The present invention relates to an embedding apparatus, and particularly relates to an embedding apparatus embedding a sample such as a tissue piece by using an embedding material such as paraffin.
In order to make a microscope specimen from a tissue piece (sample) collected from a human body or the like, the collected tissue piece is dehydrated by alcohol, then, degreased by replacing alcohol with xylene by using a tissue piece treatment device, and the degreased tissue piece is embedded by being permeated by an embedding material such as paraffin. The embedded tissue piece is sliced by a microtome and the like to make a microscope specimen.
When the tissue piece embedded by the embedding material is sliced by the microtome, how to hold the soft tissue piece becomes a problem. Furthermore, it is also necessary to write data indicating when the tissue piece was collected, to whom the tissue piece belongs, from which part the tissue piece was collected and so on. Accordingly, an embedding apparatus in which the tissue piece embedded by the embedding material is integrally attached to a body of a resin cassette by the embedding material is proposed (Patent Literature 1: refer to JP-A-2002-318177)
PTL 1: JP-A-2002-318177
Here, a schematic process of embedding a sample by using the embedding apparatus cited in Patent Literature 1 is as follows. First, a cassette housed in a molten paraffin is taken out by holding a tweezers. Next, the tweezers are put on a holder once. Subsequently, a lid of the cassette is opened with one hand while a body of the cassette is held with the other hand. Next, the tissue piece in the cassette is put on an embedding tray by holding the tweezers again to be positioned on a cold spot. Then, the embedding tray is covered with the body of the cassette and the molten paraffin is dispensed over the cassette. The embedding process of the sample is performed in this manner.
The process of embedding the sample is schematically performed as described above. In particular, there is a disadvantage that it is necessary to return the tweezers held with the hand to the holder every time as the process of opening the lid of the cassette is performed with both hands. This causes complication of work and increase in work time, which requires improvement.
The present invention has been accomplished in view of the above problem, and an object thereof is to provide an embedding apparatus capable of opening a lid of a cassette used for accommodating a sample and the like with one hand.
As an embodiment, the above problem will be solved by a solution disclosed below.
An embedding apparatus includes a placement mechanism for placing a cassette having a body and a lid provided so as to be opened and closed with respect to the body for accommodating a sample and a lid opening mechanism for opening the lid of the cassette, in which the lid opening mechanism includes a one end part provided at a position lower in height than a lower surface of the lid and an inclined surface extending from the one end part to a position higher in height than the lower surface of the lid in a state where the cassette with the lid closed is placed on a predetermined position of the placement mechanism.
According to the present invention, it is possible to realize the embedding apparatus capable of performing a process of opening the lid of the cassette used for accommodating a sample or the like with one hand. Accordingly, work can be simplified and work time can be reduced.
Hereinafter, a first embodiment of the present invention will be explained in detail with reference to the drawings.
As shown in
Moreover, a hot plate 18 for heating an embedding tray and the like in which the sample is accommodated is provided in front of the needle valve 14 in the right/left direction. On the other hand, a holder 22 for heating instruments such as tweezers used when taking out the sample from a cassette 2 or other cases is provided behind and close to the needle valve 14 in the right/left direction.
Furthermore, a cold spot 20 cooled by a Peltier element is provided in front of the needle valve 14. The cold spot 20 is used when solidifying the molten paraffin filled in the embedding tray that accommodates the sample.
On the other hand, heating tanks 26 housing and heating the embedding tray and the sample are provided behind the needle valve 14 in the right/left direction.
Also in the embedding apparatus 1 according to the embodiment, a placement mechanism 40 on which the cassette 2 is placed is provided. Here, the placement mechanism 40 is provided with a groove portion 41 formed to have a width in the front/rear direction which is wider than a width in the front/rear direction of the cassette 2 so that the cassette 2 is fitted and can move in the right/left direction, in which a top surface of the hot plate 18 is exposed in the groove portion 41. Therefore, the cassette 2 is placed on the top surface of the hot plate 18. It is also preferable to have a structure in which a flat plate not having a heating mechanism is arranged instead of the hot plate 18 as a modification example (not shown).
