WO2020258158A1 - 推片机及其控制方法 - Google Patents
推片机及其控制方法 Download PDFInfo
- Publication number
- WO2020258158A1 WO2020258158A1 PCT/CN2019/093269 CN2019093269W WO2020258158A1 WO 2020258158 A1 WO2020258158 A1 WO 2020258158A1 CN 2019093269 W CN2019093269 W CN 2019093269W WO 2020258158 A1 WO2020258158 A1 WO 2020258158A1
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- dye
- box
- manipulator
- smear
- reagent
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Images
Classifications
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/28—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q
- G01N1/30—Staining; Impregnating ; Fixation; Dehydration; Multistep processes for preparing samples of tissue, cell or nucleic acid material and the like for analysis
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/28—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q
- G01N1/2813—Producing thin layers of samples on a substrate, e.g. smearing, spinning-on
Definitions
- the traditional manual staining method for blood smears is to first add a certain amount of dye solution to the blood smear, then add a certain amount of buffer solution, and then use an ear wash bulb or other air blowing device to mix the dye solution with the buffer solution. uniform. After waiting for a period of time, the mixture is washed away with running water, and then dried to become a blood smear for microscopy. The white blood cells, red blood cells, platelets, etc. are stained with specific colors for identification.
- the present invention provides a tablet pusher with movable manipulator and reagent box, and the internal mechanism of the tablet pusher is simplified through the coordinated movement of the manipulator and the reagent box. Specifically include the following technical solutions:
- the dyeing mechanism includes a reagent kit and a first driving system, the kit is used to store dye reagents, the top of the kit is open, and the first driving system is used to drive the kit to reciprocate and translate in a first direction;
- the second drive system is also used to drive the manipulator toward the reagent
- the cassette is moved to dispose of the smear from the opening into the kit for staining or remove the smear from the kit.
- the dyeing mechanism is provided with a connecting position and a storage position corresponding to the reagent box, wherein the connecting position corresponds to the matching position of the reagent box and the manipulator, and the first driving system drives the
- the kit is switched between the storage position and the splicing position, and the manipulator puts the smear into the kit in the splicing position, or removes the smear from the position Take it out of the kit in the splice position.
- the first driving system drives the reagent cartridge to move back and forth in a first horizontal plane to switch between the storage position and the connecting position.
- the first driving system also drives the kit to move back and forth in the first direction to mix the dye reagents in the kit, and then the first driving system drives the kit to move to the The splice bit.
- the projection of the second direction on the first horizontal plane forms a first angle with the first direction, and the first angle is 90 degrees.
- the staining mechanism further includes a base connected between the kit and the first driving system, the number of the kits is multiple, and the staining mechanism is provided with at least For one of the splicing positions, the manipulator puts the smear in or takes out the smear on the corresponding splicing position of each of the kits.
- kits are sequentially arranged on the base along the first direction or the second direction.
- the base is rectangular, the long sides of the rectangle are arranged along the first direction, and the short sides are arranged along the second direction.
- the kit includes at least one mounting part, and the mounting part is used to form an insertion area for inserting the smear, so that the smear can be immersed in the kit when the smear is accommodated in the insertion area
- the loaded dye solution reagent accepts the corresponding treatment.
- each of the kits there are multiple mounting parts, so that multiple insertion areas are formed in each of the kits, and when the multiple kits are arranged on the base along the first direction, each The multiple mounting parts in the kit are arranged along the second direction;
- kits When a plurality of the kits are arranged on the base along the second direction, a plurality of the mounting parts in each of the kits are arranged along the first direction.
- the staining mechanism is provided with a cover plate with a fixed position, and when the first driving system drives the reagent box to be located in the storage position, the cover plate is used to cover the opening of the reagent box.
- the second driving system further includes a second driving device, and the second driving device is used to drive the manipulator to move toward the reagent cartridge in the placement position to place the smear into the reagent. In the box, or remove the smear from the kit.
- the first driving device drives the manipulator to translate in a second horizontal plane to realize the position switching of the manipulator between the film taking position and the placing position
- the second driving device drives the The manipulator moves back and forth in a vertical direction to put the smear into the kit or take out the smear from the kit.
