KR100743860B1 - Skimmer mixer - Google Patents

Abstract

A scum removal type stirrer is provided to remove and exhaust floating scum out of a reactor bath while a mixing solution is stirred within the reactor bath, by installing a scum box, which is connected to a scum pump, at one side of a floating type stirrer in one body. A scum removal type stirrer(1) comprises a reactor stirring unit and a scum removing unit. The reactor stirring unit is composed of a float(10) floating on a surface of water, a stirring motor(11), a rotating shaft(12), and a stirring blade(14), a guide wall(13) having an opened lower surface. The rotating shaft and the stirring blade are wrapped by the guide wall. The scum removing unit is composed of a scum box(20), a drawn tube, a scum pump(21), and an exhaust tube. An overflow weir(22) is formed in the scum box, and the scum box encloses an outside of the float. The scum removal type stirrer further comprises a joining member for joining the scum box and the float.

Description

Scum removing type stirrer {SKIMMER MIXER}

1 is a schematic view showing an example of a stirring device and a scum removing device according to the prior art.

Figure 2 is a perspective view showing a scum removing stirrer according to the present invention.

Figure 3 is a front view showing a scum removing type stirrer according to the present invention.

Figure 4 is a plan view showing a scum removing stirrer according to the present invention.

5 is a schematic view showing a state of use of the scum removing type stirrer according to the present invention.

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

1: scum removing type stirrer 10: buoyant body (float)

11: stirring motor 12: rotating shaft

13: guide wall 14: stirring blade

20: scum box 21: scum pump

22: weir 23: drawing pipe

24: discharge pipe 30: stud bolt

31: nut 32: fixing member

The present invention is a device for removing the scum floating on the water surface while stirring the mixed liquid in the reaction tank, more specifically, scum generated at this time while inducing downflow stirring inside the reaction vessel on the upper side by the buoyancy of the buoyancy body It relates to a scum removing type stirrer configured to collect scum collected around the scum removing type stirrer according to the flow on the radial surface toward the type type stirrer and discharge it to the outside.

In general, the stirrer for agitating the mixed liquid in the reaction tank, together with the acidic device, prevents the supply of oxygen and the generation of sediment, which is required for the activating sludge microorganism in the reaction tank to oxidize the organic material and assimilate the new cells. For homogenization of

Referring to FIG. 1, the stirrer 100 is provided with a rotary shaft 110 and a stirring blade 120 rotated by a motor together with or separately from an air diffuser for supplying air into the reaction tank to vortex the reaction vessel 5. Generated and stirred in the bath mixture.

In addition, the scum removing device is a device for removing scum floating on the surface of the reaction tank, and a sludge collector which removes sludge deposited on the bottom of the reaction tank is generally installed in the settling tank to finish the aeration process. The purpose is to separate and treat the scum and sludge to the outside.

Referring to FIG. 1, as an example, the conventional scum removing device 200 forms a plurality of floating holes 220 to be floated on the water surface of the reactor 5 by buoyancy, and draws with an external pump P. It comprises a pump inlet 210 connected by a pipe 230.

However, in the related art, the stirrer 100 and the scum removing device 200 have been separately installed in the required reaction tank 5 to use the respective devices.

Therefore, in the method of treating sewage or wastewater by applying various conditions in one reactor like the SBR method, it is cumbersome to install or replace each stirrer and scum removal device, resulting in a decrease in efficiency of stirring and scum removal of the mixed solution. Since each device is installed as needed in the reaction vessel, it is impossible to manufacture a site, and there is a problem in that the cost of the entire process increases.

In addition, the conventional stirrer 100 has a problem in that the stirring blade 120 is positioned near the bottom of the reactor to form a vortex, thereby forming a dead space in the tank depending on the shape of the reactor (circular, rectangular, square). Occurred.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a scum removing stirrer capable of removing floating scum while floating on the water surface while stirring the mixed liquid inside the reaction vessel.

In addition, an object of the present invention is to provide a scum removing type stirrer capable of eliminating the unstirred dead space in the reaction tank and simultaneously increasing the stirring efficiency and the scum removing efficiency.

The scum removing type stirrer of the present invention for achieving the above object comprises an integrated reaction vessel stirring portion for stirring the mixed liquid inside the reaction vessel and a scum removing portion for removing the scum floating on the water surface of the reaction vessel.

