JPS60257826A - Stirring apparatus - Google Patents

Abstract

PURPOSE:To facilitate the perfect sealing of a container in relation to a stirring apparatus, by inserting 1 - several vibration generators into a hollow shaft and driving the same by a motor to vibrate the aforementioned hollow shaft. CONSTITUTION:When a motor 81 is driven, an eccentric shaft 41 is rotated by a universal joint 71 and a rotary shaft 51. By this rotation, the gravity G of the eccentric shaft 41 moves which the shaft 41 performs circular motion around the center axis of a rotary shaft 51. The force by the movement of said gravity G is transmitted to a hollow shaft through a bearing 61 and the hollow shaft 21 suspended by a flexible tube 31 is vibrated. Unless a blade 91 is attached to the external peripheral surface of the hollow shaft 21, conical motion around the universal joint 71 is accompanied. The packed system of a container 11 is stirred and mixed mainly by the aforementioned vibration and auxiliarily by conical motion.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a stirring device for stirring and mixing a liquid-liquid system, a liquid-same system, a liquid-vapor system, etc. in a container.

In various manufacturing and processing plants, liquids and liquids, liquids and solids, and even liquids and gases are stirred and mixed in containers.
There are many steps that involve operations such as dispersion, reaction, polymerization, and fermentation. For example, in an alcohol fermenter, a liquid-solid gas system may be stirred and mixed.

The present invention relates to a stirring device for stirring and mixing such a system, and particularly to a stirring device suitable for stirring and mixing such a system in a closed container.

<Prior art and its problems> Conventionally, as a stirring device for stirring and mixing the above-mentioned system inside a container, a shaft is inserted outside the container, and a propeller blade fixed to the shaft is rotated by a motor. (Such a stirring device is available, for example, in "Bessatsu Kagaku Kogyo J, VOL, j, 4, /F) 7.1970,
(described in detail in ). In this case, if the container is an open type, problems arise such as deterioration of the working environment and contamination of the system itself due to harmful vapors that may be generated from the system.

Ushi, mainly due to the nature of the system, if the container is a closed type,
A sealing mechanism such as a gland seal or mechanical seal is required between this container and the rotating shaft in order to keep the inside of the container confidential from the outside. Is the seal not secured? However, even if the seal is initially good, there are troublesome and serious defects such as oil contamination of the system inside the container due to deterioration of the seal.

In fermenters and the like, which have been attracting attention in recent years, it is difficult to sterilize such sealed parts, and bacterial contamination from the sealed parts is not uncommon.

Conventionally, there are stirring devices for similar cases, such as those that use magnetic force to rotate a magnetic element in a system inside a container, and those that have a drive motor buried in a system inside a container. However, these systems have many problems, such as the power-related structure being complicated and expensive, and the system itself being susceptible to contamination.

<Problems to be Solved by the Invention> The present invention solves the conventional problems such as steaming, and can be summarized as follows.

1) Problems that the system is easily contaminated lI) Mainly [2] Due to the nature of the system, it is troublesome to completely seal the container in relation to the stirring device, especially when a closed container is used. 111) Means to solve the problem that the structure is complicated and expensive> However, the present invention has a flexible elastic body that allows a certain kind of free movement. One to several vibration generators are inserted into the hollow shaft supported by the hollow shaft, and by driving the vibration generators with a motor to vibrate the hollow shaft, the medium ( system)
The present invention relates to a stirring device that propagates vibrations to stir and mix the medium (system).

In the present invention, flexible elastic bodies, flexible tubes, bellows, elastic gongs, springs, etc. may be used in appropriate combinations as necessary, and these allow at least a certain kind of free movement of the hollow shaft. It supports the hollow shaft and can also function to completely isolate the inside of the hollow shaft from the container to which the stirring device according to the present invention is applied. However, the vibration generator inserted into the hollow shaft and vibrating it may be an eccentric weight, an eccentric weight, a cam link mechanism, etc., and the motor driving these vibration generators may be attached to the hollow shaft. It can be installed either inside or outside. Blades or vanes of various shapes can be attached to the outer circumferential surface of the hollow shaft as appropriate, depending on the properties of the system and the purpose of stirring and mixing the system.

