JP2016049498A - Centrifugal machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a centrifugal machine capable of selecting an operation condition and starting operation by less operation, when carrying out centrifugal separation as routine work.SOLUTION: In a centrifugal machine, a function for selecting a first screen indicated in a display portion after the completion of starting due to power activation, thereby enabling the selection whether a manual input screen which can change an operation condition to operate is displayed or a program selection screen 300 which selects one of the operation conditions stored in a control portion in advance is displayed. In the program selection screen 300, buttons 310-390 of nine kinds of program operation conditions are disposed in one screen, and furthermore, a start button 440 is disposed, thereby enabling direct centrifugal separation operation from the program selection screen 300.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a method of operating a centrifuge for performing various centrifugal processes such as precipitation separation, purification, concentration, etc. by using a liquid or a mixture of a solid and a liquid as a sample, and particularly facilitating programming operation. It allows you to choose.

  In the fields of medicine, pharmaceuticals, biochemistry, and the like, a centrifuge (centrifuge) is used to perform a process such as precipitation separation using a liquid or a mixture of a solid and a liquid as a sample. The centrifuge has a rotor in which a container such as a tube or bottle in which a sample such as a culture solution or blood is accommodated is loaded. The rotor is detachably mounted on a rotating shaft that protrudes into the rotor chamber of the storage container. The rotor is rotationally driven by a driving device such as an electric motor. When the sample in the storage container is centrifuged, the rotor is rotated at a high speed while the sample is held by the rotor. For example, in centrifugation of blood to make blood product raw materials, centrifugation in the manufacture of products using liquid materials, etc., in general, values such as operating conditions, that is, rotational speed, operating time, control temperature, etc. are specified. Limited to combinations. Therefore, in Patent Document 1, a combination of the plurality of operating conditions is stored in advance in the centrifuge, and when the centrifugal operation is performed, when the user selects the stored operating conditions, A function called so-called program operation is used, which saves the trouble of inputting a value.

Japanese Patent No. 4,352,386

Normally, the operating conditions stored in the main unit for use in programmed operation are identified by a one-digit or two-digit number, and the user selects and sets the target operating condition by entering the number. It is configured. For example, in a blood center that is a typical business establishment where program operation is frequently used, a list showing the target work for each program number as shown in Table 1 is arranged near the centrifuge.

  When the present inventors investigated the use situation of centrifuges in a plurality of blood centers in Japan and several overseas countries, the above table is pasted on the surrounding wall or the centrifuge body in the majority of them. It was done. In addition, even for centrifuges capable of storing 10 or more of the contents, most of the numbers for identifying the operating conditions are 9 or less, and they were operated using only a single digit number. In such usage, the time from when the sample is loaded, the door is closed, the operation condition is selected, and the start button is pressed to start centrifugation is several seconds to several tens of seconds. In a conventional centrifuge, for example, a centrifuge having a liquid crystal screen, it is usually necessary to display a large operating state such as the rotation speed. Therefore, in order to use the program operation function, (1) From the manual input screen (basic screen) Switch to another screen for program selection, (2) Select the number determined in the program operation list, and (3) Press the call button to enter the manual input screen (normal basic screen and operation screen) Returning, (4) 4 operations of starting from the manual input screen were necessary. In general, it is a level that cannot be said to be a long time, but in routine work that repeats the same work many times a day, such as a blood center, there is a need to shorten this even one second. . One reason the program identification number is used is that one digit is faster than two digits.

The present invention has been made in view of the above background, and its purpose is to select a driving condition and start a driving operation with few operations suitable for performing centrifugation as a routine work, specifically, at most two operations. An object of the present invention is to provide a centrifuge that can be used.
Another object of the present invention is to provide a centrifuge that facilitates designation of program operation and avoids operation errors by the user as much as possible.

  According to the features of the present invention, a rotor that holds a sample to be separated and rotates at a high speed, a rotor chamber that houses the rotor, a motor that drives the rotor, an operating condition of the rotor, and an indication of the operating condition of the rotor are displayed. In a centrifuge equipped with an operation display unit to perform and a control unit to control the motor and the operation display unit, the operating condition is changed as the first operation screen to be displayed on the operation display unit after completion of startup after power-on. You can select either “manual input screen (basic screen)” that can be operated and “program selection screen” that selects and operates one of the multiple operating conditions stored in the control unit in advance. It was. In the program selection screen, a plurality of program operation selection buttons are arranged on one screen, and a start button for starting the centrifugal separation operation in the selected program operation is displayed, so that the program can be selected without returning to the manual input screen. Direct start of centrifuge operation from the screen. The operation display unit can be realized by a display screen and input keys, and it is preferable to use a touch-type liquid crystal display panel because it can be realized integrally and is easy to use. Since the configuration of the operation display unit is not limited to this, the display unit using a non-touch type liquid crystal display panel or other display device and the operation unit having a physical input button or any input device are separately provided. It may be provided. Further, the display unit may be realized by a simple display unit using a combination of LEDs, for example.

