KR101698170B1 - Turbo dynamic mixer with variable multiple-stage impeller - Google Patents

Abstract

The present invention provides a turbo dynamic mixer having a variable multi-stage rotation impeller. The turbo dynamic mixer having the variable multi-stage rotary impeller according to the present invention is arranged in such a manner that the multi-type rotary impellers of the set shape are gradually narrowed, so that the flow and flow of the raw material are smooth, In particular, as the polyol raw material or the isocyanate raw material used for foam molding of the polyurethane foam is smoothly flowed, the polyol raw material and the isocyanate raw material are effectively atomized so that the viscosity of the raw material is remarkably lowered, It is possible to reduce the load and increase the mixing efficiency of the raw materials and to uniformly distribute the ultrafine air bubbles in the raw material to be aeration by air inflow and to improve the quality of the foamed molded article.
A turbo dynamic mixer having a variable multi-stage rotating impeller according to the present invention includes: a housing having a supply port and an outlet port connected to an internal passage formed in a longitudinal direction; A rotary shaft rotatably disposed in the longitudinal direction of the inner passage of the housing; A plurality of rotating impellers spaced apart from each other on a rotating shaft; The rotary impeller includes a plurality of fixed impellers spaced apart from each other on an inner circumferential surface of the housing, wherein the rotary impeller is disposed at one end of an inner passage connected to the supply port and includes a plurality of twisted wing surfaces twisted in a set pattern, So that the raw material introduced into the supply port flows on the twisted wing surface of the twist type rotary impeller.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a turbo dynamic mixer with variable multi-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a turbo dynamic mixer having a variable multi-stage rotation impeller, and more particularly, to a turbosensitive mixer having variable multi-stage rotation impellers, In particular, the polyol raw material and the isocyanate raw material used for the foaming molding of the polyurethane foam are smoothly introduced, and the polyol raw material and the isocyanate raw material are effectively atomized so that the viscosity of the raw material is remarkably lowered, And the mixing efficiency of the raw materials can be increased and the ultrafine air bubbles can be uniformly distributed in the raw materials aired by the air inflow and the variable multi-stage rotation To a turbo dynamic mixer having an impeller .

A dynamic mixer is a device in which a rotating impeller disposed inside a mixer housing is connected to a driving motor and mixes raw materials introduced into the mixer housing while rotating. Such a dynamic mixer-related technique is disclosed in Korean Patent Laid-Open Publication No. 10-2008-0046744 entitled "Dynamic Mixer ", Publication No. 10-2010-0054147 entitled" Dynamic Mixer ", and the like.

In the conventional dynamic mixer as described above, a plurality of rotating impellers are arranged at regular intervals on the inner passage of the mixer housing, and the raw material introduced into the inner passage of the mixer housing is mixed while being pushed forward by the rotating impeller.

On the other hand, the dynamic mixer is applied to the foaming and molding process of a polyurethane foam to mix the polyol liquid raw material and the isocyanate liquid raw material, or air bubbles generated by the aeration are atomized into the liquid raw material Respectively.

However, in the conventional dynamic mixer, a plurality of rotating impellers are arranged in a densely and simply arrangement on the inner passage of the mixer housing at a set spacing interval, so that the liquid raw material can not smoothly move due to frictional resistance between the liquid raw material and the rotating impeller , A high viscosity liquid raw material such as a polyol or an isocyanate has a problem that the load of the motor installed for supplying or discharging the raw material is increased and the mixing efficiency of the raw material is also lowered.

Korean Patent Application Publication No. 10-2008-0046744 "Dynamic Mixer" Korean Patent Laid-Open Publication No. 10-2010-0054147 entitled "Dynamic Mixer"

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the problems of the prior art, and to provide a twist-type rotary impeller, A turbo dynamic mixer having a new type variable multi-stage rotation impeller capable of increasing mixing efficiency and atomization efficiency as the air introduced into the raw material passes through the multi-blade type rotating impeller and the pin hole rotating impeller while being flowed, The purpose is to provide.

