JP4327581B2 - Sample preparation equipment - Google Patents

Description

  The present invention relates to a specimen preparation apparatus, and more particularly to a specimen preparation apparatus that performs a smearing process and a staining process of a sample.

  Conventionally, a specimen preparation apparatus that performs a smearing process and a staining process of a sample is known (see, for example, Patent Document 1).

Patent Document 1 discloses a blood smear preparation apparatus that automatically performs from blood smearing to staining on a slide glass. In the blood smear preparation apparatus disclosed in Patent Document 1, an automatic specimen preparation operation for automatically performing from the blood smearing process to the staining process on the slide glass and the blood smearing process on the slide glass is not performed. It is possible to perform a manual staining operation for performing only a staining process on a separately prepared slide glass prepared separately. In the case of an automatic specimen preparation operation, an empty cassette in which no slide glass is stored is set in the cassette storage unit (conveyance unit), and in the case of a manual staining operation, the cassette is supplied to the staining unit. An interrupt cassette containing smeared slide glass prepared separately is set on the cassette interrupt supply member.
JP-A-8-271390

  However, in the blood smear preparation apparatus disclosed in Patent Document 1, it is necessary to separately provide a cassette interruption supply member for supplying a cassette to the staining section in order to perform manual staining operation. It was complicated. Further, since only one cassette can be set on the cassette interruption supply member, when manual staining is performed for a large number of cassettes (a cassette containing smeared slide glass), the operation is troublesome.

  The present invention has been made to solve the above problems, and in a specimen preparation apparatus capable of setting an automatic specimen preparation mode for performing a smearing process and a staining operation, without complicating the structure of the apparatus, It is an object of the present invention to provide a specimen preparation device that accepts a cassette containing a smeared slide glass and can perform a staining process without performing a smearing process.

Means for Solving the Problems and Effects of the Invention

  A specimen preparation device according to a first aspect of the present invention includes a cassette housing portion that houses a cassette for housing a slide glass, and a slide glass that has been smeared by a smearing portion on a cassette supplied from the cassette housing portion. Whether the slide glass is stored in the slide glass insertion portion to be inserted, the staining portion that performs the staining process on the cassette in which the slide glass is inserted, and at least the cassette that is supplied from the cassette storage portion to the slide glass insertion portion. A mode that can set one of the sample preparation modes: a slide glass detection unit that detects smears, an automatic specimen preparation mode that performs smearing and staining, and a staining mode that performs staining without performing smearing Specimen preparation based on setting part, detection information by slide glass detector and set specimen preparation mode And a control unit for controlling the work.

  In the sample preparation device according to the first aspect, as described above, a mode setting unit capable of setting one of the automatic sample preparation mode and the staining mode, and detection information by the slide glass detection unit, And a control unit that controls the sample preparation operation based on the set sample preparation mode, and when the staining mode is set by the mode setting unit, the control unit causes the slide glass insertion unit to be inserted from the cassette housing unit. If the cassette is supplied to the staining unit and controlled so that the staining process is performed, the cassette containing the smeared slide glass can be set in the same cassette housing unit as in the automatic specimen preparation mode. A dyeing operation can be performed. Thereby, it is not necessary to separately provide a member for supplying the cassette to the dyeing unit in order to perform the dyeing operation, and thus the structure of the apparatus can be prevented from becoming complicated. Further, when the staining processing mode is set, when a cassette containing smeared slide glass is set in the cassette housing portion, the cassette is automatically supplied from the cassette housing portion and dyed at the staining portion. . For this reason, even when there are a large number of cassettes that need to be dyed, if these cassettes are set in the cassette housing portion, the dyeing process is automatically performed, and the labor of the operator can be reduced.

  In the specimen preparation device according to the first aspect, preferably, the slide glass detection unit is disposed in the slide glass insertion unit, and detects whether or not the slide glass is stored in a cassette located in the slide glass insertion unit. To do. With this configuration, whether or not the slide glass is stored in the cassette that has been transported from the cassette storage unit to the slide glass insertion unit in the automatic specimen preparation mode and the staining mode by one slide glass detection unit. In the automatic specimen preparation mode, it is possible to detect whether or not the smeared slide glass is properly inserted into the cassette in the slide glass insertion portion. Thus, in the automatic specimen preparation mode and the staining mode, the slide glass detection unit for detecting whether or not the slide glass is stored in the cassette that has been transported from the cassette storage unit to the slide glass insertion unit, and the automatic Since it is not necessary to separately provide a slide glass detection unit for detecting whether or not smeared slide glass is properly inserted into the cassette at the slide glass insertion unit in the specimen preparation mode, this also enables the apparatus Can be prevented from becoming complicated.

  In the sample preparation device according to the first aspect, preferably, when the slide sample detector detects that the slide glass is stored in the cassette when the automatic sample preparation mode is set by the mode setting unit, the control unit Stops the specimen preparation operation. With this configuration, even when the automatic specimen preparation mode is set and the cassette in which the slide glass is stored is mistakenly transported to the slide glass insertion section, the slide glass insertion section can move the slide. It is possible to prevent the inconvenience that the slide glass is inserted over the cassette in which the glass is stored.

  In this case, the control unit stops the specimen preparation operation and then transports the cassette in which the slide glass is stored to the storage unit. According to this configuration, when a cassette in which a slide glass is stored is erroneously conveyed to the slide glass insertion unit, the cassette in which the slide glass is stored is stored without performing the slide glass insertion process and the staining process. Can be transported to the section.

