KR20160081383A - Device for reatmenting wastewater - Google Patents

Abstract

The present invention relates to an apparatus for treating wastewater which uses a conventional water treatment facility including a detritus tank and a flow adjustment tank without a structural modulation and adds a filtering body in an overflow groove of an overflow wall partitioning the detritus tank and the flow adjustment tank to adsorb and filter particulate pollutants included in detritus water of muddy water overflown from the detritus tank to the flow adjustment tank, thereby having an effect of enhancing water treatment efficiency of muddy water.

Description

{DEVICE FOR REATMENTING WASTEWATER}

The present invention relates to a water treatment apparatus, and more particularly, to a water treatment apparatus capable of improving the water treatment efficiency of polluted water by filtering particulate pollutants contained in polluted water.

As is well known, the coagulation technique makes the stable particles artificially unstable so that when the Zata Potential value is zero or smaller in the concept of colloidal particles, it is unstable so that coagulation occurs.

For the water treatment of construction wastewater generated at construction sites such as tunnel excavation and trenching, a coagulation sedimentation method using a chemical coagulant has been mainly used among the above coagulation techniques.

Generally, the particle size of pollutants in construction wastewater generated from tunnel excavation sites is more than 70% in size less than 10 ㎛, and it does not precipitate in construction wastewater in colloidal form and destroys ecosystem.

Since the particulate pollutants of the construction wastewater are similar to those used in a water treatment plant in the case of a chemical coagulation sedimentation method for treatment, a sufficient retention space must be provided in the case of the chemical coagulation sedimentation method which must be treated through a sufficient residence time, Area is required.

However, considering the wastewater treatment situation at the construction site, the installation site is small and the operation time is short.

In order to solve this problem, the effluent standards have been met through filtration methods such as pressure type filters and filter systems. However, due to irregular concentration and flow rate of sewage water, .

In addition, since the fluctuation of the influent flow rate and concentration of the construction wastewater is irregularly high, turbulence occurs in the sedimentation tank and the stable precipitation is further disturbed. As a result, stable sedimentation and dredging can not be performed. The amount of the chemical is increased and the amount of sludge generated is increased, so that the treatment is not properly performed.

Korean Registered Patent No. 10-1309775 (registered on September 11, 2013) Korean Patent Publication No. 10-2009-0117866 (Published Date November 13, 2009)

It is an object of the present invention to solve the above problems and provide a water treatment apparatus capable of improving the water treatment efficiency of polluted water by filtering particulate pollutants contained in polluted water flowing into a flow rate regulating tank through a needle set will be.

According to an aspect of the present invention, there is provided a water treatment apparatus comprising: a sedimentation tank for precipitating and separating suspended solids of high load contained in flowing sludge; And a flow rate adjustment tank for containing the sediment separation water introduced from the settling tank and adjusting the flow rate for post-treatment, wherein at least one of the at least one dwelling grooves formed at a predetermined depth on the upper side of the overflow wall, A filtration body for filtering particulate contaminants contained in the sediment separation water flowing in and flowing from the sedimentation tank through the flow rate adjustment tank through the flow channel; And at least one backwashing nozzle disposed adjacent to the filtration body in the flow rate adjusting tank for causing the filtration body to back up.

Here, the filtration body may include a porous filtration case fixed to be interchangeably inserted in the flow channel; And a filter medium accommodated in the filter case to adsorb and filter the particulate pollutants contained in the sediment separation water.

It is preferable that the case fixing groove is formed along the wall surface of the groove of the overflow wall constituting the overflow groove so that the case may be interchangeably inserted into the case.

Further, a handle ring may be further formed on the upper side of the filter case.

In addition, the filter case may be made of a corrosion-resistant metal, and the filter material may be any one selected from a palm mat, a palm mat, and a filtering geotextile.

In addition, it is preferable that the pore size of the filter material of the filter medium is within the range of 70 to 100 mu m. .

It is preferable that the height of the center of the filtration member sandwiched in the flow channel is equal to the average water level of the nitrification water flowing into the flow rate control tank overflowing through the flow channel.

In addition, it is preferable that at least two backwash nozzles are provided at predetermined intervals according to the height of the filtration body.

The backwash nozzle includes a first backwash nozzle provided so as to correspond to a lower portion of an average water level of the silt treated water flowing over the flow-through groove of the filter body and flowing into the flow rate adjusting tank; And a second backwash nozzle installed to correspond to an upper portion of an average water level of the silt treated water flowing over the flow-through grooves of the filter body and flowing into the flow rate adjusting tank.

