CN111537756A - Automatic analysis device and analysis method - Google Patents

Abstract

The invention provides an automatic analysis device and an analysis method, which confirm whether a reserved maintenance item can be implemented according to a reservation or not, and change the reserved content when the reserved maintenance item is judged not to be implemented according to the reservation. The automatic analysis device is provided with: an analysis unit for measuring a sample component; an input unit (107) for inputting an analysis reservation and a maintenance reservation to the analysis unit; a storage unit (106) for storing the analysis reservation and the maintenance reservation inputted from the input unit; a processing unit (101) for controlling the analysis unit to execute an analysis reservation and a maintenance reservation; and display units (108, 308) for displaying the analysis reservation and the maintenance reservation, wherein the processing unit (101) compares the reservation times of the analysis reservation and the maintenance reservation to extract the duplication and changes the content of the maintenance reservation.

Description

Automatic analysis device and analysis method

Technical Field

The present invention relates to an automatic analyzer and an analysis method, and more particularly to a maintenance technique thereof.

Background

In order to maintain the functions in a normal state, various maintenance items such as cleaning, inspection, and replenishment of consumables are set in the automatic analyzer. Therefore, in order to efficiently operate the automatic analyzer, it is necessary to timely and reliably execute maintenance items.

As an example of an automatic analyzer that timely and reliably executes such maintenance items, there are patent document 1 and patent document 2. Patent document 1 describes an automatic analyzer that: the maintenance items confirmed at the start of analysis are set in advance, the set maintenance items are confirmed at the start of analysis, and the maintenance items to be executed are displayed to the operator. Patent document 2 describes an automatic analysis device that inputs a work schedule of a user and displays the work schedule to an operator together with an appointment of a maintenance item when the maintenance item is appointed.

In an automatic analyzer that performs various analyses, there are cases where maintenance is not possible even if a maintenance item is reserved until the time of reservation. For example, after a maintenance item is reserved, the analysis may be repeatedly reserved at the time of reservation of the maintenance item.

Patent document 1 does not describe a countermeasure for failing to execute a maintenance item reserved in an automatic analyzer, and patent document 2 does not consider a countermeasure for changing a reservation due to a delay of a previous process or the like.

Patent document 1: WO2015-182256

Patent document 2: japanese patent laid-open publication No. 2014-085270

Disclosure of Invention

An object of the present invention is to solve the above problems and to provide an automatic analyzer and an analysis method thereof, which can appropriately change a reservation in accordance with a situation and can appropriately and reliably execute a maintenance item.

In order to solve the above problems, an automatic analyzer having the following configuration is provided. The automatic analysis device is provided with: an analysis unit for measuring a component of a sample; an input unit for inputting an analysis reservation and a maintenance reservation to the analysis unit; a storage unit for storing the analysis reservation and the maintenance reservation inputted from the input unit; a control unit that controls the analysis unit to execute an analysis reservation and a maintenance reservation; and a display unit that displays the analysis reservation and the maintenance reservation, wherein the control unit compares reservation times of the analysis reservation and the maintenance reservation to extract duplication.

In order to solve the above problems, the following analysis method is provided. The analysis method is an analysis method of an automatic analyzer for measuring a component of a sample by an analysis unit, stores an inputted analysis reservation and maintenance reservation, and when the analysis unit is controlled to execute the analysis reservation and the maintenance reservation, compares reservation timings of the analysis reservation and the maintenance reservation to extract a reservation in which the reservation timings overlap.

According to the present invention, it is possible to provide an automatic analysis device capable of executing a reserved maintenance item in accordance with a reservation.

Drawings

Fig. 1 is an overall configuration diagram of an automatic analyzer according to embodiment 1.

Fig. 2 is a functional block diagram of an automatic analyzer according to embodiment 1.

Fig. 3 is a diagram showing an example of a maintenance reservation information table according to embodiment 1.

Fig. 4 is a diagram showing an example of an analysis reservation information table according to embodiment 1.

Fig. 5 is a diagram showing an example of the maintenance item information table according to embodiment 1.

Fig. 6 is a diagram showing an example of a maintenance reservation screen according to embodiment 1.

Fig. 7 is a diagram showing an example of a maintenance reservation changing screen according to embodiment 1.

Fig. 8 is a diagram showing an example of a maintenance interval check screen according to embodiment 1.

Fig. 9 is a diagram showing an example of a maintenance reservation notification screen according to embodiment 1.

Fig. 10 is a diagram showing an example of a flowchart of a process of newly reserving maintenance in the automatic analyzer according to embodiment 1.

Fig. 11 is a diagram showing an example of a flowchart of a processing for dealing with maintenance reserved in the automatic analyzer according to embodiment 1.

Fig. 12 is a diagram showing an example of a flowchart of a process for handling maintenance reserved in the automatic analyzer according to embodiment 1.