  Further, in this case, the control unit detects that the slide glass is not stored in the cassette supplied from the cassette storage unit after the cassette storing the slide glass is transported to the storage unit. Then, the specimen preparation operation is executed again. If comprised in this way, it can return to automatic sample preparation operation | movement automatically.

  In the specimen preparation device according to the first aspect, preferably, the cassette remaining portion is provided in the cassette housing portion and detects whether or not the cassette has a predetermined amount, and receives information from the control portion and outputs the information. And a display unit. If comprised in this way, it can detect that there is no predetermined amount of cassette in a cassette accommodating part by the cassette remaining amount detection part. Further, if the control unit causes the display unit to display that there is no predetermined amount of cassettes in the cassette housing unit, the user can be informed that the cassette needs to be replenished.

  In this case, preferably, when the cassette remaining amount detection unit detects that there is no predetermined amount, the control unit sends information for prompting replenishment of the cassette to the display unit, and displays the information on the display unit. If comprised in this way, a user can be notified easily that it is necessary to replenish a cassette.

  In the specimen preparation device according to the first aspect, preferably, when the staining mode is set by the mode setting unit, the slide glass detection unit indicates that the slide glass is stored in the cassette conveyed from the cassette storage unit. When detected, the control unit conveys the cassette in which the slide glass is stored to the staining unit and executes the staining process. If comprised in this way, in the dyeing | staining mode, dyeing operation | movement can be performed only by setting the cassette which accommodated the separately prepared slide glass accommodated in a cassette accommodating part.

  In the specimen preparation device according to the first aspect, preferably, when the staining mode is set by the mode setting unit, the slide glass detection unit indicates that the slide glass is not stored in the cassette conveyed from the cassette storage unit. When detected, the control unit causes the storage unit to transport the cassette without performing the staining process. According to this configuration, even when a cassette in which the slide glass is not stored in the cassette storage unit is erroneously set in the staining mode, the staining process is not erroneously performed.

  The specimen preparation device according to the first aspect preferably further includes a cassette presence / absence detection unit that detects whether or not there is a cassette in the cassette housing unit. If comprised in this way, when there is no cassette in a cassette accommodating part, it can control so that operation | movement is not performed.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(First embodiment)
FIG. 1 is a perspective view showing the entire configuration of a blood smear preparation apparatus and a transport apparatus according to a first embodiment of the present invention, and FIG. 2 shows a blood smear preparation apparatus according to the first embodiment shown in FIG. It is the top view which showed the internal structure of. 3 and 4 are perspective views showing a cassette and a slide glass used in the blood smear preparation apparatus according to the first embodiment shown in FIG. First, with reference to FIGS. 1-4, the whole structure of the blood-smear preparation apparatus 100 and the conveying apparatus 200 by 1st Embodiment is demonstrated. In the first embodiment, an example in which the sample preparation device of the present invention is applied to a blood smear preparation device 100 will be described.

  First, in the first embodiment, as shown in FIG. 1, a transport apparatus 200 is installed on the front surface of the blood smear preparation apparatus 100. The transport device 200 is provided for automatically transporting the sample rack 150 storing the test tube 151 storing blood (sample) to the blood smear preparing device 100. The blood smear preparation apparatus 100 includes a display operation unit 101 including a touch panel, a start switch 102, a power switch 103, a cover 104, and a control unit 105. The display operation unit 101 has a function as a mode setting unit for setting a specimen preparation mode of either the automatic specimen preparation mode or the staining mode of the blood smear preparation apparatus 100 on the screen, and the operation status and warning of the apparatus. And a function as a display unit for displaying. The display operation unit 101 is an example of the “mode setting unit” and the “display unit” in the present invention. The control unit 105 is built in the blood smear preparation apparatus 100 and includes a CPU and a memory. The control unit 105 is provided to control the operation of the blood smear preparation apparatus 100. The blood smear preparing apparatus 100 is provided with a hand member 160 for transporting the test tube 151 containing blood from the transport apparatus 200 side to the blood smear preparing apparatus 100 side. A rubber stopper 151a is attached to the test tube 151 containing blood.

  In addition, as shown in FIG. 2, the blood smear preparation apparatus 100 includes a suction / dispensing mechanism section 1, a smear section 2, a resin cassette 3, a cassette housing section 4, a cassette transport section 5, and a slide. The glass insertion part 6, the dyeing | staining part 7, and the storage part 8 are provided. The suction dispensing mechanism unit 1 has a function of sucking blood from the test tube 151 transported to the blood smear preparation apparatus 100 side by the hand member 160 (see FIG. 1) and dropping the sucked blood onto the slide glass 10. Have. The suction dispensing mechanism unit 1 includes a piercer (aspiration needle) 1a for sucking blood from the test tube 151, a pipette 1b for dispensing the sucked blood to the slide glass 10, and a piercer 1a and a pipette 1b. A connected syringe pump 1c, a valve 1d for opening and closing a flow path between the piercer 1a and the syringe pump 1c, and a valve 1e for opening and closing a flow path between the pipette 1b and the syringe pump 1c Contains.

  The smearing unit 2 is provided to supply the slide glass 10 to the dispensing / smearing position 90, to smear and dry the blood dropped on the slide glass 10, and to print on the slide glass 10. ing. The smearing section 2 includes a slide glass supply section 2a, a slide glass storage section 2b, a pulling glass 2c, feed belts 2d and 2e, a fan 2f, moving pieces 2g and 2i, and a printing section 2h. It has been.