  According to another aspect of the present invention, the program selection screen includes a plurality of types of program operation condition buttons, and a comment set by the user can be displayed on each of the program operation condition buttons. I made it. Furthermore, a start button is arranged in the program selection screen, and it is possible to give an instruction to start centrifugation without returning from the program selection screen to the manual input screen. The program selection screen displays the operating conditions registered in the selected program, and further counts the number of times the program is executed (the number of times of use), and also displays the number of times of execution. The program selection screen displays only the buttons for the program operation conditions in which the operation conditions for using the rotor specified by the user using the operation unit or the rotor determined by the rotor determination function of the centrifuge are registered. It is preferable that the selection button for the program that cannot be executed is not displayed, or the display mode is such that the user cannot select the button by gray display or the like.

  According to still another feature of the present invention, a lock function is provided so that only a specific user can change the operating conditions registered in the program. In addition, an operation restriction function may be provided that disables arbitrary setting of operation conditions from the manual input screen and enables only program operation. If comprised in this way, generation | occurrence | production of the situation where a driving | running condition will be changed by accidental operation in the environment where only a program driving | running | working is performed can be prevented. In addition, a non-authorized administrator may be provided with an operation restriction mode that makes it impossible to change the driving conditions from the manual input screen, and this operation restriction prevents accidental operation from changing the driving situation. it can.

  According to the present invention, it is possible to provide a centrifuge suitable for performing centrifugation according to a program as a routine work, and a user can select operation conditions with less operations, specifically, at most two operations. Operation can be started.

It is sectional drawing which shows the whole structure of the centrifuge 1 which concerns on the Example of this invention. It is a figure which shows the basic screen (manual input screen) 200 which inputs the driving | running condition of the centrifuge concerning this invention, and displays a driving | running state. It is a screen state transition diagram after power-on of the centrifuge 1 which concerns on the Example of this invention. It is a figure which shows the program selection screen 300 for instruct | indicating the program operation of the centrifuge which concerns on this invention. It is a flowchart which shows the operation procedure from the power-on of the centrifuge 1 which concerns on the Example of this invention until a program driving | operation is started. It is a figure which shows the memory lock setting screen 600 in a centrifuge. It is a figure which shows the user lockout setting screen 700 in a centrifuge. It is a figure which shows the user management screen 800 which displays the user registered beforehand in a centrifuge in list format. It is a figure which shows the operation mode setting screen 900 in a centrifuge. It is a screen state transition diagram after power-on in a conventional centrifuge. It is a figure which shows the program selection screen 1100 for instruct | indicating the program driving | running | working in the conventional centrifuge. It is a flowchart which shows the operation procedure from the power-on in the conventional centrifuge to starting a program driving | operation.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following drawings, the same portions are denoted by the same reference numerals, and repeated description is omitted.

  FIG. 1 is a cross-sectional view showing a configuration of a centrifuge (centrifuge) 1 according to an embodiment of the present invention. On the upper part of the casing 5 of the centrifuge 1, an operation display unit 10 is provided for a user to input information and display necessary information. For example, a touch panel type liquid crystal display (LCD) device is preferably used as the operation display unit 10, but any display device or input device may be used. A rotor chamber 3 for accommodating the rotor 2 is provided inside the housing 5. The rotor chamber 3 is formed by a bowl 4 made of a material that is not easily rusted, such as stainless steel. In the present embodiment, a cooling device is provided to prevent a temperature rise of the rotor chamber 3 due to the rotation of the rotor 2. The cooling device includes a condenser 7a, a compressor 7b, a refrigeration pipe 7c wound around the bowl 4, and a capillary tube 7d. A cooling fan 8 for supplying cooling air to the condenser 7a is provided in a part of the casing.

  The rotor chamber 3 is configured such that its upper surface opening can be opened and closed by a door 9, and by opening the door 9, the rotor 2 for storing a sample to be centrifuged can be attached to or detached from the interior of the rotor chamber 3. The control unit 11 controls the motor 12 that rotates the rotor 2 in accordance with the value set from the operation display unit 10, and the compressor 7 b for appropriately cooling the refrigerant through the refrigeration pipe 7 c wound around the bowl 4. The rotation speed of the cooling fan 8 is controlled. Note that a decompression device for further reducing windage loss due to rotation of the rotor 2, for example, a vacuum pump device such as an oil rotary vacuum pump and an oil diffusion vacuum pump may be used.