Fig. 13 is a diagram showing an example of a flowchart of a process for handling maintenance reserved in the automatic analyzer according to embodiment 1.

Fig. 14 is a diagram showing an example of a flowchart of a process for handling maintenance reserved in the automatic analyzer according to embodiment 1.

Fig. 15 is a functional block diagram of an automatic analyzer according to embodiment 2.

Fig. 16 is a diagram showing an example of an analysis reservation confirmation screen according to embodiment 2.

Fig. 17 is a diagram showing an example of a flowchart of processing for handling analysis reserved in the automatic analysis device according to embodiment 2.

Detailed Description

Hereinafter, various embodiments of the automatic analyzer according to the present invention will be described with reference to the drawings. In the maintenance of the automatic analyzer of the present specification, in order to maintain the function in a normal state, maintenance items such as cleaning of dirt in the mechanism portion, inspection of leakage, replenishment of consumables such as reagents, and the like are included, as well as disc inspection performed in a standby state of the analyzer, for example, maintenance items such as individual file information, accumulated file information, and version information.

[ example 1 ]

Embodiment 1 is an automatic analyzer having the following configuration. The automatic analysis device is provided with: an analysis unit for measuring a component of a sample; an input unit for inputting an analysis reservation and a maintenance reservation to the analysis unit; a storage unit for storing the analysis reservation and the maintenance reservation inputted from the input unit; a control unit that controls the analysis unit to execute an analysis reservation and a maintenance reservation; and a display unit that displays the analysis reservation and the maintenance reservation, wherein the control unit compares reservation times of the analysis reservation and the maintenance reservation to extract duplication.

In addition, examples of the analytical method are shown. The analysis method is an analysis method of an automatic analyzer for measuring a component of a sample by an analysis unit, stores an inputted analysis reservation and maintenance reservation, and when the analysis unit is controlled to execute the analysis reservation and the maintenance reservation, compares reservation timings of the analysis reservation and the maintenance reservation to extract a reservation in which the reservation timings overlap.

The automatic analyzer according to the present embodiment will be described with reference to fig. 1 to 14.

Fig. 1 is a diagram showing an example of the overall configuration of an automatic analyzer according to the present embodiment. The automatic analysis device 100 includes a processing unit 101, a bus 102, a wireless transmission unit 103, a wireless reception unit 104, a storage unit 106, an input unit 107, a display unit 108, a mechanism control unit 111, and a mechanism unit 200, and is provided with a reservation terminal 300.

The processing unit 101 is configured by a Central Processing Unit (CPU) that executes a program stored in the storage unit 106 to control each component and perform various arithmetic processes. The processing unit 101 is connected to a radio transmitting unit 103, a radio receiving unit 104, a storage unit 106, and a mechanism control unit 111 via a bus 102. The processing unit 101 to the mechanism control unit 111 and the reservation terminal 300 constitute a control unit of the automatic analyzer. The display unit 108 and the display unit 308 included in the reservation terminal 300 described later constitute a display unit of the automatic analysis device.

The wireless transmission unit 103 is a unit for transmitting information using radio waves, and transmits information supplied from the processing unit 101 to the reservation terminal 300. The wireless receiving unit 104 is a unit that receives information using radio waves, and receives information supplied to the processing unit 101 from the reservation terminal 300.

The storage unit 106 is used for permanently storing programs and data, and is constituted by a hard disk or the like. Further, the storage unit 106 records information supplied from the processing unit 101, such as maintenance reservation information and analysis reservation information, under the control of the processing unit 101. The storage unit 106 supplies the recorded information to the processing unit 101 under the control of the processing unit 101.

The input unit 107 is used for an operator to input information, and is constituted by a keyboard or the like. The input unit 107 supplies the input information to the processing unit 101 under the control of the processing unit 101. The display unit 108 is used for outputting information to be provided to the operator, and is constituted by a display or the like. The display unit 108 displays information supplied from the processing unit 101 under the control of the processing unit 101. The mechanism controller 111 controls the mechanism 200 to analyze the components of the sample in the sample container 201. The attached reservation terminal 300 includes a processing unit 301, a bus 302, a wireless transmission unit 303, a wireless reception unit 304, a storage unit 306, an input unit 307, and a display unit 308.

The processing unit 301 of the reservation terminal 300 executes the program stored in the storage unit 306 to control the respective components and performs various arithmetic processes, and is configured by a CPU in the same manner as the processing unit 101. The processing unit 301 is connected to a wireless transmission unit 303, a wireless reception unit 304, a storage unit 306, an input unit 307, and a display unit 308 via a bus 302.