- the kit further includes a counterstaining box, in which a second staining solution is stored for counterstaining the smear, and the second staining solution is a third biological dye and a buffer solution
- the third biological dye can stain acidophilic substances or basophils in blood samples.
- the first dye solution recovery system collects the corresponding one in the primary dye box The first dye solution is recovered to the first dye solution sealed container; when there is a smear in the primary dye box that needs to be dyed or the first dye solution inflow instruction issued by the user is received, the first dye solution enters The liquid system discharges the first dye solution in the sealed container of the first dye solution into the primary dye box.
- the dyeing mechanism further includes a first dye liquor discharge system, the first dye liquor discharge system is in communication with the primary dye box or the first dye liquor sealed container, when the first dye liquor reaches the discharge requirement At time or after receiving the first dye liquor discharge instruction issued by the user, the first dye liquor discharge system discharges the first dye liquor in the primary dye box or the first dye liquor sealed container.
- the dyeing mechanism includes a reagent box and a third driving device, the reagent box is used to store dye solution reagents, the top of the reagent box has an opening, and the third driving device is used to drive the reagent box to realize a reciprocating movement in a single direction;
- the second driving device is used to drive the manipulator toward the reagent cartridge Move to dispose of the smear from the opening into the kit for staining or remove the smear from the kit.
- the slide pusher proposed by the present invention completes the work of loading slides, loading blood samples, and preparing smears by smearing blood samples through slide loading mechanism, sample loading mechanism and slide pushing mechanism. Then, the smear is dyed through the coordinated movement of the dyeing mechanism and the moving mechanism.
- the staining mechanism drives the reagent cartridge containing the dye reagent to reciprocate translation in the first direction through the first drive system
- the slide mechanism drives the manipulator carrying the smear to reciprocate translation in the second direction through the second drive system.
- the second driving system also drives the manipulators to move toward the reagent box to place or extract smears.
- kits there are a plurality of the kits, and the plurality of the kits are all used to hold the dye solution reagents, and the plurality of the kits include a first kit and a second kit.
- the dye solution reagent is different from the dye solution reagent in the second kit, and the smear is first processed in the first kit, and then processed in the second kit, the method Also includes:
- Figure 1 is a schematic diagram of the system framework of the film pusher of the present invention.
- FIG. 2 is a schematic diagram of the dyeing mechanism and the moving mechanism in an embodiment of the film pusher of the present invention
- FIG. 4 is a schematic diagram of the dyeing mechanism and the moving mechanism in another embodiment of the film pusher of the present invention.
- Figure 7 is a schematic diagram of the dyeing mechanism in another embodiment of the pusher of the present invention.
- FIG. 10 is a schematic diagram of the system framework of another embodiment of the film pusher of the present invention.
- the slide pusher 100 shown in FIG. 1 can be used to prepare smears for blood, body fluid and other samples.
- the slide pusher 100 includes a slide loading mechanism 10, a sample loading mechanism 20, a slide pushing mechanism 30, a staining mechanism 40 and a slide moving mechanism 50.
- the slide loading mechanism 10 is used to extract the slides and load the slides to the corresponding position to facilitate the sample loading operation. Before the glass slide is extracted, operations such as left and right inspection of the glass slide and glass slide cleaning can also be performed, and then the glass slide is loaded by the slide loading mechanism 10.
- the slide loading mechanism 10 can also print relevant information on the loaded slides, and perform operations such as positive and negative detection of the slides at the same time.
- the reagent box 41 is movably set in the film pusher 100, and the reagent box 41 can perform a single degree of freedom translation movement in the film pusher 100.
- the first driving system 42 is used to drive the reagent cartridge 41 to reciprocate and translate in the first direction 001, so as to cooperate with the action of the slide mechanism 50 to complete the operation of placing and removing the slide.
- the slide mechanism 50 includes a manipulator 51 and a second driving system 52.
- the manipulator 51 is used to extract the smear 200 formed by the preparation of the glass slide, and place the smear 200 into the kit 41 for staining.
- the movement direction of the manipulator 51 includes the second direction 002, and the second direction 002 is set differently from the first direction 001 of the kit 41.
