CN110308029A - A kind of cell section equipment and dicing method - Google Patents

Abstract

The invention discloses a kind of cell section equipment and dicing methods, including main box, power cavity is equipped in the main box left wall, power mechanism is equipped in the power cavity, it is symmetrical above and below in the power cavity right wall to be equipped with drive cavity, transmission mechanism is equipped in the drive cavity, the power mechanism and the transmission mechanism are rotatablely connected, and then the power mechanism can provide transmission mechanism described in power drive, apparatus of the present invention are easy to operate, it is easy to use, automatically cell sample can be cut, avoid the phenomenon of the unevenness of slice thickness caused by traditional artificial cutting, the buckling phenomenon of cell section can be effectively avoided to occur simultaneously, improve the success rate of the production of cell section, cost of manufacture and the time of cell section are greatly saved, greatly improve conventional efficient.

Description

A kind of cell section equipment and dicing method

Technical field

The present invention relates to cell section field, specifically a kind of cell section equipment and dicing method.

Background technique

Cell section is that traditional experiment personnel are frequently necessary to the experiment link carried out, but traditional experiment equipment, greatly It needs manual drive machine to run more, therefore is easy to keep cell section cutting uneven, while the cell section scaled off, cutting at a high speed It cuts off and is easy to produce buckling phenomenon, will lead to cell section in this way and be not available, therefore needing to develop one kind can be automatically to cell Sample is uniformly cut, and the cell section device that can effectively avoid cell section buckling phenomenon from occurring.

Summary of the invention

Technical problem to be solved by the invention is to provide a kind of cell section equipment and dicing methods, are able to solve State the problems in present technology.

The present invention is achieved through the following technical solutions: a kind of cell section equipment of the invention and dicing method, Including including main box, it is equipped with power cavity in the main box left wall, is equipped with power mechanism, the power cavity in the power cavity It is symmetrical above and below in right wall to be equipped with drive cavity, transmission mechanism, the power mechanism and the driver are equipped in the drive cavity Structure rotation connection, and then the power mechanism can drive the transmission mechanism, be equipped with control in the drive cavity upper wall of upside Chamber, the control chamber is interior to be equipped with the control mechanism, and the control mechanism and the transmission mechanism are rotatablely connected, and then the biography Motivation structure can impart power to the control mechanism, can slide up and down on the right side of the control chamber equipped with fixator, described solid Determine device and be fixed on the control mechanism, and then the transmission mechanism drives the control mechanism, and then can drive the fixator It slides up and down, the second power cavity is equipped in the fixator left wall, the second power mechanism is equipped in second power cavity, it is described Fixator right end is equipped with clamp system, and second power mechanism and the clamp system are connected, and then second engine Structure can drive the clamp system to horizontally slip, and the cell that the clamp system clamping can be sliced freezes sample, under The drive cavity right end of side is equipped with slidable, the transmission mechanism and cutter frame mechanism rotation connection, and then the biography Motivation structure can drive the cutter frame mechanism to horizontally slip, the interior knife rest displacement chamber set there are two opening upwards, the knife rest Mechanism can freeze sample to cell and be sliced.

Further technical solution, the power mechanism include the main electricity being fixedly arranged at left and right sides of the power cavity in wall Machine is connected by power equipped with main shaft on the main motor, and the main shaft upper and lower ends are symmetrically arranged with first pulley, described The first belt is connected in first pulley, first belt and the transmission mechanism are rotatablely connected, when the starting main electricity Machine, the main motor drives first belt to rotate by the main shaft and the first pulley, and then can drive institute State transmission mechanism rotation.