  The control unit 11 includes a microcomputer (not shown), volatile and non-volatile storage memories, and receives operating conditions (rotation speed, operating time, set temperature, operating rotor, etc.) set on the touch panel of the operation display unit 10, Using the operating conditions stored in advance in the storage device in the control unit 11 and information on the mounted rotor information, the rotation control of the motor 12 as a drive source, the temperature control of the rotor chamber 3 by the compressor 7b, and the operation display unit Information is input from 10 and various information is displayed on the operation display unit 10. The control of these control units 11 can be controlled by software by causing the microcomputer to execute a program stored in the storage means.

  FIG. 2 is a diagram illustrating an example of a basic screen 200 displayed on the operation display unit 10. In this embodiment, the operation display unit 10 is described as an example implemented by a touch panel type liquid crystal display. The basic screen 200 is a screen for displaying control information related to the centrifugal separation operation and the operation state. The upper part (upper part) of the screen has a rotor speed display field 210, an operation time display field 220, a rotor temperature. Three display fields of the display field 230 are assigned. The rotor rotational speed display column 210 is an area for displaying the rotational speed of the rotor 2 in rpm, and the upper side of the current rotor rotational speed 211 measured by a rotation sensor (not shown) is large. On the lower side, the set rotational speed 212 set by the operator is displayed small. The operation time display column 220 is an area for displaying the operation time of the centrifuge, and the elapsed time 221 from the start of operation to the present is displayed greatly on the upper side, and the setting (operation) input by the operator is displayed on the lower side. ) Time 222 is displayed small. The rotor temperature display field 230 is an area for displaying the temperature of the rotor 2 (or the internal temperature of the rotor chamber 3). The current rotor temperature 231 is displayed in a large upper row, and the set temperature 232 input by the operator is displayed. Small and displayed in the lower row. When the operator touches each of the rotor speed display column 210, the operation time display column 220, and the rotor temperature display column 230 on the screen, a pop-up screen (not shown) is displayed, and numeric keys from 0 to 9 are displayed there. Since it is displayed, it is possible to input and set the set rotational speed, the operating time, the set temperature of the rotor 2 and the like by operating the display. When a numerical value is input using the numerical key, the input numerical value is input to the designated display field by touching a setting completion key (not shown) or an icon for closing the pop-up screen.

  In the rotor name display area 240, an identification symbol (identification number) 241 corresponding to the type of the rotor 2 to be used is displayed. Here, “R22A4” which is the model number of the rotor 2 is displayed. When the operator touches the rotor name display area 240, a list of identification symbols of the rotor 2 that can be selected is displayed on the pop-up screen, and the operator can identify the rotor 2 by selecting one by touching it. The number is displayed in the rotor name display area 240. In the acceleration / deceleration mode display area 250, the acceleration gradient (ACCEL) until the rotor 2 reaches the set rotational speed from the stopped state at the start of operation and the rotor 2 from the set rotational speed to the stopped state at the time of operation stop. The rotation deceleration gradient (DECEL) is displayed in correspondence with each other at a numerical level. Also in this setting, when the operator touches the acceleration / deceleration mode display area 250, the acceleration gradient and the deceleration gradient that can be selected by the pop-up screen are displayed and selected by the user. The function display unit 260 is a display field for displaying icons for selecting other control functions, and a plurality of icons including a program button 261 are displayed. By pressing any of these icons, switching from the basic screen 200 to the next screen is performed.

  The start button 280 is a button (icon) for starting a normal centrifuge operation, and the centrifuge operation is started when the user touches the start button 280. The stop button 285 is a button for stopping the operation halfway during the centrifugal separation operation. Here, since a touch-type liquid crystal display is used as the operation display unit 10 in this embodiment, buttons and icons are almost synonymous, and “pressing a button” and “touching an icon” are synonymous. In the user name display area 270, the name of the logged-in user is displayed. In the figure, nothing is displayed in the user name display area 270, but when a specific user logs in, the registered user name is displayed under the title line of “USER”. The basic screen 200 is further provided with a start button 280 and a stop button 285. On the right side of the center of the basic screen 200, there is a function display section 260, on which various icons such as a program button 261 and an RCF button are displayed.

