JP2006255659A - Centrifuge - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a user-friendly centrifuge by preventing the input error of the centrifuge speed of a rotor by a user of the centrifuge, thereby preventing the suspension of operation due to the generation of an abnormal message. <P>SOLUTION: There is provided with the function of displaying the maximum centrifuge speed of the selected rotor, when the rotor to be used is selected. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

The present invention relates to a centrifuge capable of using a plurality of rotors, and more particularly to operability when a centrifugal acceleration is set and used.

There are many types of rotors used in centrifuges depending on the purpose of separation, and some have a plurality of magnets attached at angles determined for each rotor. Some of them have an ID in the rotor itself and can identify the rotor. Each rotor has a maximum rotation speed to prevent breakage due to centrifugal stress. Therefore, there is a type that displays the rotor model name so that the set (selected) rotor can be understood when the rotor to be used is selected and set to the centrifuge, and FIG. 6 shows an example of the operation of the centrifuge (normal). It is a screen. When the rotor is set (selected) on the normal screen 200, the rotor type name is displayed on the rotor type name display unit 201, for example, R20A2 is displayed when the R20A2 rotor is set (selected). In some centrifuges, when a rotor to be used is set (selected) as shown in FIG. 7, the rotor type name is displayed on the rotor type name display unit 201 and set (selected). Some have a maximum rotation speed display unit 202 for displaying.
The centrifuge stores the rotor information related to the shape and dimensions of the rotor, for example, the maximum rotation speed and the rotation radius in advance in the centrifuge, and when the rotor to be used is set (selected), the rotor information corresponding to the rotor is used. Calls and displays the maximum rotation speed. However, even if the maximum rotation speed is the same, the maximum centrifugal acceleration obtained from the rotation radius differs depending on the shape and dimensions of the rotor.
When the centrifugal centrifuge is set to operate with a conventional centrifuge, the centrifugal acceleration operation switching unit 203 provided on the normal screen 200 is switched to the centrifugal acceleration setting screen 220 shown in FIG. When the rotor to be used is set (selected) and the centrifugal acceleration is set in the centrifugal acceleration setting display unit 221, the setting (selection) rotor rotation radius is called from the rotor information stored in the centrifuge, and the rotation radius is set. A rotation speed is calculated based on the centrifugal acceleration and displayed on the rotation speed setting display unit 222 to start operation. In addition, as disclosed in Patent Document 1, there is one that displays a centrifugal acceleration at an arbitrary position of a sample container in which a sample is placed and accommodated in a rotor.

Japanese Patent Laid-Open No. 05-096206

However, when operating with centrifugal acceleration set in a conventional centrifuge, the user has no function to display the maximum centrifugal acceleration of the set (selected) rotor. In some cases, the acceleration is set, the rotation speed calculated from the set centrifugal acceleration exceeds the maximum rotation speed, an alarm is generated during the acceleration, and the operation is stopped. In this way, in the middle of accelerating to the rotational speed calculated from the set centrifugal acceleration, if the maximum rotational speed is exceeded, an alarm is generated and the operation is stopped in order to prevent the centrifuge (rotor) from being destroyed. It is necessary for.
Some centrifuges do not operate the centrifuge as an acceptance error when the calculated rotation speed exceeds the maximum rotation speed. In this way, the rotation speed calculated at the time of calculating the rotation speed from the set centrifugal acceleration is compared with the maximum rotation speed, and if the calculated rotation speed is larger, the centrifuge should not be operated as an acceptance error. Are easily conceivable in the field.
As described above, ensuring safety is an important matter, but on the other hand, there is a problem that an abnormal message occurs and the operation is interrupted, and the work is delayed during that time. Further, when resetting the centrifugal acceleration due to the occurrence of an acceptance error, it is necessary to check the instruction manual.
An object of the present invention is to provide a centrifuge that is easy to use by solving the above problems, preventing erroneous input of the centrifugal acceleration of the rotor by the user of the centrifuge, and preventing stagnation of operation due to the occurrence of an abnormal message. It is to be.

The object is to provide a rotor for storing a sample to be centrifuged, a determination mechanism for determining the maximum rotational speed of the rotor, a drive shaft for rotating the rotor, a motor for applying a rotational force to the drive shaft, A mechanism for detecting the rotation of the motor to calculate the rotation speed, a storage unit for storing information on a plurality of rotors, an input unit for selecting a rotor to be used from the storage unit, and display of the operating conditions and the current operating state This can be achieved by providing a function of displaying the maximum centrifugal acceleration of the selected rotor in a centrifuge having a display unit.

