CN204661493U - A kind of scenery molding Sewage treatment systems - Google Patents

Abstract

The utility model provides a kind of scenery molding Sewage treatment systems, comprise equalizing tank connected successively, SBR pond, coagulation basin, denitrification filter pool, dephosphorization pond, water reservoir, described dephosphorization pond comprises pond body, filtrate supporting layer, dephosphorization filtrate, the bottom of described pond body is provided with water-in to make water (flow) direction in described dephosphorization pond from bottom to top, and described dephosphorization pond is placed in described water reservoir and inclines from dephosphorization pond the fountain scene to form water.Dephosphorization pond is located in water reservoir, and the water in dephosphorization pond goes out to run down into water reservoir to be formed gush view from updip, this Sewage treatment systems can not only be disposed of sewage, also become place's view, coordinate mutually with the surrounding enviroment in living quarters, be convenient to people and carry out living, lying fallow.

Description

A kind of scenery molding Sewage treatment systems

Technical field

The utility model relates to sewage treatment area, specifically a kind of scenery molding Sewage treatment systems.

Background technology

Along with fast development and the growth in the living standard of economic society, the comfort level of people to living environment has had higher requirement, sewage work runs as sewage treatment facility, require also more and more higher, sewage treatment facility needs improvement badly to the impact that surrounding enviroment cause.Therefore the objective of the struggle that a kind of " leisure landscape style " sewage treatment process realizing the unification of sewage disposal and landscape ecological construction becomes sewage disposal technology personnel is developed.

Utility model content

The technical problems to be solved in the utility model is, a kind of scenery molding Sewage treatment systems is provided, comprise equalizing tank connected successively, SBR pond, coagulation basin, denitrification filter pool, dephosphorization pond, water reservoir, described dephosphorization pond comprises pond body, filtrate supporting layer, dephosphorization filtrate, the bottom of described pond body is provided with water-in to make water (flow) direction in described dephosphorization pond from bottom to top, and described dephosphorization pond is placed in described water reservoir and inclines from dephosphorization pond the fountain scene to form water.Dephosphorization pond is located in water reservoir, and the water in dephosphorization pond goes out to run down into water reservoir to be formed gush view from updip, this Sewage treatment systems can not only be disposed of sewage, also become place's view, coordinate mutually with the surrounding enviroment in living quarters, be convenient to people and carry out living, lying fallow.

In order to reach above-mentioned technique effect, the concrete technical scheme that the utility model provides is:

A kind of scenery molding Sewage treatment systems, comprise equalizing tank connected successively, SBR pond, coagulation basin, denitrification filter pool, dephosphorization pond, water reservoir, described SBR pond comprises reaction tank, triphase separator, and the middle part that described triphase separator is placed in described reaction tank is with the described triphase separator making the mixed solution of described reaction tank enter middle part from periphery; Agitator is provided with in described coagulation basin; Be provided with in described denitrification filter pool and denitrogenate filtrate; Described dephosphorization pond is placed in described water reservoir, and described dephosphorization pond comprises pond body, filtrate supporting layer, dephosphorization filtrate, and the bottom of described pond body is provided with water-in to make water (flow) direction in described dephosphorization pond from bottom to top, to incline the gush view to form water from dephosphorization pond.

Preferred as such scheme, also comprises back-purge system, comprises connected water pump, syringe pipe; Be provided with denuded zone bottom described denitrification filter pool, described denuded zone is provided with supporting plate with holes, described in denitrogenate filler and be located on described supporting plate with holes, described syringe pipe is located in described denuded zone and towards described supporting plate, described water pump is also connected with described water reservoir.

Preferred as such scheme, the bottom of described denuded zone is provided with blow-off pipe.

Preferred as such scheme, described dephosphorization filtrate is the mixture of flyash and zeolite.

Preferred as such scheme, be also provided with inverted filter in described dephosphorization pond, described inverted filter is placed between described filtrate supporting layer and dephosphorization filtrate.

