KR102457654B1 - Agitation blade - Google Patents

Abstract

It provides a stirring blade with low power and good gas absorption performance. The present invention consists of a blade body (5) installed on a rotating shaft (3) installed hanging down in the stirring tank (1), and the blade body (5) is an upper suction blade part (7), and the suction body (5) It consists of a lower bottom wing part 8 connected in succession under the wing part 7, and the suction wing part 7 is installed at a desired distance from the rotation shaft 3, and the bottom wing part ( 8) is the main body part 9 connected under the suction wing part 7, and the forward wing part 10 refracted in two steps as it goes toward the outer side connected to the outer side of the main body part 9 in succession. ), and the advancing wing 10 is connected to the outer side of the main body 9 in succession, and the first refractive wing 10a refracted at the connecting portion, and the first refractive wing ( 10a) is connected in series to the outer side and consists of a second refractive wing portion 10b refracted at the connection portion, and the first refractive wing portion 10a is connected to the main body 9 with respect to the rotation shaft ( It is characterized in that it is formed by bending in the rotation direction of 3).

Description

Agitation blades {AGITATION BLADE}

In particular, the present invention relates to a stirring blade that sucks in gas from the liquid surface, disperses the gas in the liquid, and refines it to absorb the gas in the liquid.

For example, in the hydrogenation reaction used in organic synthesis reactions, etc., the inside of the stirring tank is stirred with a stirring blade, the gas is sucked from the liquid surface, and the gas is dispersed in the liquid and further refined, the liquid There is a way to absorb the gas. Conventionally, a large wide blade was used for such agitation (patent document 1).

Figure 5 shows the conventional stirring device having a large wide blade. (a) is a cylindrical stirring tank, the inner bottom surface a1 of this stirring tank (a) curves downward, and is formed in concave shape, for example.

In addition, (b) is a rotating shaft installed in the central part in the said stirring tank (a) by falling down. Moreover, (c) is a stirring blade. The stirring blade (c) is separated from the rotation shaft (b) by a desired distance via the connecting member (d), and is fixed to the rotation shaft (b).

In addition, the stirring blade (c) is, for example, spaced 180 degrees around the rotation shaft (b), two blades (e, e) fixed to the rotation shaft (b) through the connecting member (d) is made of

Each of the wing bodies e is formed of, for example, a substantially trapezoidal plate body. Each of the wing bodies e is formed, for example, with an inner side e1 spaced apart from the rotation shaft b by a desired distance, and extending in a straight line in the vertical direction along the rotation shaft b, and The outer edge (e2) is inclined so that it becomes wider from the top to the bottom and is formed in a saw-tooth shape, and the lower edge (e3) is slightly spaced from the inner bottom surface (a1) of the stirring tank (a). is formed in a curved shape along the inner bottom surface a1, and the upper side e4 extends linearly in the horizontal direction and is formed in a wide width.

According to the stirring device using the large wide blade, the blade body (e) sucks gas from the liquid surface by the wide upper side (e4), and the sucked gas is transferred to the lower part of the blade body (e) By the discharge part (f) of this, it becomes possible to discharge and disperse|distribute to the outside of the said wing body (e), and to subdivide it, and to make it possible to make the liquid absorb the said gas.

Japan Design Registration No. 1094775

However, the large wide blade is good at sucking gas from the liquid surface, but it is difficult to spread the gas widely to the discharge portion f of the lower portion of the blade body e, which has a strong shearing action.

In addition, the large, wide blade was developed as a method for stirring a non-flowable liquid or a system accompanied by a change in viscosity, or a high-concentration slurry. There was a problem in that aspect.

The present invention has been made in consideration of such circumstances, and at the same time improves gas absorption performance and provides a stirring blade with high energy efficiency.