- the second driving system 52 drives the manipulator 51 to move in translation along the second direction 002, which can also be realized by a sliding rail and other structures arranged along the second direction 002. Further, the second driving system 52 drives the manipulator 51 to move toward the reagent cartridge 41 at the matching position 01, which is also a single-degree-of-freedom movement, which can also be achieved by structures such as a telescopic mechanism or a sliding rail set toward the opening 411. And the translational movement of the reagent cartridge 41 along the first direction 001 by the first drive system 42 and the translational movement of the manipulator 51 along the second direction 002 by the second drive system 52 are both single-degree-of-freedom movements, which can be performed simultaneously and separated. Control, will not affect each other.
- the dyeing mechanism 40 is provided with a connecting position 401 and a storage position 402 corresponding to the reagent box 41. It is understandable that the connecting position 401 and the storage position 402 are aligned with each other in the first direction 001, so that the first driving system 42 drives the reagent cartridge 41 to switch between the connecting position 401 and the storage position 402.
- the splicing position 401 corresponds to the matching position 01 where the reagent box 41 and the manipulator 51 perform the operation of transferring the smear 200.
- the first driving system 42 can be used to drive the reagent cartridge 41 to reciprocate translation in the first direction 001 to mix the dye reagent in the reagent box 41, and then the first driving system 42 can then drive the reagent cartridge 41 to move to the connecting position 401 The placed smear 200 is received.
- the first driving system 42 drives the kit 41 quickly and reciprocally based on the need for mixing, which can effectively eliminate the layering phenomenon of the dye reagent in the reagent box 41, and the mixed dye reagent can also stain the smear 200 more effectively Processing and other operations.
- the reagent box 41 can cooperate with the translational movement of the manipulator 51 under the drive of the first driving system 42, and the manipulator 51 only needs to do the second direction relative to the reagent box 41
- the projection of the second direction 002 of the translation of the manipulator 51 by the second driving system 52 on the first horizontal plane 004 forms a first angle ⁇ with the first direction 001.
- the difference here can be understood as when the first direction 001 and the second direction 002 are projected on the same plane, their angles are different and intersect to form a first angle ⁇ ; It can also be understood that the first direction 001 and the second direction 002 are parallel to each other in space, but not on the same horizontal plane.
- the manipulator 51 and the reagent box 41 are in the same direction of movement but are in different heights and move towards each other or move away from each other.
- the translational movement of the reagent box 41 only helps to shorten the movement stroke of the manipulator 51, and the manipulator 51
- the transport state of the smear 200 with the reagent box 41 is limited to the single-degree-of-freedom movement in the first direction 001, which impairs the working efficiency of the slide pusher 100, and the accommodating space 006 thus obtained is also a linear shape, which can be used Lower.
- the first included angle ⁇ may be greater than 0 degrees to less than 180 degrees.
- the manipulator 51 can expand in a plane in the coordinated movement with the reagent cartridge 41, and the plane movement can be decomposed into linear movement in two degrees of freedom in the first direction 001 and the second direction 002.
- the smear 200 obtains a larger active area under the coordinated movement of the manipulator 51 and the reagent box 41.
- the first included angle ⁇ is 90 degrees
- the first direction 001 and the second direction 002 are perpendicular.
- the manipulator 51 and the reagent box 41 perform linear translational movement perpendicular to each other, which can achieve a larger mating area under the shortest displacement stroke, and the volume of the accommodating space 006 formed thereby is also the largest.
- the dyeing mechanism 40 also includes a base 43 connected between the reagent box 41 and the first driving system 42.
- the first driving system 42 drives the reciprocating translation of the base 43 in the first direction 001 to drive the reagent cartridge 41 to reciprocate translation in the first direction 001.
- the film pusher 100 can install multiple reagent kits 41 in the dyeing mechanism 40.
- the multiple reagent boxes 41 can store different staining solution reagents to correspond to different staining operations of the smear 200 by the staining mechanism 40.
- the staining mechanism 40 is provided with at least one splicing position 401 corresponding to each reagent box 41, and each reagent box 41 is placed at its corresponding splicing position 401 by the manipulator 51 to insert the smear 200, or to apply the smear The sheet 200 is taken out of the kit 41.
- a plurality of reagent kits 41 are sequentially arranged on the base 43 along the first direction 001 or the second direction 002. It is understandable that at this time, the multiple splice positions 401 corresponding to the multiple reagent kits 41 are also arranged along the first direction 001 or the second direction 002.