The wireless transmission unit 303 is a unit that transmits information using radio waves, and transmits the information supplied from the processing unit 301 to the automatic analysis device 100. The wireless receiving unit 304 is a unit that receives information using radio waves, and receives information supplied to the processing unit 301 from the automatic analysis device 100.

The storage unit 306 is used to permanently store programs and data, and is configured by a hard disk or the like. The storage unit 306 records information supplied from the processing unit 301 under the control of the processing unit 301. Further, the storage unit 306 supplies the recorded information to the processing unit 301 by the control of the processing unit 301.

The input unit 307 is used for an operator to input information, and is configured by a touch panel or the like. The input unit 307 supplies the input information to the processing unit 301 under the control of the processing unit 301. The display unit 308 is used for outputting information to be provided to the operator, and is constituted by a display or the like. The display unit 308 displays information supplied from the processing unit 301 under the control of the processing unit 301.

Fig. 2 is a functional block diagram of the automatic analyzer of the present embodiment shown in fig. 1, and the mechanism unit 200 is not shown.

The processing unit 101 includes a maintenance reservation accepting unit 500, a maintenance reservation monitoring unit 501, and a copy information transmitting unit 502, which are functional blocks realized by executing a program.

The maintenance reservation receiver 500 controls the wireless receiver 104 to receive the maintenance reservation information from the reservation terminal 300. Then, the received maintenance scheduling information is recorded in the maintenance scheduling information table 503.

The maintenance reservation monitoring unit 501 periodically acquires information from the maintenance reservation information table 503, the analysis reservation information table 504, and the maintenance item information table 505. Then, the control wireless transmission unit 103 transmits the maintenance reservation information to the reservation terminal 300 in order to notify the operator of the reservation notification of the maintenance. In addition, the control wireless transmission unit 103 transmits the maintenance reservation information to the reservation terminal 300 in order to request the operator to change the maintenance reservation. In addition, the control wireless transmission unit 103 transmits the maintenance reservation information to the reservation terminal 300 in order to request the operator to confirm the interval of the maintenance reservation.

The copy information transmitting unit 502 periodically acquires information from the maintenance reservation information table 503, the analysis reservation information table 504, and the maintenance item information table 505. Further, the control wireless transmission unit 103 transmits the acquired information to the reservation terminal 300.

The storage unit 106 includes a maintenance reservation information table 503, an analysis reservation information table 504, and a maintenance item information table 505.

Fig. 3 is an example of a maintenance reservation information table 503 storing maintenance reservation information. The maintenance reservation information table 503 includes reception time information, notification destination information, maintenance item information, start time information, end time information, notification time information, and message information. The information of the maintenance reservation information table 503 is recorded by the maintenance reservation receiver 500. The maintenance reservation information table 503 may additionally record, as other information, importance information of reservation described later, and the like.

Fig. 4 shows an example of an analysis reservation information table 504 storing analysis reservation information. The analysis reservation information table 504 has sample ID information and analysis completion scheduled time information. The information included in the analysis reservation information table is periodically updated by the processing unit 101 based on the analysis reservation information reserved in the automatic analysis device 100 and the processing time corresponding to the content of the analysis reservation information.

Fig. 5 shows an example of the maintenance item information table 505. The maintenance item information table 505 has maintenance item information, group information, standard work time information, and standard interval time information. The group information is a character for distinguishing maintenance items that can be implemented simultaneously. That is, maintenance items having the same group information mean that maintenance can be performed simultaneously. In the case of extracting a maintenance reservation whose reservation time is repeated, the set of information is usable not to be extracted as a repeated reservation in the case where the repeated maintenance reservation is about a maintenance item that can be simultaneously performed.

The standard work time information is a standard value of time required for maintenance. The standard interval time information is a standard value of the maintained implementation interval. In this way, the maintenance item information table includes the standard interval time of the maintenance item, and the control unit can extract the plurality of maintenance reservations reserved for the maintenance item during the standard interval time and display an operation screen for confirming and changing the plurality of reserved maintenance reservations on the display unit.

The information of the maintenance item information table 505 is recorded in advance for each maintenance item set in the automatic analyzer 100. In the maintenance item information table 505, information on the importance of a reservation set in advance for each maintenance item, and the like may be additionally recorded as other information.

As shown in the functional block diagram of fig. 2, the processing unit 301 of the reservation terminal 300 includes a maintenance new reservation unit 510, a maintenance reservation changing unit 511, and a copy information receiving unit 512.

The maintenance new reservation section 510 acquires information from the maintenance reservation/copy information table 513, the analysis reservation/copy information table 514, and the maintenance item copy information table 515. Then, the maintenance reservation screen illustrated in fig. 6 is displayed on the display unit 308, and maintenance reservation information is acquired from the operator. Further, the control wireless transmission unit 303 transmits the maintenance scheduling information acquired from the operator to the automatic analyzer 100.

