KR101185252B1 - Paddle device for treating waste water - Google Patents

Abstract

The present invention relates to a paddle apparatus for water treatment, the rotary shaft 11 is rotated by a drive source, the supply passage 13 is formed therein to move the medicine along the longitudinal direction therein; And a paddle 19 coupled to the rotation shaft 11 perpendicularly to each other, the guide passage 21 and the discharge hole 23 having a plurality of rows communicating with the supply passage 13.
The present invention directly injects the chemical (coagulant) from the paddle to the wastewater, but the same amount of chemical is injected per unit amount according to the amount of wastewater colliding with the rotation of the paddle, so that the dispersion of the chemical is fast and the flocculation efficiency is high. have.

Description

Paddle device for treating waste water

The present invention relates to a paddle apparatus for water treatment, and more particularly, to a paddle apparatus for water treatment used to improve the flocculation efficiency in wastewater treatment.

Industrial wastewater and various wastewaters contain various pollutants, and the amount of pollutants contained in the wastewater is increasing due to industrial development.

Biological and physicochemical methods are used to remove contaminants in the wastewater.

Biological method is to remove contaminants by withdrawing sludge through release and absorption of contaminants while moving between anaerobic and aerobic states, and physicochemical method is to remove contaminants using flocculation sedimentation. .

An object of the present invention is to provide a paddle apparatus for water treatment configured to be able to inject a chemical (coagulant) directly from the paddle to the waste water in order to increase the flocculation efficiency of the flocculation tank when using the flocculation sedimentation method.

According to a feature of the present invention for achieving the object as described above, the present invention includes a rotation shaft which is rotated by a drive source, the supply passage for moving the drug in the longitudinal direction therein; And a paddle coupled to the rotation axis perpendicular to the rotation shaft and having a plurality of rows of guide passages and discharge holes communicating with the supply passages.

The paddle is straight with two wings.

The guide passage is formed such that the medicine supplied through the supply passage moves in a straight line toward each end from the center of the paddle.

The discharge hole is uniformly arranged at regular intervals along the guide passage.

The discharge hole is formed on the opposite side of the direction in which the paddle rotates.

The drive source is a drive motor coupled to the rotary shaft and rotates the rotary shaft as an external power source is applied.

Further comprising an input amount adjusting means for adjusting the input amount of the chemical to the rotating shaft, the input amount adjusting means is a control valve disposed on one side of the rotating shaft to control the opening and closing of the supply flow path.

The drug includes one or more selected from flocculants and flocculent aids.

The present invention directly injects the drug (coagulant) from the paddle to the wastewater, the drug is injected equally per unit amount according to the amount of wastewater collided while the paddle rotates.

Therefore, since the dispersion of the drug is fast and shows a high flocculation efficiency of the floc, there is an effect of increasing the efficiency of the flocculation process.

In particular, the present invention can be applied to any stirring process by replacing only the rotating shaft and the paddle has a useful effect that can effectively flocculate flocculation precipitation by quickly dispersing the chemical without additional equipment modification.

1 is a configuration diagram applied to a preferred embodiment of the paddle apparatus for water treatment according to the present invention.
2 is a perspective view of a paddle apparatus for water treatment according to the present invention.
Figure 3 is a bottom view showing a state of use of the paddle apparatus for water treatment according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Water treatment paddle device (hereinafter referred to as 'paddle device') 10 of the present invention, as shown in Figure 1, the supply flow path 13 is rotated by a drive source and the medicine is moved along the longitudinal direction therein And a paddle 19 having a plurality of rows of guide passages 21 and discharge holes 23 coupled to the rotation shaft 11 and vertically coupled to the rotary shaft 11.

Paddle (Paddle) device is configured to inject the chemical directly into the fluid from the paddle at the same time stirring. The case where the fluid is waste water will be described as an example.

Drugs are liquid coagulants and coagulants that are added to waste water for water treatment.

Coagulants and coagulants are injected into the wastewater and used to flocculate between flocs. The flocculent aid forms flocs with high strength in the flocculation process to create an optimal flocculation state. Using a coagulant and a coagulant in parallel reduces the amount of coagulant used.

