WO2022009476A1 - Specimen carrying device - Google Patents

Specimen carrying device Download PDF

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Publication number
WO2022009476A1
WO2022009476A1 PCT/JP2021/009803 JP2021009803W WO2022009476A1 WO 2022009476 A1 WO2022009476 A1 WO 2022009476A1 JP 2021009803 W JP2021009803 W JP 2021009803W WO 2022009476 A1 WO2022009476 A1 WO 2022009476A1
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WIPO (PCT)
Prior art keywords
sample
transport
foreign matter
sample holder
brush
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PCT/JP2021/009803
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French (fr)
Japanese (ja)
Inventor
茂輝 山口
茂 矢野
健史 松家
早織 千田
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株式会社日立ハイテク
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Priority to JP2022534903A priority Critical patent/JP7320134B2/en
Publication of WO2022009476A1 publication Critical patent/WO2022009476A1/en

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G45/00Lubricating, cleaning, or clearing devices
    • B65G45/10Cleaning devices
    • B65G45/18Cleaning devices comprising brushes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G54/00Non-mechanical conveyors not otherwise provided for
    • B65G54/02Non-mechanical conveyors not otherwise provided for electrostatic, electric, or magnetic
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N35/00Automatic analysis not limited to methods or materials provided for in any single one of groups G01N1/00 - G01N33/00; Handling materials therefor
    • G01N35/02Automatic analysis not limited to methods or materials provided for in any single one of groups G01N1/00 - G01N33/00; Handling materials therefor using a plurality of sample containers moved by a conveyor system past one or more treatment or analysis stations
    • G01N35/04Details of the conveyor system