According to the structure, it is possible to prevent the embedding tray from falling off to the outside of the apparatus and to place the embedding tray reliably on a predetermined position of the apparatus (on the hot plate 18 inside the groove portion 41 in this case) due to existence of the groove portion 41.
The embedding apparatus 1 according to the embodiment has a structure in which respective mechanisms are arranged symmetrically with respect to the needle valve 14 so that the work can be performed regardless of a worker's dominant hand (a right-handed and left-handed worker).
Here, a process of embedding a sample (tissue piece) using the embedding apparatus 1 will be explained.
First, a sample accommodated in the cassette 2 after permeation of paraffin is housed with a basket in the heating tank 26 storing the molten paraffin.
Next, the cassette 2 with the sample housed inside the molten paraffin in the heating tank 26 (26A as an example) by holding the tweezers. Here, the size of the sample is checked by opening a lid 2A of the cassette 2.
Next, the embedding tray corresponding to the size of the sample which has been previously heated is taken out from the heating tank 26 (26B as an example), and a small amount of paraffin is dispensed into the embedding tray from the needle valve 14.
Next, the sample in the cassette 2 is put into the embedding tray by using the tweezers and the position of the sample is fixed while cooling the embedding tray on the cold spot 20.
Next, an opening of the embedding tray is covered with a body 2B of the cassette 2 in a state where the lid 2A is opened, and the molten paraffin is dispensed over the body 2B of the cassette 2.
Next, the embedding tray is cooled by using another apparatus (as an example, a cryomodule (not shown) or the like) to solidify paraffin.
Next, when the paraffin is solidified by cooling, the body 2B of the cassette 2 is removed from the embedding tray. At this time, the sample is fixed in the body 2B of the cassette 2 in a state of being embedded by the paraffin.
The embedding of the sample is performed by the above schematic process. Subsequently, a process in which the sample is sliced by using a microtome (not shown) to fabricate a microscope specimen and so on are performed.
Incidentally, there is a problem in a related-art embedding process as described above that, when opening the lid 2A of the cassette 2 accommodating the sample, it is necessary to return the tweezers which have been held with the hand to the holder 22 once and open the lid 2A of the cassette 2 with one hand while holding the body 2B of the cassette 2 with the other hand.
In the embodiment, the above problem is solved by providing the following characteristic structure.
Specifically, there is provided a structure having a lid opening mechanism 30 including a one end part 31 provided at a position lower in height in the top/bottom direction than a lower surface 2a of the lid 2A provided so as to be opened and closed with respect to the body 2B of the cassette 2 that accommodates the sample and an inclined surface 32 extending from the one end part 31 to a position higher in height in the top/bottom direction than the lower surface 2a of the lid 2A in a state where the cassette 2 is placed on a predetermined portion (a predetermined position on a top surface of the hot plate 18 arranged inside the groove portion 41 as an example) of the placement mechanism 40. Here, a perspective view (schematic view) of the lid opening mechanism 30 is shown in
As an example, the lid opening mechanism 30 is formed of a resin material. However, the material is not limited to this, and a structure formed of a metal material may be adopted. In that case, a structure in which the one end part 31 and the inclined surface 32 can be heated is adopted, thereby obtaining an operation that paraffin adhered to these parts is melted and falls off, which eliminates necessity of clearing, therefore, workability can be further improved.
The inclined surface 32 according to the embodiment is configured to be inclined in a direction parallel to a direction facing the cassette, namely, in the front/rear direction shown by an arrow in the drawing. Also, the one end part 31 is formed, as an example, so that a cross-sectional shape (cross-sectional shape of a surface orthogonal to the right/left direction) of a distal end is an approximately V-shape, namely, a tapered shape with an acute angle (see
According to the above structure, when a front end 2b of the lid 2A of the cassette 2 is allowed to abut on the inclined surface 32 of the lid opening mechanism 30 and a motion of pulling the cassette 2 to the front direction from that state is performed, an operation that the front end 2b of the lid 2A rises along the inclined surface 32 and the lid 2A is opened can be obtained.
