JP2008082744A - Analyzer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an analyzer capable of simply and rapidly starting analyzing processing and enhanced in security properties. <P>SOLUTION: The analyzer 1 for analyzing a specimen according to the operation of an operator is equipped with a fingerprint input part 34 for inputting fingerprint data being individual living body data, a memory part 37 for storing the preliminarily acquired fingerprint data of the operator, a fingerprint collation part 32 for collating the fingerprint data inputted by the fingerprint input part 34 with the fingerprint data stored in the memory part 37 to specify the operator corresponding to the fingerprint data inputted by the fingerprint input part 34 and an operation control part 33 for restricting the operation executed corresponding to the operator specified by the fingerprint collation part 32. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an analyzer that analyzes a sample in accordance with an operation of an operator.

  The automatic analyzer can perform analysis processing on a large number of specimens simultaneously, and can analyze multiple components quickly and with high accuracy, making it suitable for testing in various fields such as immunology tests, biochemical tests, and blood transfusion tests. It is used. Such an analyzer has a reaction mechanism for reacting a sample and a reagent in a reaction container, a measurement mechanism for optically measuring a reaction solution of each reagent and the sample, arranged on a predetermined turntable, A plurality of dispensing transport mechanisms for dispensing or transporting reagents and reaction liquids to each mechanism are provided, and various analysis items are inspected. Here, in order to handle personal information related to the sample provider, the analyzer requires the operator to enter an ID and password when operating the analyzer from the viewpoint of preventing leakage of personal information. It was. Conventionally, in order to realize a smooth analysis process, the operable range may be changed in accordance with the ability of the operator. For this reason, the analysis device collates the ID and the password, and when the operator corresponding to the ID can be confirmed, the analysis device is allowed to operate the analysis device corresponding to each operator (see Patent Document 1).

JP-A-1-250758

  By the way, the sample to be analyzed by the analyzer is a biological fluid such as blood or urine collected from a provider. Since such a biological fluid is easily denatured over time, it is desirable to shorten the waiting time until it is actually analyzed by the analyzer after being collected from the provider.

  However, in the conventional analyzer, in order to start the analysis process, it is necessary to first perform a complicated process in which the operator inputs an ID and a password by operating a mouse or a keyboard. Furthermore, since the conventional analysis apparatus employs an operator identification method using an ID and a password, there is a risk of erroneous input of the ID and personal information leakage due to illegal use of the ID and password.

  The present invention has been made in view of the above, and an object of the present invention is to provide an analyzer that can start analysis processing easily and quickly and has improved security.

  In order to solve the above-described problems and achieve the object, an analyzer according to the present invention is an analyzer that analyzes a sample in accordance with an operation of an operator, and has been acquired in advance with input means for inputting personal biometric information. Storage means for storing personal biometric information of each operator, personal biometric information input by the input means by collating personal biometric information input by the input means and personal biometric information stored in the storage means And a control unit for limiting operations that can be performed according to the operator specified by the verification unit.

  The analyzer according to the present invention is an analyzer for analyzing a sample in accordance with an operation of an operator, an input means for inputting personal biometric information, and a storage means for storing personal biometric information of each operator acquired in advance. And collating means for collating the personal biometric information input by the input means and the personal biometric information stored in the storage means to identify an operator corresponding to the personal biometric information input by the input means, An output unit that displays and outputs each operation screen that accepts an operation; and a control unit that restricts display output of each operation screen in the output unit according to an operator specified by the collating unit. To do.

  The analyzer according to the present invention is an analyzer for analyzing a sample in accordance with an operation of an operator, an input means for inputting personal biometric information, and a storage means for storing personal biometric information of each operator acquired in advance. And collating means for collating the personal biometric information input by the input means and the personal biometric information stored in the storage means to identify an operator corresponding to the personal biometric information input by the input means, Control means for setting an operation condition corresponding to the operator specified by the collating means.

  In the analysis apparatus according to the present invention, the storage means stores a plurality of personal biometric information of the operator, and the collating means is stored in the personal bioinformation input by the input means and the storage means. The personal biometric information collated with the personal biometric information is specified by which operator the personal biometric information is identified by the collating unit, and the control unit is identified by the collating unit. The operations that can be performed are limited by the operator and the personal biometric information of the operator.