Definitions

  • the present invention relates to a sample transport device in a sample test automation system.
  • the laboratory sample delivery system is adapted to carry a sample container, each of which is a container carrier, each equipped with at least one magnetically active device, preferably at least one permanent magnet.
  • a pretreatment device an automatic analysis device, and a post-treatment device are connected by a sample transfer device, and the work related to blood analysis processing is being fully automated.
  • a sample carrier capable of mounting a single sample container containing a sample is used for transporting a sample in such an automated system, and a magnetic field is applied by a plurality of electromagnets fixedly arranged below the transport surface.
  • a method is known in which a magnet in a sample carrier is attracted and repelled by generating it to slide on a transport surface. This transport method realizes sample transport in two dimensions in addition to one dimension.
  • Patent Document 1 states that when transporting a specimen holder, "the electromagnetic actuator applies or causes a magnetic force to the container carrier, i.e., to the magnetically active device of the vessel carrier, in at least two different directions on the transport plane. Is adapted to move the container carrier. "
  • the sample In the method of sliding on the transport surface, the sample is often transported while the bottom surface of the sample holder and the transport surface slide. For this reason, it is common to use a material with less wear for the sliding portion. However, it is not possible to have a structure that does not cause any wear in the transport method that involves sliding.
  • the present invention provides a sample transfer device provided with a plurality of transfer modules, which can suppress foreign matter from intervening on the sliding surface as compared with the conventional case.
  • the present invention includes a plurality of means for solving the above problems, for example, a plurality of transport panels for transporting a sample holder holding a sample container containing a sample, and a plurality of the transport panels. It is characterized in that it is provided in a gap between the two, and is provided with a cleaning portion that comes into contact with the bottom surface of the sample holder.
  • FIG. 1 The figure which shows typically the whole structure of the sample inspection automation system provided with the sample transport device of Example 1 of this invention. Schematic diagram of the side surface of a general sample transfer device. The plan view of the sample transporting apparatus of Example 1.
  • FIG. The side view of the cleaning part of the sample transporting apparatus of Example 1.
  • FIG. The side view of another form of the cleaning part of the sample transporting apparatus of Example 1.
  • FIG. The figure which shows the outline structure of the sample transporting apparatus of Example 2 of this invention.
  • Example 1 of the sample transport device of the present invention will be described with reference to FIGS. 1 to 5.
  • FIG. 1 is a plan view showing the configuration of the entire sample inspection automation system according to the embodiment of the present invention.
  • the sample test automation system 1 is a system provided with an analyzer for automatically analyzing the components of a sample such as blood and urine.
  • the main components of the sample test automation system 1 are a plurality of sample holders 11 (see FIG. 2) or an empty holder on which a sample container 10 (see FIG. 2 and the like) containing samples such as blood and urine are stored.
  • the sample to be inspected in the sample inspection automation system 1 is handled in the state of being collected in the sample container 10.
  • the sample container 10 is manually inserted into the sample holder 11 by an operator or by an automatic insertion unit, transported in the sample inspection automation system 1, and various processes are performed.
  • the pretreatment device 100 is a part for pretreating a sample before the analysis treatment.
  • a sample acceptance process a centrifuge process for a sample requiring centrifugation, acquisition of information such as a sample liquid volume, an opening process for removing a plug from a sample container, and a sample in a plurality of containers.
  • a sample pretreatment step such as subdivision dispensing, is performed.
  • the detailed configuration of the pretreatment device 100 is not particularly limited, and a known configuration of the pretreatment device can be adopted.
  • the sample transport device 150 is a device for connecting to a pretreatment device 100, an analyzer 200, and the like, and transporting the sample holder 11 in these devices.
  • a plurality of transport modules 20 capable of transporting the sample holder 11 two-dimensionally on the transport plane by an electromagnetic actuator are arranged.
  • the sample for which the pretreatment has been completed in the pretreatment device 100 is transported to the analyzer 200 by the sample transfer device 150. The details will be described in detail with reference to FIGS. 3 and later.
  • the analyzer 200 is an apparatus that performs various analytical processes on a sample.
  • the sample for which the analysis process has been completed is transported by the sample transport device 150 to the sample storage unit provided in the pretreatment device 100 or the like, and is temporarily stored.
  • the analysis items in the analyzer 200 are not particularly limited, and a configuration of a known automatic analyzer that analyzes biochemical items and immune items can be adopted. Further, when a plurality of specifications are provided, the same specifications or different specifications may be used, and the specifications are not particularly limited.
  • the system control device 111 controls the operation of the entire system including the sample transfer device 150 and the analysis device 200, and is composed of a display device such as a liquid crystal display, an input device, a storage device, a CPU, and a computer having a memory. Will be done.
  • the control of the operation of each device by the system control device 111 is executed based on various programs recorded in the storage device.
  • the operation control process executed by the system control device 111 may be integrated into one program, may be divided into a plurality of programs, or may be a combination thereof. Further, a part or all of the program may be realized by dedicated hardware or may be modularized.
  • FIG. 1 describes a case where one pretreatment device 100 and one analysis device 200 are provided, the number of these devices is not particularly limited and may be two or more. .. Similarly, the number of transport modules 20 constituting the sample transport device 150 is not particularly limited, and may be two or more.
  • FIG. 2 is a side view showing a general transport module.
  • the transport surface 122 of the transport module 120 is composed of a flat surface having a small frictional force, and electromagnets 121 are arranged at equal intervals on the back side (lower side) thereof.
  • a transport path is formed by arranging a plurality of such transport modules 120.
  • a plurality of transport modules 120 When arranging a plurality of transport modules 120 smoothly, it is desirable to arrange them without gaps in order to smoothly transport the transport modules 120 without being affected by the seams of the transport surfaces 122.
  • a gap 141 may be formed between the transport modules 120, or that the transport modules 120 are close to each other and interfere with each other.
  • the gap 141 when the gap 141 is wide, the sample holder 11 may be caught in the gap 141 between the transport modules and transport may not be possible.
  • FIG. 3 is a plan view showing a configuration example of a sample transfer device equipped with the holder cleaning unit of the present invention.
  • FIG. 4 is a side view showing a configuration example of the present invention.
  • FIG. 5 is a plan view showing a configuration example of another sample transport device.
  • the sample holder 11 in which the sample container 10 containing the sample is erected is one in the transport module 20. It has been transported above.
  • One sample container 10 can be mounted on the plurality of sample holders 11, and a magnetic material 13 is provided on the bottom surface of each sample container 11.
  • the magnetic material 13 is composed of permanent magnets such as neodymium and ferrite, but can also be composed of other magnets and soft magnetic materials, and can be appropriately combined.
  • the sample holder 11 having the magnetic material 13 slides on a flat transport surface 22 having a small frictional force.
  • a plurality of electromagnets 21 composed of a core 21a made of a columnar magnetic material and windings 21b wound around the outer circumference of the core 21a are provided below the transfer surface 22.
  • the electromagnet 21 constitutes each of a plurality of detection points for detecting the position of the magnetic body 13. Further, a plurality of transport paths are provided above the electromagnet 21 so as to cover the electromagnet 21.
  • a plurality of electromagnets 21 provided inside the transport module 20 are responsible for detecting the position of the magnetic body 13 and for transporting the magnetic body 13, that is, transporting a sample.
  • the electromagnet 21 is connected to a drive unit 23 that allows a predetermined current to flow through the winding 21b by applying a predetermined voltage to the electromagnet 21.
  • the electromagnet 21 to which a voltage is applied by the drive unit 23 acts as an electromagnet, and by generating a magnetic field, the magnetic body 13 in the sample holder 11 can be attracted and repelled.
  • the voltage application to the electromagnet 21 is stopped by the drive unit 23, and the voltage is applied from the drive unit 23 to a different electromagnet 21 adjacent to the electromagnet 21 in the same manner as described above.
  • the magnetic material 13 of the sample holder 11 is attracted and repelled by the adjacent electromagnets 21.
  • the sample stored in the sample container 10 held in the sample holder 11 provided with the magnetic material 13 is placed along the arrangement of the electromagnets 21. It is transported to the destination in a two-dimensional manner on the transport surface 22.
  • the current flowing through the winding 21b of the electromagnet 21 during transportation is detected by the current detection unit 24.
  • the current flowing through the winding 21b of the electromagnet 21 detected by the current detection unit 24 is sent to the calculation unit 25 and quantified, and a current change amount curve depending on the position of the sample holder 11 is acquired. By acquiring such a current change amount curve depending on the position of the sample holder 11, the position of the sample holder 11 can be detected.
  • the calculation unit 25 specifies the position of the sample from the current change amount curve based on the command from the system control device 111.
  • the position detection process may be executed by the calculation unit 25 or the system control device 111, but in this embodiment, the system control device 111 determines various settings for position detection. , It is assumed that it is executed by the calculation unit 25.
  • the calculation unit 25 calculates the current flowing through each winding 21b using various information such as position information, speed information, and weight information of the sample holder 11, and outputs a command signal to each drive unit 23. ..
  • the drive unit 23 applies a voltage to the corresponding winding 21b based on the command signal.
  • the configuration of the transport module 20 is not limited to the above configuration, for example, a configuration in which the position of the sample holder 11 is detected by a sensor or the like, or a configuration in which electromagnetic transport is performed on a one-dimensional transport path (see Example 3 described later). ).
  • a plurality of transport modules 20 are arranged to form a transport path.
  • At least one gap 41 is provided with a cleaning portion that comes into contact with the bottom surface 12 of the sample holder 11.
  • the cleaning unit has a brush 30 for removing foreign matter 40 such as wear debris from the bottom surface 12, and a saucer 31 for accommodating the foreign matter 40 such as wear debris removed from the bottom surface 12 by the brush 30. do.
  • this cleaning unit it is possible to allow the brush 30 to pass through the gap 41 while contacting the bottom surface of the sample holder 11 when crossing between the transport modules 20 in the transport process of transporting the sample by the sample transport device 150.
  • the brush 30 sweeps the bottom surface of the sample holder 11 when the sample holder 11 passes through.
  • foreign matter 40 such as wear debris adhering to the sliding portion of the bottom surface of the sample holder 11 with the transport surface 22 can be removed.
  • the sample holder 11 and the transport surface 22 are slid, static electricity may be generated and the foreign matter 40 may be adsorbed.
  • the foreign matter 40 can be removed more effectively by eliminating static electricity on the bottom surface of the sample holder 11 by mixing conductive fibers such as carbon and metal wires into the brush 30.
  • the tip of the brush 30 is adjusted to a predetermined tolerance range from the same height as the transport surface 22 so as to be in contact with the sample holder 11 and installed.
  • the foreign matter 40 swept out by the brush 30 is housed by the saucer 31 so as not to be scattered again on the transport surface 22.
  • the saucer 31 By making the saucer 31 removable, it is possible to easily dispose of the foreign matter 40 collected in the saucer 31.
  • the brush 30 worn by sliding with the bottom surface of the sample holder 11 needs to be replaced before the wear limit is exceeded.
  • the brush 30 can be easily replaced by fixing the brush 30 to the removable saucer 31.
  • FIG. 5 is a side sectional view of a configuration in which a suction mechanism for foreign matter 40 is added to the cleaning portion according to the present invention.
  • the suction mechanism of the present configuration includes a dust box 32 that sucks foreign matter 40 such as wear debris contained in the saucer 31, and a suction duct 33 connected to the lower part of the saucer 31 of the configuration of FIG. It is composed of a suction pump 34.
  • the suction pump 34 sucks air while the system is operating.
  • the foreign matter 40 adhering to the bottom surface of the sample holder 11 is swept away by the brush 30.
  • the foreign matter 40 is sucked together with the air sucked by the suction pump 34 and is carried to the dust box 32 via the suction duct 33.
  • the foreign matter 40 sucked by means such as a filter or centrifugal force and the air are separated.
  • the foreign matter 40 is housed in the dust box 32, and only air is sucked by the suction pump 34 and discharged to the outside of the device.
  • the dust box 32 is made removable or a disposable collection pack can be attached so that the foreign matter 40 can be easily disposed of.
  • the cleaning portion is described as the brush 30, but the present invention is not limited to this.
  • an adhesive roller is installed in the gap between the modules at the same height as the transport surface 22 to support the sample holder 11 so that it does not get caught in the gap 41 at the time of delivery, and the bottom surface of the sample holder 11. It is possible to adopt a configuration for removing the foreign matter 40 adhering to the.
  • the cleaning unit does not have to be arranged between all the transport modules 20.
  • the place to be arranged such as one place in several modules, it is possible to reduce the trouble of disposing of the foreign matter 40 housed in the saucer 31, which requires regular maintenance.
  • the sample holder 11 is provided with a cleaning portion that comes into contact with the bottom surface 12 of the sample holder 11.
  • the foreign matter 40 can be cleaned and removed from the sliding surface of the sample holder 11 with a simple configuration, and the wear of the transport surface 22 can be reduced. Further, since the room for adjusting the gap 41 between the transport modules 20 can be secured, the allowable range of the gap 41 that may occur in the installation work can be expanded, and the sample holder 11 is caught in the gap 41 as compared with the conventional case. It can be suppressed.
  • the cleaning unit has a brush 30 for removing foreign matter 40 such as wear debris from the bottom surface 12, and a saucer 31 for accommodating the foreign matter 40 such as wear debris removed from the bottom surface 12, the sample holder 11
  • the foreign matter 40 adhering to the bottom surface of the sample holder 11 can be removed by the brush 30 as it passes through the gap 41, and can be collected in the saucer 31, so that the foreign matter 40 can be removed more effectively.
  • the gap 41 between the transport modules 20 that may occur in the installation work becomes large, the bottom surface of the sample holder 11 can be supported by the brush 30, so that the sample holder 11 being transported is caught in the gap 41 and is stable. It is possible to suppress the problem of hindering the transport, and it becomes possible to cope with the increase / decrease of the gap 41.
  • the cleaning unit further includes a dust box 32, a suction duct 33, and a suction pump 34 for sucking foreign matter 40 such as wear debris contained in the saucer 31, so that the number of times the foreign matter 40 is removed can be reduced and maintenance can be performed. Work efficiency can be further improved.
  • FIG. 6 is a diagram showing an outline configuration of the sample transport device of this embodiment.
  • the transport module 20A constituting the sample transport device of this embodiment is a self-propelled transport method instead of the electromagnetic transport method as in the first embodiment.
  • the sample holder 11A is provided with wheels 11A1 on both side surfaces thereof, the wheels 11A1 are driven by a built-in battery, and a transport guide provided on the transport surface 22A of the transport module 20A. It is configured to be able to self-propell in two dimensions on the transport surface 22A along the slot 26A.
  • the sample holder 11A moves forward or backward, and the wheels 11A1 on both sides of the sample holder 11A rotate in opposite directions. At that time, the sample holder 11A can rotate on the spot and change the traveling direction.
  • a sample container 10 containing a sample is erected in such a sample holder 11A and transported to a destination.
  • the cleaning unit in this embodiment is provided in the gap 41A between the plurality of transport modules 20A, and is in contact with the bottom surface 12 of the sample holder 11.
  • the details of the cleaning unit are the same as those shown in FIGS. 3 and 4 or 5, and the details thereof will be omitted.
  • the sample transport device of Example 2 of the present invention also has almost the same effect as the sample transport device of Example 1 described above.
  • FIG. 7 is a diagram schematically showing the overall configuration of a sample inspection automation system provided with the sample transfer device of this embodiment
  • FIG. 8 is a plan view of the sample transfer device.
  • the sample transfer device 150B of the present embodiment uses a line-shaped transfer line 20B instead of the transfer module 20 capable of transporting the holder on a two-dimensional plane as in the first embodiment. Is configured.
  • the transport line 20B of this embodiment basically has the same electromagnetic transport method as that of the transport module of the first embodiment, and is attracted by an electromagnet 21 provided on the opposite side of the surface on which the sample holder 11 slides.
  • the sample holder 11 slides on the rail 22B laid in advance by the force / repulsive force.
  • the cleaning portion in this embodiment is provided in the gap 41B between the plurality of transport lines 20B, and is in contact with the bottom surface 12 of the sample holder 11.
  • the details of the cleaning unit are the same as those shown in FIGS. 3 and 4 or 5, and the details thereof will be omitted.
  • the sample transport device of Example 3 of the present invention also has almost the same effect as the sample transport device of Example 1 described above.
  • Specimen inspection automation system 10 ... Specimen container 11, 11A ... Specimen holder 11A 1 ... Wheel 12 ... Bottom surface 13 ... Magnetic material 20, 20A ... Conveying module (conveying panel) 20B ... Conveyance line (conveyance path) 21 ... Electromagnet (magnetic field control unit) 21a ... Core 21b ... Winding 22, 22A ... Transfer surface 22B ... Rail 23 ... Drive unit 24 ... Current detection unit 25 ... Calculation unit 26A ... Transfer guide slot 30 ... Brush 31 ... Recipient (accommodation unit) 32 ... Dust box (suction part) 33 ... Suction duct (suction part) 34 ...
  • Suction pump (suction part) 40 Foreign matter 41, 41A, 41B ... Gap 100 ... Pretreatment device 111 ... System control device 120 ... Transfer module 121 ... Electromagnet 122 ... Transfer surface 140 ... Abrasion powder 141 ... Gap 150, 150B ... Specimen transfer device 200 ... Analytical device