Particularly, the present invention is applied to the mixing or aeration of a polyol liquid raw material or an isocyanate liquid raw material used for foam molding of a polyurethane foam so that the polyol liquid raw material or the isocyanate liquid raw material can be effectively atomized so that a high viscosity liquid raw material is discharged at a low point On the other hand, the load of the motor for mixing the raw materials is increased and the mixing efficiency of the raw material is increased. Also, the air bubbles are uniformly distributed in the raw materials to be aeration by air inflow, And to provide a turbo dynamic mixer having a variable-type multi-stage rotating impeller of a new type capable of providing a multi-stage rotating impeller.

According to an aspect of the present invention for achieving the above-described object, the present invention provides an air conditioner comprising: a housing having a supply port and an outlet port connected to an internal passage formed in a longitudinal direction; A rotation shaft disposed in the longitudinal direction of the internal passage of the housing and rotating; A plurality of rotating impellers spaced apart from each other on the rotating shaft; And a plurality of fixed impellers spaced apart from each other on the inner circumferential surface of the housing, wherein the rotary impeller is disposed at one end of an inner passage connected to the supply port, and includes a plurality of twisted wing surfaces twisted in a set pattern, Type rotating impeller, and a variable multi-stage rotating impeller for allowing the raw material fed into the supply port to flow along the twisted wing surface of the twist type rotating impeller.

In the turbo dynamic mixer having the variable multi-stage rotary impeller according to the present invention, the rotary impeller includes a hollow circular plate pinhole rotary impeller disposed at the other end of the internal passage connected to the discharge port, So that the raw material passes through the through hole of the pinhole rotary impeller and is atomized.

In the turbo dynamic mixer having the variable multi-stage rotary impeller according to the present invention, the rotary impeller includes a blade-type rotary impeller disposed between the twist type rotary impeller and the pin hole rotary impeller and having a plurality of planar blade surfaces radially formed .

In the turbo dynamic mixer having the variable multi-stage rotary impeller according to the present invention, the twist type rotary impeller, the pin hole rotary impeller, and the blade type rotary impeller constituting the rotary impeller are spaced apart from each other in the longitudinal direction of the rotary shaft do.

In the turbo dynamic mixer having the variable multi-stage rotary impeller according to the present invention, the intervals between the plurality of rotation impellers and the intervals between the plurality of fixed impellers are gradually narrowed from one end of the internal passage toward the other end.

In the turbo dynamic mixer having the variable multi-stage rotary impeller according to the present invention, the stationary impeller includes a blade-type fixed impeller disposed at one end of the internal passage connected to the supply port and having a plurality of planar blade surfaces radially formed; And a pinhole fixed impeller disposed at the other end of the inner passage connected to the discharge port and having a hollow disc shape in which a through hole is formed in a predetermined pattern.

In the turbo dynamic mixer having the variable multi-stage rotation impeller according to the present invention, air is introduced into the internal passage through any one of the air inlet formed to be connected to the internal passage of the housing and the supply port, The air is simultaneously pulverized while passing through the rotary impeller and the stationary impeller so that the raw material in which the atomized air bubbles are uniformly distributed is discharged to the discharge port.

According to the turbo dynamic mixer having the variable multi-stage rotary impeller according to the present invention, the multi-type rotary impeller composed of the twist type rotary impeller, the blade type rotary impeller, and the pin hole rotary impeller are arranged at a gradually narrowing interval, And the flow rate of the raw material and air is increased. Especially, the flow of the polyol raw material and the isocyanate raw material used for the foaming molding of the polyurethane foam is smoothly carried out, and the polyol raw material and the isocyanate raw material are effectively atomized, The load of the motor for mixing the raw materials and the mixing efficiency of the raw materials can be increased and the ultrafine air bubbles can be uniformly distributed in the raw materials aeration by air inflow, It is possible to increase the quality.

