block even after the sample block cassette is manufactured. This is to prevent the data recording portion / recording portion of the frame-shaped substrate from being contaminated or dropped out.

更にまた解決しようとする問題点は、患者試料や生物試料を固定移送する際、固定移送容器内に直接に該試料のみを浸漬したり、該生検試料を収納した従来の病理・生物試料用カセットを固定液に直接に浸漬したりせずに、該生検試料の固定移送とデータの確実な伝達(メッセンジャー)と連結(リンク)が可能な臨床データを含む該試料データと該試料とを一体的に固定移送ことである。   Further, the problem to be solved is that when a patient sample or a biological sample is fixedly transferred, only the sample is immersed directly in a fixed transfer container, or for a conventional pathological / biological sample containing the biopsy sample. The sample data including the clinical data that can be fixedly transferred to the biopsy sample and reliably transmitted (messenger) and linked (linked) without directly immersing the cassette in the fixative solution. It is fixed transfer integrally.

更にまた解決しようとする問題点は、従来病理・生物試料用カセットの様に蓋を医療廃棄物にしないで、前記試料ブロックカセットの台木である包埋枠状基体と一体として利用することである。   Further, the problem to be solved is that the lid is not used as a medical waste unlike the cassette for pathological / biological samples in the past, but it is used as an integrated frame base material which is a rootstock of the sample block cassette. is there.

また更に解決しようとする問題点は、包埋作業に於いて作業性は同じで、従来の包埋法(図43)より更にバリ(図43の12a・12b)の発生少ない完全なバリ無し包埋が出来るカセットシステムのユニットとしての包埋皿と包埋方法を確立して、試料包埋ブロックカセット周囲のバリ取り作業を無くしその作業時に生じる試料ブロックの台木である包埋枠状基体のデータ記録部・記録部の破損や傷が付くこと防止して作業性を高めすることである。   Furthermore, the problem to be solved is the same burrability in embedding work, and complete burr-free packaging with less burr (12a and 12b in Fig. 43) than the conventional embedding method (Fig. 43). Establish an embedding dish and embedding method as a cassette system unit that can embed, eliminate the deburring work around the sample embedding block cassette, This is to improve the workability by preventing the data recording unit / recording unit from being damaged or scratched.

更にまた解決しようとする問題点は、もしトラブルが生じたら後日検証可能にすることである。   A further problem to be solved is that if trouble occurs, it can be verified at a later date.

また更に解決しようとする問題点は、従来の病理・生物試料用カセットには無い、ユビキタスとユニットのシステムの合体を可能にしたユビキタス・ユニットカセットシステムを構築することである。   A further problem to be solved is to construct a ubiquitous unit cassette system that enables the ubiquitous and unit system to be combined, which is not found in conventional cassettes for pathological / biological samples.

更にまた解決しようとする問題点は、上記の従来の病理・生物試料用カセットにはない多種の便利性や機能性を保持しながら、その使用工程は殆ど増えないことである。   Furthermore, the problem to be solved is that the number of use steps is hardly increased while maintaining various conveniences and functions not found in the conventional cassette for pathological / biological samples.

本発明は、上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)Xと該底部(ユニット1)Xの上側開口部X9に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体(ユニット2)Yと包埋枠状基体(ユニット3)Zの機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記底部Xは、前記包埋枠状基体(ユニット3)Zとは分離独立した上側に開口部X9を形成し該上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11を形成し、その下側に少なくとも底部に多孔通液性底面X10を形成した試料収納部X6からなる生物試料収納固定移送処理用多孔容器状底部(ユニット1)X であり、前記包埋枠状基体(ユニット3)Zの介在がなくても該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9に前記多孔通液孔Y3を有する蓋体(ユニット2)Yが独自に互いに脱着自在に嵌合・連結して試料5aの固定移送と薬液処理と試料データの伝達連結をする独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)を構築することができ、更に、該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)は前記包埋枠状基体(ユニット3)Zとも脱着自在に嵌合・連結して試料データの確定とバリ無し包埋ブロックの台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)(X and Y and Z)を構築する3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体であることを特徴とする病理・生物試料用ユニットシステムカセットである。
The present invention includes an embedded frame-shaped base body having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a detachable fitting / connecting to the upper opening of the embedded frame-shaped base. A pathological / biological sample cassette comprising a lid having a porous liquid passage hole;
A lid (unit 2) Y having a bottom (unit 1) X and a porous liquid-permeable surface Y3 that is detachably fitted and connected to the upper opening X9 of the bottom (unit 1) X and an embedded frame base (unit 3) Molding the functional form of Z as three separate structural units,
The bottom X forms an opening X9 on the upper side that is separated and independent from the embedded frame base (unit 3) Z, and forms a bowl-shaped plane X11 that protrudes in the horizontal direction surrounding the outer periphery of the upper opening X9. And a bottom portion (unit 1) X for biological sample storage and transfer processing comprising a sample storage portion X6 having a porous liquid-permeable bottom surface X10 formed at least on the bottom side thereof, and the embedded frame-shaped substrate ( Unit 3) A lid (unit 2) Y having the porous liquid passage hole Y3 in the upper opening X9 of the porous container-like bottom part (unit 1) X for biological sample storage and transfer processing is unique even without the presence of Z. The biological sample storage fixed transfer processing porous container cage (unit structure 1) (X) which has independent functions for fixing and transferring the sample 5a, chemical solution processing, and sample data transmission connection by detachably fitting and connecting to each other and Y), and the biological sample storage fixed transfer process The porous perforated vessel (unit structure 1) (X and Y) is detachably fitted and connected to the embedded frame base (unit 3) Z to determine the sample data and to mount the burr-free embedded block. Unit system embedding frame shape consisting of a three-unit system composite structure that constructs a fixed support base (unit structure 3) (X and Y and Z) capable of carrying the function of a tree and a conventional cassette for pathology and biological samples It is a unit system cassette for pathological / biological samples characterized by being a substrate structure.

また本発明は、上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)Xと、底部(ユニット1)Xと包埋枠状基体(ユニット3)Wの上側開口部(X9 and W18)に脱着自在に嵌合・連結する多孔通液孔Y3を有する蓋体(ユニット2)Yと包埋枠状基体(ユニット3)Wの機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記底部Xは、前記包埋枠状基体(ユニット3)Wとは分離独立した上側に開口部X9を形成し該上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11を形成し、その下側に少なくとも底部に多孔通液性底面X10を形成した試料収納部X6からなる生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xであり、前記包埋枠状基体(ユニット3)Wの介在がなくても該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9に前記多孔通液孔Y3を有する蓋体(ユニット2)Yが独自に互いに脱着自在に嵌合・連結して試料の固定移送と薬液処理と試料データの伝達連結をする独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)を構築することができ、前記包埋枠状基体(ユニット3)Wは、前記底部Xである生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xとは異なる多孔通液性底部W10を形成する包埋枠状基体(ユニット3)Wであり、該包埋枠状基体(ユニット3)Wの上側開口部W18に前記多孔通液孔Y3を有する蓋体(ユニット2)Yが独自に互いに脱着自在に嵌合・連結して試料データの確定とバリ無し包埋ブロックの台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)(Y and W)を構築する。
該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)と該固定用支持基台(ユニット構成体3)(Y and W)の構成ユニットである前記多孔通液孔Y3を有する蓋体(ユニット2)Yを共有活用できる3ユニットシステム複合構成体からなる独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)と固定用支持基台(ユニット構成体3)(Y and W)とで構成するユニットシステム包埋枠状基体構成体であることを特徴とする病理・生物試料用ユニットシステムカセットである。
The present invention also provides an embedded frame base having an opening formed on the upper side and a porous liquid-permeable bottom formed on the lower side thereof, and an upper opening of the embedded frame-shaped base so as to be detachably fitted. In a pathological / biological sample cassette comprising a lid having a perforated liquid passage to be connected;
It has a bottom (unit 1) X, and a porous liquid passage hole Y3 that is detachably fitted and connected to the bottom (unit 1) X and the upper opening (X9 and W18) of the embedded frame-shaped base (unit 3) W. The functional forms of the lid (unit 2) Y and the embedded frame-shaped base (unit 3) W are molded as three separate structural units,
The bottom X forms an opening X9 on the upper side that is separated and independent from the embedded frame base (unit 3) W, and forms a bowl-shaped plane X11 that protrudes in the horizontal direction surrounding the outer periphery of the upper opening X9. And a bottom part (unit 1) X for biological sample storage and transfer treatment comprising a sample storage part X6 having a porous liquid-permeable bottom surface X10 formed at least on the bottom side thereof, and the embedded frame-like substrate ( Unit 3) Even if there is no W, the lid (unit 2) Y having the porous liquid passing hole Y3 in the upper opening X9 of the porous container-like bottom part (unit 1) X for biological sample storage and transfer processing is unique. Porous container for biological sample storage and transfer processing (unit structure 1) (X and X), which have independent functions for detachably fitting and connecting to each other to perform fixed transfer of sample, chemical solution processing and sample data transfer connection Y) can be constructed, and the embedded frame substrate (unit 3) W is An embedding frame-like substrate (unit 3) W that forms a porous liquid-permeable bottom W10 different from the bottom X, which is a porous container-like bottom (unit 1) X for biological sample storage and transfer processing, and the embedding frame The lid (unit 2) Y having the porous liquid passage hole Y3 is detachably fitted to and connected to the upper opening W18 of the substrate (unit 3) W, and the sample data is determined and embedded without burrs. The support base for fixing (unit structure 3) (Y and W) that can support the function of the block stock and the conventional cassette function for pathological / biological samples is constructed.
The porous liquid through-hole, which is a constituent unit of the biological sample storage fixed transfer treatment porous container jar (unit structure 1) (X and Y) and the fixing support base (unit structure 3) (Y and W) Lid with Y3 (Unit 2) 3 units system composite structure that can share Y It is a unit system cassette for pathological / biological samples, characterized in that it is a unit system-embedded frame-shaped substrate structure composed of a support base (unit structure 3) (Y and W).

また本発明は、上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)Xと底部(ユニット1)Xの上側開口部X9に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体(ユニット2)Yと包埋枠状基体(ユニット3)Zの機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記包埋枠状基体(ユニット3)Zは、上側に開口部Z18を有し、該開口部Z18周囲を囲む外壁上部上端面Z6或いは該開口部Z18に連なる内壁に内側に向けて突設された凸状平面Z6が形成され、該上側開口部Z18周囲を囲む外壁上部の両長辺上端面Z6の端面上に外側長辺側壁Z15を立設延長形成した包埋枠状基体(ユニット3)Zであり、該包埋枠状基体(ユニット3)Zの両外側長辺側壁上端面Z5は、前記生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11の厚さと該底部(ユニット1)Xの開口部X9に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体(ユニット2)Yの多孔通液面Y3の外周を囲む開閉誘導リブY8の外周平面Y10の厚さを重ねた厚さ分だけ、前記包埋枠状基体(ユニット3)Zの開口部Z18周囲を囲む外壁上部上端面Z6と該開口部Z18に連なる内壁に内側に向けて突設された凸状平面Z6より高い位置に成形される。
前記生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)の構成体ユニットである該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと該底部(ユニット1)Xの上側開口部X9に脱着自在に嵌合・連結する多孔通液面Y9を有する蓋体(ユニット2)Yは、該底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11の長側辺と該蓋体(ユニット2)Yの多孔通液面Y9の外周を囲む開閉誘導リブY8の外周平面の長側辺とを前記包埋枠状基体(ユニット3)Zの両外側長辺側壁Z15が挟持嵌合できる形状に切り欠け部(X11a and Y10a)を形成した底部(ユニット1)Xと蓋体(ユニット2)Yであり、該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11と蓋体(ユニット2)Yの多孔通液面Y9の外周を囲む開閉誘導リブY8の外周平面の厚さは前記包埋枠状基体(ユニット3)Zの外側長辺側壁Z15内に全て収納され、該包埋枠状基体(ユニット3)Zの側壁外側のデータ記録部の面積が広く保たれ、該蓋体(ユニット2)Yを廃棄することなく、試料データの確定とバリ無し包埋ブロックの台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)(X and Y and Z)である包埋ブロックの台木の一部として一体的に埋込活用して包埋ブロックを作製できる3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体であることを特徴とする病理・生物試料用ユニットシステムカセットである。
The present invention also provides an embedded frame base having an opening formed on the upper side and a porous liquid-permeable bottom formed on the lower side thereof, and an upper opening of the embedded frame-shaped base so as to be detachably fitted. In a pathological / biological sample cassette comprising a lid having a perforated liquid passage to be connected;
A lid (unit 2) Y having a porous liquid-permeable surface Y3 that is detachably fitted and connected to the bottom (unit 1) X and the upper opening X9 of the bottom (unit 1) X and an embedded frame base (unit 3) ) Forming the functional form of Z as three separate structural unit units,
The embedded frame base (unit 3) Z has an opening Z18 on the upper side, and protrudes inwardly on the upper upper end surface Z6 of the outer wall surrounding the periphery of the opening Z18 or on the inner wall continuous to the opening Z18. An embedding frame-like base body (unit 3) in which an outer long side wall Z15 is erected and extended on the end surfaces of both long side upper end surfaces Z6 of the upper part of the outer wall surrounding the upper opening Z18. Z, and the outer long side wall upper end surface Z5 of the embedding frame-shaped substrate (unit 3) Z is the outer periphery of the upper opening X9 of the porous container-like bottom part (unit 1) X for biological sample storage and transfer processing Of the lid (unit 2) Y having a thickness of a bowl-shaped plane X11 projecting in a horizontal direction surrounding the base and a porous liquid-permeable surface Y3 detachably fitted and connected to the opening X9 of the bottom (unit 1) X The embedded frame-shaped substrate (unit 3) Z is the same as the thickness of the outer peripheral plane Y10 of the open / close guide rib Y8 surrounding the outer periphery of the porous liquid passing surface Y3. The outer wall upper upper end surface Z6 surrounding the periphery of the opening Z18 and a convex plane Z6 projecting inwardly on the inner wall continuous to the opening Z18 are formed at a higher position.
Biological sample storage fixed transfer processing porous container bottom (unit 1) X and the bottom (unit), which are constituent units of the biological sample storage fixed transfer processing porous container basket (unit structure 1) (X and Y) 1) A lid (unit 2) Y having a porous liquid passing surface Y9 detachably fitted and connected to the upper opening X9 of X is a horizontal surrounding the outer periphery of the upper opening X9 of the bottom (unit 1) X The long side of the bowl-shaped plane X11 projecting in the direction and the long side of the outer peripheral plane of the open / close guide rib Y8 surrounding the outer periphery of the porous liquid passing surface Y9 of the lid (unit 2) Y are formed in the shape of the embedded frame. A base (unit 1) X and a lid (unit 2) Y in which cutouts (X11a and Y10a) are formed in a shape that allows both outer side long side walls Z15 of the base body (unit 3) Z to be sandwiched and fitted; Perforated in the horizontal direction surrounding the outer periphery of the upper opening X9 of the porous container-like bottom part (unit 1) X for sample storage, fixed transfer processing The thickness of the outer peripheral plane of the opening / closing guide rib Y8 surrounding the outer periphery of the perforated liquid passing surface Y9 of the bowl-shaped plane X11 and the lid (unit 2) Y is the outer long side wall Z15 of the embedded frame-shaped substrate (unit 3) Z. The area of the data recording portion outside the side wall of the embedded frame-shaped substrate (unit 3) Z is kept large, and the sample data can be confirmed without discarding the lid (unit 2) Y. One of the root blocks of the embedding block, which is a fixed support base (unit structure 3) (X and Y and Z) that can support the function of the root block of the burr-free embedding block and the conventional cassette function for pathology and biological samples It is a unit system cassette for pathological / biological samples characterized in that it is a unit system embedding frame-like substrate structure composed of a three-unit system composite structure that can be embedded and used integrally as a part. .

更にまた本発明は、上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)Xと、底部(ユニット1)Xと包埋枠状基体(ユニット3)Wの上側開口部(X9 and W18)に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体(ユニット2)Yと包埋枠状基体(ユニット3)Wの機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記包埋枠状基体(ユニット3)Wは、上側に開口部W18を有し下側に前記底部(ユニット1)とは異なる多孔通液性底部W10を形成する包埋枠状基体(ユニット3)Wであり、該上側開口部W18の周囲を囲む外壁上部上端面W6或いは該上側開口部W18に連なる収納内壁に内側に向けて突設された凸状平面W6が形成され、該上側開口部W18周囲を囲む外壁上部の両長辺上端面W5の端面上に外側長辺側壁W15を立設延長形成した包埋枠状基体(ユニット3)Wであり、該包埋枠状基体(ユニット3)Wの両側長辺側壁W15の上端面W15は、前記生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9に脱着自在に嵌合・連結する多孔通液面Y9を有する蓋体(ユニット2)Yの多孔通液面Y9の外周を囲む開閉誘導リブY8の外周平面の厚さ分だけ前記包埋枠状基体(ユニット3)Wの開口部W18周囲を囲む外壁上部上端面W6と該開口部W18に連なる内壁に内側に向けて突設された凸状平面W6より高い位置に成形されている。
前記生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)の構成体ユニットである該生物試料収納固定移送処理用多孔容器状底部(ユニット1)の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体(ユニット2)は、該蓋体(ユニット2)の多孔通液面の外周を囲む開閉誘導リブの外周平面の長側辺を前記包埋枠状基体(ユニット3)の両外側長辺側壁が挟持嵌合できる形状に切り欠け部を形成した蓋体であり、該生物試料収納固定移送処理用多孔容器状底部(ユニット1)の蓋体(ユニット2)は前記包埋枠状基体(ユニット3)の蓋体(ユニット2)としても共有活用されて、該蓋体(ユニット2)の多孔通液面の外周を囲む開閉誘導リブの外周平面の厚さは該包埋枠状基体(ユニット3)内に全て収納され側壁外側のデータ記録部の面積が広く保たれる。また、該多孔通液孔を有する蓋体(ユニット2)が該包埋枠状基体(ユニット3)の長辺側壁内に収まりカセット収納容積の減少を防ぐために、その厚さ分該包埋枠状基体(ユニット3)の多孔通液性底部の成形位置をカセットブロック薄切時のアダプター固定爪位置Z14の底面より狭い面積で突設成形した袴状の突設側壁Z11に成形する。
該包埋枠状基体(ユニット3)Wは前記生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)の構成ユニットである前記多孔通液面Y9を有する蓋体(ユニット2)Yを該包埋枠状基体(ユニット3)Wの上側開口部W18にも脱着自在に嵌合・連結する多孔通液面Y9を有する蓋体として共有できて、該蓋体(ユニット2)Yを廃棄することなく、包埋ブロックの台木の一部として一体的に埋込活用して包埋ブロックを作製できるブロック試料の固定用支持基台(ユニット構成体3)(Y and W)を構築することができる。該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)と該固定用支持基台(ユニット構成体3)(Y and W)の構成ユニットである前記多孔通液面Y9を有する蓋体(ユニット2)Yを共有活用できる3ユニットシステム複合構成体からなる独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)と独立した試料データの確定とバリ無し包埋ブロック試料の台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)(Y and W)とで構成することを特徴とする病理・生物試料用ユニットシステムカセットある。
Furthermore, the present invention provides an embedding frame-like base body having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a removably fitted to the upper opening of the embedding frame-like base. -In a cassette for pathological / biological samples consisting of a lid having a perforated liquid passage hole to be connected;
It has a bottom (unit 1) X and a porous liquid-permeable surface Y3 that is detachably fitted and connected to the bottom (unit 1) X and the upper opening (X9 and W18) of the embedded frame base (unit 3) W. The functional forms of the lid (unit 2) Y and the embedded frame-shaped base (unit 3) W are molded as three separate structural units,
The embedded frame-shaped substrate (unit 3) W has an opening W18 on the upper side and an embedded frame-shaped substrate (unit 3) forming a porous liquid-permeable bottom W10 different from the bottom (unit 1) on the lower side. ) W and a convex flat surface W6 projecting inwardly is formed on the upper upper end surface W6 of the outer wall that surrounds the periphery of the upper opening W18 or on the storage inner wall that is continuous with the upper opening W18, and the upper opening W8 is an embedded frame substrate (unit 3) W in which an outer long side wall W15 is extended and formed on the end surfaces of both upper ends W5 at the upper part of the outer wall surrounding the periphery of W18, and the embedded frame substrate (unit 3). ) The upper end surface W15 of the long side wall W15 on both long sides of W is a porous liquid surface Y9 that is detachably fitted and connected to the upper opening X9 of the porous container-like bottom part (unit 1) X for biological sample storage and transfer processing The embedding frame by the thickness of the outer peripheral plane of the open / close guide rib Y8 surrounding the outer periphery of the porous liquid-permeable surface Y9 of the lid (unit 2) Y having Are molded into the base body (unit 3) W higher than the convex plane W6 which projects inwardly to the inner wall contiguous to the outer wall upper upper surface W6 and opening W18 surrounding the opening W18 surrounding.
Removably fitted to the upper opening of the biological sample storage fixed transfer processing porous container bottom part (unit 1), which is a constituent unit of the biological sample storage fixed transfer processing porous container container (unit structure 1). The lid body (unit 2) having the porous liquid passage hole to be connected has the long side of the outer peripheral plane of the open / close guide rib surrounding the outer circumference of the porous liquid passage surface of the lid body (unit 2). A lid body in which the outer side long side walls of the unit 3) are formed in a shape that can be sandwiched and fitted, and a lid body (unit 2) of the porous container-like bottom part (unit 1) for biological sample storage and transfer processing Is shared and used as a lid (unit 2) of the embedded frame substrate (unit 3), and the thickness of the outer peripheral plane of the open / close guide rib surrounding the outer periphery of the porous liquid-permeable surface of the lid (unit 2). Are all contained in the embedded frame base (unit 3) and are side walls. Area of the data recording portion of the side is maintained widely. Further, in order to prevent the cover (unit 2) having the porous liquid passage hole from being accommodated in the long side wall of the embedding frame-like base (unit 3) and preventing the cassette storage volume from being reduced, the embedding frame corresponding to the thickness thereof is used. The forming position of the porous liquid-permeable bottom portion of the base substrate (unit 3) is formed into a bowl-shaped protruding side wall Z11 protrudingly formed in an area narrower than the bottom surface of the adapter fixing claw position Z14 when the cassette block is sliced.
The embedded frame-shaped substrate (unit 3) W is a lid having the porous liquid-permeable surface Y9 which is a component unit of the biological sample storage fixed transfer processing porous container basket (unit component 1) (X and Y) ( Unit 2) Y can be shared as a lid having a porous liquid-permeable surface Y9 that is also detachably fitted to and connected to the upper opening W18 of the embedded frame base (unit 3) W. 2) A supporting base for fixing a block sample (unit structure 3) that can be embedded and used as a part of the root block of the embedding block without discarding Y. W) can be built. The porous liquid-permeable surface, which is a structural unit of the biological sample storage fixed transfer processing porous container bowl (unit structural body 1) (X and Y) and the fixing support base (unit structural body 3) (Y and W) Lid with unit Y9 (Unit 2) Independent of porous specimen container (unit structure 1) (X and Y) for biological sample storage and transfer processing, which has independent functions consisting of a 3 unit system composite structure that can share Y Of fixed sample data, function of rootstock of burr-free embedded block sample, and fixed support base (unit structure 3) (Y and W) capable of carrying conventional pathology / biological sample cassette function There is a unit system cassette for pathological and biological samples characterized by

更にまた本発明は、上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)Xと底部(ユニット1)Xの上側開口部X9に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体(ユニット2)Yと包埋枠状基体(ユニット3)Zの機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記底部(ユニット1)Xである生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと前記包埋枠状基体(ユニット3)Zとの2ユニットシステム複合構成体で構築される病理組織試料用カセットの機能形態であるユニットシステム包埋枠状基体多孔通液性容器底部(ユニット構成体2)(X and Z)の構成ユニットである該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xが、
多孔通液性底面X10を形成した試料収納部X6と上側開口部X9の外周を囲む水平方向に突設した該鍔状平面X11とで構成される該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した該鍔状平面X11の少なくても1辺を該包埋枠状基体(ユニット3)Zの外側面のデータ記録部の傾斜面Z1に沿って延長成形して、該包埋枠状基体(ユニット3)Zの外周側面に傾斜形成設置されたデータ記録部Z1を抑え覆う保護板兼データ記録部X1を一体的に成形した2ユニットシステム複合構成体で構築される病理・生物試料用カセットの機能形態であるユニットシステム包埋枠状基体多孔通液性容器底部(ユニット構成体2)(X and Z)の構成ユニットであることを特徴とする病理・生物試料用ユニットシステムカセットの構成体ユニットである保護板兼データ記録部付き多孔通液性容器状底部(ユニット1)Xである。
Furthermore, the present invention provides an embedding frame-like base body having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a removably fitted to the upper opening of the embedding frame-like base. -In a cassette for pathological / biological samples consisting of a lid having a perforated liquid passage hole to be connected;
A lid (unit 2) Y having a porous liquid-permeable surface Y3 that is detachably fitted and connected to the bottom (unit 1) X and the upper opening X9 of the bottom (unit 1) X and an embedded frame base (unit 3) ) Forming the functional form of Z as three separate structural unit units,
Pathology constructed by a two-unit system composite structure of the bottom part (unit 1) X, which is a porous container-like bottom part (unit 1) X for biological sample storage and transfer processing, and the embedded frame-like substrate (unit 3) Z. Unit system embedded frame-like substrate porous liquid-permeable container bottom part (unit structure 2) (X and Z) which is a functional form of the tissue sample cassette (Unit 1) X is
Porous container-like bottom part for biological sample storage fixed transfer processing comprising a sample storage part X6 in which a porous liquid-permeable bottom surface X10 is formed and the bowl-like plane X11 projecting in a horizontal direction surrounding the outer periphery of the upper opening X9 (Unit 1) A data recording section on the outer surface of the embedded frame-shaped substrate (unit 3) Z at least one side of the bowl-shaped plane X11 projecting in the horizontal direction surrounding the outer periphery of the upper opening X9 of X A protective plate and data recording part X1 are integrally formed by extending and molding along the inclined surface Z1 to suppress and cover the data recording part Z1 which is inclined and installed on the outer peripheral side surface of the embedded frame-shaped substrate (unit 3) Z. Unit unit of unit system embedding frame-like substrate porous liquid-permeable container (unit structure 2) (X and Z), which is a functional form of a cassette for pathological / biological samples constructed by a molded two-unit system composite structure A unit system cassette for pathological and biological samples characterized by This is a porous liquid-permeable container-like bottom portion (unit 1) X with a protective plate and a data recording portion, which is a structural unit of the lid.

更にまた本発明は、上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)Xと底部(ユニット1)Xの上側開口部X9に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体(ユニット2)Yと包埋枠状基体(ユニット3)Zの機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記底部(ユニット1)Xである生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと該底部(ユニット1)Xの上側開口部X9に独自に互いに脱着自在に嵌合・連結する前記多孔通液面Y3を有する蓋体(ユニット2)Yとの2ユニットシステム複合構成体で構築される独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)の構成ユニットである該底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した該鍔状平面X11の少なくても1辺を前記包埋枠状基体(ユニット3)Zの外側面のデータ記録部の傾斜面Z1に沿って延長成形して、該包埋枠状基体(ユニット3)Zの外周側面に傾斜形成設置されたデータ記録部Z11を保護し抑え覆う該底部(ユニット1)Xの保護板兼データ記録部X1を更に保護するために、前記多孔通液面Y3を有する蓋体(ユニット2)Yの多孔通液面Y3の外周を囲む開閉誘導リブY8の外周平面の少なくても1辺にも同様に一体的保護板Y1を成形して、該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの保護板兼データ記録部X1上の汚れや該データ記録部に印字貼られたデータラベルの剥離や汚れを防止する保護板Y1付き蓋体(ユニット2)Yと保護板兼データ記録部X1付き底部(ユニット1)Xとの2ユニットシステム複合構成体で構築される独立した機能を担う試料データ記録部付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)の2重のデータ記録部兼保護板(X1 and Y1)が前記包埋枠状基体(ユニット3)Zの外側面のデータ記録部Z1を挟持保護して多孔通液面Y3を有する蓋体Yを廃棄しないで活用できる3ユニットシステム複合構成体で構築される試料データの確定とバリ無し包埋ブロックの台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)(X and Y and Z)で構成されることを特徴とする病理・生物試料用ユニットシステムカセットの構成体ユニットである保護板兼データ記録部付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと保護板付き多孔通液面Y3を有する蓋体(ユニット2)Yである。
Furthermore, the present invention provides an embedding frame-like base body having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a removably fitted to the upper opening of the embedding frame-like base. -In a cassette for pathological / biological samples consisting of a lid having a perforated liquid passage hole to be connected;
A lid (unit 2) Y having a porous liquid-permeable surface Y3 that is detachably fitted and connected to the bottom (unit 1) X and the upper opening X9 of the bottom (unit 1) X and an embedded frame base (unit 3) ) Forming the functional form of Z as three separate structural unit units,
The bottom part (unit 1) X is a biological sample storage fixed transfer processing porous container-like bottom part (unit 1) X and the bottom part (unit 1) X. Porous container container for biological sample storage and transfer processing (unit structure 1) (X) having an independent function constructed by a two-unit system composite structure with the lid (unit 2) Y having the porous liquid-permeable surface Y3 and Y) at least one side of the bowl-shaped plane X11 projecting in the horizontal direction surrounding the outer periphery of the upper opening X9 of the bottom (unit 1) X, which is a constituent unit of the bottom (unit 1) X, 3) The data recording part Z11 which is extended and formed along the inclined surface Z1 of the data recording part on the outer side surface of Z to be inclined and installed on the outer peripheral side surface of the embedded frame base (unit 3) Z is protected and suppressed. Further protects the protective plate and data recording part X1 of the bottom part (unit 1) X In order to achieve this, an integral protective plate is formed on at least one side of the outer peripheral plane of the opening / closing guide rib Y8 surrounding the outer periphery of the porous liquid passing surface Y3 of the lid (unit 2) Y having the porous liquid passing surface Y3. Y1 is molded, dirt on the protective plate and data recording part X1 of the porous container-like bottom part (unit 1) X for biological sample storage fixed transfer processing, and peeling and dirt of the data label printed on the data recording part Sample data recording unit with independent function constructed by a two-unit system composite structure of a lid (unit 2) Y with protection plate Y1 and a bottom plate (unit 1) X with protection plate / data recording unit X1 Double data recording / protection plate (X1 and Y1) of perforated container for biological sample storage fixed transfer processing (unit structure 1) (X and Y) of the embedded frame-shaped substrate (unit 3) Z Clamping and protecting the outer side data recording part Z1 and discarding the cover Y with the porous liquid passing surface Y3 Fixed support base (unit composition) that can support the function of rootstock of burr-free embedding block and conventional cassette for pathology / biological sample, and confirmation of sample data constructed with 3 unit system composite structure that can be utilized without using 3) Pathological / biological sample unit system cassette composed of (X and Y and Z) (Unit 1) A lid (unit 2) Y having X and a porous liquid-permeable surface Y3 with a protective plate.

また更に本発明は、上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)Xと、底部(ユニット1)Xと包埋枠状基体(ユニット3)Wの上側開口部(X9 and W18)に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体(ユニット2)Yと包埋枠状基体(ユニット3)Wの機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記底部(ユニット1)Xである生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと該底部(ユニット1)Xの上側開口部X9に独自に互いに脱着自在に嵌合・連結する前記多孔通液面Y3を有する蓋体(ユニット2)Yとの2ユニットシステム複合構成体で構築される独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)と前記包埋枠状基体(ユニット3)Wから構築される3ユニットシステム複合構成体である病理・生物試料用ユニットシステムカセットの構成体ユニットである該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11の少なくても1辺を該包埋枠状基体(ユニット3)Wの外周側面に傾斜形成設置されたデータ記録部W1と同じ傾斜角度で延長してデータ記録部X1を成形し、更に該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xに形成されたデータ記録部X1に沿って該底部(ユニット1)Xに脱着自在に嵌合・連結する前記多孔通液面Y3を有する蓋体(ユニット2)Yの多孔通液面Y3の外周を囲む開閉誘導リブY8の外周平面の少なくても1辺にも同様に一体的保護板Y1を前記生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xに形成されたデータ記録部X1を保護し抑え覆う形状に成形して、該データ記録部付き底部(ユニット1)Xと該底部(ユニット1)Xの上側開口部X9に独自に互いに脱着自在に嵌合・連結する前記多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Yとの2ユニットシステム複合構成体で構築される独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)の構成ユニットである多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Yが、前記包埋枠状基体(ユニット3)Wの外周側面に傾斜形成設置されたデータ記録部W1を保護できる保護板Y1付き蓋体(ユニット2)Yとして共有活用できることを特徴とする病理・生物試料用ユニットシステムカセットの2ユニットシステム複合構成体であるデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)である。
Furthermore, the present invention provides an embedding frame-like base body having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a releasable fitting to the upper opening of the embedding frame-like base. -In a cassette for pathological / biological samples consisting of a lid having a perforated liquid passage hole to be connected;
It has a bottom (unit 1) X and a porous liquid-permeable surface Y3 that is detachably fitted and connected to the bottom (unit 1) X and the upper opening (X9 and W18) of the embedded frame base (unit 3) W. The functional forms of the lid (unit 2) Y and the embedded frame-shaped base (unit 3) W are molded as three separate structural units,
The bottom part (unit 1) X is a biological sample storage fixed transfer processing porous container-like bottom part (unit 1) X and the bottom part (unit 1) X. Porous container container for biological sample storage and transfer processing (unit structure 1) (X) having an independent function constructed by a two-unit system composite structure with the lid (unit 2) Y having the porous liquid-permeable surface Y3 and Y) and a porous unit for a biological sample storage and transfer process which is a component unit of a unit system cassette for pathology / biological sample which is a three-unit system composite component constructed from the embedded frame-like substrate (unit 3) W At least one side of the bowl-shaped plane X11 protruding in the horizontal direction surrounding the outer periphery of the upper opening X9 of the container-shaped bottom (unit 1) X is inclined to the outer peripheral side surface of the embedded frame-shaped substrate (unit 3) W. Formed data record The data recording part X1 is formed by extending at the same inclination angle as W1, and the bottom (unit) is formed along the data recording part X1 formed on the porous container-like bottom part (unit 1) X for biological sample storage fixed transfer processing. 1) At least one side of the outer peripheral plane of the opening / closing guide rib Y8 surrounding the outer periphery of the porous liquid-permeable surface Y3 of the lid (unit 2) Y having the porous liquid-permeable surface Y3 detachably fitted and connected to X Similarly, the integrated protective plate Y1 is formed into a shape that protects and suppresses the data recording portion X1 formed on the bottom portion (unit 1) X of the biological sample storage fixed transfer processing, and the data recording portion A lid with a protective plate Y1 having the porous liquid-permeable surface Y3 that is detachably fitted to and connected to the bottom portion (unit 1) X and the upper opening X9 of the bottom portion (unit 1) X independently (unit 2) Organism with independent functions constructed with a two-unit system complex with Y A cover (unit 2) Y with a protective plate Y1 having a porous liquid-permeable surface Y3, which is a constituent unit of the porous container for sample storage and transfer processing (unit structure 1) (X and Y) is formed in the shape of the embedded frame. A unit system cassette for pathological / biological specimens characterized in that it can be shared and used as a lid (unit 2) Y with a protective plate Y1 that can protect the data recording part W1 inclined and installed on the outer peripheral side surface of the substrate (unit 3) W It is a perforated container basket (unit structure 1) (X and Y) for biological sample storage fixed transfer processing with a data recording part and protective plate which is a two-unit system composite structure.