  In the analysis apparatus according to the present invention, the storage means stores a plurality of personal biometric information of the operator, and the collating means is stored in the personal bioinformation input by the input means and the storage means. The personal biometric information collated with the personal biometric information is specified by which operator the personal biometric information is identified by the collating unit, and the control unit is identified by the collating unit. The output output of each operation screen in the output means is limited depending on the operator and the personal biometric information of the operator.

  In the analysis apparatus according to the present invention, the storage means stores a plurality of personal biometric information of the operator, and the collating means is stored in the personal bioinformation input by the input means and the storage means. The personal biometric information collated with the personal biometric information is specified by which operator the personal biometric information is identified by the collating unit, and the control unit is identified by the collating unit. The operation condition is set according to the individual biometric information of the operator and the operator.

  The analyzing apparatus according to the present invention is characterized in that the personal biometric information is information about a finger.

  According to the present invention, the operator corresponding to the personal biometric information input by the input unit is specified by collating the personal biometric information input by the input unit and the personal biometric information stored in the storage unit, and specified. Since the operations that can be performed according to the operator are limited, it is possible to provide an analysis apparatus that can start analysis processing easily and quickly and has improved security.

  Embodiments of the present invention will be described below with reference to the drawings. Note that the present invention is not limited to the embodiments. In the description of the drawings, the same parts are denoted by the same reference numerals.

  FIG. 1 is a diagram showing an overall configuration of an analysis system according to the present embodiment. As shown in FIG. 1, the analyzer 1 according to the present embodiment includes a measurement mechanism 2 that optically measures a reaction that occurs in a reaction vessel, drive control of the measurement mechanism 2, and a measurement result in the measurement mechanism 2. And a control mechanism 3 for performing the above analysis. The analyzer 1 performs an immunological test, a biochemical test, and a blood transfusion test on a sample such as blood or a body fluid by the cooperation of the measurement mechanism 2 and the control mechanism 3.

  The measurement mechanism 2 sequentially dispenses a sample and a reagent such as a specimen into a transported reaction container, and after stirring, optically measures a reaction liquid in which the specimen and the reagent have reacted. After completion of the optical measurement, the reaction container may be discarded as it is or may be used again for analysis of the specimen after washing.

  The control mechanism 3 is realized using one or a plurality of computer systems as shown in the main body 101 of FIG. The control mechanism 3 controls the operation process of the measurement mechanism 2 using various programs related to each process of the analyzer 1 and analyzes and stores the measurement information output from the measurement mechanism 2. The control mechanism 3 includes a control unit 31, a fingerprint input unit 34, an input unit 35, an analysis unit 36, a storage unit 37, an output unit 38, and a transmission / reception unit 39.

  The control unit 31 is configured using a CPU or the like having a control function, and controls processing and operation of each component of the analyzer 1. The control unit 31 performs predetermined input / output control on information input / output to / from each of these components, and performs predetermined information processing on this information. The control unit 31 controls the analyzer 1 by reading out the program stored in the storage unit 37 from the memory. The control unit 31 includes a fingerprint collation unit 32 and an operation control unit 33.

  The fingerprint input unit 34 inputs fingerprint information that is personal biometric information, and sends the input fingerprint information to the control unit 31. For example, as shown in FIG. 2, the fingerprint input unit 34 is a fingerprint pressing device 105 connected to the main body 101 constituting the control unit 31, and the operator presses the belly of a finger against a predetermined fingerprint pressing region. As a result, fingerprint information is input to the fingerprint input unit 34. The fingerprint input unit 34 detects a pressure value at a predetermined measurement point provided in the fingerprint pressing area. The fingerprint processing unit 32 calculates the pressure value at each measurement point by utilizing the fact that the pressure value is different between the concave portion and the convex portion of the fingerprint when the operator presses the belly of a predetermined finger against the fingerprint pressing area. Processing is performed to form a pressure distribution corresponding to the unevenness of the fingerprint, and a fingerprint pattern that is the pressure distribution is output to the control unit 31 as fingerprint information.

  As shown in FIG. 2, the input unit 35 includes a keyboard 103 for inputting various information, a mouse 104 for designating an arbitrary position on the display screen of the output unit 38, and the like. Necessary information and analysis operation instruction information from outside. The analysis unit 36 performs component analysis of the sample based on the measurement result acquired from the measurement mechanism 2.