  The slide glass supply unit 2a has a function of supplying the slide glass 10 stored in the two slide glass storage units 2b onto the feed belt 2e using a take-out mechanism and a feed belt 2d (not shown). The feed belt 2e is configured to convey the slide glass 10 to the dispensing / smearing position 90 and the drying positions 91a and 91b. The pulling glass 2c is movable to a position where it abuts on the slide glass 10 so that blood dispensed on the slide glass 10 can be smeared at the dispensing / smearing position 90, and the longitudinal direction of the slide glass 10 It is configured to be movable. The fan 2f is provided to dry smeared blood on the slide glass 10 conveyed to the drying positions 91a and 91b. The moving piece 2g is provided to move the slide glass 10 from the drying position 91b to the printing unit 2h. The printing unit 2h is a printer, and is provided on the frosted portion 10a of the slide glass 10 for printing the sample number, date, reception number, name, and the like. The moving piece 2 i is provided to move the slide glass 10 after printing to the slide glass insertion portion 6 side and insert it into the cassette 3.

  Further, the resin cassette 3 is configured so as to be able to accommodate the smeared slide glass 10 and the liquid (staining liquid) used in the staining step. Specifically, as shown in FIGS. 3 and 4, the cassette 3 includes a slide glass storage hole 3a, a staining liquid suction / dispensing hole 3b, partition portions 3c and 3d, a slide glass support portion 3e, and a magnet. It includes two metal adsorbing members 3f made of metal that can be adsorbed to each other, a conveyor belt engaging part 3g, and a side part 3h. The slide glass storage hole 3a and the staining liquid suction / dispensing hole 3b are connected inside.

  Moreover, as shown in FIG. 2, the cassette accommodating part 4 is provided in order to carry in the cassette 3, and contains the infeed belt 4a. Further, the cassette housing portion 4 includes a cassette remaining amount detection sensor 4b for detecting whether or not the cassette 3 disposed at the standby position 92 of the cassette housing portion 4 has a predetermined specified quantity (for example, 10). A cassette presence / absence detection sensor 4c for detecting whether or not the cassette 3 is in the standby position 92 of the cassette housing portion 4 is provided. The cassette remaining amount detection sensor 4b and the cassette presence / absence detection sensor 4c are constituted by reflection type optical sensors. The cassette remaining amount detection sensor 4b is an example of the “cassette remaining amount detection unit” of the present invention, and the cassette presence / absence detection sensor 4c is an example of the “cassette presence / absence detection unit” of the present invention.

  The cassette carrying unit 5 is provided for carrying the cassette 3 carried in from the cassette housing unit 4 to the slide glass inserting unit 6 and the staining unit 7. The cassette transport unit 5 includes a cassette transport member 5a that can move in the horizontal direction and a drive belt 5b for moving the cassette transport member 5a in the horizontal direction. The cassette conveying member 5a is attached to the drive belt 5b so as to be moved integrally with the drive belt 5b. The drive belt 5b is driven by a drive motor (not shown). Further, the cassette carrying member 5a is provided with a carrying claw 5c (see FIG. 2) that carries the cassette 3 while pushing the side surface portion 3h (see FIG. 3).

  The slide glass insertion portion 6 is provided for storing the slide glass 10 that has been smeared and printed in the slide glass storage hole 10 a of the cassette 3. The slide glass insertion portion 6 is provided with a cassette direction moving member 6a for placing the cassette 3 in the horizontal direction so that the slide glass 10 can be inserted. The cassette direction moving member 6a is configured to be movable between a horizontal position and a vertical position by rotating in a predetermined direction. Further, the slide glass insertion portion 6 is provided with a slide glass detection sensor 60 for detecting whether or not the slide glass 10 is stored in the cassette 3 located in the slide glass insertion portion 6. The slide glass detection sensor 60 is configured by a transmission type optical sensor including a light emitting unit 60a and a light receiving unit 60b. The slide glass detection sensor 60 is an example of the “slide glass detection unit” in the present invention.

  The staining unit 7 is provided to perform a staining process on the smeared slide glass 10 by supplying the staining liquid to the staining liquid suction / dispensing hole 3b of the cassette 3 conveyed by the cassette conveying member 5a. The dyeing unit 7 includes a feeding member 7a for feeding the cassette 3 conveyed by the cassette conveying member 5a to the staining unit 7, a conveying belt 7b for conveying the cassette 3 fed from the feeding member 7a, and the cassette 3 The first to fifth suction / discharge sections 7c to 7g for supplying and discharging the staining liquid, the fan 7h for drying the stained slide glass 10, and the storage section for removing the cassette 3 from the conveyor belt 7b. 8 includes a delivery mechanism 7i for delivering the toner to the conveyor belt 8a side, and a fan 7j for drying the slide glass 10 in the second suction / discharge unit 7d.

  The storage unit 8 is provided for storing the cassette 3 in which the slide glass 10 stained by the staining unit 7 is stored. The storage unit 8 includes a feeding member 8a for feeding the cassette 3 fed from the conveying belt 7b of the dyeing unit 7 by the feeding mechanism unit 7i to the conveying belt 8b of the storing unit 8, and a cassette fed from the feeding member 8a. 3 is provided with a conveyor belt 8b.

