JPH078782A - Agitation granulator - Google Patents

Abstract

(57) [Abstract] [Purpose] To suppress the increase in weight of a stirring blade while improving its strength. [Structure] A wing member (6) radially attached to a side surface of a base (5), a flip-up plate (10) tilted by a predetermined angle so that a rotation direction is a downward inclination, and a rear side of the flip-up plate (10). And a rear plate (11) having a substantially L-shaped cross section, which is formed into a hollow triangular prism shape, and a reinforcing member for connecting the flip-up plate (10) and the corner portion of the rear plate (11) in its internal space. Provide (15).

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an agitation granulator used in the pharmaceutical industry, the food industry, and other industries that require particle treatment steps (granulation, mixing, etc.).

[0002]

2. Description of the Related Art A so-called agitation granulator is one of the devices for granulating and mixing powders and granules. As shown in FIG. 4, this agitation granulator comprises a stirring blade (24) having a vertical rotation shaft (23) and a horizontal direction in a substantially cylindrical processing container (21) having a small diameter in the upper part. The cross screw (26) having the rotating shaft (25) and the nozzle (27) are arranged. The stirring blade (24) is configured by radially mounting a blade member (30) having a downward inclination in a rotation direction on a base portion (29), and a tip portion of each blade member (30) precedes in a rotation direction. It is bent and molded.

When the stirring blade (24) is rotated, the raw material powder contained in the processing container (21) is moved in the radial direction by the centrifugal force while being rotated, and is sprung up on each blade member (30). Being lifted, he starts a climbing exercise. The particles that swirl and rise in this way (shown by the broken line) are appropriately aggregated by the binder liquid dropped or sprayed from the nozzle (27), while they are appropriately sheared by the cross screw (26) and gradually become the desired particles. Granulated into particles.

By the way, generally, the blade member (30) of the stirring blade (24) is made of a single thin plate such as a stainless steel plate as shown in the sectional view of FIG. As a result, the strength of the blade member (30) becomes insufficient in a large-capacity device (about 600) in which the diameter of the stirring blade (24) exceeds 1 m, and the blade member (30) is shaken and treated with the blade member (30). The bottom surface of the container (21) may come into contact.

In order to prevent such a problem, conventionally, the thickness of the blade member (30) has been increased, or the blade member (30) has been thickened.
A rib (not shown) is provided on the back surface (30b) of the blade, or as shown in FIG. 6, the base (29) and the outer diameter end of each wing member (30) are connected by a reinforcing rod (31). The wing member (30) is prevented from swinging.

[0006]

However, if the thickness of the blade member is increased, the weight of the stirring blade is increased.
It becomes difficult to handle, and inconvenience arises when manufacturing or cleaning the device. Further, if a reinforcing member such as a rib or a rod is used, the reinforcing member may disturb the smooth stirring motion of the particles and reduce the stirring effect. Further, particles are likely to adhere to the joint portion between the reinforcing member and the blade member, and it becomes difficult to completely remove the adhered particles during cleaning.

[0007] Therefore, an object of the present invention is to provide an agitating and granulating apparatus capable of solving the above-mentioned problems while achieving the improvement of the strength of the blade member.

[0008]

[Means for Solving the Problems] To achieve the above object,
In the present invention, in the bottom surface of the processing container, a stirring blade formed by radially mounting a plurality of blade members whose rotation direction is inclined downward in the rotation axis is arranged, and the blade members have a hollow structure.

A reinforcing material is provided in the internal space of the wing member.

[0010]

By making the blade member hollow, it is possible to greatly increase the strength of the stirring blade while suppressing an increase in the weight thereof, as compared with the case where the blade member is manufactured by a single plate. Further, since sufficient strength can be secured without providing reinforcing members such as ribs and rods, the reinforcing member disturbs the stirring motion of the particles, or particles adhere to the joint between the reinforcing member and the blade member. Nor. Therefore, a uniform stirring effect can be obtained in the entire area of the blade member, and the amount of particles attached to the blade member can be reduced.