The maintenance reservation changing unit 511 acquires information from the maintenance reservation/copy information table 513, the analysis reservation/copy information table 514, and the maintenance item copy information table 515. Then, the control wireless receiving unit 304 receives the maintenance reservation information from the automatic analysis device 100. When the received maintenance reservation information is information for reservation notification, a maintenance reservation notification screen illustrated in fig. 9 is displayed on the display portion 308. When the received maintenance scheduling information is information for changing the scheduling, a maintenance scheduling change screen (fig. 7) is displayed on the display unit 308, and the changed maintenance scheduling information is acquired from the operator. Then, the control wireless transmission unit 303 transmits the maintenance reservation information acquired from the operator to the automatic analysis device 100. When the received maintenance reservation information is information for confirming the interval, a maintenance interval confirmation screen (fig. 8) is displayed on the display unit 308, and operation information for determining reservation or cancellation of reservation is acquired from the operator. Then, the control wireless transmission unit 303 transmits the operation information and the maintenance reservation information acquired from the operator to the automatic analysis device 100.

The copy information receiving unit 512 controls the wireless receiving unit 304 to periodically receive information from the automatic analyzer 100. The received information is recorded in the maintenance reservation and copy information table 513, the analysis reservation and copy information table 514, and the maintenance item copy information table 515.

Returning to fig. 2, the storage unit 306 includes a maintenance reservation/copy information table 513, an analysis reservation/copy information table 514, and a maintenance item copy information table 515.

The maintenance reservation copy information table 513 has the same information as the maintenance reservation information table 503. The copy information receiving unit 512 records information included in the maintenance reservation copy information table 513.

The analysis reservation copy information table 514 has the same information as the analysis reservation information table 504. The copy information receiving unit 512 records and analyzes information included in the reserved copy information table 514. The maintenance item copy information table 515 has the same information as the maintenance item information table 505. The copy information receiving unit 512 records information included in the maintenance item copy information table 513.

Next, various operation screens displayed on the display unit 308 of the reservation terminal 300 will be described with reference to fig. 6 to 9.

Fig. 6 is an example of a maintenance reservation screen. The maintenance reservation screen is composed of a reservation status field 601 and a reservation registration field 602. The reservation status field 601 displays information of the maintenance reservation/copy information table 513 and the analysis reservation/copy information table 514 so that confirmation can be performed in time series. The reservation registration field 602 displays an input item for the operator to newly input maintenance reservation information. The maintenance reservation screen is a screen used when the operator newly reserves maintenance.

Fig. 7 is an example of a maintenance reservation changing screen. The maintenance reservation change screen is composed of a reservation status field 701 and a reservation change field 702. The reservation status field 701 displays the same contents as the reservation status field 601 of the maintenance reservation screen. The reservation change field 702 displays input items for the operator to change or cancel the maintenance reservation information. The maintenance reservation changing screen is a screen used when the operator changes or cancels the maintenance reservation.

Fig. 8 is an example of a maintenance interval confirmation screen. The maintenance interval check screen includes a reservation check field 801 and a reservation status field 802. The reservation confirmation field 801 displays the same contents as the reservation change field 702 of the maintenance reservation change screen. The reservation status field 802 displays a list of maintenance reservations reserved for the maintenance reservations displayed in the reservation confirmation field 801 during the standard interval time. The maintenance interval confirmation screen is a screen used when the operator cancels the reservation for maintenance.

Fig. 9 is an example of a maintenance reservation notification screen. The maintenance reservation notification screen is constituted by a reservation content field 901. The reservation content column 901 displays the content of maintenance reservation information for making a reservation notification. The maintenance reservation notification screen is a screen used when notifying the operator of reservation notification of the maintenance reservation information.

Next, a new reservation for maintenance in the automatic analyzer of the present embodiment will be described with reference to fig. 10. Fig. 10 is an example of a processing flowchart on the reservation terminal side at the time of a new reservation for maintenance in fig. 2.

First, in step S1000, the reservation terminal 300 displays the maintenance reservation screen shown in fig. 6 on the display unit 308 by the control of the maintenance new reservation unit 510 of the processing unit 301. The operator inputs maintenance reservation information into a reservation registration field 602 of the maintenance reservation screen of the figure.

Next, in step S1001, it is checked whether or not the maintenance reservation is made in accordance with the content input in step S1000, and when the maintenance reservation is made, the operator presses the registration button of the reservation registration field 602 on the maintenance reservation screen, and the process proceeds to step S1002. When the maintenance reservation is not performed with the contents input in step S1000, the operator presses the cancel button of the reservation registration field 602 to end the processing.