In order to achieve the above object, the stirring blade of the present invention consists of a blade body installed on a rotating shaft installed hanging down in the stirring tank, and the blade body is an upper suction blade part and a suction blade part below It consists of a lower bottom wing part connected in succession, and the suction wing part is installed at a desired distance from the rotation shaft, and the bottom wing part is connected to a main body part connected under the suction wing part, and the outer side of the main body part consecutively It consists of a forward wing portion bent in two stages as it goes toward the connected outer side, and the forward wing portion is connected to the outer side of the main body in succession, and a first deflected wing portion refracted at the connection portion, and the first refraction It is characterized in that it is connected to the outer side of the wing in succession and consists of a second refractive wing that is refracted at the connecting portion, and the first refractive wing is formed by bending in the direction of rotation of the rotating shaft with respect to the main body.

Further, the second refractive blade portion is formed by bending in a direction opposite to the rotation direction with respect to the first refractive blade portion.

In addition, the second refractive blade portion is formed by bending in the rotational direction with respect to the main body, based on a direction parallel to the direction in which the main body extends from the rotation shaft toward the outer side.

In addition, it is characterized in that an opening is formed in the first refractive wing portion.

The suction wing portion is characterized in that the upper side is extended in the horizontal direction and is formed in a straight line.

In addition, the bottom wing portion is characterized in that it is arranged at a slight interval on the inner bottom surface of the stirring tank.

In the present invention, it is possible to provide a stirring blade with low power and good gas absorption performance.

1 is a longitudinal cross-sectional view of a stirring device having a stirring blade of the present invention.
2 is a perspective view of a stirring blade of the present invention.
3 is a cross-sectional view taken along line AA of FIG. 2 .
It is explanatory drawing which shows the flow state of the liquid in a stirring tank.
5 is a longitudinal cross-sectional view of a conventional stirring device having a stirring blade.

Embodiments for carrying out the present invention Examples are shown below.

[Example 1]

Embodiment 1 of the present invention will be described with reference to Figs.

1 to 3 show a stirring device having a stirring blade of the present invention. (1) is a vertically long cylindrical stirring tank, for example. The inner bottom face 1a of the stirring tank 1 is curved downward, for example, and is formed in a concave shape.

(2) is a baffle plate (2) extending in the vertical direction fixed to the inner wall surface (1b) of the stirring tank (1). In addition, the baffle plate 2 may be omitted.

(3) is a rotating shaft installed in the center of the stirring tank (1) in the lowered. The rotation shaft 3 is provided so as to rotate freely by a driving device not shown in the drawings.

(4) is a stirring blade fixed to the rotating shaft (3). The stirring blade (4) consists of a blade body (5) formed by separating the blade body by a desired distance from the rotation shaft (3), and a connecting member (6) for fixing the blade body (5) to the rotation shaft (3). The stirring blades 4 are, for example, spaced 180 degrees around the rotational shaft 3, and two blades 5 and 5 fixed to the fixed shaft 3 through the connecting member 6 . is made of

Each of the wing bodies 5 is composed of an upper plate-shaped suction wing portion 7 and a lower plate-shaped bottom wing portion 8 connected in succession under the intake wing portion 7, respectively.

The suction blades 7 are formed, for example, in a substantially trapezoidal shape extending in the vertical direction, and are provided perpendicular to the rotation shaft 3 by a desired distance.

The suction blade 7 is, for example, the inner side 7a is spaced apart from the rotation shaft 3 by a desired distance, and extends vertically along the rotation shaft 3 to form a straight line, Further, the outer side 7b is formed so as to protrude outward in a triangular ridge shape to form the suction portion 7ba, and the upper side 7c extends in the horizontal direction and is formed in a straight line with a wide width. have.

In addition, the optimum value of the distance between the suction blade 7 and the rotary shaft 3, the blade width of the suction blade 7 and the height of the mountain in the suction portion 7ba is the type of liquid to be stirred It depends on the viscosity.

In addition, the suction blades 7 may be spaced apart from the rotation shaft 3, and the mountain-shaped suction portions 7ba may not be formed.

The bottom wing portion 8 is vertically disposed with a slight interval from the arc-shaped inner bottom surface 1b of the stirring tank 1 .