  Next, the operation of the blood smear preparation apparatus 100 according to the first embodiment will be described. The operation control of the blood smear preparing apparatus 100 according to the first embodiment is performed by the control unit 105 shown in FIG. That is, the control unit 105 controls the specimen preparation operation based on the detection information from the slide glass detection sensor 60 and the set specimen preparation mode.

  FIG. 5 is a flowchart for explaining the operation in the automatic specimen preparation mode of the blood smear preparation apparatus according to the first embodiment of the present invention. Next, the operation in the automatic specimen preparation mode of the blood smear preparation apparatus 100 according to the first embodiment will be described with reference to FIGS. First, an empty cassette 3 in which the slide glass 10 is not stored is set in the cassette storage unit 4. Then, an automatic sample is selected from the sample preparation modes displayed on the display operation unit 101 (see FIG. 1) that is a touch panel in a state where the activation switch 102 (see FIG. 1) is pressed and the blood smear sample device 100 is activated. Press the creation mode button. Thus, the cassette 3 is transported and fed to the cassette standby position 92 in a state where the transport belt engaging portion 3g (see FIG. 3) of the cassette 3 is engaged with the feed belt 4a of the cassette housing portion 4. Then, the automatic specimen preparation mode is started.

  In the automatic specimen preparation mode according to the first embodiment, first, in step S1 of the flowchart shown in FIG. 5, the cassettes 3 arranged at the cassette standby position 92 of the cassette housing portion 4 (see FIG. 2) are cassettes one by one. It is conveyed to the slide glass insertion unit 6 by the conveyance unit 5. That is, the cassette 3 is transported to the slide glass insertion portion 6 by moving the cassette transport member 5a constituting the cassette transport portion 5 while pushing the side surface portion 3h of the cassette 3 by the transport claws 5b. The cassette conveying member 5a is moved by moving the driving belt 5b with a driving motor (not shown).

  In step S <b> 2, the slide glass insertion unit 6 first determines whether or not the slide glass 10 is stored in the slide glass storage hole 3 a of the cassette 3 using the slide glass detection sensor 60. If it is determined that the slide glass 10 is stored in the cassette 3, the specimen preparation operation is stopped in step S3. As a result, when the cassette 3 in which the slide glass 10 is stored is mistakenly conveyed to the slide glass insertion unit 6 when the automatic specimen preparation mode is set, the slide glass insertion unit 6 uses the slide glass. It is possible to prevent a malfunction that the slide glass 10 is inserted so as to overlap the cassette 3 in which 10 is stored. In this case, in step S <b> 4, the cassette 3 in which the slide glass 10 is stored is transported to the staining unit 7 and then transported to the storage unit 8. At this time, the staining unit 7 moves the cassette 3 in which the slide glass 10 is stored to the storage unit 8 without performing the staining process. Thus, in the case of the automatic specimen preparation mode, if the cassette 3 in which the slide glass 10 is stored is erroneously transported to the slide glass insertion portion 6, without performing the slide glass insertion process and the staining process, The cassette in which the slide glass is stored is conveyed to the storage unit.

  Thereafter, in step S5, it is determined whether or not the cassette 3 exists in the cassette housing portion 4 using the cassette presence / absence detection sensor 4c. When it is determined that the cassette 3 is present in the cassette housing portion 4, the operation from step S1 is repeated. That is, when it is determined that the cassette 3 is present in the cassette housing unit 4, the automatic specimen preparation operation is automatically restored. If it is determined that the cassette 3 does not exist in the cassette housing portion 4, the automatic specimen preparation mode is terminated. If it is determined in step S2 that the slide glass 10 is not stored, the following suction dispensing operation and smearing operation are performed in step S6.

  As the aspiration dispensing operation, first, as shown in FIG. 1, a sample rack 150 in which a test tube 151 in which a blood sample is accommodated is set in a carry-in unit 201 of the conveyance device 200. As a result, the sample rack 150 is transported to the take-out unit 202 of the transport device 200. Thereafter, the hand member 160 of the blood smear preparation apparatus 100 holds the test tube 151 in which the blood in the sample rack 150 is stored. Then, the test tube 151 is lifted by raising the hand member 160, and the test tube 151 is stirred by rotating the hand member 160, and then the test tube 151 is disposed in the suction dispensing mechanism unit 1 shown in FIG. To do. Then, the piercer 1a is pierced into the rubber stopper 151a of the test tube 151 to suck blood. In this suction operation, the valve 1d is opened (on state) and the valve 1e is shut off (off state). After completing the blood suction operation, the valve 1d is turned off (off state) and the valve 1e is opened (on state). Thereafter, the pipette 1b is moved to the dispensing / smearing position 90 shown in FIG. 2, and then blood is dropped (dispensed) from the pipette 1b onto the slide glass 10.

  The smearing operation by the smearing unit 2 is performed in parallel with the suction dispensing operation by the suction dispensing mechanism unit 1 described above or after the suction dispensing operation. In the smearing unit 2, the slide glass 10 is supplied to the dispensing / smearing position 90, blood dropped on the slide glass 10 is smeared and dried, and printing is performed on the slide glass 10. Specifically, the slide glass 10 stored in the two slide glass storage units 2b of the slide glass supply unit 2a is supplied onto the feed belt 2e by a take-out mechanism and a feed belt 2d (not shown). Then, the slide glass 10 is conveyed to the dispensing / smearing position 90 by the feed belt 2e. The operation of conveying the slide glass 10 to the dispensing / smearing position 90 is performed before the above-described suction dispensing operation. In this state, blood is dropped (dispensed) on the slide glass 10 using the pipette 1b.