Abstract

A specimen carrying device 150 equipped with a plurality of carrying modules 20 for carrying a specimen holder 11 for holding a specimen container 10 containing a specimen, and further equipped with a cleaning unit which contacts the floor surface 12 of the specimen holder 11 and is provided to a gap 41 between the plurality of carrying modules 20. The cleaning unit has a brush 30 for removing foreign matter 40 such as wear debris from the floor surface 12, and a receiver tray 31 for storing the foreign matter 40 such as wear debris which the brush 30 has removed from the floor surface 12. As a result, the present invention provides a specimen carrying device equipped with a plurality of carrying modules and capable of better suppressing the intrusion of foreign matter onto a sliding surface than is the prior art.

Description

検体搬送装置Specimen transfer device
 本発明は、検体検査自動化システムにおける検体搬送装置に関する。 The present invention relates to a sample transport device in a sample test automation system.
 特許文献1には、研究室試料配送システムは、いくつかの容器キャリアであって、各々が少なくとも1つの磁気的活性デバイス、好ましくは少なくとも1つの永久磁石を備え、試料容器を運ぶように適合された容器キャリアと、容器キャリアを運ぶように適合された搬送平面と、搬送平面の下方に静止して配置されたいくつかの電磁アクチュエータであって、容器キャリアに磁力を印加することによって搬送平面の上で容器キャリアを移動させるように適合された電磁アクチュエータとを備えることが記載されている。 According to Patent Document 1, the laboratory sample delivery system is adapted to carry a sample container, each of which is a container carrier, each equipped with at least one magnetically active device, preferably at least one permanent magnet. A container carrier, a transport plane adapted to carry the container carrier, and several electromagnetic actuators statically placed below the transport plane that are placed on the transport plane by applying magnetic force to the container carrier. It is described above to include an electromagnetic actuator adapted to move the container carrier.
特表2014-532870号公報Japanese Patent Publication No. 2014-532870
 近年、医療分野での診断を目的とした検体検査において自動化機器を用いた検査の省力化、迅速化が進められている。 In recent years, labor saving and speeding up of tests using automated equipment have been promoted in sample tests for the purpose of diagnosis in the medical field.
 このために、検体検査自動化システムでは、前処理装置や、自動分析装置、後処理装置を検体搬送装置で接続して、血液の分析処理に係る作業の全自動化が進められている。 For this reason, in the sample test automation system, a pretreatment device, an automatic analysis device, and a post-treatment device are connected by a sample transfer device, and the work related to blood analysis processing is being fully automated.
 このような自動化システム内での検体の搬送には、検体の入った1本の検体容器を搭載可能な検体キャリアが用いられ、搬送面の下方に固定されて配列された複数の電磁石により磁場を発生させることで、検体キャリア内の磁石を吸引・反発させることにより搬送面上を滑走させる手法が知られている。この搬送方法により、1次元に加えて2次元での検体搬送を実現している。 A sample carrier capable of mounting a single sample container containing a sample is used for transporting a sample in such an automated system, and a magnetic field is applied by a plurality of electromagnets fixedly arranged below the transport surface. A method is known in which a magnet in a sample carrier is attracted and repelled by generating it to slide on a transport surface. This transport method realizes sample transport in two dimensions in addition to one dimension.
 特許文献1には、検体ホルダを搬送する際に「電磁アクチュエータは、容器キャリアに、すなわち容器キャリアの磁気的活性デバイスに、磁力を印加または引き起こすことによって、搬送平面の上で少なくとも2つの異なる方向に容器キャリアを移動させるように適合される。」ことが記載されている。 Patent Document 1 states that when transporting a specimen holder, "the electromagnetic actuator applies or causes a magnetic force to the container carrier, i.e., to the magnetically active device of the vessel carrier, in at least two different directions on the transport plane. Is adapted to move the container carrier. "
 搬送面上を滑走させる方式では、検体ホルダの底面と搬送面とが摺動しながら検体が搬送されることが多い。このため、摺動部には摩耗の少ない材料を使用することが一般的である。しかし、摺動を伴う搬送方式では摩耗が一切生じない構造とすることは不可能である。 In the method of sliding on the transport surface, the sample is often transported while the bottom surface of the sample holder and the transport surface slide. For this reason, it is common to use a material with less wear for the sliding portion. However, it is not possible to have a structure that does not cause any wear in the transport method that involves sliding.
 ここで、搬送面と検体ホルダ底面との摺動によって、搬送面や検体ホルダ底面由来の摩耗粉が発生する。また、搬送面と検体ホルダ底面との間には、大気中を漂う埃がどうしても介在してしまう。 Here, due to the sliding between the transport surface and the bottom surface of the sample holder, wear debris derived from the transport surface and the bottom surface of the sample holder is generated. In addition, dust floating in the atmosphere inevitably intervenes between the transport surface and the bottom surface of the sample holder.
 このような摩耗粉や埃等の異物がホルダ摺動面と搬送面の間に存在すると、摺動面の摩擦力のばらつきを増加させる懸念がある。このため、搬送距離が設定より短くなる、あるいは搬送に要する電流値の増加やそれに伴う発熱に対する対策が必要になるなど、様々な問題が生じる。また、研磨剤のように働き、摩耗を加速する懸念がある。 If such foreign matter such as wear debris and dust exists between the holder sliding surface and the transport surface, there is a concern that the variation in the frictional force of the sliding surface will increase. For this reason, various problems occur, such as the transport distance becoming shorter than the setting, the increase in the current value required for transport, and the need for measures against heat generation associated therewith. In addition, it acts like an abrasive and may accelerate wear.
 このためには、摺動面に異物を極力介在させないことが求められる。 For this purpose, it is required that foreign matter does not intervene in the sliding surface as much as possible.
 本発明は、複数の搬送モジュールを備えた検体搬送装置において、従来に比べて摺動面に異物が介在することを抑制することができる検体搬送装置を提供する。 The present invention provides a sample transfer device provided with a plurality of transfer modules, which can suppress foreign matter from intervening on the sliding surface as compared with the conventional case.
 本発明は、上記課題を解決する手段を複数含んでいるが、その一例を挙げるならば、検体が収容された検体容器を保持する検体ホルダを搬送する複数の搬送パネルと、複数の前記搬送パネルの相互間の隙間に設けられており、前記検体ホルダの底面と接触する清掃部と、を備えたことを特徴とする。 The present invention includes a plurality of means for solving the above problems, for example, a plurality of transport panels for transporting a sample holder holding a sample container containing a sample, and a plurality of the transport panels. It is characterized in that it is provided in a gap between the two, and is provided with a cleaning portion that comes into contact with the bottom surface of the sample holder.
 本発明によれば、従来に比べて摺動面に異物が介在することを抑制することができる。上記した以外の課題、構成および効果は、以下の実施例の説明により明らかにされる。 According to the present invention, it is possible to suppress the intervention of foreign matter on the sliding surface as compared with the conventional case. Issues, configurations and effects other than those mentioned above will be clarified by the description of the following examples.
本発明の実施例1の検体搬送装置を備えた検体検査自動化システムの全体構成を模式的に示す図。The figure which shows typically the whole structure of the sample inspection automation system provided with the sample transport device of Example 1 of this invention. 一般的な検体搬送装置の側面概略図。Schematic diagram of the side surface of a general sample transfer device. 実施例1の検体搬送装置の平面図。The plan view of the sample transporting apparatus of Example 1. FIG. 実施例1の検体搬送装置の清掃部の側面図。The side view of the cleaning part of the sample transporting apparatus of Example 1. FIG. 実施例1の検体搬送装置の清掃部の他の形態の側面図。The side view of another form of the cleaning part of the sample transporting apparatus of Example 1. FIG. 本発明の実施例2の検体搬送装置の概要構成を示す図。The figure which shows the outline structure of the sample transporting apparatus of Example 2 of this invention. 本発明の実施例3の検体搬送装置を備えた検体検査自動化システムの全体構成を模式的に示す図。The figure which shows typically the whole structure of the sample inspection automation system provided with the sample transport device of Example 3 of this invention. 実施例3の検体搬送装置の平面図。The plan view of the sample transporting apparatus of Example 3. FIG.
 以下に本発明の検体搬送装置の実施例を、図面を用いて説明する。なお、本明細書で用いる図面において、同一のまたは対応する構成要素には同一、または類似の符号を付け、これらの構成要素については繰り返しの説明を省略する場合がある。 Hereinafter, examples of the sample transport device of the present invention will be described with reference to the drawings. In the drawings used in the present specification, the same or corresponding components may be designated by the same or similar reference numerals, and repeated description of these components may be omitted.
 <実施例1> 
 本発明の検体搬送装置の実施例1について図1乃至図5を用いて説明する。 <Example 1>
Example 1 of the sample transport device of the present invention will be described with reference to FIGS. 1 to 5.
 最初に、検体検査自動化システムの全体構成について図1を用いて説明する。図1は本発明の実施例に係る検体検査自動化システム全体の構成を示す平面図である。 First, the overall configuration of the sample test automation system will be described with reference to FIG. FIG. 1 is a plan view showing the configuration of the entire sample inspection automation system according to the embodiment of the present invention.
 図1に示した本実施例による検体検査自動化システム1は、血液、尿などの検体の成分を自動で分析するための分析装置を備えたシステムである。 The sample test automation system 1 according to the present embodiment shown in FIG. 1 is a system provided with an analyzer for automatically analyzing the components of a sample such as blood and urine.
 検体検査自動化システム1の主な構成要素は、血液、尿などの検体が収容された検体容器10(図2等参照)が搭載された検体ホルダ11(図2参照)もしくは空ホルダを搬送する複数の検体搬送装置150、前処理装置100、分析装置200、検体検査自動化システム1を統合管理するシステム制御装置111で構成される。 The main components of the sample test automation system 1 are a plurality of sample holders 11 (see FIG. 2) or an empty holder on which a sample container 10 (see FIG. 2 and the like) containing samples such as blood and urine are stored. The sample transport device 150, the pretreatment device 100, the analyzer 200, and the system control device 111 that integrally manages the sample test automation system 1.
 検体検査自動化システム1における検査対象である検体は検体容器10に採取された状態でハンドリングされる。検体容器10はオペレータによって手作業で、または自動挿入ユニットによって検体ホルダ11に挿入され、検体検査自動化システム1内を搬送され、各種の処理が実施される。 The sample to be inspected in the sample inspection automation system 1 is handled in the state of being collected in the sample container 10. The sample container 10 is manually inserted into the sample holder 11 by an operator or by an automatic insertion unit, transported in the sample inspection automation system 1, and various processes are performed.
