KR200447286Y1 - Agitator - Google Patents

Abstract

The present invention is a motor for providing a rotational force; A shaft mounted to the motor and having a hollow portion formed therein; An impeller fixed to the lower end of the shaft, rotated by the rotational force, and formed with a plurality of through holes through which fluid can pass, and formed in a conical shape as a whole; And a rib which protrudes vertically to face the shaft on an upper surface of the impeller.

According to the present invention, the stirring efficiency can be improved.

Agitator, communication hole, pipe

Description

Agitator

The present invention relates to a stirrer and preferably relates to a stirrer in which stirring to the stirring object in the tank can be made smoothly.

The stirrer means a device for stirring and mixing a liquid and a liquid, a liquid and a solid or powder.

The stirrer is roughly divided into a tank stirrer and a fluid stirrer according to the type of stirring. As the chemical industry evolved, many types of agitators were made, most of which are now tank agitators.

The structure of a tank stirrer puts the apparatus for stirring in a tank, and is classified into various types, such as a propeller type, an OR type, a turbine type, and a spiral shaft type, according to the type of the stirring blade. The propeller type stirrer is also used for liquid agitation with low viscosity or liquid containing solid particles, and the OR type stirrer is used for low viscosity and has the simplest structure. The turbine type stirrer uses centrifugal force and is quite efficient. In addition, a spiral shaft stirrer is used for stirring a high viscosity object.

On the other hand, the aeration device or flocculation device of the wastewater purification treatment facility performs a stirring process to induce an active reaction of oxygen or flocculant and the wastewater to be treated.

However, the conventional stirrer applied to the aeration device or agglomeration device has a structure in which a blade is attached to the shaft, and since the stirring object is agitated by the vortex generated by the rotation of the blade, the stirring objects move along the swirl flow. There is a problem that the collision rate is low and the stirring efficiency is not high.

The present invention is to solve the above problems, the present invention is to provide a stirrer that can improve the efficiency of the stirring.

In order to achieve the above object, the present invention is a motor for providing a rotational force; A shaft mounted to the motor and having a hollow portion formed therein; An impeller fixed to the lower end of the shaft, rotated by the rotational force, and formed with a plurality of through holes through which fluid can pass, and formed in a conical shape as a whole; And a rib which protrudes vertically to face the shaft on an upper surface of the impeller.

In addition, the hollow part may communicate with the through hole through a lower surface of the impeller, so that air in the hollow part may be discharged to the through hole.

In particular, the ribs are provided with three, each of which is disposed radially to equally divide the upper surface of the impeller, the through-holes can be formed in the same number in each of the divided region of the impeller.

An extension part fixed to the side of the shaft and the bent portion bent along the upper surface of the impeller, the extension and the inside of the bent portion may further include a pipe through which fluid can pass.

Furthermore, the bent portion is preferably formed with a plurality of communication holes on the outer surface.

According to the present invention, the stirring target can be mixed using air or the like during stirring.

In addition, according to the present invention can generate a lot of turbulence in the stirring object, it is possible to generate the fluid flow on the upper and lower surfaces of the impeller can improve the stirring efficiency.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention that can specifically realize the above object.

1 is a schematic diagram showing an operating state of the agitator according to the present invention. A description with reference to FIG. 1 is as follows.

In the tank 10, a stirring object to be stirred is accommodated. Then, a part of the stirrer is contained in the tank 10.

The stirrer according to the present invention includes a motor 20 providing a rotational force, a shaft 40 mounted to the motor 20, and an impeller 60 provided at a lower end of the shaft 40 to rotate by the rotational force. do.

As can be seen in FIG. 1, a portion of the shaft 40 and the impeller 60 of the components of the stirrer are immersed in the stirring object contained in the tank 10.

Then, the impeller 60 is rotated in the tank 10 by the rotational force generated by the motor 20 while rotating the stirring object accommodated in the tank 10 to mix the stirring object.