Next, in step S1002, the reservation terminal 300 transmits the maintenance reservation information input in step S1000 to the automatic analysis device 100 under the control of the maintenance reservation section 510. Next, in step S1003, the automatic analysis device 100 receives the maintenance scheduling information transmitted in step S1002 under the control of the maintenance scheduling accepting unit 500, records the information in the maintenance scheduling information table 503, and ends the processing. This enables the reservation terminal 300 to newly reserve maintenance for the automatic analysis device 100.

Next, a flow of handling maintenance for a reservation by the automatic analysis device main body according to the present embodiment will be described with reference to fig. 11 to 14. Fig. 11 to 14 are one example of a flowchart of the processing in fig. 2.

First, in step S1100, the processing unit 101 of the automatic analysis device 100 checks whether or not there is maintenance scheduling information that overlaps in time among the maintenance scheduling information recorded in the maintenance scheduling information table 503 under the control of the maintenance scheduling monitoring unit 501. When there is duplicate information, the process proceeds to step S1101. When there is no duplicate information, the process proceeds to step S1200 in fig. 12.

Next, in step S1101, the automatic analysis device main body transmits, out of the information overlapping in time, the maintenance reservation information of the reception date to the reservation terminal 300 from the maintenance reservation information table 503, under the control of the maintenance reservation monitoring unit 501. The reservation terminal 300 displays the maintenance reservation changing screen illustrated in fig. 7 on the display unit 308 thereof by the control of the maintenance reservation changing unit 511 of the processing unit 301. Then, the reservation change field 702 displays the maintenance reservation information received from the automatic analyzer 100. The operator inputs a reservation change field 702 of the maintenance reservation change screen to change the maintenance reservation information.

Next, in step S1102, the operator determines whether or not to change the maintenance reservation. When the maintenance reservation is changed according to the content input in step S1101, the operator presses a change button of the maintenance reservation change screen displayed on the display unit 308 of the reservation terminal 300, and the process proceeds to step S1103. When the maintenance reservation is not changed according to the content input in step S1101, the operator presses a cancel button of the maintenance reservation change screen, and the process proceeds to step S1104.

Next, in step S1103, the reservation terminal 300 transmits the maintenance reservation information input in step S1101 to the automatic analysis device 100 under the control of the maintenance reservation changing unit 510. The automatic analysis device 100 receives the maintenance scheduling information from the scheduling terminal 300 under the control of the maintenance scheduling accepting unit 500, records the information in the maintenance scheduling information table 503 so as to overwrite the maintenance scheduling information transmitted in step S1101, and ends the processing.

On the other hand, in step S1104, the reservation terminal 300 transmits the maintenance reservation information input in step S1101 to the automatic analysis device 100 under the control of the maintenance reservation changing unit 510. The automatic analysis device 100 receives the maintenance scheduling information from the scheduling terminal 300 under the control of the maintenance scheduling accepting unit 500, updates the maintenance scheduling information table 503 so as to delete the maintenance scheduling information transmitted in step S1101, and ends the processing.

In step S1102 of the process flow of fig. 11, the operator determines whether or not to change the maintenance reservation, but the reservation terminal 300 may be configured to automatically delete a post-initiation part of the repeated maintenance reservation instead of letting the operator determine whether or not to change the maintenance reservation. In addition, whether or not to change the maintenance reservation may be automatically determined when the reservation is repeated. In this case, for example, the above-described importance information of the reservation is used.

That is, the control unit can change the maintenance reservation using the importance information of the plurality of maintenance reservations whose reservation times overlap. For example, the importance information of the reservation previously set and recorded in the maintenance reservation information table 503 illustrated in fig. 3 and the maintenance item information table 505 illustrated in fig. 5 can be used to perform automatic determination. At the time of reservation, the importance information of the reservation is recorded in the maintenance reservation information table 503 for each reservation. Although not shown, the importance information of the reservation is, for example, a number of "1 to 10". If the importance of the analysis reservation is "5", the CPU executes the program to cancel the reservation with a higher priority number and to automatically determine that the reservation with a lower priority number is received with priority if the numbers are the same.

As described above, according to the present embodiment, the storage unit includes the maintenance item information table for storing the maintenance items of the maintenance reservation, the importance information of the maintenance items is recorded in the maintenance item information table, and the control unit can change the maintenance reservation using the importance information of the plurality of maintenance reservations whose reservation times are repeated.

Next, in step S1200 in fig. 12, the automatic analysis device 100 checks, under the control of the maintenance scheduling monitoring unit 501, whether or not there are a plurality of pieces of information having the same maintenance item in the maintenance scheduling information recorded in the maintenance scheduling information table 503 during the standard interval time of the maintenance item recorded in the maintenance item information table 505. When there are a plurality, the flow proceeds to step S1201. When there are not a plurality, the flow proceeds to step S1300 in fig. 13.