- the manipulator 51 When the manipulator 51 needs to operate corresponding to different reagent cartridges 41, if multiple reagent cartridges 41 are arranged along the first direction 001, the manipulator 51 can be kept stationary, and the base 43 can be driven to translate along the first direction 001 by the first driving system 42 , In order to drive the corresponding different reagent kits 41 to their corresponding splicing positions 401 successively to form a corresponding matching position 01 with the manipulator 51, and then the second drive system 52 drives the manipulator 51 to move toward different reagent cartridges 41 successively And realize the operation of inserting or removing the smear 200; or, if a plurality of reagent cartridges 41 are arranged along the second direction 002, the reagent cartridge 41 can be kept stationary, and the manipulator 51 can be driven along the second direction 002 by the second driving system 52 Translation, so that the manipulator 51 and different reagent kits 41 form different matching positions 01 successively, and then the operation of inserting or taking out the smear 200 successively
- a plurality of reagent boxes 41 are arranged along the translation direction of the reagent box 41, or arranged along the translation direction of the manipulator 51, which can keep one of the reagent box 41 or the manipulator 51 still, and only drive one of the manipulator 51 or the reagent box 41.
- the coordination state of multiple coordination positions 01 is formed, and subsequent operations are carried out in an orderly manner.
- the base 43 is configured to be rectangular. The long sides of the rectangle are arranged along the first direction 001, and the short sides of the rectangle are arranged along the second direction 002.
- the shape of the base 43 can be minimized, and the volume of the dyeing mechanism 40 can be reduced.
- the kit 41 includes at least one mounting part 44.
- the mounting part 44 is used to form an insertion area (not shown in the figure) for inserting the smear 200, so that the smear 200 can be fixedly positioned when it is accommodated in the insertion area, and is immersed in the dye solution reagent contained in the reagent box 41.
- the mounting part 44 can be detachably fixed in the kit 41, or can be a structure such as a slot integrally formed on the inner wall of the kit 41.
- the tablet pusher 100 of the present application does not specifically limit the implementation details of the mounting part 44.
- each reagent box 41 there are multiple mounting parts 44, so that multiple insertion areas are formed in each reagent box 41, and a single reagent box 41 can accommodate multiple smears 200, which realizes batch processing of the smears 200 by the reagent box 41.
- the arrangement of the mounting parts 44 in the kit 41 should also be arranged along the first direction 001 or the second direction 002. When a plurality of kits 41 are arranged on the base 43 along the first direction 001, there are more than one in each kit 41.
- the dyeing mechanism 40 also needs to refine a plurality of sub-splicing positions in the splicing positions 401 corresponding to the kit 41.
- the reagent box 41 can form a matching position 01 with the manipulator 51 on each sub-splicing position, and when the manipulator 51 moves toward the reagent box 41, the smear 200 can be placed in the corresponding sub-splicing position. The smear 200 is taken out from the insertion area of the sub-splicing position, or from the insertion area corresponding to the sub-splicing position.
- the height of the smear 200 in the kit 41 can be controlled by the setting of the mounting part 44, so that the gap between the cover plate 45 and the opening 411 of the kit 41 is reduced, and a better sealing effect is achieved. . Even the smear 200 is completely contained in the reagent box 41, so that the cover plate 45 and the reagent box 41 directly cooperate to achieve a better sealing effect.
- the film moving mechanism 50 On the moving path of the manipulator 51, the film moving mechanism 50 is provided with a film taking position 502 and a placement position 501 corresponding to the manipulator 51.
- the film taking position 502 and the placing position 501 are aligned with each other in the second direction 002, so that the second driving system 52 drives the manipulator 51 to switch between the film taking position 502 and the placing position 51.
- the placement position 501 corresponds to the matching position 01 where the reagent box 41 and the manipulator 51 perform the operation of transferring the smear 200.
- the second driving system 52 includes a first driving device (not shown in the figure), and the second driving system 52 is driven by the first driving device to drive the manipulator 51 to switch between the film taking position 502 and the placing position 501.
- the manipulator 51 extracts the smear 200 that needs to be stained at the picking position 502; the manipulator 51 cooperates with the reagent box 41 at the placing position 501, so that the smear 200 can be placed in or from the reagent box 41 Take out the smear 200.