  Here, before explaining the first feature of the embodiment of the present invention, the screen state transition of the operation display unit 10 from the power-on to the start of the program operation in the conventional centrifuge will be described with reference to FIGS. I will explain. The hardware configuration of the centrifuge 1 of the present invention and the conventional centrifuge 1 are substantially the same, and the basic screen 200 uses substantially the same screen.

  FIG. 10 shows a screen state transition diagram after power-on in a conventional centrifuge. When the power source of the centrifuge 1 is turned on, the control unit 11 executes a startup program (not shown) and displays a startup screen displayed during the startup (status 1001). The startup screen is a screen that is displayed for the sake of convenience during execution of the startup program (before startup is completed). Normally, the startup screen does not accept user input operations. Next, after the start-up is completed by turning on the power, that is, when the execution of the start-up program is completed and the user can accept a normal operation, the basic screen 200 of FIG. 2 is displayed (status 1002). The basic screen 200 is a manual input screen that can be operated by a user touching a button or the like displayed on the screen. Here, when performing a program operation, touching the program button 261 on the basic screen 200 switches the display to a program selection screen on which a list of programs is displayed (status 1003). When a desired program is selected on the program selection screen, the call icon is touched to return to the basic screen 200 (status 1002). When the start button 280 is touched on the basic screen 200, the centrifugal separation operation is started, the basic screen is displayed (status 1004), and when the centrifugal operation is completed, the basic screen returns to the stopped state (status 1002).

  Here, a program selection screen 1100 for instructing program operation in a conventional centrifuge will be described with reference to FIG. This screen is used as a program selection screen. However, an administrator such as Administer is used as a screen for inputting or correcting the contents of program operation. In the program operation list frames 1110 to 1150, predetermined operation conditions, that is, the rotor speed, the centrifugal operation time, and the rotor temperature are set in advance in the program number (No.). A desired program operation is selected by touching frames 1110 to 1150. Here, no. Since the program operation frame 1150 of No. 5 is not input, the operation condition is not displayed in the list frame and is blank. This is because the program operation is not input to 5. In each of the program operation frames 1110 to 1150, a REMARK column is provided in order to indicate what kind of operation the program operation is in addition to the operation conditions, and there is a title and description there. A sentence is entered. A call icon 1160 is displayed at the lower left of the program selection screen 1100.

  Page break icons 1170a and 1170b are displayed on the lower side of the program selection screen 1100, and the page is moved each time these are touched. Many program operations of 6 or more can be set. When a user who is an administrator such as Administer displays a screen for selecting one of the frames 1110 to 1150 to be operated and touches the selection button 1190, details for inputting or editing the selected program operation Since another screen (not shown) showing the contents is displayed, it is possible to input operating conditions and the like from the other screen. The user who is an administrator can delete the contents of the program operation (delete and return to the non-input state) by touching the delete icon 1180 after selecting any of the frames 1110 to 1150.

  Returning to FIG. 10, on the program selection screen, the desired program is selected from the program list storing the operating conditions, and the call icon 1160 is touched. Then, the control unit 11 displays the basic screen 200 in a state in which the operation condition registered as the program operation is reflected (status 1002). After confirming that the desired operating conditions are set, the user touches the start button 280 on the basic screen 200 to start the centrifugal separation operation.

  Next, the operation procedure from the power-on of the conventional centrifuge 1 to the start of the program operation will be further described using the flowchart of FIG. In FIG. 12, when the user powers on the centrifuge 1 (step 1200), a startup screen is displayed (step 1210), and a basic screen 200 is displayed (step 1220). Next, when the program button 261 of the function display unit 260 on the basic screen 200 is touched by the user (step 1230), a conventional program selection screen (not shown) is displayed (step 1240). On the conventional program selection screen, when the user touches the program list storing the desired operating conditions (step 1250) and touches the call icon 1160 (step 1260), the control unit 11 reflects the program contents. In this state, the basic screen 200 is displayed (step 1270). After confirming that the desired operating conditions are set, the user touches the start button 280 of the basic screen 200 (step 1280), and starts the centrifugal separation operation (step 1290). As described above, the conventional centrifuge is configured to call the program selection screen from the basic screen 200, select a desired program, call the basic screen again, and then start the centrifugal separation operation. It was.

  Next, the screen state transition of the operation display unit 10 from when the centrifuge 1 according to the embodiment of the present invention is turned on until the program operation is started will be described with reference to FIG. In this embodiment, in addition to the conventional screen transition (indicated by a dotted line), a screen transition indicated by a solid line (operation procedure for program operation mode) is realized as a new operation mode. The state transition indicated by the dotted arrow is the same flow as the conventional state transition shown in FIG.