 前処理装置100は、分析処理の前に検体の前処理を行う部位である。前処理装置100では、検体の受付処理、遠心分離が必要な検体に対して遠心分離処理、検体の液量などの情報の取得、検体容器の栓を取り除く開栓処理、複数の容器に検体を小分けする分注処理などの検体の前処理工程が実施される。前処理装置100の詳細な構成は特に限定されず、公知の前処理装置の構成を採用することができる。 The pretreatment device 100 is a part for pretreating a sample before the analysis treatment. In the pretreatment device 100, a sample acceptance process, a centrifuge process for a sample requiring centrifugation, acquisition of information such as a sample liquid volume, an opening process for removing a plug from a sample container, and a sample in a plurality of containers. A sample pretreatment step, such as subdivision dispensing, is performed. The detailed configuration of the pretreatment device 100 is not particularly limited, and a known configuration of the pretreatment device can be adopted.
 検体搬送装置150は、前処理装置100や分析装置200等と接続し、これらの装置内で検体ホルダ11を搬送するための装置である。本実施例では、電磁アクチュエータにより検体ホルダ11を搬送平面上で2次元に搬送可能な搬送モジュール20を複数並べることで構成されている。前処理装置100において前処理が完了した検体は、検体搬送装置150によって分析装置200に搬送される。その詳細は図3以降を用いて詳細に説明する。 The sample transport device 150 is a device for connecting to a pretreatment device 100, an analyzer 200, and the like, and transporting the sample holder 11 in these devices. In this embodiment, a plurality of transport modules 20 capable of transporting the sample holder 11 two-dimensionally on the transport plane by an electromagnetic actuator are arranged. The sample for which the pretreatment has been completed in the pretreatment device 100 is transported to the analyzer 200 by the sample transfer device 150. The details will be described in detail with reference to FIGS. 3 and later.
 分析装置200は、検体に対して各種分析処理を施す装置である。分析処理が完了した検体は検体搬送装置150によって前処理装置100などに備えられた検体収納部に搬送され、一時的に保管される。 The analyzer 200 is an apparatus that performs various analytical processes on a sample. The sample for which the analysis process has been completed is transported by the sample transport device 150 to the sample storage unit provided in the pretreatment device 100 or the like, and is temporarily stored.
 分析装置200における分析項目は特に限定されず、生化学項目や免疫項目を分析する公知の自動分析装置の構成を採用することができる。更に、複数設ける場合に、同一仕様でも異なる仕様でもよく、特に限定されない。 The analysis items in the analyzer 200 are not particularly limited, and a configuration of a known automatic analyzer that analyzes biochemical items and immune items can be adopted. Further, when a plurality of specifications are provided, the same specifications or different specifications may be used, and the specifications are not particularly limited.
 システム制御装置111は、検体搬送装置150や分析装置200を含めたシステム全体の動作を制御するものであり、液晶ディスプレイ等の表示機器や入力機器、記憶装置、CPU、メモリなどを有するコンピュータで構成される。システム制御装置111による各機器の動作の制御は、記憶装置に記録された各種プログラムに基づき実行される。 The system control device 111 controls the operation of the entire system including the sample transfer device 150 and the analysis device 200, and is composed of a display device such as a liquid crystal display, an input device, a storage device, a CPU, and a computer having a memory. Will be done. The control of the operation of each device by the system control device 111 is executed based on various programs recorded in the storage device.
 なお、システム制御装置111で実行される動作の制御処理は、1つのプログラムにまとめられていても、それぞれが複数のプログラムに別れていてもよく、それらの組み合わせでもよい。また、プログラムの一部または全ては専用ハードウェアで実現してもよく、モジュール化されていても良い。 The operation control process executed by the system control device 111 may be integrated into one program, may be divided into a plurality of programs, or may be a combination thereof. Further, a part or all of the program may be realized by dedicated hardware or may be modularized.
 なお、上述の図1では、前処理装置100や分析装置200が1つ設けられている場合について説明しているが、これらの装置の数は特に限定されず、2つ以上とすることができる。同様に、検体搬送装置150を構成する搬送モジュール20の数についても特に限定されず、2つ以上とすることができる。 Although the above-mentioned FIG. 1 describes a case where one pretreatment device 100 and one analysis device 200 are provided, the number of these devices is not particularly limited and may be two or more. .. Similarly, the number of transport modules 20 constituting the sample transport device 150 is not particularly limited, and may be two or more.
 次に、本実施例の検体搬送装置150の構成について図2以降を用いて説明する。 Next, the configuration of the sample transfer device 150 of this embodiment will be described with reference to FIGS. 2 and 2.
 最初に、比較のために、一般的な搬送モジュールの構成について図2を用いて説明する。図2は、一般的な搬送モジュールを表す側面図である。 First, for comparison, the configuration of a general transport module will be described with reference to FIG. FIG. 2 is a side view showing a general transport module.
 搬送モジュール120の搬送面122は、摩擦力の小さい平らな面で構成されており、その裏側(下方)に電磁石121が等間隔に配列されている。 The transport surface 122 of the transport module 120 is composed of a flat surface having a small frictional force, and electromagnets 121 are arranged at equal intervals on the back side (lower side) thereof.
 このような搬送モジュール120を複数並べることで搬送路を形成する。搬送モジュール120を複数並べる際には搬送面122の継ぎ目の影響なくスムーズに搬送するためには、隙間なく並べることが望まれる。しかし、実際の据付では、作業の都合上、搬送モジュール120の間に隙間141ができてしまう場合や、搬送モジュール120の間が近く、干渉するような場合が生じる可能性がある。特に、隙間141が広い場合、検体ホルダ11が搬送モジュール間の隙間141に引っ掛かり搬送不可能となる可能性がある。 A transport path is formed by arranging a plurality of such transport modules 120. When arranging a plurality of transport modules 120 smoothly, it is desirable to arrange them without gaps in order to smoothly transport the transport modules 120 without being affected by the seams of the transport surfaces 122. However, in actual installation, for convenience of work, there is a possibility that a gap 141 may be formed between the transport modules 120, or that the transport modules 120 are close to each other and interfere with each other. In particular, when the gap 141 is wide, the sample holder 11 may be caught in the gap 141 between the transport modules and transport may not be possible.
 また、検体ホルダ11を搬送面122上を摺動しながら滑走させる方式では、搬送面122と検体ホルダ11の底面との摺動で摩耗粉140が発生したり、埃が搬送面122と検体ホルダ11の底面との間に介在する懸念がある。 Further, in the method in which the sample holder 11 is slid while sliding on the transport surface 122, wear debris 140 is generated due to the sliding between the transport surface 122 and the bottom surface of the sample holder 11, and dust is generated between the transport surface 122 and the sample holder. There is a concern that it may intervene with the bottom surface of 11.
 このような課題に対する構成について以下図3乃至図5を用いて説明する。図3は本発明であるホルダ清掃部を実装した検体搬送装置の構成例を表す平面図である。図4は本発明の構成例を表す側面図である。図5は他の検体搬送装置の構成例を表す平面図である。 The configuration for such a problem will be described below with reference to FIGS. 3 to 5. FIG. 3 is a plan view showing a configuration example of a sample transfer device equipped with the holder cleaning unit of the present invention. FIG. 4 is a side view showing a configuration example of the present invention. FIG. 5 is a plan view showing a configuration example of another sample transport device.
 図3および図4に示すように、本実施例の検体搬送装置150を構成する搬送モジュール20では、検体が収容された検体容器10が架設された検体ホルダ11は、搬送モジュール20中に1つ以上搬送されている。複数の検体ホルダ11は検体容器10を1本搭載可能であり、各々の底面部分には磁性体13が設けられている。 As shown in FIGS. 3 and 4, in the transport module 20 constituting the sample transport device 150 of this embodiment, the sample holder 11 in which the sample container 10 containing the sample is erected is one in the transport module 20. It has been transported above. One sample container 10 can be mounted on the plurality of sample holders 11, and a magnetic material 13 is provided on the bottom surface of each sample container 11.
 磁性体13は、例えばネオジムやフェライトなどの永久磁石で構成されるが、その他の磁石および軟磁性体でも構成でき、それらを適宜組み合わせたものとすることができる。 The magnetic material 13 is composed of permanent magnets such as neodymium and ferrite, but can also be composed of other magnets and soft magnetic materials, and can be appropriately combined.
 磁性体13を有する検体ホルダ11は、摩擦力の小さい平らな搬送面22の上を滑るように移動する。その搬送力を生成するために、搬送面22の下部には、円柱状の磁性体からなるコア21a、およびそのコア21aの外周に巻かれた巻線21bで構成される電磁石21が複数設けられている。この電磁石21が、磁性体13の位置を検出する複数の検出点の各々を構成する。また、この電磁石21を覆うようにその上方に搬送路が複数設けられる。 The sample holder 11 having the magnetic material 13 slides on a flat transport surface 22 having a small frictional force. In order to generate the transfer force, a plurality of electromagnets 21 composed of a core 21a made of a columnar magnetic material and windings 21b wound around the outer circumference of the core 21a are provided below the transfer surface 22. ing. The electromagnet 21 constitutes each of a plurality of detection points for detecting the position of the magnetic body 13. Further, a plurality of transport paths are provided above the electromagnet 21 so as to cover the electromagnet 21.
 本実施例の搬送モジュール20では、その内部に複数設けられている電磁石21は、磁性体13の位置検出を担うとともに、磁性体13の搬送、すなわち検体の搬送を担っている。 In the transport module 20 of this embodiment, a plurality of electromagnets 21 provided inside the transport module 20 are responsible for detecting the position of the magnetic body 13 and for transporting the magnetic body 13, that is, transporting a sample.
 電磁石21には、電磁石21に対して所定の電圧を印加することで所定の電流を巻線21bに流す駆動部23が接続されている。この駆動部23によって電圧が印加された電磁石21は電磁石として働き、磁場を発生させることで、検体ホルダ11内の磁性体13を吸引・反発することができる。電磁石21によって検体ホルダ11を吸引・反発させた後に、電磁石21への駆動部23より電圧印加を止め、電磁石21と隣り合う異なった電磁石21に前述と同様にして駆動部23より電圧を印加することで、隣り合った電磁石21に検体ホルダ11の磁性体13を吸引・反発させる。 The electromagnet 21 is connected to a drive unit 23 that allows a predetermined current to flow through the winding 21b by applying a predetermined voltage to the electromagnet 21. The electromagnet 21 to which a voltage is applied by the drive unit 23 acts as an electromagnet, and by generating a magnetic field, the magnetic body 13 in the sample holder 11 can be attracted and repelled. After the sample holder 11 is attracted and repelled by the electromagnet 21, the voltage application to the electromagnet 21 is stopped by the drive unit 23, and the voltage is applied from the drive unit 23 to a different electromagnet 21 adjacent to the electromagnet 21 in the same manner as described above. As a result, the magnetic material 13 of the sample holder 11 is attracted and repelled by the adjacent electromagnets 21.
 この手順を搬送路を構成するすべての電磁石21で繰り返すことによって、磁性体13が設けられている検体ホルダ11に保持された検体容器10内に収容された検体を、電磁石21の配列に沿って搬送面22上を2次元状に目的地まで搬送する。 By repeating this procedure with all the electromagnets 21 constituting the transport path, the sample stored in the sample container 10 held in the sample holder 11 provided with the magnetic material 13 is placed along the arrangement of the electromagnets 21. It is transported to the destination in a two-dimensional manner on the transport surface 22.
