CN210774931U - Biological tissue paraffin embedding bottom die and full-automatic biological tissue processor - Google Patents

Abstract

The utility model relates to a biological tissue treatment facility field, concretely relates to biological tissue paraffin embedding die block and full-automatic biological tissue processor. The biological tissue paraffin embedding bottom die comprises at least two die cavities, wherein the at least two die cavities are fixedly connected; the die cavity comprises a bottom die upper bottom, a bottom die wall and a bottom die lower bottom which are arranged in a step structure, the bottom die upper bottom is connected with the bottom die lower bottom through the bottom die wall, and in the die cavity, the depth of the bottom die lower bottom is larger than that of the bottom die upper bottom. The full-automatic biological tissue processor comprises the biological tissue paraffin embedding bottom die. The utility model provides a biological tissue paraffin embedding die block and full-automatic biological tissue processor can once only handle a large amount of biological tissues, and efficient, error rate are low.

Description

Biological tissue paraffin embedding bottom die and full-automatic biological tissue processor

Technical Field

The utility model relates to a biological tissue treatment facility, especially a biological tissue paraffin embedding die block and full-automatic biological tissue processor.

Background

Biological tissue processing is a common procedure in pathological examinations. In the prior art, biological tissues of different patients are usually placed in independent embedding boxes, and after labeling, fixation, dehydration, transparence, wax immersion and paraffin embedding are firstly carried out. During processing such as dehydration, put into the dehydration hanging flower basket with a plurality of embedding boxes, have a holding chamber on the current dehydration hanging flower basket, each embedding box is placed in the dehydration hanging flower basket in a jumble, and the biological tissue position in the embedding box probably changes, even takes place the deformation of biological tissue piece, influences the embedding operation. In addition, when embedding, the tissue is taken out of a single embedding box and then put into a single bottom die, and the embedding machine is used for dropping wax to embed, so that when a large amount of biological tissues are processed, the operation process is complex and tedious, only one tissue can be embedded at a time, the efficiency is low, and mistakes are easy to make.

SUMMERY OF THE UTILITY MODEL

The invention of the utility model aims to: aiming at the problems of complex and fussy operation process, low efficiency and easy error when a large amount of biological tissues are processed in the prior art, the paraffin embedding bottom die for the biological tissues and the full-automatic biological tissue processor are provided.

In order to realize the purpose, the utility model discloses a technical scheme be:

a biological tissue paraffin embedding bottom die comprises at least two die cavities, wherein the at least two die cavities are fixedly connected; the die cavity comprises a bottom die upper bottom, a bottom die wall and a bottom die lower bottom which are arranged in a step structure, the bottom die upper bottom is connected with the bottom die lower bottom through the bottom die wall, and in the die cavity, the depth of the bottom die lower bottom is larger than that of the bottom die upper bottom.

The utility model provides a be equipped with two at least fixed die cavities that link to each other on the biological tissue paraffin embedding die block, when using, put into different die cavities with different biological tissue, then carry out the embedding with the whole paraffin that immerses of biological tissue paraffin embedding die block, can embed a large amount of biological tissues simultaneously, it is efficient. The method can be carried out only by immersing the biological tissue paraffin embedding bottom die into liquid paraffin, a special embedding machine is not needed, the cost is greatly saved, the complexity can be avoided, the simplification can be realized, and the error is effectively avoided.

As the preferred scheme of the utility model, be equipped with die string post hole and two at least die block fixed orificess. The bottom die string column hole and the bottom die fixing hole can be used for fixing and lifting the biological tissue paraffin embedding bottom die, so that the operation is convenient.

As the preferred scheme of the utility model, the string post hole is the quad slit. The string post hole sets up to the quad slit, when string post hole is connected with the string post of adaptation, can avoid biological tissue die block to take place to rotate around string post.

