KR940004102Y1 - Apparatus for waste water by biological treatment - Google Patents

Abstract

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Description

Sewage Treatment System Using Microorganisms

1 is a device diagram of the present invention.

Figure 2 is a perspective view showing an example of the process of forming the media of the present invention.

3 is a perspective view of the media.

Figure 4 is a side cross-sectional view showing the installation state of the present invention.

5 is a plan view showing a joint process of the plate member constituting the media.

6 is a partially enlarged perspective view of the media.

7 is a sectional view of the main part showing a state in which the media is coupled to the shaft.

8 is a side view showing the molding process of the media.

* Explanation of symbols for main parts of the drawings

10: drive unit 11: shaft

13: motor 20: rotating body

21: median member 22: irregularities

23: space 24: groove

30: fixing means 31: key

32 adhesive agent 33 band member

The present invention relates to a sewage treatment apparatus that is able to repeatedly remove the media in which microorganisms are inhabited in a tank through which sewage passes, to remove foreign substances of various toxic components.

In general, known sewage treatment apparatuses are generally made to filter by chemical reactions by disinfecting chemicals into a tank through which sewage passes.

However, the treatment method using this chemical requires a large amount of chemicals and requires a lot of maintenance costs.

In addition, since chemicals are dissolved in the sewage, toxic components are removed, but the quality of the sewage is deteriorated due to chemical components.

In recent years, as disclosed in Japanese Patent Application Laid-Open No. 58-8587, a sewage treatment apparatus for removing toxic components by microorganisms is known and widely used.

According to this conventional microorganism processing apparatus, the habitat member in which a microorganism can inhabit consists of the fiber body which has a minute gap.

Therefore, while the microorganisms are prevented from falling from the rotating habitat member, the microorganisms located inside the fiber are difficult to contact with the air of the atmosphere, greatly reducing the reproduction rate and losing the activity ability. However, the difficulty in formatting caused the overall loss of sewage treatment capacity.

In addition, after being deposited in the sewage is rotated again, when the most exposed to the discharge of the sewage was not easy to replace the new sewage had a disadvantage.

It is an object of the present invention to provide a sewage treatment apparatus that can remove toxic components contained in sewage by microorganisms, and increase its removal efficiency.

It is still another object of the present invention to provide a sewage treatment apparatus capable of maintaining the quality of the sewage without chemically damaging the sewage at a low maintenance cost and space.

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

The present invention is provided with a bearing (12) for rotational support at both ends of the shaft (11) positioned horizontally to the top of the water tank (15) in which the sewage flows into and out of it, and on one side of the motor (13) A drive unit 10 which causes the rotation to be decelerated by the reduction gear 14; Rotated together by the rotation of the shaft 11 of the drive unit 10 and immersed in the sewage passing through the water tank 15, or repeatedly exposed to the atmosphere and contained in the sewage by the microorganisms inhabit the medial member 21 A rotating body 20 for removing harmful components; In the case provided with a fixing means 30 for fixedly attaching the media member (21) so as not to flow to the shaft (11) of the drive unit (10); The media member 21 is formed of a synthetic resin material having a band shape having a predetermined width and having a space 23 in which the unevenness 22 is formed to cross in an oblique direction so that microorganisms can inhabit.

The driving unit 10 is a structure that transmits its power so that the rotating body 20 in which the microorganism is inhabited can be constantly rotated at a desired speed.

That is, the motor 13 which is freely supported by the bearing 12 at both ends of the shaft 11, and coupled to the shaft 11 on the one side thereof with the reducer 14, transmits power to the belt or chain during deceleration. The rotating body 20 is rotated in a state in which the rotation of the gearbox is decelerated at a constant reduction ratio by the speed reducer 14.

At this time, the motor 13 is preferably a servo motor capable of adjusting the rotation speed so as to obtain a free speed, or a variable speed driver to obtain the required rotation speed, the shaft 11 is hollow hollow Choosing the shaft of) shape is economical because it can reduce the load and maintain sufficient strength.

The rotating body 20 allows the media member 21 in a band state in which the unevenness 22 is repeated to be wound in a roll state, and into a space 23 formed by the unevenness 22. It is a microbial habitat that is rotated by the drive unit 10 to inhabit microorganisms capable of removing toxic and harmful components of sewage and to treat sewage in a sanitary and high quality state.

The rotating body 20 is a polyethylene-based synthetic resin material, and the irregularities 22 are repeatedly formed in a belt shape having a predetermined width and thickness so that the microorganisms can inhabit by the irregularities 22. ) To form.