また更に本発明は、上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)Xと底部(ユニット1)Xの上側開口部X9に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体(ユニット2)Yと包埋枠状基体(ユニット3)Zの機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記包埋枠状基体(ユニット3)Zは、上側に開口部Z18を有し、該開口部Z18の周囲を囲む外壁上部上端面Z6或いは該上側開口部Z18に連なる内壁に内側に向けて突設された凸状平面Z6を形成し、該包埋枠状基体(ユニット3)Zの外側壁の両前部外側面Z15に上端面Z6から下端面Z14に通じる凹部Z8を形成して、該凹部Z8の上部に前記底部(ユニット1)Xとも脱着自在に嵌合・連結する前記蓋体(ユニット2)Yの前部両側凸状垂設係止部Y2の掛け止め部Z9を該包埋枠状基体(ユニット3)Zの両前部外側凹部に外側面の上側一部を凹部側に掛け止め部Z9として凸設状に残し形成し、後部外壁にも前記蓋体(ユニット2)Yの後部の係止部Y4を掛け止める掛け止め部Z12を成形した包埋枠状基体(ユニット3)Zであり、該包埋枠状基体(ユニット3)Zは底部(ユニット1)Xと蓋体(ユニット2)Yと脱着自在に嵌合・連結して3ユニットシステム複合構成体である固定用支持基台(ユニット構成体3)(X and Y and Z)を構築する。
前記底部(ユニット1)Xは、前記包埋枠状基体(ユニット3)Zとは分離独立した上側に開口部X9を形成し、その下側に少なくとも底部に多孔通液性底面X10を形成した試料収納部X6からなる生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xであり、該底部(ユニット1)Xは上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11を形成し、該鍔状平面X11の前部には前記蓋体(ユニット2)Xの前部凸状垂設係止部Y2の掛け止め部X2があり、該掛け止め部X2は前記包埋枠状基体(ユニット3)Zの外側壁Z15の前記前部両外側凹部Z8に外側面の上側一部を凹部側に掛け止め部Z9として凸設状に残し形成した凹部に一致する切り欠け部X2aの端部X2であり、該底部(ユニット1)Xの後部にも前記蓋体(ユニット2)Yの後部係止部Y4の掛け止め部X5を形成している。該底部(ユニット1)Xは蓋体(ユニット2)Yと脱着自在に嵌合・連結して2ユニットシステム複合構成体である生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)を構築する。
該多孔通液面Y3を有する蓋体(ユニット2)Yは、前部両側に凸状垂設係止部Y2を形成し、後部にも前記底部(ユニット1)Xと前記包埋枠状基体(ユニット3)Zとも共用する係止部Y4を形成している。該蓋体(ユニット2)Yは2ユニットシステム複合構成体で構築される生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)と3ユニットシステム複合構成体で構築される固定用支持基台(ユニット構成体3)(X and Y and Z)との共通の構成ユニットである。
該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと該多孔通液面Y3を有する蓋体(ユニット2)Yと該包埋枠状基体(ユニット3)Zとから構築されるユニットシステム複合構成体である生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)と固定用支持基台(ユニット構成体3)(X and Y and Z)とが同一の多孔通液面Y3を有する蓋体(ユニット2)Yを共有活用することで構築されることを特徴とするユニットシステム包埋枠状基体構成体である病理・生物試料用ユニットシステムカセットである。
Furthermore, the present invention provides an embedding frame-like base body having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a releasable fitting to the upper opening of the embedding frame-like base. -In a cassette for pathological / biological samples consisting of a lid having a perforated liquid passage hole to be connected;
A lid (unit 2) Y having a porous liquid-permeable surface Y3 that is detachably fitted and connected to the bottom (unit 1) X and the upper opening X9 of the bottom (unit 1) X and an embedded frame base (unit 3) ) Forming the functional form of Z as three separate structural unit units,
The embedded frame-shaped substrate (unit 3) Z has an opening Z18 on the upper side, and protrudes inward to the upper upper end surface Z6 of the outer wall surrounding the periphery of the opening Z18 or the inner wall connected to the upper opening Z18. A convex plane Z6 is formed, and concave portions Z8 extending from the upper end surface Z6 to the lower end surface Z14 are formed on both front outer surfaces Z15 of the outer wall of the embedding frame-shaped substrate (unit 3) Z; Embedding the latching portion Z9 of the projecting vertical locking portion Y2 on the front side of the lid (unit 2) Y, which is also detachably fitted and connected to the bottom portion (unit 1) X, on the concave portion Z8. A part of the upper side of the outer side surface is formed in both front outer concave portions of the frame-shaped base (unit 3) Z so as to protrude as a latching portion Z9 on the concave side, and the lid (unit 2) Y is also formed on the rear outer wall. An embedding frame-shaped base (unit 3) Z formed with a latching portion Z12 for latching the rear locking portion Y4. The embedding frame-shaped base (unit 3) Z is a bottom portion (unit 3). 1) A support base for fixing (unit structure 3) (X and Y and Z) which is a three-unit system composite structure by detachably fitting and connecting with X and lid (unit 2) Y To construct.
The bottom (unit 1) X is formed with an opening X9 on the upper side that is separated and independent from the embedding frame-shaped substrate (unit 3) Z, and a porous liquid-permeable bottom surface X10 is formed on at least the bottom on the lower side. It is a porous container-like bottom part (unit 1) X for biological sample storage fixed transfer processing consisting of a sample storage part X6, and the bottom part (unit 1) X protrudes in a horizontal direction surrounding the outer periphery of the upper opening X9. X11 is formed, and at the front part of the bowl-shaped plane X11, there is a latching part X2 of the front convex hanging latching part Y2 of the lid (unit 2) X, and the latching part X2 is Notch that coincides with the recess formed by leaving the upper part of the outer surface of the outer wall Z15 of the outer frame Z15 of the embedded frame-like substrate (unit 3) Z as a latching part Z9 on the recess side. It is an end portion X2 of the portion X2a, and the latching portion X5 of the rear portion locking portion Y4 of the lid (unit 2) Y also on the rear portion of the bottom portion (unit 1) X It is formed. The bottom (unit 1) X is detachably fitted to and coupled to a lid (unit 2) Y, and is a two-unit system composite component porous container container (unit component 1) X and Y).
The lid (unit 2) Y having the porous liquid-permeating surface Y3 is formed with convex hanging locking portions Y2 on both sides of the front part, and the bottom part (unit 1) X and the embedded frame-like base body on the rear part. (Unit 3) A locking portion Y4 shared with Z is formed. The lid (unit 2) Y is constructed with a multi-unit biological assembly containing a two-unit system composite structure for a biological sample storage fixed transfer process (unit structure 1) (X and Y) and a 3-unit system composite structure. This is a common structural unit with the fixed support base (unit structural body 3) (X and Y and Z).
It is constructed from a porous container-like bottom part (unit 1) X for the biological sample storage fixed transfer process, a lid (unit 2) Y having the porous liquid-permeable surface Y3, and an embedded frame-like substrate (unit 3) Z. Perforated vessel for biological sample storage, fixed transfer process (unit structure 1) (X and Y) and support base for fixation (unit structure 3) (X and Y and Z) are the same as unit system composite structure It is a unit system cassette for pathological / biological samples, which is a unit system embedded frame-like substrate structure, which is constructed by shared utilization of a lid (unit 2) Y having a porous liquid-permeable surface Y3 .

また更に本発明は、上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)Xと底部(ユニット1)Xの上側開口部X9に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体(ユニット2)Yと包埋枠状基体(ユニット3)Zの機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記包埋枠状基体(ユニット3)Zは、上側と下側とに開口部(Z18、Z16)を有し、該上側から下側への開口部(Z18、Z16)に連結した貫通孔部Z17を形成し、上側Z18から下側開口部Z16に連結した前記貫通孔部Z17の該上側開口部Z18の周囲を囲む外壁上部上端面Z6或いは該上側開口部Z18に連なる貫通孔部内壁に内側に向けて突設された凸状平面Z6を形成し、該包埋枠状基体(ユニット3)Zの外側壁の両前部外側面Z15に上端面Z6から下端面Z14に通じる凹部Z8を形成して、該凹部Z8の上部に前記底部(ユニット1)Xとも脱着自在に嵌合・連結する前記蓋体(ユニット2)Yの前部凸状垂設係止部Y2の掛け止め部Z9を該包埋枠状基体(ユニット3)Zの両前部外側凹部Z8に外側面の上側一部を凹部側に掛け止め部Z9として凸設状に残し形成し、後部外壁にも前記蓋体(ユニット2)Yの後部の係止部Y4を掛け止める掛け止め部Z12を成形した包埋枠状基体(ユニット3)Zである。
前記底部(ユニット1)Xは、前記包埋枠状基体(ユニット3)Zとは分離独立した上側に開口部X9を形成し、その下側に少なくとも底部に多孔通液性底面X10を形成した試料収納部X6からなる生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xであり、前記包埋枠状基体(ユニット3)Zの介在がなくても該底部(ユニット1)Xの上側開口部X9に前記多孔通液面Y3を有する蓋体(ユニット2)Yが独自に互いに脱着自在に嵌合・連結して独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)を構築することができる。
該底部(ユニット1)Xは上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11を形成し、該鍔状平面X11の前部には前記蓋体(ユニット2)Yの前部の両側凸状垂設係止部Y2の前部両側掛け止め部X2が成形されていて、該底部(ユニット1)Xの前部両側掛け止め部X2は、前記包埋枠状基体(ユニット3)Zの外側壁Z15の前部両外側に上端面Z6から下端面Z14に通じる凹部Z8の上部に外側面の上側一部を凹部側に突設状に残し形成した掛け止め部Z9の上側に重なる形状に成形されている。更に該底部(ユニット1)Xの前部両側掛け止め部X2は該底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11の両側長辺側の切り欠け部X2aの端部で形成されており、該切り欠け部X2aは前記包埋枠状基体(ユニット3)Zの外側壁Z15の前部両外側に上端面Z6から下端面Z14に通じる凹部Z8に重なる形状であり、該包埋枠状基体(ユニット3)Zの凹部Z8の上部外側面の凹部側に突設状に残し形成した掛け止め部Z9の上部に重なる該底部(ユニット1)Xの切り欠け部X2aの端部が前部両側掛け止め部X2に一致する。更に、後部にも前記蓋体(ユニット2)Yの後部係止部Y4の掛け止め部X5を形成した多孔通液性容器状底部(ユニット1)Xであり、前記包埋枠状基体(ユニット3)Zの上側から下側への開口部(Z18、Z16)に連結した貫通孔部Z17に脱着自在に挿入嵌合できる試料収納部X6と該鍔状平面X11を前記包埋枠状基体(ユニット3)Zの開口部Z18外周の上端面Z6上に或いは前記上側開口部Z18に連なる貫通孔部Z17内壁に内側に向けて突設された凸状平面Z6上に掛け止め嵌合設置して、該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xが前記包埋枠状基体(ユニット3)Zの下側開口部Z16側に脱落しない防止機能を持ち、該底部(ユニット1)Xは前記包埋枠状基体(ユニット3)Zと互いに嵌合・連結して2ユニットシステム複合構成体で構築される病理組織試料用カセットの機能形態であるユニットシステム包埋枠状基体多孔通液性容器底部(ユニット構成体2)(X and Z)を構築する。
前記多孔通液面Y3を有する蓋体(ユニット2)Yは、前部両側に凸状垂設係止部Y2を形成し、後部にも前記底部(ユニット1)Xの掛け止め部X5と前記包埋枠状基体(ユニット3)Zの掛け止め部Z12で成す二角の重なりで構築される掛け止め部に掛け止めできる係止部Y4を形成しており、前記底部(ユニット1)Xの上側開口部X9にも脱着自在に嵌合・連結して、更に該底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11を、該多孔通液面Y3を有する蓋体(ユニット2)Yの多孔通液面Yの外周を囲む開閉誘導リブY8の外周平面下と該包埋枠状基体(ユニット3)Zの開口部外周の上端面Z6上に或いは上側開口部Z18に連なる貫通孔部Z17内壁に内側に向けて突設された凸状平面Z6上で挟持して嵌合・連結して固定用支持基台(ユニット構成体3)(X and Y and Z)を構築している。更に該多孔通液面Y3を有する蓋体(ユニット2)Yの前部両側凸状垂設係止部Y2と後部係止部Y4の該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと該包埋枠状基体(ユニット3)Zの前部と後部の掛け止めに於いて、該蓋体(ユニット2)Yの前部両側凸状垂設係止部Y2と後部係止部Y4の該底部(ユニット1)Xと該包埋枠状基体(ユニット3)Zの両前部(図1、図3の拡大図のX2 and Z9・Z10)と後部掛け止め部(図7、図8、図10の拡大図、図11のX5 and Z12)はそれぞれ該底部(ユニット1)Xと該包埋枠状基体(ユニット3)Zの掛け止め部が成す二角の重なりで構築される掛け止め部で構成されるので該蓋体(ユニット2)Yと、該底部(ユニット1)Xと該包埋枠状基体(ユニット3)Zの掛け止め部の嵌合・係止支点は各々共通共用している。該蓋体(ユニット2)Yの係止部と該底部(ユニット1)Xと該包埋枠状基体(ユニット3)Zの掛け止め部の嵌合・係止支点が各々共通共用出来ることを特徴とするユニットシステム包埋枠状基体構成体からなる病理・生物試料用ユニットシステムカセットである。
Furthermore, the present invention provides an embedding frame-like base body having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a releasable fitting to the upper opening of the embedding frame-like base. -In a cassette for pathological / biological samples consisting of a lid having a perforated liquid passage hole to be connected;
A lid (unit 2) Y having a porous liquid-permeable surface Y3 that is detachably fitted and connected to the bottom (unit 1) X and the upper opening X9 of the bottom (unit 1) X and an embedded frame base (unit 3) ) Forming the functional form of Z as three separate structural unit units,
The embedded frame base (unit 3) Z has openings (Z18, Z16) on the upper side and the lower side, and through-holes connected to the openings (Z18, Z16) from the upper side to the lower side Z17 is formed, and the upper end Z18 of the outer wall surrounding the periphery of the upper opening Z18 of the through hole Z17 connected to the lower opening Z16 from the upper side Z18 or the inner side of the inner wall of the through hole continuous to the upper opening Z18 A convex flat surface Z6 projecting toward the surface is formed, and a concave portion Z8 extending from the upper end surface Z6 to the lower end surface Z14 is formed on both front outer surfaces Z15 of the outer wall of the embedded frame-shaped substrate (unit 3) Z. Then, the latching portion Z9 of the front convex hanging latching portion Y2 of the lid (unit 2) Y, which is detachably fitted and connected to the bottom portion (unit 1) X, is formed on the upper portion of the recess Z8. The upper part of the outer surface is formed on both front outer recesses Z8 of the embedded frame-shaped base (unit 3) Z so as to be protruded as a latching part Z9 on the recess side, and the lid is also formed on the rear outer wall. A (unit 2) Y rear of hooked locking portion Y4 retaining portion Z12 molded embedding frame-like base of (unit 3) Z.
The bottom (unit 1) X is formed with an opening X9 on the upper side that is separated and independent from the embedding frame-shaped substrate (unit 3) Z, and a porous liquid-permeable bottom surface X10 is formed on at least the bottom on the lower side. It is a porous container-like bottom part (unit 1) X for biological sample storage fixed transfer processing comprising a sample storage part X6, and the bottom part (unit 1) X can be obtained without the inclusion of the embedded frame-like base (unit 3) Z. A lid (unit 2) Y having the porous liquid-permeable surface Y3 in the upper opening X9 is independently detachably fitted and connected to each other, and has a porous function for a biological sample storage and transfer process (unit) Construct 1) (X and Y) can be constructed.
The bottom (unit 1) X forms a bowl-shaped plane X11 projecting in the horizontal direction surrounding the outer periphery of the upper opening X9, and the front of the lid (unit 2) Y is formed on the front of the bowl-shaped plane X11. The front both-side latching portion X2 of the both-side convex hanging latching portion Y2 is formed, and the front both-side latching portion X2 of the bottom portion (unit 1) X is formed of the embedded frame-shaped base (unit 3) The upper side of the latching part Z9 formed on the both outer sides of the outer wall Z15 of the Z, on the upper part of the concave part Z8 leading from the upper end surface Z6 to the lower end surface Z14, leaving the upper part of the outer surface protruding from the concave side. It is molded into a shape that overlaps Further, the front side latching portions X2 of the bottom portion (unit 1) X are cut on the long sides on both sides of the bowl-shaped plane X11 projecting in the horizontal direction surrounding the outer periphery of the upper opening X9 of the bottom portion (unit 1) X. The notch portion X2a is formed at the end of the notch portion X2a. The notch portion X2a is a recess Z8 leading from the upper end surface Z6 to the lower end surface Z14 on both front sides of the outer wall Z15 of the embedded frame base (unit 3) Z. The bottom portion (unit 1) X that overlaps the upper portion of the latching portion Z9 formed in a protruding manner on the concave side of the upper outer surface of the concave portion Z8 of the embedding frame-like base body (unit 3) Z. The end portion of the notch portion X2a coincides with the front side latching portion X2. Furthermore, it is a porous liquid-permeable container-like bottom part (unit 1) X in which a latching part X5 of the rear part latching part Y4 of the lid (unit 2) Y is formed at the rear part, and the embedded frame-like substrate (unit 3) The sample storage portion X6 that can be removably inserted and fitted into the through-hole portion Z17 connected to the opening portion (Z18, Z16) from the upper side to the lower side of Z and the bowl-shaped plane X11 are connected to the embedded frame-like substrate ( Unit 3) Install and fit on the upper surface Z6 of the outer periphery of the opening Z18 of Z or on the convex flat surface Z6 projecting inwardly on the inner wall of the through hole Z17 connected to the upper opening Z18. The bottom part (unit 1) X for storing and transferring biological specimens has a function of preventing the bottom part (unit 1) X from falling off to the lower opening Z16 side of the embedded frame base (unit 3) Z. ) X is a disease constructed with a two-unit system composite structure by fitting and connecting with the embedded frame base (unit 3) Z. Building unit system embedded frame-like base porous liquid permeability container bottom is a functional form of a tissue sample cassette (the unit structure 2) (X and Z).
The lid (unit 2) Y having the porous liquid-permeable surface Y3 is formed with convex hanging locking portions Y2 on both sides of the front portion, and the latching portion X5 of the bottom portion (unit 1) X and the A locking portion Y4 that can be hooked to a hooking portion constructed by a double overlap formed by the hooking portion Z12 of the embedding frame base (unit 3) Z is formed, and the bottom portion (unit 1) X The perforated liquid-permeable surface is provided with a bowl-shaped plane X11 that is detachably fitted to and connected to the upper opening X9, and further protrudes in the horizontal direction surrounding the outer periphery of the upper opening X9 of the bottom (unit 1) X. On the upper end surface Z6 of the opening outer periphery of the opening / closing guide rib Y8 surrounding the outer periphery of the opening / closing guide rib Y8 surrounding the outer periphery of the porous liquid passing surface Y of the lid (unit 2) Y having Y3 Alternatively, a fixed support base (unit) is formed by sandwiching and fitting and connecting on a convex flat surface Z6 projecting inwardly to the inner wall of the through hole Z17 continuous with the upper opening Z18. G construct 3) (X and Y and Z). Further, the bottom part (unit 1) of the biological sample storage fixed transfer process of the convex protrusions on both front sides of the lid (unit 2) Y having the porous liquid-permeable surface Y3 and the rear locking part Y4. ) In the latching of X and the front and rear of the embedded frame-shaped base (unit 3) Z, the front both-side convex hanging latching portion Y2 and the rear latching of the lid (unit 2) Y The bottom portion (unit 1) X of the portion Y4 and the front portions (X2 and Z9 / Z10 in the enlarged view of FIGS. 1 and 3) and the rear latching portion (FIG. 7) 8 and 10 and X5 and Z12 in FIG. 11 are each constructed by a double overlap formed by the bottom (unit 1) X and the latching portion of the embedded frame-shaped substrate (unit 3) Z. Since it is composed of a latching portion to be fitted, the lid (unit 2) Y, the bottom portion (unit 1) X, and the embedding frame-like base (unit 3) Z latching portion fitting / locking fulcrum Are common to each other I use it. The fitting / locking fulcrum of the latching part of the lid (unit 2) Y, the bottom part (unit 1) X, and the latching part of the embedded frame-like base (unit 3) Z can be shared. It is a unit system cassette for pathological / biological sample comprising a unit system embedding frame-like substrate structure.

また更に本発明は、上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体とから成る病理・生物試料用カセットの包埋枠状基体のデータ記録部等外周部に付着して病理・生物試料包埋ブロックカセットの薄切時に邪魔をして、その除去時にデータ記録部を損傷させる包埋剤の余分なバリを除去又はバリを発生させない包埋皿に於いて;
包埋底部(ユニット4)Sと包埋底部(ユニット4)Sの上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3に嵌合・連結する、上側と下側とに開口部(T6、T11、T13、T19) を有し該上側から下側への開口部に連結した貫通孔部(T12、T14)を形成する上部水密包埋枠部(ユニット5)Tの機能形態を各々分離独立した2種類の素材構成体ユニットとして成形して
包埋底部(ユニット4)Sは熱伝導率の良い金属製板のプレス加工で成形し、該包埋底部Sは上側開口部S4の下側には包埋時に包埋試料が載せられる収納底部S1があり該上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3を形成している金属製構成体ユニットであり、
前記上部水密包埋枠部Tは上側T13と下側T19とに開口部を有し、該上側から下側への開口部(T13、T19)に連結した貫通孔部T14を形成し、上側から下側開口部(T13、T19)に連結した前記貫通孔部T14の該上側開口部T13の周囲を囲む外壁上部上端面T4或いは該上側開口部T13に連なる貫通孔部T14内壁に内側に向けて突設された凸状平面T4を形成して、該上側開口部T13の周囲を囲む外壁上部上端面T4或いは該上側開口部T13に連なる貫通孔部T14内壁に内側に向けて突設された凸状平面T4上に前記包埋底部(ユニット4)Sの収納底部S1の上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3の四方全周を掛け止め設置できる前記包埋底部(ユニット4)Sの下部嵌合連結包埋底部支持体Taと該下部嵌合連結包埋底部支持体Taの上側に嵌合連結して上側T6と下側T11とに開口部を有し、前記上側から下側への開口部(T6、T11)に連結した貫通孔部T12を形成し、上側から下側開口部(T6、T11)に連結した前記貫通孔部T12の該上側開口部T6の周囲を囲む外壁上部上端面T2或いは該上側開口部T6に連なる貫通孔部T12内壁に内側に向けて突設された凸状平面T3を形成した包埋皿上部水密2角面形成枠体Tとから構成される上部水密包埋枠部(ユニット5)Tである。
該包埋皿は、包埋底部(ユニット4)Sは上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3を形成し、その下側に包埋作業時の試料包埋底部S1面を形成した金属製包埋底部(ユニット4)Sであり、該包埋底部(ユニット4)Sの上部開口部S4の外周を囲む水平方向に突設した鍔状平面S3を掛け止め部に水密に嵌合する合成樹脂製の上部水密包埋枠部(ユニット5)Tとの2種類の素材構成体ユニットで構築して、熱伝導率の良い金属製の該包埋底部(ユニット4)Sと同じ収縮率で精密嵌合成形が可能な該合成樹脂製の上部水密包埋枠部(ユニット5)Tの機能形態を合体した2ユニットシステム複合構成体である包埋皿である。
該包埋底部(ユニット4)Sは熱伝導率の良い金属製板のプレス加工で成形し、該包埋底部(ユニット4)Sの開口部S4の外周を囲む水平方向に突設した鍔状平面S3を前記合成樹脂製の上部水密包埋枠部(ユニット5)Tの掛け止め部T4に水密に確実に嵌め込み、前記病理・生物試料用カセットの包埋枠状基体底部Z14と該包埋枠状基体(ユニット3)の多孔通液性底部の成形位置をカセットブロック薄切時のアダプター固定爪位置の底面より狭い面積で突設形成した突設側壁Z11とが成す凹凸二角面と該合成樹脂製の上部水密包埋枠部(ユニット5)Tの上端面T2と水密包埋枠内壁T3とが形成する接触水密面の凹凸二角接触面で水密に嵌合連結させて、
従来の金属製包埋皿の水密枠成形では困難であった前記病理・生物試料用カセットの包埋枠状基体Zの底面と水密2角面形成枠体Tである水密枠との水密嵌合性を高めて、包埋皿内の包埋剤12の滲み溢れと試料15aの固定包埋薬液処理時に包埋剤12に浸漬された前記病理・生物包埋ブロックカセットの包埋枠状基体の周囲からの包埋剤の垂れ溜まりである包埋剤の余分なバリ12bを完全防止する前記合成樹脂製の上部水密包埋枠部(ユニット5)Tと熱伝導率の良い金属製包埋底部(ユニット4)Sとの2ユニットシステム複合構成体で構築されることを特徴とする病理・生物試料用カセットの包埋枠状基体底部の合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)である。
Furthermore, the present invention provides an embedding frame-like base body having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a releasable fitting to the upper opening of the embedding frame-like base. -Pathology / biological sample cassette embedding frame body consisting of a lid with a perforated hole to be connected to the outer periphery of the data recording section of the embedded frame-like substrate, and obstructing the pathology / biological sample embedding block cassette. In an embedding dish that eliminates excess burrs of the embedding agent that damages the data recording section during its removal or does not generate burrs;
Opened on the upper and lower sides that fit and connect to the horizontal plane S3 protruding in the horizontal direction surrounding the outer periphery of the embedding bottom (unit 4) S and the upper opening S4 of the embedding bottom (unit 4) S Functional form of the upper watertight embedding frame (unit 5) T that has a through hole (T12, T14) having a portion (T6, T11, T13, T19) and connected to the opening from the upper side to the lower side The embedding bottom part (unit 4) S is formed by pressing a metal plate having a good thermal conductivity, and the embedding bottom part S is formed as an upper opening S4. The lower side is a metal structure unit that has a storage bottom S1 on which an embedding sample is placed at the time of embedding and forms a bowl-shaped plane S3 projecting in the horizontal direction surrounding the outer periphery of the upper opening S4. ,
The upper watertight embedding frame portion T has openings on the upper side T13 and the lower side T19, and forms a through-hole portion T14 connected to the upper side to the lower side opening portions (T13, T19). The outer wall upper upper end surface T4 surrounding the periphery of the upper opening T13 of the through hole T14 connected to the lower opening (T13, T19) or the inner wall of the through hole T14 connected to the upper opening T13 is directed inward. A protruding convex surface T4 is formed and protruded inwardly on the outer wall upper upper end surface T4 surrounding the upper opening T13 or on the inner wall of the through hole T14 connected to the upper opening T13. The embedding bottom portion that can be hung and installed on all four sides of the bowl-shaped plane S3 projecting in the horizontal direction surrounding the outer periphery of the upper opening S4 of the storage bottom portion S1 of the embedding bottom portion (unit 4) S on the surface T4 (Unit 4) The lower fitting connection embedded bottom support Ta of the S and the lower fitting connection embedded bottom support Ta are connected to the upper side of the lower fitting connection embedded bottom support Ta, and the upper T6 and the lower T11 The through-hole portion T12 having an opening, forming a through-hole portion T12 connected to the opening portion (T6, T11) from the upper side to the lower side, and connected to the lower opening portion (T6, T11) from the upper side The embedding dish upper watertight 2 formed with a convex flat surface T3 projecting inwardly on the inner wall of the upper end T2 of the outer wall surrounding the upper opening T6 or the inner wall of the through hole T12 connected to the upper opening T6 This is an upper watertight embedding frame portion (unit 5) T composed of a square surface forming frame T.
In the embedding dish, the embedding bottom (unit 4) S forms a bowl-shaped plane S3 projecting in the horizontal direction surrounding the outer periphery of the upper opening S4, and the sample embedding bottom at the time of embedding is formed below the embedding dish. A metal embedding bottom (unit 4) S having a S1 surface, and a hooking portion for hooked flat surface S3 projecting in the horizontal direction surrounding the outer periphery of the upper opening S4 of the embedding bottom (unit 4) S It is constructed with two types of material constituent units, an upper watertight embedding frame portion (unit 5) T made of synthetic resin that fits in a watertight manner, and the embedding bottom portion (unit 4) made of metal having good thermal conductivity. ) An embedding dish which is a two-unit system composite structure that combines the functional forms of the synthetic resin upper watertight embedding frame (unit 5) T capable of precision fitting molding with the same shrinkage as S.
The embedding bottom portion (unit 4) S is formed by pressing a metal plate having a good thermal conductivity, and is a bowl-like shape protruding in the horizontal direction surrounding the outer periphery of the opening S4 of the embedding bottom portion (unit 4) S. The flat surface S3 is securely and securely fitted into the latching portion T4 of the upper watertight embedding frame portion (unit 5) T made of the synthetic resin, and the embedding frame-like substrate bottom Z14 of the pathological / biological sample cassette and the embedding The concave / convex square surface formed by the projecting side wall Z11 projecting and forming the molding position of the porous liquid-permeable bottom portion of the frame-shaped base (unit 3) in an area narrower than the bottom surface of the adapter fixing claw position when the cassette block is sliced, and The upper watertight embedding frame part (unit 5) T made of synthetic resin is watertightly fitted and connected at the concave / convex square contact surface of the contact watertight surface formed by the upper end surface T2 of the watertight embedding frame inner wall T3,
Watertight fitting between the bottom surface of the embedded frame-shaped substrate Z of the cassette for pathological / biological samples and the watertight frame which is the watertight dihedral surface forming frame T, which has been difficult in the conventional watertight frame forming of metal embedding dishes. The embedding frame-like substrate of the pathologic / biological embedding block cassette immersed in the embedding agent 12 during the treatment of the fixed embedding solution of the sample 15a and the embedding agent 12 in the embedding dish. Synthetic resin upper watertight embedding frame part (unit 5) T and metal embedding bottom part with good thermal conductivity that completely prevent the excess burr 12b of the embedding agent that is a drooping pool of embedding agent from the surroundings (Unit 4) An embedded dish with a synthetic resin watertight frame at the bottom of an embedded frame-like substrate of a cassette for pathological / biological samples, characterized in that it is constructed with a two-unit system composite structure with S (unit structure 4) ) (S and T).

従来の病理・生物試料用カセットの機能は(1)試料の薬液処理籠の機能と(2)患者・生物組織試料のデータ記載機能と(3)試料包埋ブロックの台木機能と(4)透明な多孔通液性を有する蓋を用いるとカセット内部の試料が確認できるのみであったが、   The functions of conventional cassettes for pathological / biological samples are: (1) the function of the chemical treatment vessel for the sample, (2) the function of describing data of the patient / biological tissue sample, and (3) the root function of the sample embedding block. When a transparent porous liquid-permeable lid was used, the sample inside the cassette could only be confirmed.

本発明の3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体である病理・生物試料用ユニットシステムカセットは患者・生物採取試料の独立した機能を担うデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1))(X and Y)の機能が加わった事により、その他に、例えば臨床側(図44A)からの病理診断依頼時の検体[患者・生検採取試料や切り出しトリミング試料の臨床側患者データ(病理診断依頼書)]の固定移送時に、該多孔容器籠(ユニット構成体1))(X and Y)の構成ユニットであるデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器状底部Xのデータ記録部X1に、臨床側(図44A)で患者名・試料名3を鉛筆等で記載して(図2・図9・図44c)透明な保護板付き多孔通液面Y3を有する蓋体(ユニット2)Yを閉じて専用の固定移送容器(図44のBの6)内に収納して、病理検査依頼書と一緒に病理検査・標本作製側に移送できる。この時、包埋枠状基体Zは固定液(図44のBの15)に浸漬せずに患者・生検試料5の固定移送・薬液処理が出来る独立した機能を担うデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)に患者・生検試料5を収納して固定液15に浸漬して検査・標本作製現場側に移送することが出来るので、包埋枠状基体ZはRFID(ICチップ)2を収納して該包埋枠状基体Zを容器の外側に嵌合連結できる専用の固定移送容器(図44のBの6)と一緒に臨床側に送っておけば該RFID(ICチップ)2内に患者属性や臨床試料データがデジタルデータとして送れて依頼書のペーパレスが可能になる。勿論、該包埋枠状基体Zを検査側に置いておくことも出来る。   The unit system cassette for pathology / biological sample which is a unit system embedding frame-like base body structure composed of the three unit system composite structure of the present invention is a biological body with a data recording unit and a protection plate that performs independent functions of a patient / biological sample. In addition to the addition of the function of the porous container for sample storage, fixed transfer processing (unit structure 1)) (X and Y), for example, the specimen [patient A data recording unit that is a constituent unit of the perforated container 籠 (unit component 1)) (X and Y) at the time of fixed transfer of clinical patient data (pathological diagnosis request form) of a biopsy sample and a trimmed sample The patient name / sample name 3 is described with a pencil or the like on the clinical side (FIG. 44A) in the data recording section X1 of the perforated container-like bottom X for biological sample storage / transfer processing with a protective plate (FIG. 2, FIG. 9, FIG. 44c) Transparent Close the lid (unit 2) Y having a perforated liquid-permeable surface Y3 with a protective plate and store it in a dedicated fixed transfer container (6 in B of Fig. 44), along with the pathological examination request form Can be transferred to the production side. At this time, the embedded frame-shaped substrate Z is a data recording unit / protection plate having an independent function capable of fixing and transferring the patient / biopsy sample 5 and chemical treatment without being immersed in the fixing solution (15 in FIG. 44B). A patient / biopsy sample 5 is stored in a perforated container for biological sample storage / fixed transfer processing (unit structure 1) (X and Y) and immersed in the fixative 15 and transferred to the inspection / specimen preparation site. Therefore, the embedded frame-shaped substrate Z accommodates the RFID (IC chip) 2 and can be fitted and connected to the outer side of the embedded frame-shaped substrate Z (B-6 in FIG. 44). If it is sent to the clinical side together with the patient, the patient attributes and clinical sample data are sent as digital data in the RFID (IC chip) 2 and the paper of the request can be made. Of course, the embedded frame-shaped substrate Z can be placed on the inspection side.