Further, by providing the reinforcing member in the inner space of the blade member, further improvement in strength of the blade member can be expected. At this time, since the reinforcing material does not appear on the surface of the wing member,
The stirring motion of the particles is not disturbed, and the adhered particles do not increase.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the stirring granulator according to the present invention will be described below with reference to FIGS.

Like the conventional product, the device of the present invention is constructed by disposing main components such as a stirring blade (3), a nozzle and a cross screw (all not shown) in the processing container (1). It

FIG. 1 is a plan view (a) of a stirring blade (3) according to the present invention, and a sectional view (b) taken along the line AA in FIG. 1 (a). As shown, the stirring blade (3) has a truncated cone-shaped base (5) attached to the rotating shaft (4), and a plurality of blade members (6) radially attached to the side surface of the base (5).
Composed of and. The tip portion (8) of each blade member (6) is bent and formed so as to precede in the rotational direction, and forms an obtuse angle (α) with the inner wall surface of the processing container (1).

As shown in FIG. 2B, each wing member (6) has a flip-up plate (10) tilted by a predetermined angle so that the rotation direction is a downward inclination, and a rear part of the flip-up plate (10). Is joined to a rear plate (11) having a substantially L-shaped cross section, and is formed into a hollow triangular prismatic shape, and is uniformly hollow from the base end portion (7) to the front end portion (8). . Said rear plate (11)
Is composed of a vertical part (11a) and a horizontal part (11b). As shown in FIG. 2, the vertical part (11a) is inclined so that the rotation direction is downward, and the front half of the horizontal part (11b) is downward. It is slightly bent toward. A lower end edge of the flip-up plate (10) is cut by a predetermined angle (β≈10 °) so as to form a continuous inclined surface with the bent portion of the horizontal portion (11b). As a result, the gap (S: but exaggerated in the drawing) between the lower surface of the blade member (6) and the bottom surface of the processing container (1) is
The particles (13) gradually expand along the passage direction. The space (S) is gradually expanded in this way because the particles (13) passing through the space (S) are pressed against the bottom surface of the processing container (1) by the lower surface (6a) of the blade member (6). This is to shorten This makes it possible to reduce the amount of particles that adhere to the bottom surface of the processing container (1).

A columnar reinforcing material (15) is arranged in the internal space of the wing member (6). This reinforcement (15)
For example, as shown in the drawing, the flip-up plate (10) and the corner of the rear plate (11) are connected to each other. This reinforcement material (15)
Are provided in the inner space from the base end portion to the tip end portion of the blade member (6) according to the size of the stirring blade (3), one to a plurality of (three in the drawing). It may be omitted if sufficient strength can be obtained without it.

As described above, according to the present invention, since the blade member (6) has a hollow structure, the strength of the stirring blade (3) is suppressed while suppressing an increase in weight as compared with the case where the blade member (6) is manufactured in a plate shape as in the conventional product. Can be greatly improved. Therefore, the deflection of the blade member (6) is suppressed, and the gap (S) between the blade member (6) and the bottom surface of the processing container (1) can be set to about half (about 0.5 mm) of the conventional product. It will be possible. This makes it difficult for particles to enter the gap (S), and the amount of particles adhering to the bottom surface of the processing container (1) and the processing container (1).
It is possible to reduce the amount of granules or mixture remaining inside. Further, since the stirring blade (3) is lightened, it is possible to suppress the generation of vibration during rotation, and it is easy to handle during manufacturing and cleaning.

Furthermore, since sufficient strength of the blade member (6) is ensured without providing reinforcing members such as ribs or rods, the reinforcing member does not disturb the stirring motion of the particles, and the reinforcing member The particles do not adhere to the joint with the blade member (6). Therefore, a uniform stirring effect can be obtained in the entire radial direction of the blade member (6), and the amount of particles attached to the blade member (6) can be reduced. Further, the adhered particles can be easily removed.