Coagulation process injecting coagulant and coagulant aid is divided into rapid stirring, slow stirring, and precipitation process. Rapid stirring hydrates the flocculant to produce colloidal material as flocs, and slow stirring causes the flocks produced by rapid stirring to grow into large flocs that can be precipitated. The grown flocs are precipitated and removed in the precipitation process.

In the coagulation process, increasing the dispersing force of the drug during the injection of the drug, the coagulation proceeds in a fast time, which reduces the size of the reaction, thereby increasing the coagulation efficiency.

Inject the chemical directly from the paddle into the wastewater to achieve optimal coagulation efficiency. When the medicine is directly injected from the paddle into the wastewater, the medicine is injected at the same time as the stirring, so that the dispersion of the medicine is quick and the mixing of the medicine is made well.

To this end, a paddle device has been proposed which allows the injection of chemicals directly from the paddle into the fluid at the same time as stirring.

Specifically, as shown in FIG. 2, the rotation shaft 11 is formed in a substantially cylindrical shape and a supply passage 13 through which the medicine is moved along the longitudinal direction is formed therein. The supply passage 13 is connected to the drug storage tank, one end of which is not shown, and the other end thereof is connected to the guide passage 21 of the paddle 19 to be described below to supply the medicine to the guide passage 21.

Input amount adjusting means for adjusting the input amount of the chemical to the rotary shaft 11 is provided. The input amount adjusting means is a control valve 15 disposed on one side of the rotary shaft 11 to control the opening and closing of the supply passage 13.

The paddle 19 is fixedly coupled to the other end of the rotation shaft 11 and rotated through the rotation shaft 11. The driving source for rotating the rotating shaft 11 is a driving motor 17 coupled to the rotating shaft 11 and rotating the rotating shaft 11 as an external power source is applied.

The paddle 19 may be screwed to the rotary shaft 11 or may be integrally formed with the rotary shaft 11.

When the paddle 19 is screwed to the rotary shaft 11, a screw thread (not shown) is formed on the outer circumferential surface of the other end of the rotary shaft 11, and on the inner circumferential surface of the corresponding guide passage 21 of the paddle 19. A thread is formed to allow the paddle 19 to be fixedly coupled to the other end of the rotation shaft 11. Of course, for ease of maintenance and replacement, the paddle and the rotating shaft is preferably configured to be separated.

Paddle 19 employs a two-blade straight. The straight type has less interference with the wing when injecting the medicine compared to the paddle with three wings, so the dispersion of the drug is faster. However, if desired, paddles with three or more wings may be employed.

The length of the paddle 19 is preferably 30 to 50% of the diameter of the reactor for improving agitation force, and the position where the paddle 19 is disposed is spaced apart by the diameter of the paddle 19 to the top of the bottom of the coagulation tank 1. It is preferable to arrange.

The guide passage 21 is formed in the paddle 19 so as to communicate with the supply passage 13 of the rotation shaft 11. The guide passage 21 is formed in a plurality of rows such that the medicine supplied through the supply passage 13 moves in a straight line from the center of the paddle 19 toward each end.

Each guide passage 21 is formed with a plurality of discharge holes 23. The chemical is injected into the wastewater through the discharge hole 23. The discharge hole 23 is uniformly arranged at regular intervals along the guide passage. This allows the medicine to be injected equally per unit volume depending on the amount of wastewater collided as the paddle 19 rotates. For this effect, the size of the discharge hole 23 is formed the same.

That is, a plurality of discharge holes 23 are formed along the guide passage 21, so that the size of the discharge hole 23 is formed to be the same to obtain a fast dispersing effect of the drug.

The principle is that the farther away from the central axis of rotation (11), the centrifugal force applied to the discharge hole (23) increases, so that a large amount of chemical is injected into the wastewater, and the closer to the rotation axis (11), the smallest amount of chemical into the wastewater. In the same way, the medicine is injected into the waste water per unit quantity.

