KR101103552B1 - Mixer - Google Patents

Abstract

The present invention relates to a stirring apparatus installed in a fermentation tank of a water treatment plant food processing plant, a reaction vessel of a sewage treatment plant, and the like to stir a liquid substance.

The present invention is a stirrer including a rotary vehicle consisting of a drive unit and a rotating shaft and a conical body provided with one or more feathers, wherein the conical body is composed of an empty space of a watertight structure therein, one drive unit and two on the rotating shaft Install a rotary car, but install the vertices of the conical bodies facing each other, and between the rotary shaft and the rotary car or between the rotary car and the rotary car are connected to each other by a support shaft, so that the working load is small and scum on the water surface It is possible to prevent the build-up, it is characterized in that the deep reaction tank can be stirred efficiently.

Drive part, rotary shaft, rotor, stirrer

Description

Stirrer {Mixer}

The present invention relates to a stirring apparatus for stirring a liquid material is installed in a water treatment plant, a fermentation tank of a food processing plant, a reaction tank of a sewage treatment plant.

Conventional granular stirrer equipped with a paddle or propeller is mainly used in small-capacity reactors with short reaction times, such as pH adjusting tanks and agglomeration reaction tanks, and is difficult to apply to large-capacity reaction tanks.

Conventional granular conical stirrer has better stirring power efficiency and better circulation of reaction solution than paddle type and propeller type stirrers. However, if the reactor is a large capacity, a plurality of stirrers must be installed and it is difficult to apply to a deep reactor.

In addition, since the conical rotary wheel is installed close to the bottom of the reactor, the scouring velocity of the bottom of the reactor can be secured and the sediment deposition can be minimized. However, since the stirring force is not properly transmitted to the upper portion, scum accumulates on the surface of the reactor in which the scum is generated, and thus an improvement is required.

In addition, like all rotary machinery, a stirrer has a heavy self-power, high power consumption, an increase in support members, and rapid burnout of parts. Conventional granular conical stirrer also has a longer shaft length and heavier weight than other stirrers, which imposes load on the driving unit due to the load and wastes agitating power, and thus requires improvement.

Therefore, the present invention has been made to overcome the problems of the prior art as described above, the operating load is small, can prevent scum accumulation on the water surface in the reaction tank is generated scum, sediment deposition in the reaction tank in which the precipitated material is present The technical problem is to provide a stirrer capable of preventing the reaction, and to efficiently stir even a deep water tank or a large reaction tank.

The technical problem to be achieved by the present invention is not limited to the technical problem mentioned above, and other technical problems not mentioned above may be clearly understood by those skilled in the art from the following description. will be.

In the present invention for achieving the above object, in the stirrer comprising a drive unit, a rotating shaft, and a conical rotary wheel provided with one or more feathers on the conical body, in order to reduce the working load of the stirrer, the rotary wheel is configured The conical body was provided with an empty space of watertight structure.

When the stirrer is installed in the reaction tank, the rotation difference is immersed in the reaction solution, so that the load on the driving unit and the rotating shaft is reduced by the action of buoyancy.

The empty space of the watertight structure is not limited to the conical body, and the rotating shaft may also be made of a watertight hollow tube to further reduce the working load, which is also included in the scope of the present invention.

 In the present invention, in order to solve the problem of scum accumulation on the water surface in the reaction tank in which scum is generated, low water depth close to the water to generate the centrifugal discharge water flow at the low depth close to the water to dismantle the scum floating on the water surface The conical rotary car was installed in the conical body, but the vertices of the conical body were installed on the rotating shaft so as to face the bottom to constitute a stirrer.

In addition, in the present invention, in order to prevent the sediment deposited on the bottom in the reaction tank containing the sediment, the centrifugal water flow is radially generated at a deep depth close to the bottom so that the sediment is confined to the deep water close to the bottom To install a conical rotary wheel, it was installed at the lower end of the rotating shaft so that the vertex of the conical body toward the water surface.

In addition, in the present invention, in order to achieve an efficient stirring purpose without agitation of the stirring force in a deep reaction tank, two conical rotary wheels are provided on one driving unit and the rotating shaft, but the stirrer is formed on the upper side of the rotating shaft. The vertex of the body was installed to face the bottom, and the lower side of the rotating shaft was installed so that the vertex of the conical body toward the water surface.