The full-automatic biological tissue processor comprises a box body, a driving piece, a transmission assembly, a control assembly, a hydraulic cylinder, a connecting piece and the biological tissue paraffin embedding bottom die; the liquid cylinder is arranged in the box body, the driving assembly is connected with the connecting piece through the transmission assembly, the control assembly is used for controlling the driving assembly to run or stop, and the connecting piece is detachably connected with the biological tissue paraffin embedding bottom die; the number of the hydraulic cylinders is multiple. The utility model provides a full-automatic biological tissue processor drives biological tissue embedding box and embedding die block through the connecting piece and removes, can handle simultaneously a large amount of biological tissues on biological tissue embedding box and the embedding die block. The control assembly controls the starting and stopping of the driving piece, so that the full-automatic treatment of the biological tissue is realized, and the manpower is saved.

As the preferred scheme of the utility model, a plurality of hydraulic cylinders are arranged in a matrix in the box body; the driving assembly comprises a first driving piece, a second driving piece and a third driving piece, the first driving piece is used for driving the connecting piece to move in a first direction, the second driving piece is used for driving the connecting piece to move in a second direction, the third driving piece is used for driving the connecting piece to move in a third direction, and the first direction, the second direction and the third direction are mutually perpendicular in pairs.

As the preferred scheme of the utility model, the transmission component comprises a first-stage transmission part, a second-stage transmission part and a third-stage transmission part; the first driving piece is connected with the first-stage transmission piece, and the first-stage transmission piece is used for driving the second-stage transmission piece, the third-stage transmission piece and the connecting piece to move in the first direction; the second driving piece is connected with the second-stage transmission piece, and the second-stage transmission piece is used for driving the third-stage transmission piece and the connecting piece to move in a second direction; the third driving piece is connected with a third-stage transmission piece, and the third-stage transmission piece is used for driving the connecting piece to move in a third direction.

As the utility model discloses a preferred scheme, the liquid jar includes the paraffin jar, and the diapire of paraffin jar is equipped with the heating member. Through above-mentioned structure, set up the heating member bottom paraffin cylinder, be used for holding paraffin in the paraffin cylinder, make paraffin keep about 65 ℃ through the heating member to make paraffin keep liquid, during the use, with biological tissue dip paraffin cylinder in, can realize the embedding, easy operation.

As the utility model discloses a preferred scheme, the hydraulic cylinder is equipped with the refrigeration piece including the refrigeration jar in the refrigeration jar. The refrigeration piece keeps the temperature in the refrigeration cylinder between 0 ℃ and 2 ℃, so that the paraffin on the biological tissue soaked in the paraffin can be quickly solidified in the refrigeration cylinder, and the shaping is realized.

As the preferred scheme of the utility model, the lateral wall of wax jar and refrigeration jar is equipped with the insulating layer. The heat between the adjacent wax cylinder and the refrigeration cylinder is prevented from being mutually transferred to influence the use. Further, the heat insulation layer is made of porous materials, such as sponge, foamed plastic and the like.

As the preferred scheme of the utility model, still include the running gear, the running gear includes the gyro wheel, and the running gear links to each other with the box.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model provides a biological tissue paraffin embedding die block can once only embed a large amount of biological tissues simultaneously, and is efficient. The process can be carried out only by immersing the biological tissue paraffin embedding bottom die into liquid paraffin, a special embedding machine is not needed, and the cost is greatly saved, so that the process can be avoided, simplified and errors can be effectively avoided;

2. the utility model provides a full-automatic biological tissue processor can carry out simultaneous processing to a large amount of biological tissues simultaneously, and the treatment effeciency is high, sets up the kind of liquid in the hydraulic cylinder according to the user demand to can carry out biological tissue's embedding processing or dehydration embedding processing.

Drawings

Fig. 1 is a schematic structural view of a biological tissue paraffin-embedded bottom mold provided in embodiment 1 of the present invention.

Fig. 2 is a partial cross-sectional view of a biological tissue paraffin-embedded bottom mold according to example 1 of the present invention.

Fig. 3 is a schematic structural diagram of a string column adapted to a bottom mold for embedding paraffin in biological tissue according to embodiment 1 of the present invention.

Fig. 4 is a schematic structural diagram of a fully automatic biological tissue processor according to embodiment 2 of the present invention.