 この搬送中の電磁石21の巻線21bを流れる電流は、電流検出部24によって検出される。電流検出部24で検出された電磁石21の巻線21bを流れる電流は、演算部25に送られて数値化処理され、検体ホルダ11の位置に依存した電流変化量曲線が取得される。このような検体ホルダ11の位置に依存した電流変化量曲線を取得することで、検体ホルダ11の位置検出が可能となる。 The current flowing through the winding 21b of the electromagnet 21 during transportation is detected by the current detection unit 24. The current flowing through the winding 21b of the electromagnet 21 detected by the current detection unit 24 is sent to the calculation unit 25 and quantified, and a current change amount curve depending on the position of the sample holder 11 is acquired. By acquiring such a current change amount curve depending on the position of the sample holder 11, the position of the sample holder 11 can be detected.
 演算部25では、システム制御装置111からの指令に基づいて、電流変化量曲線から検体の位置を特定する。なお、位置検出処理については、演算部25で実行してもよいし、システム制御装置111で実行してもよいが、本実施例ではシステム制御装置111において位置検出の際の各種設定を決定し、演算部25で実行するものとする。 The calculation unit 25 specifies the position of the sample from the current change amount curve based on the command from the system control device 111. The position detection process may be executed by the calculation unit 25 or the system control device 111, but in this embodiment, the system control device 111 determines various settings for position detection. , It is assumed that it is executed by the calculation unit 25.
 また、演算部25は、検体ホルダ11の位置情報や速度情報、重量情報等の各種情報を用いて、各々の巻線21bに流す電流を演算し、各々の駆動部23に指令信号を出力する。駆動部23はその指令信号に基づいて対応する巻線21bに電圧を印加する。 Further, the calculation unit 25 calculates the current flowing through each winding 21b using various information such as position information, speed information, and weight information of the sample holder 11, and outputs a command signal to each drive unit 23. .. The drive unit 23 applies a voltage to the corresponding winding 21b based on the command signal.
 なお、搬送モジュール20の構成は上述の構成に限定されず、例えば、検体ホルダ11の位置をセンサなどで検出する構成や、一次元状の搬送路上を電磁搬送する構成(後述する実施例3参照)とすることができる。 The configuration of the transport module 20 is not limited to the above configuration, for example, a configuration in which the position of the sample holder 11 is detected by a sensor or the like, or a configuration in which electromagnetic transport is performed on a one-dimensional transport path (see Example 3 described later). ).
 ここで、図3および図4に示すように、搬送モジュール20は複数並べることで搬送路を形成する。検体を並べる際には搬送面22の継ぎ目の影響なく検体ホルダ11をスムーズに搬送するため、隙間なく並べることが望ましいが、上述のように困難なことがある。そこで、本発明による検体搬送装置150では、搬送モジュール20を複数並べて設置する際、搬送面22の間に所定の隙間41が空くように設置する。 Here, as shown in FIGS. 3 and 4, a plurality of transport modules 20 are arranged to form a transport path. When arranging the samples, it is desirable to arrange them without gaps in order to smoothly transfer the sample holder 11 without the influence of the seam of the transport surface 22, but it may be difficult as described above. Therefore, in the sample transfer device 150 according to the present invention, when a plurality of transfer modules 20 are installed side by side, they are installed so that a predetermined gap 41 is provided between the transfer surfaces 22.
 そして検体搬送装置150に設けられる1箇所以上の隙間41のうち、少なくとも1箇所以上の隙間41に、検体ホルダ11の底面12と接触する清掃部を設ける。 Then, of the one or more gaps 41 provided in the sample transport device 150, at least one gap 41 is provided with a cleaning portion that comes into contact with the bottom surface 12 of the sample holder 11.
 清掃部は、本実施例では、底面12から摩耗粉等の異物40を除去するブラシ30と、ブラシ30が底面12から除去した摩耗粉等の異物40を収容する受け皿31と、を有するものとする。 In this embodiment, the cleaning unit has a brush 30 for removing foreign matter 40 such as wear debris from the bottom surface 12, and a saucer 31 for accommodating the foreign matter 40 such as wear debris removed from the bottom surface 12 by the brush 30. do.
 この清掃部により、検体搬送装置150で検体を搬送する搬送過程において搬送モジュール20間を渡る際に、検体ホルダ11底面にブラシ30が接触しながら隙間41を通過するものとすることができる。このように、ブラシ30で隙間を通過している検体ホルダ11を支えることで、搬送モジュール20間の搬送中に検体ホルダ11が隙間41に引っ掛かることを抑制する。 With this cleaning unit, it is possible to allow the brush 30 to pass through the gap 41 while contacting the bottom surface of the sample holder 11 when crossing between the transport modules 20 in the transport process of transporting the sample by the sample transport device 150. By supporting the sample holder 11 passing through the gap with the brush 30 in this way, it is possible to prevent the sample holder 11 from being caught in the gap 41 during transportation between the transfer modules 20.
 また、ブラシ30は検体ホルダ11が通過する際、検体ホルダ11の底面を掃くことになる。これにより検体ホルダ11底面の搬送面22との摺動部に付着した摩耗粉等の異物40を除去することができる。 Further, the brush 30 sweeps the bottom surface of the sample holder 11 when the sample holder 11 passes through. As a result, foreign matter 40 such as wear debris adhering to the sliding portion of the bottom surface of the sample holder 11 with the transport surface 22 can be removed.
 なお、検体ホルダ11と搬送面22は摺動しているため、静電気が発生して異物40を吸着する可能性がある。この場合、ブラシ30にカーボンや金属ワイヤ等、導電性を持つ繊維を混ぜ込むことで検体ホルダ11底面の静電気を除電することでより効果的に異物40を除去することができる。 Since the sample holder 11 and the transport surface 22 are slid, static electricity may be generated and the foreign matter 40 may be adsorbed. In this case, the foreign matter 40 can be removed more effectively by eliminating static electricity on the bottom surface of the sample holder 11 by mixing conductive fibers such as carbon and metal wires into the brush 30.
 上記効果を確実に得るため、ブラシ30は検体ホルダ11と接触するよう先端が搬送面22と同等の高さから所定の許容差の範囲に調整され、設置されることが望ましい。 In order to surely obtain the above effect, it is desirable that the tip of the brush 30 is adjusted to a predetermined tolerance range from the same height as the transport surface 22 so as to be in contact with the sample holder 11 and installed.
 ブラシ30により掃き出された異物40が搬送面22上に再度まき散らされないよう、受け皿31によって収容される。受け皿31を取り外しが可能な構造とすることで、受け皿31に回収した異物40を容易に廃棄することが可能となる。また、検体ホルダ11底面との摺動により摩耗したブラシ30は摩耗の限度を超える前に交換が必要となる。ブラシ30を取り外し可能な受け皿31に固定する構造とすることでブラシ30の交換も容易にすることができる。 The foreign matter 40 swept out by the brush 30 is housed by the saucer 31 so as not to be scattered again on the transport surface 22. By making the saucer 31 removable, it is possible to easily dispose of the foreign matter 40 collected in the saucer 31. Further, the brush 30 worn by sliding with the bottom surface of the sample holder 11 needs to be replaced before the wear limit is exceeded. The brush 30 can be easily replaced by fixing the brush 30 to the removable saucer 31.
 図5は本発明にかかる清掃部に異物40の吸引機構を追加した構成の側面断面図である。 FIG. 5 is a side sectional view of a configuration in which a suction mechanism for foreign matter 40 is added to the cleaning portion according to the present invention.
 図5に示すように、本構成の吸引機構は、受け皿31に収容された摩耗粉等の異物40を吸引するダストボックス32、図3等の構成の受け皿31の下部に接続される吸引ダクト33、吸引ポンプ34で構成される。 As shown in FIG. 5, the suction mechanism of the present configuration includes a dust box 32 that sucks foreign matter 40 such as wear debris contained in the saucer 31, and a suction duct 33 connected to the lower part of the saucer 31 of the configuration of FIG. It is composed of a suction pump 34.
 本構成では、システムの動作中、吸引ポンプ34が空気を吸引する。ブラシ30を検体ホルダ11が通過するとき検体ホルダ11底面に付着した異物40がブラシ30で掃き取られる。 In this configuration, the suction pump 34 sucks air while the system is operating. When the sample holder 11 passes through the brush 30, the foreign matter 40 adhering to the bottom surface of the sample holder 11 is swept away by the brush 30.
 この異物40は吸引ポンプ34に吸われた空気とともに吸引され、吸引ダクト33を介してダストボックス32に運ばれる。ダストボックス32ではフィルターや遠心力等の手段により吸引した異物40と空気をと分離する。異物40はダストボックス32に収容され、空気のみが吸引ポンプ34で吸引されて装置外部に排出される。 The foreign matter 40 is sucked together with the air sucked by the suction pump 34 and is carried to the dust box 32 via the suction duct 33. In the dust box 32, the foreign matter 40 sucked by means such as a filter or centrifugal force and the air are separated. The foreign matter 40 is housed in the dust box 32, and only air is sucked by the suction pump 34 and discharged to the outside of the device.
 ここで、ダストボックス32は取り外し可能にしたり、使い捨ての回収パックを取り付け可能にしたりすることで異物40を容易に廃棄できる構造とする。 Here, the dust box 32 is made removable or a disposable collection pack can be attached so that the foreign matter 40 can be easily disposed of.
 また、ダストボックス32から複数の吸引ダクト33で複数の受け皿31を接続することにより、複数の位置でホルダ底から清掃した異物40を1つのダストボックス32に収容することができる。これにより、複数の受け皿から異物40を廃棄する手間を1つのダストボックス32からの廃棄にまとめることが可能となり、メンテナンスの作業効率を向上することができる。 Further, by connecting a plurality of trays 31 from the dust box 32 with a plurality of suction ducts 33, foreign matter 40 cleaned from the bottom of the holder at a plurality of positions can be stored in one dust box 32. As a result, it is possible to consolidate the labor of disposing of the foreign matter 40 from the plurality of saucers into the disposal from one dust box 32, and it is possible to improve the work efficiency of maintenance.
 また、ブラシ30で掃き取った異物40を空気で吸引するため、搬送装置上へ再度舞い上がることを防止することができる。これにより清掃の効率を向上することが可能となる。 Further, since the foreign matter 40 swept by the brush 30 is sucked by air, it is possible to prevent it from flying up again on the transport device. This makes it possible to improve the efficiency of cleaning.
 なお、図3乃至図5の形態では、清掃部をブラシ30として記述しているがこれに限らない。清掃部の他の形態として、粘着性のあるローラーをモジュール間の隙間に搬送面22と同等の高さで設置し、受け渡し時に検体ホルダ11が隙間41に引っ掛からないよう支えるとともに、検体ホルダ11底面に付着した異物40を除去する構成を採用することができる。 In the form of FIGS. 3 to 5, the cleaning portion is described as the brush 30, but the present invention is not limited to this. As another form of the cleaning unit, an adhesive roller is installed in the gap between the modules at the same height as the transport surface 22 to support the sample holder 11 so that it does not get caught in the gap 41 at the time of delivery, and the bottom surface of the sample holder 11. It is possible to adopt a configuration for removing the foreign matter 40 adhering to the.
 また、清掃部はすべての搬送モジュール20間に配置される必要はない。数モジュールに1か所等、配置する部位を限定することで、定期的なメンテナンスが必要である、受け皿31に収容した異物40の廃棄の手間を低減することができる。 Also, the cleaning unit does not have to be arranged between all the transport modules 20. By limiting the place to be arranged such as one place in several modules, it is possible to reduce the trouble of disposing of the foreign matter 40 housed in the saucer 31, which requires regular maintenance.