As used herein, microorganisms have the effect of removing various harmful and toxic components contained in the microorganisms, such as NH ₃ (ammonium). Under the conditions of delivery, microorganisms remove organic matter from sewage.

Therefore, toxic and harmful components are removed from the sewage, and the result of maintaining the optimum BOD value can be obtained.

The microorganism is developed in a state and amount suitable for removing the organic substance after about one week after being introduced into the space 23, and the thickness thereof is about 1 to the surface of the media member 21. It is produced as covering the whole to a thickness of -4mm.

In addition, it can be seen that the concentration of microorganisms in this state is in the range of about 50,000-100,000 mg / L.

The rotary body 20 is installed in a plurality of stages in the shaft 11, is mounted on the upper portion of the water tank 15 through which the sewage is passed in the state of increasing the area in contact with the sewage is rotated with a constant speed, sewage It will be repeated inundation and contact with the atmosphere.

The fixing means 30 for fixing the media member 21 to the shaft 11 fixes the key 31 to the shaft 11 in the axial direction as shown in FIG. It is preferable in view of firmness that the epoxy adhesive 32 is attached to the boundary between the media member 21 and the shaft 11 to prevent slippage when the 21 is rotated and for a more complete fixing.

As shown in FIG. 2, when the metal strip 33 is wound about 1-3 times along the first media member 21 wound on the shaft 11, the media member 21 is wound in a more stable state. As shown in FIG. 7, in the process of being wound on the shaft 11, the media member made of synthetic resin is formed by repeatedly welding the welding tip 40 at regular intervals to contact the outer circumferential surface thereof. 21) is partially melted at the position where they are in contact with each other and adhesion is performed.

The metal strip 33 is preferably made of stainless steel, which does not cause corrosion, and a clamp 34 is installed at an end thereof so that the clamp 34 can be fixed by heat fusion or adhesion to the media member 21. It is preferable that the groove 24 having a small depth is formed along the circumferential direction to the position where the metal strip 33 is installed.

In addition, it is preferable that the space 23 formed by repeating the unevenness 22 can be effectively communicated from the side surface of the rotating body 20 to the inside.

5 shows that when the space 23 is formed by repeatedly winding the media member 21, the unevenness 22 is inclined, and the inclination is alternately repeated so that the space (at any position) 23) is a perspective view showing a configuration that can greatly expand the working space that can be infiltrated by microorganisms and sewage to remove toxic and harmful components.

In other words, when the concave-convex 22 direction is formed in the same shape as viewed in reverse, when the medial member 21 is overlapped by coinciding with the shape of the concave-convex 22 located on both sides in the process of winding the media member 21 There will be a case where no gap or space 23 is formed therebetween.

Therefore, as shown in the figure, the inclination directions are crossed to prevent the space 23 from being formed by overlapping.

FIG. 8 shows an embodiment of the media member 21, which is wound in a state in which two members 21 having unevenness 22 formed in different inclined directions are opposed to each other and the joints thereof are connected by welding. By doing so, the media members 21 connected to both sides as shown in FIG. 5 do not overlap, and the unevenness 22 in different directions is formed.

In addition, as shown in the above, the direction of the concave-convex 22 is different from each other, but the media member 21 made of a synthetic resin material is continuously extruded. And, in the process of forming the concave-convex 22 by the mold may have the same effect to have a predetermined pitch and different concave-convex 22 direction.

Therefore, the space 23 formed by the unevenness 22 can communicate with the inside from the outer surface, thereby increasing the surface where the microorganisms are inhabited, and securing a large area where the sewage comes into contact with the microorganisms when flooded with sewage. You can do it.

The rotating body 20 is installed in multiple stages of about 2-10 in one shaft 11 to increase the capacity of sewage can be treated in the same tank, it is usually in the range of 3-6 It is suitable for driving efficiency.

In addition, the collar 16 is installed between the rotary bodies 20 which are installed in multiple stages so as to rotate together with the shaft 11 to prevent flow in the mutual axial direction, and the cover 17 at the upper portion of the water tank 15. ), It is desirable to create a constant environmental condition regardless of climate change, and to protect the temperature and odor.

It is preferable that the fiber glass is selected for this cover 17.

4 shows a state in which the rotating body 20 is installed in the water tank 15, for example, in which the rotating body 20 is wound around the shaft 11 in a plurality of water tanks (three in the drawing). As part of the sewer is locked.