Preferably, at least one reservoir through hole formed through the upper side of the overflow wall is formed, and the overflow hole is formed to be higher than the center height of the filter in the overflow groove.

According to the water treatment apparatus of the present invention, a conventional water treatment facility including a sludge tank and a flow rate adjusting tank is applied as it is without modification, and a filtration body is additionally provided in the overflow groove of the overflow wall to partition the tumbling tank and the flow rate adjusting tank, The present invention has an effect that the particulate pollutants contained in the sewage water flowing from the sewage tank through the flow control tank are adsorbed and filtered by the particulate pollutants contained in the sewage water, thereby more effectively treating the particulate pollutants contained in the polluted water.

In addition, according to the water treatment apparatus of the present invention, particulate pollutants contained in the sedimentation treatment water are adsorbed and filtered through the filter body to treat the particulate matter before the chemical treatment, so that the amount of chemicals used is reduced, The present invention has the effect of enabling water treatment for normal construction wastewater even if the size of the settlement area of the existing water treatment facility is reduced.

According to the water treatment apparatus of the present invention, the particulate pollutants contained in the silt treatment water flowing into the flow rate adjusting tank through the run-off grooves formed in the flood wall defining the sediment tank and the flow rate adjusting tank are filtered by the filter, The flow of the silt treated water flowing into the flow rate adjusting tank via the needle bed is more directional than that of the conventional method, so that it has some effect of preventing the settling of the contamination source by the turbulence.

In addition, according to the water treatment apparatus of the present invention, the filter media in the filter body is backwashed through the backwash nozzle, thereby increasing the filtration life of the filter medium and extending the replacement period of the filter medium.

In addition, according to the water treatment apparatus of the present invention, when the flow rate of the construction wastewater increases suddenly during the operation due to the formation of the preliminary overflow, the irrigated water treated in the settling tank through the preliminary overflow through the through- So that it is possible to prevent the construction wastewater which has not undergone the nitrification process from overflowing into the flow rate control tank as it is.

1 is a side cross-sectional view illustrating a water treatment apparatus according to an embodiment of the present invention.
2 is an enlarged partial perspective view of part II of Fig.
3 is a partial cutaway perspective view showing the filter body of FIG. 2 in an enlarged scale.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

FIG. 1 is a side sectional view showing a water treatment apparatus according to an embodiment of the present invention, and FIG. 2 is a partial perspective view showing an enlarged view of a portion II of FIG.

1 and 2, the water treatment apparatus 100 of the present embodiment includes a settling tank 110 and a flow rate adjusting tank 120 in a water treatment facility including a settling tank 110 and a flow rate adjusting tank 120 The filtration body 140 is installed in the flow channel 131 of the overflow wall 130 and the backwash nozzle 150 is further constructed to back up the filtration body 140, And to more effectively treat the particulate pollutants contained in the construction wastewater flowing into the polluted water form from the construction site.

The settling tank 110 and the flow rate adjusting tank 120 of the water treatment facility in which the water treatment apparatus 100 of the present embodiment is additionally provided are partitioned from each other by the above-described whirling wall body 130, The wall 113 serves to separate the first and second siltation processing spaces 111 and 112 into the first and second flow adjustment chambers 121 and 121 by the second intermediate wall 123, And the second flow rate adjustment space 122, as shown in Fig.

  Therefore, the construction wastewater flowing in the form of polluted water from the construction site flows into the first siltation processing space 111 of the settling tank 110, and then passes through the first through hole 114 formed in the lower portion of the first intermediate wall 113 Flows through the second silt processing space 112 through the second siltation processing space 112, thereby separating and separating high-load suspended matters such as sand.

When the sediment separation water which has been sedimented and separated by high-load suspended solids such as sand passes through the first and second siltation treatment spaces 111 and 112 of the settling tank 110 reaches a predetermined water level, Is introduced into the first flow adjustment space 121 of the flow rate regulator 120 through a flow channel 131 formed at a predetermined depth on the upper portion of the second intermediate wall body 130, And then transferred to the second flow adjustment space 122 through the second through hole 124 and transferred to the coagulating sedimentation tank through the amphibious pump 160 and the pumped water pipe 161 whose flow rate is controlled for subsequent treatment to perform coagulation sedimentation process using a chemical coagulant Let's go.

