JPS59179136A - Stirring device for fluidizable composition - Google Patents

Abstract

PURPOSE:To form fine, uniform and stable cellular foams by supporting a liquid vessel for a fluidizable compsn. rotably around shaft centers provided eccentrically from the shaft center line of a blade shaft and providing also a means for rotating the liquid vessel for the fluidizable liquid. CONSTITUTION:A liquid vessel 5 for a fluidizable composition is supported rotatably around a shaft center eccentrically and parallelly disposed to the shaft center line of a blade shaft 1. When motors 25, 26 are driven, blade shaft bodies 33A, 33B and 36, 38 are rotated around the shaft center of gears 20, 21 provided at each fixed position. Since the liquid vessel 5 is also rotated around the center of a supporting shaft provided eccentrically from said shaft centers. As a result, the same stirring effect may be realized as if the blade shaft bodies 33A, 33B were supported by a planetary gear and rotated around its shaft center 11 and the shaft center were rotated simultaneously around a shaft center of a stationary gear.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an apparatus used for stirring and foaming a fluid composition.

This type of stirring method includes a continuous method and a batch method.

In the continuous type, a rotating body with many protruding teeth is used, and a pair of rotating bodies are rotated in a narrow flow tube in which the fluid composition moves, with the protruding surfaces of the teeth facing each other, and the opposing teeth and The fluid composition is stirred by shearing it between the teeth, and this type of stirring device is called the OAKSUMIKI.

According to this OAKSUMIKI, by passing a fluid composition through a flow tube equipped with a rotating body with protruding teeth,
Although it can be stirred and foamed at high speed, the fluid composition tends to heat up due to friction with the teeth, making it unsuitable for thermoplastic compositions with low gelling temperatures. Because of the increased friction, it is difficult to align the foam cells finely and uniformly.

The batch type is a method in which a blade rod is inserted vertically into the liquid surface of the fluid composition poured into a liquid tank and is rotated and stirred.The fluid composition radiates heat while flowing in a large liquid tank. It is difficult to generate heat, and once the liquid level of the fluid composition rises to the top of the blade rod due to foaming and volume increase, air is no longer drawn in, so foaming stops, and if the blade rod continues to rotate, foaming has already occurred. Since the foam cells are crushed, fine, uniform, and therefore stable foam cells are created.

As described above, although the batch type eliminates the drawbacks of the continuous type, it cannot perform a high-speed stirring process like the continuous type. This is because to perform high-speed agitation processing, a large liquid tank and a large blade rod are required to match the liquid tank, but the larger the blade rod and the faster the rotation, the greater the vibration of the blade rod, which can be dangerous. This is because there is a limit to increasing the size of the blade rod and rotating it at high speed.

Conventionally, in relation to this point, there has been a method in which the blade rod is not made large, but is attached to and supported by the planetary gear, and the blade rod is rotated around the axis of the planetary gear, and the axis is rotated around the axis of the fixed gear. However, since it involves swinging the feather rod and rotating it, it is still dangerous to swing it around at high speed.

The present invention eliminates the drawbacks of both of these methods,
More specifically, the purpose is to improve the batch method and provide a stirring device that can form stable foam cells at high speed without gelation, and with fine and uniform foam cells. , a fluid composition liquid tank is rotatably supported around an axis eccentrically parallel to the axis of the blade rod, and as the blade rod is rotated, the liquid tank is also eccentrically parallel to the axis of the blade rod. The gist of this is to rotate around a central axis.

Hereinafter, the present invention will be specifically explained with reference to illustrated embodiments.

The stirring device includes two blade rods IA and 1B, an arm 2 that suspends and supports these in parallel, a support 3 that supports the arm 2 by protruding like a cantilever, and a base that vertically supports the support 3. 4, a ball-shaped fluid composition liquid tank 5, and an arm 6 on which the fluid composition liquid tank 5 is mounted.

