JP5129281B2 - Remote management system - Google Patents

Description

  The present invention relates to a remote management system for remotely managing a clinical sample processing apparatus that processes clinical samples.

  A clinical specimen processing apparatus for processing clinical specimens, such as a smear preparation apparatus for preparing a blood specimen smear, a blood analyzer for analyzing a blood specimen, a urine analyzer for analyzing a urine specimen, a stool analyzer for analyzing a stool specimen, etc. Is widely known. When an abnormality occurs in such a clinical sample processing apparatus, it is necessary to notify the user or a support center that supports the apparatus of the abnormality. Therefore, a technique for informing a support center or the like that an abnormality has occurred in the apparatus has been proposed (see, for example, Patent Document 1).

  In Patent Document 1, the analysis apparatus and the management apparatus are connected via a network, the analysis apparatus transmits history information indicating the operation history to the management apparatus by e-mail, and the management apparatus has a history for each analysis apparatus. A support method for accumulating information is disclosed. This allows the support center engineer to check the accumulated history information on the management device, so that the user can grasp the status without requiring a detailed explanation of the status of the analysis device from the user. Recovery work can be facilitated.

JP 2001-229291 A

  However, many of the clinical specimen processing apparatuses described above have a complicated structure, and it may not be possible to grasp the detailed state of the apparatus only by examining the history information. In such a case, it is necessary for the support center to dispatch a technician to the user's facility where the clinical sample processing apparatus is installed, and to have the technician check the state of the clinical sample processing apparatus locally. It took a lot of time and effort to perform disaster recovery.

The present invention has been made in view of such circumstances, so that the state information of the clinical sample processing device and the image showing the detailed state of the clinical sample processing device can be confirmed by a management device far from the clinical sample processing device. It is an object of the present invention to provide a remote management system that enables a support center engineer or the like to remotely and easily perform management operations such as support processing, inspection, state investigation, and monitoring for a clinical sample processing apparatus. .

In order to solve the above-described problems, a remote management system according to an aspect of the present invention includes a clinical sample processing apparatus that processes a clinical sample, a management apparatus for remotely managing the clinical sample processing apparatus, and the clinical sample. the processor imaged, an imaging device for outputting an image signal, receives the image signal which the clinical specimen processing apparatus is captured by the imaging device, the first comprising a moving image the clinical specimen processing apparatus is captured and displays the screen on the first display unit, a display screen information for displaying a screen displayed on the first display unit, to the management apparatus, and a user-side terminal apparatus capable of transmitting over the network, the wherein the management apparatus based on the display screen information transmitted by the user terminal device, the first screen and the same second screen including a moving image of the clinical specimen processing device being displayed on the first display unit The Is configured to display on the second display portion, the user side terminal device, the state of the mechanism portion of the clinical specimen processing device, a high warning or abnormal conditions might fail in the future as compared with the normal state When the information is displayed, the state information indicating the warning state or the abnormal state is transmitted to the management device, and the management device displays the received state information on the second display unit. It is configured.

  In this aspect, the user side terminal device is configured to transmit the display screen information to the management device at a predetermined time interval, and the management device transmits the display screen information to the second display unit based on the received display screen information. It is preferable to be configured to update the displayed second screen.

  Moreover, in the said aspect, a 1st screen is a setting screen used for the setting of operation | movement of a clinical sample processing apparatus, and a clinical sample processing apparatus is from the setting screen displayed on the 1st display part of the user side terminal device. It is preferable that the operation setting is performed based on the input setting information.

  In the above aspect, when the setting information is input from the setting screen displayed as the second screen on the second display unit of the management device, the user-side terminal device is displayed on the second display unit of the management device. It is preferable that the operation setting of the clinical sample processing apparatus is configured based on the setting information input from the setting screen.

According to the remote management system of the present invention, a person having detailed knowledge about the structure of a clinical sample processing apparatus, such as a support center engineer, knows the state information of the clinical sample processing apparatus and then images the clinical sample processing apparatus. By confirming the image, it is possible to know the detailed state of the clinical sample processing apparatus without receiving an explanation of the detailed state of the apparatus from the user, so support processing, inspection, state investigation, monitoring, etc. for the clinical sample processing apparatus The present invention has an excellent effect that the management work can be easily performed remotely.

It is a schematic diagram which shows the structure of the remote management system which concerns on embodiment of this invention. It is a perspective view which shows the structure of the blood smear preparation apparatus which concerns on embodiment of this invention. It is a top view which shows the internal structure of the blood smear preparation apparatus which concerns on embodiment of this invention. It is a top view which shows the structure of the suction dispensing mechanism part of the blood smear preparation apparatus which concerns on embodiment of this invention. It is a top view which shows the structure of the 3rd suction discharge part of the dyeing | staining part of the blood smear preparation apparatus which concerns on embodiment of this invention. It is a fluid circuit diagram which shows the supply path | route of the dyeing liquid supplied to the 3rd suction discharge part of the dyeing | staining part shown in FIG. It is a block diagram which shows the structure of the state report apparatus which concerns on embodiment of this invention. It is a block diagram which shows the structure of the management apparatus which concerns on embodiment of this invention. It is a flowchart explaining the procedure of the status report process in the raising operation | movement of the dispensing pipette of the remote management system which concerns on embodiment of this invention. It is a flowchart explaining the procedure of the status report process in the raising operation | movement of the dispensing pipette of the remote management system which concerns on embodiment of this invention. It is a flowchart which shows the procedure of the remote support process of the blood smear preparation apparatus in the remote management system which concerns on embodiment of this invention. It is a flowchart which shows the procedure of the remote support process of the blood smear preparation apparatus in the remote management system which concerns on embodiment of this invention.