Preferred as such scheme, described triphase separator comprises cylindrical shell, cone bucket, taper slip plate, and described cone bucket is relative with the cone point of taper slip plate, described bore to struggle against be arranged at the middle part of described cylindrical shell, described cone bucket and described cylindrical shell form filtrating area; Described taper slip plate is arranged at the bottom of described cylindrical shell, described taper slip plate and described cylindrical shell, bores bucket shape and becomes gas-liquid-solid disengaging zone; Described cone bucket has gap and described filtrating area is connected with gas-liquid-solid disengaging zone; The barrel of the cylindrical shell of described gas-liquid-solid disengaging zone is provided with water-in, venting port, and described water-in is lower than described venting port.

Preferred as such scheme, described water-in is evenly equipped with multiple in the circumference of described barrel, and described venting port is evenly equipped with multiple in the circumference of described barrel.

Accompanying drawing explanation

Fig. 1 is the general frame schematic diagram of a kind of scenery molding Sewage treatment systems that the utility model provides;

Fig. 2 is the structural representation that dephosphorization pond is placed in water reservoir;

Fig. 3 is the structural representation of denitrification filter pool;

Fig. 4 is the structural representation of triphase separator in SBR pond.

Embodiment

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the utility model, and can not being interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", " end " " interior ", " outward " they be based on orientation shown in the drawings or position relationship; be only the utility model and simplified characterization for convenience of description; instead of instruction or imply the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " setting " should be interpreted broadly, and such as, can be fixedly linked, arrange, also can be removably connect, arrange, or connect integratedly, arrange.For the ordinary skill in the art, particular case the concrete meaning of above-mentioned term in the utility model can be understood.

As shown in Figure 1 and Figure 2, the utility model provides a kind of scenery molding Sewage treatment systems, comprise equalizing tank 1 connected successively, SBR pond 2, coagulation basin 3, denitrification filter pool 4, dephosphorization pond 5, water reservoir 6, described SBR pond 2 comprises reaction tank 201, triphase separator 202, and the middle part that described triphase separator 202 is placed in described reaction tank is with the described triphase separator making the mixed solution of described reaction tank enter middle part from periphery; Agitator is provided with in described coagulation basin; Be provided with in described denitrification filter pool 4 and denitrogenate filtrate 401; Described dephosphorization pond 5 comprises pond body 501, filtrate supporting layer 502, dephosphorization filtrate 503, the bottom of described pond body 501 is provided with water-in 7 to make water (flow) direction in described dephosphorization pond from bottom to top, and described dephosphorization pond 5 is placed in described water reservoir 6 and inclines from dephosphorization pond the gush scene to form water.

The principle of work of a kind of scenery molding Sewage treatment systems that the utility model provides is: the water in equalizing tank enters SBR pond, sewage enters the dirt of SBR pond to carry out reacting and then carries out being separated and precipitating thus the water be purified from individual enclosing in the triphase separator entered SBR pond, water through purification enters coagulating sedimentation in coagulation basin thus purifies further, the water flowed out in coagulation basin enters denitrification filter pool and denitrogenates, then enter after carrying out dephosphorization in dephosphorization pond and complete sewage disposal, water in dephosphorization pond enters from top out by bottom, from top, water out inclines to enter water reservoir and form gush view.

Further, as shown in Figure 3, also comprise back-purge system, comprise connected water pump 8, syringe pipe 9; Denuded zone 10 is provided with bottom described denitrification filter pool, described denuded zone is provided with supporting plate 11 with holes, described filler 401 of denitrogenating is located on described supporting plate 11 with holes, and described syringe pipe is located in described denuded zone and towards described supporting plate, described water pump 8 is also connected with described water reservoir 6.Back-purge system can carry out routine cleaning to denitrogenating filler, prevents filler from blocking.

Further, the bottom of described denuded zone is provided with blow-off pipe 12.Discharged by blow-off pipe when depositing impurity in denuded zone.

Further, described dephosphorization filtrate is the mixture of flyash and zeolite.Zeolite cost is higher, is mixed with the cost that certain flyash effectively can reduce dephosphorization filtrate.

Further, be also provided with inverted filter 504 in described dephosphorization pond 5, described inverted filter is placed between described filtrate supporting layer and dephosphorization filtrate.Inverted filter can prevent dephosphorization filter clogging.

