JP2002331201A - Centrifugal evaporator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To stop the rotation of a rotor with a simple structure, to simply exchange a desired rotor by adjusting the center of the rotor and the center of rotation and to stably rotate the rotor. SOLUTION: A circular disc 15 is provided on the output shaft of a motor 5 installed below a vacuum chamber 3 and a magnet coupling 14 is provided between the circular disc 15 and the lower surface of the rotor 7. A lever 17 vertically moved accompanying with the opening/closing of a lid 6 of the vacuum chamber 3 is provided between the circular disc 15 and the motor 5 and when the lid 6 of the vacuum chamber 3 is opened, a friction pad 19 provided on the lever 17 is slide-contacted with a lower surface of the circular disc 15 to stop the rotation of the rotor 7. A rotation body 11 is rotatably provided on a bottom part of the vacuum chamber 3 and an engagement pin 13 is projectedly provided on the upper surface of a large diameter part 11a at a lower stage. A sample container retaining body 12 is formed by an upper stage ring 12a; an intermediate stage ring 12b; and a lower stage ring 12c and an engagement pin insertion hole 12f of the engagement pin 13 is formed on the intermediate state ring 12b.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a centrifugal evaporator for concentrating and drying a sample while rotating a sample container such as a test tube or an Eppendorf tube containing the sample in a vacuum chamber.

[0002]

2. Description of the Related Art In a centrifugal evaporator, a rotor is rotatably provided at the bottom of a vacuum chamber having a lid for opening and closing an upper opening, a sample container containing a sample is supported by the rotor, and a motor is provided below the vacuum chamber. While rotating the rotor at a high speed, the air in the vacuum chamber is exhausted by a vacuum pump, and the sample is concentrated and dried while suppressing bubbling and bumping of the sample by centrifugal force. As a rotation transmission means to the rotor, a magnet coupling is disposed between a disk provided on the output shaft of a motor installed below the vacuum chamber and the lower surface of the rotor,
In some cases, the rotor is rotated with a sealless structure.

In this centrifugal evaporator, when taking out a sample after concentration and drying, in consideration of safety, the motor for rotating the rotor is switched off,
Brake the rotation of the rotor electrically, or
The lid was opened after the rotor was stopped, such as by using a motor with a brake function.

Further, since test tubes and Eppendorf tubes of various diameters are used as sample containers, several types of rotors are appropriately replaced and used, and when the rotors are mounted on the vacuum chamber, the rotors are connected by magnetic coupling. And the like were fastened to the rotating member with fixing screws.

[0005]

However, in the above-described apparatus, even when the rotation of the rotor cannot be stopped automatically when the sample container is taken out, or the rotation of the rotor can be stopped automatically. However, the brake mechanism of the rotor has become complicated and costly.

Further, since the rotor is fastened with fixing screws and attached to the vacuum chamber, it takes time to replace the rotor, and it takes time to attach the rotor center and the rotation center together. Furthermore, when rotating the rotor to which the sample container is attached, the lower the center of gravity, the more stable the sample container can be rotated.

Accordingly, the present invention can provide a brake mechanism for stopping the rotation of the rotor with a simple structure, and can easily replace a desired rotor by aligning the center of the rotor with the center of rotation. It is an object of the present invention to provide a centrifugal evaporator that can stably rotate a rotor holding a sample container.

[0008]

In order to achieve the above object, the present invention provides a vacuum chamber having a rotor rotatably provided at the bottom and a lid for opening and closing an upper opening, and installed below the vacuum chamber. A centrifugal evaporator comprising a motor and a magnetic coupling provided between a disk provided on an output shaft of the motor and the lower surface of the rotor, wherein a lever rotatable vertically between the motor and the disk; A biasing member for biasing the lever upward is disposed on the lower surface of the lever, and a friction pad that slides on the lower surface of the disk is attached to the upper surface of the lever.
A rod is provided which comes into contact with the lower surface of the lid in a closed state and pushes a lever downward.

The rotor comprises a rotating member rotatably provided at the bottom of the vacuum chamber and a sample container holder detachably attached to the rotating member. The rotating member has a lower large diameter portion and an upper small diameter portion. Preferably, a locking pin of the sample container holder is protruded from the upper surface of the lower large-diameter portion, and the sample container holder includes an upper ring for holding an upper portion of the sample container, and a sample container. It is preferable to have a middle ring for holding an intermediate part of the above and a lower ring for holding the bottom of the sample container, and the middle ring is formed with a hole for inserting a locking pin of the rotating body.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below in detail with reference to the drawings. The centrifugal evaporator 1 has a bottomed cylindrical vacuum chamber 3 installed on the top of a frame 2.
And a motor 5 installed below the vacuum chamber 3 and supported by a motor support 4.