At this time, the reaction vessel agitator is filled with a polyurethane foam (Polyurethane Foam) inside the buoyancy floating on the water surface of the reaction vessel by buoyancy, a stirring motor formed on one side of the upper portion of the buoyancy body, and the stirring motor The bottom surface is opened by a rotating shaft which is rotated by the rotational force of the buoyancy body and formed on the lower side of the buoyancy body, a stirring blade which is integrally formed at the end of the rotating shaft and rotates, and extends downward from the bottom of the buoyancy body. It consists of a guide wall formed to surround the rotating shaft and the stirring blade.

The scum removing unit includes a scum box formed on an outer circumferential surface thereof, and a suction port formed on one side of a bottom surface thereof to surround the outside of the buoyancy body, a draw tube communicating with the suction port of the scum box, and the buoyancy body. The scum pump is formed on the upper side of the scum pump to draw the scum collected in the scum box through the draw tube, and is composed of a discharge pipe connected to the scum pump to discharge the scum drawn to the outside.

In addition, the scum removing type stirrer according to the present invention is configured to include a coupling member that can be combined so that the scum box is located on the water surface by the buoyancy of the buoyancy body and adjust the height of the scum box.

The scum removing type stirrer configured as described above collects scum gathering around the scum removing type stirrer and discharges it to the outside in accordance with the flow on the radial surface toward the scum removing type stirrer while simultaneously stirring the mixed liquid in the reaction tank. Characterized in that configured.

The coupling member may include an angle at one side of which is welded to a buoyancy body to be integrated with the other side to protrude toward the scum box, and a stud bolt having a lower end penetrated through the top of the angle and welded to the inner side of the scum box. It is configured to include a nut coupled to the stud bolt, it is possible to adjust the height of the overflow wear of the scum box according to the operation of the nut and the stud bolt.

In addition, the bottom surface of the scum box, characterized in that inclined to move the scum collected to the suction port side is discharged to the outside.

In addition, the buoyancy body is configured to include an inner cylinder filled with a polyurethane foam material, the outer cylinder of stainless steel or reinforced plastic material surrounding the inner cylinder, the buoyancy body is a reaction tank surface by a wire connected to the coupling member such as an angle It is fixed at three points on the statue.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the scum removing type stirrer according to the present invention.

Figure 2 is a perspective view showing a scum removing type stirrer according to the present invention, Figure 3 is a front view showing a scum removing type stirrer according to the present invention. 4 is a plan view showing a scum removing type stirrer according to the present invention.

As shown, the scum removing type stirrer 1 according to the present invention is a buoyancy type stirrer which floats on the water surface of the reaction tank by buoyancy and stirs the mixed liquid in the tank. It consists of a scum box 20 to collect scum).

Largely, the scum removing type stirrer 1 collects the scum on the water in a state in which it is coupled to the reaction vessel agitator 2 for stirring the internal mixed solution of the reaction tank while floating on the water surface. And a scum removing unit 3 for discharging to the outside, wherein the reactor agitation unit 2 forms a buoyancy body 10 having a buoyancy to float on the water surface, and the buoyancy body 10. On one side of the) constitute a stirring motor 11, a rotating shaft 12, and a stirring blade (14).

In addition, the scum removing unit 3 is integrally coupled to the outside of the buoyancy body 10 by using the coupling member 4 so as to float on the surface of the reaction tank, the scum pump 21 for generating a scum suction force ), And comprises a scum box 20 and a drawing pipe 23, the discharge pipe 24 is coupled by the coupling member (4).

On the other hand, the buoyancy body 10 of the reaction vessel agitator 2 corresponds to the body of the scum removal type stirrer 1 according to the present invention, on the water surface of the reaction vessel by the buoyancy of the polyurethane foam filled therein It is located in a floating state.

Preferably, the buoyancy body 10 is made of an inner cylinder (10b) filled with polyurethane, the outer cylinder (10a) is a stirring motor 11 and the scum pump 21 is fixed to the upper surface integrally by a bolt or the like. It is made of stainless steel or reinforced plastic material so that it can be formed.