  When the centrifuge 1 is turned on, a startup screen is displayed (status 61). Here, the control unit 11 determines whether the setting of the operation mode is a normal mode indicated by a dotted line or a program operation mode indicated by a newly set solid line arrow. After powering on the centrifuge 1. When the operation mode preset by the user is the program operation mode, the control unit 11 displays the program selection screen 300 (described later in FIG. 4) without displaying the basic screen 200 (status 63). On the other hand, when the normal operation mode is set, the screen transitions as indicated by a dotted arrow and the basic screen 200 is displayed (status 62). It is assumed that the program operation can be started from the basic screen 200 and the program selection screen 300. When the operation is started from the basic screen 200 (status 62), the procedure is the same as the conventional procedure described with reference to FIG. When starting operation from the program selection screen 300 (status 63), the user first touches the program selection button of the program storing the desired operation conditions, and then touches the start button on the same screen. Start centrifugation operation. After the start button is touched, the control unit 11 automatically displays the basic screen 200 (status 64), and displays the rotational speed, the elapsed time 221, the rotor temperature 231 and the like as the operating state in real time. When the centrifugal separation operation ends, the control unit 11 automatically returns to the display of the program selection screen 300 (status 63). Furthermore, when operating continuously under the operating conditions registered in the program, the program is still selected in the previous operation, so the user touches the start button on the program selection screen. Only the centrifuge operation can be started.

  Next, the program selection screen 300 displayed on the operation display unit 10 will be described with reference to FIG. In the program selection screen 300, nine program selection buttons 310 to 390 for selecting an operation condition to be operated from a plurality of operation conditions stored in the control unit 11 in advance are displayed side by side on the same screen. . In addition, an operation condition display field 410 is provided at the lower left of the program selection screen 300, and the contents of the operation conditions registered in the program selected by the user are displayed on the same screen. Further, a start button 440 and a stop button 445 are displayed at the lower right of the program selection screen 300. The functions of the start button 440 and the stop button 445 are the same as the functions of the start button 280 and the stop button 285 on the basic screen 200.

  When the operating conditions are stored, the program selection buttons 310 to 390 are displayed in an arbitrary color selected by the user. Inside the program selection buttons 310 and 340, comments 311 and 341 that the user can freely set are displayed. Is displayed. Here, the program operation means, for example, that the centrifugal operation is divided into one or a plurality of steps so that the operation conditions (rotation speed, time, temperature, etc.) of the centrifuge can be set for each step, This is a function that allows automatic operation of the set steps in order.

  When the operating condition is not stored, the program is not input by displaying it in a different form from the other program selection buttons 310, 340, etc. It can be identified by the user. In addition, for a program that cannot be executed by the rotor specified by the user using the operation unit or the rotor 2 determined by the rotor determination function of the centrifuge, the program is displayed in gray to indicate that it cannot be executed, Only the program operation condition icon may be displayed. In this embodiment, the program selection buttons 350 and 370 for which no operating conditions are stored are displayed in gray. However, the present invention is not limited to this, and the operating conditions are stored (program selection buttons 310 and 340). Etc.) and the display mode of colors, patterns, fonts, etc. may be changed. Further, the program selection buttons 350 and 370 for which no operating condition is stored may be configured not to display the selection buttons themselves.

  On the program selection screen 300, a program selected by the user or a program operated in advance is displayed so that it can be seen that the thick frame 305 is selected. Here, program no. 4 shows a state in which a program selection button 340 is selected. In this state, program no. 4 is displayed in the operation condition display field 410. When the program operation consists of a plurality of steps, the display column of the program selection button 340 may be enlarged so that details of each step can be understood. When the user selects any one of the program selection buttons, the contents of the program, that is, the rotation speed (22,000 rpm), the operation time ( 60 minutes and 30 seconds), the set temperature (4 ° C.), the acceleration gradient (ACCEL is 4), and the deceleration gradient (DECEL is 7) can be immediately recognized. Therefore, the centrifuge operation can be immediately disclosed by touching the start button 440 on the program selection screen 300.

  In this embodiment, when the centrifuge is turned on, the program selection screen 300 can be displayed next to the startup screen, so that the user only needs to perform two operations: a program selection button touch and a subsequent start button 440 touch. Thus, a desired program operation can be quickly started. In addition, since the details of the program operation can be confirmed in the operation condition display field 410 at this time, the operation condition is confirmed without returning to the basic screen by calling the basic screen (manual input screen) 200. The centrifuge operation can be started above.

