JP2001129436A - centrifuge - Google Patents

Abstract

(57) [Problem] To provide a centrifugal separator that can be easily processed and reduced in weight, and that can be easily and inexpensively adapted to the type of tube. SOLUTION: A bottomed cylindrical rotor body and a rack assembly constituted by connecting a plurality of racks along the inner peripheral surface of the rotor body and movably in a radial direction of the rotor body, When the rotor body is rotated, by centrifugal force accompanying the rotation of the rotor body,
Each of the racks is pressed into contact with the inner peripheral surface of the rotor body.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a centrifuge, and more particularly, to a structure of a rotor.

[0002]

2. Description of the Related Art In a conventional centrifugal separator 50 shown in FIG.
2a is installed via an elastic body 53. The rotor 54 is detachably engaged with the drive shaft 51a of the motor 51. Rotor 54 used in centrifuge
As shown in FIG. 3, the disk-shaped rotor body 5
5 is formed integrally with the tube insertion hole 55a radially and inclined at the periphery of the upper surface.

[0003]

Incidentally, the rotor 54 is formed by cutting an aluminum block into a disk shape.
Next, a tube (test tube) insertion hole 55a is formed. Therefore, the processing is complicated and the cost increases. In addition, the rotor 54 needs to have a sufficient thickness for forming the tube insertion hole 55a, which increases the weight and the capacity of the motor 1 accordingly. In order to reduce the weight, the center of the rotor 54 in FIG.
The portion excluding the portion to be attached to 1a) and the portion for forming the tube insertion hole 55a may be cut, but the shape of the rotor 54 becomes complicated, and the processing becomes complicated accordingly. In addition, in order to accommodate other types of tubes, it is necessary to prepare rotors 54 each having a tube insertion hole 55a corresponding to the other tube, which increases the cost.

Accordingly, an object of the present invention is to provide a centrifugal separator that can be easily processed and reduced in weight, and that can be easily and inexpensively adapted to the types of tubes.

[0005]

According to a first aspect of the present invention, there is provided a centrifuge according to the present invention, wherein a bottomed cylindrical rotor body and a plurality of racks extend along an inner peripheral surface of the rotor body and a radius of the rotor body. A rack assembly configured to be connected to each other movably in the direction, and when the rotor body is rotated, the respective racks are placed on the inner peripheral surface of the rotor body by centrifugal force accompanying the rotation of the rotor body. It is designed to be fixed by pressure welding.

According to the centrifugal separator of the present invention, since the rack is received on the inner peripheral surface of the rotor body, the rotor body may have a simple structure with a bottomed cylinder, and therefore the weight of the rotor can be reduced and the cost can be reduced. Become.

According to a second aspect of the present invention, there is provided the centrifugal separator according to the first aspect, further comprising a disk which is integrally fitted to the rotor main body at a center portion of the rotor main body, and which is provided on a peripheral edge of the disk. The plurality of racks are connected to each other.

In the centrifugal separator according to the present invention, the disk is fitted to the center of the rotor body after the rack is mounted on the periphery of the disk. In this state, when the rotor body is driven to rotate, the rack moves radially outward due to centrifugal force, and comes into contact with and is received by the inner peripheral surface of the rotor body. That is, in the centrifugal separator of the present invention, the disk only needs to position the rack, and does not need to be strong enough to hold the rack. The rack is received by the inner peripheral surface of the rotor main body by centrifugal force generated by rotationally driving the rotor main body. Therefore, it is sufficient that the strength of the rotor body is sufficiently maintained, and the weight of the rotor can be reduced. Also, in the centrifugal separation operation, the tubes may be previously loaded into the rack at other locations, and the disk on which the rack is mounted may be mounted on the rotor body, so that the weight is light, and therefore the operation is facilitated. .

In the centrifugal separator according to a third aspect of the present invention, in the second aspect, a boss is erected at the center of the rotor body,
Forming a spline extending vertically in the outer peripheral surface of the boss, and forming a spline hole at the center of the disk,
The disc is fitted to the rotor main body by dropping a spline hole of the disc into a spline of the rotor main body.

In the centrifugal separator according to the present invention, the disk can be fitted to the rotor main body by dropping the center of the disk into the boss standing upright at the center of the rotor main body.

According to a fourth aspect of the present invention, in the centrifugal separator according to the second or third aspect, a groove is formed in an inner peripheral surface of the rack, and the groove is fitted to a peripheral edge of the disk, and the rack is mounted on the rack. The rack is mounted on the disk by pins fitted into the disk.

In the centrifugal separator according to the present invention, since the groove of the rack is fitted to the periphery of the disk and the rack is held by the disk,
The rack is securely held on the disk.