- the motion trajectory of the manipulator 51 of the film pusher 100 of the present application is simplified, and through the decomposition of the degrees of freedom, the defect of high coupling control accuracy of the manipulator 51 caused by the coupling movement is further reduced. The requirement for single component accuracy is reduced, thereby reducing the manufacturing cost of the pusher 100.
- the first driving device should also drive the manipulator 51 to move horizontally in the second horizontal plane 005 to realize the manipulator 51 in the film taking position 502 and placing Position switching between bits 501.
- Setting the manipulator 51 to also perform horizontal movement can give the manipulator 51 a larger range of motion under the same translation distance of the manipulator 51. Or described as, when the manipulator 51 is moving within a fixed range, the manipulator 51 adopts a horizontal translation mode to control the minimum movement stroke. The smaller the moving stroke of the manipulator 51 is, the lower the load of the first driving device is, which can improve the working efficiency of the film pusher 100 and reduce the power consumption.
- the dyeing process of the smear 200 in the dyeing mechanism 40 usually requires multiple dyeing processes, and the smear 200 needs to be dyed and cleaned between the multiple dyeing processes to ensure that the dye is dyed.
- the processed smear 200 gets better observation effect during microscopic examination. Therefore, the multiple kits 41 usually include a primary staining box 410 and an isolation box 420, and in some embodiments, a counterstaining box 430 may also be included.
- the primary dyeing box 410 stores the first dye solution for primary dyeing of the smear 200.
- the dyeing mechanism 40 further includes a first dye liquor recovery system 4101, a first dye liquor inlet system 4102 and a first dye liquor sealed container 4103.
- the first dye liquor recovery system 4101 is respectively communicated with the first dye liquor sealed container 4103 and the primary dye box 410.
- the first dye liquor recovery system 4101 is used to recover the corresponding first dye liquor in the primary dye box 410 to the first dye liquor.
- the first dye liquor inlet system 4102 is respectively communicated with the first dye liquor sealed container 4103 and the primary dye box 410.
- the first dye liquor inlet system 4102 is used to discharge the first dye liquor in the first dye liquor sealed container 4103 again To the first dye box 410.
- the first dye liquor recovery system 4101 may also include a first dye liquor recovery pipeline 4104 and a first dye liquor suction pressure source 4105.
- the first dye solution recovery system 4101 is respectively connected with the primary dye box 410 and the first dye solution sealed container 4103 through the first dye solution recovery pipeline 4104, and the first dye solution suction pressure source 4105 is used for the The first dye solution is sucked into the first dye solution sealed container 4103; the first dye solution inlet system 4102 may further include a first dye solution inlet pipe 4106 and a first dye solution inlet pressure source 4107.
- the first dye liquor inlet system 4102 is respectively connected to the primary dye box 410 and the first dye liquor sealed container 4103 through the first dye liquor inlet pipe 4106, and the first dye liquor inlet pressure source 4107 seals the first dye liquor container
- the first dye solution in 4103 is discharged into the primary dye box 410.
- the first dye liquor recovery pipe 4104 and the first dye liquor inlet pipe 4106 may be the same pipe, and the first dye liquor inlet pressure source 4105 and the first dye liquor suction pressure source 4107 may be The same source of stress.
- the dyeing mechanism 40 may also include a liquid path system of the counterstaining box 430 similar in configuration to the primary dyeing box 410.
- the dyeing mechanism 40 further includes a second dye liquor recovery system 4301, a second dye liquor inlet system 4302, and a second dye liquor sealed container 4303.
- the second dye liquor recovery system 4301 is respectively communicated with the second dye liquor sealed container 4303 and the counterstain box 430.
- the second dye liquor recovery system 4301 is used to recover the corresponding second dye liquor in the counter dye box 430 to the second dye liquor. Seal the container 4303 inside.
- the second dyeing solution recovery system 4301 when there is no smear 200 in the counterstaining box 430 to be dyed, or after the pusher 100 receives the second dyeing solution recovery instruction issued by the user, the second dyeing solution recovery system 4301 will counterstain the box 430 The corresponding second dye solution inside is recovered to the second dye solution sealed container 4303 for storage.
- the second dye liquor inflow system 4302 seals the second dye liquor in the container 4303 The second dye solution is discharged into the counter dye box 430.