  Below the program selection screen 300, page break icons 430a and 430b for "advancing" or "returning" the page of the program selection screen and processing such as changing / calling / deleting the program selected by the user are selected. A MENU icon 420 is provided. In this embodiment, a total of nine buttons of program selection buttons 310 to 390 are displayed on the program selection screen 300, but the number of programs to be registered can be larger than this, and the page break icons 430a and 430b can be operated. Thus, it is possible to move to the previous page (no previous page in the display state of FIG. 4) or the next page and display another program number. The MENU icon 420 is an operation icon for moving from the program selection screen 300 to another screen. Although not shown, when the MENU icon 420 is touched, a plurality of operation icons (not shown) are displayed. A small pull-up screen is displayed, and the user touches a desired operation icon among them. The icons displayed in the pull-up screen include “call” for returning to the basic screen 200, “edit” for editing the program, “delete” for deleting the program, and a count registered in the program. Various icons such as “count clear” for clearing the value of 417 can be displayed. Here, with regard to “edit” and “delete”, transition from this screen to a screen where an administrator who has the authority to edit the program content, such as Administrator, edits or deletes the content registered in the program selection button. It can be performed. When entering on another screen, instructions for entering or editing the contents of the operating conditions corresponding to the program selection screen 300 in FIG. 4, clearing the count value, entering further supplementary explanations, and whether to display pop-up help It is preferable that various information such as text displayed in the pop-up help can be registered. When the display of the pop-up help is selected, the user touches a predetermined frame (for example, the program selection button 340) on the program selection screen 300 in FIG. You may comprise so that it may display automatically.

  In the present embodiment, a count 417 is provided as a convenient function for totalizing the number of executions of program operation. This is one that automatically increments each time a series of centrifugal operations controlled by a program such as rotor stop → acceleration → settling (centrifugation operation) → deceleration → rotor stop is executed. And is collected and managed for each program number. Since the value of the count 417 is stored in a non-illustrated non-volatile memory in the control unit 11, it is held without being cleared even when the centrifuge is turned off. By providing the column of the count 417, it is possible to easily grasp the current program operation when grasping the work amount or repeating the same centrifugal separation operation. The count 417 can be arbitrarily cleared (the count value is set to 0). For example, as shown in FIG. After selecting 4 and displaying the thick frame 305, simply touch the MENU icon 420 and touch “Clear Count” from the pull-up icon group to set the displayed count 417 to “0”. Can be changed. In order to prevent incorrect operation, if the user touches “Clear Count”, the user will be asked to confirm the program by “Do you want to clear the program No. ○ count value? YES / NO”. May be.

  Next, using the flowchart of FIG. 5, an operation procedure from when the centrifuge 1 according to the embodiment of the present invention is turned on until the program operation is started will be described. The control shown in FIG. 5 can be executed by software by executing a computer program in the control unit 11 having a microprocessor, for example. When the user turns on the centrifuge 1 (step 100), a startup screen is displayed (step 101), and the control unit 11 determines whether the operation mode is set to the normal operation mode or the program operation mode (step 101). Step 102). When the operation mode is the program operation mode, the control unit 11 directly displays the program selection screen 300 without displaying the basic screen 200 after displaying the startup screen (step 105). If the display of the basic screen 200 can be skipped in this way, the number of screen operations displayed before reaching the target screen is reduced for a user who performs a routine operation that performs the same program operation every time. The On the other hand, if the operation mode is the normal operation mode in step 102, the basic screen 200 is displayed (step 103). Here, in step 102, as one of the initial setting items of the centrifuge 1, the operation mode to be displayed next after the startup screen is displayed is set to normal operation (the basic screen 200 is displayed) or program operation is performed. (The program selection screen 300 is displayed) can be configured in advance.

  This operation mode setting screen 900 is shown in FIG. The user touches the menu tab 205 on the basic screen 200 (see FIG. 2), and performs “set operation mode” from the displayed icon group. On the operation mode setting screen 900, when the program operation mode is set as a screen display after power-on, the program operation mode icon 920 is touched. When the program operation mode is set, the operation condition may not be changed from the basic screen 200, and the operation may be limited to allow only the program operation. On the other hand, when the normal operation mode is set, the normal operation icon 930 is touched. When the normal operation mode is set, the same operation as the conventional one can be performed. In the operation mode setting screen 900, which icon is selected can be recognized by a thick frame 940 surrounded by the icons, but the method for identifying the selection status of the icon is not limited to the thick frame. It is good also as a display mode. When confirming the set contents, the user can return to the original screen by touching the close button 950.