In order to obtain the above operation, it is preferable that the inclined surface 32 is formed so that a horizontal distance S2 from the one end part 31 to a position where a height becomes the same as a height of the lower surface 2a of the lid 2A is shorter than a protruding distance Si from the body 2B in the lid 2A.
As described above, when adopting the embedding apparatus 1 according to the embodiment, the lid 2A can be opened only by moving the cassette 2 so as to be pulled in the front direction with one hand while holding the tweezers with the other hand. Accordingly, the lid 2A of the cassette 2 can be opened with one hand without returning the tweezers held with the hand to the holder 22 every time, therefore, work can be simplified and work time can be reduced as compared with the related-art apparatus.
The embedding apparatus 1 according to the embodiment is configured to include a hand-rest part 34 with an upper surface part 34a having a predetermined size in the front/rear direction and in the right/left direction in an area continued from the other end part 33 (an end part on the opposite side of the one end part 31 in the front/rear direction), namely, an area having a predetermined width from the other end part 33 to the one end part 31 direction in the lid opening mechanism 30.
As the hand used when opening the lid 2A of the cassette 2 (a portion around a palm to a wrist) can be put on the hand-rest part 34 according to the above structure, a motion of pulling the cassette 2 to the front direction while putting fingertips on a rear end 2c of the cassette 2 can be performed with a comfortable posture and without displacement.
Next, the embedding apparatus 1 according to a second embodiment of the present invention will be explained. The fundamental structure of the embedding apparatus 1 according to the embodiment is the same as that of the above first embodiment, but there is a different point particularly in the structure of the lid opening mechanism 30. Hereinafter, the present embodiment will be explained with a focus on the different point.
A perspective view (schematic view) of the lid opening mechanism 30 of the embedding apparatus 1 according to the embodiment is shown in
In the embedding apparatus 1 according to the embodiment, the lid opening mechanism 30 is provided with a jump preventing part 35 formed in an eaves shape in an upper position close to a part where the lower surface 2a of the lid 2A corresponds to a height in the top/bottom direction of the inclined surface 32 in the lid opening mechanism 30.
According to the structure, when the front end 2b of the lid 2A of the cassette 2 is allowed to abut on the inclined surface 32 of the lid opening mechanism 30 and the motion of pulling the cassette 2 to the front direction from that state is performed, the operation that the front end 2b of the lid 2A rises along the inclined surface 32 and the lid 2A is opened can be obtained, which is the same as the above first embodiment.
Here, when the lid 2A is opened in the above operation, the lid 2A may jump up due to the force of opening. However, when the structure having the jump preventing part 35 according to the embodiment is adopted, an operation in which an upper surface 2d of the lid 2A abuts on a lower surface 35a of the jump preventing part 35 having eaves shape when the lid 2A jumps up to thereby suppress jumping can be obtained. Therefore, the jumping of the lid 2A which can occur as a problem generated only when opening the lid 2A with one hand can be prevented as well as scattering of the sample or the like caused by the jumping of the lid 2A can be also prevented.
Subsequently, the embedding apparatus 1 according to a third embodiment of the present invention will be explained. The fundamental structure of the embedding apparatus 1 according to the embodiment is the same as that of the first embodiment, but there is a different point particularly in the structure of the lid opening mechanism 30. Hereinafter, the present embodiment will be explained with a focus on the different point.
A perspective view (schematic view) of the lid opening mechanism 30 of the embedding apparatus 1 according to the embodiment is shown in
As a characteristic structure of the embedding apparatus 1 according to the embodiment, an inclined surface 37 in the lid opening mechanism 30 is provided so that a one end part 36 is formed at a position lower in height than the lower surface 2a of the lid 2A of the cassette 2 and is inclined in a direction orthogonal to the direction facing the cassette 2, namely, in the right/left direction shown by the arrow in the drawing (in the exemplification of
According to the structure, when the cassette 2 is placed on the placement mechanism 40 (on the top surface of the hot plate 18 arranged inside the groove portion 41 in this case) so that the front end 2b of the lid 2A of the cassette 2 is in a position overlapping with the inclined surface 37 in plan view and so that the lower surface 2a of the lid 2A is in an upper position of the inclined surface 37, and further, a motion of sliding the cassette 2 to move in a right or left predetermined direction in which the inclined surface 37 is inclined upward (a left direction in the exemplification of
As described above, when adopting the embedding apparatus 1 according to the embodiment, the lid 2A can be opened only by sliding the cassette 2 to move in a right or left predetermined direction with one hand while holding the tweezers with the other hand.