The bottom blade 8 is spaced apart from the rotation shaft 3 by the desired distance, for example, the inner side 8a continues to the inner side 7a of the suction blade 7, It extends in the vertical direction along the rotation shaft 3 and is formed in a straight line, and the outer edge 8b has an inclined edge 8ba that gradually becomes wider from the top to the bottom, and the lower end of the inclined edge 8ba. is formed with a vertical side 8bb extending downward from the Therefore, it is formed in a curved shape.

In addition, as shown in Figs. 2 and 3, the bottom wing portion 8 includes a substantially rectangular plate-shaped body portion 9 that is lined up at the lower end of the suction blade portion 7, and the main body portion 9. ) consists of a forward wing portion 10 that is refracted in two stages as it goes toward the outer side connected in succession to the outer side.

The advancing wing portion 10 is connected to the outer side of the main body 9 in succession, and the plate-shaped first deflecting wing portion 10a refracted in the connecting portion (first connecting portion), and the first refraction An opening formed in the plate-shaped second refractive wing portion 10b continuously connected to the outer side of the wing portion 10a and refracted at the connection portion (second connection portion), and the first refractive wing portion 10a ( 10c).

In addition, the first deflection blade portion 10a is formed so as to be refracted with respect to the main body portion 9 in the direction of rotation of the rotation shaft 5 .

It is conceivable that the first deflection blade portion 10a refracts with respect to the main body portion 9, for example, within a range larger than 0 degrees and smaller than 90 degrees. For example, the first refractive blade portion 10a is formed by bending 45 degrees with respect to the main body portion 9 .

In addition, the second deflection blade 10b bends toward the side opposite to the rotational direction with respect to the first deflection blade portion 10a, and at the same time, the body portion 9 with respect to the body portion 9 ) is formed to be refracted in the direction of rotation based on a direction parallel to the direction extending from the axis of rotation 5 toward the outer side 7b.

The second deflection blade portion 10b is larger than 0 degrees and refracted in a range smaller than 90 degrees in the direction opposite to the rotation direction with respect to the first deflection blade portion 10a, and at the same time, the main body With respect to the portion 9, for example, the main body portion 9 is greater than 0 degrees in the rotational direction side with respect to the direction parallel to the direction in which the main body portion 9 extends from the rotational shaft 5 toward the outer side 7b, 90 Refraction in a range smaller than the degree is considered. For example, the second deflection blade portion 10b is formed by bending the first deflection blade portion 10a by 35 degrees in the direction opposite to the rotation direction (the main body portion 9 is the rotation shaft 5 ). ) in the direction parallel to the direction extending toward the outer side 7b, 10 degrees of deflection in the direction of rotation).

The opening 10c is preferably opened from the first connecting portion to the second connecting portion, and for example, the opening is formed in a rectangular shape.

In addition, the inner side 8a of the bottom wing portion 8 may be directly connected to the rotation shaft 3 without being spaced apart from the rotation shaft 3 .

The connecting member 6 includes, for example, two boss portions 6a fixed to the upper and lower sides of the rotary shaft 3, and an arm portion 6b to which the boss portion 6a and each wing body 5 are fixed. is made of

In addition, the connecting member 6 may be configured with only the arm 6b without the boss 6a, and the arm 6b may be directly fixed to the rotating shaft 3 by welding or the like.

Next, the action and effect of the stirring blade of the present invention will be described.

The material liquid is put in the stirring tank 1, and the stirring blade 4 is rotated in a desired rotation direction in the stirring tank 1, and the mixture is stirred. That is, the wing body 5 is rotated in the direction of refraction of the advancing wing portion 10 and stirred.

By the rotation of the stirring blade 4, the gas is sucked into the liquid from the liquid surface by the suction blade portion 7 having the upper side 7c having a wide width.