Next, in step S1201, the automatic analysis device 100 transmits, under the control of the maintenance reservation monitoring unit 501, maintenance reservation information of which reception date is new among a plurality of pieces of information existing within a predetermined range of time from the maintenance reservation information table 503 to the reservation terminal 300. The reservation terminal 300 displays the maintenance interval confirmation screen shown in fig. 8 on the display unit 308 under the control of the maintenance reservation changing unit 511. The reservation confirmation field 801 of the maintenance interval confirmation screen in the figure displays maintenance reservation information received from the automatic analysis device 100. The operator checks the contents of the reservation confirmation field 801 and the reservation status field 802 of the maintenance interval confirmation screen to determine whether to register or cancel the reservation.

Next, in step S1202, when the maintenance reservation is registered with the contents confirmed in step S1201, the operator presses the registration button on the maintenance interval confirmation screen, and the process proceeds to step S1203. When canceling the maintenance reservation of the content confirmed in step S1201, the operator presses a cancel button of the maintenance interval confirmation screen and proceeds to step S1204.

Next, in step S1203, the reservation terminal 300 transmits the maintenance reservation information confirmed in step S1201 to the automatic analysis device 100 under the control of the maintenance reservation changing unit 510. The automatic analysis device 100 receives the maintenance scheduling information from the scheduling terminal 300 under the control of the maintenance scheduling accepting unit 500, records the information in the maintenance scheduling information table 503 so as to cover the maintenance scheduling information transmitted in step S1201, and ends the processing.

Next, in step S1204, the reservation terminal 300 transmits the maintenance reservation information input in step S1201 to the automatic analysis device 100 under the control of the maintenance reservation changing unit 510. The automatic analysis device 100 receives the maintenance scheduling information from the scheduling terminal 300 under the control of the maintenance scheduling accepting unit 500, updates the maintenance scheduling information table 503 so as to delete the maintenance scheduling information transmitted in step S1201, and ends the processing.

Next, in step S1300 of fig. 13, in order to compare the reservation times of the maintenance reservation and the analysis reservation and extract the overlap, the processing unit 101 of the automatic analysis device 100 checks whether or not there is information of time overlap between the maintenance reservation information recorded in the maintenance reservation information table 503 and the analysis reservation information recorded in the analysis reservation information table 504 under the control of the maintenance reservation monitoring unit 501. When there is duplicate information, the process proceeds to step S1301. When there is no duplicate information, the process proceeds to step S1400 in fig. 14.

Next, in step S1301, the automatic analysis device 100 transmits the maintenance scheduling information overlapping with the analysis scheduling information from the maintenance scheduling information table 503 to the scheduling terminal 300 under the control of the maintenance scheduling monitoring unit 501. The reservation terminal 300 displays a maintenance reservation change screen shown in fig. 7 on the display unit 308 thereof under the control of the maintenance reservation changing unit 511. The maintenance reservation information received from the automatic analyzer 100 is displayed in the reservation change field 702 of the maintenance reservation change screen in the figure. The operator inputs a reservation change field 702 of the maintenance reservation change screen to change the maintenance reservation information.

Next, in step S1302, when the maintenance reservation is changed according to the content input in step S1301, the operator presses a registration button of the maintenance reservation change screen, and the process proceeds to step S1303. When the maintenance reservation is not changed according to the contents input in step S1301, the operator presses a cancel button on the maintenance reservation change screen, and the process proceeds to step S1304.

Next, in step S1303, the reservation terminal 300 transmits the maintenance reservation information input in step S1301 to the automatic analysis device 100 under the control of the maintenance reservation changing unit 510. The automatic analysis device 100 receives the maintenance reservation information from the reservation terminal 300 under the control of the maintenance reservation receiver 500, records the information in the maintenance reservation information table 503 so as to cover the maintenance reservation information transmitted in step S1301, and ends the process.

Next, in step S1304, the reservation terminal 300 transmits the maintenance reservation information input in step S1301 to the automatic analysis device 100 under the control of the maintenance reservation changing unit 510. The automatic analysis device 100 receives the maintenance scheduling information from the scheduling terminal 300 under the control of the maintenance scheduling accepting unit 500, updates the maintenance scheduling information table 503 so as to delete the maintenance scheduling information transmitted in step S1301, and ends the processing.

Next, in step S1400 of fig. 14, in order to confirm whether or not there is a maintenance reservation for a reservation notification, the automatic analysis device 100 confirms whether or not there is information whose current time coincides with the notification time among the maintenance reservation information recorded in the maintenance reservation information table 503 under the control of the maintenance reservation monitoring unit 501. When there is the matching information, the flow proceeds to step S1401. When there is no coincident information, the processing is ended.