At this time, the beheading rate that the rotor 20 is immersed in the sewage is about 40% in consideration of the range and load rate of the shaft 11 is not immersed in the sewage based on the entire rotor 20.

The rotational speed of the rotating body 20 varies depending on the residence time and the amount of passage of the sewage, and the conditions such as the BOD of the suction sewage and the concentration of the suspended matter. The speed is made between 0.1-0.5M / sec.

In addition, the microbial activity conditions vary depending on the ambient temperature during operation, resulting in different effects. Typically, the temperature is not affected by the temperature within the range of 10-34 ° C, but the efficiency may be reduced at a temperature below 10 ° C. Therefore, it is desirable to maintain an appropriate temperature.

Looking at the role of the concave-convex 22 formed in the rotating body 20 having this function, it provides a surface to which microorganisms can be attached, and is rotated to contact the sewage and microorganisms, and the microorganisms are excessively attached Rotate and drop to prevent space 23 from closing.

In addition, the microorganisms separated by rotation will not be precipitated and will continue to induce mixing in the tank.

Then, in order to prevent the space 23 of the rotating body 20 from being blocked by foreign matters contained in the sewage and the like, the efficiency thereof is reduced, the filter 18 or the filter 18 has a function of the filter 18 at the inlet side of the water tank. It is good to install a so-called fine screen (FINE SCREEN), and in order to prevent the foreign material is mixed in a floating state to provide a primary sedimentation basin on the inlet side of the water tank (15) to immerse foreign matter and sand, etc. It is preferable to let the inlet into the water tank 15 in which the rotating body 20 is installed.

The present invention as described above, the first can treat the sewage with low energy consumption.

Second, it can be installed in a narrow space and can be widely used.

Third, the operation is easy and comfortable.

Fourth, since sewage is treated by reducing biological and organic pollutants, it is economical because it is easy to maintain and manage and can be operated at low maintenance costs.

Fifth, since the continuous sewage treatment is performed without chemical drugs, it is hygienic and can improve the quality of sewage, which can be widely used in petrochemical, textile, food and beverage industries, as well as in spraying water or activated sludge treatment plants.

Sixth, it is easy to discharge and inflow of sewage, so that continuous sewage replacement is made, and the treatment speed is improved, and the contact with atmospheric air is efficient, and the efficiency of the sewage treatment is greatly improved as a result of the increase of habitat rate and activity. It is an idea.

Claims (7)

Bearings 12 for rotating support are provided at both ends of the shaft 11 horizontally positioned above the water tank 15 into which the sewage flows into and discharged from the inside thereof, and at one side thereof, the speed of the motor 13 is reduced. 14 and a drive unit 10 to decelerate rotation; Rotated together by the rotation of the shaft 11 of the drive unit 10 and immersed in the sewage passing through the water tank 15, or repeatedly exposed to the atmosphere and contained in the sewage by the microorganisms inhabit the medial member 21 A rotating body 20 for removing harmful components; In the case provided with a fixing means 30 for fixing the media member (21) so as not to flow to the shaft (11) of the drive unit (10); The median member 21 is a synthetic resin material having a band shape of a predetermined width and is formed so that the unevenness 22 crosses in an oblique direction and has a space 23 in which microorganisms can inhabit. Sewage treatment equipment. The median member (21) according to claim 1, wherein the fixing means (30) fixes the key (31) in the axial direction to the shaft (11) to prevent the median member (21) from slipping. Sewage treatment apparatus using a microorganism, characterized in that for attaching the epoxy adhesive 32 to the boundary of the shaft (11). 2. The fixing means (30) according to claim 1, wherein the fixing means (30) is wound around the metal band (33) several times at the tip of the media member (21), and fixedly attached to the clamp (34) provided at the end of the metal band (33). Sewage treatment apparatus using microorganisms characterized in that. The sewage treatment apparatus using microorganisms according to claim 1, wherein the rotating body (20) is installed in a plurality of stages in series in a shaft (11) driven by being mounted on a plurality of tanks (15). The sewage treatment apparatus using microorganisms according to claim 1, wherein a cover (17) is covered with an upper portion of the water tank (15). The sewage treatment apparatus using microorganisms according to claim 1, wherein the water tank (15) is provided with a filter (18) at an inlet side of the sewage. The sewage treatment apparatus using microorganisms according to claim 1, wherein collars (16) are installed between the rotors (20) to maintain a gap between the rotors (20).