Further technical solution, the transmission mechanism include the first transmission being rotatably set in the drive cavity Axis is installed with the second belt wheel on first transmission shaft, and second belt wheel is connect with the first belt right end, and described first Transmission shaft is equipped with far from second belt wheel side can be rotated and slidable hollow shaft, the hollow shaft by spline with it is described First transmission axis connection, the hollow shaft outer wall are equipped with slidable magnetic slider, and the magnetic slider is close to described second Belt wheel one end is installed with spring, and the spring is installed with electromagnet close to second belt wheel one end, and the hollow shaft is far from institute It states second belt wheel one end and is installed with the first drive bevel gear, the engagement of first drive bevel gear rear end is connected with the second transmission Bevel gear, second drive bevel gear axle center are installed with second driving shaft, and the second driving shaft is rotatably set to described Before and after drive cavity on inner wall, third belt wheel is installed on the second driving shaft, positioned at upside the third belt wheel with it is described Control mechanism rotation connection, is rotatablely connected positioned at the third belt wheel of downside and the cutter frame mechanism, passes through first skin Band drives the second belt wheel rotation, and second belt wheel drives the first transmission shaft rotation, and first transmission shaft drives The hollow shaft and first drive bevel gear rotation, are at this time powered to the electromagnet, the electromagnet passes through the bullet Spring and the magnetic slider drive the hollow shaft upward sliding, and the hollow shaft drives first drive bevel gear to separate One Slideslip of main motor, so that first drive bevel gear is engaged with second drive bevel gear, described One drive bevel gear drives second drive bevel gear to rotate in turn, and second drive bevel gear drives second transmission Axis rotation, the second driving shaft drives the third belt wheel rotation, and then the third belt wheel of upside can drive the control The third belt wheel of mechanism processed, downside can drive the cutter frame mechanism.

Further technical solution, the control mechanism include the first control being rotatably set in the control chamber Axis is installed with the second belt wheel in first control shaft, the second belt, second belt is connected on second belt wheel Lower end is connect with the third belt wheel, and second belt wheel rear end is equipped with control gear, and the control gear is fixedly arranged on described the In one control shaft, the control gear right end engagement is connected with control rack gear, and the control rack gear and the fixator are connected, When the third belt wheel drives the second belt wheel rotation by second belt, second belt wheel drives first control Axis rotation processed, first control shaft drive the control rack gear to slide up and down by the control gear, the control rack gear And then the fixator can be driven to slide up and down.

Further technical solution, second power mechanism include the pair electricity being fixedly arranged in the second power cavity left wall Machine, the auxiliary-motor right end, which is connected by power, is equipped with secondary line shaft, and the pair line shaft right end, which is equipped with, can be rotated and slidable spiral shell Line hollow shaft, for the thread hollow axis by spline and the secondary power axis connection, the thread hollow axis outside wall surface is equipped with the One fixture nut, first fixture nut are connected through a screw thread with the thread hollow axis, and the thread hollow axis right end is solid Equipped with clamp system, start the auxiliary-motor, the auxiliary-motor drives the secondary line shaft rotation, and the pair line shaft drives institute The rotation of thread hollow axis is stated, the thread hollow axis can be horizontally slipped in turn by first fixture nut, and then can make institute It states clamp system to horizontally slip, adjusts cutting position.

Further technical solution, the cutter frame mechanism include that the knife rest being rotatably set in the knife rest displacement chamber passes Moving axis, the knife rest transmission shaft are equipped with knife rest belt wheel, are connected with third belt, the third belt on the knife rest belt wheel Left end is connect with the third belt wheel, and knife rest control gear is installed on the knife rest transmission shaft, and the knife rest controls gear position In knife rest belt wheel rear end, knife rest control gear upper end engagement is connected with knife rest, and the knife rest left end is equipped with knife rest Fixator drives the third belt to rotate by the third belt wheel, and the third belt drives the knife rest belt wheel and institute The rotation of knife rest transmission shaft is stated, the knife rest transmission shaft passes through the knife rest control gear in turn and drives the knife rest and the knife rest Fixator horizontally slips, and rotatable adjusting screw is equipped in the knife rest fixator, and the adjusting screw right end passes through screw thread Connection is installed with the second fixture nut, second fixture nut is rotatably set in the knife rest in the adjusting screw In in the knife rest fixator, cushion is folded between the knife rest fixator and the knife rest, the cushion is equipped with Blade, the blade is for cutting cell frost sample, and when rotating the adjusting screw, the adjusting screw passes through described second Fixture nut drives the knife rest fixator to one Slideslip of knife rest, and then can clamp the cushion and the blade, For cutting cell frost sample.

