CN213012462U - High-efficiency artificial wetland wastewater recycling treatment device - Google Patents

Abstract

The utility model relates to a high-efficient constructed wetland waste water resourceful treatment device, strengthen the unit including reoxygenation unit and microbial inoculum, its technical essential is: reoxygenation unit is including pre-buried the pipe that absorbs water in the wetland lower part, with the water lift pipeline that absorbs water the pipe intercommunication, locate the water lift pump that the water lift pipeline is terminal, locate the filter on the water lift pipeline, the bacterial agent is strengthened the unit and is included pre-buried upper end confined toper section of thick bamboo in the wetland, the flexible chamber that stores up that is connected with toper section of thick bamboo lower extreme, wrap up the concentric metal covering in the flexible chamber outside that stores up, locate bacterial agent injection pipe and the pressurization mouth on the toper section of thick bamboo upper end closing cap, the surface in flexible chamber that stores up evenly is equipped with the micropore, the surface of concentric metal covering evenly is equipped with the through-hole, the upper end of bacterial agent injection pipe is fixed with the solenoid valve, the other end. The utility model provides a restoration problem that current constructed wetland exists, it is effectual to reoxygenate, with low costs, convenient operation is strengthened to the microbial inoculum, and repair effect is good.

Description

High-efficiency artificial wetland wastewater recycling treatment device

Technical Field

The utility model relates to a waste water resourceful treatment technical field, concretely relates to high-efficient constructed wetland waste water resourceful treatment device.

Background

The artificial wetland is constructed and operated artificially, is similar to the wetland ground, and is a technology for treating wastewater by controlling and dosing the wastewater into the artificial wetland, thereby preventing the environmental pollution and obtaining the best benefits of wastewater treatment and reclamation.

At present, in order to achieve a good water resource treatment effect, the artificial wetland needs to be repaired regularly, such as reoxygenation, microbial inoculum reinforcement and the like, the main reoxygenation mode is to blow air into the wetland, and the power consumption of equipment is large; the microbial inoculum strengthening is to add the microbial inoculum into the pre-buried device at regular intervals, so the operation is troublesome.

Disclosure of Invention

The utility model aims at providing a simple structure, use reliable high-efficient constructed wetland waste water resourceful treatment device, solve the restoration problem that current constructed wetland exists, reoxygenation is effectual, and is with low costs, and convenient operation is strengthened to the microbial inoculum, and repair effect is good.

The technical scheme of the utility model is that:

the utility model provides a high-efficient constructed wetland waste water resourceful treatment device, includes reoxygenation unit and microbial inoculum enhancement unit, and its technical essential is: the reoxygenation unit comprises a water suction pipe pre-buried at the lower part of the wetland, a water lifting pipeline arranged in the wetland water collecting area and communicated with the water suction pipe, a water lifting pump arranged at the tail end of the water lifting pipeline, and a filter arranged on the water lifting pipeline, the water outlet of the water lift pump is connected with a water distribution pipe of a wet ground water distribution area through a circulating pipeline, the microbial inoculum strengthening unit comprises a conical cylinder with the upper end closed and pre-embedded in the wet ground, a flexible storage cavity connected with the lower end of the conical cylinder, a concentric metal cover wrapped outside the flexible storage cavity, a microbial inoculum injection pipe and a pressurizing port which are arranged on a sealing cover at the upper end of the conical cylinder, micropores are uniformly arranged on the surface of the flexible storage cavity, through holes are uniformly arranged on the surface of the concentric metal cover, the upper end of the microbial inoculum injection pipe is fixed with an electromagnetic valve, the other end of the electromagnetic valve is connected with a microbial inoculum source on the ground through a conveying pipeline, and the pressurizing port is connected with an air source on the ground through an air pipe.

According to the efficient artificial wetland wastewater recycling treatment device, the flexible storage cavity and the concentric metal cover are respectively provided with the ellipsoidal surfaces, and the ellipsoidal surfaces are used for releasing microbial inoculum to the periphery.

Above-mentioned high-efficient constructed wetland waste water resourceful treatment device, the filter comprises the casing, locates the filter screen in the casing, filters the large granule impurity through the filter screen.

According to the efficient artificial wetland wastewater recycling treatment device, the front end of the water suction pipe is closed, and the pipeline is uniformly provided with water suction holes.

The utility model has the advantages that:

1. when the wetland is repaired periodically, water in the wetland is pumped outwards through the water lifting pump, the water lifting pipeline and the water suction pipe and then is sent to the water distribution pipe of the wet ground distribution area through the circulating pipeline, and in the process, when the water is pumped, the gap at the upper part of the wetland is filled with air, so that the aim of oxygen supplementation is fulfilled.

2. When water is extracted, the liquid level in the wetland descends, the pressure on the upper part of the wetland is reduced, and the microbial inoculum is favorably supplemented to the wetland.