更に、臨床側(図44A)から移送されてきた患者試料検体(患者試料5と病理検査依頼書等該患者試料データ)を病理検査・標本作製現場側で、該患者の病理検査依頼書と固定移送容器6に貼られた患者属性記載ラベル6cを確認・照合の上受付・受領後、該患者検体の切り出し(図18A)時に作業者が前期固定移送容器6から患者試料5が収納されている独立した機能を担うデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)を取り出して該底部Xのデータ記録部X1の患者名・試料名(図2・図9・図44cの3)を確認後、該患者試料5の病理検査依頼書と固定移送容器6とも照合して、該患者試料5を確認・観察・トリミングの上、該底部Xのデータ記録部X1の患者名・試料名(図2・図9・図44cの3)の上から検体試料番号1aとバーコード又は二次元データコード1b等が印字されたデータ記録ラベル(図18B・図44Dの1)を貼り付ける。この時図18B又は図44Dに記載のラベル自動貼り印字機を使用するとより便利である。該底部Xのデータ記録部X1にデータ記録ラベル1を貼り付けた後に再度透明な保護板付き多孔通液面Y3を有する蓋体(ユニット2)Yを閉じて患者試料(5又は5a)が収納固定されている該多孔容器籠(ユニット構成体1)(X and Y)を該多孔容器籠(ユニット構成体1)(X and Y)ごと図19A・B・C・Dと図20のA・Bと図44Fに説明しているように自動固定包埋装置の処理籠9に収納して試料5の固定・脱水・脱脂・透徹・包埋剤浸透作業工程を進める事が出来る。即ち、本発明の3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体である病理・生物試料用ユニットシステムカセットの構成ユニットであるデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xのデータ記録部X1上の臨床側(図44A)で記載された患者名・試料名3は臨床側での患者試料(図44A・B・C)5採取(図44A)時から患者試料検体(患者試料5と病理検査依頼書等該患者試料データ)の固定移送(図44B)と病理検査・標本作製現場での検体の受付・受領(図44B)・確認・照合・切り出し(図18A・B、図19A・B・C・D、図20A・B、図44B・C・D)と包埋作業(図21A・B、図22A・B、図23A・B、図24A・B、図25A・B、図26A・B、図30A・B・C、図31A・B、図32A・B・C、図44E・G)と試料包埋ブロックの薄切作業(図32D・E、図44H)と薄切作業完了後の包埋ブロック試料の保管管理までの全ての工程に確実に患者試料と一緒に付いて回り、更に病理検査・標本作製側での患者試料検体の受付・受領(図44B)・確認・照合・切り出し(図18A・B、図19A・B・C・D、図20A・B、図44B・C・D)段階で該患者名・試料名3の上に該患者試料の検体試料番号1aが確実に貼られて一体となるので患者の臨床・試料データとその属性・既往歴を含む病理・標本作製側データとの直接で確実な伝達(メッセンジャー)と連結(リンク)が完成する。この時本発明者が同時出願しているスポンジゲル製マット(図44Bの10)を併用すると患者試料の挫滅・変形・移動・混入・紛失が無い確実な臨床側と病理検査側との患者試料データの伝達と連結が完成し最良な標本作製と病理診断が出来ることになる。   Furthermore, the patient sample specimen (patient sample 5 and the patient sample data such as a pathological examination request form) transferred from the clinical side (FIG. 44A) is fixed to the pathological examination request form of the patient on the pathological examination / specimen preparation site side. After receiving and receiving the patient attribute description label 6c affixed to the transfer container 6 after confirmation / collation, the operator stores the patient sample 5 from the fixed transfer container 6 in the previous period when the patient specimen is cut out (FIG. 18A). Take out the perforated container (unit structure 1) (X and Y) for the biological sample storage fixed transfer process with a data recording unit and protection plate that has an independent function and remove the patient name / sample name of the data recording unit X1 of the bottom X After confirming (3 in FIGS. 2, 9, 44c), the pathological examination request form of the patient sample 5 and the fixed transfer container 6 are collated, and the patient sample 5 is confirmed, observed, trimmed, and the bottom portion Patient name / sample name of X data recording part X1 (Fig. 2, Fig. 9, Paste specimen sample numbers 1a and a bar code or two-dimensional data code 1b like the printing data recording label from the top of 44c 3 in) (Fig. 18B · Figure 44D 1). At this time, it is more convenient to use the automatic label printing machine shown in FIG. 18B or 44D. After attaching the data recording label 1 to the data recording part X1 of the bottom X, the lid (unit 2) Y having the transparent liquid-permeable porous liquid passing surface Y3 is closed again and the patient sample (5 or 5a) is stored. 19A, B, C, and D in FIG. 20 and the perforated container cage (unit structure 1) (X and Y) fixed together with the porous container cage (unit structure 1) (X and Y). As shown in FIG. 44B and FIG. 44F, the sample 5 can be stored in the processing basket 9 of the automatic fixing and embedding apparatus, and the sample 5 can be fixed, dehydrated, degreased, penetrated, and embedded infiltrated. That is, a biological sample storage fixed transfer process with a data recording unit and a protection plate, which is a constituent unit of a unit system cassette for a pathological / biological sample which is a unit system embedding frame-like base body structure comprising the three unit system composite structure of the present invention Patient name / sample name 3 described on the clinical side (FIG. 44A) on the data recording part X1 of the porous container-shaped bottom part (unit 1) X is 5 patient samples (FIG. 44A / B / C) collected on the clinical side (FIG. 44A) Fixed transfer of patient sample specimen (patient specimen 5 and patient specimen data such as pathological examination request form) from time to time (FIG. 44B) and acceptance / reception of specimen at pathological examination / specimen preparation site (FIG. 44B) Confirmation / collation / cutting (FIG. 18A / B, FIG. 19A / B / C / D, FIG. 20A / B, FIG. 44B / C / D) and embedding (FIG. 21A / B, FIG. 22A / B, FIG. 23A / B, FIG. 24A / B, FIG. 25A / B, FIG. 26A / B, FIG. 30A / B / C, FIG. B, Fig. 32A ・ B ・ C, Fig. 44E ・ G) and all of the process of slicing the sample embedding block (Fig. 32D ・ E, Fig. 44H) and the storage management of the embedded block sample after the slicing operation is completed. The patient sample is surely attached to the process, and the patient sample specimen is received / received on the pathological examination / specimen preparation side (FIG. 44B) / confirmation / verification / cutout (FIGS. 18A and B, FIGS. 19A and B) C / D, FIG. 20A / B, FIG. 44B / C / D) At the stage of the patient name / sample name 3, the specimen sample number 1a of the patient sample is securely attached and integrated so that the patient's clinical / Direct and reliable communication (messenger) and connection (link) between the sample data and the pathology / specimen preparation side data including its attributes / history are completed. At this time, when the sponge gel mat (10 in FIG. 44B) filed at the same time by the present inventor is used in combination, the patient sample on the clinical side and the pathological examination side with no annihilation, deformation, movement, contamination, or loss of the patient sample. Data transmission and connection will be completed, and the best specimen preparation and pathological diagnosis will be possible.

更に、従来の病理・生物試料用カセットには無い固定薬液処理籠(ユニット構成体1)と包埋枠状基体(ユニット3)の脱着自在な機能合体と、更なる合成樹脂製の上部水密包埋枠部(ユニット5)Tと熱伝導率の良い金属製包埋底部(ユニット4)Sとの2ユニットシステム複合構成体で構築される合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)のユニットシステムの合体包埋によって完全なバリ無し包埋ができる。   Furthermore, a removable chemical combination of a fixed chemical solution treatment basket (unit structure 1) and an embedded frame-shaped substrate (unit 3), which is not included in a conventional cassette for pathological / biological samples, and a further upper watertight package made of synthetic resin. An embedding dish with a watertight frame made of synthetic resin (unit structure 4) constructed by a two-unit system composite structure of a buried frame part (unit 5) T and a metal embedded bottom part (unit 4) S having good thermal conductivity. ) (S and T) unit system embedding allows complete burr-free embedding.

更に、多孔通液孔を有する蓋体(ユニット2)を包埋枠状基体の厚さであるカセット試料包埋ブロックの薄切時のアダプター固定爪位置内に納め一体化した包埋試料ブロックを作製ことにより、従来の病理・生物試料用カセットのような蓋体の医療廃棄物が出ない。   Further, an embedded sample block in which the lid (unit 2) having a porous liquid passage hole is accommodated and integrated in the adapter fixing claw position at the time of slicing of the cassette sample embedded block, which is the thickness of the embedded frame-shaped substrate, is integrated. By manufacturing, the medical waste of a lid like the conventional cassette for pathology and biological samples does not come out.

更に、試料包埋ブロックの強度が、蓋がブロック台木の中に収まった分頑丈になった。   Furthermore, the strength of the sample-embedded block became stronger as the lid was accommodated in the block stock.

更にまた、バーコードや二次元データコードをデータ記録ラベルに印字し透明な保護板で挟持保護してデータ記録伝達を基本にしているので、従来の合成樹脂上に直接印字するより試料データの記録部のデータ量が大きくでき、且つ印字機が安価になった。   Furthermore, since barcodes and two-dimensional data codes are printed on data recording labels and are held and protected by a transparent protective plate, data recording is basically transmitted, so sample data can be recorded rather than printed directly on conventional synthetic resin. The amount of data in the printing section can be increased, and the printing machine becomes inexpensive.

更にまた独立した機能を担うデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)と包埋枠状基体(ユニット3)の独立と脱着自在の嵌合・連結のユニット構成によってRFID(ICチップ)2の耐薬品性を気にしなくても使用可能になり、RFID(ICチップ)2の使用範囲が広がり、耐薬品性の弱い安価なRFID(ICチップ)2の使用も可能になった。   In addition, the perforated vessel for storing and transporting biological specimens with a data recording unit and a protective plate carrying independent functions (unit structure 1) (X and Y) and the embedded frame base (unit 3) are independent and detachable. The unit configuration of mating and coupling makes it possible to use it without worrying about the chemical resistance of RFID (IC chip) 2. The RFID (IC chip) 2 can be used in a wider range and has a low chemical resistance. (IC chip) 2 can also be used.

更にまた、発明者が同時発明出願したスポンジゲル製マットを使用すると試料の挫滅・変形・移動・混入・紛失を防ぎ、病理・生物試料用ユニットシステムカセットの製造コストと在庫管理コストを下げることができた。   Furthermore, the use of the sponge gel mat filed by the inventor at the same time prevents the sample from being destroyed, deformed, moved, mixed, or lost, and reduces the manufacturing cost and inventory management cost of the unit system cassette for pathology and biological samples. did it.

更にまた、患者試料の挫滅・変形・移動・混入・紛失を防止したシステムであるが、万が一トラブルが生じたらその原因と責任を後日に検証できる。   Furthermore, the system prevents the patient sample from being destroyed, deformed, moved, mixed, or lost, but if a problem occurs, the cause and responsibility can be verified at a later date.

更にまた、以上の13機能を持っているがその標本作製現場での使用方法は従来と殆ど変わらない。   Furthermore, although it has the above 13 functions, its usage at the specimen preparation site is almost the same as in the past.

図1は本発明の3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体で構築された病理・生物試料用ユニットシステムカセットの実施形態を示す説明図である。図1Aはユニット構成体1とユニット3の嵌合・連結を示した平面図で、図1Bは病理・生物試料用ユニットシステムカセットの平面図で、図1Cは図1Bの側面図で、図1Dは図1Cの一部の拡大図であり、図1Eは図1Bの両矢印直線部の縦断面図である。透明部分はドット模様で表現している。FIG. 1 is an explanatory view showing an embodiment of a unit system cassette for a pathological / biological sample constructed with a unit system embedding frame-like substrate structure composed of a three-unit system composite structure of the present invention. 1A is a plan view showing the fitting / connection of the unit structure 1 and the unit 3, FIG. 1B is a plan view of a unit system cassette for pathology / biological sample, FIG. 1C is a side view of FIG. 1B, and FIG. FIG. 1C is an enlarged view of a part of FIG. 1C, and FIG. 1E is a vertical cross-sectional view of a straight line portion with double arrows in FIG. 1B. The transparent part is represented by a dot pattern. 図2は図1の一部を分解した説明図である。図2Aは平面図で、図2Bは側面図で、図2Cは縦断面図である。FIG. 2 is an exploded view of a part of FIG. 2A is a plan view, FIG. 2B is a side view, and FIG. 2C is a longitudinal sectional view. 図3は図2のユニットである部分毎の嵌合・連結を示す説明図である。図3Aは平面図で、図3Bは側面図とその一部の拡大図で、図3Cは図3Aの両矢印直線部の縦断面図である。透明部分はドット模様で表現している。FIG. 3 is an explanatory view showing fitting and connection for each part which is the unit of FIG. 3A is a plan view, FIG. 3B is a side view and an enlarged view of a part thereof, and FIG. 3C is a vertical cross-sectional view of a straight line portion indicated by a double arrow in FIG. 3A. The transparent part is represented by a dot pattern. 図4は図1の全てのユニット毎の説明図である。図4Aは側面図で、図4Bは縦断面図である。FIG. 4 is an explanatory diagram for every unit in FIG. 4A is a side view, and FIG. 4B is a longitudinal sectional view. 図5は図4のユニット毎の裏面説明図である。FIG. 5 is an explanatory view of the back surface of each unit shown in FIG. 図6は図5のユニット部分を使用した実施態様を示す裏面説明図である。図6Aは分解図で、図6Bは嵌合・連結した裏面図である。FIG. 6 is a backside explanatory view showing an embodiment using the unit portion of FIG. FIG. 6A is an exploded view, and FIG. 6B is a rear view of fitting and coupling. 図7は図5の一部分であるユニット3の説明図である。図7Aは後面図で、図7Bは平面図である。FIG. 7 is an explanatory diagram of the unit 3 which is a part of FIG. FIG. 7A is a rear view, and FIG. 7B is a plan view. 図8は図7の他の実施例を示す説明図である。図8Aは平面図であり、図8Dは後面図であり、図8Bと図8Cと図8Eは実施態様を示す断面図である。FIG. 8 is an explanatory view showing another embodiment of FIG. 8A is a plan view, FIG. 8D is a rear view, and FIGS. 8B, 8C, and 8E are cross-sectional views showing the embodiment. 図9は図1の実施態様を示す正面図である。透明部分はドット模様で表現している。FIG. 9 is a front view showing the embodiment of FIG. The transparent part is represented by a dot pattern. 図10は図3の実施態様を示す説明図である。図10Aは後面図であり、図10Bは縦断面図で、図10Cは図10Bの後部の一部拡大図である。FIG. 10 is an explanatory view showing the embodiment of FIG. 10A is a rear view, FIG. 10B is a longitudinal sectional view, and FIG. 10C is a partially enlarged view of the rear part of FIG. 10B. 図11Aは図1の実施態様を示す後面図で図11Bは対応する縦断面図と後部拡大図である。透明部分はドット模様で表現している。11A is a rear view showing the embodiment of FIG. 1, and FIG. 11B is a corresponding longitudinal sectional view and a rear enlarged view. The transparent part is represented by a dot pattern. 図12は図3の他の実施例を示す説明図である。図12Aは平面図で、図12Bは側面図で、図12Cは縦断面図である。FIG. 12 is an explanatory view showing another embodiment of FIG. 12A is a plan view, FIG. 12B is a side view, and FIG. 12C is a longitudinal sectional view. 図13は図12の実施態様を示す説明図である。FIG. 13 is an explanatory view showing the embodiment of FIG. 図14は図13の実施形態の平面図側からの説明図である。FIG. 14 is an explanatory view from the plan view side of the embodiment of FIG. 図15は図14の実施形態の裏面図側からの説明図である。FIG. 15 is an explanatory view from the back side of the embodiment of FIG. 図16は図1Bの各部縦断面の説明図である。図16Aはデータラベルは貼られていないが図1Bと同じ平面図で、図16B、図16C、図16Dはその各々対応する両矢印直線部の縦断面図である。FIG. 16 is an explanatory view of a vertical cross section of each part in FIG. 1B. FIG. 16A is the same plan view as FIG. 1B with no data label attached, but FIGS. 16B, 16C, and 16D are longitudinal sectional views of the corresponding double-headed arrow linear portions. 図17は図7のユニット3の各対応する両矢印直線部の縦断面図である。FIG. 17 is a longitudinal sectional view of each corresponding double-pointed arrow straight portion of the unit 3 of FIG. 図18は図1の病理・生物試料用ユニットシステムカセットを用いての使用例の説明図である。FIG. 18 is an explanatory diagram of an example of use using the unit system cassette for pathology / biological sample of FIG. 図19は図18の使用例の説明図の続きである。FIG. 19 is a continuation of the explanatory diagram of the usage example of FIG. 図20は図19の使用例の説明図の続きである。FIG. 20 is a continuation of the explanatory diagram of the usage example of FIG. 図21は図20の使用例の説明図の続きである。FIG. 21 is a continuation of the explanatory diagram of the usage example of FIG. 図22は図21の使用例の説明図の続きである。FIG. 22 is a continuation of the explanatory diagram of the usage example of FIG. 図23は図22の使用例の説明図の続きとそこで使用される一部分であるユニット構成体4の縦断面図である。FIG. 23 is a continuation of the explanatory diagram of the usage example of FIG. 22 and a longitudinal sectional view of the unit structure 4 which is a part used there. 図24は図23の使用例の説明図の続きとそこで使用される一部分であるユニット構成体4の縦断面図である。FIG. 24 is a continuation of the explanatory diagram of the usage example of FIG. 23 and a longitudinal sectional view of the unit structure 4 which is a part used there. 図25は図24の使用例の説明図の続きとそこで使用される一部分であるユニット構成体4の側面図である。FIG. 25 is a continuation of the explanatory diagram of the usage example of FIG. 24 and a side view of the unit structure 4 which is a part used there. 図26は図25の使用例の説明図の続きである。FIG. 26 is a continuation of the explanatory diagram of the usage example of FIG. 図27は図23から図25の実施例で示したユニット構成体4の構成体の展開図である。FIG. 27 is a development view of the structure of the unit structure 4 shown in the embodiment of FIGS. 図28は図27で示したユニット構成体4の各ユニット縦断面と横断面である。図28Aはこのユニット構成体4に対応する図1Cであり、図28Bは図9Eであり、図28Iは図28C・E・Gからなるユニット構成体4の縦断面図であり、図28Jは図28D・F・Hからなるユニット構成体4の横断面図である。FIG. 28 is a vertical section and a horizontal section of each unit of the unit structure 4 shown in FIG. 28A is FIG. 1C corresponding to the unit structure 4, FIG. 28B is FIG. 9E, FIG. 28I is a longitudinal sectional view of the unit structure 4 composed of FIGS. 28C, E, and G, and FIG. It is a cross-sectional view of the unit structure 4 composed of 28D, F, and H. 図29A或いはBは図27とは異なる実施例の各ユニットの分解・展開図である。FIG. 29A or 29B is an exploded view of each unit of the embodiment different from FIG. 図30は図26の他の実施例での使用説明例の続きでさる。FIG. 30 is a continuation of the example of use in another embodiment of FIG. 図31は図23、図24とは異なる使用方法の説明図である。FIG. 31 is an explanatory diagram of a method of use different from FIGS. 図32は図31の使用例の説明の続きでさる。FIG. 32 is a continuation of the description of the usage example of FIG. 図33は従来の病理・生物試料用カセット例の説明図である。FIG. 33 is an explanatory diagram of an example of a conventional cassette for a pathological / biological sample. 図34は図33の従来の病理・生物試料用カセットと本発明の図1の病理・生物試料用ユニットシステムカセットの違いの一部を示す説明図である。FIG. 34 is an explanatory diagram showing a part of the difference between the conventional pathological / biological sample cassette of FIG. 33 and the pathological / biological sample unit system cassette of FIG. 1 of the present invention. 図35は図1の3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体で構築された病理・生物試料用ユニットシステムカセットの3ユニットの関連説明図である。FIG. 35 is a related explanatory diagram of the three units of the unit system cassette for pathological / biological sample constructed by the unit system embedding frame-like substrate structure composed of the three unit system composite structure of FIG. 図36は図16の他の実施例の説明図である。図36Aは平面図、図36B、は各々対応する両矢印直線部C、D、Eの縦断面図で、図36Fは一部分であるユニット3の縦断面、図36Gは平面図、図36Hは裏面図である。FIG. 36 is an explanatory diagram of another embodiment of FIG. 36A is a plan view, FIG. 36B is a longitudinal sectional view of the corresponding double-pointed arrow C, D, E, FIG. 36F is a longitudinal section of the unit 3 as a part, FIG. 36G is a plan view, and FIG. FIG. 図37は図36の一部分であるユニット3の説明図である。図37Aは平面図、図37Bは各々対応する両矢印直線部C、D、Eの縦断面図で、図37Fは側面図で、図37Gは両矢印直線部 Iの矢印側から見た横断面図、図37Hは両矢印直線部Jの各々矢印側から見た横断面図である。FIG. 37 is an explanatory diagram of the unit 3 which is a part of FIG. 37A is a plan view, FIG. 37B is a longitudinal sectional view of the corresponding double-pointed linear portions C, D, and E, FIG. 37F is a side view, and FIG. FIG. 37H is a cross-sectional view of the straight line portion J of both arrows as viewed from the arrow side. 図38は図1の他の実施例の説明図である。FIG. 38 is an explanatory diagram of another embodiment of FIG. 図39は図1の他の実施例の説明図である。FIG. 39 is an explanatory diagram of another embodiment of FIG. 図40は図1の他の実施例の説明図である。FIG. 40 is an explanatory diagram of another embodiment of FIG. 図41は図4の実施例の使用説明図の続きである。FIG. 41 is a continuation of the explanatory diagram of use of the embodiment of FIG. 図42は図27、図28、図29の使用例の説明図の続きである。FIG. 42 is a continuation of the explanatory diagram of the usage example of FIGS. 27, 28, and 29. 図43は従来の包埋皿例の説明図である。FIG. 43 is an explanatory view of an example of a conventional embedding dish. 図44は本発明のユニットシステム構成体の使用工程の流れ説明図である。FIG. 44 is a flow explanatory diagram of the use process of the unit system structure of the present invention.

この発明の実施例を添付図面の図1乃至図11と図16・図17によって説明すると、先ず図1に示すように、上側に開口部を形成しその下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液面を有する蓋体から成る病理・生物試料用カセットを、底部を構成する独立分離した生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと、多孔容器状底部(ユニット1)X或いは試料包埋ブロック薄切時のアダプター固定爪位置Z14である包埋枠状基体(ユニット3)Zの上側開口部Z6に脱着自在に嵌合・連結する蓋体(ユニット2)Y、と該包埋枠状基体(ユニット3)Zの機能形態を各々分離独立した3種類の構成体ユニットとして成形した。   An embodiment of the present invention will be described with reference to FIGS. 1 to 11 and FIGS. 16 and 17 of the accompanying drawings. First, as shown in FIG. 1, an opening is formed on the upper side and a porous liquid-permeable bottom is formed on the lower side. A pathological / biological sample cassette comprising a formed embedded frame-shaped substrate and a lid having a porous liquid-permeable surface that is detachably fitted and connected to the upper opening of the embedded frame-shaped substrate constitutes the bottom. Separately-separated perforated container bottom (unit 1) X for biological sample storage fixed transfer processing and perforated container bottom (unit 1) X or embedding frame shape as adapter fixing claw position Z14 when slicing sample embedding block Three types of functional units of the lid (unit 2) Y, which is detachably fitted and connected to the upper opening Z6 of the base body (unit 3) Z, and the embedded frame-shaped base body (unit 3) Z are separated and independent. It was molded as a component unit.

本発明の3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体である病理・生物試料用ユニットシステムカセットのユニット1である独立分離した生物試料収納固定移送処理用多孔容器状底部Xの基本的形態は図1乃至図11に示すように、患者試料5の固定移送乃至該試料の固定・脱水・脱脂・透徹・包埋剤浸透作業工程に於いて、患者試料5を収納して独立した機能を担うことが出来るデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)の多孔容器状底部Xであり上側に開口部X9を形成し該上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11を形成し、その下側に少なくとも底部に多孔通液性底面X10と該底部を囲む側壁X8を形成した試料収納部X6からなる生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xである。
該多孔容器状底部(ユニット1)Xの上側の開口部X9に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体(ユニット2)Yとで独立した機能を担うことが出来るデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)を構築するので、該多孔容器状底部(ユニット1)Xの基本的構造は該上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11の少なくても1辺を前記包埋枠状基体(ユニット3)Zの外側面データ記録部Z1の傾斜面に沿って延長成形して、該包埋枠状基体(ユニット3)Zの外周側面に傾斜形成設置されたデータ記録部Z1を抑え覆う保護板兼データ記録部X1を一体的に成形し、更に該保護板兼データ記録部X1が一体的に形成されている側の両側に前記多孔通液面Y3を有する蓋体Yの前部両側凸状垂設係止部Y2の掛け止め部である切り欠け部X2aの端部X2が成形され、該掛け止め部X2は前記包埋枠状基体(ユニット3)Zの外側壁の前部両外側凹部に外側面の上側一部を凹部側に掛け止め部Z9として凸設状に残し形成した凹部Z8に一致する切り欠け部X2aであり該上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11の後部には前記多孔通液孔を有する蓋体Yの後部係止部Y4の掛け止め部X5が成形されている。更に、生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xには上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11の延長傾斜成形されたデータ記録部兼保護板X1の境目に中央部泡抜き孔X3と両サイド泡抜き孔X4が成形され、該中央部泡抜き孔X3は図12乃至図15の他の実施例の蓋体Yaの前部舌状係止部Ya1の挿入係止部Z4を兼ねているが該前部舌状係止部Ya1成形の蓋体使用せずに保護板付き蓋体Yのみ使用する3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体である病理・生物試料用ユニットシステムカセットを成形する場合には該中央部泡抜き孔X3の大きさを両サイドの泡抜き孔X4の形状に合わせても良い。該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xのデータ記録部兼保護板X1の下面X7で、前記包埋枠状基体(ユニット3)Zの外周側面に傾斜形成設置されたデータ記録部Z1を覆い保護している。更に該多孔容器状底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11の長辺側に両サイド切り欠け部X11aが成形されている。また、該多孔容器状底部(ユニット1)Xの延長傾斜成形されたデータ記録部兼保護板X1の表面の面積を少しでも広く取る為の傾斜データ記録部兼保護板端部垂設成形X12が成形されている。図2のX4は生物試料収納固定移送処理用多孔容器状底部(ユニット1)XのX3の両側の泡抜き孔であり、X7は図1、図4、図5、図6、図7、図8、図10からも理解されるように前記包埋枠状基体(ユニット3)Zの外周側面に形成設置されたデータ記録部Z1の傾斜面に沿って成形された生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xのデータ記録・記憶部X1の裏面であり、該包埋枠状基体(ユニット3)Zの外周側面に形成設置されたデータ記録部Z1の傾斜面に均一に接触していることが望ましい。
図1と図7、図8のZ2はICチップ(RFID)挿入嵌合設置部である。図1と裏面説明図である図5、図6のX12は生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xのデータ記録・記憶部X1の面積をより拡大するための垂設成形部である。該垂設成形部X12の成形によって生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xのデータ記録・記憶部X1である傾斜面積は広く保たれて、情報量が多くなる。
A unit system cassette for pathology / biological sample which is a unit system embedding frame-like substrate structure composed of the three unit system composite structure of the present invention, which is unit 1 of a separate and separate perforated container for biological sample storage and transfer processing. As shown in FIG. 1 to FIG. 11, the basic form of the patient is stored in the patient sample 5 in the fixed transfer of the patient sample 5 or in the fixing, dehydration, degreasing, penetration, and embedding agent penetration process steps of the sample. Perforated container-like bottom container X (unit structure 1) (X and Y) for biological sample storage and transfer processing with a data recording unit and protection plate that can carry an independent function. A sample container in which a bowl-shaped flat surface X11 projecting in the horizontal direction surrounding the outer periphery of the upper opening X9 is formed, and a porous liquid-permeable bottom surface X10 and a side wall X8 surrounding the bottom portion are formed at least on the lower side thereof. Biological trial consisting of part X6 Housing fixed transfer processing porous container-like bottom is (Unit 1) X.
Data that can have an independent function with the lid (unit 2) Y having a porous liquid passing surface Y3 that is detachably fitted and connected to the opening X9 on the upper side of the porous container-shaped bottom (unit 1) X Since a porous container basket (unit structure 1) (X and Y) for storing and transferring a biological sample with a recording / protecting plate is constructed, the basic structure of the bottom of the porous container (unit 1) X is the upper opening. At least one side of the flange-like flat surface X11 projecting in the horizontal direction surrounding the outer periphery of the portion X9 is extended and formed along the inclined surface of the outer surface data recording portion Z1 of the embedded frame-shaped substrate (unit 3) Z. Then, a protective plate / data recording portion X1 is formed integrally to cover and cover the data recording portion Z1 inclined and installed on the outer peripheral side surface of the embedded frame base (unit 3) Z, and further, the protective plate / data recording In front of the lid Y having the porous liquid-permeable surface Y3 on both sides on the side where the portion X1 is integrally formed An end portion X2 of a notch portion X2a that is a latching portion of the both-side convex hanging latching portion Y2 is formed, and the latching portion X2 is in front of the outer wall of the embedded frame-shaped base (unit 3) Z. It is a notch X2a that coincides with the recess Z8 formed by leaving the upper part of the outer surface of the both outer recesses as a latching part Z9 on the recess side, and in the horizontal direction surrounding the outer periphery of the upper opening X9. A latching portion X5 of the rear latching portion Y4 of the lid body Y having the porous liquid passage hole is formed at the rear portion of the projecting bowl-shaped plane X11. In addition, the bottom of the porous container (unit 1) X for biological sample storage and transfer processing is a data recording unit / protection plate formed by extending and tilting a bowl-shaped plane X11 projecting in the horizontal direction surrounding the outer periphery of the upper opening X9. A central foam release hole X3 and both side foam release holes X4 are formed at the boundary of X1, and the central foam release hole X3 is a front tongue lock of the lid body Ya of the other embodiments of FIGS. A unit system package comprising a three-unit system composite structure that also serves as the insertion locking portion Z4 of the portion Ya1, but does not use the front tongue-shaped locking portion Ya1 molded lid but uses only the lid Y with a protective plate When molding a unit system cassette for a pathological / biological sample, which is a frame-shaped substrate structure, the size of the central bubble removal hole X3 may be matched to the shape of the bubble removal holes X4 on both sides. A bottom surface X7 of the data recording / protection plate X1 of the porous container-shaped bottom portion (unit 1) X for biological sample storage and transfer processing is inclined and installed on the outer peripheral side surface of the embedded frame-shaped substrate (unit 3) Z. The data recording part Z1 is covered and protected. Further, both side cutout portions X11a are formed on the long side of the bowl-shaped plane X11 projecting in the horizontal direction surrounding the outer periphery of the upper opening X9 of the porous container-shaped bottom portion (unit 1) X. In addition, an inclined data recording / protecting plate end hanging-up molding X12 is provided for taking as much as possible the surface area of the data recording / protecting plate X1 formed by extending and tilting the bottom of the perforated container (unit 1) X. Molded. X4 in FIG. 2 is a defoaming hole on both sides of X3 of the porous container-like bottom part (unit 1) X for biological sample storage and transfer processing, and X7 is FIG. 1, FIG. 4, FIG. 5, FIG. 8. As can be understood from FIG. 10, the biological sample storage fixed transfer process formed along the inclined surface of the data recording portion Z1 formed and installed on the outer peripheral side surface of the embedded frame-shaped substrate (unit 3) Z. Uniformly on the back surface of the data recording / storage unit X1 of the porous container-shaped bottom (unit 1) X and on the inclined surface of the data recording unit Z1 formed and installed on the outer peripheral side surface of the embedded frame-shaped substrate (unit 3) Z It is desirable to be in contact.
Z2 in FIGS. 1, 7, and 8 is an IC chip (RFID) insertion fitting installation portion. 1 and X12 in FIG. 5 and FIG. 6, which are explanatory views on the back side, are vertical moldings for further expanding the area of the data recording / storing part X1 of the porous container-like bottom part (unit 1) X for biological sample storage and transfer processing. Part. By forming the vertical forming portion X12, the inclined area which is the data recording / storage portion X1 of the porous container-like bottom portion (unit 1) X for biological sample storage and transfer processing is kept wide, and the amount of information increases.

また、本発明の3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体である病理・生物試料用ユニットシステムカセットのユニット2である独立分離した患者試料5の固定移送乃至該試料の固定・脱水・脱脂・透徹・包埋剤浸透作業工程に於いて、患者試料5を収納して独立した機能を担うことが出来るデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)の多孔容器状底部Xの上側開口部X9に脱着自在に嵌合・連結する多孔通液孔Y3を有する蓋体(ユニット2)Yの基本的形態は図1乃至図11と図16・図17に示すように、前部両側に凸状垂設係止部Y2を形成し、後部にも前記底部(ユニット1)Xと前記包埋枠状基体(ユニット3)Zとも共用する係止部Y4を形成している。該蓋体(ユニット2)Yは2ユニットシステム複合構成体で構築される生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)と3ユニットシステム複合構成体で構築される固定用支持基台(ユニット構成体3)(X and Y and Z)との共通の構成ユニットである。
該多孔通液面Y3を有する蓋体(ユニット2)Yは多孔通液面Y3の外周を囲む開閉誘導リブY8の外周平面Y10の少なくても1辺にも同様に一体的保護板Y1を成形して、該保護板Y1の下面Y9で該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの保護板兼データ記録部X1上の汚れや該データ記録部に印字貼られたデータラベルの剥離や汚れを防止する保護板Y1付き蓋体(ユニット2)Yと保護板兼データ記録部X1付き底部(ユニット1)Xとの2ユニットシステム複合構成体で構築される独立した機能を担う試料データ記録部付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)の2重のデータ記録部兼保護板(X1 and Y1)が前記包埋枠状基体(ユニット3)Zの外側面のデータ記録部Z1を挟持保護して多孔通液面Y3を有する蓋体Yを廃棄しないで活用できる3ユニットシステム複合構成体で構築される試料データの確定とバリ無し包埋ブロックの台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)(X and Y and Z)で構成される病理・生物試料用ユニットシステムカセットの構成体ユニットである保護板付き多孔通液面Y3を有する蓋体(ユニット2)Yである。故に前記独立分離した生物試料収納固定移送処理用多孔容器状底部Xの上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11の長辺側の両サイド切り欠け部X11aと同様に該多孔通液面Y3を有する蓋体(ユニット2)Yの多孔通液面Y3の外周を囲む開閉誘導リブY8の外周平面Y10にも両サイド切り欠け部X11aと一致する切り欠け部Y10aが成形されている。更に該多孔通液面Y3を有する蓋体(ユニット2)Yには、多孔通液面Y3の外周を囲む開閉誘導リブY8の外周平面Y10の後部係止部Y4の後ろに該蓋体(ユニット2)Yの脱着開閉時の爪掛け部Y5があり、該外周面Y10を延長して傾斜成形した保護板Y1の傾斜部分の境目には前記多孔容器状底部Xの三つの泡抜き孔(X3とX4)とに対応する三つの泡抜き孔Y6が成形されている。更に、前記多孔容器状底部Xの中央部泡抜き孔X3は図12乃至図15に示す他の実施例の蓋体Yaの前部舌状係止部Ya1の挿入係止部Z4を兼ねているが、該前部舌状係止部Ya1成形の蓋体を使用せずに保護板付き蓋体Yのみ使用する3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体である病理・生物試料用ユニットシステムカセットを成形する場合には、前記多孔容器状底部(ユニット1)Xの該中央部泡抜き孔X3の大きさを両サイドの泡抜き孔X4の形状に合わせても良いしこの時は中央部泡抜き孔X3からの小型生検試料の抜け落ち防止閉鎖壁Y7の成形の必要はない。
以上の様に、患者・生物の採取試料の固定移送から該試料の標本作製工程での固定・脱水・脱脂・透徹・包埋剤浸透の薬液処理と情報伝達・連結を担う独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)は生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと多孔通液孔Y3を有する蓋体(ユニット2)Yで構築される2ユニットシステム複合構成体である。
該2ユニットシステム複合構成体の1ユニットである多孔通液孔Y3を有する蓋体(ユニット2)Yの構造は、保護板Y1と前部凸状垂設係止部Y2と多孔通液孔Y3と後部係止部Y4と該蓋体(ユニット2)Yの脱着開閉時の爪掛け部Y5と通液孔Y6と生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの試料の脱水・脱脂・透徹・包埋剤浸透等の薬液処理時の泡抜き孔兼前部舌状係止蓋用の係止部X3の閉鎖壁Y7(Y7は前部舌状係止蓋を使用しない形状にする場合には無くても良い。)と蓋部(ユニット2)の開閉誘導リブY8と蓋体(ユニット2)Yの保護板Y1の裏面Y9と前記包埋枠状基体(ユニット3)Zの両側長辺側壁Z18の間に挟持嵌合する形状の切り欠け部Y10aを形成した蓋部(ユニット2)の開閉誘導リブY8の外周平面Y10で、前部凸状垂設係止部Y2は切り欠け部Y10から水平方向に凸状且つ垂設した係止部Y2である。
In addition, the fixed transfer of an independently separated patient sample 5 which is a unit 2 of a unit system cassette for a pathological / biological sample, which is a unit system embedded frame-like substrate structure composed of a three-unit system composite structure of the present invention, or of the sample. Perforated container for biological sample storage with fixed data recording and protection plate that can store patient sample 5 and perform independent functions in fixing, dehydration, degreasing, penetration, embedding agent penetration process (Unit structure 1) The basic form of the lid (unit 2) Y having a porous liquid passage hole Y3 that is detachably fitted and connected to the upper opening X9 of the porous container-shaped bottom X of (X and Y) As shown in FIGS. 1 to 11 and FIGS. 16 and 17, convex hanging engagement portions Y <b> 2 are formed on both sides of the front portion, and the bottom portion (unit 1) X and the embedded frame-shaped substrate ( Unit 3) Locking part Y4 shared with Z Forms. The lid (unit 2) Y is constructed with a multi-unit biological structure for storing and transferring biological samples (unit structure 1) (X and Y) constructed with a 2-unit system composite structure and a 3-unit system composite structure. This is a common structural unit with the fixed support base (unit structural body 3) (X and Y and Z).
The lid (unit 2) Y having the porous liquid passing surface Y3 is also formed with an integral protective plate Y1 on at least one side of the outer peripheral plane Y10 of the open / close guide rib Y8 surrounding the outer periphery of the porous liquid passing surface Y3. Then, on the lower surface Y9 of the protective plate Y1, dirt on the protective plate / data recording part X1 of the porous container-like bottom part (unit 1) X for biological sample storage fixed transfer processing and data printed on the data recording part An independent function constructed by a two-unit system composite structure with a lid (unit 2) Y with a protective plate Y1 to prevent label peeling and dirt and a bottom (unit 1) X with a protective plate and data recording unit X1 Biological sample storage fixed transport porous container with sample data recording section to carry (unit structure 1) (X and Y) double data recording section and protective plate (X1 and Y1) is the embedded frame-shaped substrate ( Unit 3) sandwiching and protecting the data recording part Z1 on the outer side surface of Z and having a porous liquid passing surface Y3 Fixing support base that can support the function of the rootstock of the burr-free embedded block and the conventional cassette for pathological / biological specimens, as well as the confirmation of the sample data constructed with the 3 unit system composite structure that can be used without discarding the lid Y A lid (unit 2) Y having a porous liquid-permeable surface Y3 with a protective plate, which is a component unit of a unit system cassette for pathological / biological samples composed of a table (unit structure 3) (X and Y and Z) is there. Therefore, in the same manner as the both side cutouts X11a on the long side of the bowl-shaped plane X11 projecting in the horizontal direction surrounding the outer periphery of the upper opening X9 of the perforated container-like bottom X for biological sample storage, fixation and transfer processing, which is separated independently. A notch Y10a that coincides with both side notches X11a is also formed on the outer peripheral plane Y10 of the opening / closing guide rib Y8 surrounding the outer periphery of the porous liquid passing surface Y3 of the lid (unit 2) Y having the porous liquid passing surface Y3. Has been. Further, the lid (unit 2) Y having the porous liquid-permeable surface Y3 is provided behind the rear locking portion Y4 of the outer peripheral plane Y10 of the open / close guide rib Y8 surrounding the outer periphery of the porous liquid-permeable surface Y3. 2) There is a claw hook portion Y5 at the time of attachment / detachment opening / closing of Y, and three bubble vents (X3) of the bottom portion X of the porous container are formed at the boundary of the inclined portion of the protective plate Y1 formed by extending the outer peripheral surface Y10 and inclined. And X4), three bubble removal holes Y6 are formed. Further, the central bubble removal hole X3 of the porous container-shaped bottom X also serves as an insertion locking portion Z4 of the front tongue-shaped locking portion Ya1 of the lid Ya of the other embodiments shown in FIGS. Is a unit system-embedded frame-like base body structure composed of a three-unit system composite structure that uses only the lid body Y with a protective plate without using the front tongue-shaped locking portion Ya1 molded lid body. In the case of forming a unit system cassette for biological samples, the size of the central bubble removal hole X3 of the porous container-like bottom (unit 1) X may be matched to the shape of the bubble removal holes X4 on both sides. At this time, it is not necessary to form the closed wall Y7 for preventing the small biopsy sample from falling out from the central bubble removing hole X3.
As described above, it has independent functions to handle chemical transmission and information transmission and connection in fixed preparation, dehydration, degreasing, penetration, and embedding agent penetration in the specimen preparation process, from the fixed transfer of samples collected from patients and organisms. Biological sample storage fixed transfer processing porous container jar (unit structure 1) (X and Y) is a biological sample storage fixed transfer processing porous container bottom (unit 1) X and a lid having a porous liquid passage hole Y3 (unit 2) A two-unit system composite constructed with Y.
The structure of the lid (unit 2) Y having the porous liquid passage hole Y3, which is one unit of the two-unit system composite structure, includes a protective plate Y1, a front convex hanging engagement portion Y2, and a porous liquid passage hole Y3. Dehydration of the sample at the bottom locking part Y4, the claw hook part Y5 and the liquid passage hole Y6 when the lid (unit 2) Y is opened / closed, and the bottom of the porous container-like bottom part (unit 1) X・ Closed wall Y7 of locking part X3 for bubble removal hole and front tongue-shaped locking lid during chemical treatment such as degreasing, penetration, embedding agent penetration, etc. (Y7 is a shape that does not use the front tongue-shaped locking lid And the opening / closing guide rib Y8 of the lid (unit 2), the back surface Y9 of the protective plate Y1 of the lid (unit 2) Y, and the embedded frame substrate (unit 3) Z. The front convex protrusion locking portion Y2 is an outer peripheral plane Y10 of the opening / closing guide rib Y8 of the lid portion (unit 2) formed with a notch Y10a shaped to be sandwiched and fitted between both long side walls Z18 of Cut off From chipping unit Y10 is engaging portion Y2 was convex and vertically in a horizontal direction.