The filtering bodies 140 are inserted and fixed into at least one or more than one throughflow grooves 131 formed in the overflow wall 130 so as to be introduced into the flow rate adjusting vessel 120 from the settling vessel 120 through the overflowing grooves 131 The particulate pollutants contained in the sediment separation water are adsorbed and filtered.

3 is a partial cutaway perspective view showing the filter body of FIG. 2 in an enlarged scale.

As shown in Fig. 3, the filtration body 140 includes a filtration body case 141, which is interposed and fixed in a sweeping groove 131, and a particulate contamination And a filter medium 145 for adsorbing and filtering the substances.

On the other hand, the filtration case 141 is made of metal or porous plate having corrosion resistance such as stainless steel, and has a rectangular housing shape having a storage space for accommodating the filtration task 145 interchangeably therein ≪ / RTI >

Particularly, in this embodiment, the rectangular case-shaped projecting case 141 is slidably fitted and fixed to the case fixing groove 141 along the wall surface of the groove portion of the side wall 130, (135) are formed.

However, the present invention is not limited to this. The particulate pollutants contained in the sediment separation water flowing from the sedimentation tank 110 to the flow rate adjustment tank 120 through the flood grooves 131 of the above- The filter body 140 is replaceably inserted into the louver groove 131 using a bolt, a fastener such as a nut or a screw, or the like so long as the filter body 145 accommodated in the body 140 can be adsorbed and filtered It is of course possible to fasten and secure.

On the other hand, a handle ring 142 is further formed on the upper portion of the housing case 141 so that the handle ring 142 can be fitted and detached easily and easily in the sliding groove 131 in a sliding manner along the case fixing groove 132 More desirable.

The filter medium 1450 housed in the filter case 141 may be formed of any one selected from a palm mat, a palm mat, and a filtration geotextile.

Here, the geotextile for filtration is a synthetic fiber such as woven geotextile, nonwoven geotextile or polypropylene, polyester, polyethylene, polyacrynitril, nylon and the like Lt; / RTI >

The size of the gap formed by the filter material 145 may be set so that the particulate contaminants contained in the sediment separation water flowing from the needle set tank 110 to the flow rate adjustment tank 120 can be adsorbed and filtered Preferably within a range of about 70 μm to 100 μm.

On the other hand, the filtration mechanism of the particulate pollutant through the filtering unit 145 is effective in a filter effect for filtering the particulate pollutants through the filter medium 145 and an adsorption effect for adsorbing the particulate pollutants between the pores of the filter medium .

The filtration body 140 is floated through the flow-through groove 131 and is only about half of the average water level of the sediment separation water flowing into the flow rate regulator 120. In this state, particulate pollutants contained in the filtration body 140 are adsorbed and filtered It is preferable to make it possible.

Therefore, even if a portion of the filtration body 140 that is half as high as the height of the filtration body 140 is clogged due to the particulate pollutants filtered, the level of the sedimentation separation water is increased and the particulate contaminants are adsorbed and filtered through the upper half portion of the filtration body, Thereby making it possible to more reliably operate the equipment for the construction wastewater.

1 and 2, the backwash nozzle 150 is installed adjacent to one side of the filtration body 140 in the flow rate regulator 120, Air is allowed to diffuse and the filter body 140 is washed back.

It is preferable that the backwashing nozzles 150 are spaced apart from each other at predetermined intervals along the height direction of the filtration body 140 that is fitted and fixed in the flow channel 131.

In the present embodiment, two backwash nozzles 150 are provided at intervals along the height direction of the filtration body 140, and the first backwash nozzles 152 located on the lower side are disposed below the average water level of the overflowing sedimentation water And the second backwash nozzle 151 positioned at the upper side is installed at a height equal to or higher than the average level of the sediment separation water overflowing.

Accordingly, even if the particulate pollutants contained in the filtrate are swept by the particulate pollutants in the process of adsorbing and filtering the particulate pollutants contained therein, the backwash nozzles 151 and 152 So that the filtration member 145 constituting the filtration member 140 can have a longer filtration life and the replacement period of the filtration member 140 can be extended. .

At least one or more spare overflow holes (155) formed through the upper side may be further formed on the overflow wall (130). Here, it is preferable that the preparatory overflow hole 155 is formed to be higher than the center portion height of the filtration body 140 installed in the flow channel groove 131.