  Hereinafter, a remote management method, a remote management system, a status report device, and a management device according to embodiments of the present invention will be specifically described with reference to the drawings.

  FIG. 1 is a schematic diagram showing a configuration of a remote management system according to an embodiment of the present invention. As shown in FIG. 1, a remote management system 1 according to the present embodiment includes a blood smear preparation apparatus 2, a transport apparatus 3, a computer 4 that functions as a status report apparatus according to the present invention, an imaging apparatus 5, The computer 6 mainly functions as a management device according to the present invention. The blood smear preparation apparatus 2, the transport apparatus 3, the computer 4, and the imaging apparatus 5 are provided in a medical institution such as a hospital or a pathological examination facility, for example, and the computer 6 is a blood smear preparation apparatus 2 It is installed in a support center facility that supports maintenance and management work. The blood smear preparation apparatus 2 and the computer 4 are connected by an electric signal cable 4a so that data communication can be performed with each other. The computer 4 and the imaging apparatus 5 transmit the imaging signal of the imaging apparatus 5 to the computer 4. It is connected by an electric signal cable 4b so that it can be transmitted to the network. Further, the computer 4 and the computer 6 are connected by a communication network NW such as a dedicated line using a telephone line, a LAN, or the Internet so that data communication can be performed.

  FIG. 2 is a perspective view showing the configuration of the blood smear preparation apparatus according to the embodiment of the present invention. The blood smear preparation apparatus 2 is provided for preparing a smear of a blood sample. The blood smear preparation apparatus 2 includes a control unit 2a and is connected to a computer 4. Here, in this embodiment, the control part 2a of the blood smear preparation apparatus 2 consists of CPU, ROM, RAM, etc. The control unit 2a has a function of controlling the operation of the blood smear preparation device 2, a function of determining that the blood smear preparation device 2 is in an abnormal state, and the blood smear preparation device 2 being in a normal state. A function of determining that there is a warning state that is likely to break down in the future, and a function of transmitting information (abnormal information and warning information) that the blood smear preparation apparatus 2 is in an abnormal state and a warning state to the computer 4 Have Moreover, the conveying apparatus 3 is installed in the front surface of the blood smear preparation apparatus 2, and has the carrying-in part 3a and the taking-out part 3b. The transport device 3 is provided for automatically transporting the sample rack 100 storing the test tube 101 storing blood to the blood smear preparation device 2.

  3 to 5 are diagrams for explaining the structure of the blood smear preparation apparatus, and FIG. 6 is a supply path of the staining liquid supplied to the third suction / discharge section of the staining section of the blood smear preparation apparatus. FIG. Here, with reference to FIGS. 2-6, the whole structure of the blood smear preparation apparatus 2 and the conveying apparatus 3 is demonstrated. First, as shown in FIG. 2, in the blood smear preparation apparatus 2, in addition to the control section 2a, a display operation section 2b composed of a touch panel and a test tube 101 containing blood are smeared from the transport apparatus 3 side. A hand member 2c for transporting to the specimen preparation device 2 side is provided. Further, as shown in FIG. 3, the blood smear preparation apparatus 2 includes a suction / dispensing mechanism section 21, a smear section 22, a resin cassette 23, a cassette housing section 24, a cassette transport section 25, and a slide. The glass insertion part 26, the dyeing | staining part 27, and the storage part 28 are provided. As shown in FIG. 3, below the blood smear preparation apparatus 2, a plurality of containers 80 containing a staining solution used in the staining unit 27 and water for washing are disposed.

  The suction dispensing mechanism unit 21 has a function of sucking blood from the test tube 101 transported to the blood smear preparation apparatus 2 side by the hand member 2c (see FIG. 2) and dropping the sucked blood onto the slide glass 10. Have. As shown in FIG. 4, the suction / dispensing mechanism unit 21 dispenses a piercer (aspiration needle) 21 a for sucking blood from the test tube 101 (see FIG. 2) and the sucked blood onto the slide glass 10. Dispensing pipette 21b, a support member 21c for supporting the dispensing pipette 21b, and a front-rear drive motor for moving the support member 21c forward (in the direction of arrow A in FIG. 3) and backward (in the direction of arrow B in FIG. 3) 21d, a sensor 21e for detecting the position of the pipette pipette 21b in the horizontal direction by detecting a predetermined portion of the support member 21c, and a support member 21f for supporting the support member 21c and the front and rear drive motor 21d. A vertical drive motor 21g for moving the support member 21f upward (in the direction of arrow C in FIG. 4) and downward (in the direction of arrow D in FIG. 4), and a predetermined portion of the support member 21f And a sensor 21h for detecting the origin position in the vertical direction of the dispensation pipette 21b by detecting a. Note that a stepping motor that operates when a pulse signal is applied is used as the front-rear driving motor 21d and the vertical driving motor 21g.