In addition, the stirring motor 11 of the reactor agitator 2 is coupled to a top surface of the buoyancy body 10 by a fixing member such as a bolt, and the stirring motor 11 is attached to a bottom surface of the buoyancy body 10. Is connected to the rotating shaft 12 is rotated by the rotational force of the motor, and the stirring blade 14 is coupled to the end of the rotating shaft 12 is formed. At this time, the rotating shaft 12 is connected to one side of the motor shaft of the stirring motor 11 formed on the upper surface of the buoyancy body 10 is formed to penetrate through the buoyancy body 10 and preferably the rotation shaft 12 is scum removed When the type stirrer 1 is installed in the reactor, it has a length that can be located on the upper side of the reactor.

In addition, the rotary shaft 12 is an integral stainless steel shaft is formed so that the bearing formed in the connection portion with the stirring motor 11 is not immersed in the mixed liquid of the reaction tank. In addition, the stirring blade 14 is rotated at the upper side of the reaction tank by the rotational force of the motor 11 in one body with the rotary shaft 12 so that the mixed liquid in the downward direction to form a vortex.

At this time, the bottom surface of the buoyancy body 10 is formed to extend in the downward direction of the column-shaped guide wall 13, the lower portion of the opening while surrounding the rotating shaft 12 and the stirring blade 14 formed to protrude in a downward direction. The force formed by the rotating shaft 12 and the stirring blade 14 by the guide wall 13 is converted into a force that shoots finely into the lower direction of the guide wall 13, ie, inside the reactor, and flows downward in the reactor. Allow stirring to take place.

As described above, the reaction vessel agitator 2 has a downward flow stirring in the reaction vessel, and the buoyancy body 10 has a disk shape having the same left and right thicknesses, and the guide wall 13 has a lower opening. It has a cylindrical shape.

In addition, as shown, the scum removing unit 3 is coupled to one side of the buoyancy body 10 of the stirring unit 2 by the coupling member 4, wherein the scum box of the scum removing unit 3 ( 20 is formed to surround the outside of the buoyancy body (10). Preferably, the scum box 20 is formed to be closely located along the outer surface of the buoyancy body 10, the buoyancy body 10 in the shape of the elongated "c" shaped tube is opened It has a donut shape wrapped around it. Of course, the shape of the scum box 20 can be changed according to the shape of the buoyancy body (10).

At this time, the outer circumferential surface of the scum box 20 is formed with a "W" notch-shaped overflow ware 22, the overflow ware 22 is equally even if partial blockage occurs due to the impurities floating on the water surface of the reactor. The scum which enables the overflow and floats on the water surface in accordance with the flow of the water flow in the reaction tank generated by the downflow stirring of the reactor agitator 2 is collected into the scum box 20 through the weir 22. do.

In addition, a suction port 25 is formed at one side of the bottom surface of the scum box 20 to suck and discharge scum collected into the scum box 20 to the outside. In addition, the bottom surface (B) of the scum box formed with the suction port to guide the scum collected to the suction port 25 side to facilitate discharge is formed lower than the bottom surface (A) of the other side, the height of the bottom surface and the bottom surface The scum collected into the box along the scum box bottom 28 inclined by the vehicle a is gathered to the side where the suction port 25 is formed.

The scum box 20 formed along the outer circumferential surface of the buoyancy body 10 is coupled to one side of the buoyancy body 10 by the coupling member 4, the coupling member 4 is the scum box 20 Any coupling method for tightly fixing the buoyancy body 10 may be used. For example, in the present invention, an angle 32 and a stud bolt 30 are used as the coupling member 4.

At this time, the angle 32 is one side is integrated by welding to the outer peripheral surface of the upper surface of the buoyancy body 10 and the other side is preferably protruded to a length that may include the width of the scum box (20). In addition, a portion welded to the buoyancy body 10 is welded using a plate-shaped member 32a to facilitate welding.

And, the stud bolt 30 is coupled through the upper portion of the angle 32, the lower end side penetrating the angle is integrally welded to the inner surface where the wear 22 of the scum box 20 is not formed To be combined. The stud bolt 30 is coupled to the angle 32 using a nut 31, and the scum box 20 is stud by tightening and loosening the stud bolt 30 and the nut 31. The height is adjusted while moving along the screw thread of the bolt, and thus the height of the overflow wear 22 formed on the outer surface of the scum box 20 is also adjusted up and down.

Preferably, the height of the overflow wear 22 that can be adjusted by the stud bolt 30 is formed to be 50mm adjustable up and down.