Therefore, when the inflow rate of the construction wastewater increases suddenly during the operation, the inflow amount of the particulate pollutant to be filtered through the filtration body 140 increases, and even if the filtration body 140 is clogged, The sedimentation treated water in the sedimentation tank 110 is overflowed by the flow amount adjustment tank 120 so that the construction waste water containing the heavy suspended suspended solids in the sedimentation tank 110, So that it can be prevented from overflowing.

According to the water treatment apparatus of the present invention as described above, the conventional water treatment facility including the settling tank 110 and the flow rate adjusting tank 120 is used as it is without modification, and the settling tank 110 and the flow rate adjusting tank 120 are partitioned The filtration body 140 is additionally provided in the flood channel 131 of the floating wall 130 so that the particulate contaminants contained in the flood control water flowing from the needle settlement vessel 110 to the flow rate control tank 120 are adsorbed and filtered So that the particulate pollutants contained in the construction wastewater can be treated more effectively.

In addition, since the particulate pollutants can be treated before the chemical treatment, the amount of chemicals used can be reduced to reduce the occurrence of sludge, and the water treatment can be performed even if the size of the existing gypsum is reduced.

A flow channel 131 is formed in the wall 130 for partitioning the settling tank 110 and the flow rate adjusting tank 120 and the flow rate of the particulate contamination contained in the nitrate treated water flowing into the flow rate adjusting tank 120 The flow of the nitrification treatment water flowing into the flow rate regulator 120 via the settling tank 110 is more directional than that of the conventional method, It is possible to prevent the settling of the pollution source from being partially prevented.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the spirit and scope of the invention. And it goes without saying that they belong to the scope of the present invention.

100: water treatment device 110:
111: first smell processing space 112: second smell processing space
113: first intermediate wall 114: first through hole
120: flow rate adjusting tank 121: first flow rate adjusting space
122: second flow adjustment space 123: second intermediate wall
124: second through hole 130: overflow wall
131: Floating groove 132: Case fixing groove
135: Reservoir overflow hole 140: Filter body
141: Filter case 142: Handle ring
145: filter medium 150: backwash nozzle
152: first backwash nozzle 151: second backwash nozzle
160: Pumping water pump 161: Pumping water

Claims (10)

A sedimentation tank for sedimenting and separating the heavy load suspended in the incoming sluices; And
And a flow rate adjustment tank for containing the sediment separation water introduced from the settling tank and adjusting the flow rate for post-

Wherein the sedimentation tank and the flow regulating tank are respectively inserted and fixed in at least one or more one or more float grooves formed at a predetermined depth on the upper side of the float wall separating the sediment tank and the flow rate adjusting tank, A filtration member for filtering particulate pollutants contained in the filtrate; And
And at least one backwash nozzle disposed adjacent to the filtration body in the flow rate adjusting tank for causing the filtration body to back up.
The method of claim 1,
The filtration body,
A multi-hole type filter case interchangeably fitted in and fixed in the above-mentioned flow channel; And
And a filter medium accommodated in the filter case and adsorbing and filtering the particulate pollutants contained in the sediment separation water.
; 3. The method of claim 2,
Wherein a case fixing groove is formed along a wall surface of a groove portion of the overflow wall forming the overflow groove so that the overflow case is interchangeably fitted in a sliding manner.
4. The method of claim 3,
And a handle ring is formed on the upper side of the filter body case.
3. The method of claim 2,
Wherein the filter case is made of a corrosion resistant metal material,
Wherein the filter medium comprises any one selected from the group consisting of a palm mat, a palm mat, and a filtering geotextile.
The method of claim 5,
Wherein the filter material pore size of the filter material is within a range of 70 μm to 100 μm.
3. The method of claim 2,
Wherein a height of a central portion of the filtration body sandwiched in the flow channel is swollen through the flow channel to correspond to an average water level of the flocculation treated water flowing into the flow rate control tank.
3. The method of claim 2,
The backwash nozzle
Wherein at least two water filters are installed at predetermined intervals according to a height of the filtration body.
3. The method of claim 2,
The backwash nozzle
A first backwash nozzle provided so as to correspond to a lower portion of an average water level of the silt treated water flowing over the flow-through groove of the filter body and flowing into the flow rate adjusting tank; And
And a second backwash nozzle provided so as to correspond to an upper portion of an average water level of the silt treated water flowing over the flow-through groove of the filtration body and flowing into the flow rate adjusting tank.
The method of claim 1,
At least one reservoir through-hole formed through the upper side of the above-mentioned overflow wall,

The above-
Wherein the height of the central portion of the filtration body is higher than the height of the central portion of the filtration body.

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