KR101478099B1 - Multi-shaft agitator with a scum blade - Google Patents

Abstract

Disclosed is a multi-shaft agitator with a scum blade, in which a mixed solution within a reaction bath such as a biologic reaction bath or a night soil storage bath is agitated by using only one driving unit, scum floating to a water surface of the mixture is removed, the scum is uniformly removed over the whole reaction bath without generating a dead space, scum removal and discharge efficiency are significantly improved, and the scum floating to the water surface of the mixed solution is removed without using chemicals. The multi-shaft agitator with the scum blade includes: a deceleration unit for a two-shaft output, which receives a rotation force of a driving unit to separate the rotation force of the driving unit into at least two rotation forces, thereby decelerating the two rotation forces at ratios different from each other to output the decelerated rotation forces; a scum blade receiving one rotation force of the at least two rotation forces that are decelerated at predetermined ratios after being separated from the deceleration unit for the two-shaft output to rotate, thereby removing scum floating to a water surface of a mixed solution within a reaction bath; and at least one impeller receiving the other rotation force of the at least two rotation forces that are decelerated at the predetermined ratios from the deceleration unit for the two-shaft output to rotate, thereby agitating the mixed solution within the reaction bath.

Description

MULTI-SHAFT AGITATOR WITH A SCUM BLADE WITH SCUMBLED BLADE [0002]

The present invention relates to a multi-shaft agitator equipped with a scum blade, and more particularly, to a multi-shaft agitator equipped with a scum blade, which is capable of stirring a mixed liquid in a reaction tank such as a biological reaction tank or a manure storage tank and removing scum floating on the water surface of the mixed liquid To a multi-shaft stirrer equipped with a scum blade.

Generally, in order to treat sewage, wastewater, sewage, etc., advanced treatment techniques using bioreactors or manure storage tanks are widely used.

During the biological water treatment process using the biological reaction tank or the manure storage tank, a large amount of foam and scum are generated on the surface of the water of the raw water and floating.

In order to remove bubbles and scum generated in the biological water treatment process, a method of spraying a defoaming agent onto the water surface of a mixed solution is generally used.

However, in order to spray and remove the defoaming agent on the water surface of the mixed solution, it is necessary to install various kinds of defoaming lines and pumps such as a pump for spraying the defoaming agent on the water surface of the mixture through the defoaming line, There is a problem that it is consumed.

Further, in order to remove floating foam and scum on the water surface of the mixed solution, a chemical such as defoaming agent must be used to cause secondary contamination of the mixed solution, thereby causing environmental pollution due to use of the chemical.

Further, in addition to the driving motor for rotating the impeller, a pump for injecting the defoaming agent through the defoaming line must be driven to increase the amount of power consumed, thereby increasing the maintenance cost.

On the other hand, when a method of removing foam or scum by spraying a defoaming agent on the water surface of the mixed liquid through the defoaming line is used, the central part of the reaction tank in which the defoaming agent is not sprayed has a problem that the scum removing efficiency is drastically reduced.

Korean Registered Patent No. 1103552 (2012.02.02)

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a multi-shaft mixer equipped with a scum blade capable of stirring a mixed liquid in a reaction tank such as a bioreactor or an manure storage tank using only one driving means, .

Another problem to be solved by the present invention is to provide a method for removing scum from a reaction vessel such as a biological reactor or a manure storage vessel without generating a dead space, And to provide a multi-shaft agitator.

Another object of the present invention is to provide a multi-shaft agitator equipped with a scum blade capable of removing floating scum on a water surface of a mixed liquid without using chemicals such as defoaming agents and the like.

Other objects and advantages of the present invention will become apparent to those skilled in the art from the following detailed description.

In order to attain the above object, the present invention provides a two-axis output-type deceleration unit that receives a rotational force of a driving means and separates the rotational force of the driving means into at least two, A scum blade for receiving a rotating force of at least two rotating forces decelerated at a predetermined ratio and then rotating to remove scum floated on the surface of the mixed liquid in the reaction tank; Shaft stirrer equipped with a scum blade including at least one impeller for rotating the other one of the at least two decelerated rotating forces to stir the mixed liquid in the reaction tank.