1. further technical solution, the clamp system includes being fixedly arranged on the sample of the thread hollow axis right end to fix Device, the top sample holder are installed with briquetting pedestal, and the briquetting pedestal is equipped with rotatable briquetting axis, the briquetting Briquetting extension rod is installed on axis, briquetting extension rod lower end is installed with briquetting, and then when cutting processing, and the sample is solid When determining device and beginning to decline cutting, the briquetting can flatten the cell section cut on the platform of the knife rest, avoid Bending phenomenon occurs for cell section, and the sample holder bottom end is rotatably equipped with the second adjusting screw, and described second is adjusted Clamping bar slidably and is symmetrically equipped on screw, the clamping bar left end is symmetrically equipped with connecting rod, and the connecting rod passes through first Positioning pin is articulated on the clamping bar, hinged by the second positioning pin between the connecting rod, adjusts spiral shell when rotating described second Silk, second adjusting screw can drive the clamping bar to clamp cell sample in turn, be convenient for machining.

The beneficial effects of the present invention are: present apparatus structure is simple, and it is easy to operate, automatically cell sample can be cut It cuts, avoids the phenomenon of the unevenness of slice thickness caused by traditional artificial cutting, while can effectively avoid the curved of cell section Qu Xianxiang occurs, and improves the success rate of the production of cell section, has greatly saved cost of manufacture and the time of cell section, greatly Conventional efficient is improved greatly.

Detailed description of the invention

Fig. 1 is the schematic diagram of internal structure of a kind of cell section equipment of the invention and dicing method；

Fig. 2 is the enlarged diagram of " A " in Fig. 1；

Fig. 3 is the enlarged diagram of " B " in Fig. 1.

Specific embodiment

Below with reference to Fig. 1-3, the present invention is described in detail, wherein for sake of convenience, now to hereafter described orientation Provide as follows: hereafter described front-rear direction up and down is consistent with the direction upper and lower all around of Fig. 1 view direction, Fig. 1 For the front view of apparatus of the present invention, direction shown in Fig. 1 is consistent with the up and down direction all around of the positive apparent direction of apparatus of the present invention.

Referring to Fig.1-3, a kind of cell section equipment according to the present invention and dicing method, including main box 11, the master It is equipped with power cavity 100 in 11 left wall of cabinet, is equipped with power mechanism 101 in the power cavity 100, in 100 right wall of power cavity It is symmetrical above and below to be equipped with drive cavity 200, be equipped with transmission mechanism 201 in the drive cavity 200, the power mechanism 101 with it is described Transmission mechanism 201 is rotatablely connected, and then the power mechanism 101 can drive the transmission mechanism 201, the drive cavity of upside It is equipped with control chamber 300 in 200 upper walls, is equipped with the control mechanism 301, the control mechanism 301 and institute in the control chamber 300 The rotation connection of transmission mechanism 201 is stated, and then the transmission mechanism 201 can impart power to the control mechanism 301, the control It is can slide up and down on the right side of chamber 300 processed equipped with fixator 22, the fixator 22 is fixed on the control mechanism 301, Jin Ersuo It states transmission mechanism 201 and drives the control mechanism 301, and then the fixator 22 can be driven to slide up and down, the fixator 22 It is equipped with the second power cavity 400 in left wall, the second power mechanism 401 is equipped in second power cavity 400, the fixator 22 is right End is equipped with clamp system 501, and second power mechanism 401 is connected with the clamp system 501, and then second engine Structure 401 can drive the clamp system 501 to horizontally slip, the cell ice that the clamp system 501 clamping can be sliced Freeze sample, 200 right end of the drive cavity of downside is equipped with slidable 601, the transmission mechanism 201 and the cutter frame mechanism 601 rotation connections, and then the transmission mechanism 201 can drive the cutter frame mechanism 601 to horizontally slip, and two are equipped in described 601 The knife rest displacement chamber 600 of a opening upwards, the cutter frame mechanism 601 can freeze sample to cell and be sliced.