  Thereafter, the drag glass 2c is moved so as to contact the slide glass 10 and is reciprocated in the longitudinal direction of the slide glass 10 so that the blood dropped on the slide glass 10 at the dispensing / smearing position 90 is transferred. Smeared. Thereafter, the smeared slide glass 10 is conveyed to the drying position 91a by the feed belt 2e. Then, at the drying position 91a, the blood smeared on the slide glass 10 is dried with cold air by the fan 2f. The slide glass 10 is dried twice at two adjacent drying positions 91a and 91b. Thereafter, the smeared slide glass 10 is moved to the printing unit 2h by the moving piece 2g. In the printing unit 2h, the sample number, date, reception number, name, and the like are printed on the frosted portion 10a of the slide glass 10. Then, the slide glass 10 after printing is moved to the slide glass insertion part 6 side by the moving piece 2i.

  After the above-described suction dispensing operation and smearing operation are completed, the slide glass 10 is inserted into the cassette 3 in step S7. Specifically, by rotating the cassette direction moving member 6a in a predetermined direction, the cassette 3 is moved from the vertical position to the horizontal position (the position of the two-dot chain line in FIG. 2) and the slide glass 10 is inserted. Make it possible. In this state, the smeared slide glass 10 is inserted into the slide glass storage hole 3a of the cassette 3 by moving the moving piece 2i of the smearing portion 2 forward. Thus, the smeared slide glass 10 is stored in the cassette 3. Thereafter, the cassette direction moving member 6a is rotated in the direction opposite to the predetermined direction to return the cassette 3 to the original vertical position. Then, after the slide glass detection sensor 60 detects that the smeared slide glass 10 is appropriately stored in the cassette 3, in step S8, the cassette 3 in which the smeared slide glass 10 is stored is It is conveyed to the dyeing | staining part 7 by the cassette conveyance member 5a.

  Next, in step S9, the staining unit 7 performs a staining process. As the staining process, first, the smeared slide glass 10 is lifted from the slide glass storage hole 3a of the cassette 3 by the first suction / discharge unit 7c, and methanol is dispensed into the staining liquid suction dispensing hole 3b of the cassette 3. . Then, after the smeared slide glass 10 is returned to the cassette 3, the cassettes 3 containing the smeared slide glasses 10 are placed one by one on the transport belt 7b by the feeding member 7a. And the cassette 3 is conveyed by the conveyance belt 7b to the 2nd suction discharge part 7d. In the second suction / discharge unit 7d, the smeared slide glass 10 is lifted from the slide glass storage hole 3a of the cassette 3, and the air blown by the fan 7j is applied to the smear surface of the slide glass 10 for about 1 second to about 60 seconds. Dry by evaporating the liquid component above. The time (immersion time) from when the smeared slide glass 10 is immersed in methanol by the first suction / discharge unit 7c to when the slide glass 10 is lifted by the second suction / discharge unit 7d is about 20 to 120 seconds. is there.

  Thereafter, a dyeing process (Maygrunwald / Giemsa double dyeing process) is performed. First, in the second suction / discharge section 7d, methanol is sucked and discharged from the staining liquid suction / dispensing hole 3b of the cassette 3, and then the slide glass 10 is returned to the slide glass storage hole 3a of the slide glass cassette 3. Next, the May-Grunwald solution (main component is 99% methanol) is dispensed from the staining solution suction dispensing hole 3b of the cassette 3, and the smeared slide glass 10 is immersed in the May-Grunwald solution. Thereby, the May Grünwald Giemsa double staining process is started. And while the cassette 3 is conveyed by the conveyance belt 7b, the smeared slide glass 10 is immersed in the May-Grunwald solution as a staining process for about 1 minute to about 5 minutes. Then, after the May-Grunwald liquid is sucked and discharged from the staining liquid suction / dispensing hole 3b of the cassette 3 by the third suction / discharge section 7e, the May-Grunwald diluted liquid is dispensed into the staining liquid suction / dispensing hole 3b of the cassette 3. Noted. And while the cassette 3 is conveyed by the conveyance belt 7b, the smeared slide glass 10 is immersed in the May-Grunwald diluent for about 1 minute to about 5 minutes. Then, after the May Grunwald diluted solution is sucked and discharged from the staining solution suction / dispensing hole 3b of the cassette 3 by the fourth suction / discharge unit 7f, the Giemsa diluted solution is dispensed to the staining solution suction / dispensing hole 3b of the cassette 3. Noted. And while the cassette 3 is conveyed by the conveyance belt 7b, the smeared slide glass 10 is immersed in the Giemsa diluted solution for about 1 minute to about 20 minutes.

  Further, after the Giemsa diluted liquid is sucked and discharged from the staining liquid suction / dispensing hole 3b of the cassette 3 by the fifth suction / discharge section 7g, the cleaning liquid is dispensed to the staining liquid suction / dispensing hole 3b of the cassette 3. Then, the slide glass 10 that has been sucked and dyed is washed with water. Thereafter, the stained slide glass 10 is dried by the fan 7h.

  In step S10, the cassette 3 in which the stained slide glass 10 is stored is sequentially sent out from the transport belt 7b to the transport belt 8a side of the storage unit 8 by the feed-out mechanism unit 7i. Then, the cassette 3 is fed into the conveyance belt 8 b of the storage unit 8 by the feeding member 8 a of the storage unit 8. As a result, the cassette 3 fed from the feeding member 8a is transported to the storage unit 8 by the transport belt 8b and stored.