For example, the two-axis output deceleration unit may include first deceleration means for decelerating the rotational force of the drive means at a predetermined ratio, and second deceleration means for receiving a rotational force decelerated at a predetermined ratio through the first deceleration means, A second deceleration means connected to the first output shaft for decelerating the rotational force of the first output shaft at a predetermined ratio and a second deceleration means connected to the first deceleration means for rotating the deceleration means, And a second output shaft to transmit the second output shaft.

For example, the first deceleration means may be a gear that decelerates the rotational force of the driving means at a predetermined ratio and transmits the decelerated torque to the first output shaft.

For example, the second deceleration means may be a plurality of cyclode disks that decelerate the rotational force of the first output shaft at a predetermined ratio and transmit the decelerated torque to the second output shaft.

For example, the scum blades are extended to a side portion of the reaction tank so that a dead space in which the scum is not removed is not formed in the reaction tank, and one of at least two rotational forces decelerated at a predetermined ratio from the two- At least one scum removing blade for receiving the rotating force and rotating to remove floating scum on the water surface of the mixed solution in the reaction tank, and a scum removing blade for preventing the scum removing blade from increasing the strength of the scum removing blade, And a first reinforcing member for preventing deformation of the scum removing blade portion.

The scum blades are connected to the scoop removing blade unit by connecting the decelerating unit for two-axis output and the scum removing blade unit so that the scum removing blade unit can be supported by the two-axis output decelerating unit. Preventing member.

In addition, the scum blades may be formed by connecting neighboring scum removing blades to apply tension to the scum removing blades to remove scum floated on the surface of the mixed solution using the scum removing blades, And a second reinforcement member for preventing the scum removing blade portion from being deformed by a load applied to the removing blade portion.

Here, the deflection preventing member and the second reinforcing member may be adjustable in tension.

For example, the scum removing blade may be formed in an arc shape so as to remove scum floated on the water surface of the mixed solution in the reaction tank and guide the center portion to the scum removing blade.

Further, the scum removing blade may be disposed so as to be perpendicular to the water surface of the mixed solution in the reaction tank.

As described above, in the multi-shaft agitator equipped with the scum blades according to the embodiment of the present invention, the impeller is rotated by using only one driving means to stir the mixed solution, and the scum blades are also operated, The scum floated on the surface of the water can be removed, so that water treatment efficiency can be greatly improved and environmental pollution can be minimized.

In addition, since both the impeller and the scum blades can be operated by operating only one driving means, the amount of power consumed can be greatly reduced, the maintenance cost can be reduced, and the manufacturing cost of the stirrer can be greatly reduced.

In addition, since the scum removing blade is formed in an arc shape, scum floating on the water surface of the mixed liquid is removed by the scum removing blade, and the scum is collected into a place guided by the scum removing blade So that the scum can be removed very quickly.

The scum removing blade is not only reinforced by the first reinforcing member and the second reinforcing member but also the scum removing blade is supported by the deflection preventing member so that the end of the scum removing blade is extended to the side portion of the reaction tank It is possible to prevent the shape of the scum removing blade portion from being deformed by the load applied to the scum removing blade portion when the scum is removed even if it is formed as long as possible. There is an effect that can be removed.

The effects of the present invention will be clearly understood and understood by those skilled in the art, either through the specific details described below, or during the course of practicing the present invention.

1 is a front view for explaining a multi-shaft stirrer equipped with a scum blade according to an embodiment of the present invention;
2 is a plan view for explaining a multi-shaft stirrer equipped with a scum blade according to an embodiment of the present invention.
3 is a sectional view for explaining a 2-axis output deceleration unit according to an embodiment of the present invention

The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text. It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprising" or "having ", and the like, are intended to specify the presence of stated features, integers, steps, operations, elements, parts, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the meaning in the context of the relevant art and are to be interpreted as ideal or overly formal in meaning unless explicitly defined in the present application Do not.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

FIG. 1 is a front view for explaining a multi-shaft stirrer equipped with a scum blade according to an embodiment of the present invention, FIG. 2 is a plan view for explaining a multi-shaft stirrer equipped with a scum blade according to an embodiment of the present invention, 3 is a cross-sectional view illustrating a deceleration unit for biaxial output according to an embodiment of the present invention.

1 to 3, a multi-shaft agitator equipped with a scum blade according to an embodiment of the present invention includes a driving unit 110, a reduction unit 120 for two-axis output, a scum blade 130, And may include an impeller 140.

The driving means 110 may be disposed outside the tank such as the reaction tank 210 or the like. For example, the driving means 110 may be a motor.