According to the present invention, since the function of displaying the maximum centrifugal acceleration of the selected rotor is provided, it is possible to prevent erroneous input of centrifugal acceleration by the user of the centrifuge. Therefore, it is possible to provide a centrifuge that is easy to use.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.
First, the centrifuge will be described. FIG. 3 shows a block diagram of the centrifuge. The centrifuge 100 includes a motor 9 and a rotor chamber 11, and the drive shaft 7 of the motor 9 protrudes into the rotor chamber 11 and is centrifuged into the drive shaft 7. The rotor 5 containing the sample is set, and the rotational force of the motor 9 is transmitted to the rotor 5 via the drive shaft 7 to centrifuge the sample. The rotation of the motor 9 is detected by a rotation detector 13. A door 12 is provided at the top of the rotor chamber 11 so as to be openable and closable, and the rotor 5 is detached from above the rotor chamber 11 by opening the door 12.
An operation panel 2 for selecting a rotor to be used and setting centrifugal acceleration, etc. is a display 1 for displaying the operating name such as the model name of the rotor to be used, centrifugal acceleration, maximum centrifugal acceleration, and the current operating state of the centrifuge. And an input unit 3 for inputting operating conditions such as selection of a rotor to be used and centrifugal acceleration.
The storage unit 10 stores in advance rotor information related to the shape and dimensions of the rotor, for example, the maximum rotation speed, the rotation radius, and the maximum centrifugal acceleration. The control device 4 stores the rotor information stored in the storage unit 10 on the display 1. The rotational speed of the rotor 5 is calculated from the centrifugal acceleration displayed or input from the input unit 3. Further, the rotational speed of the motor 9 is calculated from the detection signal of the rotation detector 13.
Some rotors 5 have a plurality of magnets 8 attached at different angles for each rotor, and the control device 4 detects the attachment angle of the magnets 8 by a sensor 6 attached to the centrifuge 100 so that the maximum rotation of the rotor is achieved. Detect speed. In addition, some rotors have a rotor ID, and the control device 4 identifies the rotor from the rotor ID, and determines the maximum rotation speed and the rotation radius from the rotor information of the identified rotor stored in the storage unit 10. Calculate the maximum centrifugal acceleration of the call.
The input unit 3 includes a cursor 30 for specifying an input position, a ROTOR button 31 for switching to a selection screen for a rotor to be used, a numeric keypad 32 for inputting values such as rotation speed and centrifugal acceleration, and an ENTER button for determining an input value. 33, a START button 34 for starting the operation of the centrifuge, and a STOP button 35 for stopping the operation of the centrifuge.
Next, the display 1 will be described in detail. One embodiment of the present invention displays the maximum centrifugal acceleration on the display 1 when driving with centrifugal acceleration set (hereinafter referred to as centrifugal acceleration operation).
In the case of centrifugal acceleration operation, the centrifugal acceleration operation switching unit 203 on the normal screen 200 switches to the centrifugal acceleration setting screen 1a shown in FIG. The centrifugal acceleration setting screen 1a includes a title display unit 50 that displays the currently displayed screen state and date and time, and a data display unit that displays operating conditions of the centrifuge 100, for example, set values and measured values of rotational speed and centrifugal acceleration. 51, and a message display unit 52 for displaying a maximum rotation speed, a maximum centrifugal acceleration, a message concerning an operation, for example, an error message.
The data display unit 51 includes a rotation speed setting display unit 53, an operation time setting display unit 54, and a temperature setting display unit 55 for setting and displaying each set value and actual measurement value of the rotation speed, operation time, and temperature in the rotor chamber 11. Acceleration / deceleration state of the rotor 5, for example, when 9 is set, an acceleration setting display unit 56, a deceleration setting display unit 57 for setting / displaying to accelerate or decelerate to the set rotational speed the fastest, and centrifugal acceleration The centrifugal acceleration setting display unit 58 for setting / displaying and the position setting display unit 59 for setting / displaying an arbitrary position of the sample container for storing the sample to be centrifuged. When the rotor to be used is set and an arbitrary position is set on the position setting display unit 59, the control device 4 displays the centrifugal acceleration at that position on the centrifugal acceleration setting display unit 58 from the rotation radius at the arbitrary position.
The message display unit 52 displays the operating state display unit 60 for displaying the operating state of the centrifuge, for example, acceleration, deceleration, and the type name of the set (selected) rotor when the rotor to be used is set (selected). And a maximum centrifugal acceleration display unit 62 for displaying the maximum centrifugal acceleration of the rotor according to the present invention. When the maximum centrifugal acceleration is displayed, the maximum rotation speed may be displayed on the maximum rotation speed display unit 63 as shown in FIG. 2, and the maximum centrifugal acceleration and the maximum rotation speed may be displayed together.
Next, the procedure for displaying the maximum centrifugal acceleration will be described in detail. The display of the maximum centrifugal acceleration is required mainly in the case of centrifugal acceleration operation. In the case of centrifugal acceleration operation, since the centrifugal acceleration is set on the centrifugal acceleration setting display unit 58 and operated, it is necessary to prevent an input error such as setting a value exceeding the maximum centrifugal acceleration.
When the centrifuge 100 is activated, a normal screen 200 is usually displayed on the display 1. The centrifugal acceleration operation switching unit 203 on the normal screen 200 switches to the centrifugal acceleration setting screen 1a.
The ROTOR button 31 is pressed from the input unit 3 to switch to the rotor list screen 1c shown in FIG. 5, and the rotor number corresponding to the rotor used on the rotor list screen 1c is input to the rotor number input unit 70. The rotor number is determined in advance and stored in the storage unit 10 for the rotor. For example, when the R20A2 rotor is used, the rotor number “24” is input to the rotor number input unit 70 and the ENTER button 33 is pressed. Calls and sets the rotor information corresponding to the rotor number “24” from the storage unit 10. When the rotor is set (selected), the screen 1c automatically returns to the original centrifugal acceleration setting screen 1a, and the control device 4 determines from the rotor information stored in the storage unit 10 the maximum rotor set (selected). The centrifugal acceleration is called and displayed on the maximum centrifugal acceleration display unit 62. When the rotor is set (selected), the control device 4 displays the rotor type name on the rotor type name display unit 61, and at the same time, the highest (set) rotor type set (selected) from the rotor information stored in the storage unit 10 is displayed. The rotation speed may be called and displayed on the maximum rotation speed display unit 63 as shown in FIG. 2, and the maximum centrifugal acceleration and the maximum rotation speed may be written together.
Further, as shown in FIG. 9, the maximum centrifugal acceleration may be displayed on the operation (ordinary) screen 1d when driving with the rotational speed set, and the maximum centrifugal acceleration and the maximum rotational speed as shown in FIG. May be written together.
As described above, since the maximum centrifugal acceleration of the selected rotor is displayed at the time of setting (selecting) the rotor to be used, it becomes easy to input below the maximum centrifugal acceleration when inputting the centrifugal acceleration, An input error of centrifugal acceleration can be prevented. As a result, it is possible to eliminate the stagnation of the centrifugal separation work and the trouble of confirming the instruction manual, etc., so that a user-friendly centrifuge can be provided.
If the centrifugal acceleration exceeding the maximum centrifugal acceleration is accidentally set in the centrifugal acceleration setting display unit 58 and the operation is performed, the control device 4 determines from the set centrifugal acceleration and the rotation radius of the rotor stored in the storage unit 10. The rotation speed is calculated and displayed on the rotation speed setting display unit 53. The calculated rotation speed is detected from, for example, the mounting angle of the two magnets 8 attached to the rotor 5 and the sensor 6 provided in the centrifuge 100. When the maximum rotational speed is exceeded, that is, when the set centrifugal acceleration exceeds the maximum centrifugal acceleration, the maximum centrifugal acceleration of the setting (selection) rotor is replaced with the set centrifugal acceleration and displayed on the centrifugal acceleration setting display unit 58. You may do it.