更にまた、本発明の3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体である病理・生物試料用ユニットシステムカセットのユニット3である患者試料5の固定移送乃至該試料の固定・脱水・脱脂・透徹・包埋剤浸透作業工程に於いて、患者試料5を収納して独立した機能を担うことが出来るデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)が脱着自在に嵌合・連結する包埋枠状基体(ユニット3)Zの基本的形態は図1乃至図11と図16・図17に示すように、前記包埋枠状基体(ユニット3)Zは、上側と下側とに開口部(Z18、Z16)を有し、該上側から下側への開口部(Z18、Z16)に連結した貫通孔部Z17を形成し、上側Z18から下側開口部Z16に連結した前記貫通孔部Z17の該上側開口部Z18の周囲を囲む外壁上部上端面Z6或いは該上側開口部Z18に連なる貫通孔部内壁に内側に向けて突設された凸状平面Z6を形成し、該包埋枠状基体(ユニット3)Zの外側壁の両前部外側面Z15に上端面Z6から下端面Z14に通じる凹部Z8を形成して該凹部Z8の上部に前記底部(ユニット1)Xとも脱着自在に嵌合・連結する前記蓋体(ユニット2)Yの前部凸状垂設係止部Y2の掛け止め部Z9を該包埋枠状基体(ユニット3)Zの両前部外側凹部Z8に外側面の上側一部を凹部側に掛け止め部Z9として凸設状に残し形成し、後部外壁にも前記蓋体(ユニット2)Yの後部の係止部Y4を掛け止める掛け止め部Z12を成形した包埋枠状基体(ユニット3)Zである。更に、該上側開口部Z18周囲を囲む外壁上部の両長辺上端面Z6の端面上に外側長辺側壁Z15を立設延長形成した包埋枠状基体(ユニット3)Zであり、該包埋枠状基体(ユニット3)Zの両外側長辺側壁上端面Z5は、前記生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11の厚さと該底部(ユニット1)Xの開口部X9に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体(ユニット2)Yの多孔通液面Y3の外周を囲む開閉誘導リブY8の外周平面Y10の厚さを重ねた厚さ分だけ、前記包埋枠状基体(ユニット3)Zの開口部Z18周囲を囲む外壁上部上端面Z6と該開口部Z18に連なる内壁に内側に向けて突設された凸状平面Z6より高い位置に成形されているのが基本的形態である。
その他の該包埋枠状基体(ユニット3)Zの構造としては、外壁を斜面成形したデータ記録部Z1と該データ記録部Z1に成形されたICチップ(RFID)Z2と該包埋枠状基体(ユニット3)Zの上側開口部Z18の周囲を囲む外壁上部上端面Z6と斜面該データ記録部Z1の境目に成形した両サイド泡抜き孔Z3と中央部泡抜き孔Z4と該上側開口部Z18周囲を囲む外壁上部の両長辺上端面Z6の端面上に外側長辺側壁Z15を立設延長形成した両外側長辺側壁上端面Z5と該包埋枠状基体(ユニット3)Zの前記蓋体(ユニット2)Yの脱着開閉用爪掛け部Y5の成形空間Z7と前部凸状垂設係止部Y2の掛け止め部Z9および該掛け止め部Z9の掛け止め傾斜面Z10と該カセットブロック薄切時のアダプター固定爪位置である下端面Z14の底面より狭い面積で突設成形した袴状の突設側壁Z11と該包埋枠状基体(ユニット3)Z後部掛け止め部Z12が成形される後壁(図11のZ13)とがある。図7と図8から解るように該後壁(図11のZ13)の該包埋枠状基体(ユニット3)Zの前記蓋体(ユニット2)Yの脱着開閉用爪掛け部Y5の成形空間Z7の幅は成形都合によって変化させても良い。
これら生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと該多孔容器状底部(ユニット1)Xの上側の開口部X9に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体(ユニット2)Yとから構築される、患者試料5を収納して独立した機能を担うことが出来るデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)が包埋枠状基体(ユニット3)Zに脱着自在に嵌合・連結して固定用支持基台(ユニット構成体3)(X and Y and Z)が構築される。該3ユニットの組み合わせで構成されるユニットシステム包埋枠状基体構成体である、従来の病理・生物試料用カセットの(1)試料の薬液処理籠の機能と(2)患者・生物組織試料のデータ記載機能と(3)試料包埋ブロックの台木機能と(4)透明な多孔通液性を有する蓋を用いるとカセット内部の試料が確認できるのみ機能以外に、9つの機能を発揮する病理・生物試料用ユニットシステムカセットである
Furthermore, the fixed transfer of the patient sample 5 which is the unit 3 of the unit system cassette for the pathological / biological sample which is the unit system embedded frame-like substrate structure composed of the three unit system composite structure of the present invention or the fixing / fixing of the sample. In the dehydration / degreasing / penetration / embedding agent infiltration process, the biological sample storage / transport plate with a data recording unit and protection plate that can hold the patient sample 5 and perform independent functions (unit) As shown in FIGS. 1 to 11 and FIGS. 16 and 17, the basic form of the embedded frame-like base (unit 3) Z to which the construct 1) (X and Y) is detachably fitted and connected is shown in FIG. The embedded frame base (unit 3) Z has openings (Z18, Z16) on the upper side and the lower side, and a through hole Z17 connected to the openings (Z18, Z16) from the upper side to the lower side. The through hole connected to the lower opening Z16 from the upper Z18 Forming a convex flat surface Z6 projecting inwardly on the inner wall of the upper end of the outer wall surrounding the upper opening Z18 of Z17 or the inner wall of the through hole continuous to the upper opening Z18, the embedded frame shape A recess Z8 that communicates from the upper end surface Z6 to the lower end surface Z14 is formed on both front outer surfaces Z15 of the outer wall of the base (unit 3) Z, and the bottom (unit 1) X is detachably fitted to the upper portion of the recess Z8. The latching portion Z9 of the front convex hanging latching portion Y2 of the lid (unit 2) Y to be joined and connected is connected to both front outer concave portions Z8 of the embedded frame base (unit 3) Z on the outer surface. An upper part of the upper portion of the cover body is formed as a latching portion Z9 on the recess side so as to be protruded, and a latching portion Z12 for latching the rear latching portion Y4 of the lid (unit 2) Y is also formed on the rear outer wall. An embedding frame-shaped substrate (unit 3) Z. Further, there is an embedding frame-like base (unit 3) Z in which an outer long side wall Z15 is erected and extended on the end surfaces of both long side upper end surfaces Z6 of the upper part of the outer wall surrounding the upper opening Z18. The upper ends Z5 of the outer long side walls of the frame-shaped substrate (unit 3) Z project in the horizontal direction surrounding the outer periphery of the upper opening X9 of the porous container-like bottom portion (unit 1) X for biological sample storage and transfer processing. The outer circumference of the porous liquid passing surface Y3 of the lid (unit 2) Y having the thickness of the bowl-shaped flat surface X11 and the porous liquid passing surface Y3 detachably fitted and connected to the opening X9 of the bottom (unit 1) X The outer wall upper upper end surface Z6 surrounding the periphery of the opening Z18 of the embedded frame base (unit 3) Z and the opening Z18 by the thickness of the outer peripheral plane Y10 of the opening / closing guide rib Y8 surrounding The basic form is that it is formed at a position higher than the convex plane Z6 projecting inwardly on the continuous inner wall.
The other structure of the embedded frame-shaped substrate (unit 3) Z includes a data recording portion Z1 whose outer wall is sloped, an IC chip (RFID) Z2 formed on the data recording portion Z1, and the embedded frame-shaped substrate. (Unit 3) Upper outer wall upper end surface Z6 surrounding the periphery of the upper opening Z18 of Z, and both side foam removal holes Z3, the central foam removal hole Z4 and the upper opening Z18 formed at the boundary of the inclined data recording part Z1. The outer long side wall upper end surface Z5 is formed by extending and extending the outer long side wall Z15 on the end surfaces of both long side upper end surfaces Z6 of the upper part of the outer wall surrounding the periphery, and the cover of the embedded frame-shaped base (unit 3) Z Forming space Z7 of the nail hooking portion Y5 for attaching / detaching the body (unit 2) Y, the hooking portion Z9 of the front convex hanging locking portion Y2, the hooking inclined surface Z10 of the hooking portion Z9, and the cassette block Projection molding in an area narrower than the bottom surface of the lower end surface Z14, which is the adapter fixing claw position when slicing And skirt-like projecting sidewall Z11 and 該包 Umawaku shaped substrate (Unit 3) (Z13 in FIG. 11) after the wall Z rear seat retaining section Z12 is molded and is. As can be seen from FIGS. 7 and 8, the forming space of the nail hook portion Y5 for attaching / detaching the lid (unit 2) Y of the embedded frame-like base body (unit 3) Z of the rear wall (Z13 of FIG. 11). The width of Z7 may be changed depending on the molding convenience.
A porous container-like bottom portion (unit 1) X for biological sample storage and transfer processing and a porous liquid-permeable surface Y3 that is detachably fitted and connected to the upper opening X9 of the porous container-like bottom portion (unit 1) X are provided. Perforated container cage (unit component 1) constructed with a lid (unit 2) Y and containing a patient sample 5 and capable of carrying an independent function and having a data recording unit / protection plate ) (X and Y) are detachably fitted to and connected to the embedded frame base (unit 3) Z to form a supporting base (unit structure 3) (X and Y and Z). The unit system embedded frame-like substrate structure composed of the combination of the three units, (1) the function of the chemical treatment tank for the sample of the conventional cassette for pathology / biological sample, and (2) the patient / biological tissue sample In addition to the function to describe the data, (3) the root function of the sample embedding block, and (4) the function of being able to confirm the sample inside the cassette when using a transparent porous liquid-permeable lid, the pathology that exhibits nine functions・ Unit system cassette for biological samples

また、本発明の前記3ユニットの組み合わせで構成されるユニットシステム包埋枠状基体構成体である病理・生物試料用ユニットシステムカセット底部に完全確実に嵌合・連結する該病理・生物試料用ユニットシステムカセットである固定用支持基台(ユニット構成体3)のデータ記録部等外周部に付着して病理・生物試料包埋ブロックの薄切時に邪魔をして、その除去時にデータ記録部を損傷させる包埋剤の余分なバリを除去又はバリを発生させない包埋底部(ユニット4)Sと上部水密包埋枠部(ユニット5)Tの2ユニットシステム複合構成体で構築される合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)の基本形態については図27乃至図29で説明する。
該バリなし合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)は金属製の包埋底部(ユニット4)Sと該包埋底部(ユニット4)Sの上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3に嵌合・連結する、上側と下側とに開口部(T6、T11、T13、T19) を有し該上側から下側への開口部に連結した貫通孔部(T12、T14)を形成する合成樹脂製の上部水密包埋枠部(ユニット5)Tの機能形態を各々分離独立した2種類の素材構成体ユニットである2ユニットの組み合わせで構成される2ユニットシステム複合構成体である。該2ユニットシステム複合構成体で構築される合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)は前記病理・生物試料用カセットの包埋枠状基体底部に完全確実に嵌合・連結する合成樹脂製の上部水密包埋枠部(ユニット5)Tを形成した包埋皿(ユニット構成体4)(S and T)であり、該包埋皿の包埋底部(ユニット4)Sは熱伝導率の良い金属製板のプレス加工で成形し該包埋底部Sは上側開口部S4の下側には包埋時に包埋試料5aが載せられる収納部S5の収納底部S1があり該上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3を形成している金属製構成体ユニットである。
前記上部水密包埋枠部Tは図27と図28に示すように、上側T13と下側T19とに開口部を有し、該上側から下側への開口部(T13、T19)に連結した貫通孔部T14を形成し上側から下側開口部(T13、T19)に連結した前記貫通孔部T14の該上側開口部T13の周囲を囲む外壁上部上端面T4或いは該上側開口部T13に連なる貫通孔部T14内壁に内側に向けて突設された凸状平面T4を形成して、該上側開口部T13の周囲を囲む外壁上部上端面T4或いは該上側開口部T13に連なる貫通孔部T14内壁に内側に向けて突設された凸状平面T4上に前記包埋底部(ユニット4)Sの収納底部S1の上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3の四方全周を掛け止め設置できる前記包埋底部(ユニット4)Sの下部嵌合連結包埋底部支持体Taと、該下部嵌合連結包埋底部支持体Taの上側に嵌合連結して上側T6と下側T11とに開口部を有し、前記上側から下側への開口部(T6、T11)に連結した貫通孔部T12を形成し上側から下側開口部(T6、T11)に連結した前記貫通孔部T12の該上側開口部T6の周囲を囲む外壁上部上端面T2と該上側開口部T6に連なる貫通孔部T12内壁に内側に向けて突設された凸状平面T3を形成した包埋皿上部水密2角面形成枠体Tとから構成される上部水密包埋枠部(ユニット5)Tの嵌合連結構築体である。
該包埋皿は、包埋底部(ユニット4)Sは上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3を形成し、その下側に包埋作業時の試料包埋底部S1面を形成した金属製包埋底部(ユニット4)Sであり、該包埋底部(ユニット4)Sの上部開口部S4の外周を囲む水平方向に突設した鍔状平面S3を掛け止め部に水密に嵌合する合成樹脂製の上部水密包埋枠部(ユニット5)Tとの2種類の素材構成体ユニットで構築して、熱伝導率の良い金属製の該包埋底部(ユニット4)Sと同じ収縮率で精密嵌合成形が可能な該合成樹脂製の上部水密包埋枠部(ユニット5)Tの機能形態を合体した2ユニットシステム複合構成体である包埋皿である。
該包埋底部(ユニット4)Sは熱伝導率の良い金属製板のプレス加工で成形し、該包埋底部(ユニット4)Sの開口部S4の外周を囲む水平方向に突設した鍔状平面S3を前記合成樹脂製の上部水密包埋枠部(ユニット5)Tの掛け止め部T4に水密に確実に嵌め込み、前記病理・生物試料用カセットの包埋枠状基体底部Z14と該包埋枠状基体(ユニット3)の多孔通液性底部の成形位置をカセットブロック薄切時のアダプター固定爪位置の底面より狭い面積で突設形成した突設側壁Z11とが成す凹凸二角面と該合成樹脂製の上部水密包埋枠部(ユニット5)Tの上端面T2と水密包埋枠内壁T3とが形成する接触水密面の凹凸二角接触面で水密に嵌合連結させて、
従来の金属製包埋皿の水密枠成形では困難であった前記病理・生物試料用カセットの包埋枠状基体Zの底面と水密2角面形成枠体Tである水密枠との水密嵌合性を高めて、包埋皿内の包埋剤12の滲み溢れと試料15aの固定包埋薬液処理時に包埋剤12に浸漬された前記病理・生物包埋ブロックカセットの包埋枠状基体の周囲からの包埋剤の垂れ溜まりである包埋剤の余分なバリ12bを完全防止する前記合成樹脂製の上部水密包埋枠部(ユニット5)Tと熱伝導率の良い金属製包埋底部(ユニット4)Sとの2ユニットシステム複合構成体で構築されることを特徴とする病理・生物試料用カセットの包埋枠状基体底部の合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)である。
以上の様に該合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)の基本的形態は包埋底部(ユニット4)Sと上部水密包埋枠部(ユニット5)Tの2ユニットシステム複合構成体で構築されているが、該上部水密包埋枠部(ユニット5)Tの形状は図29Aに示した様に下部嵌合連結包埋底部支持体Taと包埋皿上部水密2角面形成枠体Tの嵌合連結構築体である形状形態にしても良いし、また図29Bに示す様に嵌合連結構築体ではなく一体型で包埋底部(ユニット4)Sの上部開口部S4の外周を囲む水平方向に突設した鍔状平面S3の掛け止め部を図示はしていないが千鳥掛けに成形しても可能である。
その他の合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)の構造としては、該合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)の包埋作業時の作業取っ手T1と下部嵌合連結包埋底部支持体Taと包埋皿上部水密2角面形成枠体Tの係止部T10と掛け止め部構造(T7・T15・T16・T18)と合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)の安定設置用脚部T5と該合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)を重ね置き収納時の脚部接触回避部T8・T9が重要である。
Further, the pathological / biological sample unit that is completely fitted and connected to the bottom of the unit system cassette for pathological / biological sample, which is a unit system embedding frame-like substrate structure constituted by the combination of the three units of the present invention. It adheres to the outer periphery of the data recording part of the fixed support base (unit structure 3), which is a system cassette, and obstructs when the pathological / biological sample embedding block is sliced, and damages the data recording part when it is removed. Removes excess burrs from the embedding agent to be used, or water-tightness made of synthetic resin constructed by a two-unit system composite structure of an embedding bottom (unit 4) S and an upper water-tight embedding frame (unit 5) T that does not generate burrs The basic form of the framed embedding dish (unit structure 4) (S and T) will be described with reference to FIGS.
The embedding dish (unit structure 4) (S and T) with a watertight frame made of synthetic resin without burrs is made of a metal embedding bottom (unit 4) S and an upper opening S4 of the embedding bottom (unit 4) S. With openings (T6, T11, T13, T19) on the upper and lower sides that fit and connect to the bowl-shaped plane S3 projecting in the horizontal direction surrounding the outer periphery of the upper opening from the upper side to the lower side A combination of two units, which are two types of material component units, each of which separates the functional form of the upper watertight embedding frame portion (unit 5) T made of synthetic resin that forms through-hole portions (T12, T14) connected to It is a 2 unit system composite structure comprised by these. The synthetic resin watertight frame-embedded dish (unit structure 4) (S and T) constructed with the two-unit system composite structure is completely and securely attached to the bottom of the embedded frame-like substrate of the pathological / biological sample cassette. It is an embedding dish (unit structure 4) (S and T) in which an upper watertight embedding frame part (unit 5) T made of synthetic resin to be fitted and connected is formed, and an embedding bottom part (unit) of the embedding dish 4) S is formed by pressing a metal plate having good thermal conductivity, and the embedding bottom S is located below the upper opening S4. The accommodating bottom S1 of the accommodating part S5 on which the embedding sample 5a is placed during embedding. This is a metal component unit forming a bowl-shaped plane S3 projecting in the horizontal direction surrounding the outer periphery of the upper opening S4.
As shown in FIGS. 27 and 28, the upper watertight embedding frame T has openings on the upper side T13 and the lower side T19, and is connected to the openings from the upper side to the lower side (T13, T19). A through hole connected to the upper opening T13 of the outer wall surrounding the periphery of the upper opening T13 of the through hole T14 formed from the upper side and connected to the lower opening (T13, T19) from the upper side. A convex flat surface T4 projecting inwardly on the inner wall of the hole T14 is formed, and the upper upper end surface T4 of the outer wall surrounding the periphery of the upper opening T13 or the inner wall of the through hole T14 connected to the upper opening T13 On the convex flat surface T4 projecting inward, the four-sided full circumference of the bowl-shaped flat surface S3 projecting in the horizontal direction surrounding the outer periphery of the upper opening S4 of the storage bottom S1 of the embedding bottom (unit 4) S The embedded bottom part (unit 4) S of the embedded bottom part (unit 4) S that can be hooked and installed on the upper side of the lower fitted connected embedded bottom part support Ta The upper T6 and the lower T11 are connected to each other, and an opening is formed on the upper side T6 and the lower side T11, and a through hole T12 connected to the opening from the upper side to the lower side (T6, T11) is formed. , T11) and a convex shape projecting inwardly on the upper end surface T2 of the outer wall surrounding the periphery of the upper opening T6 of the through hole T12 and the inner wall of the through hole T12 connected to the upper opening T6. It is a fitting connection structure of the upper watertight embedding frame part (unit 5) T comprised from the embedding dish upper watertight dihedral surface frame T which formed the plane T3.
In the embedding dish, the embedding bottom (unit 4) S forms a bowl-shaped plane S3 projecting in the horizontal direction surrounding the outer periphery of the upper opening S4, and the sample embedding bottom at the time of embedding is formed below the embedding dish. A metal embedding bottom (unit 4) S having a S1 surface, and a hooking portion for hooked flat surface S3 projecting in the horizontal direction surrounding the outer periphery of the upper opening S4 of the embedding bottom (unit 4) S It is constructed with two types of material constituent units, an upper watertight embedding frame portion (unit 5) T made of synthetic resin that fits in a watertight manner, and the embedding bottom portion (unit 4) made of metal having good thermal conductivity. ) An embedding dish which is a two-unit system composite structure that combines the functional forms of the synthetic resin upper watertight embedding frame (unit 5) T capable of precision fitting molding with the same shrinkage as S.
The embedding bottom portion (unit 4) S is formed by pressing a metal plate having a good thermal conductivity, and is a bowl-like shape protruding in the horizontal direction surrounding the outer periphery of the opening S4 of the embedding bottom portion (unit 4) S. The flat surface S3 is securely and securely fitted into the latching portion T4 of the upper watertight embedding frame portion (unit 5) T made of the synthetic resin, and the embedding frame-like substrate bottom Z14 of the pathological / biological sample cassette and the embedding The concave / convex square surface formed by the projecting side wall Z11 projecting and forming the molding position of the porous liquid-permeable bottom portion of the frame-shaped base (unit 3) in an area narrower than the bottom surface of the adapter fixing claw position when the cassette block is sliced, and The upper watertight embedding frame part (unit 5) T made of synthetic resin is watertightly fitted and connected at the concave / convex square contact surface of the contact watertight surface formed by the upper end surface T2 of the watertight embedding frame inner wall T3,
Watertight fitting between the bottom surface of the embedded frame-shaped substrate Z of the cassette for pathological / biological samples and the watertight frame which is the watertight dihedral surface forming frame T, which has been difficult in the conventional watertight frame forming of metal embedding dishes. The embedding frame-like substrate of the pathologic / biological embedding block cassette immersed in the embedding agent 12 during the treatment of the fixed embedding solution of the sample 15a and the embedding agent 12 in the embedding dish. Synthetic resin upper watertight embedding frame part (unit 5) T and metal embedding bottom part with good thermal conductivity that completely prevent the excess burr 12b of the embedding agent that is a drooping pool of embedding agent from the surroundings (Unit 4) An embedded dish with a synthetic resin watertight frame at the bottom of an embedded frame-like substrate of a cassette for pathological / biological samples, characterized in that it is constructed with a two-unit system composite structure with S (unit structure 4) ) (S and T).
As described above, the basic form of the embedding dish (unit structure 4) (S and T) with a synthetic resin watertight frame is the embedding bottom (unit 4) S and the upper watertight embedding frame (unit 5) T. The upper watertight embedding frame part (unit 5) T has a lower fitting connection embedding bottom support Ta and an embedding dish as shown in FIG. 29A. The shape form which is the fitting connection construction body of the upper watertight dihedral surface forming frame T may be used, and as shown in FIG. 29B, it is not a fitting connection construction body but an integral embedding bottom (unit 4) S. Although not shown, the hooking portion of the bowl-shaped plane S3 protruding in the horizontal direction surrounding the outer periphery of the upper opening S4 can be formed in a staggered manner.
Other synthetic resin embedding dishes with a watertight frame (unit structure 4) (S and T) have the same structure as the synthetic resin watertight frame embedding dishes (unit structure 4) (S and T). Work handle T1 at the time of burying work, lower fitting connection embedding bottom support Ta, embedding dish upper watertight dihedral surface forming frame T locking part T10 and latching part structure (T7, T15, T16, T18) And a synthetic resin watertight frame embedding dish (unit structure 4) (S and T) and a synthetic resin watertight frame embedding dish (unit structure 4) (S and T) The leg contact avoidance portions T8 and T9 at the time of stacking and storing are important.

次に、本発明の前記3ユニットの組み合わせで構成されるユニットシステム包埋枠状基体構成体である病理・生物試料用ユニットシステムカセットと該カセットの包埋枠状基体の連結嵌合構成体であるバリ無し包埋皿を用いての患者試料5検体の固定移送から受付・受領と切り出し作業、固定・脱水・脱脂・透徹・包埋剤浸透の薬液処理工程とバリなし包埋作業、包埋ブロックの薄切、包埋ブロック試料の保管管理までの使用例の一部を図18乃至図26と図30乃至図32及び図44の説明図で説明する。
2ユニットシステム複合構成体で構築される病理・生物試料用カセットの機能形態であるユニットシステム包埋枠状基体多孔通液性容器底部(ユニット構成体2)の構成ユニットである(ユニット構成体1)(X and Y)は底部Xの鉛筆等で記載可能なシュボ加工が成形されているデータ記録部X1に臨床データ(患者属性やカルテ番号等)や試料名を鉛筆等で記載して(図2・図9・図44c)透明な保護板付き多孔通液面Y3を有する蓋体(ユニット2)Yを閉じて専用の固定移送容器(図44のBの6)内に収納して、臨床側から病理検査依頼書と一緒に病理検査・標本作製側に移送する事ができる。この時、包埋枠状基体Zは固定液(図44のBの15)に浸漬せずに患者・生検試料5の固定移送・薬液処理が出来る独立した機能を担うデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)に患者・生検試料5を収納して固定液15に浸漬して検査・標本作製現場側に移送することが出来るので、包埋枠状基体ZはRFID(ICチップ)2を収納して該包埋枠状基体Zを容器の外側に嵌合連結できる専用の固定移送容器(図44のBの6)と一緒に臨床側に送っておけば該RFID(ICチップ)2内に患者属性や臨床試料データがデジタルデータとして送れて依頼書のペーパレスが可能になる。勿論、該包埋枠状基体Zを検査側に置いておくことも出来る。
Next, a pathological / biological sample unit system cassette, which is a unit system embedding frame-shaped substrate structure constituted by the combination of the three units of the present invention, and a connecting fitting structure of the cassette embedding frame-shaped substrate. Accepting, receiving and cutting out 5 patient specimens using a burr-free embedding dish, fixing / dehydrating / degreasing / penetration / embedding agent infiltration process and burr-free embedding, embedding A part of usage examples from block slicing to embedded block sample storage management will be described with reference to FIGS. 18 to 26, FIGS. 30 to 32, and FIG.
This is a structural unit of the unit system embedded frame-like substrate porous liquid-permeable container bottom (unit structural body 2) which is a functional form of a cassette for pathological / biological samples constructed by a two-unit system composite structural body (unit structural body 1) ) (X and Y) describes the clinical data (patient attributes, chart number, etc.) and the sample name with a pencil etc. in the data recording part X1 that has been formed with a shaving that can be described with a pencil etc. at the bottom X (Fig. 2. Fig. 9 Fig. 44c) The lid (unit 2) Y having a transparent liquid-permeable surface Y3 with a transparent protective plate is closed and housed in a dedicated fixed transfer container (B-6 in Fig. 44) for clinical use. It can be transferred from the side to the pathological examination / specimen preparation side together with the pathological examination request form. At this time, the embedded frame-shaped substrate Z is a data recording unit / protection plate having an independent function capable of fixing and transferring the patient / biopsy sample 5 and chemical treatment without being immersed in the fixing solution (15 in FIG. 44B). A patient / biopsy sample 5 is stored in a perforated container for biological sample storage / fixed transfer processing (unit structure 1) (X and Y) and immersed in the fixative 15 and transferred to the inspection / specimen preparation site. Therefore, the embedded frame-shaped substrate Z accommodates the RFID (IC chip) 2 and can be fitted and connected to the outer side of the embedded frame-shaped substrate Z (B-6 in FIG. 44). If it is sent to the clinical side together with the patient, the patient attributes and clinical sample data are sent as digital data in the RFID (IC chip) 2 and the paper of the request can be made. Of course, the embedded frame-shaped substrate Z can be placed on the inspection side.

更に、臨床側(図44A)から移送されてきた患者検体(患者試料5と病理検査依頼書等該患者試料データ)を病理検査・標本作製現場側で、該患者の病理検査依頼書と固定移送容器6に貼られた患者属性記載ラベル6cを確認・照合の上受付・受領後、該患者検体の切り出し(図18A)時に作業者が前期固定移送容器6から患者試料5が収納されている独立した機能を担うデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)を取り出して該底部Xのデータ記録部X1の患者名・試料名(図2・図9・図44cの3)を確認後、該患者試料5の病理検査依頼書と固定移送容器6とも照合して、該患者試料5を確認・観察・トリミングの上、該底部Xのデータ記録部X1の患者名・試料名(図2・図9・図44cの3)の上から検体試料番号1aとバーコード又は二次元データコード1b等が印字されたデータ記録ラベル(図18B・図44Dの1)を貼り付ける。この時図18B又は図44Dに記載のラベル自動貼り印字機を使用するとより便利である。
該底部Xのデータ記録部X1にデータ記録ラベル1を貼り付けた後に再度透明な保護板付き多孔通液面Y3を有する蓋体(ユニット2)Y(図19A・B・C・D)を閉じて患者試料(5又は5a)が収納固定されている該多孔容器籠(ユニット構成体1)(X and Y)を薬液処理籠(図20A・Bと図44F)に収納して図示してはいないが試料の固定・脱水・脱脂・透徹・包埋剤浸透の薬液処理工程を処理する自動固定包埋装置にセットする。この時点で該多孔容器籠(ユニット構成体1)(X and Y)の構成ユニットであるデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xのデータ記録部上の臨床側患者臨床・生物試料データとその属性・既往歴を含む病理・標本作製側データとの直接で確実な伝達(メッセンジャー)と連結(リンク)が完成する。何故ならば生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)の中の採取試料5aは臨床・生物試料採取側の責任で収納しており、病理・標本作製側では試料の切り出し時に該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)内の採取試料5aを移動することを絶対にしないで、単に該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)の多孔通液孔Y3を有する蓋体(ユニット2)Yを開けて、該生物試料収納固定移送処理用多孔容器状底部(ユニット1)X内部の採取試料5aを確認の上、該底部(ユニット1)Xのデータ記録・記憶部X1上の固定液を拭き取り、その上から前記印字記録したラベル紙1を貼付、再度前記底部(ユニット1)X上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する保護板Y1付き蓋体(ユニット2)Yを閉じると、該底部(ユニット1)Xのデータ記録・記憶部X1と上側開口部に脱着自在に嵌合・連結する多孔通液孔Y3を有する蓋体(ユニット2)Yの保護板Y1の間には、臨床・生物試料採取側の責任で事前に記載された臨床データ(患者属性やカルテ番号等)や試料名等の情報とその上に病理・標本作製側で貼り付けた印字記録したラベル紙1等の情報との二重の情報が保護され固定移送された採取試料5aが収納された生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)が出来上がるからである。
この時、ラベルの印字機(図18Bと図44D)は自動ラベル貼付印字機であり、該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部に脱着自在に嵌合・連結する多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Yは有機溶媒に耐薬品性である透明な合成樹脂(例えばポリエチレンナフタレート等)で成形することが望ましく、該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xは有機溶媒に耐薬品性であるポリアセタール樹脂の不透明で生物試料の色調とは異なる色素を用いて成形ことが望ましい。
Furthermore, the patient specimen (patient specimen 5 and the patient specimen data such as a pathological examination request form) transferred from the clinical side (FIG. 44A) is fixedly transferred to the pathological examination request form of the patient on the pathological examination / specimen preparation site side. After receiving and receiving the patient attribute description label 6c affixed to the container 6 after confirmation / collation, the operator can store the patient sample 5 from the previous fixed transfer container 6 when the patient specimen is cut out (FIG. 18A). Take out the perforated container container (unit structure 1) (X and Y) for the biological sample storage fixed transfer process with the data recording unit and protection plate that bears the function and remove the patient name and sample name of the data recording unit X1 of the bottom X ( After confirming 3) of FIG. 2, FIG. 9, and FIG. 44c, the pathological examination request form of the patient sample 5 and the fixed transfer container 6 are collated, and the patient sample 5 is confirmed, observed, trimmed, and the bottom X Patient name / sample name (Fig. 2, Fig. 9, Fig. 4) c 3) the test sample No. 1a and a bar code or two-dimensional data code 1b like the printing data recording label from the top of the (paste 1) of FIG. 18B · Figure 44D. At this time, it is more convenient to use the automatic label printing machine shown in FIG. 18B or 44D.
Close the lid (unit 2) Y (FIGS. 19A, B, C, and D) having the transparent liquid-permeable porous liquid passing surface Y3 after the data recording label 1 is attached to the data recording portion X1 of the bottom X The perforated container basket (unit structure 1) (X and Y) in which the patient sample (5 or 5a) is stored and fixed is stored in a chemical solution processing basket (FIGS. 20A, B, and 44F). However, it is set in an automatic fixed embedding device that handles the chemical treatment process of sample fixation, dehydration, degreasing, penetration, and penetration of embedding agent. At this point, the data recording part of the porous container-like bottom part (unit 1) X for the biological sample storage fixed transfer process with a protective plate and the data recording part which is the constituent unit of the porous container basket (unit structure 1) (X and Y) The direct and reliable communication (messenger) and connection (link) between the clinical patient's clinical / biological sample data and the pathology / specimen preparation side data including its history and history are completed. This is because the collected sample 5a in the perforated container for biological sample storage / transfer processing (unit component 1) is stored on the responsibility of the clinical / biological sample collection side, and at the pathology / specimen preparation side when the sample is cut out Never move the collected sample 5a in the biological sample storage / fixed transfer processing porous container container (unit structure 1), but simply move the biological sample storage / transfer processing porous container container (unit structure 1). Open the lid (unit 2) Y having the porous liquid passage hole Y3 of (X and Y) and confirm the collected sample 5a in the bottom of the porous container (unit 1) X for the biological sample storage fixed transfer processing The fixing liquid on the data recording / storing part X1 of the bottom (unit 1) X is wiped off, and the printed and labeled label paper 1 is pasted on the top (unit 1) X so that it can be removably attached to the bottom (unit 1) X upper opening. Protective plate Y with porous liquid holes to be fitted and connected When the lid with unit 1 (unit 2) Y is closed, the lid having a porous liquid passage hole Y3 that is detachably fitted and connected to the data recording / storage unit X1 and the upper opening of the bottom (unit 1) X ( Unit 2) Between the protective plate Y1 of Y, information such as clinical data (patient attributes, medical chart numbers, etc.) and sample names described in advance on the responsibility of the clinical / biological sample collection side and the pathology / specimen Perforated vessel for storing and transferring biological samples containing unitary sample collection 5a in which double information is protected with information printed on label paper 1 and the like affixed on the production side and fixed and transferred (unit structure 1) ) (X and Y) is completed.
At this time, the label printing machine (FIG. 18B and FIG. 44D) is an automatic label sticking printing machine, and is detachably fitted to the upper opening of the porous container-like bottom part (unit 1) X for biological sample storage and transfer processing. -The lid (unit 2) Y with a protective plate Y1 having a porous liquid-permeable surface Y3 to be connected is desirably molded from a transparent synthetic resin (eg, polyethylene naphthalate) that is chemically resistant to organic solvents. It is desirable to mold the porous container-like bottom part (unit 1) X for sample storage, fixation and transfer treatment using a pigment that is opaque to a polyacetal resin that is chemically resistant to organic solvents and has a color different from that of the biological sample.