Of course, it is also possible to transmit the rotational force generated by the motor 20 to the shaft 40 by a power transmission means such as a belt, a chain, to rotate the impeller 60.

Hereinafter, the stirrer according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view of a first embodiment of the present invention, Figure 3 is a front sectional view of FIG. A description with reference to FIGS. 2 and 3 is as follows.

The motor 20 may be operated by electricity. That is, in the drawing, detailed components, such as a wire for supplying electricity to the motor 20, a rotor and a stator constituting the motor 20, are omitted for convenience of description.

One end of the motor 20 is mounted with the shaft 40. The shaft 40 has a hollow portion 42 formed therein, the air can be accommodated in the hollow portion 42. The shaft 40 can be made in the form of a pipe. Of course, since the stirrer is soaked in a deep tank to perform agitation, the length of the shaft 40 is preferably long enough.

An air injection device (not shown) may be added to the shaft 40 to inject air into the hollow portion 42. The air injection device may include a compressor for generating compressed air by generating compressed air to supply compressed air to the hollow part 42.

One end of the shaft 40 is equipped with a rotatable impeller 60. On the other hand, the upper surface of the impeller 60 may be inclined to form a predetermined angle with the shaft 40, the impeller 60 may be formed in a conical shape as a whole. Of course, as shown in Figure 2, the upper surface of the impeller 60 may be formed in a curved shape while forming a smooth curve with a predetermined curvature.

A plurality of through holes 66 are formed in the impeller 60 so that air may move to the upper and lower surfaces of the impeller 60 through the through holes 66. On the other hand, the lower surface of the impeller 60 is open, the air of the hollow portion 42 may be directly supplied to the stirring object through the lower surface of the impeller 60, as well as the through hole 66. .

In addition, the present invention includes a rib 64 that protrudes vertically from the upper surface of the impeller 60 toward the shaft 40. As the impeller 60 rotates, the rib 64 also rotates together, thereby generating a lot of turbulence for the stirring object. That is, by increasing the area in contact with the stirring object by the ribs 64, the frictional force between the stirring object and the impeller 60 can be increased to improve the stirring efficiency.

It is preferable that a plurality of ribs 64 are provided.

Three ribs 64 may be provided, and the ribs 64 may be disposed in radial directions to equally divide the upper surface of the impeller 60. When viewed from above the upper surface of the impeller 60, the rib 64 may extend in a radial direction to leave the center of the shaft 40 in the form of a straight line. Of course, it is also possible for the rib 64 to extend radially in a streamlined form.

When three ribs 64 are provided, the impeller 60 is equally divided into three regions by the ribs 64. Preferably, the through holes 66 are equally distributed in the divided regions of the impeller 60.

For example, if the through holes 66 are approximately nine, three through holes 66 may be disposed in each region.

The operation of the first embodiment will now be described with reference to FIGS. 2 and 3.

First, power is applied to the motor 20 to operate the motor 20. In addition, the shaft 20 rotates by generating a rotational force in the motor 20. Then, the impeller 60 fixed to the shaft 40 rotates to stir the stirring object. In addition, the rib 64 is rotated along the impeller 60, the stirring object may be mixed well.

Meanwhile, the air received in the hollow part 42 may move to the through hole 66 while moving to the lower surface of the impeller 60. In particular, if an air injection device is provided, compressed air is provided to the hollow part 42, and by the pressure, air is moved to the bottom of the shaft 40.

Then, since the density of the air is generally smaller than that of the stirring object, the air moves upwardly after passing through the through hole 66. At the same time, turbulence is generated by the air bubbles, so that the efficiency of mixing the stirring object is improved.

In particular, the through hole 66 may improve the stirring efficiency as the stirring target passes up and down as well as air. For example, if the through hole 66 is not formed, the stirring object on the upper surface of the impeller 60 and the stirring object on the lower surface may be difficult to contact each other, and thus, smooth stirring may not be achieved.

As a result, since the air, the stirring object, and the like may come and go above or below the impeller 60 through the through hole 66, the path of movement may be diversified, and thus the stirring efficiency may be improved.