When the stirrer configured as described above operates, the upper and lower rotors rotate simultaneously by one drive unit and the rotary shaft, and the centrifugal flows are respectively perpendicular to the shafts in the two rotor wheels by a feather formed on the conical body. Is radially ejected, and thus, the take-up force is generated in a direction parallel to the rotary shaft, so that two circulating streams are formed while the axial flows are respectively generated toward the rotary car.

In this way, since two circulating water streams are formed by the two rotor wheels, it is possible to realize a stirrer in which the stirring force is smooth without agitation even in a deep reaction tank. In addition, since the strong side force is generated by the lower side rotation difference, deposition of deposits and the like on the bottom of the reactor can also be prevented.

In addition, in the present invention, a deeper reaction tank stirrer has a longer rotation axis, or because a plurality of conical rotary wheels are installed on one axis, the rotation axis is twisted or shaken to solve the problem that causes the failure, the rotation Between the body and the body of the car, between the rotating shaft and the body of the rotary car by connecting to at least one support shaft to prevent the shaking of the rotating shaft.

According to the stirrer according to the present invention having the configuration as described above, the operating load on the drive unit and the rotating shaft is small, there is an advantage that can prevent scum accumulation on the water surface in the reaction tank in which scum is generated.

In addition, according to the stirrer according to the present invention, a deep water tank or a large capacity reaction tank can be stirred smoothly, and there is an advantage that it can be applied to a rectangular reaction tank.

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

In this process, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms that are specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. Definitions of these terms should be made based on the contents throughout the specification.

1 is a longitudinal cross-sectional view for explaining the first embodiment of the stirrer according to the present invention.

The stirrer according to the present invention consists of a drive unit 1, a rotating shaft 2, and a conical rotary wheel 3 provided with one or more vanes 32 provided on the conical body 31, wherein the rotary wheel 3 is In order to reduce the working load of the stirrer, an empty space of a watertight structure is formed inside the conical body. When the stirrer is installed in the reaction tank 10 and the rotary difference is immersed in the reaction liquid, the load on the driving unit and the rotating shaft is reduced by the action of buoyancy. Here, the empty space of the watertight structure is not limited to the conical body, and the rotary shaft 2 may also be formed of a watertight hollow tube to further reduce the working load.

In this embodiment, the rotating shaft 2 is configured to be short so that the conical rotary difference 3 can be located at a low depth close to the water surface, and the agitator is installed so that the vertex of the conical body faces the bottom. . Accordingly, the centrifugal stream of water flows radially at a low depth close to the water surface by the conical rotary wheel 3, thereby eliminating the problem of scum accumulation on the water surface in the reaction tank in which the scum is generated. Therefore, this embodiment is suitable for a reaction tank in which a small amount of precipitate and a lot of floating substances such as scum are generated.

2 is a vertical cross-sectional view for explaining the second embodiment of the stirrer according to the present invention.

The stirrer according to this embodiment is configured to elongate the rotary shaft 2 so that the conical rotary difference 3 can be located at a deep depth close to the bottom surface of the reaction tank 10, the at least one feather 32 and The agitator is installed at the lower end of the rotating shaft 2 so that the vertex of the conical body 31 provided with an empty space of watertight structure is facing the water surface. Therefore, the centrifugal water flow is radially jetted at a deep depth close to the bottom of the reaction tank 10 by the conical rotary difference, so that the owing force is increased on the bottom side, and sedimentation materials such as sludge can be prevented.

The stirrer of this embodiment has a long rotation shaft 2 and an empty space therein, the rotation shaft (2) is shaken due to the rotation difference (3) is affected by buoyancy may cause a failure. Therefore, the rotation shaft 2 and the body of the rotary car 3 is connected by one or more support shafts 4 to prevent the shaking of the rotation shaft (2). Here, a support bearing (not shown) may be additionally installed between the lower end of the rotary shaft 2 and the bottom of the reactor 10 to prevent shaking of the rotary shaft 2.

3 is a longitudinal cross-sectional view for explaining the third embodiment of the agitator according to the present invention.