  As shown in FIG. 3, the smearing unit 22 supplies the slide glass 10 to the dispensing / smearing position 90, smears and dries the blood dropped on the slide glass 10, and prints on the slide glass 10. Provided to do. In addition, the resin cassette 23 is configured to accommodate the smeared slide glass 10 and the liquid (staining liquid) used in the staining process. As shown in FIG. 5, the cassette 23 includes a slide glass storage hole 23a and a staining liquid suction / dispensing hole 23b. The slide glass storage hole 23a and the staining liquid suction / dispensing hole 23b are connected inside.

  As shown in FIG. 3, the cassette housing portion 24 is provided to carry the cassette 23 into the cassette carrying portion 25, and includes a feeding belt 24a. The cassette transport unit 25 is provided to transport the cassette 23 carried from the cassette housing unit 24 to the slide glass insertion unit 26 and the staining unit 27. As shown in FIG. 3, the cassette transport unit 25 includes a cassette transport member 25 a that can move in the horizontal direction, and a transport path 25 b for transporting the cassette 23 supplied from the cassette housing unit 24. The slide glass insertion portion 26 shown in FIG. 3 is provided to store the slide glass 10 that has been smeared and printed in the slide glass storage hole 23 a of the cassette 23.

  The staining unit 27 shown in FIG. 3 is provided for staining the smeared slide glass 10 by supplying the staining liquid to the staining liquid suction / dispensing hole 23b of the cassette 23 conveyed by the cassette conveying member 25a. It has been. The staining unit 27 includes a transport belt 27a for transporting the cassette 23 and first to fifth suction / discharge units 27b to 27f for supplying and discharging the staining liquid to and from the cassette 23.

  Here, referring to FIG. 5 and FIG. 6, of the first to fifth suction / discharge portions 27b to 27f, the third suction / discharge portion 27d is taken as an example, and the structure and the third suction / discharge portion 27d are used. The fluid path of the dyeing liquid to be performed will be described. As shown in FIG. 5, the third suction / discharge unit 27 d includes a supply pipette 71 and a discharge pipette 72 that supply and discharge the staining liquid to and from the cassette 23, and a pipette support member that supports the supply pipette 71 and the discharge pipette 72. 73, and a drive mechanism 74 having a motor 74a and a drive belt 74b for moving the pipette support member 73 in the vertical direction (the direction of arrow E in FIG. 5). The third suction / discharge section 27d is configured to supply and discharge the staining liquid by moving the supply pipette 71 and the discharge pipette 72 downward with respect to the cassette 23 by the drive mechanism section 74.

  Next, as shown in FIG. 6, the fluid path of the staining liquid supplied from the supply pipette 71 of the third suction / discharge unit 27d temporarily stores the staining liquid and a container 80 for storing the staining liquid. Chamber 81, an air pressure regulator 82 for pressurizing and depressurizing the chamber 81, a mixing chamber 83 for mixing a staining solution and a diluent for diluting the staining solution, and a chamber 81 And a mixing chamber 83, a diaphragm pump 84 for moving the staining solution, and a pressure regulator 85 for pressurizing and depressurizing the diaphragm pump 84. The chamber 81 is connected to the container 80, the atmospheric pressure regulator 82, the mixing chamber 83, and the discharge port by a pipe. The mixing chamber 83 is connected to the supply pipette 71 of the third suction / discharge unit 27d of the staining unit 27 by a pipe. Valves 86, 87, and 88 are installed between the container 80 and the chamber 81, between the chamber 81 and the mixing chamber 83, and between the chamber 81 and the discharge port, respectively. Diaphragm pump 84 is connected to valve 87 by a pipe. The mixing chamber 83 is connected to a pipe for supplying a diluent for diluting the staining solution.

  As shown in FIG. 6, the chamber 81 has a storage part 81a for storing the staining liquid, and a float switch 81b provided inside the storage part 81a. The float switch 81b is made of a material that can float in the staining solution, and supports a floating member 81d in which a magnet 81c is embedded, a floating member 81d that is movable in the vertical direction, and a magnetic detection type. And a support bar 81f with a built-in reed switch 81e. The reed switch 81e is embedded in a predetermined position of the support bar 81f that can detect the magnetism of the magnet 81c of the floating member 81d when the dyeing liquid in the storage portion 81a reaches a specified amount. In the float switch 81b, when the floating member 81d approaches the predetermined position, the reed switch 81e of the support bar 81f detects the magnetism of the magnet 81c in the floating member 81d and is turned on, and the floating member 81d is in the predetermined position. It is configured that the reed switch 81e of the support bar 81f is in an off state without being able to detect the magnetism of the magnet 81c in the floating member 81d when it is away from.

  The storage unit 28 shown in FIG. 3 is provided for storing the cassette 23 in which the slide glass 10 stained by the staining unit 27 is stored. The storage unit 28 is provided with a conveyance belt 28 a for conveying the cassette 23.