Further, as shown in Figure 4, described triphase separator 202 comprises cylindrical shell 2021, cone bucket 2022, taper slip plate 2023, and described cone bucket is relative with the cone point of taper slip plate, described cone bucket is arranged at the middle part of described cylindrical shell, and described cone bucket and described cylindrical shell form filtrating area A; Described taper slip plate is arranged at the bottom of described cylindrical shell, described taper slip plate and described cylindrical shell, bores bucket shape and becomes gas-liquid-solid disengaging zone B; Described cone bucket has gap 13 and described filtrating area A is connected with gas-liquid-solid disengaging zone B; The barrel of the cylindrical shell of described gas-liquid-solid disengaging zone is provided with water-in 14, venting port 15, and described water-in is lower than described venting port.Sewage enters gas-liquid-solid disengaging zone from water-in, and gas is discharged by venting port along the guiding of the sidewall of cone bucket; The sidewall that mud sinks to taper slip plate due to self gravitation effect slides back to water-in recycling up and down; Enter filtrating area through the water of gas solid separation by the gap of boring bucket to filter.

Further, described water-in is evenly equipped with multiple in the circumference of described barrel, and described venting port is evenly equipped with multiple in the circumference of described barrel.Multiple water-in can make the mixture in SBR pond enter triphase separator more rapidly, accelerates reaction process; Multiple venting port makes the gas in gas-liquid-solid disengaging zone more promptly dissolve in SBR pond again, improves the efficiency of reacting again.

Although illustrate and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present utility model and aim, scope of the present utility model is by claim and equivalents thereof.

Claims (7)

1. a scenery molding Sewage treatment systems, it is characterized in that, comprise equalizing tank connected successively, Continuous Flow SBR pond, coagulation basin, denitrification filter pool, dephosphorization pond, water reservoir, described Continuous Flow SBR pond comprises reaction tank, triphase separator, and the middle part that described triphase separator is placed in described reaction tank is with the described triphase separator making the mixed solution of described reaction tank enter middle part from periphery; Agitator is provided with in described coagulation basin; Described dephosphorization pond is placed in described water reservoir, and described dephosphorization pond comprises pond body, filtrate supporting layer, dephosphorization filtrate, and the bottom of described pond body is provided with water-in to make water (flow) direction in described dephosphorization pond from bottom to top.

2. scenery molding Sewage treatment systems according to claim 1, is characterized in that, also comprise back-purge system, comprises connected water pump, syringe pipe; Be provided with clear water zone bottom described denitrification filter pool, described clear water zone is provided with supporting plate with holes, and described filtrate is located on described supporting plate with holes, and described syringe pipe is located in described clear water zone and towards described supporting plate, described water pump is also connected with described water reservoir.

3. scenery molding Sewage treatment systems according to claim 2, is characterized in that, the bottom of described clear water zone is provided with blow-off pipe.

4. the scenery molding Sewage treatment systems according to any one of claim 1-3, is characterized in that, described dephosphorization filtrate is the mixture of flyash and zeolite.

5. scenery molding Sewage treatment systems according to claim 4, is characterized in that, is also provided with inverted filter in described dephosphorization pond, and described inverted filter is placed between described filtrate supporting layer and dephosphorization filtrate.

6. scenery molding Sewage treatment systems according to claim 4, it is characterized in that, described triphase separator comprises cylindrical shell, cone bucket, taper slip plate, described cone bucket is relative with the cone point of taper slip plate, described cone bucket is arranged at the middle part of described cylindrical shell, and described cone bucket and described cylindrical shell form filtrating area; Described taper slip plate is arranged at the bottom of described cylindrical shell, described taper slip plate and described cylindrical shell, bores bucket shape and becomes gas-liquid-solid disengaging zone; Described cone bucket has gap and described filtrating area is connected with gas-liquid-solid disengaging zone; The barrel of the cylindrical shell of described gas-liquid-solid disengaging zone is provided with water-in, venting port, and described water-in is lower than described venting port.

7. scenery molding Sewage treatment systems according to claim 6, is characterized in that, described water-in is evenly equipped with multiple in the circumference of described barrel, and described venting port is evenly equipped with multiple in the circumference of described barrel.