Fig. 5 is a schematic view of the internal structure of a fully automatic biological tissue processor according to embodiment 2 of the present invention.

Fig. 6 is a schematic view of the operation principle of the driving assembly and the transmission assembly of the fully automatic biological tissue processor provided in embodiment 2 of the present invention.

Fig. 7 is a schematic view of the internal structure of a fully automatic biological tissue processor according to embodiment 3 of the present invention.

Fig. 8 is a schematic view of the internal structure of a fully automatic biological tissue processor according to embodiment 3 of the present invention.

Fig. 9 is a schematic view of the operation principle of the driving assembly and the transmission assembly of the fully automatic biological tissue processor provided in embodiment 3 of the present invention.

Fig. 10(a) is a first part of a wiring diagram of the control unit of the present invention.

Fig. 10(b) is a second part of the wiring diagram of the control module of the present invention.

Fig. 10(c) is a third portion of the wiring diagram of the control assembly of the present invention.

Icon: 1-a box body; 12-a box cover; 2-a walking component; 21-universal wheels; 3-a drive assembly; 4-a transmission assembly; 31-a first drive member; 32-a second drive member; 33-a third drive member; 41-first stage transmission member; 42-a second stage transmission; 43-a third stage transmission; 411-a first gear; 412-a first rack; 421-a second gear; 422-second rack; 431-a third gear; 432-a third rack; 6-a hydraulic cylinder; 61-wax dissolving tank; 62-a refrigeration cylinder; 612-a heating element; 622-refrigeration piece; 7-hanging columns; 5-biological tissue paraffin embedding bottom die; 51-a die cavity; 53-string of post holes; 52-a fixation hole; 511-bottom die upper bottom; 513-bottom die lower bottom; 512-bottom mold wall; 8-string of columns; 81-second connection hole; 82-stop.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Example 1

Please refer to fig. 1-3. The embodiment of the utility model provides a biological tissue paraffin embedding die block 5. The biological tissue paraffin embedding base mold 5 comprises a plurality of mold cavities 51, and the plurality of mold cavities 51 are fixedly connected. The plurality of cavities 51 are arranged in a matrix. The biological tissue paraffin embedding bottom die 5 is provided with a string column hole 53 and a fixing hole 52. Further, the string post hole 53 is formed in the center of the embedding bottom mold, and the plurality of mold cavities 51 are symmetrically arranged with respect to the axis where the string post hole 53 is formed.

The biological tissue paraffin embedding bottom die 5 is of a rectangular structure, the number of the fixing holes 52 is four, and the four fixing holes 52 are respectively arranged at four corners of the biological tissue paraffin embedding bottom die 5.

The die cavity 51 is a groove structure. The mold cavity 51 is provided with a bottom mold upper bottom 511, a bottom mold wall 512 and a bottom mold lower bottom 513 which are arranged in a step structure. The upper bottom of the bottom mold 511 is connected to the lower bottom of the bottom mold 513 by bottom mold walls 512, and the depth of the lower bottom of the bottom mold 513 is greater than the depth of the upper bottom of the bottom mold 511 in the mold cavity 51.

The utility model provides a biological tissue paraffin embedding die block 5's theory of operation lies in:

during the use, will be through fixed, the dehydration, it is transparent, the biological tissue that the wax immersion was handled is put into respectively each die cavity 51, then cover traditional plastics embedding box in die cavity 51, then through penetrating string post 8 in string post hole 53, penetrate the fixed column in fixed orifices 52, can bunch simultaneously and go into a plurality of biological tissue paraffin embedding die blocks 5 on string post 8 and fixed column, then with biological tissue paraffin embedding die block 5 dip in liquid paraffin, mention biological tissue paraffin embedding die block 5 again, cool off, treat that paraffin solidifies the back, accomplish the embedding of biological tissue promptly.