  Next, the configuration of the computer 4 will be described. FIG. 7 is a block diagram showing a configuration of the computer 4 according to the embodiment of the present invention. The computer 4 mainly includes a main body 41, an image display unit 42, and an input unit 43. The main body 41 mainly includes a CPU 41a, a ROM 41b, a RAM 41c, a hard disk 41d, a reading device 41e, an input / output interface 41f, a communication interface 41g, and an image output interface 41h. The CPU 41a, ROM 41b, and RAM 41c. The hard disk 41d, the reading device 41e, the input / output interface 41f, the communication interface 41g, and the image output interface 41h are connected by a bus 41i.

  The CPU 41a can execute computer programs stored in the ROM 41b and computer programs loaded in the RAM 41c. And when the said CPU 41a runs the computer program which is mentioned later, the computer 4 functions as a status report apparatus which concerns on this invention.

  The ROM 41b is configured by a mask ROM, PROM, EPROM, EEPROM, or the like, and stores a computer program executed by the CPU 41a, data used for the same, and the like.

  The RAM 41c is configured by SRAM, DRAM, or the like. The RAM 41c is used to read out computer programs recorded in the ROM 41b and the hard disk 41d. Further, when these computer programs are executed, they are used as a work area of the CPU 41a.

  The hard disk 41d is installed with various computer programs to be executed by the CPU 41a, such as an operating system and application programs, and data used for executing the computer programs.

  The reading device 41 e is configured by a flexible disk drive, a CD-ROM drive, a DVD-ROM drive, or the like, and can read a computer program or data recorded on the portable recording medium 44. The portable recording medium 44 stores a computer program for causing the computer to function as a status report device. The computer 4 reads out the computer program from the portable recording medium 44 and stores the computer program in the hard disk 41d. It is possible to install on.

  The computer program is not only provided by the portable recording medium 44, but also from an external device that is communicably connected to the computer 4 through an electric communication line (whether wired or wireless) through the electric communication line. It is also possible to provide. For example, the computer program according to the present invention may be stored in a hard disk of a server computer on the Internet, and the computer 4 may access the server computer to download the computer program and install it on the hard disk 41d. Is possible.

  The input / output interface 41f includes, for example, a serial interface such as USB, IEEE1394, and RS-232C, a parallel interface such as SCSI, IDE, and IEEE1284, and an analog interface including a D / A converter and an A / D converter. ing. An input unit 43 including a keyboard and a mouse is connected to the input / output interface 41f, and a user (for example, an examination engineer or an examiner) inputs data to the computer 4 by using the input unit 43. Is possible.

  Further, the above-described imaging device 5 is connected to the input / output interface 41f by USB, for example, so that an imaging signal of the imaging device 5 can be captured. The imaging device 5 is constituted by a CCD camera, a CMOS camera, or the like, and images an imaging target at a predetermined frame rate and outputs an imaging signal (moving image signal). The imaging device 5 is preferably a color video camera, but may be a monochrome video camera.

  Further, the blood smear preparation apparatus 2 described above is connected to the input / output interface 41f by, for example, USB, thereby receiving warning information and error information described later from the blood smear preparation apparatus 2, and blood smear. The operation setting of the specimen preparation device 2 can be performed.

  The communication interface 41g is, for example, an Ethernet (registered trademark) interface, and the computer 4 can transmit and receive data to and from the computer 6 connected to the communication network NW using a predetermined communication protocol. Is possible.

  The image output interface 41h is connected to an image display unit 42 constituted by an LCD, a CRT or the like, and outputs a video signal corresponding to the image data given from the CPU 41a to the image display unit 42. The image display unit 42 displays an image (screen) according to the input video signal.

  Next, the configuration of the computer 6 will be described. FIG. 8 is a block diagram showing a configuration of the computer 6 according to the embodiment of the present invention. The computer 6 mainly includes a main body 61, an image display unit 62, and an input unit 63. The main body 61 mainly includes a CPU 61a, a ROM 61b, a RAM 61c, a hard disk 61d, a reading device 61e, an input / output interface 61f, a communication interface 61g, and an image output interface 61h. The CPU 61a, ROM 61b, and RAM 61c. The hard disk 61d, the reading device 61e, the input / output interface 61f, the communication interface 61g, and the image output interface 61h are connected by a bus 61i.

  The CPU 61a can execute a computer program stored in the ROM 61b and a computer program loaded in the RAM 61c. The computer 61 functions as a management apparatus according to the present invention by the CPU 61a executing a computer program as described later.

  The ROM 61b is configured by a mask ROM, PROM, EPROM, EEPROM, or the like, and stores a computer program executed by the CPU 61a, data used for the same, and the like.

  The RAM 61c is configured by SRAM, DRAM, or the like. The RAM 61c is used to read out computer programs recorded in the ROM 61b and the hard disk 61d. Further, when these computer programs are executed, they are used as a work area of the CPU 61a.

  The hard disk 61d is installed with various computer programs to be executed by the CPU 61a, such as an operating system and application programs, and data used for executing the computer programs. In addition, an e-mail receiving server program is installed in the hard disk 61d, and an e-mail mailbox associated with an e-mail address for status reporting of the clinical sample processing apparatus is provided (not shown). ). When an e-mail addressed to the e-mail address is transmitted from the external computer 4, the e-mail is received by the e-mail receiving server program executed by the CPU 61a and stored in the mailbox.