Valuably, the power mechanism 101 includes the main motor 12 being fixedly arranged in 100 left and right sides wall of power cavity, It is connected by power on the main motor 12 equipped with main shaft 13,13 upper and lower ends of main shaft are symmetrically arranged with first pulley 14, the first belt 15 is connected in the first pulley 14, first belt 15 connects with the transmission mechanism 201 rotation It connects, when starting the main motor 12, the main motor 12 is driven described by the main shaft 13 and the first pulley 14 The rotation of first belt 15, and then the transmission mechanism 201 can be driven to rotate.

Valuably, the transmission mechanism 201 includes the first transmission shaft 44 being rotatably set in the drive cavity 200, The second belt wheel 45 is installed on first transmission shaft 44, second belt wheel 45 is connect with 15 right end of the first belt, institute It states the first transmission shaft 44 and is equipped with rotatable and slidable hollow shaft 48, the hollow shaft 48 far from 45 side of the second belt wheel It is connect by spline with first transmission shaft 44,48 outer wall of hollow shaft is equipped with slidable magnetic slider 47, described Magnetic slider 47 is installed with spring 52 close to described second belt wheel, 45 one end, and the spring 52 is close to described second belt wheel, 45 one end It is installed with electromagnet 46, the hollow shaft 48 is installed with the first drive bevel gear 49 far from described second belt wheel, 45 one end, described The engagement of first drive bevel gear, 49 rear end is connected with the second drive bevel gear 51, and 51 axle center of the second drive bevel gear is fixed There is second driving shaft 54, the second driving shaft 54 is rotatably set on the 200 front and back inner wall of drive cavity, and described second passes It is installed with third belt wheel 53 on moving axis 54, is rotatablely connected positioned at the third belt wheel 53 of upside and the control mechanism 301, position It is rotatablely connected in the third belt wheel 53 of downside and the cutter frame mechanism 601, drives described the by first belt 15 The rotation of two belt wheels 45, second belt wheel 45 drive first transmission shaft 44 to rotate, and first transmission shaft 44 drives described Hollow shaft 48 and first drive bevel gear 49 rotation, are at this time powered to the electromagnet 46, the electromagnet 46 passes through institute It states spring 52 and the magnetic slider 47 drives 48 upward sliding of hollow shaft, the hollow shaft 48 drives first transmission Bevel gear 49 is to separate 12 1 Slideslip of main motor, so that first drive bevel gear 49 and second transmission Bevel gear 51 engages, and first drive bevel gear 49 drives second drive bevel gear 51 to rotate in turn, and described second passes Dynamic bevel gear 51 drives the second driving shaft 54 to rotate, and the second driving shaft 54 drives the third belt wheel 53 to rotate, into And the third belt wheel 53 of upside can drive the control mechanism 301, the third belt wheel 53 of downside can drive the knife Frame mechanism 601.

Valuably, the control mechanism 301 includes the first control shaft 18 being rotatably set in the control chamber 300, It is installed with the second belt wheel 19 in first control shaft 18, is connected with the second belt 16 on second belt wheel 19, described Two belts, 16 lower end is connect with the third belt wheel 53, and 19 rear end of the second belt wheel is equipped with control gear 17, the control tooth Wheel 17 is fixedly arranged in first control shaft 18, and 17 right end of the control gear engagement is connected with control rack gear 21, the control Rack gear 21 processed is connected with the fixator 22, when the third belt wheel 53 drives second belt wheel by second belt 16 19 rotations, second belt wheel 19 drive first control shaft 18 to rotate, and first control shaft 18 passes through the control tooth Wheel 17 drives the control rack gear 21 to slide up and down, and the control rack gear 21 can drive the fixator 22 to slide up and down in turn.