The embodiment of the utility model provides a biological tissue paraffin embedding die block 5's beneficial effect lies in:

1. a large amount of biological tissue paraffin embedding bottom moulds 5 can be simultaneously embedded at one time, and the efficiency is high;

2. the biological tissue paraffin embedding bottom die 5 can be carried out only by immersing the biological tissue paraffin embedding bottom die into liquid paraffin, a special embedding machine is not needed, and the cost is greatly saved;

3. during embedding, the procedure process is simplified and simplified, so that errors can be effectively avoided.

Example 2

Please refer to fig. 4-6. The embodiment of the utility model provides a full-automatic biological tissue processor, it is specific, provide a full-automatic biological tissue embedding machine. The full-automatic biological tissue embedding machine comprises a box body 1, a driving component 3, a transmission component 4, a control component, a wax dissolving cylinder 61, a refrigerating cylinder 62, a connecting piece, a walking component 2 and a biological tissue paraffin embedding bottom die 5 in the embodiment 1.

A box cover 12 is arranged on the box body 1, and the box body 1 forms a closed structure after the box cover 12 is closed. The box body 1 is provided with a refrigeration cylinder 62 and a wax dissolving cylinder 61.

The number of the wax dissolving cylinders 61 is one, and the number of the refrigerating cylinders 62 is one. The wax melting cylinder 61 and the refrigerating cylinder 62 are arranged adjacent to each other in a straight direction.

The bottom of the wax melting cylinder 61 is provided with a heating element 612, and specifically, the heating element 612 is provided with a resistance wire. The cooling cylinder 62 is provided with a cooling member 622 therein. Further, the side walls of the wax dissolving cylinder 61 and the refrigeration cylinder 62 are provided with heat insulation layers, and the heat insulation layers are made of porous materials, such as: sponges, foamed plastics, and the like.

The driving assembly 3 comprises a first driving member 31 and a second driving member 32, the first driving member 31 is used for driving the connecting member to move in the height direction of the box body 1, and the second driving member 32 is used for driving the connecting member to move in the arrangement direction of the wax dissolving cylinder 61 and the refrigeration cylinder 62.

The transmission assembly 4 comprises a first transmission 41 and a second transmission 42. The first stage transmission member 41 is disposed along the height direction of the case 1, and the first driving member 31 is connected to the first stage transmission member 41. Specifically, the first-stage transmission member 41 is a gear-rack transmission structure, and the first driving member 31 is used for driving the first gear 411 to rotate. The first rack 412 is arranged in the height direction of the case 1. The second-stage transmission member 42 and the second driving member 32 are connected to the first rack 412, so that the first rack 412 can drive the second-stage transmission member 42 and the second driving member 32 to integrally move.

The second stage transmission 42 comprises a rack and pinion arrangement. The second driving member 32 is used for driving the second gear 421 to rotate, the second gear 421 is engaged with the second rack 422, and the second rack 422 is connected to the connecting member, so that the second rack 422 can drive the connecting member to move.

The connecting piece includes davit 7, and 7 one end of davit are fixed continuous with second rack 422, and 7 other ends of davit are used for linking to each other with biological tissue paraffin embedding die block 5 detachably.

The control assembly is connected with the first driving member 31 and the second driving member 32 and is used for controlling the start and stop of the first driving member 31 and the second driving member 32 so as to drive the connecting member to move between the wax dissolving cylinder 61 and the refrigerating cylinder 62.

The walking assembly 2 comprises four universal wheels 21, and the four universal wheels 21 are arranged below the box body 1.

The embodiment of the utility model provides a full-automatic biological tissue processor can be used for realizing the full-automatic embedding of biological tissue, and its theory of operation lies in:

