JP4248101B2 - Sewage purification equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention belongs to the technical field of purification device of sewage generated at the construction site or building site.
[0002]
[Prior art]
Generally, at construction sites and the like, it is necessary to discharge accumulated rainwater, groundwater, etc., but at this time, mud and earth and sand are mixed to become sewage, and this sewage is actually discharged. In the past, sewage was discharged directly into the gutter by a submersible pump. As a result, not only does the sewage flow into the ditch and the gutter becomes dirty or clogged, but it also flows into the river and causes pollution such as river pollution, and countermeasures are required. Therefore, in recent years, an attempt has been developed in which a coagulant is mixed in sewage to precipitate a sewage-containing component as a solid, and the supernatant is discharged to collect the precipitate.
[0003]
[Problems to be solved by the invention]
However, this trial requires a lot of equipment as well as time and labor for the solidification material charging process, stirring process, and precipitation process. As a result, the processing cost is expensive and the power supply is large. There remains a problem such as the need for things, and here is the problem to be solved by the present invention.
[0004]
[Means for Solving the Problems]
The present invention has been created in view of the above circumstances and has been created for the purpose of solving these problems. The invention of claim 1 is characterized in that a coagulant is introduced into the sewage introduced into the stirring tank. In purifying the sewage by precipitating the contained components as solids and removing the precipitate to purify the sewage, the agitation tank is subjected to a submersible pump charged into the agitation tank and a sewage flow supplied from the submersible pump. A hydraulic motor to be driven, a coagulant dispenser that receives the driving force of the hydraulic motor , and throws the coagulant into the agitation tank, and returns the sewage supplied to the hydraulic motor to the agitation tank to agitate the agitation tank. And a nozzle that is configured to be configured. By doing so, the power source for charging the coagulant can be obtained from the submersible pump charged into the agitation tank, and the apparatus can be shared and simplified.
A second aspect of the present invention is the sewage purification apparatus according to the first aspect, wherein the agitation tank is agitated by a circulating sewage flow from a hydraulic motor .
The invention of claim 3 is provided with a precipitation tank according to claim 1 or 2, further comprising a settling tank for causing the wastewater containing the coagulant to flow in the stirring tank and causing the wastewater-containing component to settle into a solid substance. The sewage purification apparatus is characterized in that a secondary agitation tank is formed in the sewage inlet of the sewage, in which a sewage is agitated by the sewage flowing into the sewage and is stirred. In this case, it is possible to prevent the sewage in the settling tank from being disturbed by the flow of the sewage from the stirring tank to the settling tank using the secondary stirring tank, and to achieve good precipitation growth. Become.
According to a fourth aspect of the present invention, in the third aspect, the secondary agitation tank is formed with a return channel for returning a part of the sewage containing the sediment stored in the secondary agitation tank to the agitation tank. This is a sewage purification apparatus. By doing in this way, precipitation growth in a stirring tank can be promoted, and precipitation growth can be promoted.
The invention of claim 5 is characterized in that, in claim 4, the return flow path is configured to return the sewage in the secondary agitation tank by receiving a negative pressure by the sewage flow discharged from the hydraulic motor. It is a purification device for sewage. In such a case, the sewage in which the precipitate has grown can be returned to the agitation tank by effectively using the driving force of the submersible pump.
[0005]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings. In the drawings, 1 is a muddy water purification apparatus, and the muddy water purification apparatus 1 includes a stirring tank 2 and a settling tank 3. Agitation tank 2, water pump 4 is disposed within the tank (charged to), while, on the ceiling, hydraulic motor -5 is provided configured with an impeller 5a. The sewage inflow port 5b of the hydraulic motor 5 is connected to the submersible pump 4 through a discharge port (discharge port) 4a and a pipe 6, and the sewage flow (sewage flow) that flows in based on the driving of the submersible pump 4 is connected. ), The impeller 5a rotates and the sewage is agitated, and the agitated sewage is again discharged to the agitation tank 2 from the discharge nozzle 7 connected to the discharge port 5c. Further agitation in the agitation tank 2 is performed by the flow of discharged sewage. Further, the rotating shaft 5 d of the impeller 5 a is drawn out of the casing 5 e of the hydraulic motor 5.
[0006]
Reference numeral 8 denotes a coagulant feeding device arranged adjacent to the hydraulic motor 5, and the coagulant feeding device 8 is a coagulant (in the present embodiment, a powdery material generally commercially available). A coagulant tank 8a in which the coagulant tank 8a is stored, and a feeding body 8b composed of a rotating roller for taking out the fed coagulant and feeding it into the stirring tank 2. The rotating shaft 8c of the feeding body 8b is connected to a gear 5f engraved in a drawing portion drawn out of the casing 5e of the impeller rotating shaft 5d via an intermediate reduction gear 9. Has been. Then, the feeding body 8b rotates at a low speed in conjunction with the rotation of the impeller 5a, and the coagulant entering the feeding groove 8d engraved on the peripheral surface is linked to this and fed into the stirring tank 2. It is configured to be. Further, the coagulant tank 8a is provided with an agitator 8e for stirring the charged coagulant. The rotating shaft 8f of the agitator 8e is connected to the rotating shaft 8c of the feeding body via a chain transmission mechanism 8g. As a result, the agitator 8e is set to rotate in conjunction with the rotation of the impeller 5a. Note that the coagulant charging device 8 is provided with a shutter 8h for adjusting the input of the coagulant, and the setting is such that the coagulant can be stopped by the shutter 8h.
In addition, the stirring tank 2 is provided with an inlet 2a with a cock that is positioned higher than an overflow port 10a described later and into which sewage from a construction site or the like flows, and a discharge drain 2b on the bottom surface.
[0007]
On the other hand, the settling tank 3 is adjacent to the agitation tank 2 via a partition wall 10, but an overflow port 10 a is formed in the partition wall 10, and the coagulant in the agitation tank 2 is input from the overflow port 10 a. The treated sewage flows into the settling tank 3. The sedimentation tank 3 is formed with a secondary agitation tank 3a for receiving coagulant-containing sewage flowing from the overflow port 10a. In other words, the secondary agitation tank 3a has an effect of further promoting the precipitation growth by causing the sewage from the agitation tank 2 to flow through the overflow port 10a in a swirling state to generate a stirring flow (swirl flow) and slowly re-stirring. In addition, the coagulant-containing sewage directly flows into the settling tank 3 to prevent the sewage in the precipitation process from being disturbed (stirred). One end of the return pipe 11 is arranged. The other end of the return pipe 11 is connected to the discharge nozzle 7 in a state of receiving a negative pressure (the principle of spraying, a venturi pipe), whereby a part of the precipitate is returned to the stirring tank 2. It has become.
The sedimentation tank 3 is provided with a precipitation promoting plate 3b and a partition plate 3c, respectively, but the part partitioned by the partition plate 3c is lower than the overflow port 10a and substantially the same as the peripheral edge of the secondary stirring tank 3a. While a supernatant drainage drain 3d arranged to be located at a height is provided, a precipitation drainage 3e for draining the sediment accumulated at the bottom of the sedimentation tank 3 and a drainage of the supernatant bottom are provided on the bottom surface. An auxiliary drain 3f is provided. Further, the sediment discharge drain 3e is connected to a dehydrator 13 through a pipe 12, and here, the water contained in the sediment is dehydrated to collect the precipitate.
[0008]
In the embodiment of the present invention configured as described above, when the submersible pump 4 is driven in a state where the sewage generated at the construction site is put into the agitation tank 2, the sewage in the agitation tank 2 is driven after the hydraulic motor 5 is driven. Then, it is discharged again into the stirring tank 2. In addition, since the agitation tank 2 is agitated by receiving the water pressure of the sewage flow discharged from the nozzle 7, no special agitation means is required, and the structure can be simplified.
And in the sedimentation tank 3, a solid substance settles to the bottom side, and a supernatant liquid is discharged | emitted from a drain, and by this, the water from which the pollutant component was removed efficiently will be discharged | emitted outside, and generation | occurrence | production of pollution can be reduced. . In addition, the generated precipitate can be recovered after removing water if necessary.
[0009]
Moreover, in this device, since the drive source of the coagulant feeding device 8 for feeding the coagulant is received from the drive of the hydraulic motor 5, a drive source dedicated to the coagulant feeder is not required. In order to drive by receiving the water pressure from the pump 4, the submersible pump 4, the water pressure motor 5 and the coagulant charging device 8 are respectively operated as this device. Is operated by receiving the water pressure of the sewage flow from the submersible pump 4, so that the drive source is concentrated in one submersible pump 4 and the structure can be simplified.
[0010]
In addition, in this case, the sewage flowing down from the overflow port 10a to the settling tank 3 is supplied to the settling tank 3 after being received by the secondary agitation tank 3a. It is avoided that the solid matter (precipitate) which the inside of the sedimentation tank 3 was disturb | confused by the momentum of water, and was settled at an angle, floats up. In addition, in this case, a part of the precipitate that has flowed down to the secondary agitation tank 3a is returned to the agitation tank 2 by the return pipe 11, and the precipitate returned to the agitation tank 2 becomes a seed. By promoting precipitation generation of components contained in the sewage, the precipitation generation rate is improved, and cleaning of the supernatant discharged from the purification device 1 is promoted.
[Brief description of the drawings]
FIG. 1 is a cross-sectional front view of a sewage purification apparatus.
FIG. 2 is a plan view of main parts of a hydraulic motor and a coagulant feeding device.
FIG. 3 is a side view of a coagulant charging device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Sewage purification apparatus 2 Agitation tank 3 Precipitation tank 3a Secondary agitation tank 4 Submersible pump 5 Hydraulic motor 8 Coagulant feeder 10a Overflow port 11 Return piping