Hereinafter, the configuration of the present invention will be explained in more detail based on the drawings.

<Embodiment> FIG. 1 is a schematic diagram showing an embodiment of the present invention, and FIG. 2 is a partially enlarged view thereof. In the interior A1 of the closed container 11, a hollow shaft 21 with a closed bottom end extends from the top of the container 11.
is suspended by a flexible tube 31 which is an impermeable elastic body, and by the flexible tube 31,
The interior A1 of the container 11 is completely isolated from the exterior B, and the interior A+ and the interior C+ of the hollow shaft 21 are also completely isolated. An eccentric shaft 41 is inserted into the hollow shaft 21, and the eccentric shaft 41 is rotatably locked by bearings 61 installed in the hollow shaft 21 above and below, and the upper end of the eccentric shaft 41 is connected to the upper end. and via a rotary shaft 51 with a free joint 71 at its lower end, so that the hollow shaft 21 is connected to a drive motor 81 so as to be able to move freely. The flexible tube 31 has an upper end fixed to the container 11 and a lower end fixed to the upper end of the hollow shaft 21, and while suspending the hollow shaft 21, due to its flexibility, the hollow shirt 21 is fixed within a certain range. Container 1 is configured to be able to move freely and at the same time
The interior A1 of the hollow shaft 21 is completely separated from the exterior B1 and the interior C1 of the hollow shaft 21. and,
A plurality of pairs of blades 91 are attached to the outer peripheral surface of the hollow shaft 21.

FIG. 3 is a schematic diagram showing another embodiment of the present invention. In the interior A2 of the closed container 12, a hollow shaft 22 with open ends is supported by a plurality of pairs of springs 33 installed inside the side surface of the container 12.
Flexible tubes 32 are vertically interposed between the openings at both ends of the container 12 and the top and bottom of the container 12, and the interior A2 of the container 12 is completely separated from the row portion B2 by the flexible tube 32. Moreover, the interior A2 and the interior C2 of the hollow shaft 22 are also completely separated from each other. A plurality of eccentric weights 42 are inserted into the hollow shaft 22, and a rotating shaft 52 to which the eccentric weights 42 are attached
is rotatably locked by bearings 62 held in the hollow shaft 22 at the top and bottom thereof, and the upper end of the rotating shaft 52 is connected to another rotating shaft 5 provided with free joints 72 at the upper and lower ends.
2a and thus the hollow shaft 22 is connected to a drive motor '82 in a manner that allows free movement. The upper and lower flexible pull tubes 32 have one end fixed to the container 12 and the other end fixed to the upper or lower end of the hollow shaft 22, and due to their flexibility, the range where the hollow shaft 22 is supported by the spring 33 is fixed. At the same time, the interior A2 of the container 12 is completely separated from the exterior B2 and the interior C2 of the hollow shaft 22. A plurality of pairs of blades 92 are attached to the outer peripheral surface of the hollow shaft 22.

FIG. 4 is a partially enlarged view showing still another embodiment of the present invention. In the interior A3 of the closed type container 3, a hollow shaft 23 with a closed lower end is supported by a pair of springs 35 installed inside the top of the container 130, and the upper end opening of the hollow shaft 23 and the top of the container 13 are connected to each other. A relatively thin flexible tube 34 is interposed between the flexible tube 34, and the interior A3 of the container 13 is completely separated from the exterior B3.
The interior c3 of the hollow shaft 23 is also completely partitioned off. A plurality of eccentric weights 43 are inserted into the hollow shaft 23, and the eccentric weights 43 are attached to the upper and lower rotating shafts 53 of a driving motor 83, and the motor 83 is fixed to the inner peripheral surface of the side of the hollow shaft 23. has been done. 2. The cord 1o connected to the drive motor 83 follows the inner peripheral surface of the side of the hollow shaft 23 and is taken out to the outside B3 of the container 13 via the flexible tube 34.