  The storage unit 37 is configured using a hard disk that magnetically stores information, and a memory that electrically loads various programs related to the process from the hard disk when the analyzer 1 executes the process, Various information including the analysis result of the sample is stored. The storage unit 37 may include an auxiliary storage device that can read information stored in a storage medium such as a CD-ROM, a DVD-ROM, or a PC card. The memory | storage part 37 memorize | stores the collation table which shows the fingerprint which is biometric information, and the information which identifies the operator corresponding to this biometric information. In addition, the storage unit 37 stores a setting table indicating each operator and operation conditions corresponding to each operator.

  The output unit 38 is configured using a printer, a speaker, and the like in addition to the display 102 shown in FIG. 2, and outputs various information including the analysis result of the sample. The transmission / reception unit 39 has a function as an interface for performing transmission / reception of information according to a predetermined format via a communication network.

  The fingerprint collation unit 32 collates the fingerprint information input by the fingerprint input unit 34 with the fingerprint information stored in the storage unit 37 and specifies an operator corresponding to the fingerprint information input by the fingerprint input unit 34. The fingerprint collation unit 32 processes the fingerprint pattern input from the fingerprint input unit 34 and acquires identification information corresponding to the fingerprint pattern. Then, the fingerprint collation unit 32 refers to the collation table stored in the storage unit 37 and determines to which operator the identification information corresponding to the fingerprint pattern corresponds.

  The operation control unit 33 limits operations that can be performed according to the operator specified by the fingerprint collation unit 32. The operation control unit 33 limits the display output of each operation screen in the output unit 38 according to the operator specified by the fingerprint collation unit 32.

  Next, with reference to FIG. 3, a processing procedure until an operation screen is displayed in the analyzer 1 will be described. As shown in FIG. 3, the control unit 31 determines whether or not the analysis apparatus 1 is activated based on the presence / absence of instruction information for instructing activation of the analysis apparatus input from the input unit 35 (step S2). ). The control unit 31 repeats the determination process of step S2 until it is determined that the analysis device 1 is activated. When it is determined that the analysis device 1 is activated (step S2: Yes), the fingerprint input unit 34 operates the analysis device 1. The operator's fingerprint information is input to the control unit 31 (step S4). In this case, as shown in the menu M1 in FIG. 4, the output unit 38 displays a menu indicating “Please perform user authentication” in the column C1, and puts the belly of a predetermined finger on the fingerprint pressing device 105. Prompt the operator to press. When the operator presses the belly of the finger against the fingerprint pressing device 105, the fingerprint input unit 34 acquires the fingerprint pattern of the pressed finger and inputs the fingerprint pattern to the control unit 31 as fingerprint information.

  The fingerprint verification unit 32 processes the fingerprint pattern input from the fingerprint input unit 34, refers to the verification table stored in the storage unit 37, and selects an operator corresponding to the fingerprint information input by the fingerprint input unit 34. The specified fingerprint matching process is performed (step S6). In this fingerprint collation processing, an operator corresponding to the fingerprint pattern input by the fingerprint input unit 34 is specified by referring to the collation table exemplified in the table Ts1 of FIG. For example, when the fingerprint collation unit 32 determines that the identification information corresponding to the fingerprint pattern is “123456”, the operator of the analysis apparatus 1 determines that the operator is “A” corresponding to this fingerprint pattern. .

  Next, the operation control unit 33 refers to the setting table in the storage unit 37 (step S8), and the setting table can be operated or cannot be operated for each operator as shown in a table T1 in FIG. Corresponding operation contents. Then, the operation control unit 33 performs an operation restriction setting process that restricts operations that can be performed according to the operator specified by the fingerprint collation unit 32 (step S10).

  For example, when the fingerprint collation unit 32 specifies that the operator of the analysis apparatus is “A” who is an advanced operator, the operation control unit 33 analyzes the analysis menu MA1 as shown in FIG. 7 according to the contents of the table T1. Is displayed on the output unit 38. For the operator A, as shown in the table T1, all operations of (R) routine, (P) parameter, (A) assistance, (M) maintenance, (U) user, and (L) logout are possible. An analysis menu MA1 is displayed.

  Further, when the fingerprint collation unit 32 specifies that the operator of the analysis apparatus is “B” who is an intermediate operator, the operation control unit 33 analyzes the analysis menu MB1 as shown in FIG. 8 according to the contents of the table T1. Is displayed on the output unit 38. As shown in the table T1, the operator B can perform (R) routine, (P) parameter, (L) logout operation, (A) assistance, (M) maintenance, (U ) An analysis menu MB1 that is not operable by the user is displayed.