Valuably, second power mechanism 401 includes the auxiliary-motor being fixedly arranged in 400 left wall of the second power cavity 23,23 right end of auxiliary-motor, which is connected by power, is equipped with secondary line shaft 24, and pair 24 right end of line shaft, which is equipped with, can be rotated and can slide Dynamic thread hollow axis 25, the thread hollow axis 25 are connect by spline with the secondary line shaft 24, the thread hollow axis 25 outside wall surfaces are equipped with the first fixture nut 26, and first fixture nut 26 is connected through a screw thread with the thread hollow axis 25, 25 right end of thread hollow axis is installed with clamp system 501, starts the auxiliary-motor 23, and the auxiliary-motor 23 drives the pair Line shaft 24 rotates, and the pair line shaft 24 drives the thread hollow axis 25 to rotate, and the thread hollow axis 25 can lead in turn It crosses first fixture nut 26 to horizontally slip, and then the clamp system 501 can be made to horizontally slip, adjust cutting position.

Beneficial, the cutter frame mechanism 601 includes the knife rest transmission shaft being rotatably set in the knife rest displacement chamber 600 35, the knife rest transmission shaft 35 is equipped with knife rest belt wheel 34, is connected with third belt 32 on the knife rest belt wheel 34, and described the Three belts, 32 left end is connect with the third belt wheel 53, and knife rest control gear 33 is installed on the knife rest transmission shaft 35, described Knife rest control gear 33 is located at 34 rear end of knife rest belt wheel, and the knife rest control 33 upper end of gear engagement is connected with knife rest 43,43 left end of knife rest is equipped with knife rest fixator 36, drives the third belt 32 to rotate by the third belt wheel 53, institute Stating third belt 32 drives the knife rest belt wheel 34 and the knife rest transmission shaft 35 to rotate, and the knife rest transmission shaft 35 passes through in turn The knife rest control gear 33 drives the knife rest 43 and the knife rest fixator 36 to horizontally slip, in the knife rest fixator 36 Equipped with rotatable adjusting screw 38,38 right end of adjusting screw be connected through a screw thread in the knife rest 43, the adjusting The second fixture nut 39 is installed on screw 38, second fixture nut 39 is rotatably set to the knife rest fixator 36 It is interior, cushion 42 is folded between the knife rest fixator 36 and the knife rest 43, the cushion 42 is equipped with blade 41, institute Blade 41 is stated for cutting cell frost sample, when rotating the adjusting screw 38, the adjusting screw 38 passes through described second Fixture nut 39 drives the knife rest fixator 36 to 43 1 Slideslip of knife rest, and then can clamp the cushion 42 and institute Blade 41 is stated, for cutting cell frost sample.

Valuably, the clamp system 501 includes the sample holder 31 for being fixedly arranged on 25 right end of thread hollow axis, institute It states top sample holder 31 and is installed with briquetting pedestal 55, the briquetting pedestal 55 is equipped with rotatable briquetting axis 27, described Briquetting extension rod 28 is installed on briquetting axis 27,28 lower end of briquetting extension rod is installed with briquetting 29, and then works as cutting processing When, when the sample holder 31 begins to decline cutting, the briquetting 29 can flatten the cell section cut described On the platform of knife rest 43, avoiding cell section, bending phenomenon occurs, and 31 bottom end of sample holder is rotatably equipped with second Adjusting screw 56 slidably and is symmetrically equipped with clamping bar 59,59 left end pair of clamping bar in second adjusting screw 56 What is claimed is equipped with connecting rod 57, and the connecting rod 57 is articulated on the clamping bar 59 by the first positioning pin 61, between the connecting rod 57 Hinged by the second positioning pin 58, when rotating second adjusting screw 56, second adjusting screw 56 can drive institute in turn It states clamping bar 59 and clamps cell sample, be convenient for machining.