更に、臨床・生物試料採取側の責任で事前に記載された臨床データ(患者属性やカルテ番号等)や試料名等の情報とその上に病理・標本作製側で貼り付けた印字記録したラベル紙1等の情報との二重の情報が保護・保持されている生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)(図19A・B・C・D)内に収納され、前記自動固定包埋装置で固定・脱水・脱脂・透徹・包埋剤浸透の薬液処理工程(図20A・Bと図44F)が完了した包埋剤が浸透している患者試料(5又は5a)を包埋する。
この包埋作業工程は図21A・B乃至図26A・Bと図30A・B・C乃至図32A・B・Cと図44E・Gで説明している。図21A・Bでは患者試料(5又は5a)を生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)が前記包埋枠状基体Zに嵌合・連結した前記固定用支持基台(ユニット構成体3)(X and Y and Z)の多孔通液孔Y3を有する蓋体(ユニット2)Yを開けてピンセット8で取り出しているところの平面図Aと縦断面図Bである。また図21乃至図23でも患者試料(5又は5a)を収納した生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)を包埋枠状基体Zに嵌合・連結した固定用支持基台(ユニット構成体3)(X and Y and Z)を前記自動固定包埋装置で固定・脱水・脱脂・透徹・包埋剤浸透の薬液処理工程を実施した場合の図を記載しているが、図20A・Bと図44Fに示す様に該患者試料(5又は5a)を収納した該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)のみで固定・脱水・脱脂・透徹・包埋剤浸透の薬液処理工程を実施することも出来る。その場合の包埋作業は図31A・Bと図44Eに示す様に前記包埋枠状基体Zは包埋剤に一切浸漬されていないので該包埋枠状基体Zの外周にも包埋剤の付着がなく溶融包埋剤に濡れていないので、本発明の合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)内の包埋剤の滲み溢れと試料の固定包埋薬液処理時に包埋剤に浸漬された前記固定用支持基台(ユニット構成体3)(X and Y and Z)である病理・生物包埋ブロックカセットの包埋枠状基体の周囲からの包埋剤の垂れ溜まりが無いので、病理・生物包埋ブロックカセットの台木である固定用支持基台(ユニット構成体3)(X and Y and Z)には完全にバリが発生しない。即ち、100%完全なバリ無し包埋法が完成する。
In addition, clinical data (patient attributes, medical chart numbers, etc.) and information such as sample names, which are recorded in advance on the responsibility of the clinical / biological sample collection side, and the printed label paper pasted on the pathology / specimen preparation side In the perforated container cage (unit structure 1) (X and Y) (FIGS. 19A, B, C, and D) for storing and transporting biological specimens in which double information with information such as 1 is protected and retained A patient sample (5) which has been stored and has undergone a chemical treatment process (FIGS. 20A and B and FIG. 44F) for fixation, dehydration, degreasing, penetration, and penetration of the embedding agent by the automatic fixation embedding device (5 Or embed 5a).
This embedding process is described with reference to FIGS. 21A, B to 26A, B, FIGS. 30A, B, C to 32A, B, C and FIGS. 44E, G. In FIGS. 21A and 21B, the patient sample (5 or 5a) is fixed by the biological sample storage fixed transfer processing porous container cage (unit structure 1) (X and Y) fitted and connected to the embedded frame-shaped substrate Z. Plan view A and longitudinal sectional view of the support base (unit structure 3) (X and Y and Z) having a porous liquid passage hole Y3 (unit 2) Y opened and taken out with tweezers 8 B. Also in FIGS. 21 to 23, the biological sample storage perforated container (unit structure 1) (X and Y) containing the patient sample (5 or 5a) is fitted and connected to the embedded frame-shaped substrate Z. The fixed support base (unit structure 3) (X and Y and Z) is fixed and dehydrated, degreased, penetrated, and embedded infiltrated. Although described, as shown in FIGS. 20A and 20B and FIG. 44F, the biological sample storage fixed transfer porous container for storing the patient sample (5 or 5a) (unit structure 1) (X and Y) It is also possible to carry out chemical treatment processes for fixation, dehydration, degreasing, penetration, and embedding agent penetration. In this case, as shown in FIGS. 31A and 31B and FIG. 44E, the embedding frame-shaped substrate Z is not immersed in the embedding agent, so that the embedding agent is also embedded on the outer periphery of the embedding frame-shaped substrate Z. Since there is no adhesion to the molten embedding agent, the embedding agent overflows in the embedding dish (unit structure 4) (S and T) made of the synthetic resin watertight frame of the present invention and the fixed packaging of the sample. The pathological / biological embedding block cassette, which is the support base for fixation (unit structure 3) (X and Y and Z) immersed in the embedding agent during the treatment with the embedding solution, is wrapped from around the embedding frame-shaped substrate. Since there is no dripping pool, no burr is generated on the support base (unit structure 3) (X and Y and Z) which is the rootstock of the pathological / biological-embedded block cassette. That is, a 100% complete burr-free embedding method is completed.

また例え図21A・Bと図22A・Bに示すように従来の病理・生物試料用カセットと同様に該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)を該包埋枠状基体Zと嵌合・連結させた該固定用支持基台(ユニット構成体3)(X and Y and Z)であるユニットシステム包埋枠状基体構成体からなる患者試料(5又は5a)を収納した病理・生物試料用ユニットシステムカセットを直接に使用して固定・脱水・脱脂・透徹・包埋剤浸透の薬液処理工程に使用した場合でも図23A・Bと図24A・Bと図32A・B・Cに示す様に、前記合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)の熱伝導率の良い金属製板のプレス加工成形の包埋底部(ユニット4)Sの上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3に嵌合・連結する上側と下側とに開口部(T6、T11、T13、T19) を有し該上側から下側への開口部に連結した貫通孔部(T12、T14)を形成する合成樹脂製の上部水密包埋枠部(ユニット5)Tの上端面T2と水密包埋枠内壁T3とが形成する接触水密面の凹凸二角接触面と前記病理・生物試料用ユニットシステムカセットの包埋枠状基体底部Z14と該包埋枠状基体(ユニット3)の多孔通液性底部の成形位置をカセットブロック薄切時のアダプター固定爪位置の底面より狭い面積で突設形成した突設側壁Z11とが成す凹凸二角面とが形成する接触水密面の凹凸二角接触面で水密に嵌合連結させているので、従来の金属製包埋皿の水密枠成形では困難であった前記病理・生物試料用カセットの包埋枠状基体Zの底面と水密2角面形成枠体Tである水密枠との水密嵌合性を高めて、合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)内の包埋剤12の滲み溢れと試料15aの固定包埋薬液処理時に包埋剤12に浸漬された前記病理・生物包埋ブロックカセットの包埋枠状基体Zの周囲からの包埋剤12の垂れ溜まりである包埋剤の余分なバリ12bは図32A・B・Cに示す様に該病理・生物包埋ブロックカセットの包埋枠状基体Zの底部周囲には垂れ溜まらず該合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)の合成樹脂製の上部水密包埋枠部(ユニット5)Tの側壁に多くは流れ落ちて、該包埋枠状基体Z外側壁の包埋剤12のバリ(12a・12b)の発生を防止する。この時合成樹脂製の上部水密包埋枠部(ユニット5)Tの合成樹脂は病理・生物試料用ユニットシステムカセットの包埋枠状基体Zと同じ収縮率や性状である材質が望ましく、例えばポリアセタール樹脂等が良い。この時包埋皿の大きさによって合計樹脂の着色を変化させる便利である。
該合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)の基本構造は、図27A2縦断面図・B1正面図・B2平面図・B3横断面図・C2裏面図・D2側面図と図28A 該合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)に嵌合・連結してバリ無し包埋できる病理・生物試料用ユニットシステムカセット・B 該病理・生物試料用ユニットシステムカセットの正面図・C 包埋皿上部水密2角面形成枠体Tの縦断面図・D 該上部水密包埋枠部Tの横断面図・E 包埋底部(ユニット4)Sの縦断面図・F 該包埋底部(ユニット4)Sの横断面図・G 包埋皿下部嵌合連結包埋底部支持体Taの縦断面図・H 該下部嵌合連結包埋底部支持体Taの横断面図・I 2種類の素材構成体ユニットからなる合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)の縦断面図・J 該合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)の横断面図で説明しているが、包埋底部(ユニット4)Sと包埋底部(ユニット4)Sの上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3に嵌合・連結する、上側と下側とに開口部(T6、T11、T13、T19) を有し該上側から下側への開口部に連結した貫通孔部(T12、T14)を形成する上部水密包埋枠部(ユニット5)Tの機能形態を各々分離独立した2種類の素材構成体ユニットとして成形していて
該包埋底部(ユニット4)Sは熱伝導率の良い金属製板のプレス加工で成形し、該包埋底部Sは上側開口部S4の下側には包埋時に包埋試料が載せられる収納底部S1があり該上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3を形成している金属製構成体ユニットであり、
前記上部水密包埋枠部Tは上側T13と下側T19とに開口部を有し、該上側から下側への開口部(T13、T19)に連結した貫通孔部T14を形成し、上側から下側開口部(T13、T19)に連結した前記貫通孔部T14の該上側開口部T13の周囲を囲む外壁上部上端面T4或いは該上側開口部T13に連なる貫通孔部T14内壁に内側に向けて突設された凸状平面T4を形成して、該上側開口部T13の周囲を囲む外壁上部上端面T4或いは該上側開口部T13に連なる貫通孔部T14内壁に内側に向けて突設された凸状平面T4上に前記包埋底部(ユニット4)Sの収納底部S1の上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3の四方全周を掛け止め設置できる前記包埋底部(ユニット4)Sの下部嵌合連結包埋底部支持体Taと該下部嵌合連結包埋底部支持体Taの上側に嵌合連結して上側T6と下側T11とに開口部を有し、前記上側から下側への開口部(T6、T11)に連結した貫通孔部T12を形成し、上側から下側開口部(T6、T11)に連結した前記貫通孔部T12の該上側開口部T6の周囲を囲む外壁上部上端面T2或いは該上側開口部T6に連なる貫通孔部T12内壁に内側に向けて突設された凸状平面T3を形成した包埋皿上部水密2角面形成枠体Tとから構成される上部水密包埋枠部(ユニット5)Tである。
該包埋皿は包埋皿上部水密2角面形成枠体Tの上側T6と下側T11とに開口部を有し、前記上側から下側への開口部(T6、T11)に連結した貫通孔部T12を形成し、上側から下側開口部(T6、T11)に連結した前記貫通孔部T12の該上側開口部T6の周囲を囲む外壁上部上端面T2或いは該上側開口部T6に連なる貫通孔部T12内壁に内側に向けて突設された凸状平面T3とを形成した凸状平面T3の下面T4と下部嵌合連結包埋底部支持体Taの上側から下側開口部(T13、T19)に連結した前記貫通孔部T14の該上側開口部T13の周囲を囲む外壁上部上端面T4或いは該上側開口部T13に連なる貫通孔部T14内壁に内側に向けて突設された凸状平面T4との間で熱伝導率の良い金属製板のプレス加工成形の前記包埋底部Sの上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3を挟持して嵌合・連結する構造からなる2種類の素材構成体ユニットからなる合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)である。故に図29Aに示すように包埋皿上部水密2角面形成枠体Tと下部嵌合連結包埋底部支持体Taの形状は色々と考えられ、また図29Bの様に包埋底部(ユニット4)Sの合成樹脂製上部水密包埋枠部Tを包埋皿上部水密2角面形成枠体Tと下部嵌合連結包埋底部支持体Taに分離独立させないで包埋底部Sの上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3を挟持して嵌合・連結する構造を千鳥格子状に成形しても構築できるが、私は上下の構造体で該包埋底部Sの上側開口部S4の外周を囲む水平方向に突設した鍔状平面S3全周囲を挟持して嵌合・連結する構造を推奨する。この場合の重要な前記した構造以外の構造体は包埋皿上部水密2角面形成枠体Tの下部嵌合連結包埋底部支持体Taのと連結・嵌合係止部T10とその下部嵌合連結包埋底部支持体Taの掛け止め受け部T15・T16と該2種類の素材構成体ユニットからなる合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)の設置時の安定設置用脚部T5と該合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)の重ね収納時の脚部T5の脚部接触回避部T8・T9である。この脚部接触回避部T8・T9の必要性は図42A・Bと図43Dとを比較すれば一目瞭然である。
Further, as shown in FIGS. 21A and 21B and FIGS. 22A and 22B, as in the case of the conventional pathological / biological sample cassette, the biological sample storage and transfer processing porous container basket (unit structure 1) (X and Y) is A patient sample (5 or 5) comprising a unit system embedding frame-like substrate structure which is the fixing support base (unit structure 3) (X and Y and Z) fitted and connected to the embedding frame-shaped substrate Z Even when the unit system cassette for pathology / biological sample containing 5a) is used directly for the chemical treatment process of fixation / dehydration / degreasing / penetration / embedding agent penetration, FIG. As shown in FIGS. 32A, B, and C, the embedding bottom portion of the metal plate having a good thermal conductivity of the embedding dish (unit structure 4) (S and T) with a watertight frame made of synthetic resin is formed by pressing. Unit 4) A bowl-shaped plane projecting in the horizontal direction surrounding the outer periphery of the upper opening S4 of S Openings (T6, T11, T13, T19) on the upper and lower sides that fit and connect to S3, and through holes (T12, T14) connected to the openings from the upper side to the lower side are formed. The concave / convex square contact surface of the contact water-tight surface formed by the upper end surface T2 of the upper water-tight embedding frame portion (unit 5) T made of a synthetic resin and the inner wall T3 of the water-tight embedding frame, and the unit system cassette for the pathological / biological sample Protrusion in which the embedding frame base bottom Z14 and the porous liquid-permeable bottom portion of the embedding frame base (unit 3) are formed so as to project in a narrower area than the bottom surface of the adapter fixing claw when the cassette block is sliced. Since the concave / convex square surface formed by the side wall Z11 is watertightly fitted and connected with the concave / convex square contact surface of the contact watertight surface formed by the watertight frame forming of the conventional metal embedding dish, Water-tight fitting between the bottom surface of the embedded frame-shaped substrate Z of the cassette for pathological / biological samples and the water-tight frame which is the water-tight dihedral surface forming frame T Improves the performance and spills the embedding agent 12 in the embedding dish (unit structure 4) (S and T) with a synthetic resin watertight frame and immerses it in the embedding agent 12 during the fixed embedding solution of the sample 15a. As shown in FIGS. 32A, B, and C, an extra burr 12b of the embedding agent, which is a stagnation of the embedding agent 12 from the periphery of the embedding frame-like substrate Z of the pathological / biological embedding block cassette, is shown in FIG. Synthetic resin upper watertightness of the embedding dish (unit component 4) (S and T) with the synthetic resin watertight frame that does not sag around the bottom of the embedded frame-like substrate Z of the pathological / biologically embedded block cassette Most of the embedding frame part (unit 5) T flows down to the side wall of the embedding frame portion (unit 5) T, thereby preventing the generation of burrs (12a and 12b) of the embedding agent 12 on the outer wall of the embedding frame-shaped substrate Z. At this time, the synthetic resin of the synthetic resin upper watertight embedding frame portion (unit 5) T is preferably made of a material having the same shrinkage rate and properties as the embedding frame-shaped substrate Z of the pathological / biological sample unit system cassette. For example, polyacetal Resin is good. At this time, it is convenient to change the coloring of the total resin depending on the size of the embedding dish.
The basic structure of the synthetic resin embedding dish with a watertight frame (unit structure 4) (S and T) is as shown in FIG. 27A2 longitudinal sectional view, B1 front view, B2 plan view, B3 transverse view, C2 back view, D2 Side view and FIG. 28A Pathology / biological sample unit system cassette that can be embedded and connected to the embedding dish (unit structure 4) (S and T) with a synthetic resin watertight frame (B and pathology) -Front view of the unit system cassette for biological samples-C Vertical cross-sectional view of the upper watertight dihedral plane frame T of the embedding dish-D Cross-sectional view of the upper watertight embedding frame T-E Embedded bottom (unit 4 ) Vertical view of S ・ F Cross-sectional view of the embedded bottom (unit 4) S ・ G Vertical cross-sectional view of the embedded plate bottom fitting connection embedded bottom support Ta ・ H The lower connection connection embedded bottom Cross section of support Ta ・ I Embedment dish with watertight frame made of synthetic resin consisting of two types of material component units (Unit Structure 4) Longitudinal section of (S and T)-J This is an embedding dish with a watertight frame made of synthetic resin (unit structure 4) (S and T). (Unit 4) S and embedded bottom part (Unit 4) The upper and lower openings (T6) are fitted and connected to a bowl-like flat surface S3 projecting in the horizontal direction surrounding the outer periphery of the upper opening S4. , T11, T13, T19) and separating the functional form of the upper watertight embedding frame (unit 5) T that forms through holes (T12, T14) connected to the opening from the upper side to the lower side. Formed as two independent material component units, the embedding bottom (unit 4) S is formed by pressing a metal plate with good thermal conductivity, and the embedding bottom S is formed by the upper opening S4. On the lower side, there is a storage bottom S1 on which an embedded sample is placed during embedding, and a metal that forms a bowl-shaped plane S3 projecting in a horizontal direction surrounding the outer periphery of the upper opening S4 Is an adult unit,
The upper watertight embedding frame portion T has openings on the upper side T13 and the lower side T19, and forms a through-hole portion T14 connected to the upper side to the lower side opening portions (T13, T19). The outer wall upper upper end surface T4 surrounding the periphery of the upper opening T13 of the through hole T14 connected to the lower opening (T13, T19) or the inner wall of the through hole T14 connected to the upper opening T13 is directed inward. A protruding convex surface T4 is formed and protruded inwardly on the outer wall upper upper end surface T4 surrounding the upper opening T13 or on the inner wall of the through hole T14 connected to the upper opening T13. The embedding bottom portion that can be hung and installed on all four sides of the bowl-shaped plane S3 projecting in the horizontal direction surrounding the outer periphery of the upper opening S4 of the storage bottom portion S1 of the embedding bottom portion (unit 4) S on the surface T4 (Unit 4) The lower fitting connection embedded bottom support Ta of the S and the lower fitting connection embedded bottom support Ta are connected to the upper side of the lower fitting connection embedded bottom support Ta, and the upper T6 and the lower T11 The through-hole portion T12 having an opening, forming a through-hole portion T12 connected to the opening portion (T6, T11) from the upper side to the lower side, and connected to the lower opening portion (T6, T11) from the upper side The embedding dish upper watertight 2 formed with a convex flat surface T3 projecting inwardly on the inner wall of the upper end T2 of the outer wall surrounding the upper opening T6 or the inner wall of the through hole T12 connected to the upper opening T6 This is an upper watertight embedding frame portion (unit 5) T composed of a square surface forming frame T.
The embedding dish has an opening at the upper side T6 and the lower side T11 of the upper watertight dihedral surface frame T of the embedding dish, and is penetrated through the upper side to the lower side (T6, T11). A through hole connected to the upper opening T6 of the outer wall surrounding the upper opening T6 of the through hole T12 formed from the upper side and connected to the lower opening (T6, T11) from the upper side. A lower opening (T13, T19) from the upper side of the lower surface T4 of the convex plane T3 formed with the convex plane T3 projecting inwardly on the inner wall of the hole T12 and the lower fitting connection embedded bottom support Ta A convex flat surface T4 projecting inwardly on the upper end surface T4 of the outer wall surrounding the periphery of the upper opening T13 of the through hole T14 connected to the upper opening T13 or the inner wall of the through hole T14 connected to the upper opening T13. A metal plate having a good thermal conductivity is press-molded and sandwiched and fitted in a horizontal projecting flat surface S3 surrounding the outer periphery of the upper opening S4 of the embedded bottom S A linking to consist of structural two consisting Composition member unit synthetic resin watertight framed embedding dish (unit construct 4) (S and T). Therefore, as shown in FIG. 29A, there are various shapes of the embedding dish upper watertight dihedral surface forming frame T and the lower fitting connection embedding bottom support Ta, and the embedding bottom (unit 4) as shown in FIG. 29B. ) The upper opening of the embedding bottom S without separating the upper watertight embedding frame T made of synthetic resin into the embedding pan upper watertight dihedral surface forming frame T and the lower fitting connection embedding bottom support Ta. It is possible to construct a structure that holds and fits and connects the saddle-shaped flat surface S3 projecting in the horizontal direction surrounding the outer periphery of S4. A structure in which the entire periphery of the bowl-shaped plane S3 projecting in the horizontal direction surrounding the outer periphery of the upper opening S4 of S is fitted and connected is recommended. In this case, an important structure other than the above-described structure is the connection / fitting locking portion T10 and the lower fitting of the lower fitting connection embedding bottom support Ta of the embedding dish upper watertight dihedral surface forming frame T. At the time of installation of the embedding dish (unit structure 4) (S and T) with a watertight frame made of synthetic resin composed of the latch receiving portions T15 and T16 of the joint embedded bottom support Ta and the two types of material structure units The leg contact avoiding portions T8 and T9 of the leg portion T5 when the leg portion T5 for stable installation and the embedding dish (unit structure 4) (S and T) with the synthetic resin watertight frame are stacked and stored. The necessity of the leg contact avoidance portions T8 and T9 is obvious when comparing FIGS. 42A and B and FIG. 43D.

次に、図25の説明図に示す様に、従来の包埋皿による包埋方法では包埋皿から包埋ブロックを取り出すときには、包埋剤の冷却による収縮を利用しても該包埋ブロックが包埋皿から外れにくいことがしばしばあったが、本発明の合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)の場合には該合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)の取っ手T1部と包埋ブロックの台木部分である包埋枠状基体Z部分を各々持って反対側に引っ張れば直ぐにバリの無い包埋ブロック試料(図26A・B)が出来上がる。   Next, as shown in the explanatory diagram of FIG. 25, in the conventional embedding method using an embedding dish, when the embedding block is taken out from the embedding dish, the embedding block is used even if the shrinkage due to cooling of the embedding agent is used. Was often difficult to remove from the embedding dish, but in the case of the embedding dish with the synthetic resin watertight frame (unit structure 4) (S and T) of the present invention, the embedding with the synthetic resin watertight frame Holding the T1 part of the plate (unit structure 4) (S and T) and the embedded frame-shaped substrate Z part that is the root part of the embedded block, and pulling them to the opposite side, the embedded block sample without burr immediately (FIGS. 26A and B) are completed.

更に、該包埋ブロック試料は(図30)に示す様に、図24に示す大型の合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)ではなく、前記保護板兼データ記録部X1が成形されている生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの大きさである中型の合成樹脂製水密枠付き包埋皿(ユニット構成体4)(S and T)(図30A・B)を用いれば図30Cの様に包埋ブロック試料を保護板兼データ記録部X1が成形されている生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの包埋ブロック試料と包埋枠状基体Zとが分離して包埋ブロック試料の保管管理は保護板兼データ記録部X1が成形されている生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの包埋ブロック試料として保管管理して、包埋枠状基体Zは薄切持に再利用することもできる。勿論、図44Iに示す様に包埋ブロック試料の保管管理持にICチップ(RFID)管理やその他の目的で該包埋ブロック試料に包埋枠状基体Zを嵌合・連結したまま保管管理することも出来る。   Further, as shown in (FIG. 30), the embedding block sample is not the large synthetic resin embedding pan with watertight frame (unit structure 4) (S and T) shown in FIG. Medium-sized synthetic resin watertight frame-embedded dish (unit structure 4) that is the size of a porous container-like bottom part (unit 1) X for biological sample storage fixed transfer processing in which the data recording part X1 is formed (unit structure 4) T) (FIGS. 30A and 30B), as shown in FIG. 30C, the embedded block sample of the bottom part (unit 1) X for the biological sample storage fixed transfer processing in which the protective plate / data recording part X1 is formed is formed. The embedded block sample and the embedded frame-shaped substrate Z are separated, and the storage management of the embedded block sample is the bottom of the biological sample storage fixed transfer processing unit in which the protective plate and data recording unit X1 is formed (Unit 1 ) Store and manage as an embedded block sample of X, Z can also be reused in a thin Setsuji. Of course, as shown in FIG. 44I, the embedded block sample is stored and managed with the embedded frame sample Z fitted and connected to the embedded block sample for the purpose of storage management of the embedded block sample and other purposes. You can also

更にまた、該包埋ブロック試料は図32A・B・C に示す構造で包埋ブロックの台木部分の包埋枠状基体Zには多孔通液面Y3を有する蓋体(ユニット2)Yを一緒にして包埋して包埋ブロック試料を作製することが出来る。故に、図32D・Eに示す様に該包埋ブロックの台木部分の多孔通液面Y3を有する蓋体(ユニット2)Yを内部に収納した包埋枠状基体Zの厚さは従来の病理・生物試料用カセット底部の厚さh(図Eの21)であり、薄切用ミクロトームのアダプターのカセット係止爪係止嵌合位置(h)と一致する。即ち、本発明の該包埋ブロック試料の台木部分である包埋枠状基体Z内には多孔通液面Y3を有する蓋体(ユニット2)Yが嵌合・連結しており、図32Dに示す様に該包埋ブロック試料はそのまま薄切することが出来る多孔通液面Y3を有する蓋体(ユニット2)Yを内部に収納した包埋枠状基体から出来ている。故に該包埋枠状基体Zは従来の病理・生物試料用カセット底部より頑丈であるし、従来の病理・生物試料用カセット底部の様に蓋部分の医療廃棄物が出ない。   Furthermore, the embedded block sample has a structure shown in FIGS. 32A, B, and C, and a cover (unit 2) Y having a porous liquid-permeable surface Y3 is provided on the embedded frame-like substrate Z of the root portion of the embedded block. Embedded block samples can be prepared by embedding together. Therefore, as shown in FIGS. 32D and 32E, the thickness of the embedded frame-shaped substrate Z in which the lid (unit 2) Y having the porous liquid-permeable surface Y3 of the rootstock portion of the embedded block is housed is the conventional thickness. This is the thickness h (21 in FIG. E) of the cassette for pathology / biological sample, and matches the cassette locking claw locking fitting position (h) of the adapter for the thin section microtome. That is, a lid (unit 2) Y having a porous liquid-permeable surface Y3 is fitted and connected in an embedded frame-shaped substrate Z which is a root part of the embedded block sample of the present invention. As shown in FIG. 2, the embedded block sample is made of an embedded frame-like substrate in which a lid (unit 2) Y having a porous liquid-permeable surface Y3 that can be sliced as it is accommodated. Therefore, the embedded frame-shaped substrate Z is stronger than the bottom of the conventional cassette for pathological / biological samples, and the medical waste in the lid portion is not produced unlike the bottom of the cassette for pathological / biological samples.

このことは従来型病理・生物試料用カセットと本発明の病理・生物試料用ユニットシステムカセットとの縦断面比較図である図34で説明している。図34AEとBHとCHは従来の病理・病理・生物試料用カセット底部Uと従来の多孔通液面を有する蓋体Vの嵌合・連結体であり、図34AFは該従来の多孔通液面を有する蓋体Vを外した病理・病理・生物試料用カセット底部Uである。図34のBEは本発明の基本形態の一つである生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと該底部(ユニット1)Xの上側開口部X9に独自に互いに脱着自在に嵌合・連結する前記多孔通液面Y3を有する蓋体(ユニット2)Yとの2ユニットシステム複合構成体で構築される独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)の構成ユニットである該底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した該鍔状平面X11の少なくても1辺を前記包埋枠状基体(ユニット3)Zの外側面のデータ記録部の傾斜面Z1に沿って延長成形して、該包埋枠状基体(ユニット3)Zの外周側面に傾斜形成設置されたデータ記録部Z11を保護し抑え覆う該底部(ユニット1)Xの保護板兼データ記録部X1を更に保護するために、前記多孔通液面Y3を有する蓋体(ユニット2)Yの多孔通液面Y3の外周を囲む開閉誘導リブY8の外周平面の少なくても1辺にも同様に一体的保護板Y1を成形して、該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの保護板兼データ記録部X1上の汚れや該データ記録部に印字貼られたデータラベルの剥離や汚れを防止する保護板Y1付き蓋体(ユニット2)Yと保護板兼データ記録部X1付き底部(ユニット1)Xとの2ユニットシステム複合構成体で構築される独立した機能を担う試料データ記録部付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)の2重のデータ記録部兼保護板(X1 and Y1)が前記包埋枠状基体(ユニット3)Zの外側面のデータ記録部Z1を挟持保護して多孔通液面Y3を有する蓋体Yを廃棄しないで活用できる3ユニットシステム複合構成体(X・Y・Z)で構築される試料データの確定とバリ無し包埋ブロックの台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)(X and Y and Z)で構成されることを特徴とする病理・生物試料用ユニットシステムカセットである。
図34BFは該試料データ記録部付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)を外した包埋枠状基体(ユニット3)Zである。該包埋枠状基体(ユニット3)Zの両外側長辺側壁上端面Z5は、前記生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11の厚さと該底部(ユニット1)Xの開口部X9に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体(ユニット2)Yの多孔通液面Y3の外周を囲む開閉誘導リブY8の外周平面Y10の厚さを重ねた厚さ分だけ、前記包埋枠状基体(ユニット3)Zの開口部Z18周囲を囲む外壁上部上端面Z6と該開口部Z18に連なる内壁に内側に向けて突設された凸状平面Z6より高い位置に成形されている
故に、図34のBEに示された固定用支持基台(ユニット構成体3)(X and Y and Z)は蓋体Yを医療廃棄物とすることなく試料データ記録部の保護と固定用支持基台(ユニット構成体3)(X and Y and Z)の形状強度保持の役割を担うパーツとして包埋ブロック試料内に一緒に埋め込まれるのである。
This is illustrated in FIG. 34 which is a longitudinal cross-sectional comparison diagram of the conventional pathological / biological sample cassette and the pathological / biological sample unit system cassette of the present invention. 34AE, BH, and CH are fitting / connecting bodies of conventional pathology / pathology / biological sample cassette bottom U and lid V having a conventional porous liquid-permeable surface, and FIG. 34AF is the conventional porous liquid-permeable surface. It is the cassette bottom part U for pathology, pathology, and a biological sample which removed the cover body V which has. 34 is one of the basic forms of the present invention, and is independently detachable from the bottom part (unit 1) X for biological sample storage and transfer processing which is one of the basic forms of the present invention and the upper opening part X9 of the bottom part (unit 1) X. Porous container cage for biological sample storage and transfer processing with independent function constructed by a two-unit system composite structure with the lid (unit 2) Y having the porous liquid-permeable surface Y3 fitted and connected to the unit Construct 1) (X and Y) is a constituent unit of the bottom (unit 1) X, and at least one side of the bowl-shaped plane X11 projecting in the horizontal direction surrounding the outer periphery of the upper opening X9 Data recording is extended and formed along the inclined surface Z1 of the data recording portion on the outer surface of the embedded frame-shaped substrate (unit 3) Z, and is inclined and installed on the outer peripheral side surface of the embedded frame-shaped substrate (unit 3) Z. Protection plate and data recording of the bottom (Unit 1) X that protects and covers the Z11 In order to further protect the portion X1, the same applies to at least one side of the outer peripheral plane of the opening / closing guide rib Y8 surrounding the outer periphery of the porous liquid passing surface Y3 of the lid (unit 2) Y having the porous liquid passing surface Y3. An integral protective plate Y1 is formed on the protective plate and data recording part X1 of the porous container-like bottom part (unit 1) X for biological sample storage and transfer processing, and data printed and pasted on the data recording part An independent function constructed by a two-unit system composite structure with a lid (unit 2) Y with a protective plate Y1 to prevent label peeling and dirt and a bottom (unit 1) X with a protective plate and data recording unit X1 Biological sample storage fixed transport porous container with sample data recording section to carry (unit structure 1) (X and Y) double data recording section and protective plate (X1 and Y1) is the embedded frame-shaped substrate ( Unit 3) Holding and protecting the data recording part Z1 on the outer surface of Z, and has a porous liquid passing surface Y3 Confirmation of sample data constructed with a three-unit system composite structure (X, Y, Z) that can be used without discarding the lid Y, functions of the root block of the burr-free embedding block, and conventional cassettes for pathology and biological samples It is a unit system cassette for pathological / biological samples characterized by comprising a support base for fixation (unit structure 3) (X and Y and Z) capable of functioning.
FIG. 34BF shows an embedded frame substrate (unit 3) Z from which the perforated container cage (unit structure 1) (X and Y) for biological sample storage and transfer processing with the sample data recording unit is removed. The outer long side wall upper end surface Z5 of the embedded frame-shaped substrate (unit 3) Z is a horizontal direction surrounding the outer periphery of the upper opening X9 of the porous container-like bottom portion (unit 1) X for biological sample storage and transfer processing. The perforated liquid surface of the lid (unit 2) Y having the thickness of the bowl-shaped plane X11 projecting from the bottom and the perforated liquid surface Y3 detachably fitted and connected to the opening X9 of the bottom (unit 1) X The upper upper end surface Z6 of the outer wall surrounding the periphery of the opening Z18 of the embedded frame base (unit 3) Z and the opening by the thickness of the outer peripheral plane Y10 of the opening / closing guide rib Y8 surrounding the outer periphery of Y3 34 is formed at a position higher than the convex plane Z6 projecting inwardly on the inner wall connected to the portion Z18, so that the fixing support base (unit structure 3) (X and Y and Z) is a support base for protecting and fixing the sample data recording section without using the lid Y as medical waste (unit structure 3). Than it is embedded together embedded block specimen as part responsible for the shape strength retention of X and Y and Z).