  Next, in step S11, it is determined using the cassette remaining amount detection sensor 4b whether or not the number of the cassettes 3 at the cassette standby position 92 of the cassette housing unit 4 is equal to or larger than a predetermined specified amount (for example, 10). . If it is determined that the quantity of the cassette 3 at the cassette standby position 92 is less than the predetermined specified quantity, in step S12, the display operation unit 101 (see FIG. 1) is refilled. A message prompting replenishment of the cassette 3 is displayed. This makes it possible to easily notify the user that the cassette needs to be replenished. Thereafter, the process proceeds to step S5 described above, and it is determined using the cassette presence / absence detection sensor 4c whether or not the cassette 3 is present in the cassette housing portion 4. If the cassette 3 is present, the process returns to step S1, and the cassette 3 If no exists, the automatic specimen preparation mode is terminated. By controlling in this way, it is possible to control not to perform the operation when the cassette 3 is not present in the cassette housing portion 4.

  FIG. 6 is a flowchart for explaining the operation in the manual staining mode of the blood smear preparation apparatus according to the first embodiment of the present invention. Next, the operation in the manual staining mode of the blood smear preparation apparatus according to the first embodiment will be described with reference to FIGS. The manual staining mode is an example of the “dying mode” in the present invention. This manual staining mode is used when only smearing processing is performed on the separately prepared slide glass 10 without performing blood smearing processing on the slide glass 10.

  First, the cassette 3 in which the separately prepared slide glass 10 is housed is set in the cassette housing portion 4 as in the automatic specimen preparation mode described above. In the specimen preparation mode displayed on the display operation unit 101 (see FIG. 1) including the touch panel in a state where the activation switch 102 (see FIG. 1) is pressed and the blood smear specimen device 100 is activated, manual staining is performed. Press the mode button. Thus, the cassette 3 is transported and fed to the cassette standby position 92 in a state where the transport belt engaging portion 3g (see FIG. 3) of the cassette 3 is engaged with the feed belt 4a of the cassette housing portion 4. Then, the manual staining mode is started.

  In the manual staining mode according to the first embodiment, first, in step S21 of the flowchart shown in FIG. 6, the cassettes 3 at the cassette standby position 92 of the cassette storage unit 4 (see FIG. 2) are moved one by one by the cassette transport unit 5. It is conveyed to the slide glass insertion part 6. In step S <b> 22, the slide glass insertion unit 6 first determines whether or not the slide glass 10 is stored in the slide glass storage hole 3 a of the cassette 3 using the slide glass detection sensor 60. When it is determined that the slide glass 10 is stored in the cassette 3, the cassette 3 is transported to the staining unit 7 by the cassette transport unit 5 in step S <b> 23. Thus, in the manual staining mode, the manual staining operation can be performed only by setting the cassette 3 storing the separately prepared slide glass 10 in the cassette housing portion 4. In step S24, a staining process similar to the staining process described in step S9 (see FIG. 5) of the automatic specimen preparation mode is performed. Thereafter, in step S <b> 25, the cassette 3 in which the stained glass slide 10 has been stored is transported to the storage unit 8.

  In step S22, when it is determined that the slide glass 10 is not stored, the process proceeds to step S25, and the cassette 3 is transported to the storage unit 8 without performing the staining process. Thus, even when the cassette 3 in which the slide glass 10 is not stored in the cassette storage unit 4 is erroneously set in the manual staining mode, the staining process is not erroneously performed.

  Thereafter, in step S26, it is determined whether or not the cassette 3 is present in the cassette housing portion 4 using the cassette presence / absence detection sensor 4c. If it is determined that the cassette 3 is present, the process returns to step S21. The process is repeated. If it is determined that the cassette 3 does not exist, the manual staining mode is terminated.

  In the first embodiment, as described above, the display operation unit 101 including a touch panel capable of setting the specimen preparation mode of the automatic specimen preparation mode or the manual staining mode and the detection information by the slide glass detection sensor 60 are set. And a control unit 105 that controls the sample preparation operation based on the sample preparation mode, and when the manual operation mode is set by the display operation unit 101, the control unit 105 controls the slide glass from the cassette storage unit 4 to the slide glass. The cassette 3 containing the smeared slide glass 10 is the same as in the automatic specimen preparation mode by controlling the cassette 3 supplied to the insertion unit 6 to be transferred to the staining unit 7 and performing the staining process. Manual dyeing operation can be performed only by setting in the cassette housing part 4. Thereby, since it is not necessary to separately provide a member for supplying the cassette 3 to the dyeing unit 7 in order to perform the manual dyeing operation, it is possible to prevent the structure of the apparatus from becoming complicated.