Centrifugal acceleration setting screen according to an embodiment of the present invention Centrifugal acceleration setting screen according to another embodiment of the present invention Block diagram of centrifuge Control panel switch Rotor list screen Conventional operation screen (normal screen) Other conventional operation screen (normal screen) Conventional centrifugal acceleration setting screen Operation screen (normal screen) according to an embodiment of the present invention Operation screen (normal screen) according to another embodiment of the present invention

Explanation of symbols

1 is a display, 2 is an operation panel, 3 is an input unit, 4 is a control device, 5 is a rotor, 6 is a sensor, 7 is a drive shaft, 8 is a magnet, 9 is a motor, 10 is a storage unit, 11 is a rotor chamber, 12 is a door, 13 is a rotation detector, 50 is a title display, 51 is a data display, 52 is a message display, 58 is a centrifugal acceleration setting display, 61 is a rotor type name display, and 62 is a maximum centrifugal acceleration display. , 63 is a maximum rotation speed display section, and 70 is a rotor number input section.

Claims (2)

A rotor for storing a sample to be centrifuged; a determination mechanism for determining the maximum rotation speed of the rotor; a drive shaft for rotating the rotor; a motor for applying a rotational force to the drive shaft; and rotation of the motor. A mechanism for detecting and calculating rotational speed, a storage unit for storing information on a plurality of rotors, an input unit for selecting a rotor to be used from the storage unit, and a display unit for displaying operating conditions and the current operating state; A centrifuge having a centrifuge characterized by displaying a maximum centrifugal acceleration of the selected rotor. The centrifuge according to claim 1, wherein when the maximum centrifugal acceleration of the selected rotor is displayed, it is displayed together with the maximum rotational speed of the rotor.

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