The stirrer according to this embodiment has a long rotating shaft (2) in order to ensure a smooth stirring without agitation force even in the deep reaction tank (10) and one on the upper side and the lower side of the rotating shaft (2) The rotor (3a, 3b) consisting of a conical body 31 is provided with the above-described feather 32, the upper side of the rotary car (3a) is installed so that the vertices of the conical body face downward, the lower side The rotary car 3b is installed so that the vertex of the conical body faces the water surface.

Thus, by installing two conical rotary wheels 3a and 3b on one drive unit 1 and the rotating shaft 2, the upper side wheel 3a and the lower side wheel 3b are simultaneously With the blade provided on the conical body while rotating, the centrifugal water flows are radially ejected in the two directions at right angles to the axis, and the pick-up force is generated in the direction parallel to the axis of rotation. Two circulating streams are formed as axial flows occur, respectively.

In this way, since two circulating water streams are formed by the two rotor wheels 3a and 3b, it is possible to realize a stirrer in which the stirring force is smooth without agitation even in a deep reaction tank. In addition, since the strong side force is generated by the lower side rotation difference, deposition of deposits and the like on the bottom of the reaction tank 10 may be prevented.

In this embodiment as well, in order to reduce the working load, at least one of the two conical bodies may form an empty space of a watertight structure therein.

In addition, as the rotary shaft 2 is configured as a long shaft can be connected to the body and the body of the rotary car by one or more support shafts (4) to prevent shaking.

In addition, in this embodiment, a support bearing 5 may be provided between the bottom and the bottom of the rotary shaft 2 so that the rotary shaft 2 can be supported on the bottom of the reaction tank 10.

In addition, the stirrer is provided with at least three rotary differences between the upper side rotary difference (3a) and the lower side rotary difference (3b) of the rotary shaft (2) including one or more stirring wheels (not shown) It can be configured, the stirring wheel to be additionally installed can be selected and installed from a variety of forms, such as paddles, propellers, without being limited to the conical rotor.

4 is a cross-sectional view for explaining an example in which the stirrer of the third embodiment according to the present invention is installed in the horizontal axis.

The third embodiment is not limited to the granular stirrer, and as shown in FIG. 4, the rotary shaft 2 is elongated in the transverse direction so that the stirring force is not biased to one side and smooth stirring is performed even in the rectangular reaction tank 10. In addition, the rotation shaft is provided with the rotation difference (3a, 3b) consisting of a conical body 31, each of which is provided with one or more feathers 32 at positions close to both inner walls of the reaction tank, the rotation difference is the vertex of the conical body They are installed facing each other.

The embodiments of the present invention described above and illustrated in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Therefore, such improvements and modifications will fall within the protection scope of the present invention, as will be apparent to those skilled in the art.

1 is a cross-sectional view showing the installation of a stirrer according to a first embodiment of the present invention.

2 is a cross-sectional view showing the installation of a stirrer according to a second embodiment of the present invention.

3 is a cross-sectional view showing the installation of a third embodiment of the agitator according to the present invention.

Figure 4 is a cross-sectional view of the stirrer according to the present invention installed horizontally.

***** Explanation of symbols for the main parts of the drawings *****

 1: drive unit 2: rotating shaft

 3, 3a, 3b: conical rotary wheel 4: support shaft

 5: support bearing 10: reactor

31 conical body 32: feather

Claims (6)

In the stirrer including a rotary difference consisting of a drive unit, a rotating shaft, and a conical body provided with one or more feathers, Stirrer, characterized in that the empty space of the water-tight structure is formed inside the conical body to reduce the weight of the conical body so that water does not flow into the rotor. The method of claim 1, One end is connected to the rotary car, the other end of the stirrer, characterized in that it has a plurality of support shaft connected to the rotating shaft. In the stirrer including a rotary difference consisting of a drive unit, a rotating shaft, and a conical body provided with one or more feathers, The rotary car is composed of an upper side rotary car installed on the upper side of the rotary shaft such that the vertex of the conical body faces downward, and a lower side rotary car installed on the lower side of the rotary shaft so that the vertices of the conical body face the water. The upper and lower rotors, the stirrer characterized in that the conical body is formed in a hollow space of the water tight structure so that the weight of the conical body is not introduced into the inside of the rotor. delete The method of claim 3, One end is connected to the upper rotor, the other end has a plurality of support shafts connected to the lower rotor. delete

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