Claims (5)

When the coagulant is added to the sewage charged in the agitation tank to precipitate the sewage-containing component as a solid, and the sewage is purified by removing the precipitate, the sewage is introduced into the agitation tank. A submersible pump, a hydraulic motor driven by receiving a sewage flow supplied from the submersible pump, a coagulant feeder for receiving a driving force of the hydraulic motor to inject a coagulant into a stirring tank, and supplying the hydraulic motor A sewage purification apparatus comprising a nozzle for returning the sewage to the stirring tank and stirring the stirring tank. The sewage purification apparatus according to claim 1, wherein the agitation tank is agitated by a circulating sewage flow from a hydraulic motor .   In Claim 1 or 2, the sewage into which the coagulant | flocculant was injected | thrown-in in the stirring tank shall be equipped with the sedimentation tank for making a sewage content component solidify, and the wastewater inflow port of this sedimentation tank has the following. A sewage purification apparatus, characterized in that a secondary agitation tank is formed in which sewage is stirred by giving a stirring flow to the sewage flowing in.   4. The sewage according to claim 3, wherein the secondary agitation tank is provided with a return channel for returning a part of the sewage containing the sediment stored in the secondary agitation tank to the agitation tank. Purification equipment. 5. The sewage purification apparatus according to claim 4, wherein the return flow path is configured to receive negative pressure by the sewage flow discharged from the hydraulic motor and return the sewage in the secondary agitation tank.

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