  The reading device 61e is configured by a flexible disk drive, a CD-ROM drive, a DVD-ROM drive, or the like, and can read a computer program or data recorded on the portable recording medium 64. The portable recording medium 64 stores a computer program for functioning as a management device. The computer 6 reads the computer program according to the present invention from the portable recording medium 64, and stores the computer program in the hard disk 61d. It is possible to install on.

  The computer program is not only provided by the portable recording medium 64 but also from an external device that is communicably connected to the computer 6 through an electric communication line (whether wired or wireless) through the electric communication line. It is also possible to provide. For example, the computer program is stored in the hard disk of a server computer on the Internet. The computer 6 can access the server computer, download the computer program, and install it on the hard disk 61d. .

  The input / output interface 61f includes, for example, a serial interface such as USB, IEEE1394, and RS-232C, a parallel interface such as SCSI, IDE, and IEEE1284, and an analog interface including a D / A converter and an A / D converter. ing. An input unit 63 including a keyboard and a mouse is connected to the input / output interface 61 f, and a support center engineer can use the input unit 63 to input data to the computer 6.

  The communication interface 61g is, for example, an Ethernet (registered trademark) interface, and the computer 6 transmits and receives data to and from the computer 4 connected to the communication network NW using a predetermined communication protocol by the communication interface 61g. Is possible.

  The image output interface 61h is connected to an image display unit 62 composed of an LCD, a CRT, or the like, and outputs a video signal corresponding to the image data given from the CPU 61a to the image display unit 62. The image display unit 62 displays an image (screen) according to the input video signal.

  Next, the operation of the remote management system 1 according to this embodiment will be described. First, the chart information of the sample provider (patient) is input to a host computer (not shown). The blood smear preparation apparatus 2 shown in FIGS. 1 and 2 collects a blood sample from the test tube 101 placed on the sample rack 100 transported by the transport apparatus 3 according to the information of the host computer, and blood Make a smear.

  When a blood smear is prepared by the blood smear preparation apparatus 2, first, as a suction dispensing operation, as shown in FIG. 2, a sample rack 100 on which a test tube 101 containing a blood sample is placed is placed. Set in the carry-in part 3 a of the transport device 3. Then, the automatic suction start switch displayed on the display operation unit 2b is pressed. Thereby, the sample rack 100 is transported to the take-out unit 3b of the transport device 3. Then, after the hand member 2c of the blood smear preparation apparatus 2 lifts and stirs the test tube 101 of the sample rack 100, the test tube 101 is disposed in the suction dispensing mechanism unit 21 shown in FIG. Then, blood in the test tube 101 is sucked by the piercer 21a. Thereafter, the dispensing pipette 21b is moved forward (in the direction of arrow A in FIG. 3) and downward (in the direction of arrow D in FIG. 4) to the dispensing / smearing position 90 shown in FIG. 10 is dropped (dispensed) from the dispensing pipette 21b. After this dispensing operation, the dispensing pipette 21b is moved upward (in the direction of arrow C in FIG. 4) and backward (in the direction of arrow B in FIG. 3) to move to the origin position. When the dispensing pipette 21b is moved upward, the vertical driving motor 21g is driven in a state where the dispensing pipette 21b is located at the lower end position after the dispensing operation. Accordingly, the support member 21f that supports the dispensing pipette 21b is moved in the direction of arrow C in FIG. Then, when the support member 21f is detected by the sensor 21h, the driving of the vertical drive motor 21g is stopped. The ascending operation of the dispensing pipette 21b is controlled by the control unit 2a of the blood smear preparation apparatus 2.

  Here, the state report process in the raising operation of the dispensing pipette 21b according to the present embodiment will be described. 9 and 10 are flowcharts for explaining the procedure of the status report process in the ascending operation of the dispensing pipette of the management system according to the embodiment of the present invention. First, the control unit 2a of the blood smear preparation apparatus 2 drives the vertical drive motor 21g to move the dispensing pipette 21b upward (in the direction of arrow C in FIG. 4). The number of pulses of the given pulse signal is counted (step S1). After the raising operation of the dispensing pipette 21b is completed, the control unit 2a has the number of pulses given to the vertical drive motor 21g from the start to the end of the raising operation of the dispensing pipette 21b in the range of 2700 to 3300. It is discriminate | determined (step S2). If it is determined in step S2 that the number of pulses of the vertical drive motor 21g required from the start to the end of the ascending operation of the dispensing pipette 21b is within the range of 2700 to 3300 (in step S2) Yes), it can be determined that the ascending operation of the dispensing pipette 21b is in a normal state, and the control unit 2a continues the remaining blood smear preparation sequence and ends the process. When it is determined in step S2 that the number of pulses given to the vertical drive motor 21g from the start to the end of the ascending operation of the dispensing pipette 21b is not within the range of 2700 or more and 3300 or less (No in step S2). The controller 2a determines whether or not the number of pulses given to the vertical drive motor 21g from the start to the end of the ascending operation of the dispensing pipette 21b is in the range of 2400 to 2700, or 3300 to 3600. It discriminate | determines (step S3). In step S3, it is determined that the number of pulses given to the vertical drive motor 21g from the start to the end of the ascending operation of the dispensing pipette 21b is in the range of 2400 to 2700, or 3300 to 3600. In this case (Yes in step S3), it can be determined that the drive mechanism of the dispensing pipette 21b is in a state (warning state) that is highly likely to fail in the future. Therefore, in this case, the control unit 2a transmits warning information indicating that the drive mechanism of the dispensing pipette 21b is likely to fail in the future to the computer 4 (step S4), and the remaining blood smear. The specimen preparation sequence is continued and the process is terminated.