 次に、本実施例の効果について説明する。 Next, the effect of this embodiment will be described.
 上述した本発明の実施例1の検体搬送装置150は、検体が収容された検体容器10を保持する検体ホルダ11を搬送する複数の搬送モジュール20と、複数の搬送モジュール20の相互間の隙間41に設けられており、検体ホルダ11の底面12と接触する清掃部と、を備えている。 In the sample transport device 150 of the first embodiment of the present invention described above, the gap 41 between the plurality of transport modules 20 for transporting the sample holder 11 holding the sample container 10 containing the sample and the plurality of transport modules 20. The sample holder 11 is provided with a cleaning portion that comes into contact with the bottom surface 12 of the sample holder 11.
 このような構成により、簡易な構成で検体ホルダ11の摺動面から異物40を清掃し除去することができ、搬送面22の摩耗を低減することが可能となる。また、搬送モジュール20間の隙間41を調整する余地が確保できるため、据付作業上発生し得る隙間41の許容範囲を拡大することができ、隙間41に検体ホルダ11が引っかかることを従来に比べて抑制することができる。 With such a configuration, the foreign matter 40 can be cleaned and removed from the sliding surface of the sample holder 11 with a simple configuration, and the wear of the transport surface 22 can be reduced. Further, since the room for adjusting the gap 41 between the transport modules 20 can be secured, the allowable range of the gap 41 that may occur in the installation work can be expanded, and the sample holder 11 is caught in the gap 41 as compared with the conventional case. It can be suppressed.
 また、清掃部は、底面12から摩耗粉等の異物40を除去するブラシ30と、ブラシ30が底面12から除去した摩耗粉等の異物40を収容する受け皿31と、を有するため、検体ホルダ11が隙間41を通過する際にブラシ30により検体ホルダ11の底面に付着した異物40を除去し、受け皿31に回収することができるため、より効果的に異物40を除去することができる。また、据付作業上生じ得る搬送モジュール20間の隙間41が大きくなっても、ブラシ30により検体ホルダ11の底面を支えることができるため、搬送中の検体ホルダ11が隙間41に引っ掛かることで安定した搬送を阻害する、との問題が生じることを抑制でき、隙間41の増減にも対応できるようになる。 Further, since the cleaning unit has a brush 30 for removing foreign matter 40 such as wear debris from the bottom surface 12, and a saucer 31 for accommodating the foreign matter 40 such as wear debris removed from the bottom surface 12, the sample holder 11 The foreign matter 40 adhering to the bottom surface of the sample holder 11 can be removed by the brush 30 as it passes through the gap 41, and can be collected in the saucer 31, so that the foreign matter 40 can be removed more effectively. Further, even if the gap 41 between the transport modules 20 that may occur in the installation work becomes large, the bottom surface of the sample holder 11 can be supported by the brush 30, so that the sample holder 11 being transported is caught in the gap 41 and is stable. It is possible to suppress the problem of hindering the transport, and it becomes possible to cope with the increase / decrease of the gap 41.
 更に、清掃部は、受け皿31に収容された摩耗粉等の異物40を吸引するダストボックス32、吸引ダクト33、吸引ポンプ34を更に有することで、異物40を除去する回数を減らすことができ、メンテナンスの作業効率を更に向上することができる。 Further, the cleaning unit further includes a dust box 32, a suction duct 33, and a suction pump 34 for sucking foreign matter 40 such as wear debris contained in the saucer 31, so that the number of times the foreign matter 40 is removed can be reduced and maintenance can be performed. Work efficiency can be further improved.
 <実施例2> 
 本発明の実施例2の検体搬送装置について図6を用いて説明する。図6は本実施例の検体搬送装置の概要構成を示す図である。 <Example 2>
The sample transport device according to the second embodiment of the present invention will be described with reference to FIG. FIG. 6 is a diagram showing an outline configuration of the sample transport device of this embodiment.
 図6に示すように、本実施例の検体搬送装置を構成する搬送モジュール20Aは、実施例1のような電磁搬送方式の代わりに、自走式の搬送方式となっている。 As shown in FIG. 6, the transport module 20A constituting the sample transport device of this embodiment is a self-propelled transport method instead of the electromagnetic transport method as in the first embodiment.
 本実施例では、検体ホルダ11Aは、図6に示すように、その両側面に車輪11A1を備えており、内蔵電池により車輪11A1を駆動し、搬送モジュール20Aの搬送面22Aに設けられた搬送ガイド用スロット26Aに沿って、搬送面22A上を2次元に自走できる構成になっている。 In this embodiment, as shown in FIG. 6, the sample holder 11A is provided with wheels 11A1 on both side surfaces thereof, the wheels 11A1 are driven by a built-in battery, and a transport guide provided on the transport surface 22A of the transport module 20A. It is configured to be able to self-propell in two dimensions on the transport surface 22A along the slot 26A.
 搬送は、検体ホルダ11Aの両側面の車輪11A1がお互いに同方向に回転するときは、検体ホルダ11Aが前進もしくは後退移動し、検体ホルダ11Aの両側面の車輪11A1がお互いに逆方向に回転するときは、検体ホルダ11Aはその場で回転し、進行方向を変えられる。このような検体ホルダ11Aに検体が収容された検体容器10が架設され、目的地まで搬送される。 In the transport, when the wheels 11A1 on both sides of the sample holder 11A rotate in the same direction, the sample holder 11A moves forward or backward, and the wheels 11A1 on both sides of the sample holder 11A rotate in opposite directions. At that time, the sample holder 11A can rotate on the spot and change the traveling direction. A sample container 10 containing a sample is erected in such a sample holder 11A and transported to a destination.
 本実施例における清掃部は、複数の搬送モジュール20Aの相互間の隙間41Aに設けられており、検体ホルダ11の底面12と接触するものとなっている。清掃部の詳細は、図3および図4の形態、あるいは図5に示す形態と同じであり、その詳細は省略する。 The cleaning unit in this embodiment is provided in the gap 41A between the plurality of transport modules 20A, and is in contact with the bottom surface 12 of the sample holder 11. The details of the cleaning unit are the same as those shown in FIGS. 3 and 4 or 5, and the details thereof will be omitted.
 その他の構成・動作は前述した実施例1の検体搬送装置と略同じ構成・動作であり、詳細は省略する。 Other configurations / operations are substantially the same as those of the sample transport device of the first embodiment described above, and details are omitted.
 本発明の実施例2の検体搬送装置においても、前述した実施例1の検体搬送装置とほぼ同様な効果が得られる。 The sample transport device of Example 2 of the present invention also has almost the same effect as the sample transport device of Example 1 described above.
 <実施例3> 
 本発明の実施例3の検体搬送装置について図7および図8を用いて説明する。図7は本実施例の検体搬送装置を備えた検体検査自動化システムの全体構成を模式的に示す図、図8は検体搬送装置の平面図である。 <Example 3>
The sample transport device according to the third embodiment of the present invention will be described with reference to FIGS. 7 and 8. FIG. 7 is a diagram schematically showing the overall configuration of a sample inspection automation system provided with the sample transfer device of this embodiment, and FIG. 8 is a plan view of the sample transfer device.
 図7および図8に示すように、本実施例の検体搬送装置150Bは、実施例1のような2次元平面上をホルダ搬送できる搬送モジュール20の代わりに、ライン状の搬送ライン20Bにより搬送装置が構成される。 As shown in FIGS. 7 and 8, the sample transfer device 150B of the present embodiment uses a line-shaped transfer line 20B instead of the transfer module 20 capable of transporting the holder on a two-dimensional plane as in the first embodiment. Is configured.
 本実施例の搬送ライン20Bは、基本的には実施例1の搬送モジュールと同じ電磁搬送方式であり、検体ホルダ11が滑走する側の面の反対側に設けられた電磁石21によって発生させた吸引力・反発力により、予め敷設されたレール22Bの上を検体ホルダ11が摺動しながら滑走する。 The transport line 20B of this embodiment basically has the same electromagnetic transport method as that of the transport module of the first embodiment, and is attracted by an electromagnet 21 provided on the opposite side of the surface on which the sample holder 11 slides. The sample holder 11 slides on the rail 22B laid in advance by the force / repulsive force.
 本実施例における清掃部は、複数の搬送ライン20Bの相互間の隙間41Bに設けられており、検体ホルダ11の底面12と接触するものとなっている。清掃部の詳細は、図3および図4の形態、あるいは図5に示す形態と同じであり、その詳細は省略する。 The cleaning portion in this embodiment is provided in the gap 41B between the plurality of transport lines 20B, and is in contact with the bottom surface 12 of the sample holder 11. The details of the cleaning unit are the same as those shown in FIGS. 3 and 4 or 5, and the details thereof will be omitted.
 その他の構成・動作は前述した実施例1の検体搬送装置と略同じ構成・動作であり、詳細は省略する。 Other configurations / operations are substantially the same as those of the sample transport device of the first embodiment described above, and details are omitted.
 本発明の実施例3の検体搬送装置においても、前述した実施例1の検体搬送装置とほぼ同様な効果が得られる。 The sample transport device of Example 3 of the present invention also has almost the same effect as the sample transport device of Example 1 described above.
 <その他> 
 なお、本発明は、上記の実施例に限定されるものではなく、様々な変形例が含まれる。上記の実施例は本発明を分かりやすく説明するために詳細に説明したものであり、必ずしも説明した全ての構成を備えるものに限定されるものではない。 <Others>
The present invention is not limited to the above examples, and includes various modifications. The above-mentioned examples have been described in detail in order to explain the present invention in an easy-to-understand manner, and are not necessarily limited to those having all the described configurations.
 また、ある実施例の構成の一部を他の実施例の構成に置き換えることも可能であり、また、ある実施例の構成に他の実施例の構成を加えることも可能である。また、各実施例の構成の一部について、他の構成の追加・削除・置換をすることも可能である。 It is also possible to replace a part of the configuration of one embodiment with the configuration of another embodiment, and it is also possible to add the configuration of another embodiment to the configuration of one embodiment. Further, it is also possible to add / delete / replace a part of the configuration of each embodiment with another configuration.
1…検体検査自動化システム
10…検体容器
11,11A…検体ホルダ
11A1…車輪
12…底面
13…磁性体
20,20A…搬送モジュール(搬送パネル)
20B…搬送ライン(搬送路)
21…電磁石(磁界制御部)
21a…コア
21b…巻線
22,22A…搬送面
22B…レール
23…駆動部
24…電流検出部
25…演算部
26A…搬送ガイド用スロット
30…ブラシ
31…受け皿(収容部)
32…ダストボックス(吸引部)
33…吸引ダクト(吸引部)
34…吸引ポンプ(吸引部)
40…異物
41,41A,41B…隙間
100…前処理装置
111…システム制御装置
120…搬送モジュール
121…電磁石
122…搬送面
140…摩耗粉
141…隙間
150,150B…検体搬送装置
200…分析装置 1 ... Specimen inspection automation system 10 ... Specimen container 11, 11A ... Specimen holder 11A 1 ... Wheel 12 ... Bottom surface 13 ... Magnetic material 20, 20A ... Conveying module (conveying panel)
20B ... Conveyance line (conveyance path)
21 ... Electromagnet (magnetic field control unit)
21a ... Core 21b ... Winding 22, 22A ... Transfer surface 22B ... Rail 23 ... Drive unit 24 ... Current detection unit 25 ... Calculation unit 26A ... Transfer guide slot 30 ... Brush 31 ... Recipient (accommodation unit)
32 ... Dust box (suction part)
33 ... Suction duct (suction part)
34 ... Suction pump (suction part)
40 ... Foreign matter 41, 41A, 41B ... Gap 100 ... Pretreatment device 111 ... System control device 120 ... Transfer module 121 ... Electromagnet 122 ... Transfer surface 140 ... Abrasion powder 141 ... Gap 150, 150B ... Specimen transfer device 200 ... Analytical device