the temperature of the wax dissolving cylinder 61 is kept at about 65 ℃, and the temperature of the refrigerating cylinder 62 is kept between 0 ℃ and 2 ℃. Paraffin wax is charged into the wax dissolving cylinder 61. Connecting the biological tissue paraffin embedding bottom die 5 filled with the biological tissue to the suspension posts 7, then driving the connecting piece to move by the first driving piece 31 and the second driving piece 32 under the action of the control assembly, firstly placing the biological tissue paraffin embedding bottom die 5 provided with the biological tissue above the paraffin dissolving cylinder 61, starting the first driving piece 31 to enable the connecting piece to move along the vertical direction of the box body 1, immersing the biological tissue paraffin embedding bottom die 5 into paraffin liquid in the paraffin dissolving cylinder 61, then the first driving part 31 is started again, the biological tissue paraffin embedding bottom die 5 is lifted to the initial height, the second driving part 32 is started, the biological tissue paraffin embedding bottom die 5 is moved to the position above the refrigerating cylinder 62 in a translation mode, the first driving part 31 is started again, the biological tissue paraffin embedding bottom die 5 is placed into the refrigerating cylinder 62 to be refrigerated, and after paraffin is solidified, biological tissue embedding processing is completed.

Example 3

Please refer to fig. 7-10. The embodiment provides a full-automatic biological tissue processor, in particular to a full-automatic biological tissue dehydration and embedding machine, which comprises a box body 1, a driving component 3, a transmission component 4, a control component, a hydraulic cylinder 6, a connecting piece, a walking component 2 and a biological tissue paraffin embedding bottom die 5 in the embodiment 1.

A box cover 12 is arranged on the box body 1, and the box body 1 forms a closed structure after the box cover 12 is closed. A plurality of hydraulic cylinders 6 are arranged in the box body 1, and specifically, the hydraulic cylinders 6 comprise a fixed treatment cylinder, a dehydration treatment cylinder, a transparent treatment cylinder, a wax dipping treatment cylinder, a paraffin cylinder, a refrigeration cylinder 62 and a wax dissolving cylinder 61. Further, the number of the hydraulic cylinders 6 is fourteen in total. Various liquids required by the fixing, dehydrating, transparentizing and wax-dipping treatment are sequentially placed in each fixing treatment cylinder, dehydrating treatment cylinder, transparentizing treatment cylinder and wax-dipping treatment cylinder. The number of the paraffin cylinders is two, the number of the paraffin dissolving cylinder 61 is one, and the number of the refrigerating cylinder 62 is one. The paraffin cylinder, the wax dissolving cylinder 61 and the refrigerating cylinder 62 are sequentially arranged adjacently in a straight line direction.

Fourteen hydraulic cylinders 6 are arranged in two rows, and seven hydraulic cylinders 6 are arranged in each row.

The bottom of the paraffin cylinder and the wax dissolving cylinder 61 is provided with a heating element 612, and concretely, the heating element 612 is provided with a resistance wire. The cooling cylinder 62 is provided with a cooling member 622 therein. Further, the side walls of the paraffin cylinder, the wax dissolving cylinder 61 and the refrigerating cylinder 62 are provided with heat insulation layers, and the heat insulation layers are made of porous materials, such as: sponges, foamed plastics, and the like.

The driving assembly 3 includes a first driving member 31, a second driving member 32 and a third driving member 33, the first driving member 31 is used for driving the connecting member to move in a first direction, the second driving member 32 is used for driving the connecting member to move in a second direction, and the third driving member 33 is used for driving the connecting member to move in a third direction. Specifically, the first direction is the height direction of the box body 1, the second direction is the extending direction of each row of hydraulic cylinders 6, and the third direction is the arrangement direction of two rows of hydraulic cylinders 6. The first direction, the second direction and the third direction are mutually vertical in pairs.

The transmission assembly 4 comprises a first transmission 41, a second transmission 42 and a third transmission 43. The first stage transmission member 41 is disposed in the first direction, the second stage transmission member 42 is disposed in the second direction, and the third stage transmission member 43 is disposed in the third direction.

Specifically, the first stage transmission member 41 is disposed along the height direction of the case 1, and the first driving member 31 is connected to the first stage transmission member 41. Specifically, the first-stage transmission member 41 is a gear-rack transmission structure, and the first driving member 31 is used for driving the first gear 411 to rotate. The first rack 412 is arranged in the height direction of the case 1. The second-stage transmission member 42, the second driving member 32, the third-stage transmission member 43, and the third driving member 33 are connected to the first rack 412, so that the first rack 412 can drive the second-stage transmission member 42, the second driving member 32, the third-stage transmission member 43, and the third driving member 33 to integrally move.