  Further, when the fingerprint collation unit 32 specifies that the operator of the analysis apparatus is “C”, which is a beginner operator, the operation control unit 33 analyzes the analysis menu MC1 as shown in FIG. 9 according to the contents of the table T1. Is displayed on the output unit 38. For the operator C, as shown in the table T1, (R) routine, (L) logout operation is possible, and (P) parameters, (A) auxiliary, (M) maintenance, (U ) The analysis menu MC1 that is not operable by the user is displayed.

  Moreover, in the analyzer 1, according to an operator, (R) routine, (P) parameter, (A) assistance, (M) maintenance, (U) user, (L) operation of each item in logout is restricted. May be. In this case, the operation control unit 33 refers to the table T2 illustrated in FIG. 10 as the setting table together with the table T1 illustrated in FIG. 6 in step S8. The table T2 shown in FIG. 10 associates each item that can be operated in (R) routine, (P) parameter operation, and the like for each operator.

  As shown in the table T2, when the fingerprint collation unit 32 specifies that the operator of the analyzer is “A” who is an advanced operator, the operation control unit 33 performs the (R) routine according to the contents of the table T2. , (P) causes the output unit 38 to output an analysis menu in which all items such as parameter operations can be operated.

  On the other hand, when the fingerprint collation unit 32 specifies that the operator of the analyzer is “B”, which is an intermediate operator, the operation control unit 33 performs (P) parameter operation according to the contents of the table T2. An analysis menu in which the item (Q) and the item (B) cannot be operated is output to the output unit 38. Specifically, as shown in FIG. 11, an analysis menu MB2 is displayed. In the analysis menu MB2, when an area corresponding to (P) parameter operation is selected, the items (Y), (I), (H), and (R) can be operated, but in the area Sb1 Items (Q) and (B) cannot be operated.

  When the fingerprint collation unit 32 specifies that the operator of the analyzer is “C”, which is a beginner operator, the operation control unit 33 sets the item (R) among the routine operations (R) according to the contents of the table T2. An analysis menu in which items (I), (H), (R), (Q), and (B) among the parameter operations Q), (D), (L), and (P) cannot be operated is output to the output unit 38. To output. Specifically, as shown in FIG. 12, an analysis menu MC2 is displayed. In the analysis menu MC2, when the area corresponding to the (R) routine operation is selected, the items (S), (T), (R), (C), (P), (L) can be operated. However, it is impossible to operate the item (Q) and the item (D) in the region Sc1.

  As described above, the analysis apparatus 1 can log in the analysis apparatus 1 and limit the operable range corresponding to the operator only by performing a simple process of pressing a predetermined finger against the fingerprint pressing apparatus 105. . In other words, according to the analysis apparatus 1, the operator does not need to perform complicated processes such as input of ID and password by mouse or keyboard operation and analysis item setting processing, which are conventionally required, and even inputs fingerprint information. Then, an operable range corresponding to each operator is automatically set. For this reason, according to the analysis device 1, it is possible to prevent the occurrence of erroneous input of ID and the leakage of personal information due to illegal use of ID and password, and to delete the time required for the login process. Further, according to the analysis apparatus 1, security can be improved by restricting the operable range corresponding to the operator and making it impossible for some operators to view personal information. Furthermore, according to the analyzer 1, a maintenance / inspection operation can be performed only for a maintenance / inspector of the analyzer 1, or only a main person in charge of the analyzer 1 can perform a predetermined analysis setting process such as parameter setting. By making it possible, smooth operation of the analyzer can be achieved. Therefore, according to the analyzer 1, it is possible to start the analysis process easily and quickly and improve the security.

  In the analysis apparatus 1, as shown in the table Ts2 of FIG. 13, the storage unit 37 may store a plurality of fingerprint information of the operator. Then, the operation control unit 33 may perform the operation restriction corresponding to each fingerprint information of each operator.