In the first embodiment, as described above, the slide glass detection sensor 60 is arranged in the slide glass insertion portion 6 and whether or not the slide glass 10 is stored in the cassette 3 positioned in the slide glass insertion portion 6. By being configured to detect this, the single slide glass detection sensor 60 slides on the cassette 3 that has been transported from the cassette housing portion 4 to the slide glass insertion portion 6 in the automatic specimen preparation mode and the staining mode. It is possible to detect whether or not the glass 10 is accommodated, and whether or not the smeared slide glass 10 is properly inserted into the cassette 3 in the slide glass insertion portion 6 in the automatic specimen preparation mode. can do. Thereby, in the automatic specimen preparation mode and the staining mode, the slide glass detection for detecting whether or not the slide glass 10 is stored in the cassette 3 conveyed from the cassette storage unit 4 to the slide glass insertion unit 6. There is no need to separately provide a sensor and a slide glass detection sensor for detecting whether or not the smeared slide glass 10 is properly inserted into the cassette 3 in the slide glass insertion section 6 in the automatic specimen preparation mode. Therefore, this can also prevent the structure of the apparatus from becoming complicated.
( Reference example )
FIG. 7 is a flowchart for explaining the operation in the automatic specimen preparation mode according to the reference example of the present invention. Referring to FIG. 7, in the automatic specimen preparation mode according to this reference example , unlike the automatic specimen preparation mode according to the first embodiment, when the slide glass 3 is stored in the cassette 3, the specimen preparation operation is stopped. An example of performing the dyeing process without performing the above will be described. Note that the operation control in the automatic specimen preparation mode according to the reference example is performed by the control unit 105 shown in FIG. 1 as in the first embodiment.

Specifically, first, the cassette 3 is set in the cassette housing portion 4. Then, an automatic sample is selected from the sample preparation modes displayed on the display operation unit 101 (see FIG. 1) that is a touch panel in a state where the activation switch 102 (see FIG. 1) is pressed and the blood smear sample device 100 is activated. Press the creation mode button. Thus, the cassette 3 is transported and fed to the cassette standby position 92 in a state where the transport belt engaging portion 3g (see FIG. 3) of the cassette 3 is engaged with the feed belt 4a of the cassette housing portion 4. Then, the automatic specimen preparation mode according to the reference example is started.

In the automatic specimen preparation mode according to this reference example , first, in step S31 of the flowchart shown in FIG. 7, the cassette 3 is transported from the cassette housing portion 4 to the slide glass insertion portion 6 by the cassette transport portion 5 (see FIG. 2). In step S <b> 32, it is determined whether or not the slide glass 10 is stored in the cassette 3 using the slide glass detection sensor 60. If it is determined that the slide glass 10 is not stored in the cassette 3, in step S33, blood is dispensed into the slide glass 10 by the suction / dispensing mechanism 1 and blood is slid by the smearing unit 2 in the slide glass 10. Smear on.

  Thereafter, in step S34, the slide glass insertion section 6 inserts the smeared slide glass 10 into the cassette 3. Next, in step S35, the cassette 3 is transported to the staining unit 7 by the cassette transport unit 5, and in step S36, a staining process is performed. When it is determined in step S32 that the slide glass 10 is stored in the cassette 3, the control unit 105 determines that only the staining process is performed. In step S35, the cassette transport unit 5 The cassette 3 is conveyed to the staining unit 7. In step S <b> 36, a staining process is performed on the slide glass 10 stored in the cassette 3. Thereafter, in step S <b> 37, the cassette 3 in which the stained slide glass 10 is stored is transported to the storage unit 8.

Thereafter, in step S38, it is determined whether or not the cassette 3 exists in the cassette housing portion 4 using the cassette presence / absence detection sensor 4c. If it is determined that the cassette 3 is present in the cassette housing unit 4, the processing from step S31 is repeated. If it is determined that the cassette 3 is not present in the cassette housing unit 4, automatic specimen preparation according to the reference example is performed. Exit mode.

In the automatic specimen preparation mode according to the reference example, when the slide glass 10 is stored in the cassette 3 supplied from the cassette storage unit 4 to the slide glass insertion unit 6 as described above, the cassette 3 is transferred to the staining unit 7. When the slide glass 10 is not housed in the cassette 3 supplied to the slide glass insertion unit 6 from the cassette storage unit 4, the smearing process is performed, and in the slide glass insertion unit 6, After the smeared slide glass 10 is inserted into the cassette 3, the smeared slide glass 10 is transported to the staining section 7 and subjected to a staining process, whereby the smeared slide glass 10 is obtained. If the stored cassette 3 is set in the cassette housing part 4, a manual staining operation consisting only of a staining process can be performed. With wear, if insert a blank cassette 3 the slide glass 10 is not accommodated in the cassette accommodating portion 4, it is possible to perform an automatic sample preparing operation consisting of smearing treatment and dyeing treatment. As a result, it is possible to cope with both the automatic specimen preparation operation and the manual dyeing operation in which only the staining process is performed in one operation flow, so that the manual staining operation can be performed while performing the automatic specimen preparation operation. . As a result, since it is not necessary to perform separate operation settings for performing the manual dyeing operation, the operation can be further simplified as compared with the first embodiment.

Further, in the reference example , as in the first embodiment, the manual staining operation is performed simply by setting the cassette 3 in which the smeared slide glass 10 is stored in the same cassette storage unit 4 as in the automatic specimen preparation mode. Therefore, it is not necessary to separately provide a member for supplying the cassette 3 to the staining unit 7 in order to perform the manual staining operation. Thereby, it is possible to prevent the device structure from becoming complicated.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is shown not by the above description of the embodiments but by the scope of claims for patent, and further includes all modifications within the meaning and scope equivalent to the scope of claims for patent.

  For example, in the above embodiment, the sample preparation apparatus of the present invention is applied to the blood smear preparation apparatus. However, the present invention is not limited to this and is applied to a sample preparation apparatus other than the blood smear preparation apparatus. May be.