The deceleration unit for two-axis output 120 receives the rotational force of the driving unit 110 and outputs the rotational force of the driving unit 110 to at least two output units. Here, the at least two rotational forces can be decelerated and output by the two-axis output decelerating unit 120 at different rates. Also, the biaxial output reduction unit 120 may be disposed outside a tank such as a reaction tank, as in the case of the driving unit 110. [

For example, the biaxial output deceleration unit 120 may include a first deceleration means 124, a first output shaft 121, a second deceleration means 122, and a second output shaft 123 have.

The first deceleration means 124 may decelerate the rotational force of the driving means 110 to the first output shaft 121 at a predetermined ratio.

For example, the first deceleration means 124 may include a first gear 124a and a second gear 124b.

The first gear 124a may be connected to the shaft 111 of the driving means 110 so as to be rotated with the shaft 111 of the driving means 110. [

The second gear 124b may be connected to the first output shaft 121 so as to be rotated in conjunction with the first output shaft 121. [

Accordingly, the first deceleration means 124 decelerates the rotational force of the shaft 111 of the driving means 110 at a predetermined ratio according to the gear ratio of the first and second gears 124a, 124b, To the shaft (121).

The first output shaft may receive a rotational force decelerated at a predetermined ratio through the first deceleration means 124 and may transmit the rotational force to the impeller 140.

The second deceleration means 122 is connected to the first output shaft 121 to decelerate the rotational force of the first output shaft 121 at a predetermined ratio. For example, as shown in FIG. 3, the second deceleration means 122 is installed in only one of the first output shafts 121 so that the rotational force of the first output shaft 121 is decelerated by a predetermined ratio . The second deceleration means 122 may be provided on the first output shaft 121 so that the first deceleration means 122 is connected to the first output shaft 121 in a plurality of stages, The ratio may be reduced.

For example, the second deceleration means 122 may be a plurality of cyclode disks that decelerate the rotational force of the first output shaft 121 at a predetermined ratio and transmit the decelerated torque to the second output shaft 123.

Here, the configuration for decelerating the rotational force of the first output shaft 121 through the cyclode disk used as the second deceleration means 122 is the same as that of the cycloid type decelerator generally used in the power transmitting apparatus, The description is omitted.

The second output shaft 123 may be connected to the second decelerating means 122 and may transmit a rotational force decelerated at a predetermined rate to the scum blades 130 through the second decelerating means 122. More specifically, the second output shaft 123 is connected to the second deceleration means 122, and transmits a rotational force decelerated at a predetermined rate through the second deceleration means 122 to the scum blade 130 And rotates the scum blades 130.

The scum blades 130 are rotated by receiving a rotational force decelerated at a predetermined ratio from the two-axis output deceleration unit 120 to thereby remove scum floated on the surface of the mixed liquid in the reaction tank 210.

For example, the scum blade 130 may include at least one scum removing blade 131 and a first reinforcement member 132.

The scum removing wing portion 131 extends to the side of the reaction vessel 210 so that a dead space in which the scum is not removed is not formed in the reaction vessel. Further, the scum removing blade 131 is rotated by receiving one of at least two rotational forces decelerated from the two-axis output decelerating unit 120 at a predetermined ratio, It is possible to remove the scum floated on the floor. That is, the scum wing portion 131 is installed on the second output shaft 123 and rotates in conjunction with the second output shaft 123 to remove the scum floating on the water surface of the mixed liquid in the reaction tank 210 can do.

For example, the scum removing blade 131 may be disposed so as to be perpendicular to the water surface of the mixed solution in the reaction tank 210. Three or four scum removing blade portions 131 may be provided on the second output shaft 123 at regular intervals. The scum removing blade unit 131 removes the scum floated on the surface of the mixed liquid in the reaction tank 210 and forms an arc shape so as to guide the scum to the second output shaft 123 As shown in FIG. That is, the scum removing blade 131 is formed in an arc (ARC) shape and is installed on the second output shaft 123, so that the scum removing blade 131 is wound on the water surface of the mixed liquid, Removed scum is removed by the scum removing wing part 131 and is guided by the scum removing wing part 131 so that it can be more easily and quickly collected toward the second output shaft 123 side.