Further, if the reinforcing member (15) is provided in the internal space of the blade member (6), further improvement in strength of the blade member (6) can be expected. The reinforcing material (15) thus provided is
Since it does not appear on the surface of the blade member (6), there is no fear of disturbing the stirring motion of particles or increasing the number of adhered particles.

Further, in the plate-shaped wing member (6 '), as shown in FIG.
As shown in (a), the back surface (6b ') of the blade member (6') is likely to be in a negative pressure region, which disturbs the stirring motion of the particles, but as described above, the blade member (6) is In the case of a hollow structure, the back surface (6b) can be made substantially vertical. Therefore, it is possible to suppress the formation of a negative pressure region in the vicinity of the back surface (6b) and to suppress the occurrence of turbulence to the minimum.

Although the wing member (6) is formed in a triangular prism shape in this configuration, the shape of the wing member (6) is not limited to this, and various shapes may be used as long as it is a hollow box shape. It is possible to select. Further, the reinforcing material (15) only needs to be provided in the internal space of the wing member (6), and may be provided at another appropriate place as long as this condition is satisfied.

[0022]

According to the present invention, the following various effects can be obtained.

By making the wing member a hollow structure,
The strength of the stirring blade can be greatly improved while suppressing an increase in the weight thereof. Therefore, the deflection of the wing member is suppressed,
It is possible to suppress the generation of vibration during operation. Further, since the stirring blade is made lighter in weight, it can be easily handled during manufacturing and cleaning.

Since the deflection of the wing member is suppressed,
The gap between the blade member and the bottom surface of the processing container can be set smaller than that of the conventional product. This makes it possible to suppress the amount of particles adhering to the bottom surface of the processing container and the amount of granulated material or mixture remaining in the processing container.

Since a reinforcing member such as a rod or a rib is unnecessary, the stirring motion is not disturbed by the reinforcing member. Therefore, a uniform stirring effect can be obtained in the entire radial direction of the blade member. Similarly, since the adhesion of particles at the joint between the reinforcing member and the blade member does not pose a problem, the amount of particles adhering to the blade member can be reduced, and the adhered particles can be easily removed. Become.

Since the back surface of the blade member can be made substantially vertical, formation of a negative pressure region near the back surface is suppressed,
The occurrence of turbulence can be minimized.

By providing the reinforcing member in the inner space of the blade member, it is expected that the strength of the blade member will be further improved.
Since the reinforcing material thus provided does not appear on the surface of the blade member, there is no fear of disturbing the stirring motion of particles or increasing the number of adhered particles.

[Brief description of drawings]

FIG. 1 is a plan view (a) of a stirring blade according to the present invention, and
(A) It is a longitudinal cross-sectional view taken along the line AA in the figure.

FIG. 2 is a vertical sectional view of a wing member.

3A and 3B are vertical cross-sectional views of a blade member, in which FIG. 3A shows a flow of particles in a conventional apparatus, and FIG. 3B shows a flow of particles in an apparatus of the present invention.

FIG. 4 is a vertical cross-sectional view (a) showing the entire structure of the agitation granulator, and a horizontal cross-sectional view (b) taken along the line BB in FIG. 4 (a).

FIG. 5 is a vertical cross-sectional view of a conventional blade member.

FIG. 6 is a vertical cross-sectional view of a conventional device when a rod is used as a reinforcing member.

[Explanation of Codes] 1 Processing container 3 Stirring blade 4 Rotating shaft 6 Blade member 15 Reinforcement material

Claims (2)

[Claims] 1. A structure in which a stirring blade formed by radially mounting a plurality of blade members having a rotating shaft with a downward inclination in a rotation direction is provided on a bottom surface of a processing container, wherein the blade member has a hollow structure. Characteristic stirring granulator. 2. The stirring granulator according to claim 1, wherein a reinforcing material is provided in the internal space of the blade member.