Brief Description of the Drawings Fig. 1 is a view showing a main part of a turbo dynamic mixer having a variable multi-stage rotation impeller according to an embodiment of the present invention;
FIG. 2 and FIG. 3 are diagrams showing the arrangement of a rotating impeller and a fixed impeller constituting a turbo dynamic mixer having a variable multi-stage rotating impeller according to an embodiment of the present invention;
4 (a) to 4 (c) are views showing a rotating impeller according to an embodiment of the present invention;
5 is a view showing a flow of a liquid raw material on a wing surface of a twist type rotary impeller according to an embodiment of the present invention;
6 (a) and 6 (b) are views showing a fixed impeller according to an embodiment of the present invention;
FIG. 7 is a view showing a configuration of a main portion of a turbo dynamic mixer having a variable multi-stage rotation impeller according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings 1 to 7. On the other hand, in the drawings and the detailed description, there is shown in the drawings and the description of construction and operation which can be easily understood by those skilled in the art from general liquid raw material mixers, dynamic mixers, polyurethane foams, polyols, isocyanates, rotary impellers, stationary impellers, Or omitted. In the drawings and specification, there are shown in the drawings and will not be described in detail, and only the technical features related to the present invention are shown or described only briefly. Respectively.

The turbo dynamic mixer 100 having a variable multi-stage rotation impeller according to an embodiment of the present invention includes a housing 10, a rotary shaft 30, a plurality of rotary impellers 50, a plurality of fixed impellers 60, .

The housing (10) has a supply port (11) and an outlet port (12) connected to the internal passage (13) formed in the longitudinal direction. The supply port 11 protrudes from the outer circumferential surface of one end of the housing 10 to receive a liquid raw material such as polyol, isocyanate or the like. The discharge port (12) protrudes forward from the other end of the housing to discharge the liquid raw material passed through the internal passage (13). The housing 10 is integrated with the driving motor 20 for rotating the rotary shaft 30.

The rotary shaft 30 rotates in the longitudinal direction of the inner passage 13 of the housing 10 and is connected to the drive motor 20 and the coupling 22. A plurality of rotation impellers 50 are integrally formed on the rotary shaft 30.

The plurality of rotating impellers 50 are formed on the rotating shaft 30 so as to be spaced apart from each other and are arranged along the longitudinal direction of the rotating shaft 30. The plurality of rotating impellers 50 may be configured to include at least one twist type rotating impeller 50a, at least one blade type rotating impeller 50b, and at least one pin hole rotating impeller 50c. The rotating impeller 50 according to the example includes a plurality of twisted rotating impellers 50a disposed at one end of the inner passage 13 connected to the supply port 11 of the housing 10 as shown in Figs. 2 and 3, A plurality of blade-type rotary impellers 50b disposed at the intermediate portion of the inner passage 13 between the twist type rotary impeller 50a and the pinhole rotary impeller 50c, an inner passage 13 connected to the discharge port 12, And a plurality of pinhole rotary impellers 50c disposed on the rotary shaft 50c.

The twist type rotary impeller 50a has a structure in which a plurality of twisted wing surfaces 51, which are twisted in a set pattern as shown in FIG. 4 (a) and FIG. 5, are radially formed, So as to flow along the twisted wing surface 51 of the twist type rotary impeller 50a. Accordingly, when the liquid raw material flowing into the internal passageway (13) flows, the friction resistance is minimized, and the liquid raw material flows and flows smoothly. On the other hand, the liquid raw material introduced into the supply port 11 is mixed or atomized while passing through the rotating twist type rotary impeller 50a, and the air introduced into the internal passage 13 passes through the rotating twist type rotary impeller 50a And is mixed with the liquid raw material while finely crushing to produce air bubbles.

As shown in FIG. 4 (b), the blade-type rotary impeller 50b has a structure in which a plurality of planar blade surfaces 52 are radially formed. The liquid raw material having passed through the twist type rotary impeller 50a is mixed or atomized while passing through the rotating blade type rotary impeller 50b and the air having passed through the twist type rotary impeller 50a flows through the rotating blade type impeller 50b ), And is mixed with the liquid raw material while producing air bubbles.