  In step S3, it is determined that the number of pulses of the vertical drive motor 21g required from the start to the end of the ascending operation of the dispensing pipette 21b is not in the range of 2400 to 2700, or 3300 to 3600. In this case (No in step S3), it can be determined that the drive mechanism of the dispensing pipette 21b is in an abnormal (error) state. Therefore, in this case, the control unit 2a of the blood smear preparing device 2 displays an error indicating an abnormality of the driving mechanism of the dispensing pipette 21b on the display operation unit 2b of the blood smear preparing device 2 (step S5). ), Error information indicating the abnormality is transmitted to the computer 4 (step S6). When the warning information or error information is transmitted from the blood smear sample apparatus 2, the CPU 41a of the computer 4 receives these information by the communication interface 41g (Yes in step S7), and receives the received warning information or error information. Save in the RAM 41c (step S8).

  Next, when the data received in step S7 is error information, the CPU 41a determines whether or not the error information needs to be urgently reported (step S9). This process is determined, for example, by determining in advance error information that needs to be urgently reported among the error information, and matching the error information. If it is determined in step S9 that the error information needs to be urgently reported (Yes in step S9), the e-mail address for the status report of the clinical sample processing apparatus is set as the destination, and the computer 4 An e-mail including the error information stored in the RAM 41c in the body part or attached file is created (step S10), the e-mail is immediately transmitted (step S11), and the process is terminated.

  On the other hand, if it is determined in step S9 that the error information is not to be urgently reported (No in step S9), the CPU 41a of the computer 4 shuts down the blood smear preparation apparatus 2 (in step S12). Yes), an e-mail including the error information or warning information stored in the RAM 41c of the computer 4 in the body part or the attached file is created with the e-mail address for reporting the status of the clinical sample processing apparatus as the destination (step S13). ), The electronic mail is transmitted (step S14). Then, the CPU 41a ends the process. On the other hand, when the blood smear preparing apparatus 2 does not shut down in step S12 (No in step S12), the CPU 41a returns the process to step S7.

  Further, the CPU 61a of the computer 6 receives the electronic mail transmitted from the computer 4 (Yes in step S15) and stores it in the mail box (step S16). The CPU 61a of the computer 6 accepts this instruction when an engineer gives an instruction to display an e-mail from the input unit 63 (Yes in step S17), and an image signal for displaying the contents of the e-mail on the screen. Is output from the image output interface 61h and the screen is displayed on the image display unit 62 (step S18). The engineer can know the state of the blood smear preparation apparatus 2 by confirming the error information or warning information included in the e-mail, and can smoothly proceed with the subsequent maintenance / management work.

  In the status report process of the remote management system according to the present embodiment described above, the status (normal status, warning status, abnormal status) of the driving mechanism of the dispensing pipette 21b is determined as an example, and the determination When the number of pulses of the pulse signal applied to the vertical drive motor 21a is 2700 or more and 3300 or less, the reference state is a normal state, 2400 or more and less than 2700, or 3300 or more and less than 3600, a warning state, less than 2400 or 3600 In the above case, the case where the abnormal state is determined has been described. However, the present invention is not limited to this, and the state of other components (for example, the staining liquid suction / discharge mechanism of the chamber 81) may be detected. Of course, other discrimination criteria may be employed.

  Next, remote support processing of the blood smear preparation apparatus 2 in the remote management system 1 according to the embodiment of the present invention will be described. 11 and 12 are flowcharts showing a procedure of remote support processing of the blood smear preparation apparatus in the remote management system according to the embodiment of the present invention. For example, as described above, when the engineer determines that it is necessary to confirm the detailed state of the blood smear preparation apparatus 2 by checking error information or warning information included in the e-mail, or When the user requests an abnormality investigation, inspection, etc. of the blood smear preparation apparatus 2, the technician contacts the user by using a real-time communication means such as a teleconference system using a telephone or a computer, and performs imaging. The image pickup surface of the device 5 is directed to a target location (for example, a driving mechanism of the dispensing pipette 21) of the blood smear sample preparation device 2, and the computer 4 starts the display of the picked-up image of the image pickup device 5 to the user. Instruct. Here, the user directs the imaging surface of the imaging device 5 to the target location and operates the input unit 43 of the computer 4 to input to the computer 4 an instruction to display the captured image of the imaging device 5. The CPU 41a of the computer 4 receives such an instruction (Yes in step S21), causes the image output interface 41h to output an image signal for displaying the captured image of the imaging device 5 on the screen, and causes the image display unit 42 to display the screen. It is displayed (step S22). As a result, the moving image captured by the imaging device 5 is displayed in real time on the image display unit 42 of the computer 4.