The vacuum chamber 3 has a lid 6 for opening and closing an upper opening, and a rotor 7 rotatably provided at the bottom. A packing 8 is attached to the upper opening over the entire circumference. The rotor 7 includes a rotating body 11 rotatably provided on a vertical shaft 9 erected at the center of the bottom of the vacuum chamber 3 via a bearing 10, and a sample container holder 12 detachable from the rotating body 11. ing. The rotating body 11
It has a lower large-diameter portion 11a and an upper small-diameter portion 11b, and the locking pin 1 of the sample container holder 12 is provided on the upper surface of the lower large-diameter portion 11a.
3 are protruding. Also, on the lower surface of the lower large diameter portion 11a,
One magnet 14a of the magnet coupling 14
Is attached.

The motor 5 has a disk 15 provided at the tip of an output shaft directed upward, and the other magnet 14 b of the magnet coupling 14 is attached to the disk 15.
Thus, when the motor 5 is rotated, the disk 15 is rotated, and the rotating body 1 is rotated via the magnet coupling 14.
1 rotates and the rotating body 11 rotates in a sealless structure in which a hole is not formed in the bottom of the vacuum chamber 3.

The motor 5 is provided with a brake mechanism 16. The brake mechanism 16 includes the motor 5 and the disc 15
Lever 17 provided rotatably in the vertical direction between
A coil spring 18 disposed on the lower surface of the lever 17 to urge the lever 17 upward; and a friction pad 1 attached to the upper surface of the lever 17 and slidably in contact with the lower surface of the disk 15
9. The lever 17 has a proximal end
A rod 21 is attached to the motor support base 4 and protrudes above the frame 2 at the working end. This rod 2
1 contacts the lower surface of the lid 6 in the closed state, pushes down the lever 17 downward, and separates the friction pad 19 from the lower surface of the disk 15. Therefore, when the lid 6 is opened, the lever 17 rotates upward by the urging force of the coil spring 18, so that the friction pad 19 slides on the lower surface of the disk 15, and
Is stopped, and the rotation of the rotating body 11 is stopped.

Further, a limit switch 22 is provided below the lever 17. The limit switch 22
Is ON when the lid 6 is closed and the lever 17 is pushed down, and the motor 5 is energized. When the lid 6 is opened and the lever 17 is pushed upward, the lever 6 is turned off, the power supply to the motor 5 is cut off, and the motor 5 automatically stops.

In this embodiment, the sample container holder 12 holds a plurality of test tubes 23. The upper ring 12a holds the upper part of the test tube 23, and the middle ring 12b holds the middle part of the test tube 23. And a lower ring 12c that holds the bottom of the test tube 23 by a column 12d. The middle ring 12b is formed to have a slightly larger diameter than the upper ring 12a, and has an insertion hole 12e for the upper small diameter portion 11b of the rotating body 11 in the center, and a locking pin 13 for the rotating body 11 on the outer periphery thereof. 12f is formed. Upper ring 12a and middle ring 12b
Has a plurality of test tube insertion holes 12g. The lower ring 12c is a middle ring 1 that receives the bottom of the test tube 23.
A plate body having substantially the same diameter as 2b, and an insertion hole 12h for the lower large-diameter portion 11a of the rotating body 11 is formed in the center.

With this configuration, the test tube 23 is held by the sample container holder 12 with the upper part lying on the inner peripheral side.
The sample container holder 12 holding the test tube 23 is put in the vacuum chamber 3 with the lid 6 opened, and the lower large-diameter portion 11a of the rotating body 11 is inserted from above the rotating body 11 into the insertion hole 12h of the lower ring 12c. By inserting the upper small-diameter portion 11b of the rotating body 11 into the insertion hole 12e of the middle ring 12b and locking the locking pin insertion hole 12f with the locking pin 13 of the rotating body 11, the rotating body 11 is attached to the rotating body 11. . Thereby, centering of the rotating body 11 and the sample container holder 12 can be performed.