Next, in step S1401, the automatic analysis device 100 transmits the maintenance scheduling information whose current time coincides with the notification time from the maintenance scheduling information table 503 to the scheduling terminal 300 under the control of the maintenance scheduling monitoring unit 501. The reservation terminal 300 displays the maintenance notification screen shown in fig. 9 on the display unit 308 under the control of the maintenance reservation changing unit 511, and ends the process. The maintenance reservation information received from the automatic analyzer 100 is displayed in the reservation content field 901 of the maintenance reservation notification screen in fig. 9.

According to the present embodiment described in detail above, maintenance scheduled in the automatic analysis device 100 can be reliably performed at the time of scheduling maintenance without continuously repeating other maintenance and analysis scheduling.

[ example 2 ]

Embodiment 2 is an embodiment of an automatic analyzer that checks whether or not a maintenance reservation whose reservation timing is repeated is made when a new analysis reservation is made, and displays an analysis reservation check screen to allow an operator to determine whether or not to register the new analysis reservation when there is a repeated maintenance reservation. That is, this is an example of the automatic analyzer having a configuration in which the control unit checks whether or not there is a duplication between the reservation time of the new analysis reservation and the reservation time of the maintenance reservation that has been reserved.

The automatic analyzer according to the present embodiment will be described with reference to fig. 15 to 17. The same components as those in fig. 1 to 14 are denoted by the same reference numerals and description thereof is omitted.

Fig. 15 is a functional block diagram of the automatic analyzer of the present embodiment. The processing unit 101 includes an analysis reservation monitoring unit 506. The analysis reservation monitoring unit 506 periodically acquires information from the maintenance reservation information table 503 and the analysis reservation information table 504 of the storage unit 106. In order to request the operator to confirm the analysis reservation, the display unit 108 displays an analysis reservation confirmation screen to acquire operation information for specifying a new analysis reservation or canceling an analysis reservation from the operator. When the operation information is information for determining the analysis reservation, the analysis reservation monitoring section 506 does not perform any operation. When the operation information is information for canceling the analysis reservation, the analysis reservation monitoring section 506 instructs to cancel the analysis reservation.

The analysis reservation confirmation screen displayed on the display unit 108 of the automatic analysis device 100 will be described. Fig. 16 is an example of an analysis reservation confirmation screen for the operator to determine whether or not to cancel the analysis reservation. The analysis reservation confirmation screen includes a reservation content field 1601 and a maintenance reservation status field 1602 that displays the recorded maintenance reservation information. The reservation content field 1601 is displayed so that the analysis reservation information having a time in the analysis reservation information recorded in the analysis reservation information table 504 and the maintenance reservation information recorded in the maintenance reservation information table 503 are duplicated can be confirmed.

Next, a flow of the new reservation analysis of the present embodiment will be described with reference to fig. 17. Fig. 17 is an example of a flowchart using the processing of fig. 16.

First, in step S1700, the automatic analysis device 100 checks whether or not a new analysis reservation exists in the analysis reservation information recorded in the analysis reservation information table 503 under the control of the analysis reservation monitoring unit 506. When there is a new analysis reservation, the process proceeds to step S1701. When there is no new analysis reservation, the processing is ended.

In step S1701, the automatic analysis device 100 compares the new analysis reservation information confirmed in step S1700 with the maintenance reservation information recorded in the maintenance reservation information table 503 by the control of the analysis reservation monitoring unit 506 to confirm whether or not there is no information that overlaps in time. When there is duplicate information, the process proceeds to step S1702. When there is no duplicate information, the process is ended.

In step S1702, the analysis reservation confirmation screen is displayed on the display unit 108 under the control of the analysis reservation monitoring unit 506. The reservation content field 1601 on the analysis reservation confirmation screen displays the analysis reservation information repeated in step S1701. In addition, the reservation status field 1602 displays maintenance reservation information whose time overlaps with the analysis reservation information displayed in the reservation content field 1601. The operator confirms and analyzes the contents of the reservation confirmation field 1601 and the reservation status field 1602 of the reservation confirmation screen to determine whether to register or cancel the reservation.

Next, in step S1703, when the analysis reservation is directly registered with the content confirmed in step S1702, the operator presses the registration button of the analysis reservation confirmation screen and proceeds to step S1704. When canceling the analysis reservation of the content confirmed in step S1702, the operator presses a cancel button of the analysis reservation confirmation screen, and proceeds to step S1705.

Next, in step S1704, the automatic analysis device 100 registers the analysis reservation without performing any operation on the analysis reservation information, and then terminates the process. At this time, the maintenance reservation information is changed by the processing described in example 1. Next, in step S1705, the automatic analysis device 100 cancels the analysis reservation corresponding to the analysis reservation information confirmed in step S1702, under the control of the analysis reservation monitoring unit 506.

According to the configuration of embodiment 2 described above, when an analysis is newly reserved for the automatic analysis device 100 for which maintenance has already been reserved, the reservation of maintenance and analysis does not overlap, and the maintenance can be reliably executed at the time when the maintenance is reserved.