  Further, the engineer operates the input unit 63 of the computer 6 to input to the computer 6 to instruct the start of remote operation of the computer 4. The CPU 61a of the computer 6 receives such an instruction (Yes in step S23), and transmits data requesting information (screen information) for displaying the same screen as the display screen of the computer 4 through the communication interface 61g (step S24). ).

  The CPU 41a of the computer 4 receives data requesting screen information via the communication interface 41g (Yes in step S25), and starts transmission of screen information of a screen displayed on the image display unit 42 by the computer 4 at that time (step S25). S26). In the process of step S26, the screen information of the latest screen is transmitted at a predetermined time interval, and the transmission of the screen information is continued until data indicating the end of transmission of the image information is received from the computer 6. The CPU 61a of the computer 6 receives the screen information thus transmitted from the computer 4 via the communication interface 61g (Yes in step S27), and displays the display screen of the computer 4 indicated by the screen information in the window (step S28). . In this window, a captured image (moving image) of the imaging device 5 is displayed in real time. This captured image includes an image showing the detailed state of the target part of the state confirmation in the blood smear preparation apparatus 2, and the engineer confirms this captured image, whereby the blood smear preparation apparatus 2 It is possible to know the detailed state at the target location. Thereby, even if a user does not explain the detailed state of the blood smear preparation apparatus 2 verbally, the engineer can grasp | ascertain the detailed state directly. In a device having a complicated configuration such as the blood smear preparation device 2, the user often does not have detailed knowledge, and it is often difficult for the user to explain the detailed state of the device verbally. Therefore, in the remote management system 1 according to the present invention, when it is difficult for the user to explain the detailed state of the device verbally, the technician can grasp the detailed state of the device, It is particularly effective. In addition, when a slight abnormality is recognized in the blood smear preparation apparatus 2, the engineer can instruct the user to take measures to remove the abnormality. For example, if dirt is attached to the head of the sensor 21e and the detection capability is reduced, the technician can instruct the user to remove the dirt. As described above, when the abnormality of the apparatus is minor, the engineer can easily and quickly remove the abnormality of the apparatus by instructing the user to take measures to remove the abnormality without visiting the user's facility. In addition, if it is recognized that the engineer needs to replace the part at the abnormal location by checking the captured image, the support center prepares the necessary part and then dispatches the engineer to the user's facility. Parts replacement. As a result, the support center once dispatches an engineer to the user's facility to confirm an abnormality, prepares necessary parts, and dispatches the engineer to the user's facility again for parts replacement. It is possible to improve the efficiency and speed of maintenance and management work. Furthermore, since the user can confirm the same captured image by the computer 4 and the engineer by the computer 6 at the same time, it is easy to communicate with each other by telephone or the like, and the maintenance / management work is efficiently and promptly advanced. be able to.

  In addition, when the engineer operates the computer 4 remotely so that the operation setting of the blood smear preparation apparatus 2 needs to be performed remotely, the engineer gives an instruction to operate the computer 4. It can be input from the input unit 63. The CPU 61a accepts an input of an operation instruction for the computer 4 from such an engineer (Yes in step S29), and transmits data indicating the operation instruction to the computer 4 (step S30). When receiving such data (Yes in step S31), the CPU 41a of the computer 4 executes the instructed process (step S32). Thereby, for example, the engineer operates the input unit 63 of the computer 6 to call the operation setting window of the blood smear preparation apparatus 2 in the computer 4 or to set in the set value input area provided in the operation setting window. When instructed to input a value, the operation setting window is actually called in the computer 4, or the setting value is actually input to the setting input area, and the blood smear preparing apparatus 2 is remotely controlled. You can set the operation. In the present embodiment, the computer 4 is operated by performing the same operation as the operation of the computer 4 on the same screen as the display screen of the computer 4 displayed on the image display unit 62 of the computer 6. Can be remotely controlled. For example, when the window on the screen of the computer 4 is moved by moving the mouse pointer to the upper end of the window and dragging by operating the input unit 43 of the computer 4, the computer 4 displayed on the computer 6 is displayed. When the input unit 63 of the computer 6 is operated so as to perform dragging, the window in the screen of the computer 4 is actually moved. As described above, by enabling the computer 4 to be remotely operated by the same operation as when the computer 4 is directly operated, the operability of the remote operation is improved and the efficiency of maintenance and management work is further improved. be able to.

  When the abnormality investigation / inspection work is completed, the engineer operates the input unit 63 of the computer 6 to input to the computer 6 to instruct the end of the remote support process. The CPU 61a of the computer 6 accepts such an instruction (Yes in step S33), terminates the display of the same screen as the display screen of the computer 4 (step S34), and transmits instruction data for terminating the transmission of screen information to the computer 4. (Step S35), and the process ends. In step S33, if the remote support processing end instruction has not been received (No in step S33), the processing from step S27 is repeated.

  When the CPU 41a of the computer 4 receives the instruction data for instructing the end of transmission of the screen information transmitted from the computer 6 (Yes in step S36), the CPU 41a ends the process, and when not receiving (No in step S36). ), And repeats the processing after step S26.