In addition, the coupling member 4 is preferably formed of a plurality of angles 32 to fit the buoyancy body shape so that the scum box 20 can be stably integrated with the buoyancy body (10).

In addition, the scum pump 21 of the scum removal unit 3 is coupled to one side of the upper surface of the buoyancy body 10 on which the stirring motor 11 is formed, such as a bolt, preferably the scum pump 21 is fluid and scum Using a strong magnetic suction pump of the suction force and the draw pipe 23 connected to the suction port 25 of the scum box 20 is configured to be connected to the discharge pipe 24 for discharging the scum to the outside. In this case, the scum pump 21 may be formed in the cover box 21a coupled to the upper surface of the buoyancy body 10 so that the pump can be stably positioned.

Therefore, the scum pump 21 draws the scum through the drawing pipe 23 to discharge the scum drawn out through the discharge pipe 24 to the outside.

In addition, the drawing pipe 23 is formed of a soft PVC transparent hose so that the movement of the scum, can be directly communicated with the suction port 25 of the scum box 20, or directly in communication with the suction port 25, if necessary The pipe pipe 26 is formed to be connected to the pipe pipe 26 can be coupled in communication using the clamp (27).

In addition, the discharge pipe 24 is formed to be in communication with the drawing pipe 23 to one side of the scum pump 21, to remove the scum sucked into the drawing pipe 23 to the outside of the reaction tank using a pump force to remove. . At this time, if necessary, the discharge pipe 24 uses the same soft transparent hose as the drawing pipe 23.

As described above, the scum removing type stirrer 1 for stirring down the mixed liquid inside the reaction tank has a weir 22 formed along the outer side of the buoyancy body 10 filled with the polyurethane foam so as to float on the water surface of the reaction tank. By including the scum box 20, it is configured to be able to remove the scum overflowed through the weir 22 while stirring the reaction tank.

In addition, the downflow type stirring generated by the rotational force of the stirring motor 11 forms a stream of water regardless of the shape of the reactor (circular, rectangular, square) to exclude the dead space of the mixed liquid agitation.

In addition, the scum removing type stirrer 1 is formed in one or a plurality according to the processing capacity of the reaction tank, by connecting a plurality of wires 40 to the buoyancy body 10 to be fixed on the surface of the reaction tank Fix it.

In this case, the wire 40 is connected to the angle 32 for coupling the buoyancy body 10 and the scum box 20, preferably the buoyancy body 10 so that three wires 40 form an equilateral triangle shape It is coupled to each of the angles of 32 to adjust the center so that the buoyancy body 10 can be fixed on the water surface of the reactor. In addition, the wire 40 includes a connecting ring 42 at a portion coupled with the angle 32 and a mooring sprung 43 at the connection point so as to be centered when the buoyancy body 10 is shaken. Form.

In addition, a pump power line 41b and a motor power line 41a are connected at one side of the wire 40 so as to supply power to the stirring motor 11 and the scum pump 21 and connected to a power source. It is configured to be.

5 is a schematic view showing a state of use of the scum removing type stirrer according to the present invention. Looking at the installation and use of the scum removing type stirrer (1) according to the present invention with reference to Figures 3 and 5 as follows.

As shown, the scum removing type stirrer 1 is fixed to one side on the water surface of the reaction tank 5 by a wire 40 connected to one side of the buoyancy body 10.

At this time, the upper surface side of the buoyancy body 10 is exposed on the water surface by the buoyancy and the rotating shaft 12, the stirring blade 14, the guide wall 13 is located in the upper liquid mixture of the reaction tank (5). . In addition, the height of the wear 22 of the scum box is positioned at the same height as the surface of the reactor 5 by adjusting the stud bolt 30 and the nut 31.

Subsequently, when the stirrer 1 is operated through the operation of a control device (not shown) outside of the reaction tank 5, the stirring shaft 11 rotates the rotating shaft 12 and the stirring blade 14 to generate stirring force. Occurs. At this time, the agitation force generated is generated by the guide wall 13 formed around the rotating shaft 12 and the stirring blades 14 to generate a downward flow stirring force to attract the mixed liquid of the upper side of the reaction tank (5) of the stirring wing (14) Due to the rotational force, the gun is blasted downward toward the bottom of the reactor.