- the kit 41 further includes a second cleaning box 440 containing a cleaning solution or a buffer solution.
- the second cleaning box 440 is used to clean the counter-stained smear 200.
- the primary dyeing box 410, the dyeing promotion box 422, the first cleaning box 421, the counter dyeing box 430, and the second cleaning box 440 are in sequence along the first One direction 001 or a second direction 002 are arranged on the base 43.
- the manipulator 51 can sequentially move and perform corresponding operations corresponding to the respective reagent kits 41 to complete the staining process of each step of the smear 200 in sequence.
- This arrangement can make the structure of the film pusher 100 more compact, and the movement stroke of the manipulator 51 and the reagent box 41 can be reduced, and the dyeing efficiency can be improved.
- the primary dyeing box 410, the dye accelerating box 422, the first cleaning box 421, the counter dyeing box 430, and the second cleaning box 440 can be formed integrally or separately.
- the present invention also provides a slide pushing machine 100a, which includes a slide loading mechanism 10a, a sample adding mechanism 20a, a slide pushing mechanism 30a, a dyeing mechanism 40a, and a slide moving mechanism 50a.
- the slide pusher 100a also uses the slide loading mechanism 10a, the sample loading mechanism 20a, and the slide pushing mechanism 30a to complete the loading of slides, blood sample loading and blood sample wiping, and prepare the smear 200 for microscopy.
- the staining mechanism 40a and the slide transfer mechanism 50a cooperate to complete the staining work of the smear 200 before microscopy.
- the slide mechanism 50a also includes a first drive device 521a, a second drive device 522a, and a manipulator 51a.
- the manipulator 51 is driven to move toward the second reagent box 4002 to place the smear 200 into the second reagent box 4002 for the second processing.
- the second reagent kit 4002 may be the stain promotion kit 422 or the first cleaning kit 421, and the second treatment is the stain promotion or cleaning treatment.