The present invention is not limited to the above-described embodiments, and various modifications are possible. For example, the above embodiments have been described in detail to explain the present invention easily and understandably, and the present invention is not limited to the embodiments having all the structures described. In addition, a part of the structure of one embodiment can be replaced with the structure of another embodiment, and the structure of another embodiment can be added to the structure of one embodiment. In addition, for the partial configuration of each embodiment, addition, deletion, and replacement of other configurations can be performed.

Description of reference numerals

100 automatic analyzer

101. 301 processing part

102. 302 bus

103. 303 wireless transmitter

104. 304 wireless receiving part

106. 306 storage unit

107. 307 input unit

108. 308 display part

111 mechanism control part

200 mechanism part

201 sample container

300 reservation terminal

500 maintenance reservation accepting part

501 maintenance reservation monitoring unit

502 duplicated information transmitting unit

503 maintain reservation information table

504 analyzing reservation information table

505 maintain item information tables

506 analysis reservation monitoring part

510 maintenance new reservation section

511 maintenance reservation changing unit

512 duplicated information receiving part

513 maintain a reservation copy information table

514 analyzing the reservation copy information table

515 maintains an item copy information table.

Claims (15)

1. An automatic analyzer is characterized by comprising:

an analysis unit for measuring a component of a sample;

an input unit for inputting an analysis reservation and a maintenance reservation to the analysis unit;

a storage unit that stores the analysis reservation and the maintenance reservation input from the input unit;

a control unit that controls the analysis unit to execute the analysis reservation and the maintenance reservation,

the control unit compares reservation times of the analysis reservation and the maintenance reservation to extract a reservation in which the reservation times overlap.

2. The automatic analysis device according to claim 1,

the automatic analysis device further includes a display unit that displays an operation screen for changing the repeated reservation when the control unit extracts the repeated reservation.

3. The automatic analysis device according to claim 1,

when extracting a maintenance reservation in which the reservation times overlap, the control unit does not extract the maintenance reservation as the overlapping reservation when the overlapping maintenance reservation is about a maintenance item that can be simultaneously performed.

4. The automatic analysis device according to claim 2,

the storage unit includes a maintenance item information table for storing maintenance items of the maintenance reservation,

the maintenance item information table includes importance information of the maintenance item.

5. The automatic analysis device according to claim 4,

the control unit changes the maintenance reservation using the importance information of a plurality of the maintenance reservations whose reservation times overlap.

6. The automatic analysis device according to claim 4,

the maintenance item information table contains standard interval times of the maintenance items,

the control unit extracts a plurality of the maintenance reservations reserved for the maintenance item during the standard interval time.

7. The automatic analysis device according to claim 6,

the control unit displays, on the display unit, an operation screen for confirming and changing a plurality of the reserved maintenance appointments when the plurality of the maintenance appointments for which the maintenance items are reserved are extracted.

8. The automatic analysis device according to claim 2,

the control unit confirms whether or not a reservation is made that overlaps a reservation time of a new analysis reservation and a reservation time of the maintenance reservation that has already been reserved.

9. The automatic analysis device according to claim 7,

when extracting a reservation in which the reservation times overlap, the control unit displays an operation screen on the display unit, the operation screen being capable of changing the new analysis reservation.

10. An analysis method of an automatic analyzer for measuring a component of a sample by an analysis unit,

storing the inputted analysis appointment, maintenance appointment,

when the analysis unit executes the analysis reservation and the maintenance reservation under control, the reservation times of the analysis reservation and the maintenance reservation are compared to extract a reservation in which the reservation times overlap.

11. The analytical method of claim 10,

when the duplicate reservation is extracted, the automatic analysis device displays an operation screen for changing the duplicate reservation on a display unit.

12. The analytical method of claim 11,

when a maintenance reservation in which the reservation times overlap is extracted, the maintenance reservation is not made as the overlapping reservation when the overlapping maintenance reservation is about a maintenance item that can be simultaneously performed.

13. The analytical method of claim 11,

the automatic analysis device stores importance information of maintenance items of the maintenance reservation, and changes the repeated reservation according to the importance information of a plurality of the maintenance reservations repeated at the reservation time.

14. The analytical method of claim 12,

the automatic analysis device stores a standard interval time of the maintenance items, and when a plurality of maintenance appointments for which the maintenance items are reserved during the standard interval time are extracted, controls the display unit to display an operation screen for confirming and changing the reserved maintenance appointments.

15. The analytical method of claim 12,

confirming whether the reservation time of the new analysis reservation is overlapped with the reservation time of the reserved maintenance reservation,

when a reservation in which the reservation times overlap is extracted, an operation screen capable of changing the new analysis reservation is displayed on the display unit.

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