This downflow stirring results in an improvement in turnover rate in the reactor 5 so that complete stirring is achieved without blind spots. In addition, a large amount of downflow discharge removes the intermittent flow of the mixed liquid and forms a hydraulic flow in the corner of the tank, eliminating blind spots, and reducing the frying and foaming of the mixed liquid on the surface of the water.

In this way, the flow of water in the reactor 5 leads the scum 6 to the scum box 20 while stirring the mixed liquid.

At this time, the scum 6 is collected into the scum box 20 through the overflow wear 22 and moves to the scum box bottom side where the suction port 25 is formed by the inclination of the scum box bottom surface. Then, in accordance with the operation of the scum pump 21 is sucked through the pipe pipe 26 and the drawing pipe 23 is discharged to the outside of the scum box 20, the scum 6 sucked through the discharge pipe 24 is It is discharged to the outside of the reactor (5).

As described above, the flow of the water stream formed by the mixed liquid in the reaction tank 5 generated by the stirring force of the stirring section 2 causes the scum 6 to float on the water surface of the reaction tank 5. It is collected to the surroundings, and by using the scum pump (21) force to be discharged to the outside of the reaction tank.

In addition, a plurality of scum removing stirrers 1 may be installed depending on the size and capacity of the reactor 5.

The scum removing type stirrer according to the present invention is not limited to the above-described embodiments, and may be variously modified and implemented within the range permitted by the technical idea of the present invention.

According to the scum removing type stirrer of the present invention as described above, a scum that is floating while stirring the mixed liquid in the reaction tank, including a scum box connected to the scum pump on one side of the stirrer is formed floating on the water surface of the reactor There is an effect that can be removed and discharged outside the reactor.

In addition, since the scum box is always located on the surface of the reactor by the buoyancy body and the height of the overflow wear is artificially adjustable, it is easy to collect only the scum that floats on the surface except for the mixed liquid of the reactor. Even without installing the device, scum removal efficiency is high.

In addition, regardless of the shape of the reactor can be installed by adjusting the number of the stirrer and there is an effect that the complete stirring without the dead zone inside the reactor by the downflow stirring.

Claims (5)

In the apparatus for stirring the inside of the reactor and to remove scum floating on the water surface, A buoyant body filled with polyurethane foam inside to float on the surface of the reaction tank by buoyancy, a stirring motor formed on one side of the upper side of the buoyancy body, rotated by the rotational force of the stirring motor, and below the buoyancy body. A rotating shaft formed, a stirring blade which is integrally formed at an end of the rotating shaft, and a guide wall formed so as to open a bottom in a column shape extending downward from the bottom of the buoyancy body and surrounding the rotating shaft and the stirring blade. Reactor agitated portion consisting of; Overflow wear is formed on the outer circumferential surface and the suction port is formed on one side of the bottom surface to surround the outer side of the buoyancy body, a draw tube communicating with the suction port of the scum box, and formed on the upper side of the buoyancy body and A scum pump configured to draw scum collected in the scum box through a drawing tube, and a scum pump connected to the scum pump and configured to discharge the scum drawn out to the outside; And a coupling member for coupling the scum box so that the scum box is positioned on the water surface by buoyancy of the buoyancy body and adjusting the height of the scum box; A scum removing type stirrer, configured to collect the scum collected around the scum removing type stirrer and discharge the mixed liquid in the reaction vessel at the same time as the downflow type flow toward the scum removing type stirrer . The method of claim 1, The coupling member may include an angle formed at one side to be integrated with the buoyancy body and the other side to protrude toward the scum box, and a stud bolt integrated at the lower end through the upper portion of the angle by welding with the inner surface of the scum box; A scum removing type stirrer comprising a nut coupled to a stud bolt, the height of the overflow wear of the scum box can be adjusted according to the operation of the nut and the stud bolt. The method according to claim 1 or 2, The bottom surface of the scum box, scum removal type stirrer, characterized in that inclined to move the scum collected to the inlet side discharged to the outside. The method according to claim 1 or 2, The buoyancy body is a scum removal type agitator, characterized in that it comprises an inner cylinder filled with polyurethane foam, the outer cylinder of stainless steel or reinforced plastic material surrounding the inner cylinder. The method according to claim 1 or 2, The buoyancy body is scum removed type stirrer, characterized in that the position fixed on one side on the surface of the reaction tank by a wire connected to the coupling member such as an angle.

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