Claims (6)

  1.  検体が収容された検体容器を保持する検体ホルダを搬送する複数の搬送パネルと、
     複数の前記搬送パネルの相互間の隙間に設けられており、前記検体ホルダの底面と接触する清掃部と、を備えた
     ことを特徴とする検体搬送装置。     Multiple transport panels for transporting sample holders that hold sample containers containing specimens,
    A sample transfer device provided in a gap between a plurality of the transfer panels and provided with a cleaning unit that comes into contact with the bottom surface of the sample holder.
  2.  請求項1に記載の検体搬送装置において、
     前記清掃部は、
      前記底面から異物を除去するブラシと、
      前記ブラシが前記底面から除去した前記異物を収容する収容部と、を有する
     ことを特徴とする検体搬送装置。     In the sample transport device according to claim 1,
    The cleaning part
    A brush that removes foreign matter from the bottom surface,
    A sample transporting device comprising: a storage portion for accommodating the foreign matter removed from the bottom surface of the brush.
  3.  請求項2に記載の検体搬送装置において、
     前記清掃部は、前記収容部に収容された前記異物を吸引する吸引部を更に有する
     ことを特徴とする検体搬送装置。     In the sample transport device according to claim 2,
    The cleaning unit further includes a suction unit for sucking the foreign matter contained in the storage unit.
  4.  磁性体を有しており、検体が収容された検体容器を保持する検体ホルダを搬送する複数の搬送路と、
     前記搬送路のうち、前記検体ホルダが滑走する側の面の反対側に設けられた磁界制御部と、
     複数の前記搬送路の相互間の隙間に設けられており、前記検体ホルダの底面と接触する清掃部と、を備えた
     ことを特徴とする検体搬送装置。     A plurality of transport paths for transporting a sample holder that has a magnetic material and holds a sample container containing a sample,
    Of the transport path, a magnetic field control unit provided on the opposite side of the surface on the side on which the sample holder slides,
    A sample transport device provided in a gap between a plurality of the transport paths, and provided with a cleaning unit that comes into contact with the bottom surface of the sample holder.
  5.  請求項4に記載の検体搬送装置において、
     前記清掃部は、
      前記底面から異物を除去するブラシと、
      前記ブラシが前記底面から除去した前記異物を収容する収容部と、を有する
     ことを特徴とする検体搬送装置。     In the sample transport device according to claim 4,
    The cleaning part
    A brush that removes foreign matter from the bottom surface,
    A sample transporting device comprising: a storage portion for accommodating the foreign matter removed from the bottom surface of the brush.
  6.  請求項5に記載の検体搬送装置において、
     前記清掃部は、前記収容部に収容された前記異物を吸引する吸引部を更に有する
     ことを特徴とする検体搬送装置。     In the sample transport device according to claim 5,
    The cleaning unit further includes a suction unit for sucking the foreign matter contained in the storage unit.
PCT/JP2021/009803 2020-07-10 2021-03-11 Specimen carrying device WO2022009476A1 (en)