  Moreover, in the said embodiment, although the example which provides one slide glass detection sensor 60 in the slide glass insertion part 6 which detects whether the slide glass 10 is accommodated in the cassette 3 was shown, this invention corresponds to this. Not limited to this, a slide glass detection sensor may be provided in a portion other than the slide glass insertion portion. For example, one slide glass detection sensor may be arranged between the slide glass insertion portion 6 and the cassette housing portion 4 and between the slide glass insertion portion 6 and the staining portion 7. In this case, using a slide glass detection sensor disposed between the slide glass insertion portion 6 and the cassette housing portion 4, detection and manual that the slide glass 10 is not stored in the cassette 3 in the automatic specimen preparation mode. It is detected that the slide glass 10 is stored in the cassette 3 in the staining mode. Moreover, it detects that the slide glass 10 was appropriately inserted into the cassette 3 in the automatic specimen preparation mode using a slide glass detection sensor arranged between the slide glass insertion part and the staining part. In the above-described embodiment, in the staining process in the staining unit 7, the smeared slide glass is first processed with methanol, but this methanol process may be omitted. In that case, it is possible to omit the first suction / discharge portion 7c.

It is the perspective view which showed the whole structure of the blood smear preparation apparatus and conveyance apparatus by 1st Embodiment of this invention. It is the top view which showed the internal structure of the blood smear preparation apparatus by 1st Embodiment shown in FIG. It is the perspective view which showed the cassette and slide glass which are used for the blood smear preparation apparatus by 1st Embodiment shown in FIG. It is the perspective view which showed the cassette and slide glass which are used for the blood smear preparation apparatus by 1st Embodiment shown in FIG. It is a flowchart for demonstrating operation | movement in the automatic sample preparation mode of the blood smear preparation apparatus by 1st Embodiment of this invention. It is a flowchart for demonstrating operation | movement in the manual dyeing | staining mode of the blood smear preparation apparatus by 1st Embodiment of this invention. It is a flowchart for demonstrating operation | movement in the automatic sample preparation mode by the reference example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Aspirate dispensing mechanism part 2 Smearing part 3 Cassette 4 Cassette accommodating part 4b Cassette residual quantity detection sensor (cassette residual quantity detection part)
4c Cassette presence / absence detection sensor (cassette presence / absence detection unit)
5 Cassette conveyance part 6 Slide glass insertion part 7 Dyeing part 8 Storage part 10 Slide glass (specimen)
60 Slide glass detection sensor (Slide glass detection unit)
100 Blood smear preparation device (specimen preparation device)
101 Display operation unit (mode setting unit, display unit)
105 Control unit 200 Conveying device

Claims (10)

A cassette housing portion for housing a cassette for housing the slide glass;
A slide glass insertion section for inserting the slide glass smeared in the smear section into the cassette supplied from the cassette housing section;
A staining section for performing a staining process on the cassette in which the slide glass is inserted;
A slide glass detection unit for detecting whether or not the slide glass is stored in the cassette supplied to the slide glass insertion unit from at least the cassette storage unit;
A mode setting unit capable of setting any one of the sample preparation modes of the automatic preparation mode for performing the smearing process and the staining process, and the staining mode for performing the staining process without performing the smearing process;
A specimen preparation apparatus comprising: a control unit that controls specimen preparation operation based on detection information from the slide glass detection part and the set specimen preparation mode.   The specimen according to claim 1, wherein the slide glass detection unit is arranged in the slide glass insertion unit and detects whether or not the slide glass is stored in the cassette located in the slide glass insertion unit. Production device.   If the slide glass detection unit detects that the slide glass is stored in the cassette when the automatic sample preparation mode is set by the mode setting unit, the control unit stops the sample preparation operation. The specimen preparation apparatus according to claim 1 or 2, wherein:   The specimen preparation device according to claim 3, wherein the control unit causes the storage unit to transport the cassette in which the slide glass is stored after stopping the specimen preparation operation.   After the control unit has transported the cassette in which the slide glass is stored to the storage unit, the slide glass is not stored in the cassette that is next supplied from the cassette storage unit. The specimen preparation apparatus according to claim 4, wherein when the detection unit detects the specimen preparation operation, the specimen preparation operation is executed again. A cassette remaining amount detection unit that is provided in the cassette housing unit and detects whether or not the cassette has a predetermined amount;
The specimen preparation apparatus according to any one of claims 1 to 5, further comprising a display unit that receives information from the control unit and outputs the information.   When the cassette remaining amount detection unit detects that there is no predetermined amount of the cassette, the control unit sends information for prompting replenishment of the cassette to the display unit, and causes the display unit to display the information. Item 7. The specimen preparation device according to Item 6.   When the staining mode is set by the mode setting unit, when the slide glass detection unit detects that the slide glass is stored in the cassette conveyed from the cassette storage unit, the control unit The specimen preparation apparatus according to claim 1 or 2, wherein the staining processing is performed by conveying the cassette in which the slide glass is stored to the staining unit.   When the staining mode is set by the mode setting unit, when the slide glass detection unit detects that the slide glass is not stored in the cassette conveyed from the cassette storage unit, the control unit The specimen preparation apparatus according to claim 1, wherein the cassette is transported to the storage unit without performing the staining process. The specimen preparation apparatus according to any one of claims 1 to 9, further comprising a cassette presence / absence detection unit that detects whether or not the cassette is in the cassette housing unit .

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