In addition, the discharge hole 23 is formed on the opposite side of the direction in which the paddle 19 is rotated. This allows the medicine to be smoothly injected into the waste water by the rotation of the paddle 19.

If the discharge hole 23 is formed on the surface corresponding to the direction in which the paddle 19 is rotated, the injected chemicals interfere with the paddle 23, it is difficult to smoothly injected into the waste water.

In another embodiment, the paddle 19 may be inclined. In this case, the effluent can be axially flowed to speed up chemical dispersion.

Hereinafter, the operation of the present invention will be described.

When the paddle apparatus 10 is immersed in the wastewater during the water treatment and rotated in the direction of the arrow, as shown in FIG. 3, as the distance from the rotation shaft 11 increases, the centrifugal force applied to the discharge hole 23 increases, thereby increasing the amount of The drug (coagulant) is injected into the waste water, and the closer to the rotary shaft 11, the smallest amount of drug is injected into the waste water.

In other words, the drug is injected equally per unit volume by the negative pressure. Negative pressure means negative pressure.

At this time, the chemical is supplied to each guide flow path 21 of the paddle 19 through the supply flow passage 13 of the rotary shaft 11, it is injected directly into the waste water through the discharge hole (23) of the guide flow passage (21). The supply amount of the chemical is possible by opening or closing the control valve 15 disposed on one side of the rotary shaft 11 or adjusting the opening and closing degree.

As a result, the paddle 19 can be injected in the same amount per unit according to the amount of waste water collided while rotating. This allows the drug to disperse quickly, increasing the efficiency of the flocculation process.

In other words, as the drug is injected in the same amount per unit, the dispersal of the drug is fast, and thus the process of generating colloidal material into flocs and growing the flocs into large flocs that can be precipitated is fast. If this process is fast, the cohesion efficiency will increase.

At this time, the paddle 19 is disposed at a position spaced apart by the diameter of the paddle 19 to the top of the bottom of the flocculation tank 1 so that the stirring efficiency is also an optimum condition.

As described above, the present embodiment directly injects a chemical (coagulant) from the paddle into the wastewater, but injects the chemical per unit amount according to the amount of wastewater colliding with the rotation of the paddle, so that the dispersion of the chemical is fast and the flocculation efficiency is high. Seems.

In addition, the present embodiment can be applied to all the stirring process by replacing only the rotating shaft and the paddle, it is possible to effectively flocculate flocculation precipitation by quickly dispersing the chemical without additional equipment modification.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art in light of the above teachings. will be.

1: flocculation tank 10: paddle device
11: rotary shaft 13: supply flow path
15: regulating valve 17: drive motor
19: Paddle 21: Guide Euro
23: discharge ball

Claims (8)

A rotating shaft rotated by the drive source and having a supply flow path therein for moving the medicine along the longitudinal direction;
A paddle coupled to the rotation axis perpendicular to the rotation shaft and having a plurality of rows of guide passages and discharge holes communicating with the supply passages;
The discharge hole is paddle apparatus for water treatment, characterized in that formed on the opposite surface of the direction in which the paddle rotates. The method according to claim 1,
The paddle paddle apparatus for water treatment, characterized in that the two blades are straight. The method according to claim 1,
The guide passage is a paddle apparatus for water treatment, characterized in that the medicine supplied through the supply passage is formed to move in a straight line toward each end from the center of the paddle. The method according to claim 1,
The discharge hole is paddle apparatus for water treatment, characterized in that uniformly spaced along the guide passage. delete The method according to claim 1,
The drive source is a paddle apparatus for water treatment, characterized in that the drive motor is coupled to the rotary shaft and the external shaft is applied to rotate the rotary shaft. The method according to claim 1,
Further comprising a dose adjustment means for adjusting the dose of the chemical to the rotating shaft,
The input amount adjusting means is a paddle device for water treatment, characterized in that the control valve is arranged on one side of the rotary shaft to control the opening and closing of the supply flow path. The method according to claim 1,
The drug is a paddle apparatus for water treatment, characterized in that it comprises at least one selected from flocculants, flocculating aids.

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