And, the suction blade 7 has a protruding suction portion 7ba, and a desired gap is formed between the inner side 7a and the rotation shaft 3, so that a downflow is easy to occur. Since the suction wing 7 is formed so as to transport the gas sucked from the liquid surface and the liquid sucked in from the periphery of the suction wing 7 to the lower bottom wing 8, works

And the downward flow generated in the suction wing 7 is discharged to the outside of the wing 5 by the bottom wing 8, and rises along the inner wall surface 1b of the stirring tank 1 is an upward flow, whereby the liquid circulates in the stirring tank.

And the liquid in the tank is uniformly mixed.

In addition, since the bottom wing portion 8 has the forward wing portion 10 refracted in two stages, the discharging action is strengthened, and the liquid in the tank is more uniformly mixed.

Moreover, since the discharge force is strengthened, the suction force of the liquid downward is also strengthened, thereby further sucking in gas from the liquid surface.

In addition, since the bottom wing portion 8 is composed of the forward wing portion 10 refracted in two stages and the opening 10c formed in the forward wing portion 10, as shown in FIG. The liquid on the front side of the two deflection blades 10b on the rotational direction side is discharged to the outside of the blade body 5 as indicated by an arrow α. In addition, since the negative pressure portion 11 is formed on the rear side of the second refractive blade portion 10b, the negative pressure of the negative pressure portion 11 passes through the opening 10c to the front side of the main body portion 9. As indicated by the arrow (β), the liquid of is sucked from the front side to the back side and discharged outward. And these liquids are discharged outward as shown by the arrow γ, and the discharge force is further strengthened.

Further, by forming the opening 10c, the blade area is reduced, so that drag is reduced and power consumption can be lowered.

Moreover, in comparison with the stirring blade of the present invention and the conventional large wide blade, when the same power consumption conditions are used, the blade diameter of the stirring blade of the present invention can be increased. Therefore, if the blade diameter is increased, the peripheral speed of the tip of the blade is increased, and it is possible to further promote the dispersion and refinement of the gas.

(industrial applicability)

The stirring device of the present invention is used, for example, for stirring in medical products, food, and the like.

1: stirring tank
1a: inner bottom
1b: inner wall surface
2: Baffle plate
3: axis of rotation
4: Stirring blades
5: wing body
6: Connection member
6a: boss
6b: arm
7: Suction wing
7a: inner side
7b: outer edge
7ba: sucking part
7c: upper side
8: bottom wing
8a: inner side
8b: outer edge
8ba: slope
8bb: vertical side
8c: lower side
9: body part
10: forward wing
10a: first articulated wing portion
10b: second articulated wing portion
10c: opening
11: negative pressure

Claims (6)

It consists of a wing body installed on a rotating shaft installed hanging down in the stirring tank,
The wing body consists of an upper suction wing part and a lower bottom wing part connected in succession under the suction wing part,
The suction wing portion is installed to be separated from the rotation shaft by a desired distance,
The bottom wing part consists of a main body part connected under the suction wing part, and a forward wing part refracted in two steps as it goes toward the outer side connected to the outer side of the main body part consecutively,
The advancing wing is continuously connected to the outer edge of the main body, and the first articulated wing is refracted at the connecting portion, and the first articulated wing is successively connected to the outer edge of the first articulated wing, and the second articulated wing is refracted in the connecting portion. made up of wealth,
The first refractive blade portion is formed by bending in the rotation direction side of the rotation shaft with respect to the main body portion,
The second refractive blade portion is formed by bending in a direction opposite to the rotational direction with respect to the first refractive blade portion,
Stirring blade, characterized in that the opening is formed in the first refractive blade portion. The stirring blade according to claim 1, wherein the second deflection blade part is formed by bending the main body part toward the rotation direction with respect to a direction parallel to a direction extending from the rotation shaft toward the outer side. The stirring blade according to claim 1, wherein the suction blade part is formed in a straight line with an upper side extending in a horizontal direction. The stirring blade according to claim 1, wherein the bottom blade portion is disposed at a slight interval on the inner bottom surface of the stirring tank. delete delete

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