  In this case, after performing steps S2 to S4 in FIG. 3, the analysis device 1 stores the fingerprint information input by the fingerprint input unit 34 and the storage unit 37 in step S6 in FIG. 3. The fingerprint information is collated, and in addition to the operator corresponding to the fingerprint information input by the fingerprint input unit 34, which part of the operator's fingerprint information is specified. Further, as shown in a table T22 of FIG. 14, the storage unit 37 stores a setting table indicating operation contents corresponding to fingerprint information in each operator and each part of each operator. The operation control unit 33 refers to the table T22 of FIG. 14 in step S8 shown in FIG. Then, in step S10 shown in FIG. 3, the operation control unit 33 limits the operation condition according to the fingerprint information of the operator specified by the fingerprint collation unit 32 and which part of the operator. The operation control unit 33 refers to the table T22 of FIG. 14 in step S8 shown in FIG. Further, the operation control unit 33 restricts the display output of each operation screen in the output unit 38 depending on the operator specified by the fingerprint collation unit 32 and which part of the operator the fingerprint information is.

  Specifically, the operation items corresponding to the “index finger” of the operator “A” in the table T22 are the items (S), (T), (R), (C), and (P) of the (R) routine. In this case, when the operator A authenticates with the index finger, the items (S), (T), (R), (C), and (P) corresponding to the index finger of the operator A are shown in FIG. A pull-down analysis menu MA2 is displayed. In other words, the analysis menu MA2 in which the operations of the items (Q), (D), and (L) in the (R) routine operation are restricted is displayed. When the operator A operates only the predetermined item of the (R) routine, the analysis menu MA2 displaying the predetermined item of the (R) routine to be operated is displayed as it is, thereby opening each menu and the desired item. It is possible to omit a complicated process of displaying items. Further, when the operator A authenticates with the middle finger, as shown in the table T22, all operations of each item in the (R) routine operation and (P) parameter operation are illustrated in FIG. An analysis menu MA1 is displayed. In this way, the display screen may be further changed in correspondence with the fingerprint information of each part of each operator.

  Next, the operations that can be performed by the operator are actively limited to only the operation conditions corresponding to the operator, and the operation conditions corresponding to the operator specified by the fingerprint collation unit 33 are automatically set. The case where it does is demonstrated. In this case, the operation control unit 33 sets the operation condition corresponding to the operator specified by the fingerprint collation unit 32, and sets the operation condition corresponding to the operator specified by the fingerprint collation unit 32 in a predetermined state. Are displayed on the output unit 38.

  FIG. 16 is a flowchart showing a processing procedure until the analysis apparatus 1 sets an operation condition corresponding to each operator. As shown in FIG. 16, similarly to the processing procedure of steps S2 to S8 in FIG. 3, the control unit 31 performs determination processing (step S22) for starting the analyzer, and the fingerprint input unit 34 performs fingerprint input processing (step S24). The fingerprint collation unit 32 performs fingerprint collation processing (step S26), and the operation control unit 33 performs setting table reference processing (step S28). Here, as shown in the table T3 of FIG. 17, the setting table associates the type of display menu, the setting content, and the parameter file to be used for each operator. Then, the operation control unit 33 displays and outputs a predetermined operation menu screen on the output unit 38 in a state where the operation condition corresponding to the operator specified by the fingerprint collation unit 32 is set (step S30).

  For example, when the fingerprint collation unit 32 specifies that the operator of the analyzer is “A”, the operation control unit 33 displays a parameter setting menu MA3 as shown in FIG. 18 in accordance with the contents of the table T3. To display. The operator A can set the parameters in the area Cp on the parameter setting menu MA3 by operating the keyboard and mouse. Therefore, the operator A can perform parameter setting as it is after inputting the fingerprint, and does not need to call the target parameter setting menu by operating the mouse to open each menu in turn.

  When the fingerprint collation unit 32 specifies that the operator of the analyzer is “B”, the operation control unit 33 displays an analysis menu MB3 for accepting a reexamination as shown in FIG. 19 according to the contents of the table T3. Display. In this case, the operation control unit 33 sets an analysis condition with each parameter stored in the file “b” shown in the table T3, and displays the analysis menu MB3 on the output unit 38.

  When the fingerprint collation unit 32 specifies that the operator of the analyzer is “C”, the operation control unit 33 displays the normal analysis menu MC3 as shown in FIG. 20 according to the contents of the table T3 as the output unit 38. To display. In this case, the operation control unit 33 sets an analysis condition with each parameter stored in the file “c” shown in the table T3, and displays the normal analysis menu MC3 on the output unit 38.