It is carried out below in conjunction with use step of the Fig. 1 to Fig. 3 to one of this paper cell section equipment and dicing method detailed It describes in detail bright:

It when needing to process cutting cell sample, is put samples into the clamping bar 59 first, rotates second adjusting screw 56, second adjusting screw 56 can drive the clamping bar 59 to clamp cell sample in turn, while rotate adjusting screw 38, adjust It saves screw 38 and passes through the second fixture nut 39 with movable knife rack fixator 36 to 43 1 Slideslip of knife rest, and then cushion 42 can be clamped With blade 41, at this point, starting main motor 12, main motor 12 passes through main shaft 13 and 15 turns of the first belt of drive of first pulley 14 Dynamic, the first belt 15 drives the rotation of the second belt wheel 45, and the second belt wheel 45 drives the rotation of the first transmission shaft 44,44 band of the first transmission shaft Dynamic hollow shaft 48 and the rotation of the first drive bevel gear 49, are at this time powered to downside electromagnet 46, electromagnet 46 passes through 52 He of spring Magnetic slider 47 drives 48 upward sliding of hollow shaft, and hollow shaft 48 drives the first drive bevel gear 49 to far from 12 side of main motor Sliding, so that the first drive bevel gear 49 is engaged with the second drive bevel gear 51, the first drive bevel gear 49 and then drive The rotation of second drive bevel gear 51, the second drive bevel gear 51 drive second driving shaft 54 to rotate, and second driving shaft 54 drives the The rotation of three belt wheels 53, third belt wheel 53 drive third belt 32 to rotate, and third belt 32 is driven with movable knife rack belt wheel 34 and knife rest Axis 35 rotates, and knife rest transmission shaft 35 is slided by knife rest control gear 33 with movable knife rack 43 and knife rest fixator 36 specified in turn Position, subsequent start-up auxiliary-motor 23, auxiliary-motor 23 drive secondary line shaft 24 to rotate, and secondary line shaft 24 drives 25 turns of thread hollow axis Dynamic, thread hollow axis 25 can be horizontally slipped in turn by the first fixture nut 26, and then clamp system 501 can be made to horizontally slip, Cutting position is adjusted, is powered at this time to upside electromagnet 46, electromagnet 46 drives hollow shaft by spring 52 and magnetic slider 47 48 upward slidings, hollow shaft 48 drives the first drive bevel gear 49 to separate 12 1 Slideslip of main motor, so that first passes Dynamic bevel gear 49 is engaged with the second drive bevel gear 51, the first drive bevel gear 49 and then 51 turns of the second drive bevel gear of drive Dynamic, the second drive bevel gear 51 drives second driving shaft 54 to rotate, and second driving shaft 54 drives third belt wheel 53 to rotate, third band Wheel 53 drives the rotation of the second belt wheel 19 by the second belt 16, and the second belt wheel 19 drives the rotation of the first control shaft 18, the first control Axis 18 drives control rack gear 21 to slide up and down by control gear 17, controls rack gear 21 and then can drive and glides on fixator 22 Dynamic, the fixator 22 can drive the clamp system 501 to slide up and down in turn, start chip.

Beneficial effect is: present apparatus structure is simple, easy to operate, can automatically cut, avoid to cell sample The phenomenon of the unevenness of slice thickness caused by traditional artificial cutting, while the buckling phenomenon of cell section can effectively be avoided to send out It is raw, the success rate of the production of cell section is improved, cost of manufacture and the time of cell section has greatly been saved, has greatly improved Conventional efficient.

Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention It is subject to claims appended hereto.