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Abstract
Description
Claims (28)
- 一种推片机,其特征在于,包括:玻片装载机构,用于装载玻片;加样机构,用于将血样加载到所述玻片上;推片机构,用于将所述玻片上的血样抹平以制成涂片;染色机构,包括试剂盒和第一驱动系统,所述试剂盒用于贮存染液试剂,所述试剂盒顶部开口,所述第一驱动系统用于带动所述试剂盒沿第一方向往复平移;移片机构,包括机械手和第二驱动系统,所述机械手用于提取所述涂片并将所述涂片置入所述试剂盒内进行染色,所述第二驱动系统用于带动所述机械手沿第二方向往复平移,且所述第二方向与所述第一方向相异;当所述第一驱动系统与所述第二驱动系统分别带动所述试剂盒与所述机械手分别平移至对应的配合位后,所述第二驱动系统还用于带动所述机械手朝向所述试剂盒移动以将所述涂片从所述开口处置入所述试剂盒中进行染色或从所述试剂盒中取出所述涂片。
- 根据权利要求1所述的推片机,其特征在于,所述染色机构设有对应所述试剂盒的接片位和存储位,其中所述接片位对应所述试剂盒与所述机械手的所述配合位,所述第一驱动系统带动所述试剂盒在所述存储位和所述接片位之间位置切换,所述机械手将所述涂片置入位于所述接片位的所述试剂盒中,或将所述涂片从位于所述接片位的所述试剂盒中取出。
- 根据权利要求2所述的推片机,其特征在于,所述第一驱动系统带动所述试剂盒于第一水平面内往复平移以在所述存储位和所述接片位之间切换。
- 根据权利要求3所述的推片机,其特征在于,所述第一驱动系统还带动所述试剂盒沿所述第一方向往复平移以混匀所述试剂盒中的染液试剂后,所述第一驱动系统带动所述试剂盒移动至所述接片位。
- 根据权利要求2-4所述的推片机,其特征在于,所述推片机在所述第一水平面的上方,对应所述存储位至所述接片位的位置形成一容置空间。
- 根据权利要求5所述的推片机,其特征在于,所述第二方向在所述第 一水平面上的投影与所述第一方向呈第一夹角,所述第一夹角为90度。
- 根据权利要求1-6任意一项所述的推片机,其特征在于,所述染色机构还包括连接于所述试剂盒与所述第一驱动系统之间的底座,所述试剂盒数量为多个,所述染色机构对应每个所述试剂盒均设有至少一个所述接片位,每个所述试剂盒在其对应的所述接片位上由所述机械手将所述涂片置入,或将所述涂片取出。
- 根据权利要求7所述的推片机,其特征在于,多个所述试剂盒沿所述第一方向或所述第二方向依次排列于所述底座上。
- 根据权利要求7或8所述的推片机,其特征在于,所述底座为矩形,所述矩形长边沿所述第一方向设置,短边沿所述第二方向设置。
- 根据权利要求1-9任意一项所述的推片机,其特征在于,所述试剂盒内包含至少一个安放部件,所述安放部件用于形成插入所述涂片的插入区域,以使得所述涂片容置于所述插入区域时能浸渍在所述试剂盒装承的染液试剂中接受对应的处理。
- 根据权利要求10所述的推片机,其特征在于,所述安放部件为多个,以使得每个所述试剂盒内形成多个所述插入区域,当多个所述试剂盒沿所述第一方向排列于所述底座上时,每个所述试剂盒内的多个所述安放部件沿所述第二方向排列;当多个所述试剂盒沿所述第二方向排列于所述底座上时,每个所述试剂盒内的多个所述安放部件沿所述第一方向排列。
- 根据权利要求2-11任意一项所述的推片机,其特征在于,所述染色机构设有位置固定的盖板,当第一驱动系统驱动所述试剂盒位于所述存储位时,所述盖板用于封盖所述试剂盒的所述开口。
- 根据权利要求1-12任意一项所述的推片机,其特征在于,所述机械手的移动路径上设有对应所述机械手的取片位和放置位,且所述放置位对应所述试剂盒与所述机械手的所述配合位,所述第二驱动系统包括第一驱动装置,所述第一驱动装置带动所述机械手在所述取片位和所述放置位之间位置切换,所述机械手在所述取片位提取所述涂片,所述机械手在所述放置位将所述涂片置入所述试剂盒中,或从所述试剂盒中取出所述涂片。
- 根据权利要求13所述的推片机,其特征在于,所述第二驱动系统还包括第二驱动装置,所述第二驱动装置用于在所述放置位带动所述机械手朝向所述试剂盒移动,以将所述涂片置入所述试剂盒中,或从所述试剂盒中取出所述涂片。
- 根据权利要求14所述的推片机,其特征在于,所述第一驱动装置带动所述机械手在第二水平面内平移以实现所述机械手在所述取片位和所述放置位之间的位置切换,且所述第二驱动装置带动所述机械手沿竖直方向往复平移以将所述涂片置入所述试剂盒中或从所述试剂盒中取出所述涂片。
- 根据权利要求1-15任意一项所述的推片机,其特征在于,所述试剂盒包括初染盒和隔离盒,所述初染盒中贮存有第一染液以用于对所述涂片进行初染,所述第一染液为第一生物染料和第二生物染料的混合物,所述第一生物染料能够对血样中嗜酸物质进行染色,所述第二生物染料能够对血样中嗜碱物质进行染色;所述隔离盒中贮存有的试剂用于在初染后复染前对血样进行处理。