更にまた、図34CEもやはり本発明の試料データ記録部付きX1生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと、該底部(ユニット1)Xと試料データ記録部付き包埋枠状基体(ユニット3)Wの上側開口部(X9 and W18)に脱着自在に嵌合・連結する多孔通液孔Y3を有する保護板Y1付き蓋体(ユニット2)Yと包埋枠状基体(ユニット3)Wの機能形態を各々分離独立した3種類の構成体ユニットとして成形して該底部Xは、該包埋枠状基体(ユニット3)Wとは分離独立した上側に開口部X9を形成し該上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11を形成し、その下側に少なくとも底部に多孔通液性底面X10を形成した試料収納部X6からなる生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xであり、前記包埋枠状基体(ユニット3)Wの介在がなくても該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9に前記多孔通液孔Y3を有する蓋体(ユニット2)Yが独自に互いに脱着自在に嵌合・連結して試料の固定移送と薬液処理と試料データの伝達連結をする独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)を構築することができ、前記包埋枠状基体(ユニット3)Wは、前記底部Xである生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xとは異なる多孔通液性底部W10を形成する包埋枠状基体(ユニット3)Wであり、該包埋枠状基体(ユニット3)Wの上側開口部W18に前記多孔通液孔Y3を有する蓋体(ユニット2)Yが独自に互いに脱着自在に嵌合・連結して試料データの確定とバリ無し包埋ブロックの台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)(Y and W)を構築する。
該試料データ記録部(X1and Y1)付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)と該試料データ記録部付き固定用支持基台(ユニット構成体3)(Y and W)の構成ユニットである前記多孔通液孔Y3を有する保護板Y1付き蓋体(ユニット2)Yを共有活用できる3ユニットシステム複合構成体(X・Y・W)からなる独立した機能を担う試料データ記録部(X1and Y1)付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)と試料データ記録部付き固定用支持基台(ユニット構成体3)(Y and W)とで構成するユニットシステム包埋枠状基体構成体であることを特徴とする病理・生物試料用ユニットシステムカセットである。
図34CFは該試料データ記録部付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)を外した包埋枠状基体(ユニット3)Wである。該包埋枠状基体(ユニット3)Wは、前記上側開口部W18の周囲を囲む外壁上部上端面W6或いは該上側開口部W18に連なる収納内壁に内側に向けて突設された凸状平面W6が形成され、該上側開口部W18周囲を囲む外壁上部の両長辺上端面W5の端面上に外側長辺側壁W15を立設延長形成した包埋枠状基体(ユニット3)Wであり、該包埋枠状基体(ユニット3)Wの両側長辺側壁W15の上端面W15は、前記生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9に脱着自在に嵌合・連結する多孔通液面Y9を有する蓋体(ユニット2)Yの多孔通液面Y9の外周を囲む開閉誘導リブY8の外周平面の厚さ分だけ前記包埋枠状基体(ユニット3)Wの開口部W18周囲を囲む外壁上部上端面W6と該開口部W18に連なる内壁に内側に向けて突設された凸状平面W6より高い位置に成形されている。
また、前記生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)の構成体ユニットである該生物試料収納固定移送処理用多孔容器状底部(ユニット1)の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体(ユニット2)は、該蓋体(ユニット2)の多孔通液面の外周を囲む開閉誘導リブの外周平面の長側辺を前記包埋枠状基体(ユニット3)の両外側長辺側壁が挟持嵌合できる形状に切り欠け部を形成した蓋体であり、該生物試料収納固定移送処理用多孔容器状底部(ユニット1)の蓋体(ユニット2)は前記包埋枠状基体(ユニット3)の蓋体(ユニット2)としても共有活用されて、該蓋体(ユニット2)の多孔通液面の外周を囲む開閉誘導リブの外周平面の厚さは該包埋枠状基体(ユニット3)内に全て収納され側壁外側のデータ記録部の面積が広く保たれる。また、該多孔通液孔を有する蓋体(ユニット2)が該包埋枠状基体(ユニット3)の長辺側壁内に収まりカセット収納容積の減少を防ぐために、その厚さ分該包埋枠状基体(ユニット3)の多孔通液性底部の成形位置をカセットブロック薄切時のアダプター固定爪位置Z14の底面より狭い面積で突設成形した袴状の突設側壁Z11に成形する。
該包埋枠状基体(ユニット3)Wは前記生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)の構成ユニットである前記多孔通液面Y9を有する蓋体(ユニット2)Yを該包埋枠状基体(ユニット3)Wの上側開口部W18にも脱着自在に嵌合・連結する多孔通液面Y9を有する蓋体として共有できて、該蓋体(ユニット2)Yを廃棄することなく、包埋ブロックの台木の一部として一体的に埋込活用して包埋ブロックを作製できるブロック試料の固定用支持基台(ユニット構成体3)(Y and W)を構築することができる。該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)と該固定用支持基台(ユニット構成体3)(Y and W)の構成ユニットである前記多孔通液面Y9を有する蓋体(ユニット2)Yを共有活用できる3ユニットシステム複合構成体(X・Y・W)からなる独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)と独立した試料データの確定とバリ無し包埋ブロック試料の台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)(Y and W)とで構成することを特徴とする病理・生物試料用ユニットシステムカセットある。
故に、図34のCEに示された固定用支持基台(ユニット構成体3)(Y and W)は蓋体Yを医療廃棄物とすることなく試料データ記録部の保護と固定用支持基台(ユニット構成体3)(Y and W)の形状強度保持の役割を担うパーツとして包埋ブロック試料内に一緒に埋め込まれるのである。
Furthermore, FIG. 34CE also shows the X1 biological sample storage fixed transfer processing porous container bottom part (unit 1) X with the sample data recording part of the present invention, and the bottom part (unit 1) X and the embedding frame with the sample data recording part. Lid (unit 2) Y with a protective plate Y1 having a porous liquid passage hole Y3 that is detachably fitted and connected to the upper opening (X9 and W18) of the substrate (unit 3) W and the embedded frame substrate ( Unit 3) The functional form of W is formed as three separate structural units, and the bottom X forms an opening X9 on the upper side that is separate from the embedded frame-like substrate (unit 3) W. A biological sample storage and fixing comprising a sample storage portion X6 having a bowl-shaped flat surface X11 projecting in the horizontal direction surrounding the outer periphery of the upper opening X9 and having a porous liquid-permeable bottom surface X10 at least at the bottom on the lower side. It is a porous container-shaped bottom part (unit 1) X for transfer processing, and the embedding frame Even if the substrate (unit 3) W is not present, the lid (unit 2) Y having the porous liquid passage hole Y3 in the upper opening X9 of the porous container-like bottom portion (unit 1) X for biological sample storage and transfer processing Perforated vessel for biological sample storage and transfer processing (unit component 1), which has independent functions for independently connecting and detachably fitting and connecting to each other to fix and transfer samples, process chemicals and transfer sample data ( X and Y) can be constructed, and the embedded frame-like substrate (unit 3) W is different from the bottom X, which is a porous container-like bottom portion (unit 1) X for biological sample storage and transfer processing, which is the bottom portion X. A lid (unit 2) which is an embedding frame-like substrate (unit 3) W forming the liquid bottom W10, and has the porous liquid passage hole Y3 in the upper opening W18 of the embedding frame-like substrate (unit 3) W. ) Y is independently detachably fitted and connected to each other, confirming and validating sample data Building and fixing support base that Ninaeru functions and cassette functions for conventional pathological and biological samples rootstock embedding block (unit configuration body 3) (Y and W).
Biological sample storage fixed transfer processing porous container with sample data recording section (X1 and Y1) (unit structure 1) (X and Y) and fixing support base with sample data recording section (unit structure 3) ( Y and W) independent unit consisting of a three-unit system composite structure (X, Y, W) that can share and utilize the lid (unit 2) Y with the protective plate Y1 having the porous liquid passage hole Y3. Perforated vessel for storing and transferring biological samples (unit structure 1) (X and Y) with sample data recording section (X1 and Y1) and fixing support base (unit structure 3) with sample data recording section Y and W) is a unit system cassette for pathological / biological specimens characterized in that it is a unit system embedding frame-like substrate structure.
FIG. 34CF shows an embedded frame-shaped substrate (unit 3) W from which the perforated container cage (unit structure 1) (X and Y) for biological sample storage and transfer processing with the sample data recording unit is removed. The embedded frame-shaped substrate (unit 3) W is a convex flat surface W6 projecting inwardly on the upper upper end surface W6 of the outer wall surrounding the periphery of the upper opening W18 or on the storage inner wall continuous to the upper opening W18. And an embedded frame-shaped base (unit 3) W in which an outer long side wall W15 is erected and extended on the end surfaces of both long side upper end surfaces W5 of the upper part of the outer wall surrounding the periphery of the upper opening W18, The upper end surface W15 of the long side walls W15 on both sides of the embedded frame-shaped substrate (unit 3) W is detachably fitted into the upper opening X9 of the porous container-like bottom part (unit 1) X for biological sample storage and transfer processing. -The embedded frame-shaped substrate (unit 3) W by the thickness of the outer peripheral plane of the opening / closing guide rib Y8 surrounding the outer periphery of the porous liquid-permeable surface Y9 of the lid (unit 2) Y having the porous liquid-permeable surface Y9 to be connected. The outer wall upper upper end surface W6 surrounding the periphery of the opening W18 and a convex plane W6 projecting inwardly on the inner wall continuous to the opening W18. It is molded in position.
Further, the biological sample storage / fixed transfer processing porous container bowl (unit structure 1) is detachably fitted to the upper opening of the biological sample storage / fixed transfer processing porous container bottom (unit 1). The lid (unit 2) having a porous liquid passage hole to be connected and connected has the long side of the outer peripheral plane of the opening / closing guide rib surrounding the outer periphery of the porous liquid passage surface of the lid (unit 2) in the shape of the embedded frame. It is a lid body in which notches are formed in such a shape that both outer long side walls of the substrate (unit 3) can be sandwiched and fitted, and the lid body (unit 1) of the porous container-like bottom part (unit 1) for biological sample storage and transfer processing 2) is also used as a lid (unit 2) of the embedded frame base (unit 3), and is an outer peripheral plane of the open / close guide rib surrounding the outer periphery of the porous liquid-permeable surface of the lid (unit 2). All thicknesses are stored in the embedded frame base (unit 3). Area of the data recording portion of the side wall outside is maintained widely. Further, in order to prevent the cover (unit 2) having the porous liquid passage hole from being accommodated in the long side wall of the embedding frame-like base (unit 3) and preventing the cassette storage volume from being reduced, the embedding frame corresponding to the thickness thereof is used. The forming position of the porous liquid-permeable bottom portion of the base substrate (unit 3) is formed into a bowl-shaped protruding side wall Z11 protrudingly formed in an area narrower than the bottom surface of the adapter fixing claw position Z14 when the cassette block is sliced.
The embedded frame-shaped substrate (unit 3) W is a lid having the porous liquid-permeable surface Y9 which is a component unit of the biological sample storage fixed transfer processing porous container basket (unit component 1) (X and Y) ( Unit 2) Y can be shared as a lid having a porous liquid-permeable surface Y9 that is also detachably fitted to and connected to the upper opening W18 of the embedded frame base (unit 3) W. 2) A supporting base for fixing a block sample (unit structure 3) that can be embedded and used as a part of the root block of the embedding block without discarding Y. W) can be built. The porous liquid-permeable surface, which is a structural unit of the biological sample storage fixed transfer processing porous container bowl (unit structural body 1) (X and Y) and the fixing support base (unit structural body 3) (Y and W) Lid with Y9 (Unit 2) Perforated container for biological sample storage and transfer processing (Unit Component 1) consisting of a three-unit system complex component (X, Y, W) that can share and utilize Y (X and Y) Confirmation of sample data independent of burr-free embedding block sample rootstock function and conventional support base for carrying pathology / biological sample cassette function (unit structure 3) (Y and W) and a unit system cassette for pathological / biological specimens.
Therefore, the fixing support base (unit structure 3) (Y and W) shown in CE of FIG. 34 protects the sample data recording section and fixes the support base without using the lid Y as medical waste. (Unit structure 3) (Y and W) are embedded together in the embedded block sample as a part that plays the role of maintaining the shape strength.

更にまた、縦断面比較図35BGとCGは3ユニットシステム複合構成体(X・Y・Z)からなる図34BEに示された生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと該底部(ユニット1)Xの上側開口部X9に独自に互いに脱着自在に嵌合・連結する前記多孔通液面Y3を有する蓋体(ユニット2)Yとの2ユニットシステム複合構成体で構築される独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)図35BGの構成ユニットである該底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した該鍔状平面X11の少なくても1辺を前記包埋枠状基体(ユニット3)Zの外側面データ記録部の傾斜面Z1に沿って延長成形して、該包埋枠状基体(ユニット3)Zの外周側面に傾斜形成設置されたデータ記録部Z11を保護し抑え覆う該底部(ユニット1)Xの保護板兼データ記録部X1を更に保護するために、前記多孔通液面Y3を有する蓋体(ユニット2)Yの多孔通液面Y3の外周を囲む開閉誘導リブY8の外周平面の少なくても1辺にも同様に一体的保護板Y1を成形して、該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの保護板兼データ記録部X1上の汚れや該データ記録部に印字貼られたデータラベルの剥離や汚れを防止する保護板Y1付き蓋体(ユニット2)Yと保護板兼データ記録部X1付き底部(ユニット1)Xとの2ユニットシステム複合構成体で構築される独立した機能を担う試料データ記録部付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)図35BGの2重のデータ記録部兼保護板(X1 and Y1)が前記包埋枠状基体(ユニット3)Zの外側面のデータ記録部Z1を挟持保護して多孔通液面Y3を有する蓋体Yを廃棄しないで活用できる3ユニットシステム複合構成体(X・Y・Z)で構築される試料データの確定とバリ無し包埋ブロックの台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)(X and Y and Z)図35CGで構成されることを特徴とする病理・生物試料用ユニットシステムカセットを示している。
該縦断面比較図35AFとBGは3ユニットシステム複合構成体(X・Y・W)からなる図34CEに示された保護板兼データ記録部X1付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと、該底部(ユニット1)Xと試料データ記録部付き包埋枠状基体(ユニット3)Wの上側開口部(X9 and W18)に脱着自在に嵌合・連結する多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Yと包埋枠状基体(ユニット3)Wの機能形態を各々分離独立した3種類の構成体ユニットとして成形して、該底部Xは該包埋枠状基体(ユニット3)Wとは分離独立した上側に開口部X9を形成し該上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11を形成し、その下側に少なくとも底部に多孔通液性底面X10を形成した試料収納部X6からなる生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xであり、前記包埋枠状基体(ユニット3)Wの介在がなくても該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9に前記多孔通液孔Y3を有する蓋体(ユニット2)Yが独自に互いに脱着自在に嵌合・連結して試料の固定移送と薬液処理と試料データの伝達連結をする独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)図35BGを構築することができる。前記包埋枠状基体(ユニット3)Wは、前記底部Xである生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xとは異なる多孔通液性底部W10を形成する包埋枠状基体(ユニット3)Wであり、該包埋枠状基体(ユニット3)Wの上側開口部W18に前記多孔通液孔Y3を有する蓋体(ユニット2)Yが独自に互いに脱着自在に嵌合・連結して試料データの確定とバリ無し包埋ブロックの台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)(Y and W)図35AFを構築する。該試料データ記録部(X1and Y1)付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)図35BGと該試料データ記録部付き固定用支持基台(ユニット構成体3)(Y and W)図35AFの構成ユニットである前記多孔通液孔Y3を有する保護板Y1付き蓋体(ユニット2)Yを共有活用できる3ユニットシステム複合構成体(X・Y・W)からなる独立した機能を担う試料データ記録部(X1and Y1)付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)図35BGと試料データ記録部付き固定用支持基台(ユニット構成体3)(Y and W)図35AFとで構成するユニットシステム包埋枠状基体構成体であることを特徴とする病理・生物試料用ユニットシステムカセットである。
Furthermore, the longitudinal cross-sectional comparison figures 35BG and CG are the three-unit system composite structure (X, Y, Z) and the porous container-like bottom part (unit 1) X for biological sample storage and transfer processing shown in FIG. It is constructed of a two-unit system composite structure with the lid (unit 2) Y having the porous liquid-permeable surface Y3 that is independently detachably fitted and connected to the upper opening X9 of the bottom (unit 1) X. Perforated vessel for storing and transferring biological samples carrying independent functions (unit structure 1) (X and Y) Horizontal surrounding the outer periphery of the upper opening X9 of the bottom part (unit 1) X which is the constituent unit of FIG. 35BG Extending at least one side of the saddle-like plane X11 projecting in the direction along the inclined surface Z1 of the outer surface data recording portion of the embedded frame-shaped substrate (unit 3) Z, Inclined and installed on the outer peripheral side of the substrate (unit 3) Z In order to further protect the protective plate and data recording part X1 of the bottom part (unit 1) X that protects and suppresses the data recording part Z11, the porous body of the lid (unit 2) Y having the porous liquid passing surface Y3 is provided. Similarly, an integral protective plate Y1 is formed on at least one side of the outer peripheral plane of the open / close guide rib Y8 surrounding the outer periphery of the liquid surface Y3, and the bottom of the perforated container for fixing and transferring the biological sample (unit 1) Cover (unit 2) Y with protective plate Y1 and protective plate / data recording unit X1 to prevent dirt on the protective plate / data recording unit X1 and peeling or contamination of data labels printed on the data recording unit Perforated container for biological sample storage and transfer with sample data recording unit (unit component 1) (X and Y), which is constructed of a two-unit system complex structure with bottom (unit 1) X The double data recording / protection plate (X1 and Y1) of FIG. A three-unit system composite structure (X / Y / Z) that can be used without discarding the lid Y with the porous liquid-permeable surface Y3 by sandwiching and protecting the data recording part Z1 on the outer surface of the embedded frame base (unit 3) Z ) Confirmation of the sample data constructed in (4), the function of the rootstock of the burr-free embedded block, and the fixed support base (unit structure 3) that can carry the conventional cassette function for pathological / biological samples (X and Y and Z) FIG. 36 shows a unit system cassette for pathological / biological samples, characterized in that it is configured as shown in FIG. 35CG.
The longitudinal cross-sectional comparison figures 35AF and BG are three-unit system composite structure (X, Y, W) porous container bottom part for biological sample storage fixed transfer process with protective plate and data recording part X1 shown in FIG. 34CE ( Unit 1) X, and the bottom (unit 1) X and the perforated liquid that is detachably fitted and connected to the upper opening (X9 and W18) of the embedded frame-like substrate (unit 3) W with the sample data recording unit The functional form of the lid (unit 2) Y with the protective plate Y1 having the surface Y3 and the embedded frame-like base (unit 3) W are formed as three separate constituent units, and the bottom X is An opening X9 is formed on the upper side that is separated from the embedding frame-shaped substrate (unit 3) W, and a bowl-shaped plane X11 projecting in the horizontal direction surrounding the outer periphery of the upper opening X9 is formed. Biological sample consisting of sample storage part X6 with porous liquid-permeable bottom surface X10 formed at least at the bottom Porous container-like bottom for storage and transfer processing (unit 1) X, and porous container-like bottom for biological sample storage and transfer processing (unit 1) without the inclusion of the embedded frame base (unit 3) W The lid (unit 2) Y having the porous liquid passage hole Y3 in the upper opening X9 of X is independently detachably fitted and connected to each other to fix and transfer the sample, perform chemical treatment, and transfer the sample data. It is possible to construct a perforated container container (unit structure 1) (X and Y) FIG. The embedded frame-like substrate (unit 3) W has an embedded frame shape that forms a porous liquid-permeable bottom W10 that is different from the bottom X of the porous container-like bottom (unit 1) X for storing and transferring biological samples. The base (unit 3) W, and the lid (unit 2) Y having the porous liquid passage hole Y3 in the upper opening W18 of the embedded frame base (unit 3) W is independently detachably fitted to each other.・ Fixed sample data and functions of rootstock of burr-free embedding block and conventional support base (unit structure 3) (Y and W) capable of carrying cassette function for pathology / biological sample. To construct. Perforated vessel for biological sample storage / fixed transfer treatment with sample data recording part (X1 and Y1) (unit structure 1) (X and Y) FIG. 35BG and fixing support base with sample data recording part (unit structure 3) ) (Y and W) From the three-unit system composite structure (X, Y, W) that can share the cover body (unit 2) Y with the protective plate Y1 having the porous liquid passage hole Y3, which is the structural unit of FIG. 35AF Perforated vessel for storing and transferring biological samples (unit structure 1) (X and Y) with a sample data recording unit (X1 and Y1) having an independent function of FIG. 35BG and a supporting base for fixing with a sample data recording unit (X and Y) Unit structure 3) (Y and W) A unit system cassette for pathological / biological samples, characterized in that it is a unit system-embedded frame-shaped substrate structure constituted by FIG. 35AF.

該縦断面比較図35から解ることは、該3ユニットシステム複合構成体からなる固定用支持基台(ユニット構成体3)(X and Y and Z)図35CGと固定用支持基台(ユニット構成体3)(Y and W)図35AFの外形の形状形態は同じであり、両者ともに多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Yは共有活用できる。それは図35AFの多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Yを外した図が図35ADであるが、該図35ADの包埋枠状基体(ユニット3)Wは、前記底部Xである生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xとは異なる多孔通液性底部W10を形成する包埋枠状基体(ユニット3)Wであり、該包埋枠状基体(ユニット3)Wの厚さ〔:外壁(図37のW15)の高さh(21)〕から生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した鍔状平面X11の厚さと該底部(ユニット1)Xの開口部X9に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体(ユニット2)Yの多孔通液面Y3の外周を囲む開閉誘導リブY8の外周平面Y10の厚さを重ねた厚さ分である仮想形状(Wp1)だけ切り取るとWp2が残る(図35BD)。該仮想形状(Wp1)を図35CDのユニットシステム包埋枠状基体多孔通液性容器底部(ユニット構成体2)(X and Z)の開口部に重ね合わせると生物試料収納固定移送処理用多孔容器状底部(ユニット1)X 図35CEのデータ記録部の傾斜角度面に一致して、また包埋枠状基体W図35ADのデータ記録部の傾斜面と一致している。即ち図35ADとWp1とWp2の重なり(Wp1 and Wp2)図35BEは合同であり、図35CEの外形状とも一致する。故に前記多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Yは図35ADと図35BEと図35CEは同じ外形形態であり両方に脱着自由に嵌合連結する(図35AF・図35BF)。即ち、多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Yは生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9に脱着自在に嵌合連結して保護板兼データ記録部(X1and Y1)付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)図35BGを構築し、該試料データ記録部(X1and Y1)付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)図35BGは前記包埋枠状基体(ユニット3)Zの上側開口部Z18にも脱着自在に嵌合・連結して該包埋枠状基体(ユニット3)Zのデータ記録部Z1を保護板兼データ記録部(X1and Y1)付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)図35BGの保護板兼データ記録部(X1and Y1)の下面X7が覆い保護する。
即ち、本発明の保護板兼データ記録部X1付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Yとデータ記録部Z1付き包埋枠状基体(ユニット3)Zと多孔通液性底部W10を形成するデータ記録部W1付き包埋枠状基体(ユニット3)Wとは、該保護板兼データ記録部X1付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9に脱着自在に嵌合・連結する多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Yとで試料の固定移送と薬液処理と試料データの伝達連結をする独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)図35BGを構築して、該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Y)図35BGは前記データ記録部Z1付き包埋枠状基体(ユニット3)Zと脱着自在に嵌合・連結して前記3ユニットシステム複合構成体からなる固定用支持基台(ユニット構成体3)(X and Y and Z)図35CGを構築する。更に該多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Yは前記多孔通液性底部W10を形成するデータ記録部W1付き包埋枠状基体(ユニット3)Wの上側開口部W18に脱着自在に嵌合・連結して試料データ記録部付き固定用支持基台(ユニット構成体3)(Y and W)図35AFを構築する。
故に、ユニットシステム包埋枠状基体多孔通液性容器底部(ユニット構成体2)(X and Z)である図35CD・CEの試料収納部は保護板兼データ記録部X1付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの試料収納部X6であり、一方多孔通液性底部W10を形成するデータ記録部W1付き包埋枠状基体(ユニット3)Wの試料収納部W17は該包埋枠状基体(ユニット3)W自体内部に成形された試料収納部W17であるので前記生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの試料収納部X6の周囲を囲む側壁X8の成形の必要が無くその分試料収納部W17の底面積は広くとれる。その他は該多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Yの保護板Y1の成形傾斜角度は保護板兼データ記録部X1付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xと包埋枠状基体(ユニット3)Zとの2ユニットシステム複合構成体で構築される病理組織試料用カセットの機能形態であるユニットシステム包埋枠状基体多孔通液性容器底部(ユニット構成体2)(X and Z)のデータ記録部X1の傾斜面に沿って成形されており、該データ記録部X1の傾斜面を該保護板Y1付き蓋体(ユニット2)Yの保護板Y1が押さえ覆うように保護している(図35BGと図35CG)。更に、前記多孔通液性底部W10を形成するデータ記録部W1付き包埋枠状基体(ユニット3)Wのデータ記録部W1面は該保護板兼データ記録部X1付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xのデータ記録部X1面と同じ傾斜面上存在している。
It can be understood from the longitudinal cross-sectional comparison figure 35 that the three-unit system composite structure fixing support base (unit structure 3) (X and Y and Z) FIG. 35CG and the fixing support base (unit structure) 3) (Y and W) The shape of the outer shape of FIG. 35AF is the same, and the lid (unit 2) Y with the protective plate Y1 having the porous liquid-permeable surface Y3 can be shared. FIG. 35AD is a view of removing the lid (unit 2) Y with the protective plate Y1 having the porous liquid-permeable surface Y3 in FIG. 35AF, and the embedded frame-shaped substrate (unit 3) W in FIG. An embedded frame-like substrate (unit 3) W that forms a porous liquid-permeable bottom W10 different from the bottom X of the porous container-like bottom (unit 1) X for biological sample storage and transfer processing, which is the bottom X. From the thickness of the substrate (unit 3) W [: the height h (21) of the outer wall (W15 in FIG. 37)] the outer periphery of the upper opening X9 of the porous container-shaped bottom part (unit 1) X for biological sample storage and transfer processing Of the lid (unit 2) Y having a thickness of a bowl-shaped plane X11 projecting in a horizontal direction surrounding the base and a porous liquid-permeable surface Y3 detachably fitted and connected to the opening X9 of the bottom (unit 1) X A virtual shape that is the thickness of the outer peripheral plane Y10 of the open / close guide rib Y8 that surrounds the outer periphery of the porous liquid passing surface Y3 ( p1) only cut the Wp2 remain (Figure 35BD). When the virtual shape (Wp1) is superimposed on the opening of the unit system embedding frame-like substrate porous liquid-permeable container bottom (unit structure 2) (X and Z) of FIG. Shaped bottom (unit 1) X coincides with the inclined angle plane of the data recording portion of FIG. 35CE, and also coincides with the inclined face of the data recording portion of the embedded frame-shaped substrate W FIG. 35AD. That is, FIG. 35AD overlaps Wp1 and Wp2 (Wp1 and Wp2). FIG. 35BE is congruent and coincides with the outer shape of FIG. 35CE. Therefore, the cover body (unit 2) Y with the protective plate Y1 having the porous liquid-permeable surface Y3 has the same external shape as FIG. 35AD, FIG. 35BE, and FIG. 35CE. ). That is, the lid (unit 2) Y with the protective plate Y1 having the porous liquid-permeable surface Y3 is detachably fitted and connected to the upper opening X9 of the porous container-like bottom part (unit 1) X for biological sample storage and transfer processing. And a biological sample storage fixed transfer processing porous container with a protective plate and data recording unit (X1 and Y1) (unit structure 1) (X and Y) FIG. 35BG is constructed, and the biological with sample data recording unit (X1 and Y1) Perforated container for sample storage / transfer processing (unit structure 1) (X and Y) FIG. 35BG is also detachably fitted and connected to the upper opening Z18 of the embedded frame-shaped substrate (unit 3) Z. Perforated container cage (unit structure 1) (X and Y) for biological sample storage and transfer processing with protective plate and data recording section (X1 and Y1) as the data recording section Z1 of the embedded frame-shaped substrate (unit 3) Z 35BG protective plate and data recording unit (X1 and Y1) bottom surface X 7 covers and protects.
That is, a cover (unit 2) Y with a protective plate Y1 having a porous plate-like bottom portion (unit 1) X for a biological sample storage fixed transfer process with a protective plate and data recording portion X1 of the present invention and a porous liquid-permeable surface Y3 and data. The embedded frame substrate (unit 3) Z with the recording part Z1 and the embedded frame substrate (unit 3) W with the data recording part W1 forming the porous liquid-permeable bottom W10 are the protective plate and data recording part X1. A lid (unit 2) Y with a protective plate Y1 having a porous liquid-permeable surface Y3 detachably fitted and connected to the upper opening X9 of the perforated container-like bottom part (unit 1) X for biological sample storage fixed transfer processing In Fig. 35BG, a porous container for biological sample storage and transfer processing (unit structure 1) (X and Y), which has an independent function of linking and transferring the sample, transferring chemicals and transferring sample data, is constructed. Perforated container for biological sample storage and transfer processing (unit structure Adult 1) (X and Y) FIG. 35BG is a fixing support base comprising the above-mentioned three-unit system composite structure which is detachably fitted and connected to the embedded frame-like base (unit 3) Z with the data recording section Z1. Table (unit structure 3) (X and Y and Z) FIG. 35CG is constructed. Further, the lid (unit 2) Y with the protective plate Y1 having the porous liquid-permeable surface Y3 is the upper opening of the embedded frame-shaped substrate (unit 3) W with the data recording part W1 that forms the porous liquid-permeable bottom W10. A fixing support base with a sample data recording unit (unit structure 3) (Y and W) is detachably fitted and connected to W18 to construct FIG. 35AF.
Therefore, the sample storage part of FIG. 35 CD / CE, which is the bottom of the unit system embedded frame-like substrate porous liquid-permeable container (unit structure 2) (X and Z), stores and transfers the biological sample with the protective plate and data recording part X1. The sample container X6 of the processing porous container bottom (unit 1) X, while the sample container W17 of the embedded frame substrate (unit 3) W with the data recording part W1 forming the porous liquid-permeable bottom W10 is: Since the embedded frame-shaped substrate (unit 3) W is a sample storage portion W17 formed inside itself, it surrounds the periphery of the sample storage portion X6 of the porous container-like bottom portion (unit 1) X for biological sample storage and transfer processing. There is no need to form the side wall X8, and the bottom area of the sample storage portion W17 can be increased accordingly. In other cases, the forming inclination angle of the protective plate Y1 of the lid (unit 2) Y with the protective plate Y1 having the porous liquid-permeable surface Y3 is the bottom of the porous container for biological sample storage fixed transfer processing with the protective plate and data recording unit X1 ( Unit system embedded frame-shaped substrate porous liquid-permeable container bottom, which is a functional form of a cassette for pathological tissue sample constructed by a two-unit system composite structure of unit 1) X and embedded frame-shaped substrate (unit 3) Z (Unit structure 2) It is formed along the inclined surface of the data recording part X1 of (X and Z), and the inclined surface of the data recording part X1 is protected for the lid (unit 2) Y with the protective plate Y1. The plate Y1 is protected so as to cover it (FIGS. 35BG and 35CG). Further, the surface of the data recording part W1 of the embedded frame-like substrate (unit 3) W with the data recording part W1 forming the porous liquid-permeable bottom part W10 is for the biological sample storage fixed transfer process with the protective plate and data recording part X1. It exists on the same inclined surface as the data recording portion X1 surface of the bottom of the porous container (unit 1) X.

更にまた、図36は試料データ記録部付き固定用支持基台(ユニット構成体3)(Y and W)の説明図で図36Aは平面図であり、図36BCは図36Aの両矢印直線Cの縦断面図でありデータ記録部W1の下面にICチップ(RFID)2の挿入設置部が成形されていて、図36BDは図36Aの両矢印直線Dの縦断面図であり、図36BEは図36Aの両矢印直線Eの縦断面図であり、図36Fは該試料データ記録部付き固定用支持基台(ユニット構成体3)(Y and W)の1ユニットである包埋枠状基体Wの縦断面図であり、図36Gは該包埋枠状基体Wの平面図であり、図36Hは該包埋枠状基体Wの裏面図である。   Furthermore, FIG. 36 is an explanatory view of a fixing support base (unit structure 3) (Y and W) with a sample data recording section, FIG. 36A is a plan view, and FIG. 36BC is a double arrow line C in FIG. FIG. 36BD is a vertical cross-sectional view of the data recording unit W1 formed with an IC chip (RFID) 2 insertion and installation portion on the lower surface thereof. FIG. 36F is a vertical cross-sectional view of the double-headed arrow straight line E, and FIG. 36F is a vertical cross-section of the embedded frame-shaped substrate W which is one unit of the fixing support base (unit structure 3) (Y and W) with the sample data recording unit. FIG. 36G is a plan view of the embedded frame-shaped substrate W, and FIG. 36H is a rear view of the embedded frame-shaped substrate W.

更にまた、図37Aも前記試料データ記録部付き固定用支持基台(ユニット構成体3)(Y and W)の1ユニットである包埋枠状基体Wの平面図であり、図37BCは図37Aの両矢印直線Cの縦断面図でありデータ記録部W1の下面にICチップ(RFID)2の挿入設置部が成形されていて、図37BDは図37Aの両矢印直線Dの縦断面図であり、図37BEは図37Aの両矢印直線Eの縦断面図であり、この側のデータ記録部W1の下面にICチップ(RFID)2の挿入設置部が成形しても良い。図37Fは側面図であり、図37Gは図37の両矢印直線Iの左側横断面図22であり、図37Hは図37の両矢印直線Jの左側横断面図22と右側横断面図23である。W1はデータ記録部、W2はICチップ(RFID)挿入設置位置、W3は両サイド泡抜き孔、W4は中央部泡抜き兼舌状係止蓋掛け止め部、W5は両外側長辺側壁上端面、上側開口部W18の周囲を囲む外壁上部上端面W6或いは該上側開口部W18に連なる収納内壁に内側に向けて突設された凸状平面W6、蓋体(ユニット2)Yの脱着開閉用爪掛け部Y5の成形空間W7、外側壁W15の両前部外側面に上端面W6から下端面W14に通じる凹部W8、W9は保護板付き蓋体の前部両側に凸状垂設係止部Y2の掛け止め部、W10は多孔底部、W11は底面より狭い面積で突設成形した袴状の突設側壁、W12は蓋体の後部掛け止め部、W13は後壁、W17は試料収納部である。   FIG. 37A is also a plan view of an embedded frame-shaped substrate W that is one unit of the fixing support base (unit structure 3) (Y and W) with the sample data recording unit, and FIG. 37BC is a plan view of FIG. FIG. 37BD is a vertical cross-sectional view of the double-headed arrow line D of FIG. 37A. FIG. 37BD is a vertical cross-sectional view of the double-headed arrow line C of FIG. FIG. 37BE is a vertical cross-sectional view of the double-headed arrow line E of FIG. 37A, and the IC chip (RFID) 2 insertion installation part may be formed on the lower surface of the data recording part W1 on this side. 37F is a side view, FIG. 37G is a left side cross-sectional view 22 of the double arrow line I in FIG. 37, and FIG. 37H is a left cross-sectional view 22 and a right side cross-sectional view 23 of the double arrow line J in FIG. is there. W1 is a data recording portion, W2 is an IC chip (RFID) insertion installation position, W3 is a bubble removal hole on both sides, W4 is a bubble removal and tongue-like locking lid latching portion on the center portion, and W5 is an upper end surface of both outer long side walls. The upper upper surface W6 of the outer wall surrounding the periphery of the upper opening W18 or the convex flat surface W6 projecting inwardly on the storage inner wall connected to the upper opening W18, and a claw for attaching and detaching the lid (unit 2) Y Recesses W8 and W9 that lead from the upper end surface W6 to the lower end surface W14 on both front outer sides of the forming space W7 of the hanging portion Y5 and the outer wall W15 are convex hanging locking portions Y2 on both sides of the front portion of the lid with a protective plate. W10 is a perforated bottom, W11 is a hook-shaped protruding side wall protrudingly formed in an area narrower than the bottom surface, W12 is a rear hooking portion of the lid, W13 is a rear wall, and W17 is a sample storage portion. .