It is possible to adopt a structure as a modification example in which the jump preventing part formed in the eaves shape is provided in an upper position close to a part where the lower surface 2a of the lid 2A corresponds to a height in the top/bottom direction of the inclined surface 37 in the same manner as the second embodiment (not shown).
Subsequently, the embedding apparatus 1 according to a fourth embodiment of the present invention will be explained. The fundamental structure of the embedding apparatus 1 according to the embodiment is the same as that of the first embodiment, but there are different points particularly in structures of the lid opening mechanism 30 and the placement mechanism 40. Hereinafter, the present embodiment will be explained with a focus on the different points.
A plan view (schematic view) of the lid opening mechanism 30 and the placement mechanism 40 in the embedding apparatus 1 according to the embodiment is shown in
The embedding apparatus 1 according to the embodiment has a structure in which a distance between a wall surface 41a on a side separated from the one end part 31 in the groove portion 41 and the one end part 31 is reduced toward a right or left predetermined direction concerning both or any of the lid opening mechanism 30 and the placement mechanism 40. That is, referring to
In the embodiment, the one end part 31 of the lid opening mechanism 30 is bent/curved to be close to the wall surface 41a on the side separated from the one end part 31 in the groove portion 41 toward a right or left predetermined direction, as well as the wall surface 41a on the side separated from the one end part 31 in the groove portion 41 of the placement mechanism 40 is bent/curved to be close to the one end part 31 of the lid opening mechanism 30.
As another example, it is preferable to adopt a structure in which the one end portion 31 of the lid opening mechanism 30 alone is bent/curved to be close to the wall surface 41a on the side separated from the one end part 31 in the groove portion 41 toward a right or left predetermined direction (not shown).
As further another example, it is preferable to adopt a structure in which the wall surface 41a on the side separated from the one end part 31 in the groove portion 41 of the placement mechanism 40 alone is bent/curved to be close to the one end part 31 of the lid opening mechanism 30 (not shown).
Also according to any of the structure examples, when the cassette 2 is placed on the placement mechanism 40 (the upper surface of the hot plate 18 arranged inside the groove portion 41 in this case) so that the front end 2b of the lid 2A of the cassette 2 is in the position overlapping with the inclined surface 32 in plan view and so that the lower surface 2a of the lid 2A is in an upper position of the inclined surface 32, and further, when a motion of sliding the cassette 2 to move in a direction in which the distance between the wall surface on the side separated from the one end part 31 in the groove portion 41 and the one end part 31 is reduced (a left direction in the exemplification of
As described above, when adopting the embedding apparatus 1 according to the embodiment, the lid 2A can be opened only by sliding the cassette 2 to move in a right or left predetermined direction with one hand while holding the tweezers with the other hand.
It is also preferable to adopt a structure as a modification example in which the jump preventing part formed in the eaves shape is provided in the upper position close to the part where the lower surface 2a of the lid 2A corresponds to the height in the top/bottom direction of the inclined surface 32 in the same manner as the second embodiment (not shown).
As described above, the lid of the cassette can be opened only by moving the cassette in a predetermined direction with one hand while holding the tweezers with the other hand when adopting the embedding apparatus according to the present invention. Therefore, the lid of the cassette can be opened with one hand without returning the tweezers held with the hand to the holder every time, which can simplify work and reduce work time as compared with the related-art apparatus.
The present invention is not limited to the embodiments described above and various modifications may occur within a scope not departing from the gist of the present invention.
Number | Date | Country | Kind |
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2017-025798 | Feb 2017 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2018/004299 | 2/8/2018 | WO | 00 |