Claims (7)

1. a kind of cell section equipment and dicing method, including main box, the main box left wall is interior equipped with power cavity, described dynamic Power is intracavitary to be equipped with power mechanism, symmetrical above and below in the power cavity right wall to be equipped with drive cavity, is equipped with transmission in the drive cavity Mechanism, the power mechanism and the transmission mechanism are rotatablely connected, and then the power mechanism can drive the transmission mechanism, on It is equipped with control chamber in the drive cavity upper wall of side, is equipped with the control mechanism, the control mechanism and institute in the control chamber Transmission mechanism rotation connection is stated, and then the transmission mechanism can impart power to the control mechanism, the control chamber right side It can slide up and down and be equipped with fixator, the fixator is fixed on the control mechanism, and then described in transmission mechanism driving Control mechanism, and then the fixator can be driven to slide up and down, is equipped with the second power cavity in the fixator left wall, and described second The second power mechanism is equipped in power cavity, the fixator right end is equipped with clamp system, second power mechanism and the folder Tight mechanism is connected, and then second power mechanism can drive the clamp system to horizontally slip, and the clamp system can be clamping The cell frost sample being sliced, the drive cavity right end of downside are equipped with slidable, the transmission mechanism and institute State cutter frame mechanism rotation connection, and then the transmission mechanism can drive the cutter frame mechanism to horizontally slip, it is described in set there are two The knife rest displacement chamber of opening upwards, the cutter frame mechanism can freeze sample to cell and be sliced.

2. according to claim 1, it is characterised in that: the power mechanism includes being fixedly arranged at left and right sides of the power cavity Main motor in wall is connected by power equipped with main shaft on the main motor, and the main shaft upper and lower ends are symmetrically arranged with One belt wheel is connected with the first belt in the first pulley, and first belt and the transmission mechanism are rotatablely connected, when opening The main motor is moved, the main motor drives first belt to rotate by the main shaft and the first pulley, into And the transmission mechanism can be driven to rotate.

3. according to claim 1, it is characterised in that: the transmission mechanism includes rotatably being set in the drive cavity The first transmission shaft, the second belt wheel is installed on first transmission shaft, second belt wheel and the first belt right end connect It connects, first transmission shaft is equipped with far from second belt wheel side can be rotated and slidable hollow shaft, the hollow shaft are logical Spline and the first transmission axis connection are crossed, the hollow shaft outer wall is equipped with slidable magnetic slider, the magnetic slider It is installed with spring close to second belt wheel one end, the spring is installed with electromagnet close to second belt wheel one end, described Hollow shaft is installed with the first drive bevel gear, the engagement connection of first drive bevel gear rear end far from second belt wheel one end Equipped with the second drive bevel gear, second drive bevel gear axle center is installed with second driving shaft, and the second driving shaft can turn It is dynamic to be set to before and after the drive cavity on inner wall, third belt wheel is installed on the second driving shaft, positioned at described the of upside Three belt wheels and the control mechanism are rotatablely connected, and are rotatablely connected positioned at the third belt wheel of downside and the cutter frame mechanism, are led to It crosses first belt and drives the second belt wheel rotation, second belt wheel drives the first transmission shaft rotation, and described the One transmission shaft drives the hollow shaft and first drive bevel gear rotation, is powered at this time to the electromagnet, the electromagnetism The excessively described spring of Tie Tong and the magnetic slider drive the hollow shaft upward sliding, and the hollow shaft drives first transmission Bevel gear is to separate one Slideslip of main motor, so that first drive bevel gear and second drive bevel gear Engagement, first drive bevel gear drive second drive bevel gear to rotate in turn, and second drive bevel gear drives The second driving shaft rotation, the second driving shaft drive the third belt wheel rotation, and then the third belt wheel of upside The control mechanism can be driven, the third belt wheel of downside can drive the cutter frame mechanism.