The pinhole rotary impeller 50c has a hollow disc shape in which the through hole 53 is formed in a predetermined pattern as shown in FIG. 4C. The through hole 53 of the rotating pinhole rotary impeller 50c is filled with the liquid raw material And is mixed with the liquid raw material while passing through the through holes 53 of the rotating pinhole rotary impeller 50c while being finely crushed with ultra-fine air bubbles. Here, the through holes 53 may be formed in various shapes such as a circular shape, a diamond shape, and a diamond shape.

The plurality of stationary impellers 60 are spaced apart from each other on the inner circumferential surface of the housing 10 surrounding the inner passage 13 and are arranged along the longitudinal direction of the housing 10. The plurality of stationary impellers 60 may include one or more blade-like stationary impellers 60a and one or more pinhole stationary impellers 60b. The stationary impeller 60 may be a stationary impeller, A plurality of blade-type fixed impellers 60a disposed at one end of the internal passage 13 connected to the supply port 11 of the housing 10 as shown in Fig. 2 and Fig. 3, an internal passage 13) and a plurality of pinhole fixed impellers 60b disposed at the other end.

6A, the blade-type fixed impeller 60a has a plurality of flat wing surfaces 52 radially formed therein. The pinhole fixed impeller 60b has a through hole 62 (see FIG. 6B) Is formed in a hollow disc shape formed by the setting pattern. Here, the through hole 62 may have various shapes such as a circular shape, a diamond shape, and a diamond shape.

The gap between the plurality of rotation impellers 50 and the gap between the plurality of fixed impellers 60 gradually narrows from one end of the internal passage 13 to the other end. The plurality of rotating impellers 50 and the plurality of fixed impellers 60 are arranged alternately along the longitudinal direction of the inner passage 13 so that the distance between the rotating impeller 50 and the stationary impeller 60 As shown in FIG. 3, gradually narrows from one end of the internal passage 13 toward the other end.

Thus, the twist-type rotary impeller 50a and the blade-type fixed impeller 60a, which are disposed at relatively wide intervals at the one end of the inner passage 13 connected to the supply port 11, And the pinhole rotary impeller 50c and the pinhole fixed impeller 60b which are densely arranged at narrow intervals at the other end of the inner passage 13 connected to the discharge port 12 are passed through the liquid material or air The discharge to the discharge port 12 can be smoothly and easily performed by the pressure generated in the discharge.

Here, the turbo dynamic mixer 100 having a variable multi-stage rotary impeller according to an embodiment of the present invention is provided with a gap maintaining ring 40 (not shown) so as to maintain a spacing between the rotating impellers 50 and a spacing between the fixed impellers 60 ) 41 is fixedly disposed on the inner peripheral surface of the rotary shaft 30 and the housing 10.

Meanwhile, in the turbo dynamic mixer 100 having the variable multi-stage rotation impeller according to the embodiment of the present invention, the air flows into the internal passage 13 together with the liquid raw material through the supply port 11, The turbo dynamic mixer 100 having the variable multi-stage rotation impeller according to the example has the air inlet 70 separately formed to be connected to the internal passage 13 of the housing 10 as shown in FIG. 7, Air can be introduced.

The liquid raw material and the air are simultaneously pulverized while passing through the rotating impeller 50 and the fixed impeller 60 so that the atomized air bubbles are uniformly distributed so that the mixed liquid raw material is discharged to the discharge port 12. [

In the turbo dynamic mixer 100 having the variable multi-stage rotary impeller according to the present invention configured as described above, the twist type rotary impeller 50a, the blade type rotary impeller 50b, and the pin hole rotary impeller 50c are gradually And the liquid raw material flows smoothly and flows on the wing surface 51 of the twist type rotary impeller 50a and flows through the plurality of blade type rotary impellers 50b and the pinhole rotary impellers 50c and 50c, The liquid raw material and the air are atomized while passing through the plurality of blade-type fixed impellers 60a and the pinhole fixed impellers 60b, so that the mixing efficiency, atomization efficiency, aeration efficiency and the like can be increased.