[0013]

FIG. 1 shows an embodiment of a rotor according to the present invention. FIG. 2 is an exploded perspective view showing a main part of a centrifuge equipped with the rotor, and FIG. It is sectional drawing which showed the state which assembled the rotor. The other parts (not shown) of the centrifuge are the same as the conventional one.

The rotor 10 of this centrifuge comprises a rotor body 11, a disk 12, a rack 13, and the like.

The rotor body 11 has a cylindrical shape with a bottom, and has a boss 14 projecting inward at the center. This boss 14
A spline 15 parallel to the axis is formed on the peripheral surface of the. In addition, as shown in FIG.
A hole 16 having an opening is formed in the bottom wall 11a of the rotor body 11, and a hexagonal recess 17 is formed in the opening of the hole 16.
Are formed. Further, the boss 14 is formed with a bolt insertion hole 18 penetrating the hole 16 on the upper surface. on the other hand,
The motor drive shaft 19 has a hexagonal convex portion 20 formed around it, and a female screw hole 21 formed on the tip end surface.
Then, when the hole 16 of the rotor main body 11 is fitted to the motor drive shaft 19, the concave portion 17 becomes the convex portion 20 of the motor drive shaft 19.
Fits. Next, the bolt 22 is inserted through the bolt insertion hole 18 of the rotor body 11, and the tip is screwed into the female screw hole 21 of the boss 14, and the rotor body 11 is connected to the motor drive shaft 1.
9 Therefore, the rotor body 11 is restrained in the rotation direction with respect to the motor drive shaft 19 by the engagement between the concave portion 17 and the convex portion 20 of the motor drive shaft 19.

The disk 12 has the boss 1 at its center.
It has spline holes 23 corresponding to the four splines 15 and four sets of holes 24 on the periphery. Holes in each set 2
2 are formed in a range of 1/4 circle (each 45 ° at the center), and they are formed as long holes parallel to each other. The disc 12 is restrained in the rotation direction with respect to the rotor body 11 by fitting the spline holes 23 into the splines 15 of the boss 14 of the rotor body 11.

The rack 13 has a substantially annular donut shape.
/ 4. An annular groove 25 is formed on the inner peripheral surface of the arc-shaped rack 13 so as to open to the inner peripheral surface. And this annular groove 2
The upper and lower tongue pieces 26 and 27 that define 5 are formed with two holes 28 penetrating them. These holes 28
Are formed at positions corresponding to the holes 24 of the disk 12. Further, the rack 13 has a slope 29 formed inward on the upper surface, and six tube receiving holes 30 are formed in the slope 29. In the rack 13, the groove 25 is fitted to the peripheral edge of the disk 12, the hole 28 of the rack 13 is aligned with the hole 24 of the disk 12, and the spring pins 31 are inserted into the holes 28 and 24. By doing so, it is held on the disk 12. In this way,
The rack 13 held by the disk 12 has holes 24 in the disk 12.
Is formed in a long hole, so that the disk 12 can be moved in the radial direction.

In the centrifugal separator constructed as described above, the groove 25 of the rack 13 is fitted and mounted on the periphery of the disk 12, and the spring pins 31 are inserted into the holes 28 and 24 of the rack 13 and the disk 12. After the racks 13 are held on the peripheral edge of the disk 12 and the tubes A are loaded in the racks 13, as shown in FIG.
3 is fitted to the spline 15 of the boss 14 of the rotor body 11. In this state, the rotor body 11 is driven to rotate,
When a centrifugal force acts on the rack 13, the spring pin 31 of the rack 13 moves radially outward along the long hole 24 of the disk 12, whereby the rack 13 moves the rotor body 11.
It is received in contact with the inner peripheral surface of. That is, in the centrifugal separator according to the present invention, the disk 12 only needs to position the rack 13 and does not need to be strong enough to hold the rack 13. Therefore, the weight of the rotor 10 can be reduced.

In the above embodiment, the rack 13 is mounted on the disk 12 by the spring pin 31. For example, a female screw is formed in the hole 28 of the tongue piece 27 of the rack 13, and the rack 13 is replaced with the spring pin 31. A screw is used, and the screw is inserted into the hole 28 of the tongue 26 of the rack 13 and the hole 24 of the disc 12.
May be screwed into the hole 28 of the tongue piece 27. In short, the rack 13 is fixed along the inner peripheral surface of the rotor When the centrifugal force acts on the rack 1
What is necessary is just to arrange | position so that 3 may be moved to the radial direction outward so that the inner peripheral surface of the rotor main body 11 may contact.