  Returning again to the flowchart of FIG. In step 103, when the user touches the program button 261 of the function display section 260 on the basic screen 200 (step 104), the program selection screen 300 is displayed (step 105). In the basic screen 200, other operations such that the user inputs all the operating conditions each time and starts the centrifugal separation operation are possible, but here, the explanation is made only when the program operation is selected. to continue.

  Next, on the program selection screen 300, the user touches one of the program selection buttons 310 to 390 of the program that stores the desired operating conditions (step 106). For example, this is a case where the column of the program selection button 340 is touched from the display screen of FIG. As a default, a thick frame 305 may be added in advance to the program selection button that has been operated before, so that it is selected for a user who performs only the same program operation every day. If it is confirmed that the current program operation is N0.4, the operation in step 106 is unnecessary, and the input operation for selecting a program can be omitted. Next, the user touches the start button 440 displayed at the lower right of the program selection screen 300 (see FIG. 4) or touches the call button from the MENU icon 420 (step 107). The control unit 11 determines whether the button touched by the user is a start button 440 or a call in the MENU icon 420 (step 108).

  When the button touched by the user is the start button 440, the basic screen 200 is displayed (step 109), and the centrifugal separation operation is started (step 112). On the other hand, if the button touched by the user is a call button, the control unit 11 displays the basic screen 200 (step 110) and waits for the next operation by the user. The user confirms that the desired operating conditions are set on the basic screen 200, corrects if necessary, and then touches the start button 280 on the basic screen 200 (step 111) to perform the centrifugal operation. Start (step 112). When the series of centrifuge operations programmed in this way is completed, the arithmetic unit ends the process and returns to step 102.

  As described above, according to the present embodiment, it is possible to select whether to display the basic screen 200 or the program selection screen 300 after the power is turned on. By enabling the operation start, it is possible to provide a centrifuge capable of performing a centrifugal separation operation by at most two operations of selecting an operation condition and starting the operation. Furthermore, an operation procedure from power-on to the start of program operation can be selected by the user's intention. In this embodiment, not only the functions described above but also some additional functions can be provided.

  The operating conditions registered in each program are changed from the program selection screen 300. However, if the operating conditions are not changed by another user based on the judgment of the administrator, one of the initial setting items is shown in FIG. 6 on the memory lock setting screen 600 as shown in FIG. 6, a general user can disable the change or deletion of the operating condition registered in the program by touching the memory lock valid icon 901 (lock function). ). However, operations such as reference to operating conditions are allowed. The memory lock setting screen 600 can be changed by touching the menu tab 205 of the basic screen 200 (see FIG. 2) and performing “memory lock setting” from the displayed icon group. On the memory lock setting screen 600, when the memory lock is set, the valid icon 620 is touched. When the valid icon 620 is selected (enclosed by a thick frame 640), the operation condition cannot be changed from the program selection screen 300, and only the program operation can be executed. On the other hand, when the normal operation mode is set, the invalid icon 630 is touched. When the invalid icon 630 is set, an operation similar to the conventional one can be performed. When returning to the original screen, the close button 650 at the upper right is touched.

  Next, the user lockout setting will be described with reference to FIG. The user lockout setting screen 700 can be changed by touching the menu tab 205 of the basic screen 200 (see FIG. 2) and performing “user lockout setting” from the displayed icon group. On the user lockout setting screen 700, by touching the user lockout valid icon 720, a user other than the administrator registered in advance can realize an operation restriction function that cannot change the operating conditions registered in the program. When the user lockout is set to be valid, when a user whose access level is Administrator (administrator) is selected on the user management screen 800 described later with reference to FIG. The operating conditions registered in the program can be changed only when 820 or 830 is selected. When the user lockout is not restricted, the user lockout invalid icon 730 is touched. Which icon is selected is displayed with a thick frame 740, but this may be displayed not only by providing a frame but also in other distinguishable modes such as changing the color and brightness.

  FIG. 8 is a diagram showing a user management screen 800 that displays the users registered in advance in the centrifuge 1 in a list format. The user management screen 800 of FIG. 8 can be transitioned by touching and displaying the area of the user name display area 270 of the basic screen 200. In the centrifuge 1, it is possible to limit users by registering in advance users who are allowed to operate and logging in when using the centrifuge 1. When registering a user, it is possible to set a management level such as Administrator, Supervisor, User, etc. as the accelerator level, and to manage the login time for each user. Here, a plurality of users from user selection buttons 820 to 850 are registered, but not only four users can be registered but many users can be registered. In that case, a page break can be made on the display of the user management screen 800 by touching the page break icons 870a and 870b. The user can log in on the user management screen 800. In this case, the user selects one of the user selection buttons 820 to 850, touches the login icon 860, and then pops up. Enter the password in the input field.