Effect> In the present invention, when the motor is driven, a vibration generator (such as an eccentric shaft or an eccentric weight) is actuated via the rotating shaft, and the hollow/yaft vibrates. This vibration is then propagated to the system inside the container outside the hollow shaft, stirring and stirring the system with the aid of blades or impellers, if necessary.
Mix. This effect will be explained in more detail with reference to the embodiment shown in FIGS. 1 and 2. FIG. 5 is a schematic diagram showing its operating state. When the motor 81 is driven,
Eccentric shaft 41 via free joint 71 and rotating shaft 51
rotates. In this rotation, the center of gravity G of the eccentric shaft 41 moves in a circular motion around the central axis of the rotating shaft 51, and the content of the movement is regulated by the rotation speed of the motor 81, the degree of eccentricity, etc.

The force caused by the movement of the center of gravity G is transmitted to the hollow shaft 21 via the bearing 61 and
The hollow shaft 21 suspended at 1 vibrates. At this time, if the blades 91 are not attached to the outer circumferential surface of the hollow shaft 21, the hollow shaft will not only vibrate but also have a large degree of freedom in its downward direction. It involves conical movements, such as when using a pestle. The system filled in the container 11 is agitated and mixed primarily by the vibrations and additionally by the conical movement.

As shown in the figure, there are blades 91 on the outer peripheral surface of the hollow shaft 21.
, the conical motion is suppressed and transmitted from the hollow shaft 91, causing the vibration of the blade 9 to be suppressed.
1, the system inside the container 11 can be stirred and mixed more effectively. Such blades are used as appropriate depending on the properties of the system and the purpose of stirring and mixing the system.For example, in the case of liquids such as paint, turbine blades that cut the system at high speed are used. In the case of a liquid-liquid system, propeller blades are good in order to connect upstream and downstream to the system. Furthermore, in the case of a liquid-gas system such as a fermenter where the purpose is to supply oxygen to the liquid, a type of impeller that finely disperses the air blown into it is preferable.

According to the present invention, the vibrations generated in the hollow shaft can be assisted by impellers or vanes as appropriate, and the system on its outer periphery (in particular, the liquid 9 can be compressed and expanded sequentially toward the outside). This phenomenon is similar to that caused by ultrasonic vibration, but when comparing the two, the vibration produced by the present invention has a lower frequency (20 to 60 Hz), and the amplitude is large (approximately 2 to 5 M, total amplitude), so the effect of stirring and mixing the system is clearly high.

<Effects of the Invention> As explained above, the present invention includes liquid-liquid systems, liquid-same systems, liquid-
Stirring and mixing systems such as gas systems has the following effects in summary.

(1) The system is not contaminated at all.

(2) Mainly due to the nature of the system, it is easy to completely seal the container in relation to the stirring device, especially when using a closed container.

(3) The structure is simple and economical.

[Brief explanation of drawings]

Fig. 1 is a schematic diagram showing one embodiment of the present invention, Fig. 2 is a partially enlarged view thereof, Fig. 3 is a schematic diagram showing another embodiment of the invention, and Fig. 4 is a schematic diagram showing an embodiment of the present invention. FIG. 5 is a partially enlarged view showing still another embodiment, and is a schematic perspective view illustrating the operating state of the present invention. 11-13・Container, 21-23・Hollow shaft, 31
, 32.34 Flexible tube, 33, 35 Splinter, 41・Eccentric shirt l-14, 2, 4, 3・Eccentric weight, 51-53 Rotating shaft, 61, 62 Bearing,
71. , 72・Free joint, 81-83・Motor, 9
1.92 Hane, Patent Applicant Chuo Kakoki Co., Ltd. Agent Patent Attorney Hiroshi Iriyama Figure 1 Figure 3

Claims (1)

[Claims] 1 Inside a hollow shaft supported by a flexible elastic body to allow some kind of free movement, 1 to
Several vibration generators are inserted, and the vibration generators are driven by a motor to vibrate the hollow shaft, thereby propagating the vibration to the medium outside the hollow shaft and stirring and mixing the medium. A stirring device consisting of