The first reinforcing member 132 is installed on the scum removing blade 131 to reinforce the strength of the scum removing blade 131 so that the scum removing blade 131 is rotated to remove the scum. It is possible to prevent the scum removing blade 131 from being deformed by the load applied to the scum removing blade 131. [ For example, the first reinforcement member 132 may be formed in an arc (ARC) shape so as to correspond to the scum removing wing portion 131 and may be attached to the side portion of the scum removing wing portion 131. The first reinforcing member 132 is attached to the side portion of the scum removing blade 131 so as to be positioned on the side opposite to the direction in which the scum removing blade 131 rotates, The scum removing wing portion 131 can be made to withstand the load applied to the scum removing wing portion 131 by the scum and the mixed liquid for removing the scum by rotating the removing wing portion 131, So that the removal blade 131 can be prevented from being deformed.

Meanwhile, the scum blades 130 may further include a sag preventing member 133. The deflection preventing member 133 is disposed between the biaxial output decelerating unit 120 and the scum removing wing 131 so that the scum removing wing 131 can be supported by the biaxial output reduction unit 120. [ So that the scum removing blade 131 can be prevented from sagging.

For example, the deflection preventing member 133 is connected to the support member 134 provided on the second output shaft 123 of the biaxial output reduction unit 120, and the other end is connected to the support member 134, And may be a wire connected to an end of the part 131. Here, the wire may be divided into at least two wires, and the divided wires are connected by a turnbuckle (not shown) so that the tension can be adjusted.

Further, the scum blade 130 may further include a second reinforcing member 135. The second reinforcing member 135 may be formed by connecting at least two scum removing wings 131 to the second output shaft 123 and connecting neighboring scum removing wings 131 to each other, When a scum floating on the water surface of the mixed liquid is removed using the scum removing wing portion 131 by applying tension to the removing wing portion 131, the load applied to the scum removing wing portion 131 So that the scum removing blade 131 can be prevented from being deformed.

For example, the second reinforcing member 135 may be at least one wire connecting the neighboring scum removing wings 131 to each other. Here, the wire may be divided into at least two wires, and the divided wires are connected by a turnbuckle (not shown) so that the tension can be adjusted.

Referring to FIGS. 1 to 3, a process of removing scum while stirring a mixed liquid in a reaction tank using a multi-shaft stirrer equipped with a scum blade according to an embodiment of the present invention and its operation and effect will be described.

1 to 3, in order to remove a scum while stirring a mixed liquid in a reaction tank 210 using a multi-shaft stirrer equipped with a scum blade according to an embodiment of the present invention, Lt; / RTI >

When the driving means 110 is operated, the two-axis output deceleration unit 120 connected to the driving means 110 is operated to separate the rotational force of the driving means 110 into at least two.

More specifically, when the driving means 110 is operated, the rotational force of the driving means 110 is reduced at a predetermined rate through the first deceleration means 124 connected to the shaft 111, The first output shaft 121 rotates by being transmitted to the first output shaft 121.

As the first output shaft 121 rotates, the impeller 140 installed in the first output shaft 121 is also rotated with the first output shaft 121 to stir the mixed liquid in the reaction tank.

At the same time, the rotational force of the first output shaft 121 is decelerated at a predetermined rate through the second deceleration means 122, that is, the cyclic disc, and is transmitted to the second output shaft 123 of the second output deceleration unit 120 And the second output shaft 123 is rotated.

When the second output shaft 121 rotates, the scum blade 130 installed on the second output shaft 121 is also rotated in conjunction with the second output shaft 121 so that the water surface of the mixed liquid in the reaction tank Thereby removing the scum floated on the floor.

The process of removing the scum floating on the water surface of the mixed liquid by the scum blade 130 will be described in more detail.

When the second output shaft 121 rotates, the scum removing blade 131 installed on the second output shaft 121 rotates in conjunction with the second output shaft 121. The support member 134 provided on the second output shaft 121 also rotates in conjunction with the second output shaft 121.

When the scum removing blade 131 rotates as described above, the scum floating on the water surface of the mixed liquid is removed by the scum removing blade 131, and the removed scum is removed by the scum removing blade 131. [ And is guided by the first output shaft 131 to be collected toward the second output shaft 121 side.

At this time, a sag preventing member 133 connecting the scum removing blade 131 to the support member 134 is also provided to prevent the scum removing blade 131 from sagging, 121).