In the above-described embodiment, the disk 12 is used, and is connected to the periphery of the disk 12 to form an annular rack assembly. May be connected to each other and assembled in an annular shape, and positioned along the inner peripheral surface of the rotor body 11. In that case, each rack 13 is the rotor body 1
It is preferable to be able to move radially outward independently of each other so as to abut against the inner peripheral surface of the rotor 1, and to restrain the rack 13 in the circumferential direction with respect to the rotor main body 11 by means such as a stopper. Is preferred.

[0021]

As described above, in the centrifugal separator according to the first aspect of the present invention, the bottomed cylindrical rotor body and the plurality of racks extend along the inner peripheral surface of the rotor body, and A rack assembly configured to be connected to each other movably in the radial direction, and when the rotor body is rotated, by centrifugal force accompanying the rotation of the rotor body,
Each of the racks is pressed into contact with the inner peripheral surface of the rotor body. Therefore, according to the centrifuge of the present invention, since the rack is received by the inner peripheral surface of the rotor main body, the rotor main body may have a simple structure with a bottomed cylindrical shape, and therefore, the weight of the rotor can be reduced and the cost can be reduced. . Also,
When loading tubes into the rotor, the tubes are loaded in the rack in advance, and the rack can be housed in the rotor body, and only the lightweight rack needs to be moved, thus improving workability. Since the tubes can be loaded into the rack in a separate operation, the efficiency of the operation can be improved.

According to a second aspect of the present invention, there is provided the centrifugal separator according to the first aspect, further comprising a disk integrally fitted to the rotor main body at a center portion of the rotor main body, wherein a peripheral edge of the disk is provided. The plurality of racks are connected to each other via a. Therefore, in the centrifugal separator of the present invention, the disk only needs to position the rack, and does not need to be strong enough to hold the rack. The rack is received by the inner peripheral surface of the rotor body by centrifugal force generated by rotationally driving the rotor body, so that the strength of the rotor body only needs to be sufficiently maintained, and the weight of the rotor can be reduced. Also,
Also in the centrifugal separation work, the work is extremely facilitated because tubes may be previously loaded into the rack at other locations and the disk on which the rack is mounted may be mounted on the rotor body.

In the centrifugal separator according to a third aspect of the present invention, in the second aspect, a boss is erected at the center of the rotor body, and a spline extending vertically is formed on an outer peripheral surface of the boss. A spline hole is formed at the center of the disc, and the disc is fitted to the rotor body by dropping the spline hole of the disc into a spline of the rotor body. Therefore, in the centrifuge according to the present invention, the operation of mounting the rack on the rotor body is extremely good.

According to a fourth aspect of the present invention, in the centrifugal separator according to the second or third aspect, a groove is formed on an inner peripheral surface of the rack, and the groove is fitted to a peripheral edge of the disk. The rack is mounted on the disk by pins inserted into the rack and the disk.
Therefore, in the centrifugal separator of the present invention, the groove of the rack is fitted to the peripheral edge of the disk, and the rack is securely held on the disk.

[Brief description of the drawings]

FIG. 1 is an exploded perspective view showing an embodiment of a centrifuge provided with a rotor according to the present invention.

FIG. 2 is a sectional view showing a state where the rotor shown in FIG. 1 is assembled.

FIG. 3 is a conceptual cross-sectional view showing a conventional centrifuge equipped with a rotor.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Rotor 11 Rotor main body 12 Disk 13 Rack 14 Boss 15 Spline 16 hole 17 Concave part 18 Bolt insertion hole 19 Motor drive shaft 20 Convex part 21 Female screw hole 22 Bolt 23 Spline hole 24 Hole 25 Groove 26, 27 Tongue piece 28 Hole 29 Slope 30 Tube receiving hole 31 Spring pin A tube

Claims (4)

[Claims] 1. A rotor assembly comprising: a bottomed cylindrical rotor body; and a plurality of racks connected to each other along an inner peripheral surface of the rotor body and movably in a radial direction of the rotor body. When the rotor body is rotated, by centrifugal force accompanying the rotation of the rotor body,
A centrifugal separator, wherein each of the racks is pressed and fixed to an inner peripheral surface of the rotor body. 2. The apparatus according to claim 1, wherein a disk is integrally fitted to the rotor body at a central portion of the rotor body, and the plurality of racks are connected to each other via a peripheral edge of the disk. The centrifuge according to claim 1, wherein 3. A boss is erected at the center of the rotor body,
Forming a spline extending vertically in the outer peripheral surface of the boss, and forming a spline hole at the center of the disk,
The centrifuge according to claim 2, wherein the disc is fitted to the rotor body by dropping a spline hole of the disc into a spline of the rotor body. 4. A groove is formed in an inner peripheral surface of the rack, the groove is fitted to a peripheral edge of the disk, and the rack and the disk are inserted into the disk by a pin fitted to the disk. The centrifuge according to claim 2 or 3, wherein the centrifuge is mounted on a centrifuge.