In particular, the turbo dynamic mixer 100 having a variable multi-stage rotation impeller according to an embodiment of the present invention can be applied to the mixing or aeration of a polyol liquid raw material or an isocyanate liquid raw material used for foam molding of a polyurethane foam to produce a polyol liquid raw material or an isocyanate Thereby enabling the liquid material to be effectively atomized. Accordingly, the high viscosity liquid material can be discharged at a low point, thereby reducing the load on the motor for mixing the raw materials and increasing the mixing efficiency of the raw materials. the ultrafine air bubbles are uniformly distributed in the liquid raw material which is aeration-treated, and the quality of the foamed molded article can be increased.

Although the turbo dynamic mixer having the variable multi-stage rotation impeller according to the embodiment of the present invention has been described with reference to the above description and drawings, the present invention is merely illustrative and not restrictive within the scope of the present invention. It will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention.

10: housing 11: supply port
12: exhaust port 13: internal passage
20: drive motor 22: coupling
30: rotation shaft 31: retaining ring
32, 33: bearing 40, 41: ring for maintaining spacing
50: rotating impeller 50a: twisted rotating impeller
50b: Blade-shaped rotary impeller 50c: Pinhole rotary impeller
51: torsion wing surface 52: flat wing surface
53, 62: through hole 60: fixed impeller
60a: Blade-shaped fixed impeller 60b: Pinhole fixed impeller
70: air inlet 100: turbo dynamic mixer

Claims (8)

A supply port and a discharge port connected to the inner passage formed in the longitudinal direction, the supply port being protruded from the outer circumferential surface to receive the raw material, the discharge port protruding forward from the other end to discharge the liquid raw material passing through the internal passage, ;
A rotation shaft disposed in the longitudinal direction of the inner passage of the housing and connected to the driving motor integrally coupled to the housing and rotated;
A plurality of rotating impellers integrally formed with the rotating shaft along a longitudinal direction of the rotating shaft and spaced apart from each other;
And a plurality of fixed impellers spaced apart from each other on the inner circumferential surface of the housing so that the raw material introduced into the supply port is discharged to the discharge port through the plurality of rotating impellers and the stationary impeller,
Wherein the plurality of rotation impellers are disposed at one end of an inner passage connected to the supply port so that a plurality of twisted wing surfaces twisted in a set pattern are radially formed so that the material charged into the supply port flows on the twisted wing surface A plurality of twist-type rotary impellers; A plurality of pinhole rotary impellers disposed at the other end of the inner passage connected to the discharge port, the plurality of pinhole rotary impellers having a hollow disc shape with a through hole formed in a predetermined pattern and allowing the raw material to be atomized while passing through the through holes; And a plurality of blade-type rotary impellers disposed between the twist-type rotary impeller and the pinhole rotary impeller and having a plurality of planar blade surfaces formed in a radial shape,
The plurality of fixed impellers may include a plurality of blade-type fixed impellers disposed at one end of an inner passage connected to the supply port and having a plurality of planar blade surfaces radially formed; And a plurality of hollow pinned impellers disposed at the other end of the inner passage connected to the discharge port and having hollow holes formed in a predetermined pattern,
The distance between the plurality of rotation impellers and the distance between the plurality of fixed impellers is gradually narrowed from the one end of the inner passage toward the other end and the interval between the rotation impellers and the fixed impellers alternating with each other becomes larger than the interval between the one end of the inner passage Wherein the spacing ring is fixedly disposed on the inner circumferential surface of the rotary shaft and the inner circumferential surface of the housing so that the spacing between the impellers and the spacing between the fixed impellers is maintained,
Air is introduced into the internal passage through any one of an air inlet formed to be connected to the inner passage of the housing and the supply port so that the raw material and air are simultaneously crushed while passing through the rotating impeller and the fixed impeller So that raw material having a uniform distribution of the atomized air bubbles is discharged to the discharge port of the turbo dynamic mixer. delete delete delete delete delete delete delete

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