As described above, the centrifugal evaporator 1 is easily attached to the rotating body 11 by setting the sample container holder 12 from above the rotating body 11 and engaging the locking pin 13 of the rotating body 11. Thus, the work of attaching and detaching the sample container holder 12 can be easily performed. Further, the sample in the test tube 23 held by the sample container holder 12 is located below the middle ring 12b, which is a rotation transmitting portion, so that the center of gravity is lowered and the sample container holder 12 rotates stably. . further,
After the concentration and drying of the sample are completed, the vacuum pump is stopped and the lid 6 is opened, the lever 17 is rotated upward by the urging force of the coil spring 18, the limit switch 22 is turned off, and the motor 5 is turned off. At the same time as the stop, the friction pad 19 slides on the lower surface of the disk 15 to completely stop the rotation of the disk 15 and stop the rotation of the rotating body 11, so that the test tube 23 can be taken out safely.

In the above embodiment, a test tube is used as a sample container. However, the present invention is not limited to this.
A sample container using an Eppendorf tube may be used, and the present invention can be applied to a test tube or an Eppendorf tube of any diameter by appropriately replacing the sample container holder 12.

[0019]

As described above, according to the present invention, the rotor in the vacuum chamber is moved between the disk of the motor output shaft rotating through the magnetic coupling and the motor by opening and closing the lid of the vacuum chamber. When the lever that moves is provided and the lid of the vacuum chamber is opened, the friction pad provided on the lever slides on the lower surface of the disk and stops the rotation of the rotor.Therefore, with a simple structure, a brake mechanism that stops the rotation of the rotor is provided. It is possible to safely take out the sample container which has been provided and which has been subjected to the concentration and drying processes.

The rotating body rotatably provided at the bottom of the vacuum chamber has a lower large-diameter portion and an upper small-diameter portion, and a locking pin of the sample container holder is protruded from the upper surface of the lower large-diameter portion. A sample container holder detachably attached to the rotating body, having an upper ring holding an upper portion of the sample container, a middle ring holding an intermediate portion of the sample container, and a lower ring holding a bottom portion of the sample container. The structure in which the rotating pin is provided with the locking pin insertion hole for the rotating body in the middle ring allows easy alignment of the rotating body and the sample container holder, and facilitates attachment and detachment of the sample container holder. In addition, the center of gravity of the sample container can be positioned below the rotation transmitting portion, and the sample container can be stably rotated.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of a main part of a centrifugal evaporator showing one embodiment of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Centrifugal evaporator, 2 ... Frame, 3 ... Vacuum chamber, 4 ... Motor support, 5 ... Motor, 6 ... Lid, 7 ... Rotor, 11 ... Rotating body, 11a ... Lower large diameter part, 11b ... Upper small diameter part , 12 ... sample container holder, 12a ... upper ring,
12b: Middle ring, 12c: Lower ring, 12f: Locking pin insertion hole, 13: Locking pin, 14: Magnetic coupling, 15: Disk, 16: Brake mechanism, 17: Lever, 18: Coil spring, 19 ... Friction pad, 2
1 ... Rod

 ────────────────────────────────────────────────── ─── Continuing from the front page (72) Inventor Shinichi Ariga 11084-17 Komuro, Ina-cho, Kitadachi-gun, Saitama F-term (reference) 4D076 AA02 AA03 AA14 AA24 CD03 CD22 FA22 HA14

Claims (3)

[Claims] 1. A vacuum chamber having a rotor rotatably provided at a bottom and a lid for opening and closing an upper opening, a motor provided below the vacuum chamber, and a disk provided on an output shaft of the motor. In a centrifugal evaporator having a magnet coupling disposed between the rotor and the lower surface,
A vertically rotatable lever is provided between the motor and the disk, and an urging member for urging the lever upward is provided on the lower surface of the lever, and the upper surface of the lever is slidably contacted with the lower surface of the disk. A centrifugal evaporator having a friction pad attached thereto and a rod provided at an operating end of the lever to contact the lower surface of the lid in a closed state and press the lever downward. 2. The rotor comprises a rotating body rotatably provided at the bottom of the vacuum chamber, and a sample container holder detachably attached to the rotating body, wherein the rotating body has a lower large diameter portion and an upper small diameter portion. The centrifugal evaporator according to claim 1, wherein a locking pin of the sample container holder is protruded from the upper surface of the lower large-diameter portion. 3. The sample container holder has an upper ring holding an upper portion of the sample container, a middle ring holding an intermediate portion of the sample container, and a lower ring holding a bottom portion of the sample container. The centrifugal evaporator according to claim 2, wherein a locking pin insertion hole for the rotating body is formed in the middle ring.