As described above, in the multi-shaft mixer equipped with the scum blades according to the embodiment of the present invention, the mixed liquid is stirred by rotating the impeller 140 using only one driving means 110, and the scum blades 130 The scum floated on the water surface of the mixed liquid can be removed without using a chemical such as defoamer and the like so that water treatment efficiency can be greatly improved and environmental pollution can be minimized.

In addition, since both the impeller 140 and the scum blades 130 can be operated by operating only one driving means 110, the amount of power consumed can be greatly reduced, and the maintenance cost can be reduced, There is an advantage to be saved.

The scum removing blade 131 is formed in an arc shape to remove the scum floating on the water surface of the mixed solution by the scum removing blade 131 and the scum is removed from the scum removing blade 131) so that the scum can be removed very quickly.

The scum removing blade 131 is not only reinforced by the first reinforcing member 132 and the second reinforcing member 135 but also by the sag preventing member 133, The shape of the scum removing wing portion 131 can be adjusted by the load applied to the scum removing wing portion 131 when the scum is removed even if the end portion of the scum removing wing portion 131 is extended to the side portion of the reaction tank 210 It is possible to uniformly remove the scum over the entire reaction vessel 210 without generating any dead space.

While the present invention has been described in connection with what is presently considered to be practical and exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

110: driving means 120: deceleration unit for 2-axis output
121: first output shaft 122: second deceleration means
123: second output shaft 124: first deceleration means
130: scum blade 131: scum removing blade
132: first reinforcing member 133: deflection preventing member
134: support member 135: second reinforcing member
140: Impeller

Claims (10)

A biaxial output deceleration unit that receives the rotational force of the driving means and separates the rotational force of the driving means into at least two,
A scum blade that receives one of at least two rotational forces decelerated at a predetermined ratio after being separated from the two-axis output decelerating unit and rotates to thereby remove scum floated on the surface of the mixed liquid in the reaction tank; And
And at least one impeller for stirring the mixed liquid in the reaction tank by rotating the other one of the at least two rotational forces decelerated at a predetermined ratio from the two-axis output decelerating unit,
Wherein the scum blade is configured to extend to a side portion of the reaction tank so that a dead space in which the scum is not removed is not formed in the reaction tank and to transmit any one of at least two rotational forces decelerated at a predetermined ratio from the two- At least one scum removing blade which is rotated to remove scum floating on the water surface of the mixed solution in the reaction tank;
A first reinforcing member provided on the scum removing wing portion to reinforce the strength of the scum removing wing portion to prevent deformation of the scum removing wing portion; And
Removing the scum removing wing portion by connecting adjacent scum removing wing portions and applying tension to the scum removing wing portion so as to remove the scum floating on the water surface of the mixed solution by using the scum removing wing portion, And a second reinforcing member for preventing the scum removing blade portion from being deformed by a load applied to the scum removing blade portion. The method according to claim 1,
Wherein the biaxial output deceleration unit comprises:
First deceleration means for decelerating the rotational force of the driving means at a predetermined ratio;
A first output shaft for receiving a rotational force decelerated at a predetermined ratio through the first decelerating means and transmitting the rotational force to the impeller;
Second deceleration means connected to the first output shaft for decelerating the rotational force of the first output shaft at a predetermined ratio; And
And a second output shaft for transmitting a rotating force decelerated at a predetermined rate through the second decelerating means to the scum blades. 3. The method of claim 2,
Wherein the first deceleration means comprises:
Wherein the gear is a gear that decelerates the rotational force of the driving means at a predetermined ratio and transmits the decelerated force to the first output shaft. 3. The method of claim 2,
Wherein said second deceleration means comprises:
Wherein the first output shaft is a plurality of cyclic discs for decelerating the rotational force of the first output shaft at a predetermined ratio and transmitting the decelerated rotational force to the second output shaft. delete The method according to claim 1,
The scum-
And a deflection preventing member for preventing the scum blade from sagging by connecting the scoop blade with the 2-axis output reduction unit so that the scum removing blade can be supported by the 2-axis output reduction unit One multi-shaft agitator. delete 7. The method according to claim 1 or 6,
Wherein the second reinforcing member and the sag preventing member are adjustable in tension. The method according to claim 1,
The scum removing blade
Wherein the scum bladder is formed in an arc shape so as to remove floated scum on the surface of the mixed liquid in the reaction tank and to guide the mixed liquid to the center portion to be collected. The method according to claim 1,
The scum-
Axis direction is perpendicular to the water surface of the mixed liquid in the reaction tank.

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