図12、図13に示す様に、多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Y の保護板Y1を成形しない多孔通液面Y3を有する蓋体Yaを成形することも出来る。該蓋体Yaの係止部は前部に従来の蓋部と同じ舌状係止部Ya1、後部に後部係止部Y4を成形して、図12A・B・C と図13A・B・Cに示す様に前部舌状係止部Ya1を前記保護板兼データ記録部X1付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの中央部泡抜き兼舌状係止蓋掛け止め部X3に差し込み係止して、後部係止部Y4を該多孔容器状底部(ユニット1)Xの後部掛け止め部X5に掛け止めて蓋体にはデータ記録部の保護板は付いていないが、保護板兼データ記録部X1付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Ya)が構築される。更に縦断面図と側面図である図13D・E・F・G と平面図である図14A・Bと裏面図である図15A・Bに示すように該保護板兼データ記録部X1付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(X and Ya)はデータ記録部Z1付き包埋枠状基体(ユニット3)Zと嵌合・連結して3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体である別の形状形態の生物試料用ユニットシステムカセットの実施例を示している。   As shown in FIGS. 12 and 13, a lid Ya having a porous liquid-permeable surface Y3 that does not mold the protective plate Y1 of the lid (unit 2) Y with a protective plate Y1 having a porous liquid-permeable surface Y3 may be formed. I can do it. 12A, B and C and FIGS. 13A, B, and C are formed by forming a locking portion of the lid body Ya at the front by forming the same tongue-shaped locking portion Ya1 as the conventional lid and the rear locking portion Y4 at the rear. As shown in Fig. 3, the front tongue-shaped locking portion Ya1 is attached to the central portion of the porous container-like bottom portion (unit 1) X for biological sample storage and transfer processing with the protective plate and data recording portion X1. The rear locking portion Y4 is inserted and locked into the locking portion X3, and the rear locking portion X5 is hooked on the rear locking portion X5 of the porous container-like bottom portion (unit 1) X, and the protection body for the data recording portion is not attached to the lid. However, a porous specimen container (unit structure 1) (X and Ya) for biological sample storage and transfer processing with a protective plate and data recording unit X1 is constructed. Furthermore, as shown in FIGS. 13D, E, F, and G, which are longitudinal sectional views and side views, FIGS. 14A and B, which are plan views, and FIGS. 15A and 15B, which are rear views, the biological sample with the protective plate and data recording unit X1. The perforated container for storage and transfer processing (unit structure 1) (X and Ya) is composed of a three-unit system composite structure by fitting and connecting with an embedded frame-like substrate (unit 3) Z with data recording section Z1. The Example of the unit system cassette for biological samples of another shape form which is a unit system embedding frame-like base | substrate structure is shown.

前部舌状係止部Ya1成形の多孔通液面Y3を有する蓋体Yaと前記保護板兼データ記録部X1付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの脱着自在な嵌合・連結は図12A・B・C に示す様に該蓋体Yaの前部舌状係止部Ya1は該保護板兼データ記録部X1付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの中央部泡抜き兼舌状係止蓋掛け止め部(図13A・CのX3)に差し込み係止して、後部係止部Y4は図12A・B・C と図13A・B・C・Dに示す様に該底部(ユニット1)Xの後部掛け止め部X5に掛け止め係止して嵌合している。更に図13D・E・F・G と平面図である図14A・Bと裏面図である図15A・Bに示す前部舌状係止部Ya1成形の多孔通液面Y3を有する蓋体Yaと前記保護板兼データ記録部X1付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xとデータ記録部Z1付き包埋枠状基体(ユニット3)Zとの3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体の係止部の嵌合・連結構造は後部係止関係を示す図13Fに記載してあるがその拡大図は図10C と図11F と同じであり、それぞれ該底部(ユニット1)Xと該包埋枠状基体(ユニット3)Zの掛け止め部が成す二角の重なりで構築される掛け止め部(X5 and Z12)で構成されるので該蓋体(ユニット2)Yaと、該底部(ユニット1)Xと該包埋枠状基体(ユニット3)Zの掛け止め部(X5 and Z12 and Y4)の嵌合・係止支点は各々共通共用している。
更に、該蓋体Yaの前部舌状係止部Ya1の保護板兼データ記録部X1付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xとデータ記録部Z1付き包埋枠状基体(ユニット3)Zとの前部係止関係は縦断面図である図14Fと裏面図である図15A・Bに明瞭に示してあるが、該多孔通液性底面X10を形成した試料収納部X6と上側開口部X9の外周を囲む水平方向に突設した該鍔状平面X11とで構成される該生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの上側開口部X9の外周を囲む水平方向に突設した該鍔状平面X11の少なくても1辺を該包埋枠状基体(ユニット3)Zの外側面データ記録部の傾斜面Z1に沿って延長成形して、該包埋枠状基体(ユニット3)Zの外周側面に傾斜形成設置されたデータ記録部Z1を抑え覆う保護板兼データ記録部X1を一体的に成形した2ユニットシステム複合構成体で構築される病理・生物試料用カセットの機能形態であるユニットシステム包埋枠状基体多孔通液性容器底部(ユニット構成体2)(X and Z)の上側開口部X9に脱着自在に嵌合・連結する多孔通液面Y3を有する蓋体が多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Yと保護板Y1を成形していない前部舌状係止部Ya1成形の多孔通液面Y3を有する蓋体Yaとを共通活用できて、該蓋体(Y or Ya)が従来の包埋ブロック薄切時の薄切用ミクロトームのアダプター固定爪位置Z14の台木の厚さh(図32・図34の21)である包埋ブロックの固定用支持基台(ユニット構成体3)内に納まる構造に成形するためには、図37の図37Aの両矢印直線Dの縦断面図(図37BD)と図37の両矢印直線Jの右側横断面図23の様に該包埋枠状基体Zにも前記生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xの中央部泡抜き兼舌状係止蓋掛け止め部X3同様に上からも横断面内側からも解放している中央部泡抜き兼舌状係止蓋掛け止め部W4を成形しなければならない。この時、多孔通液面Y3を有する保護板Y1付き蓋体(ユニット2)Yには小型生検試料の抜け落ち防止閉鎖壁Y7が必要になる。
A lid Ya having a porous liquid-permeable surface Y3 formed with a front tongue-shaped locking portion Ya1, and a porous container-like bottom portion (unit 1) X for biological sample storage and transfer processing with the protective plate and data recording portion X1 are detachable. As shown in FIGS. 12A, 12B and 12C, the front tongue-like locking portion Ya1 of the lid Ya is a bottom portion of a porous container for biological sample storage and transfer with the protective plate and data recording portion X1 ( Unit 1) Inserted and locked into the center part of the bubble removal and tongue-shaped locking lid latching part (X3 in FIGS. 13A and 13C) of X, and the rear locking part Y4 is shown in FIGS. 12A, B and C and FIGS. As shown in C and D, the bottom portion (unit 1) X is latched and locked to the rear latch portion X5. Further, FIGS. 14A and 14B, which are plan views, and FIGS. 15A and 15B, which are plan views, and a lid Ya having a porous liquid-permeable surface Y3 formed with a front tongue-like locking portion Ya1 as shown in FIGS. From the three-unit system composite structure of the porous container-like bottom part (unit 1) X for the biological sample storage fixed transfer process with the protective plate and data recording part X1 and the embedded frame-like substrate (unit 3) Z with the data recording part Z1 The fitting / connecting structure of the locking portion of the unit system embedded frame-like base body structure described in FIG. 13F showing the rear locking relationship is an enlarged view of FIG. 13C and FIG. Since the bottom portion (unit 1) X and the latching portion (X5 and Z12) constructed by the two overlapping portions formed by the latching portion of the embedded frame-shaped base (unit 3) Z, the lid ( Unit 2) Ya, the bottom (unit 1) X and the embedded frame base (unit 3) Connecting and locking a fulcrum of the retaining portion over the Z (X5 and Z12 and Y4) are respectively common shared.
Further, a porous container-like bottom part (unit 1) X with a protective plate and a data recording part X1 of the front tongue-like locking part Ya1 of the lid Ya and a data recording part Z1 and an embedded frame shape with a data recording part Z1 The front locking relationship with the substrate (unit 3) Z is clearly shown in FIG. 14F, which is a longitudinal sectional view, and FIGS. 15A, B, which are rear views, but the sample storage in which the porous liquid-permeable bottom surface X10 is formed. Of the upper opening X9 of the perforated container-like bottom part (unit 1) X for biological sample storage and transfer processing composed of the part X6 and the bowl-shaped plane X11 projecting in the horizontal direction surrounding the outer periphery of the upper opening X9 At least one side of the bowl-shaped plane X11 projecting in the horizontal direction surrounding the outer periphery is extended and formed along the inclined surface Z1 of the outer surface data recording portion of the embedded frame-shaped substrate (unit 3) Z. Protective plate and data covering and restraining the data recording portion Z1 inclined and installed on the outer peripheral side surface of the embedded frame base (unit 3) Z Unit system embedded frame-like substrate porous liquid-permeable container bottom (unit structure 2) which is a functional form of a cassette for pathology / biological sample constructed by a two-unit system composite structure in which the recording part X1 is integrally formed (unit structure 2) X and Z) cover body Y1 with a protective plate Y1 having a porous liquid-permeable surface Y3 detachably fitted and connected to the upper opening X9 (unit 2) Y and protective plate Y1 Can be used in common with a lid Ya having a porous liquid-permeable surface Y3 formed with a front tongue-shaped locking portion Ya1 that is not molded, and the lid (Y or Ya) can be used when a conventional embedded block is sliced. It is molded into a structure that fits within the support base (unit structure 3) for fixing the embedding block, which is the thickness h (21 in FIGS. 32 and 34) of the rootstock at the adapter fixing claw position Z14 of the thin section microtome. For this purpose, a vertical sectional view of the double-headed arrow line D in FIG. 37A in FIG. 37 (FIG. 37BD). 37) and the right side cross-sectional view of the double-headed straight line J in FIG. 37, the embedded frame-shaped substrate Z is also defoamed at the center of the porous container-like bottom portion (unit 1) X for biological sample storage and transfer processing. Similarly to the tongue-shaped latching lid latching portion X3, the central defoaming / tongue-shaped latching lid latching portion W4 that is released from above and from the inner side of the cross section must be formed. At this time, the lid (unit 2) Y with the protective plate Y1 having the porous liquid-permeable surface Y3 needs a closed wall Y7 for preventing the small biopsy sample from dropping out.

更にまた、図38A・B に示す様に保護板Y1を成形していない前部舌状係止部Ya1成形の多孔通液面Y3を有する前記蓋体Yaを使用する場合には敢えて透明な合成樹脂製の蓋体Yaを成形する必要がないが、逆に透明な保護板X1付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)Xを成形すると便利である。この時該透明な合成樹脂で成形された該保護板Xa1付き多孔容器状底部(ユニット1)Xは前記包埋枠状基体Zaのデータ記録部Za1上の記載データやデータ記録ラベル1を透明な合成樹脂製保護板Xa1が保護する。   Furthermore, as shown in FIGS. 38A and 38B, when using the lid Ya having the porous liquid passing surface Y3 formed with the front tongue-shaped locking portion Ya1 in which the protective plate Y1 is not formed, a transparent synthetic material is used. It is not necessary to mold the resin lid Ya, but conversely, it is convenient to mold the porous container-like bottom part (unit 1) X for biological sample storage and transfer processing with a transparent protective plate X1. At this time, the porous container-shaped bottom portion (unit 1) X with the protective plate Xa1 formed of the transparent synthetic resin is transparent to the data and the data recording label 1 on the data recording portion Za1 of the embedded frame-shaped substrate Za. A protective plate Xa1 made of synthetic resin protects.

更にまた、図39A・B・Cに示す様に単純な箱型の生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(Xb and Yc)を成形して多孔蓋体Yc と多孔底部Xb の脱着自在の嵌合・連結は蓋部係止部Yc1とYc4で各々Xc3とXc5で掛け止める構造にして、該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(Xb and Yc)の開閉は指掛け部Yc9の指掛け凹部と指掛け部Yc5で開閉し、図40A・B・Cに示す様に多孔蓋部Ycの係止部Yc1とYc4とが包埋枠状基体Zbの掛け止め部Zb4とZb12に掛け止める形状形態にすることも出来る。勿論患者名・試料名3のデータ記録部は成形できる。該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(Xb and Yc)を多孔蓋体Yc と多孔底部Xbの境を図40に示す如くにヒンジ成形して一体に成形しても良い。また該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)(Xb and Yc)が嵌合・連結する包埋枠状基体Waの底部を多孔通液面Wa10で成形しても良い。但し、この場合には包埋枠状基体のデータ記録部に対する保護板は無い。   Furthermore, as shown in FIGS. 39A, B, and C, a simple box-shaped biological sample storage porous transfer container (unit structure 1) (Xb and Yc) is formed to form a porous lid Yc and a porous bottom. Xb can be detachably fitted and connected with lid locking portions Yc1 and Yc4 and Xc3 and Xc5, respectively, so that the biological sample storage and transfer porous container (unit structure 1) (Xb and Yc) is opened and closed by the finger hooking recess and finger hooking portion Yc5 of the finger hooking portion Yc9, and as shown in FIGS. It can also be made into the shape form latched on the stop part Zb4 and Zb12. Of course, the data recording part of the patient name / sample name 3 can be formed. The biological sample storage fixed transfer processing porous container jar (unit structure 1) (Xb and Yc) may be integrally formed by hinge-molding the boundary between the porous lid Yc and the porous bottom Xb as shown in FIG. good. Further, the bottom of the embedded frame-shaped substrate Wa to which the perforated container basket (unit component 1) (Xb and Yc) for biological sample storage and transfer processing is fitted and connected may be formed with the porous liquid passing surface Wa10. However, in this case, there is no protective plate for the data recording part of the embedded frame-shaped substrate.

X 生物試料収納固定移送処理用多孔容器状底部(ユニット1)
Y 多孔通液孔を有する蓋体(ユニット2)
Z 包埋枠状基体(ユニット3)
W 多孔通液性底部を形成する包埋枠状基体
U 従来型のカセット底部
V 従来型のカセットの多孔蓋
1 データ記録ラベル
2 ICチップ(RFID)
3 患者名・試料名
4 肛門側(AW)
5 患者試料
5a トリミング試料
6 固定移送容器
7 自動貼りラベルプリンター
8 ピンセット
9 薬液処理籠
10 スポンジゲル製マット
11 ホットプレート
12 包埋剤
12a 熔融包埋剤
15 固定液
S 包埋底部(ユニット4)
T 上部水密包埋枠部(ユニット5)
16 コールドプレート
21 アダプターのカセット係止爪係止嵌合位置(h)
22 左側断面図
23 右側断面図
X Perforated container bottom for biological sample storage and transfer processing (Unit 1)
Y Lid with a porous hole (Unit 2)
Z Embedded frame base (Unit 3)
W Embedded frame-like substrate forming a porous liquid-permeable bottom
U Conventional cassette bottom
V Perforated lid of conventional cassette 1 Data recording label 2 IC chip (RFID)
3 Patient name / sample name 4 Anal side (AW)
5 Patient sample 5a Trimming sample 6 Fixed transfer container 7 Automatic label printer 8 Tweezers 9 Chemical solution treatment pad 10 Sponge gel mat 11 Hot plate 12 Embedding agent 12a Molten embedding agent 15 Fixing solution
S Embedded bottom (Unit 4)
T Upper watertight embedding frame (Unit 5)
16 Cold plate 21 Adapter cassette claw engagement position (h)
22 Left sectional view 23 Right sectional view

Claims (10)