The second stage transmission member 42 includes a rack and pinion structure, the second driving member 32 is used for driving the second gear 421 to rotate, the second gear 421 is meshed with the second rack 422, and the second rack 422 is connected with the third stage transmission member 43 and the third driving member 33, so that the second rack 422 can drive the third stage transmission member 43 and the third driving member 33 to integrally move in the second direction.

The third stage transmission member 43 includes a rack and pinion structure, the third driving member 33 is used for driving the third gear 431 to rotate, the third gear 431 is meshed with the third rack 432, and the third rack 432 is connected with the connecting member, so that the third rack 432 can drive the connecting member to move in the third direction.

The connecting piece includes davit 7, and davit 7 one end links to each other with the rack of second grade driving medium 42 is fixed, and the davit 7 other end is used for linking to each other with biological tissue paraffin embedding die block 5 detachably. Specifically, be equipped with first connecting hole on the davit 7, pass the cluster post hole 53 on the biological tissue paraffin embedding die block 5 through cluster post 8, be connected to one or more biological tissue paraffin embedding die blocks 5 together, then it is fixed through the fixed column, and cluster post 8 upper end is provided with second connecting hole 81, and cluster post 8 lower extreme sets up dog 82 for support biological tissue paraffin embedding die block 5. The detachable connection of the hanging post 7 and the biological tissue paraffin-embedded bottom mold 5 can be realized by connecting the first connecting hole and the second connecting hole 81 together.

Further, the first driving member 31, the second driving member 32, and the third driving member 33 are provided as motors.

The control assembly is connected with the first driving member 31, the second driving member 32 and the third driving member 33, and is used for controlling the start and stop of the first driving member 31, the second driving member 32 and the third driving member 33, so as to drive the connecting member to move among the hydraulic cylinders 6. Fig. 10 shows a schematic diagram of a control assembly that can be used to implement the desired functionality of the present embodiment.

The walking assembly 2 comprises four universal wheels 21, and the four universal wheels 21 are arranged below the box body 1.

The embodiment of the utility model provides a full-automatic biological tissue dehydration embedding machine can be used for realizing full-automatic fixed, dehydration, transparent, the wax dipping and the embedding of biological tissue, and its theory of operation lies in:

the temperature of the paraffin cylinder and the wax dissolving cylinder 61 is kept at about 65 ℃, and the temperature in the refrigeration cylinder 62 is kept between 0 ℃ and 2 ℃. Paraffin is filled in the paraffin cylinder and the paraffin dissolving cylinder 61, and various liquids required by fixing, dehydrating, transparentizing and wax soaking treatment are sequentially filled in the other fixing treatment cylinder, dehydrating treatment cylinder, transparentizing treatment cylinder and wax soaking treatment cylinder. The dewatering basket with the biological tissue is attached to the suspension posts 7 and the first 31, second 32 and third 33 drive members move the attachment members under the action of the control assembly. Firstly, the dehydration basket provided with biological tissues is placed above the fixed treatment cylinder, the first driving piece 31 is started to enable the connecting piece to move along the up-and-down direction of the box body 1, the dehydration basket is immersed into the liquid cylinder 6 (namely the fixed treatment cylinder) and stays for a set time, the first drive 31 is then activated again, the dewatering basket is lifted to the initial height, the second drive 32 is activated, the dewatering basket is translated over the next vat 6, the first drive 31 is again activated, the above steps are repeated in a circulating way until the last cylinder in the row is processed, the dewatering basket is lifted to the initial height, then the dewatering basket is translated to the next row of hydraulic cylinders 6 under the drive of the third driving piece 33, and (4) continuing to perform corresponding treatment in the next row of cylinder bodies until the fixation, dehydration, transparence and wax impregnation treatment work is completed, and at the moment, stopping the dehydration basket in the last paraffin cylinder to wait for manual key operation.