Of course, it is also possible to put a separate additive in the hollow portion 42 to operate the stirrer. At this time, the additive introduced through the hollow portion 42 may include oxygen, chemicals and the like. In this case, an additive such as oxygen may be supplied to the motor 20 through the hollow part 42 of the shaft which is rotated by adding an additive supply device such as an oxygen supply device or a chemical supply device (not shown).

Figure 4 is a perspective view of a second embodiment of the present invention, Figure 5 is a front sectional view of FIG. 4 and 5 show a second embodiment of the stirrer according to the invention. A description with reference to FIGS. 4 and 5 is as follows. In the second embodiment, for convenience of description, the same features as those of the first embodiment will be omitted, and the description will be mainly focused on differences. For reference, in the second embodiment, at least one pipe is mounted on the side of the shaft in the first embodiment.

The second embodiment further includes a pipe 70 having an extension 72 fixed to the side of the shaft 40 and a bent portion 74 bent along the upper surface of the impeller 60.

The extension part 72 and the bent part 74 are integrally formed, and the inside of the extension part 72 and the bent part 74 is empty so that a fluid including air or the like can pass therethrough.

In particular, the bent portion 74 may be formed with a plurality of communication holes 76 on the outer surface. The communication hole 76 is preferably formed on the side of the bent portion (74).

Of course, at one end of the bent portion 74, it is possible to form a hole 78 through which the empty inner space of the bent portion 74 can communicate with the outside. The hole 78 may perform a function similar to the communication hole 76.

In this case, the communication hole 76 and the hole 78 may communicate with the space in the pipe 70 so that fluid such as air may be discharged to the stirring object. The communication hole 76 and the hole 78 perform the same function as the through hole 66 described in the first embodiment, and the stirring efficiency of the stirring object may be improved.

Meanwhile, the hole 78 may not be formed in the bent portion 74, and only the communication hole 76 may be formed.

The bent portion 74 is mounted to the impeller 60 in a shape that protrudes to a predetermined height to the upper surface 62 of the impeller 60. Therefore, the contact area of the stirring object and the stirrer is increased by the protruding shape of the bent portion 74, so that the stirring efficiency can be improved. In other words, the bent portion 74 and the extension portion 72 may also function as the rib 64.

The extension portion 72 and the shaft 40 may be integrally formed or may be fixed to each other by welding or the like.

The present invention is not limited to the above-described embodiments, and can be modified by those skilled in the art as can be seen from the appended claims, and such modifications are within the scope of the present invention. .

1 is a schematic view showing an operating state of the stirrer according to the present invention.

2 is a perspective view of a first embodiment of the present invention;

3 is a front sectional view of FIG.

4 is a perspective view of a second embodiment of the present invention.

5 is a front cross-sectional view of FIG. 4.

<Description of Signs for Main Parts of Drawings>

10: tank 20: motor

40: shaft 60: impeller

62: impeller top face 64: rib

66: through hole 70: pipe

72: extension 74: bend

76: communication hall

Claims (5)

A motor providing a rotational force; A shaft mounted to the motor and having a hollow portion formed therein; An impeller fixed to the lower end of the shaft, rotated by the rotational force, and formed with a plurality of through holes through which fluid can pass, and formed in a conical shape as a whole; And And a rib which protrudes vertically to face the shaft on an upper surface of the impeller. The method of claim 1, The hollow part is in communication with the through hole through the lower surface of the impeller, the air in the hollow portion is agitator, characterized in that discharged through the through hole. The method of claim 1, The ribs are provided with three, each of which is disposed radially to equally divide the upper surface of the impeller, The through hole is agitator, characterized in that formed in the same number in each of the divided region of the impeller. The method of claim 1, And an extension fixed to the side of the shaft and a bent portion bent along an upper surface of the impeller, and further comprising a pipe through which the fluid passes through the extension portion and the inside of the bent portion. The method of claim 4, wherein The bent portion is agitator, characterized in that a plurality of communication holes formed on the outer surface.

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