上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)と該底部(ユニット1)の上側開口部に脱着自在に嵌合・連結する多孔通液面を有する蓋体(ユニット2)と包埋枠状基体(ユニット3)の機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記底部は、前記包埋枠状基体(ユニット3)とは分離独立した上側に開口部を形成し該上側開口部の外周を囲む水平方向に突設した鍔状平面を形成し、その下側に少なくとも底部に多孔通液性底面を形成した試料収納部からなる生物試料収納固定移送処理用多孔容器状底部(ユニット1)であり、前記包埋枠状基体(ユニット3)の介在がなくても該生物試料収納固定移送処理用多孔容器状底部(ユニット1)の上側開口部に前記多孔通液孔を有する蓋体(ユニット2)が独自に互いに脱着自在に嵌合・連結して試料の固定移送と薬液処理と試料データの伝達連結をする独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)を構築することができ、更に、該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)は前記包埋枠状基体(ユニット3)とも脱着自在に嵌合・連結して試料データの確定とバリ無し包埋ブロックの台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)を構築する3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体であることを特徴とする病理・生物試料用ユニットシステムカセット。
An embedding frame-like substrate having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a porous liquid-permeable material that is detachably fitted and connected to the upper opening of the embedding frame-like substrate In a cassette for pathological / biological samples consisting of a lid with holes;
Functional form of a bottom (unit 1) and a cover (unit 2) having a porous liquid-permeable surface that is detachably fitted and connected to the upper opening of the bottom (unit 1) and an embedded frame-like base (unit 3) Are formed as three separate structural unit units,
The bottom portion forms an opening on the upper side that is separated and independent from the embedding frame-like base (unit 3), and forms a bowl-shaped plane that protrudes in the horizontal direction surrounding the outer periphery of the upper opening, And a porous container-like bottom portion (unit 1) for a biological sample storage and transfer process comprising a sample storage portion having a porous liquid-permeable bottom surface at least at the bottom, and without the inclusion of the embedded frame-like substrate (unit 3). In addition, the lid (unit 2) having the porous liquid passage hole is uniquely detachably fitted to and connected to the upper opening of the porous container-like bottom part (unit 1) for biological sample storage and transfer processing, and the sample It is possible to construct a biological sample storage fixed transfer processing porous container cage (unit structure 1) that has an independent function of transferring and connecting fixed transfer, chemical processing, and sample data, and further, the biological sample storage fixed transfer processing Perforated container bowl (unit structure The body 1) is also detachably fitted to and connected to the embedded frame base (unit 3) to determine the sample data, the function of the root block of the burr-free embedded block, and the conventional pathology / biological sample cassette function. A unit system cassette for pathological / biological samples, characterized in that it is a unit system-embedded frame-like substrate structure comprising a three-unit system composite structure for constructing a supporting base for fixation (unit structure 3).
上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)と、底部(ユニット1)と包埋枠状基体(ユニット3)の上側開口部に脱着自在に嵌合・連結する多孔通液孔Yを有する蓋体(ユニット2)と包埋枠状基体(ユニット3)の機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記底部は、前記包埋枠状基体(ユニット3)とは分離独立した上側に開口部を形成し該上側開口部の外周を囲む水平方向に突設した鍔状平面を形成し、その下側に少なくとも底部に多孔通液性底面を形成した試料収納部からなる生物試料収納固定移送処理用多孔容器状底部(ユニット1)であり、前記包埋枠状基体(ユニット3)の介在がなくても該生物試料収納固定移送処理用多孔容器状底部(ユニット1)の上側開口部に前記多孔通液孔を有する蓋体(ユニット2)が独自に互いに脱着自在に嵌合・連結して試料の固定移送と薬液処理と試料データの伝達連結をする独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)を構築することができ、前記包埋枠状基体(ユニット3)は、前記底部である生物試料収納固定移送処理用多孔容器状底部(ユニット1)とは異なる多孔通液性底部を形成する包埋枠状基体(ユニット3)であり、該包埋枠状基体(ユニット3)の上側開口部に前記多孔通液孔を有する蓋体(ユニット2)が独自に互いに脱着自在に嵌合・連結して試料データの確定とバリ無し包埋ブロックの台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)を構築し、該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)と該固定用支持基台(ユニット構成体3)の構成ユニットである前記多孔通液孔を有する蓋体(ユニット2)を共有活用できる3ユニットシステム複合構成体からなる独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)と固定用支持基台(ユニット構成体3)とで構成する3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体であることを特徴とする病理・生物試料用ユニットシステムカセット。
An embedding frame-like substrate having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a porous liquid-permeable material that is detachably fitted and connected to the upper opening of the embedding frame-like substrate In a cassette for pathological / biological samples consisting of a lid with holes;
Covered with a bottom (unit 1), a lid (unit 2) having a perforated liquid hole Y detachably fitted and connected to an upper opening of the bottom (unit 1) and the embedded frame base (unit 3) The functional form of the embedded frame-like base (unit 3) is formed as three types of separate structural units,
The bottom portion forms an opening on the upper side that is separated and independent from the embedding frame-like base (unit 3), and forms a bowl-shaped plane that protrudes in the horizontal direction surrounding the outer periphery of the upper opening, And a porous container-like bottom portion (unit 1) for a biological sample storage and transfer process comprising a sample storage portion having a porous liquid-permeable bottom surface at least at the bottom, and without the inclusion of the embedded frame-like substrate (unit 3). In addition, the lid (unit 2) having the porous liquid passage hole is uniquely detachably fitted to and connected to the upper opening of the porous container-like bottom part (unit 1) for biological sample storage and transfer processing, and the sample It is possible to construct a biological sample storage fixed transfer processing porous container cage (unit component 1) that has an independent function of transferring and connecting fixed transfer, chemical solution processing, and sample data, and the embedded frame substrate (unit 3). ) Is the bottom biological sample It is an embedding frame-like base (unit 3) forming a porous liquid-permeable bottom different from the perforated container-like bottom (unit 1) for storage and transfer processing, and the upper opening of the embedding frame-like base (unit 3) The lid (unit 2) having the perforated holes is detachably fitted and connected to each other to determine the sample data, the function of the root block of the burr-free embedded block, and the conventional pathological / biological sample A fixing support base (unit structure 3) capable of carrying a cassette function is constructed, and the biological sample storage fixed transfer processing porous container basket (unit structure 1) and the fixing support base (unit structure 3) Porous container container for biological sample storage and transfer processing (unit component 1) having an independent function composed of a three-unit system composite component that can share and utilize the lid (unit 2) having the porous liquid passage hole as a component unit And fixing support Table (unit configuration body 3) the de 3 units pathological and biological specimen unit system cassette, wherein the system is a unit system embedded frame-like base structure made of a composite structure which constitutes.
上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)と底部(ユニット1)の上側開口部に脱着自在に嵌合・連結する多孔通液面を有する蓋体(ユニット2)と包埋枠状基体(ユニット3)の機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記包埋枠状基体(ユニット3)は、上側に開口部を有し、該開口部周囲を囲む外壁上部上端面或いは該開口部に連なる内壁に内側に向けて突設された凸状平面が形成され、該上側開口部周囲を囲む外壁上部の両長辺上端面の端面上に外側長辺側壁を立設延長形成した包埋枠状基体(ユニット3)であり、該包埋枠状基体の両外側長辺側壁上端面は、前記生物試料収納固定移送処理用多孔容器状底部(ユニット1)の上側開口部の外周を囲む水平方向に突設した鍔状平面の厚さと該底部(ユニット1)の開口部に脱着自在に嵌合・連結する多孔通液面を有する蓋体(ユニット2)の多孔通液面の外周を囲む開閉誘導リブの外周平面の厚さを重ねた厚さ分だけ、前記包埋枠状基体(ユニット3)の開口部周囲を囲む外壁上部上端面と該開口部に連なる内壁に内側に向けて突設された凸状平面より高い位置に成形され、
前記生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)の構成体ユニットである該生物試料収納固定移送処理用多孔容器状底部(ユニット1)と該底部(ユニット1)の上側開口部に脱着自在に嵌合・連結する多孔通液面を有する蓋体(ユニット2)は、該底部(ユニット1)の上側開口部の外周を囲む水平方向に突設した鍔状平面の長側辺と該蓋体(ユニット2)の多孔通液面の外周を囲む開閉誘導リブの外周平面の長側辺とを前記包埋枠状基体(ユニット3)の両外側長辺側壁が挟持嵌合できる形状に切り欠け部を形成した底部(ユニット1)と蓋体(ユニット2)であり、該生物試料収納固定移送処理用多孔容器状底部(ユニット1)の上側開口部の外周を囲む水平方向に突設した鍔状平面と蓋体(ユニット2)の多孔通液面の外周を囲む開閉誘導リブの外周平面の厚さは前記包埋枠状基体(ユニット3)の外側長辺側壁内に全て収納され、該包埋枠状基体(ユニット3)の側壁外側のデータ記録部の面積が広く保たれ、該蓋体(ユニット2)を廃棄することなく、試料データの確定とバリ無し包埋ブロックの台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)である包埋ブロックの台木の一部として一体的に埋込活用して包埋ブロックを作製できる3ユニットシステム複合構成体からなるユニットシステム包埋枠状基体構成体であることを特徴とする請求項1記載の病理・生物試料用ユニットシステムカセット。
An embedding frame-like substrate having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a porous liquid-permeable material that is detachably fitted and connected to the upper opening of the embedding frame-like substrate In a cassette for pathological / biological samples consisting of a lid with holes;
Functional forms of the lid (unit 2) and the embedded frame-like base (unit 3) having a porous liquid-permeable surface that is detachably fitted and connected to the bottom (unit 1) and the upper opening of the bottom (unit 1). Molded as three separate structural unit units,
The embedding frame-shaped substrate (unit 3) has an opening on the upper side, and has a convex flat surface projecting inwardly on the upper end surface of the outer wall surrounding the periphery of the opening or on the inner wall continuous to the opening. An embedded frame-shaped substrate (unit 3) formed and formed by extending and extending the outer long side walls on the end surfaces of the upper ends of both long sides of the upper part of the outer wall surrounding the upper opening. The upper side surfaces of the outer long side walls of the outer surface of the outer side of the porous container-like bottom part for biological sample storage and transfer processing (unit 1) and the bottom part (unit The thickness of the outer peripheral plane of the opening / closing guide rib surrounding the outer periphery of the porous liquid-permeable surface of the lid (unit 2) having a porous liquid-permeable surface that is detachably fitted and connected to the opening of 1) Only on the upper end of the upper part of the outer wall surrounding the periphery of the opening of the embedded frame-shaped base (unit 3) and the opening. Is molded in a position higher than protruding from the convex plane inwardly on the inner wall comprising,
Biological sample storage fixed transfer processing porous container-like bottom part (unit 1) and upper opening of the bottom part (unit 1), which are constituent units of the biological sample storage fixed transfer processing porous container container (unit structure 1) The lid (unit 2) having a porous liquid-permeable surface that is detachably fitted to and connected to the upper side of the bowl-shaped plane projecting in the horizontal direction surrounding the outer periphery of the upper opening of the bottom (unit 1) And the outer side long side walls of the embedded frame-shaped base (unit 3) can be sandwiched and fitted between the long side of the outer peripheral plane of the open / close guide rib surrounding the outer periphery of the porous liquid-permeable surface of the lid (unit 2). A bottom (unit 1) and a lid (unit 2) having a notch formed in the shape, and horizontally extending around the outer periphery of the upper opening of the porous container-like bottom (unit 1) for storing and transferring biological samples. Perforated liquid passing through the protruding bowl-shaped plane and lid (unit 2) The thickness of the outer peripheral plane of the open / close guide ribs surrounding the outer periphery of the embedded frame is all stored in the outer long side wall of the embedded frame base (unit 3), and data on the outer side of the side of the embedded frame base (unit 3). The area of the recording unit is kept large, and it is possible to fix the sample data, fix the burr-free embedding block and the conventional cassette function for pathological and biological samples without discarding the lid (unit 2). Unit system embedded frame shape consisting of a three unit system composite structure that can be embedded and used as part of the root block of the embedded block that is the support base (unit structure 3) 2. The unit system cassette for pathological / biological samples according to claim 1, wherein the unit system cassette is a substrate structure.
上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)と、底部(ユニット1)と包埋枠状基体(ユニット3)の上側開口部に脱着自在に嵌合・連結する蓋体(ユニット2)と包埋枠状基体(ユニット3)の機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記包埋枠状基体(ユニット3)は、上側に開口部を有し下側に前記底部(ユニット1)とは異なる多孔通液性底部を形成する包埋枠状基体(ユニット3)であり、該上側開口部の周囲を囲む外壁上部上端面或いは該上側開口部に連なる収納内壁に内側に向けて突設された凸状平面が形成され、該上側開口部周囲を囲む外壁上部の両長辺上端面の端面上に外側長辺側壁を立設延長形成した包埋枠状基体(ユニット3)であり、該包埋枠状基体(ユニット3)の両側長辺側壁の上端面は、前記生物試料収納固定移送処理用多孔容器状底部(ユニット1)の上側開口部に脱着自在に嵌合・連結する多孔通液面を有する蓋体(ユニット2)の多孔通液面の外周を囲む開閉誘導リブの外周平面の厚さ分だけ前記包埋枠状基体(ユニット3)の開口部周囲を囲む外壁上部上端面と該開口部に連なる内壁に内側に向けて突設された凸状平面より高い位置に成形されて、
前記生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)の構成体ユニットである該生物試料収納固定移送処理用多孔容器状底部(ユニット1)の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体(ユニット2)は、該蓋体(ユニット2)の多孔通液面の外周を囲む開閉誘導リブの外周平面の長側辺を前記包埋枠状基体(ユニット3)の両外側長辺側壁が挟持嵌合できる形状に切り欠け部を形成した蓋体であり、該生物試料収納固定移送処理用多孔容器状底部(ユニット1)の蓋体(ユニット2)は前記包埋枠状基体(ユニット3)の蓋体(ユニット2)としても共有活用されて、該蓋体(ユニット2)の多孔通液面の外周を囲む開閉誘導リブの外周平面の厚さは該包埋枠状基体(ユニット3)内に全て収納され側壁外側のデータ記録部の面積が広く保たれ、
また、該多孔通液孔を有する蓋体(ユニット2)が該包埋枠状基体(ユニット3)の長辺側壁内に収まりカセット収納容積の減少を防ぐために、その厚さ分該包埋枠状基体(ユニット3)の多孔通液性底部の成形位置を試料包埋ブロックの薄切時の台木の役目を担う該包埋枠状基体(ユニット3)の底部のアダプター固定爪位置より狭い面積で突設成形した突設側壁を成形する、
該包埋枠状基体(ユニット3)は前記生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)の構成ユニットである前記多孔通液面を有する蓋体(ユニット2)を該包埋枠状基体(ユニット3)の上側開口部にも脱着自在に嵌合・連結する多孔通液面を有する蓋体として共有できて、該蓋体(ユニット2)を廃棄することなく、包埋ブロックの台木の一部として一体的に埋込活用して包埋ブロックを作製できるブロック試料の固定用支持基台(ユニット構成体3)を構築することができる。該生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)と該固定用支持基台(ユニット構成体3)の構成ユニットである前記多孔通液面を有する蓋体(ユニット2)を共有活用できる3ユニットシステム複合構成体からなる独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)と独立した試料データの確定とバリ無し包埋ブロック試料の台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)とで構成することを特徴とする請求項2記載の病理・生物試料用ユニットシステムカセット。
An embedding frame-like substrate having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a porous liquid-permeable material that is detachably fitted and connected to the upper opening of the embedding frame-like substrate In a cassette for pathological / biological samples consisting of a lid with holes;
The bottom (unit 1), the lid (unit 2) detachably fitted to and connected to the upper opening of the bottom (unit 1) and the embedded frame-shaped base (unit 3) and the embedded frame-shaped base (unit 3) ) Are formed as three separate structural unit units,
The embedded frame substrate (unit 3) is an embedded frame substrate (unit 3) having an opening on the upper side and forming a porous liquid-permeable bottom different from the bottom (unit 1) on the lower side. The upper upper surface of the outer wall surrounding the upper opening or a convex flat surface projecting inwardly on the storage inner wall connected to the upper opening is formed, and both lengths of the upper part of the outer wall surrounding the upper opening are formed. An embedding frame-like base body (unit 3) in which an outer long side wall is erected and extended on the end face of the side upper end face. Opening and closing surrounding the outer periphery of the porous liquid-permeable surface of the lid (unit 2) having a porous liquid-permeable surface that is detachably fitted and connected to the upper opening of the porous container-shaped bottom (unit 1) for biological sample storage and transfer processing The circumference of the opening of the embedded frame base (unit 3) by the thickness of the outer peripheral plane of the guide rib Is formed at a position higher than protruding from the convex plane inwardly on the inner wall contiguous to the outer wall upper upper surface and opening surrounding,
Removably fitted to the upper opening of the biological sample storage fixed transfer processing porous container bottom part (unit 1), which is a constituent unit of the biological sample storage fixed transfer processing porous container container (unit structure 1). The lid body (unit 2) having the porous liquid passage hole to be connected has the long side of the outer peripheral plane of the open / close guide rib surrounding the outer circumference of the porous liquid passage surface of the lid body (unit 2). A lid body in which the outer side long side walls of the unit 3) are formed in a shape that can be sandwiched and fitted, and a lid body (unit 2) of the porous container-like bottom part (unit 1) for biological sample storage and transfer processing Is shared and used as a lid (unit 2) of the embedded frame substrate (unit 3), and the thickness of the outer peripheral plane of the open / close guide rib surrounding the outer periphery of the porous liquid-permeable surface of the lid (unit 2). Are all contained in the embedded frame base (unit 3) and are side walls. Area of the data recording portion of the side is kept wide,
Further, in order to prevent the cover (unit 2) having the porous liquid passage hole from being accommodated in the long side wall of the embedding frame-like base (unit 3) and preventing the cassette storage volume from being reduced, the embedding frame corresponding to the thickness thereof is used. The forming position of the porous liquid-permeable bottom portion of the substrate (unit 3) is narrower than the adapter fixing claw position at the bottom of the embedded frame substrate (unit 3) that plays the role of the rootstock when the sample embedding block is sliced. Molding the protruding side wall protruding in area
The embedding frame-like substrate (unit 3) embeds the embedding of the lid (unit 2) having the porous liquid-permeable surface, which is a constituent unit of the biological sample storage and fixing porous container basket (unit constituent body 1). It can be shared as a lid having a porous liquid-permeable surface that is also detachably fitted and connected to the upper opening of the frame-like base (unit 3), and the embedded block without discarding the lid (unit 2) It is possible to construct a support base (unit structure 3) for fixing a block sample that can be embedded and used integrally as a part of the rootstock of the block. The biological sample storage fixed transfer processing porous container jar (unit structural body 1) and the fixing support base (unit structural body 3) are shared by the lid body (unit 2) having the porous liquid-permeable surface. Biological sample storage fixed transfer processing perforated container container (unit structure 1) with independent functions consisting of 3 unit system composite structure that can be used, independent sample data confirmation and burr-free embedded block sample rootstock function The pathological / biological sample unit system cassette according to claim 2, wherein the pathological / biological sample unit system cassette is composed of a fixed support base (unit structure 3) capable of carrying a conventional pathological / biological sample cassette function.
上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)と底部(ユニット1)の上側開口部に脱着自在に嵌合・連結する多孔通液面を有する蓋体(ユニット2)と包埋枠状基体(ユニット3)の機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記底部である生物試料収納固定移送処理用多孔容器状底部(ユニット1)と前記包埋枠状基体(ユニット3)との2ユニットシステム複合構成体で構築される病理組織試料用カセットの機能形態であるユニットシステム包埋枠状基体多孔通液性容器底部(ユニット構成体2)の構成ユニットである該生物試料収納固定移送処理用多孔容器状底部(ユニット1)が、
多孔通液性底面を形成した試料収納部と上側開口部の外周を囲む水平方向に突設した該鍔状平面とで構成される該生物試料収納固定移送処理用多孔容器状底部(ユニット1)の上側開口部の外周を囲む水平方向に突設した該鍔状平面の少なくても1辺を該包埋枠状基体(ユニット3)の外側面のデータ記録部の傾斜面に沿って延長成形して、該包埋枠状基体(ユニット3)の外周側面に傾斜形成設置されたデータ記録部を抑え覆う保護板兼データ記録部を一体的に成形した2ユニットシステム複合構成体で構築される病理・生物試料用カセットの機能形態であるユニットシステム包埋枠状基体多孔通液性容器底部(ユニット構成体2)の構成ユニットであることを特徴とする請求項1又は3記載の病理・生物試料用ユニットシステムカセットの構成体ユニットである保護板兼データ記録部付き多孔通液性容器状底部(ユニット1)。
An embedding frame-like substrate having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a porous liquid-permeable material that is detachably fitted and connected to the upper opening of the embedding frame-like substrate In a cassette for pathological / biological samples consisting of a lid with holes;
Functional forms of the lid (unit 2) and the embedded frame-like base (unit 3) having a porous liquid-permeable surface that is detachably fitted and connected to the bottom (unit 1) and the upper opening of the bottom (unit 1). Molded as three separate structural unit units,
Functional form of a cassette for pathological tissue sample constructed by a two-unit system composite structure comprising a bottom part (unit 1) for a biological sample storage fixed transfer process as the bottom part and a unit for embedded frame (unit 3). The unit-embedded frame-shaped substrate porous liquid-permeable container bottom (unit structure 2) is a constituent unit of the biological sample storage fixed transfer processing porous container-shaped bottom (unit 1),
Porous container-like bottom part (unit 1) for biological sample accommodation fixed transfer processing composed of a sample accommodation part formed with a porous liquid-permeable bottom surface and the bowl-like plane projecting in the horizontal direction surrounding the outer periphery of the upper opening At least one side of the bowl-shaped plane projecting in the horizontal direction surrounding the outer periphery of the upper opening of the frame is extended along the inclined surface of the data recording section on the outer surface of the embedded frame-shaped substrate (unit 3). Then, it is constructed of a two-unit system composite structure integrally formed with a protective plate and data recording portion that covers and suppresses the data recording portion that is inclined and installed on the outer peripheral side surface of the embedded frame base (unit 3). The pathology / biology according to claim 1 or 3, wherein the pathology / biology is a structural unit of a unit system embedded frame-like substrate porous liquid-permeable container bottom (unit structure 2) which is a functional form of a pathology / biological sample cassette. Unit system cassette for sample A structure unit protection plate and the data recording unit with a porous liquid permeability container-shaped bottom portion (unit 1).
上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)と該底部(ユニット1)の上側開口部に脱着自在に嵌合・連結する多孔通液面を有する蓋体(ユニット2)と包埋枠状基体(ユニット3)の機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記底部である生物試料収納固定移送処理用多孔容器状底部(ユニット1)と該底部(ユニット1)の上側開口部に独自に互いに脱着自在に嵌合・連結する前記多孔通液面を有する蓋体(ユニット2)との2ユニットシステム複合構成体で構築される独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)の構成ユニットである該底部(ユニット1)の上側開口部の外周を囲む水平方向に突設した該鍔状平面の少なくても1辺を前記包埋枠状基体(ユニット3)の外側面のデータ記録部の傾斜面に沿って延長成形して、該包埋枠状基体(ユニット3)の外周側面に傾斜形成設置されたデータ記録部を保護し抑え覆う該底部(ユニット1)の保護板兼データ記録部を更に保護するために、前記多孔通液面を有する蓋体(ユニット2)の多孔通液面の外周を囲む開閉誘導リブの外周平面の少なくても1辺にも同様に一体的保護板を成形して、該生物試料収納固定移送処理用多孔容器状底部(ユニット1)の保護板兼データ記録部上の汚れや該データ記録部に印字貼られたデータラベルの剥離や汚れを防止する保護板付き蓋体(ユニット2)と保護板兼データ記録部付き底部(ユニット1)との2ユニットシステム複合構成体で構築される独立した機能を担う試料データ記録部付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)の2重のデータ記録部兼保護板が前記包埋枠状基体(ユニット3)の外側面のデータ記録部を挟持保護して多孔通液面を有する蓋体を廃棄しないで活用できる3ユニットシステム複合構成体で構築される試料データの確定とバリ無し包埋ブロックの台木の機能と従来の病理・生物試料用カセット機能を担える固定用支持基台(ユニット構成体3)で構成されることを特徴とする請求項1、3又は5記載の病理・生物試料用ユニットシステムカセットの構成体ユニットである保護板兼データ記録部付き生物試料収納固定移送処理用多孔容器状底部(ユニット1)と保護板付き多孔通液孔を有する蓋体(ユニット2)。
An embedding frame-like substrate having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a porous liquid-permeable material that is detachably fitted and connected to the upper opening of the embedding frame-like substrate In a cassette for pathological / biological samples consisting of a lid with holes;
Functional form of a bottom (unit 1) and a cover (unit 2) having a porous liquid-permeable surface that is detachably fitted and connected to the upper opening of the bottom (unit 1) and an embedded frame-like base (unit 3) Are formed as three separate structural unit units,
A lid having a porous liquid-permeable surface that is detachably fitted to and connected to the bottom part (unit 1) of the biological sample storage fixed transfer process as the bottom part and the upper opening of the bottom part (unit 1). Of the bottom part (unit 1), which is a constituent unit of the biological sample storage fixed transfer processing porous container cage (unit constituent body 1) having an independent function constructed by a two-unit system composite constituent body with the body (unit 2) At least one side of the bowl-shaped plane projecting in the horizontal direction surrounding the outer periphery of the upper opening is extended and formed along the inclined surface of the data recording portion on the outer surface of the embedded frame-shaped substrate (unit 3). In order to further protect the protective plate and data recording portion of the bottom portion (unit 1) that protects and suppresses the data recording portion that is inclined and installed on the outer peripheral side surface of the embedded frame base (unit 3), Lid having a porous liquid-permeable surface Similarly, an integral protective plate is formed on at least one side of the outer peripheral plane of the opening / closing guide rib surrounding the outer periphery of the porous liquid passing surface of the unit 2), and the bottom of the porous container for the biological sample storage fixed transfer processing ( A cover with a protective plate (unit 2) and a bottom with a protective plate and a data recording unit for preventing contamination on the protective plate and the data recording unit of the unit 1) and peeling and contamination of the data label printed on the data recording unit (Unit 1) and a dual data recording unit of the biological sample storage fixed transfer processing porous container rod (unit configuration 1) with a sample data recording unit that has an independent function constructed by a two-unit system composite configuration A sample constructed with a three-unit system composite structure in which a protective plate sandwiches and protects the data recording portion on the outer surface of the embedded frame-shaped substrate (unit 3) and can be utilized without discarding the lid having a porous liquid-permeable surface. Confirm data 6. The support base (unit structure 3) for supporting the function of the rootstock of the burr-free embedding block and the conventional cassette function for pathological / biological specimens. The unit of the pathological / biological sample unit system cassette is a porous container-like bottom part (unit 1) for protecting and transferring biological samples with a protective plate and data recording unit, and a lid having a porous liquid passage hole with a protective plate (unit 1) Unit 2).
上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)と、底部(ユニット1)と包埋枠状基体(ユニット3)の上側開口部に脱着自在に嵌合・連結する蓋体(ユニット2)と包埋枠状基体(ユニット3)の機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記底部である生物試料収納固定移送処理用多孔容器状底部(ユニット1)と該底部(ユニット1)の上側開口部に独自に互いに脱着自在に嵌合・連結する前記多孔通液面を有する蓋体(ユニット2)との2ユニットシステム複合構成体で構築される独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)と前記包埋枠状基体(ユニット3)から構築される3ユニットシステム複合構成体である病理・生物試料用ユニットシステムカセットの構成体ユニットである該生物試料収納固定移送処理用多孔容器状底部(ユニット1)の上側開口部の外周を囲む水平方向に突設した鍔状平面の少なくても1辺を該包埋枠状基体(ユニット3)の外周側面に傾斜形成設置されたデータ記録部と同じ傾斜角度で延長してデータ記録部を成形し、更に該生物試料収納固定移送処理用多孔容器状底部(ユニット1)に形成されたデータ記録面に沿って該底部(ユニット1)に脱着自在に嵌合・連結する前記多孔通液面を有する蓋体(ユニット2)の多孔通液面の外周を囲む開閉誘導リブの外周平面の少なくても1辺にも同様に一体的保護板を前記生物試料収納固定移送処理用多孔容器状底部(ユニット1)に形成されたデータ記録部を保護し抑え覆う形状に成形して、該データ記録部付き底部(ユニット1)と該底部(ユニット1)の上側開口部に独自に互いに脱着自在に嵌合・連結する前記多孔通液面を有する保護板付き蓋体(ユニット2)との2ユニットシステム複合構成体で構築される独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)の構成ユニットである多孔通液面を有する保護板付き蓋体(ユニット2)が、前記包埋枠状基体(ユニット3)の外周側面に傾斜形成設置されたデータ記録部を保護できる保護板付き蓋体(ユニット2)として共有活用できることを特徴とする請求項2又は4記載の病理・生物試料用ユニットシステムカセットの2ユニットシステム複合構成体であるデータ記録部兼保護板付き生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)。
An embedding frame-like substrate having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a porous liquid-permeable material that is detachably fitted and connected to the upper opening of the embedding frame-like substrate In a cassette for pathological / biological samples consisting of a lid with holes;
The bottom (unit 1), the lid (unit 2) detachably fitted to and connected to the upper opening of the bottom (unit 1) and the embedded frame-shaped base (unit 3) and the embedded frame-shaped base (unit 3) ) Are formed as three separate structural unit units,
A lid having a porous liquid-permeable surface that is detachably fitted to and connected to the bottom part (unit 1) of the biological sample storage fixed transfer process as the bottom part and the upper opening of the bottom part (unit 1). A biological sample storage fixed transfer processing porous container container (unit structure 1) and an embedded frame-shaped base body (unit 3), which have independent functions constructed by a two-unit system composite structure with the body (unit 2) A horizontal unit that surrounds the outer periphery of the upper opening of the porous container-like bottom part (unit 1) for biological sample storage and transfer processing, which is a constituent unit of a pathological / biological sample unit system cassette that is a three-unit system composite structure to be constructed. Data is recorded by extending at least one side of the saddle-like flat surface projecting in the direction at the same inclination angle as the data recording section inclined and installed on the outer peripheral side surface of the embedded frame-shaped substrate (unit 3). The porous passage is molded and further detachably fitted to and connected to the bottom portion (unit 1) along the data recording surface formed on the bottom portion (unit 1) for the biological sample storage fixed transfer processing. Similarly, at least one side of the outer peripheral plane of the open / close guide rib surrounding the outer periphery of the porous liquid passing surface of the lid (unit 2) having a liquid surface is similarly provided with an integral protective plate on the porous container for the biological sample storage fixed transfer process. The data recording part formed on the bottom part (unit 1) is formed in a shape that protects and suppresses, and the bottom part with the data recording part (unit 1) and the upper opening of the bottom part (unit 1) are independently detached from each other. Perforated container for biological sample storage and transfer processing having an independent function constructed by a two-unit system composite structure with a lid with a protective plate (unit 2) having a porous liquid-permeable surface to be freely fitted and connected (Unit structure 1) The lid with a protective plate (unit 2) having a porous liquid-permeable surface, which is a constituent unit, can protect the data recording section that is inclined and installed on the outer peripheral side surface of the embedded frame base (unit 3). 5. A biological sample storage / fixed transfer process with a data recording unit and a protection plate, which is a two-unit system composite structure of a pathological / biological sample unit system cassette according to claim 2 or 4, characterized in that it can be shared and utilized as a body (unit 2). Perforated container bowl (unit structure 1).
上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)と底部(ユニット1)の上側開口部に脱着自在に嵌合・連結する蓋体(ユニット2)と包埋枠状基体(ユニット3)の機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記包埋枠状基体(ユニット3)は、上側に開口部を有し、該上側開口部の周囲を囲む外壁上部上端面、或いは該上側開口部に連なる内壁に内側に向けて突設された凸状平面を形成し、該包埋枠状基体(ユニット3)の外側壁の両前部外側面に上端面から下端面に通じる凹部を形成して、該凹部の上部に前記底部(ユニット1)とも脱着自在に嵌合・連結する前記蓋体(ユニット2)の前部両側凸状垂設係止部の掛け止め部を該包埋枠状基体(ユニット3)の両前部外側凹部に外側面の上側一部を凹部側に掛け止め部として凸設状に残し形成し、後部外壁にも前記蓋体(ユニット2)の後部の係止部を掛け止める掛け止め部を成形した包埋枠状基体(ユニット3)であり、該包埋枠状基体(ユニット3)は底部(ユニット1)と蓋体(ユニット2)と脱着自在に嵌合・連結して3ユニットシステム複合構成体である固定用支持基台(ユニット構成体3)を構築する。
前記底部(ユニット1)は、前記包埋枠状基体(ユニット3)とは分離独立した上側に開口部を形成し、その下側に少なくとも底部に多孔通液性底面を形成した試料収納部からなる生物試料収納固定移送処理用多孔容器状底部(ユニット1)であり、該底部(ユニット1)は上側開口部の外周を囲む水平方向に突設した鍔状平面を形成し、該鍔状平面の前部には前記蓋体(ユニット2)の前部凸状垂設係止部の掛け止め部があり、該掛け止め部は前記包埋枠状基体(ユニット3)の外側壁の前記前部両外側凹部に外側面の上側一部を凹部側に掛け止め部として凸設状に残し形成した凹部に一致する切り欠け部であり、該底部(ユニット1)の後部にも前記蓋体(ユニット2)の後部係止部の掛け止め部を形成して、該底部(ユニット1)は蓋体(ユニット2)と脱着自在に嵌合・連結して2ユニットシステム複合構成体である生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)を構築する、
該多孔通液面を有する蓋体(ユニット2)は、前部両側に凸状垂設係止部を形成し、後部にも前記底部(ユニット1)と前記包埋枠状基体(ユニット3)とも共用する係止部を形成している。該蓋体(ユニット2)は2ユニットシステム複合構成体で構築される生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)と3ユニットシステム複合構成体で構築される固定用支持基台(ユニット構成体3)との共通の構成ユニットであり、
該生物試料収納固定移送処理用多孔容器状底部(ユニット1)と該多孔通液面を有する蓋体(ユニット2)と該包埋枠状基体(ユニット3)とから構築されるユニットシステム複合構成体である生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)と固定用支持基台(ユニット構成体3)とが同一の多孔通液面を有する蓋体(ユニット2)を共有活用することで構築されることを特徴とする請求項1、3、5又は6記載のユニットシステム包埋枠状基体構成体である病理・生物試料用ユニットシステムカセット。
An embedding frame-like substrate having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a porous liquid-permeable material that is detachably fitted and connected to the upper opening of the embedding frame-like substrate In a cassette for pathological / biological samples consisting of a lid with holes;
Three types of functional forms of the bottom (unit 1) and the lid (unit 2) and the embedded frame base (unit 3), which are detachably fitted and connected to the upper opening of the bottom (unit 1), are separated and independent. Molded as a component unit of
The embedding frame-shaped base (unit 3) has an opening on the upper side, and protrudes inwardly on the upper end of the upper part of the outer wall surrounding the periphery of the upper opening, or on the inner wall connected to the upper opening. A convex plane is formed, and concave portions that lead from the upper end surface to the lower end surface are formed on both front outer surfaces of the outer wall of the embedded frame-shaped substrate (unit 3), and the bottom (unit 1) is formed on the upper portion of the concave portion. ) Are detachably fitted and connected to the front (both units 2) on both front protrusions of both sides of the cover (unit 2). An embedding in which a part of the upper side of the outer surface is left protrudingly formed as a latching part on the concave side, and a latching part for latching the rear latching part of the lid (unit 2) is formed on the rear outer wall. A frame-shaped substrate (unit 3), and the embedded frame-shaped substrate (unit 3) includes a bottom (unit 1) and a lid (unit). 2) and removably fixing support base is fitted-coupled to three units System composite structure (the unit structure 3) to build.
The bottom (unit 1) is formed from a sample storage portion in which an opening is formed on the upper side that is separated and independent from the embedded frame-shaped substrate (unit 3), and a porous liquid-permeable bottom surface is formed at least on the bottom. The bottom (unit 1) is a porous container-like bottom portion (unit 1) for biological sample storage and transfer processing, and the bottom portion (unit 1) forms a bowl-shaped plane projecting in the horizontal direction surrounding the outer periphery of the upper opening, and the bowl-shaped plane There is a latching portion of the front projecting hanging latching portion of the lid (unit 2) at the front portion of the lid (unit 2), and the latching portion is the front of the outer wall of the embedded frame base (unit 3). A notch portion corresponding to a concave portion formed by leaving a part of the upper side of the outer surface of the outer concave portion on the concave side as a latching portion on the concave side, and the lid (unit 1) also on the rear portion (unit 1) Unit 2) forms a latching portion for the rear latching portion, and the bottom (unit 1) is a lid Constructing a (unit 2) and removably biological sample accommodated fixed transfer processing porous container cage is fitted-coupled to 2 units system complex structure (configuration body 1),
The lid (unit 2) having the porous liquid-permeable surface is formed with convex hanging locking parts on both sides of the front part, and the bottom part (unit 1) and the embedded frame-like base body (unit 3) on the rear part. A common locking portion is formed. The lid (unit 2) is a biological sample storage fixed transfer processing porous container cage (unit structure 1) constructed with a 2-unit system composite structure and a fixing support base constructed with a 3-unit system composite structure. (Unit component 3) is a common component unit,
Unit system composite structure constructed from the porous container-like bottom part (unit 1) for the biological sample storage fixed transfer process, the lid (unit 2) having the porous liquid-permeable surface, and the embedded frame-like substrate (unit 3) Common use of the lid (unit 2) having the same porous liquid-permeable surface for the porous container cage (unit component 1) for fixing and transferring biological sample, which is a body, and the support base for fixing (unit component 3) The unit system cassette for pathological / biological samples, which is a unit system-embedded frame-like substrate structure according to claim 1, wherein the unit system cassette is constructed as described above.
上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体から成る病理・生物試料用カセットに於いて;
底部(ユニット1)と底部(ユニット1)の上側開口部に脱着自在に嵌合・連結する多孔通液面を有する蓋体(ユニット2)と包埋枠状基体(ユニット3)の機能形態を各々分離独立した3種類の構成体ユニットとして成形して、
前記包埋枠状基体(ユニット3)は、上側と下側とに開口部を有し、該上側から下側への開口部に連結した貫通孔部を形成し、上側から下側開口部に連結した前記貫通孔部の該上側開口部の周囲を囲む外壁上部上端面或いは該上側開口部に連なる貫通孔部内壁に内側に向けて突設された凸状平面を形成し、該包埋枠状基体(ユニット3)の外側壁の両前部外側面に上端面から下端面に通じる凹部を形成して、該凹部の上部に前記底部(ユニット1)とも脱着自在に嵌合・連結する前記蓋体(ユニット2)の前部凸状垂設係止部の掛け止め部を該包埋枠状基体(ユニット3)の両前部外側凹部に外側面の上側一部を凹部側に掛け止め部として凸設状に残し形成し、後部外壁にも前記蓋体(ユニット2)の後部の係止部を掛け止める掛け止め部を成形した包埋枠状基体(ユニット3)であり、
前記底部(ユニット1)は、前記包埋枠状基体(ユニット3)とは分離独立した上側に開口部を形成し、その下側に少なくとも底部に多孔通液性底面を形成した試料収納部からなる生物試料収納固定移送処理用多孔容器状底部(ユニット1)であり、前記包埋枠状基体(ユニット3)の介在がなくても該底部(ユニット1)の上側開口部に前記多孔通液面を有する蓋体(ユニット2)が独自に互いに脱着自在に嵌合・連結して独立した機能を担う生物試料収納固定移送処理用多孔容器籠(ユニット構成体1)を構築することができ、
該底部(ユニット1)は上側開口部の外周を囲む水平方向に突設した鍔状平面を形成し、該鍔状平面の前部には前記蓋体(ユニット2)の前部の両側凸状垂設係止部の前部両側掛け止め部が成形されていて、該底部(ユニット1)の前部両側掛け止め部は前記包埋枠状基体(ユニット3)の外側壁の前部両外側に上端面から下端面に通じる凹部の上部に外側面の上側一部を凹部側に突設状に残し形成した掛け止め部の上側に重なる形状に成形され、更に該底部(ユニット1)の前部両側掛け止め部は該底部(ユニット1)の上側開口部の外周を囲む水平方向に突設した鍔状平面の両側長辺側の切り欠け部の端部で形成されており、該切り欠け部は前記包埋枠状基体(ユニット3)の外側壁の前部両外側に上端面から下端面に通じる凹部に重なる形状であり、該包埋枠状基体(ユニット3)の凹部の上部外側面の凹部側に突設状に残し形成した掛け止め部の上部に重なる該底部(ユニット1)の切り欠け部の端部が前部両側掛け止め部に一致し、更に、後部にも前記蓋体(ユニット2)の後部係止部の掛け止め部を形成した多孔通液性容器状底部であり、前記包埋枠状基体(ユニット3)の上側から下側への開口部に連結した貫通孔部に脱着自在に挿入嵌合できる試料収納部と該鍔状平面を前記包埋枠状基体(ユニット3)の開口部外周の上端面上に或いは前記上側開口部に連なる貫通孔部内壁に内側に向けて突設された凸状平面上に掛け止め嵌合設置して、該生物試料収納固定移送処理用多孔容器状底部(ユニット1)が前記包埋枠状基体(ユニット3)の下側開口部側に脱落しない防止機能を持ち、該底部(ユニット1)は前記包埋枠状基体(ユニット3)と互いに嵌合・連結して2ユニットシステム複合構成体で構築される病理組織試料用カセットの機能形態であるユニットシステム包埋枠状基体多孔通液性容器底部(ユニット構成体2)を構築し、
前記多孔通液面を有する蓋体(ユニット2)は、前部両側に凸状垂設係止部を形成し、後部にも前記底部(ユニット1)の掛け止め部と前記包埋枠状基体(ユニット3)の掛け止め部で成す二角の重なりで構築される掛け止め部に掛け止めできる係止部を形成しており、前記底部(ユニット1)の上側開口部にも脱着自在に嵌合・連結して、更に該底部(ユニット1)の上側開口部の外周を囲む水平方向に突設した鍔状平面を、該多孔通液面を有する蓋体(ユニット2)の多孔通液面の外周を囲む開閉誘導リブの外周平面下と該包埋枠状基体(ユニット3)の開口部外周の上端面上に或いは上側開口部に連なる貫通孔部内壁に内側に向けて突設された凸状平面上で挟持して嵌合・連結して固定用支持基台(ユニット構成体3)を構築する、該多孔通液孔を有する蓋体(ユニット2)の前部両側凸状垂設係止部と後部係止部の該生物試料収納固定移送処理用多孔容器状底部(ユニット1)と該包埋枠状基体(ユニット3)の前部と後部の掛け止めに於いて、該蓋体(ユニット2)の前部両側凸状垂設係止部と後部係止部の該底部(ユニット1)と該包埋枠状基体(ユニット3)の両前部と後部掛け止め部はそれぞれ該底部(ユニット1)と該包埋枠状基体(ユニット3)の掛け止め部が成す二角の重なりで構築される掛け止め部で構成されるので該蓋体(ユニット2)と、該底部(ユニット1)と該包埋枠状基体(ユニット3)の掛け止め部の嵌合・係止支点は各々共通共用している、該蓋体(ユニット2)の係止部と該底部(ユニット1)と該包埋枠状基体(ユニット3)の掛け止め部の嵌合・係止支点が各々共通共用出来ることを特徴とする請求項1、3、5、6又は8記載のユニットシステム包埋枠状基体構成体からなる病理・生物試料用ユニットシステムカセット。
An embedding frame-like substrate having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a porous liquid-permeable material that is detachably fitted and connected to the upper opening of the embedding frame-like substrate In a cassette for pathological / biological samples consisting of a lid with holes;
Functional forms of the lid (unit 2) and the embedded frame-like base (unit 3) having a porous liquid-permeable surface that is detachably fitted and connected to the bottom (unit 1) and the upper opening of the bottom (unit 1). Molded as three separate structural unit units,
The embedding frame-shaped substrate (unit 3) has openings on the upper side and the lower side, forms a through-hole portion connected to the opening from the upper side to the lower side, and extends from the upper side to the lower opening. Forming a convex flat surface projecting inwardly on the upper end of the upper part of the outer wall surrounding the upper opening of the connected through hole or the inner wall of the through hole connected to the upper opening; The concave portion that leads from the upper end surface to the lower end surface is formed on both front outer surfaces of the outer wall of the substrate (unit 3), and the bottom portion (unit 1) is detachably fitted and connected to the upper portion of the concave portion. The latching portion of the front convex hanging latching portion of the lid (unit 2) is latched on both outer front concave portions of the embedding frame base (unit 3), and the upper part of the outer surface is latched on the concave side. A hooking portion that is formed in a protruding shape as a portion, and that hooks the rear locking portion of the lid (unit 2) on the rear outer wall. In the form the embedding frame-like base (unit 3),
The bottom (unit 1) is formed from a sample storage portion in which an opening is formed on the upper side that is separated and independent from the embedded frame-shaped substrate (unit 3), and a porous liquid-permeable bottom surface is formed at least on the bottom. A porous container-like bottom part (unit 1) for the biological sample storage and transfer process, and the porous liquid passing through the upper opening of the bottom part (unit 1) without the inclusion of the embedded frame-like base (unit 3). Biological sample storage fixed transfer processing porous container cage (unit structure 1) that has independent functions can be constructed by independently connecting and detaching the lid (unit 2) having a surface with each other,
The bottom part (unit 1) forms a bowl-shaped plane projecting in the horizontal direction surrounding the outer periphery of the upper opening, and the front part of the bowl-like plane is convex on both sides of the front part of the lid (unit 2). Front side latching portions of the hanging latching portion are formed, and the front side both latching portions of the bottom portion (unit 1) are both front side outer sides of the outer wall of the embedded frame-shaped base (unit 3). The upper part of the outer surface is formed on the upper part of the recessed part that extends from the upper end surface to the lower end surface so that the upper part of the outer surface is left protrudingly formed on the concave part side, and is superimposed on the upper side of the latching part. The both side latching portions are formed by the end portions of the notches on the long sides on both sides of the bowl-shaped plane projecting in the horizontal direction surrounding the outer periphery of the upper opening of the bottom (unit 1). The portion overlaps the concave portion that leads from the upper end surface to the lower end surface on both outer sides of the front portion of the outer wall of the embedded frame-shaped base (unit 3). The end of the cutout portion of the bottom portion (unit 1) that is shaped and overlaps the upper portion of the latching portion formed in a protruding manner on the concave side of the upper outer surface of the concave portion of the embedding frame-shaped substrate (unit 3) A bottom part of the porous liquid-permeable container in which the part coincides with the front side latching part and the latching part of the rear part latching part of the lid (unit 2) is formed on the rear part, and the embedding frame A sample storage portion that can be removably inserted and fitted into a through-hole portion connected to an opening portion from the upper side to the lower side of the substrate (unit 3) and the bowl-shaped plane are openings of the embedded frame substrate (unit 3). The biological sample storage fixed transfer processing perforated container is installed by latching on the upper end surface of the outer periphery or on the convex flat surface projecting inwardly on the inner wall of the through-hole portion connected to the upper opening. The bottom portion (unit 1) does not fall off to the lower opening side of the embedded frame base (unit 3). The bottom portion (unit 1) is a functional form of a cassette for pathological tissue sample constructed with a two-unit system composite structure by fitting and connecting the bottom portion (unit 1) to the embedded frame base (unit 3). Construct unit system embedded frame-like substrate porous liquid-permeable container bottom (unit structure 2),
The lid (unit 2) having the porous liquid-permeable surface is formed with convex hanging latching portions on both sides of the front portion, and the latching portion of the bottom portion (unit 1) and the embedded frame-like base body on the rear portion. A latching part that can be latched on the latching part constructed by the overlapping of the two corners formed by the latching part of (Unit 3) is formed. Further, a bowl-shaped flat surface projecting in the horizontal direction surrounding the outer periphery of the upper opening of the bottom (unit 1) is connected to the porous liquid-permeable surface of the lid (unit 2) having the porous liquid-permeable surface. Projecting inwardly on the inner peripheral wall of the through hole connected to the upper opening or the upper end surface of the outer periphery of the opening of the embedded frame-shaped base (unit 3). The fixed support base (unit structure 3) is constructed by sandwiching and fitting and connecting on a convex plane. A porous container-like bottom portion (unit 1) for the biological sample storage and transfer processing of the front side both-side convex hanging latching portion and the rear latching portion of the lid (unit 2) having a hole passing hole and the embedding frame In the latching of the front portion and the rear portion of the base body (unit 3), the front side both-side convex hanging locking portion, the bottom portion (unit 1) of the rear locking portion, and the Both front and rear latching portions of the embedding frame-shaped substrate (unit 3) are constructed by two-dimensional overlap formed by the bottom portion (unit 1) and the latching portion of the embedding frame-shaped substrate (unit 3). Since the cover (unit 2), the bottom (unit 1), and the embedded frame-like base (unit 3) are fitted and locked on each other, the fitting / locking fulcrum is commonly used. The latching portion of the lid (unit 2), the bottom (unit 1), and the embedded frame-like base (unit 3) 9. A unit system cassette for a pathological / biological sample comprising a unit system embedding frame-like substrate structure according to claim 1, wherein the fitting / locking fulcrum of each part can be shared in common. .
上側に開口部を形成し、その下側に多孔通液性の底部を形成した包埋枠状基体と、その包埋枠状基体の上側開口部に脱着自在に嵌合・連結する多孔通液孔を有する蓋体とから成る病理・生物試料用カセットの包埋枠状基体のデータ記録部等外周部に付着して病理・生物試料包埋ブロックカセットの薄切時に邪魔をして、その除去時にデータ記録部を損傷させる包埋剤の余分なバリを除去又はバリを発生させない包埋皿に於いて;
包埋底部(ユニット4)と包埋底部(ユニット4)の上側開口部の外周を囲む水平方向に突設した鍔状平面に嵌合・連結する、上側と下側とに開口部を有し該上側から下側への開口部に連結した貫通孔部を形成する上部水密包埋枠部(ユニット5)の機能形態を各々分離独立した2種類の素材構成体ユニットとして成形して
包埋底部(ユニット4)は熱伝導率の良い金属製板のプレス加工で成形し、該包埋底部は上側開口部の下側には包埋時に包埋試料が載せられる収納底部があり該上側開口部の外周を囲む水平方向に突設した鍔状平面を形成している金属製構成体ユニットであり、
前記上部水密包埋枠部は上側と下側とに開口部を有し、該上側から下側への開口部に連結した貫通孔部を形成し、上側から下側開口部に連結した前記貫通孔部の該上側開口部の周囲を囲む外壁上部上端面或いは該上側開口部に連なる貫通孔部内壁に内側に向けて突設された凸状平面を形成して、該上側開口部の周囲を囲む外壁上部上端面或いは該上側開口部に連なる貫通孔部内壁に内側に向けて突設された凸状平面上に前記包埋底部(ユニット4)の収納底部の上側開口部の外周を囲む水平方向に突設した鍔状平面の四方全周を掛け止め設置できる前記包埋底部(ユニット4)の下部嵌合連結包埋底部支持体と、該下部嵌合連結包埋底部支持体の上側に嵌合連結して上側と下側とに開口部を有し、前記上側から下側への開口部に連結した貫通孔部を形成し、上側から下側開口部に連結した前記貫通孔部の該上側開口部の周囲を囲む外壁上部上端面と該上側開口部に連なる貫通孔部内壁に内側に向けて突設された凸状平面を形成した包埋皿上部水密2角面形成枠体とから構成される上部水密包埋枠部(ユニット5)であり、
該包埋皿は、包埋底部(ユニット4)は上側開口部の外周を囲む水平方向に突設した鍔状平面を形成し、その下側に包埋作業時の試料包埋底部面を形成した金属製包埋底部(ユニット4)であり、該包埋底部(ユニット4)の上部開口部の外周を囲む水平方向に突設した鍔状平面を掛け止め部に水密に嵌合する合成樹脂製の上部水密包埋枠部(ユニット5)との2種類の素材構成体ユニットで構築して、熱伝導率の良い金属製の該包埋底部(ユニット4)と包埋枠状基体と同じ収縮率で精密嵌合成形が可能な該合成樹脂製の上部水密包埋枠部(ユニット5)の機能形態を合体した2ユニットシステム複合構成体である包埋皿であり、
該包埋底部(ユニット4)は熱伝導率の良い金属製板のプレス加工で成形し、該包埋底部(ユニット4)の開口部の外周を囲む水平方向に突設した鍔状平面を前記合成樹脂製の上部水密包埋枠部(ユニット5)の掛け止め部に水密に確実に嵌め込み、前記病理・生物試料用カセットの包埋枠状基体底部と該包埋枠状基体(ユニット3)のカセットブロック薄切時のアダプター固定爪位置の底面より狭い面積で突設形成した突設側壁とが成す凹凸二角面と該合成樹脂製の上部水密包埋枠部(ユニット5)の上端面と水密包埋枠内壁とが形成する接触水密面の凹凸二角接触面で水密に嵌合連結させて、
従来の金属製包埋皿の水密枠成形では困難であった前記病理・生物試料用カセットの包埋枠状基体と水密2角面形成枠体である水密枠との水密嵌合性を高めて、包埋皿内の包埋剤の滲み溢れと試料の固定包埋薬液処理時に包埋剤に浸漬された前記病理・生物包埋ブロックカセットの包埋枠状基体の周囲からの包埋剤の垂れ溜まりを完全防止する前記合成樹脂製の上部水密包埋枠部(ユニット5)と熱伝導率の良い金属製包埋底部(ユニット4)との2ユニットシステム複合構成体で構築されることを特徴とする請求項1、2、3、4、8又は9記載の病理・生物試料用カセットの包埋枠状基体底部の合成樹脂製水密枠付き包埋皿(ユニット構成体4)。
An embedding frame-like substrate having an opening on the upper side and a porous liquid-permeable bottom on the lower side, and a porous liquid-permeable material that is detachably fitted and connected to the upper opening of the embedding frame-like substrate Pathologic / biological sample cassette embedded in a frame-shaped substrate consisting of a lid with a hole. In an embedding dish that eliminates or does not generate excess burrs of the embedding agent that sometimes damages the data record;
It has openings on the upper and lower sides that fit and connect to a horizontal plane projecting in the horizontal direction surrounding the outer periphery of the upper opening of the embedding bottom (unit 4) and the embedding bottom (unit 4). Forming the functional form of the upper watertight embedding frame portion (unit 5) forming the through-hole portion connected to the opening from the upper side to the lower side as separate and independent two types of material constituting body units, embedding bottom portion (Unit 4) is formed by pressing a metal plate with good thermal conductivity, and the embedded bottom has a storage bottom on which an embedded sample is placed at the bottom of the upper opening. A metal component unit forming a bowl-shaped plane projecting in the horizontal direction surrounding the outer periphery of
The upper watertight embedding frame portion has openings on the upper side and the lower side, forms a through-hole portion connected to the opening portion from the upper side to the lower side, and the penetrating hole connected to the lower side opening portion from the upper side A convex flat surface projecting inwardly is formed on the upper end surface of the upper part of the outer wall surrounding the periphery of the upper opening of the hole or the inner wall of the through hole continuous to the upper opening, and the periphery of the upper opening is formed. A horizontal surface surrounding the outer periphery of the upper opening of the storage bottom of the embedding bottom (unit 4) on the convex upper surface projecting inwardly on the upper wall of the upper part of the surrounding outer wall or through the inner wall of the through hole connected to the upper opening. A lower fitting connection embedded bottom support body of the embedded bottom section (unit 4) capable of being hooked and installed on all four sides of the bowl-shaped plane protruding in the direction, and above the lower fitting connection embedded bottom section support body Fits through and has openings on the upper and lower sides, and is connected to the opening from the upper side to the lower side Forming an upper portion and projecting inwardly from the upper end of the outer wall surrounding the upper opening of the through hole connected to the lower opening from the upper side and the inner wall of the through hole connected to the upper opening. An upper watertight embedding frame portion (unit 5) composed of an embedding dish upper watertight dihedral surface forming frame that forms a convex flat surface,
In the embedding dish, the embedding bottom part (unit 4) forms a bowl-shaped flat surface projecting in the horizontal direction surrounding the outer periphery of the upper opening, and the sample embedding bottom part surface at the time of embedding is formed below the embedding dish. Synthetic resin which is a metal embedded bottom portion (unit 4) and has a hook-like flat surface projecting in the horizontal direction surrounding the outer periphery of the upper opening of the embedded bottom portion (unit 4) in a watertight manner. It is constructed with two types of material constituent units, such as an upper watertight embedding frame portion (unit 5) made of metal, and is the same as the embedding bottom portion (unit 4) made of metal with good thermal conductivity and an embedding frame-shaped substrate. It is an embedding dish which is a two-unit system composite structure that combines the functional forms of the synthetic resin upper watertight embedding frame (unit 5) capable of precision fitting molding with a shrinkage rate,
The embedding bottom portion (unit 4) is formed by pressing a metal plate having a good thermal conductivity, and a bowl-shaped plane projecting in the horizontal direction surrounding the outer periphery of the opening of the embedding bottom portion (unit 4) is formed as described above. The upper water-tight embedding frame portion (unit 5) made of synthetic resin is securely and securely fitted into the latching portion, and the bottom of the embedding frame-like substrate of the cassette for pathological / biological samples and the embedding frame-like substrate (unit 3). When the cassette block is sliced, the concave / convex square surface formed by the projecting side wall projecting in a smaller area than the bottom surface of the adapter fixing claw position and the upper end surface of the synthetic resin upper watertight embedding frame (unit 5) And the watertight embedding frame inner wall formed by watertight fitting and connection with the concave and convex square contact surface of the contact watertight surface,
Improve water-tight fitting between the embedded frame-shaped substrate of the cassette for pathological / biological samples and the water-tight frame which is a water-tight dihedral surface forming frame, which has been difficult in the conventional water-tight frame forming of metal embedding dishes. The embedding agent overflows from the periphery of the embedding frame-like substrate of the pathological / biological embedding block cassette immersed in the embedding agent during the treatment of the fixed embedding solution of the sample. It is constructed by a two-unit system composite structure of the synthetic resin upper watertight embedding frame (unit 5) and the metal embedding bottom (unit 4) having good thermal conductivity that completely prevent drooping. 10. An embedding dish with a synthetic resin watertight frame (unit structure 4) at the bottom of an embedding frame-like substrate of a pathologic / biological sample cassette according to claim 1, 2, 3, 4, 8, or 9.
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