Before embedding, the dehydration basket is manually taken down from the suspension posts 7, the dehydration basket and biological tissues in the dehydration basket are transferred to the corresponding biological tissue paraffin embedding bottom die 5 together, and the biological tissue paraffin embedding bottom die 5 is connected to the suspension posts 7. And the first driving part 31 and the second driving part 32 are started again, so that the biological tissue paraffin embedding bottom die 5 is immersed in the paraffin cylinder for a set residence time, then the biological tissue paraffin embedding bottom die 5 is automatically transferred to the refrigerating cylinder 62 for refrigeration, and after paraffin is condensed, the biological tissue embedding is completed.

The utility model provides a full-automatic biological tissue processor's beneficial effect lies in:

the utility model provides a full-automatic biological tissue embedding machine can carry out automatic embedding simultaneously to a large amount of biological tissues simultaneously, and the treatment effeciency is high, and full-automatic biological tissue embedding machine not only can carry out processing such as full-automatic dehydration to biological tissue, can also full-automatic embedding, makes both mutually as an organic whole, and capacious, has improved work efficiency greatly to can avoid the mistake.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The biological tissue paraffin embedding bottom die is characterized by comprising at least two die cavities, wherein the at least two die cavities are fixedly connected;

the die cavity is gone to bottom including the die block upper base, end mould wall and the die block that is the stair structure setting, the die block upper base with the die block is gone to the bottom and is passed through end mould wall links to each other in the die cavity, the degree of depth that the die block was gone to the bottom is greater than the degree of depth of die block upper base.

2. The biological tissue paraffin-embedded bottom die according to claim 1, wherein a bottom die string hole and at least two bottom die fixing holes are provided.

3. The biological tissue paraffin-embedded bottom die of claim 2, wherein the string-column hole is a square hole.

4. A full-automatic biological tissue processor is characterized by comprising a box body, a driving component, a transmission component, a control component, a hydraulic cylinder, a connecting piece and a biological tissue paraffin embedding bottom die as claimed in any one of claims 1 to 3;

the hydraulic cylinder is arranged in the box body, the driving assembly is connected with the connecting piece through the transmission assembly, the control assembly is used for controlling the driving assembly to run or stop, and the connecting piece is detachably connected with the biological tissue paraffin embedding bottom die;

the number of the hydraulic cylinders is multiple.

5. The fully automated biological tissue processor of claim 4, wherein a plurality of the hydraulic cylinders are arranged in a matrix within the housing;

the driving assembly comprises a first driving piece, a second driving piece and a third driving piece, the first driving piece is used for driving the connecting piece to move in a first direction, the second driving piece is used for driving the connecting piece to move in a second direction, the third driving piece is used for driving the connecting piece to move in a third direction, and the first direction, the second direction and the third direction are mutually perpendicular in pairs.

6. The fully automated biological tissue processor of claim 5, wherein the drive assembly includes a primary drive, a secondary drive, and a tertiary drive;

the first driving piece is connected with the first-stage transmission piece, and the first-stage transmission piece is used for driving the second-stage transmission piece, the third-stage transmission piece and the connecting piece to move in a first direction;

the second driving piece is connected with the second-stage transmission piece, and the second-stage transmission piece is used for driving the third-stage transmission piece and the connecting piece to move in a second direction;

the third driving piece is connected with the third-stage transmission piece, and the third-stage transmission piece is used for driving the connecting piece to move in a third direction.

7. The automatic biological tissue processor of claim 5, wherein the fluid cylinder comprises a paraffin cylinder, and a heating element is disposed on a bottom wall of the paraffin cylinder.

8. The fully automated biological tissue processor of claim 7, wherein the fluid cylinder comprises a refrigeration cylinder having a refrigeration disposed therein.

9. The fully automated biological tissue processor of claim 8, wherein the side walls of the paraffin cylinder and the refrigeration cylinder are provided with a thermal insulation layer.

10. The automated biological tissue processor of claim 5, further comprising a walking assembly, the walking assembly comprising rollers, the walking assembly coupled to the housing.

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