  As described above, according to the analysis apparatus 1, it is possible to perform analysis processing more easily and quickly by displaying and outputting an operation screen in which each operation condition is set in correspondence with the fingerprint information of the operator.

  Further, the storage unit 37 may store fingerprint information of a plurality of parts of each operator, and the operation control unit 33 may set operation conditions corresponding to the fingerprint information of each part of each operator. For example, the operation control unit 33 refers to the table T31 of FIG. 21 stored in the storage unit 37 in step S28 shown in FIG. Then, in step S30 shown in 16, the operation control unit 33 is set in a state in which the operation condition is set in accordance with the operator specified by the fingerprint collation unit 32 and which part of the operator's fingerprint information is set. Are displayed on the output unit 38.

  For example, when the fingerprint collation unit 32 specifies that the fingerprint information input from the fingerprint input unit 34 corresponds to the index finger of the operator “A”, the operation control unit 33 follows the contents of the table T31 as shown in FIG. The parameter setting menu MA3 is displayed on the output unit 38. On the other hand, when the fingerprint collation unit 32 specifies that the fingerprint information input from the fingerprint input unit 34 corresponds to the middle finger of the operator A, the operation control unit 33 follows the contents of the table T31 as shown in FIG. A quality control menu MA4 is displayed on the output unit 38.

  When the fingerprint collation unit 32 specifies that the fingerprint information input from the fingerprint input unit 34 corresponds to the index finger of the operator “C”, the operation control unit 33 displays the contents of the table T31 as shown in FIG. Accordingly, the normal analysis menu MC4 in which the analysis item “ALB, GOT, G-GPT” is already set in the column Cb is displayed on the output unit 38 using the parameter file c. On the other hand, when the fingerprint collation unit 32 specifies that the fingerprint information input from the fingerprint input unit 34 corresponds to the middle finger of the operator “C”, the operation control unit 33, as shown in FIG. The parameter file c is used according to the contents, and the normal analysis menu MC5 in which the analysis item “ALB, GOT, GPT” is already set in the column Cb is displayed on the output unit 38. In this way, a plurality of operation conditions may be set for each operator, and simpler and quicker analysis processing may be realized.

  Also, the fingerprint input unit 34 has been described for acquiring fingerprint information based on the difference in pressure value between the concave and convex portions of the fingerprint, but is not limited to this, and the heat transfer characteristics of the concave and convex portions of the fingerprint are not limited thereto. Fingerprint information may be acquired based on the difference, or fingerprint information may be acquired based on the difference in capacitance between the concave and convex portions of the fingerprint. Further, fingerprint information may be optically acquired by imaging the concave and / or convex portions of the fingerprint.

  Further, as an embodiment, the case where an operator is specified by acquiring fingerprint information as personal biometric information has been described. However, the present invention is not limited thereto, and personal biometric information such as a palm vein, a voiceprint, and DNA is input, An operator may be specified based on the personal biometric information.

  The analysis apparatus 1 described in the above embodiment can be realized by executing a program prepared in advance on a computer system. This computer system implements the processing operation of the analyzer 1 by reading and executing a program recorded on a predetermined recording medium. Here, the predetermined recording medium is not only a “portable physical medium” such as a flexible disk (FD), a CD-ROM, an MO disk, a DVD disk, a magneto-optical disk, and an IC card, but also inside and outside the computer system. It includes any recording medium that records a program readable by a computer system, such as a “communication medium” that holds the program in a short time when transmitting the program, such as a hard disk drive (HDD) provided. In addition, the computer system acquires a program from another computer system or the like via a network, and executes the acquired program to realize the processing operation of the analysis apparatus 1.