  In the remote support processing of the blood smear preparation apparatus 2 by the remote management system 1 according to the present embodiment described above, the configuration for displaying the moving image captured by the imaging apparatus 5 on the screen of the computer 6 has been described. However, the present invention is not limited to this. For example, the display screen of the computer 4 is updated such that an icon or window in the display screen of the computer 4 is moved (however, the image is captured by the imaging device 5). The computer 4 may transmit the screen information indicating the new display screen to the computer 6 only when the captured image is not updated). With this configuration, while the display screen of the computer 4 is not updated, the computer 6 continues to display the same screen as the display screen of the computer 4 that was last updated. A still image captured by the imaging device 5 is displayed on the computer 6. With such a configuration, only when the user performs an input operation for updating the screen display, the captured image of the imaging device 5 is transmitted from the computer 4, and the amount of communication data can be reduced. The processing load on the computers 4 and 6 and the load on the communication network NW can be reduced. In addition, when a new captured image is required, the engineer can confirm the new captured image by verbally instructing the user to update the screen display.

  Moreover, in the remote support processing of the blood smear preparation apparatus 2 by the remote management system 1 according to the present embodiment, a configuration in which a captured image of the imaging apparatus 5 is displayed in a window in which the computer 6 remotely operates the computer 4 is displayed. However, the present invention is not limited to this, and the captured image of the imaging device 5 may be displayed in a window different from the remote operation window for the computer 4 in the computer 6. The computer 6 may not be provided with a function of performing remote operation of the computer 4 (that is, remote operation setting of the blood smear preparation apparatus 2), and the computer 6 may receive and display only the captured image of the imaging apparatus 5 from the computer 4. .

  In the present embodiment, the blood smear preparation apparatus 2 is a target for remote management, but the present invention is not limited to this, and the target for remote management is a blood analyzer for analyzing a blood sample, a urine sample. Other clinical sample processing apparatuses such as a urine analyzer for analyzing stool samples and a stool analyzer for analyzing stool samples may be used.

  In the present embodiment, a computer 4 that is a state setting device is connected to the blood smear sample preparation device 2, and a captured image of the imaging device 5 is transmitted to the computer 6 that is a management device via the computer 4. However, the present invention is not limited to this, and a configuration may be adopted in which data transmission means is provided in the imaging device 5 and the captured image is transmitted directly from the imaging device 5 to the computer 6.

  The remote management system according to the present invention is a detailed state of the clinical sample processing apparatus, even if a person having detailed knowledge about the structure of the clinical sample processing apparatus such as a support center engineer does not receive verbal explanation from the user. The remote control of clinical specimen processing equipment that processes clinical specimens is effective because it is possible to remotely perform management operations such as support processing, inspection, status investigation, and monitoring for clinical specimen processing equipment. It is useful as a remote management system.

DESCRIPTION OF SYMBOLS 1 Remote management system 2 Blood smear preparation apparatus 2a Control part 3 Conveyance apparatus 4 Computer 5 Imaging apparatus 6 Computer 41a CPU
41d hard disk 41e reading device 41f input / output interface 41g communication interface 41h image output interface 42 image display unit 43 input unit 44 portable recording medium 61a CPU
61d Hard disk 61e Reading device 61f Input / output interface 61g Communication interface 61h Image output interface 62 Image display unit 63 Input unit 64 Portable recording medium NW Communication network

Claims (5)

A clinical sample processing apparatus for processing clinical samples;
A management device for remotely managing the clinical sample processing device;
An imaging device that images the clinical specimen processing device and outputs an image signal;
It receives the image signal which the clinical specimen processing apparatus is captured by the imaging device, and displays the first screen including a moving image in which the clinical specimen processing apparatus is captured on the first display unit, the first display a display screen information for displaying a screen displayed on the section, to the management apparatus, and a user terminal apparatus capable of transmitting over the network,
The management device, based on the display screen information transmitted by the user terminal device, the same second screen to the first screen including a moving image of the clinical specimen processing device being displayed on the first display section the 2 is configured to display on the display,
The user-side terminal device indicates the warning state or the abnormal state when the state of the mechanism unit of the clinical sample processing apparatus indicates a warning state or an abnormal state that is likely to fail in the future compared to a normal state. Configured to transmit status information to the management device;
The management device is configured to display the received status information on the second display unit.
Remote management system. It said user terminal device is configured to transmit to the management device a display screen information at predetermined time intervals,
The management device, based on the received display screen information, and is configured to update the second screen displayed on the second display unit,
The remote management system according to claim 1. The first screen is a setting screen used to set the operation of the clinical specimen processing device,
The clinical specimen processing apparatus, on the basis of the user side the first setting information input from the displayed the setting screen on the display unit of the terminal device, the operation setting is configured to be performed,
The remote management system according to claim 1 or 2 . If the setting information from the displayed setting screen as a second screen on the second display unit of the management device is input set, the user terminal device is displayed on the second display unit of the management device based on the setting information input from the screen, and is configured to perform operation setting of the clinical specimen processing device,
The remote management system according to claim 3 . The user side terminal device is configured to determine whether or not the abnormal information needs to be urgently transmitted to the management device when the state information acquired from the clinical sample processing device is abnormal information.
The remote management system according to any one of claims 1 to 4 .

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