- 根据权利要求16所述的推片机,其特征在于,所述试剂盒还包括复染盒,所述复染盒中贮存有第二染液以用于对所述涂片进行复染,所述第二染液为第三生物染料和缓冲液的混合物,所述第三生物染料能够对血样中嗜酸物质或嗜碱物质进行染色。
- 根据权利要求16或17所述的推片机,其特征在于,所述染色机构还包括第一染液回收系统、第一染液进液系统和第一染液密封容器,所述第一染液回收系统分别与所述第一染液密封容器和所述初染盒相通,用以将所述初染盒内对应的所述第一染液回收至所述第一染液密封容器;所述第一染液进液系统分别与所述第一染液密封容器和所述初染盒相通,用以将所述第一染液密封容器内的所述第一染液重新排出至所述初染盒内。
- 根据权利要求16-18所述的推片机,其特征在于,当所述初染盒内无所述涂片需要进行染色或接收到用户发出的第一染液回收指令后,所述第一染液回收系统将所述初染盒内对应的所述第一染液回收至所述第一染液密封容器;当所述初染盒内有涂片需要进行染色或接收到用户发出的第一染液进液指令后,所述第一染液进液系统将所述第一染液密封容器内的所述第一染液排出至所述初染盒内。
- 根据权利要求16-19任意一项所述的推片机,其特征在于,所述染色机构还包括第一染液排放系统,所述第一染液排放系统与所述初染盒或所述第一染液密封容器连通,当所述第一染液达到排放要求时或接收到用户发出的第一染液排放指令后,所述第一染液排放系统排放所述初染盒或所述第一染液密封容器内的第一染液。
- 根据权利要求16-20任意一项所述的推片机,其特征在于,所述隔离盒包括贮存有缓冲液的促染盒,所述促染盒用于对经初染后的所述涂片进行缓冲和清洗。
- 根据权利要求16-21任意一项所述的推片机,其特征在于,所述隔离盒还包括盛有清洗液或缓冲液的第一清洗盒,所述第一清洗盒用于对经所述初染后和/或所述促染盒处理后的所述涂片进行清洗。
- 根据权利要求16-22任意一项所述的推片机,其特征在于,所述试剂盒还包括盛有清洗液或缓冲液的第二清洗盒,所述第二清洗盒用于对经复染后的所述涂片进行清洗。
- 根据权利要求23所述的推片机,其特征在于,所述初染盒、所述促染盒、所述第一清洗盒、所述复染盒以及所述第二清洗盒按顺序依次沿所述第一方向或所述第二方向排列于所述底座上。
- 一种推片机,其特征在于,包括:玻片装载机构,用于装载玻片;加样机构,用于将血样加载到所述玻片上;推片机构,用于将所述玻片上的血样抹平以制成涂片;染色机构,包括试剂盒和第三驱动装置,所述试剂盒用于贮存染液试剂,所述试剂盒顶部开口,所述第三驱动装置用于带动所述试剂盒实现单一方向的往复运动;移片机构,包括第一驱动装置、第二驱动装置和机械手,所述机械手用于提取所述涂片并将所述涂片置入所述试剂盒内进行染色,所述第一驱动装置用于带动所述机械手沿第一方向往复平移,所述第二驱动装置用于带动所述机械手沿第二方向往复移动,所述第一方向与所述第二方向垂直;当所述第三驱动装置与所述第一驱动装置分别带动所述试剂盒与所述机 械手分别运动至对应的配合位后,所述第二驱动装置用于带动所述机械手朝向所述试剂盒移动以将所述涂片从所述开口处置入所述试剂盒中进行染色或从所述试剂盒中取出所述涂片。
- 一种推片机控制方法,其特征在于,包括如下步骤:将血样加载到玻片上抹平以制成涂片;驱动机械手提取所述涂片,并沿第二方向驱动所述机械手平移至放置位;驱动底座沿第一方向平移以带动试剂盒平移至接片位;驱动所述机械手朝向所述试剂盒移动以将所述涂片置入所述试剂盒中对所述涂片进行染色。
- 根据权利要求26所述的推片机控制方法,其特征在于,所述试剂盒为多个,多个所述试剂盒均用于承装染液试剂,多个所述试剂盒包括第一试剂盒和第二试剂盒,所述第一试剂盒中的染液试剂与所述第二试剂盒中的染液试剂不同,且所述涂片先在所述第一试剂盒中进行处理后,再在所述第二试剂盒中进行处理,所述方法还包括:驱动位于放置位的所述机械手朝向所述第一试剂盒移动以将完成第一次处理的所述涂片取出所述第一试剂盒;驱动所述底座沿所述第一方向平移和/或,驱动所述机械手沿所述第二方向平移,以使得所述第二试剂盒处于所述接片位,且所述机械手处于对应所述第二试剂盒的放置位;驱动所述机械手朝向所述第二试剂盒移动以将所述涂片置入所述第二试剂盒进行第二次处理。
- 根据权利要求26所述的推片机控制方法,其特征在于,所述试剂盒用于贮存染液试剂,所述沿第一方向驱动试剂盒平移至接片位,还包括:沿所述第一方向驱动所述底座往复平移以混匀所述试剂盒内的所述染液试剂;沿所述第一方向驱动所述底座将混匀后的所述试剂盒平移至所述接片位。
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