It is a block diagram which shows the structure of the analyzer concerning embodiment. It is the schematic of the analyzer concerning embodiment. It is a flowchart which shows the process sequence to the operation restriction setting in the analyzer shown in FIG. It is a figure which shows an example of the display screen of the display which the output part shown in FIG. 1 has. It is a figure which shows an example of the collation table which the memory | storage part shown in FIG. 1 memorize | stores. It is a figure which shows an example of the setting table which the memory | storage part shown in FIG. 1 memorize | stores. It is a figure which shows an example of the display screen of the display which the output part shown in FIG. 1 has. It is a figure which shows an example of the display screen of the display which the output part shown in FIG. 1 has. It is a figure which shows an example of the display screen of the display which the output part shown in FIG. 1 has. It is a figure which shows an example of the setting table which the memory | storage part shown in FIG. 1 memorize | stores. It is a figure which shows an example of the display screen of the display which the output part shown in FIG. 1 has. It is a figure which shows an example of the display screen of the display which the output part shown in FIG. 1 has. It is a figure which shows an example of the collation table which the memory | storage part shown in FIG. 1 memorize | stores. It is a figure which shows an example of the setting table which the memory | storage part shown in FIG. 1 memorize | stores. It is a figure which shows an example of the display screen of the display which the output part shown in FIG. 1 has. It is a flowchart which shows the process sequence until it displays the operation screen in the analyzer shown in FIG. It is a figure which shows an example of the setting table which the memory | storage part shown in FIG. 1 memorize | stores. It is a figure which shows an example of the display screen of the display which the output part shown in FIG. 1 has. It is a figure which shows an example of the display screen of the display which the output part shown in FIG. 1 has. It is a figure which shows an example of the display screen of the display which the output part shown in FIG. 1 has. It is a figure which shows an example of the setting table which the memory | storage part shown in FIG. 1 memorize | stores. It is a figure which shows an example of the display screen of the display which the output part shown in FIG. 1 has. It is a figure which shows an example of the display screen of the display which the output part shown in FIG. 1 has. It is a figure which shows an example of the display screen of the display which the output part shown in FIG. 1 has.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Analyzer 2 Measurement mechanism 3 Processing mechanism 31 Control part 32 Fingerprint collation part 33 Operation control part 34 Fingerprint input part 35 Input part 36 Analysis part 37 Storage part 38 Output part 39 Transmission / reception part 101 Main part 102 Display 103 Keyboard 104 Mouse 105 Fingerprint Pressing device

Claims (7)

In an analyzer that analyzes a sample according to the operation of the operator,
Input means for inputting personal biometric information;
Storage means for storing personal biometric information of each operator acquired in advance;
Collation means for collating the personal biometric information input by the input means and the personal biometric information stored in the storage means to identify an operator corresponding to the personal biometric information input by the input means;
Control means for restricting operations that can be performed according to the operator specified by the verification means;
An analyzer characterized by comprising: In an analyzer that analyzes a sample according to the operation of the operator,
Input means for inputting personal biometric information;
Storage means for storing personal biometric information of each operator acquired in advance;
Collation means for collating the personal biometric information input by the input means and the personal biometric information stored in the storage means to identify an operator corresponding to the personal biometric information input by the input means;
An output means for displaying and outputting each operation screen for accepting an operation;
Control means for restricting display output of each operation screen in the output means according to an operator specified by the collating means;
An analyzer characterized by comprising: In an analyzer that analyzes a sample according to the operation of the operator,
Input means for inputting personal biometric information;
Storage means for storing personal biometric information of each operator acquired in advance;
Collation means for collating the personal biometric information input by the input means and the personal biometric information stored in the storage means to identify an operator corresponding to the personal biometric information input by the input means;
Control means for setting operation conditions corresponding to the operator specified by the matching means;
An analyzer characterized by comprising: The storage means stores a plurality of personal biological information of the operator,
The collation means collates the personal biometric information input by the input means and the personal biometric information stored in the storage means, and the personal biometric information input by the input means Specify whether the personal biometric information,
The analyzer according to claim 1, wherein the control unit limits an operation that can be performed depending on an operator specified by the collating unit and which personal biometric information of the operator is the personal biometric information. . The storage means stores a plurality of personal biological information of the operator,
The collation means collates the personal biometric information input by the input means and the personal biometric information stored in the storage means, and the personal biometric information input by the input means Specify whether the personal biometric information,
The control means restricts display output of each operation screen in the output means depending on which of the operator specified by the collating means and the personal biometric information of the operator. The analyzer described in 1. The storage means stores a plurality of personal biological information of the operator,
The collation means collates the personal biometric information input by the input means and the personal biometric information stored in the storage means, and the personal biometric information input by the input means Specify whether the personal biometric information,
4. The analysis apparatus according to claim 3, wherein the control unit sets the operation condition according to the operator specified by the collating unit and which personal biometric information of the operator.   The analysis apparatus according to claim 1, wherein the personal biometric information is information related to a finger.

Images