4. according to claim 1, it is characterised in that: the control mechanism includes rotatably being set in the control chamber The first control shaft, be installed with the second belt wheel in first control shaft, the second belt, institute be connected on second belt wheel It states the second belt lower end to connect with the third belt wheel, second belt wheel rear end is equipped with control gear, and the control gear is solid In first control shaft, control gear right end engagement is connected with control rack gear, the control rack gear with it is described Fixator is connected, when the third belt wheel drives the second belt wheel rotation, the second band wheel belt by second belt The first control shaft rotation is moved, first control shaft drives the control rack gear to slide up and down by the control gear, The control rack gear can drive the fixator to slide up and down in turn.

5. according to claim 1, it is characterised in that: second power mechanism includes being fixedly arranged on second power cavity Auxiliary-motor in left wall, the auxiliary-motor right end, which is connected by power, is equipped with secondary line shaft, and the pair line shaft right end, which is equipped with, can be rotated And slidable thread hollow axis, the thread hollow axis pass through spline and the secondary power axis connection, the thread hollow axis Outside wall surface is equipped with the first fixture nut, and first fixture nut is connected through a screw thread with the thread hollow axis, the screw thread Hollow shaft right end is installed with clamp system, starts the auxiliary-motor, and the auxiliary-motor drives the secondary line shaft rotation, the pair Line shaft drives the thread hollow axis rotation, and the thread hollow axis in turn can be sliding by described first fixture nut or so It is dynamic, and then the clamp system can be made to horizontally slip, adjust cutting position.

6. according to claim 1, it is characterised in that: the cutter frame mechanism includes rotatably being set to the knife rest to be displaced Intracavitary knife rest transmission shaft, the knife rest transmission shaft are equipped with knife rest belt wheel, are connected with third belt on the knife rest belt wheel, Third belt left end is connect with the third belt wheel, and knife rest control gear, the knife are installed on the knife rest transmission shaft Frame control gear is located at knife rest belt wheel rear end, and knife rest control gear upper end engagement is connected with knife rest, the knife rest Left end is equipped with knife rest fixator, drives the third belt to rotate by the third belt wheel, described in the third belt drive Knife rest belt wheel and knife rest transmission shaft rotation, the knife rest transmission shaft pass through the knife rest control gear in turn and drive the knife Frame and the knife rest fixator horizontally slip, and rotatable adjusting screw, the adjusting screw are equipped in the knife rest fixator Right end is connected through a screw thread and in the knife rest, is installed with the second fixture nut, the described second fixed spiral shell in the adjusting screw It is female to be rotatably set in the knife rest fixator, it is folded with cushion between the knife rest fixator and the knife rest, it is described Cushion is equipped with blade, and the blade is for cutting cell frost sample, when the rotation adjusting screw, the adjusting screw It drives the knife rest fixator to one Slideslip of knife rest by second fixture nut, and then the cushion can be clamped With the blade, sample is freezed for cutting cell.

7. according to claim 1, it is characterised in that: the clamp system includes being fixedly arranged on the thread hollow axis right end Sample holder, the top sample holder is installed with briquetting pedestal, and the briquetting pedestal is equipped with rotatable briquetting Axis is installed with briquetting extension rod on the briquetting axis, and briquetting extension rod lower end is installed with briquetting, and then works as cutting processing When, when the sample holder begins to decline cutting, the briquetting can flatten the cell section cut in the knife rest Platform on, avoiding cell section, bending phenomenon occurs, and the sample holder bottom end is rotatably equipped with the second adjusting screw, It slidably and symmetrically is equipped with clamping bar in second adjusting screw, the clamping bar left end is symmetrically equipped with connecting rod, described Connecting rod is articulated on the clamping bar by the first positioning pin, hinged by the second positioning pin between the connecting rod, when rotation institute The second adjusting screw is stated, second adjusting screw can drive the clamping bar to clamp cell sample in turn, be convenient for machining.