The arm 6 is made up of support members 8 projecting at right angles from the left and right sides of the base frame material 7, and a support shaft 10 is provided downwardly projecting from the center bottom of the base frame material 7. A chain wheel 1 driven by a motor 25 is attached to the lower end of a support shaft 10 that is rotatably fitted into a shaft hole 11 of the base 4 and protrudes below the base 4.
2 is installed. 24 is a roller chain that connects the chain wheel 12 and the motor 25.

Receiving pieces 9 are protruded from the left and right sides of the liquid tank 5, and are removably supported by screws on the receiving member 8.

Therefore, the liquid tank 5 is driven by the motor 25, and the support shaft 10
It is coaxial with the arm 6 and rotates integrally with the arm 6.

The fixed end of the arm 2 is a slider 13 that fits into the support column 3.
It can be slid up and down the column 3 by tightening the handle 14. Reference numeral 15 denotes a handle for driving the arm 2 up and down.Turn the handle 14 to loosen the clamping pressure of the slider 13 against the support column 3, and turn the handle 15 to drive the arm 2 through the gear 16 to the guide chain wheels 17 and 18.
The arm is raised and lowered by rotating the chino 19 stretched between them.

Two meshing gears 20 and 21 are rotatably mounted on the lower side of the arm 2 with their axes facing vertically and not coaxially with the support shaft 10. The gear 20 is connected to a pulley 22 and a timing heald 23. It is driven by a motor 26 via.

The blade rod 1 is made by bending a flat belt-like member symmetrically into a U-shape, bending both ends at right angles, and joining it in a U-shape.
Two frame-shaped blade plates 33A and 33BIJ-shaped bent portion 34
and a U-shaped bent part 36, and a shaft 37 is formed through the center thereof, and is attached coaxially to the gears 20 and 21.

The tip edge 38 of the blade rod piece 32 facing in the rotational direction has a sharp cutting edge shape, that is, a tip section.

In this way, since the liquid tank is rotatably supported around the eccentric axis parallel to the axis of the blade rod, the motor 25.26
When driving, the vane rods 338 and 33B rotate around the axes of the gears 20 and 21, respectively, which are in fixed positions, and the liquid tank 5 also rotates around the axes of the gears 20 and 21, which are in fixed positions.
Since it rotates around the axis of the chain wheel 12, as a result, the blade rods 33A and 33B are supported on the planetary gear and rotated around the axis, and the axis is connected to the axis of the fixed gear. The stirring effect is similar to that obtained when rotating around the .

However, in reality, the axes of the blade rods 33A and 33B are not swung around in the liquid tank, but the effect of swinging is caused by the non-eccentric rotation of the liquid tank.
8. There is no dangerous vibration of 33B, and therefore the rotation of the liquid tank can be increased to further enhance this effect.

Then, the foamed cells generated by this stirring are canted and divided into small pieces by the tip of the blade-like blade rod piece 32, so that fine, uniform, and therefore stable foamed cells are completed.

As mentioned above, the present invention significantly improves the batch system,
This is extremely convenient for stirring the fluid composition at high speed without gelling it, making it fine and uniform, and forming stable foam cells.

[Brief explanation of drawings]

FIG. 1 is a perspective view of a stirring device according to an embodiment of the present invention, and FIG.
The figure is an enlarged sectional view of the blade rod piece taken along the line X-X in Figure 1, and
The figure is a mechanical diagram of the stirring device shown in FIG. 1. 1... Feather rod 2... Arm 3... Support 4... Base 5... Fluid composition liquid tank 6... Arm 7... Base frame material 8... Receiving material 9 ...Socket piece 10...Shaft 12...Chain wheel 13...Slider 14...Handle 16...Gear 22...Pulley 23...Timing belt 25...Motor patent application Person Murakoshi Atsuhiro Shigemurata Agent Patent Attorney (8189) Shigeo Chiba Figure 2 2,000 items z' 2 Figure 3

Claims (1)

[Claims] In a stirring method in which a blade rod is inserted perpendicularly to the surface of the liquid composition poured into a liquid tank and rotated, the liquid tank of the fluid composition can be rotated around an axis eccentric from the axis of the blade rod. 1. A stirring device for a fluid composition, comprising means for supporting and rotationally driving a liquid tank of the fluid composition.