  As mentioned above, although this invention was demonstrated based on the Example, this invention is not limited to the above-mentioned form, A various change is possible within the range which does not deviate from the meaning. For example, in the above-described embodiment, the program selection buttons 310 for all programs are displayed on the program selection screen 300 regardless of the registration state of the operating conditions for each program. Only the program selection button 310 of the program in which the operating conditions for using the rotor automatically determined by the rotor determination function of the machine are registered may be displayed. In addition, the program selection buttons 310 may be displayed side by side in the descending order of the number of executions counted for each program operation condition. In addition, you may arrange for every color and shape of the program selection button 310 which the user specified.

DESCRIPTION OF SYMBOLS 1 Centrifuge 2 Rotor 3 Rotor chamber 4 Bowl 5 Case 7a Condenser 7b Compressor 7c Refrigeration piping 7d Capillary tube 8 Cooling fan 9 Door 10 Operation display part 11 Control part 12 Motor 61-64 Status 200 Basic screen (manual input screen) )
205 Menu tab 210 Rotor rotation speed display field 211 Number of rotations 212 Set number of rotations 220 Operating time display field 221 Elapsed time 222 Setting time 230 Rotor temperature display field 231 Rotor temperature 232 Setting temperature 240 Rotor name display area 250 Deceleration mode display area 260 Function Display unit 261 Program button 270 User name display area 280 Start button 285 (basic screen) Stop button 300 Program selection screen 305 Thick frames 310, 340, 350 Program selection buttons 311, 341 Comments 410 Operating condition display field 417 Count 420 MENU icon 430a, 430b Page break icon
440 Start button 445 (on program selection screen) Stop button 600 (on program selection screen) 600 Memory lock setting screen 620 Valid icon 630 Invalid icon 640 Thick frame 650 Close button 700 User lockout setting screen 720 User lockout valid icon 730 User lock Out invalid icon 800 User management screen 820 User selection button 860 Login icon 870a, 870b Page break icon 900 Operation mode setting screen 901 Memory lock valid icon 920 Program operation mode icon 930 Normal operation icon 940 Thick frame 950 Close button 1001-1004 Status 1100 Program selection screen
1110 (Program operation) list frame 1150 (Program operation) list frame 1160 Call icon 1170a Page break icon 1180 Delete icon 1190 Select button

Claims (9)

A rotor that holds a sample to be separated and rotates at a high speed, a rotor chamber that houses the rotor, a motor that drives the rotor, an operation display unit that inputs the operating conditions of the rotor and displays the operating state of the rotor And a centrifuge having a control unit for controlling the motor and the operation display unit,
As a screen to be displayed on the operation display section after completion of startup by turning on the power, select a manual input screen that can be operated by changing the operating conditions and one of a plurality of operating conditions stored in the control section in advance. Any of the program selection screens to be operated can be selected.   The program selection screen has a plurality of program operation selection buttons arranged on one screen and displays a start button for starting a centrifugal operation in the selected program operation. The centrifuge according to claim 1, wherein the start of the centrifuge can be instructed.   The centrifuge according to claim 2, wherein a comment set by a user is displayed together with the selection button. In the program selection screen, an operation condition display field for displaying the operation condition of the program selected by the selection button is provided,
The centrifuge according to claim 3, wherein when any one of the programs is selected by the selection button, an operation condition registered in the selected program is displayed in the operation condition display column. .   The centrifuge according to any one of claims 2 to 4, wherein the number of executions for each program operation is counted, and the number of executions is displayed on the program selection screen.   The centrifuge according to any one of claims 2 to 5, further comprising a lock function that locks the operating conditions registered in the program so as not to be changed except by an administrator registered in advance.   The centrifuge according to any one of claims 2 to 6, further comprising an operation restriction function that makes it impossible to change operating conditions from the manual input screen and enables only the program operation.   In the program selection screen, it is possible to select only the program operation button that can be executed by the rotor automatically determined by the rotor specified by the user or the rotor determination function, and the program operation button that cannot be executed is not displayed. The centrifuge according to any one of claims 2 to 7, wherein the centrifuge is displayed in a mode different from the executable button. 9. The operation display unit according to claim 1, wherein an operation unit for inputting operation conditions using a touch-type liquid crystal display panel and a display unit for displaying an operation state are integrally configured. The centrifuge according to any one of the above.

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