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Cited By (1)

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Publication number Priority date Publication date Assignee Title
EP4310030A1 (en) * 2022-07-20 2024-01-24 Syntegon Technology GmbH Planar drive device and method for operating a planar drive device

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JPH01148965A (en) * 1987-12-07 1989-06-12 Hitachi Ltd Intermittent transfer apparatus for sample rack
JP2007527012A (en) * 2004-03-05 2007-09-20 ベックマン コールター,インコーポレイティド Magnetic specimen transport system for automated clinical equipment
JP2014532870A (en) * 2011-11-04 2014-12-08 エフ.ホフマン−ラ ロシュ アーゲーF. Hoffmann−La Roche Aktiengesellschaft Laboratory sample delivery system and corresponding operating method
CN208086690U (en) * 2018-02-05 2018-11-13 上海达和荣艺包装机械有限公司 A kind of cleaning plant of cylindric material

Patent Citations (4)

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Publication number Priority date Publication date Assignee Title
JPH01148965A (en) * 1987-12-07 1989-06-12 Hitachi Ltd Intermittent transfer apparatus for sample rack
JP2007527012A (en) * 2004-03-05 2007-09-20 ベックマン コールター,インコーポレイティド Magnetic specimen transport system for automated clinical equipment
JP2014532870A (en) * 2011-11-04 2014-12-08 エフ.ホフマン−ラ ロシュ アーゲーF. Hoffmann−La Roche Aktiengesellschaft Laboratory sample delivery system and corresponding operating method
CN208086690U (en) * 2018-02-05 2018-11-13 上海达和荣艺包装机械有限公司 A kind of cleaning plant of cylindric material

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP4310030A1 (en) * 2022-07-20 2024-01-24 Syntegon Technology GmbH Planar drive device and method for operating a planar drive device

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