To sum up, the utility model provides a restoration problem that current constructed wetland exists, it is effectual to reoxygenate, with low costs, convenient operation is strengthened to the microbial inoculum, and repair effect is good.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural view of the microbial inoculum reinforcing unit in fig. 1.

In the figure: 1. the device comprises a conveying pipeline, a gas pipe 2, a pressurizing port 3, a microbial inoculum injection pipe 4, an electromagnetic valve 5, a conical cylinder 6, a flexible storage cavity 7, a concentric metal cover 8, a water lifting pipeline 9, a water lifting pump 10, a filter 11, a water collecting area 12, a water suction pipe 13, a water suction hole 14, a wetland 15, a water distribution area 16, a water distribution pipe 17, micropores 18 and through holes 19.

Detailed Description

As shown in fig. 1 and 2, the high-efficiency artificial wetland wastewater recycling treatment device comprises a reoxygenation unit and a microbial inoculum strengthening unit.

The reoxygenation unit comprises a water suction pipe 13 embedded at the lower part of the wetland 15, a water lifting pipeline 9 arranged in the wetland water collection area 12 and communicated with the water suction pipe 13, a water lifting pump 10 arranged at the tail end of the water lifting pipeline 9 and a filter 11 arranged on the water lifting pipeline 9, wherein the water outlet of the water lifting pump 10 is connected with a water distribution pipe 17 of a wet ground distribution area 16 through a circulation pipeline.

The microbial inoculum strengthening unit comprises a conical cylinder 6 with a sealed upper end and embedded in a wetland 15, a flexible storage cavity 7 connected with the lower end of the conical cylinder 6, a concentric metal cover 8 wrapped outside the flexible storage cavity 7, a microbial inoculum injection pipe 4 and a pressurizing port 3, wherein the microbial inoculum injection pipe 4 and the pressurizing port 3 are arranged on the sealing cover at the upper end of the conical cylinder 6, micropores 18 are uniformly formed in the surface of the flexible storage cavity 7, through holes 19 are uniformly formed in the surface of the concentric metal cover 8, an electromagnetic valve 5 is fixed at the upper end of the microbial inoculum injection pipe 4, the other end of the electromagnetic valve 5 is connected with a microbial inoculum source on the ground through a conveying pipeline 1, and the pressurizing port 3 is connected with an air source on.

In this embodiment, the flexible reservoir 7 and the concentric metal cover 8 have ellipsoidal surfaces, respectively, for releasing the microbial inoculum to the periphery. The filter 11 comprises the casing, the filter screen of locating in the casing, filters the large granule impurity through the filter screen. The front end of the water suction pipe 13 is closed, and water suction holes 14 are uniformly arranged on the pipeline. The delivery pipe 1 is bound with the air pipe 2.

When the water-lifting pump 10 works, the water 1/3 in the wetland can be extracted, and the bottom of the wetland is preferably inclined, so that the retention time of the water returning through the water distribution pipe 17 on the water distribution side is longer. The concentric metal cover 8 is provided to protect the inner flexible reservoir 7, and the micropores 18 of the flexible reservoir 7 are closed in the absence of a pressure.

The embodiments of the present invention have been described in detail, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the present invention should be covered by the present patent.

Claims (4)

1. The utility model provides a high-efficient constructed wetland waste water resourceful treatment device, includes reoxygenation unit and microbial inoculum enhancement unit, its characterized in that: the reoxygenation unit comprises a water suction pipe pre-buried at the lower part of the wetland, a water lifting pipeline arranged in the wetland water collecting area and communicated with the water suction pipe, a water lifting pump arranged at the tail end of the water lifting pipeline, and a filter arranged on the water lifting pipeline, the water outlet of the water lift pump is connected with a water distribution pipe of a wet ground water distribution area through a circulating pipeline, the microbial inoculum strengthening unit comprises a conical cylinder with the upper end closed and pre-embedded in the wet ground, a flexible storage cavity connected with the lower end of the conical cylinder, a concentric metal cover wrapped outside the flexible storage cavity, a microbial inoculum injection pipe and a pressurizing port which are arranged on a sealing cover at the upper end of the conical cylinder, micropores are uniformly arranged on the surface of the flexible storage cavity, through holes are uniformly arranged on the surface of the concentric metal cover, the upper end of the microbial inoculum injection pipe is fixed with an electromagnetic valve, the other end of the electromagnetic valve is connected with a microbial inoculum source on the ground through a conveying pipeline, and the pressurizing port is connected with an air source on the ground through an air pipe.

2. The high-efficiency artificial wetland wastewater recycling treatment device according to claim 1, characterized in that: the flexible reservoir and the concentric metal shield have ellipsoidal surfaces, respectively.

3. The high-efficiency artificial wetland wastewater recycling treatment device according to claim 1, characterized in that: the filter consists of a shell and a filter screen arranged in the shell.

4. The high-efficiency artificial wetland wastewater recycling treatment device according to claim 1, characterized in that: the front end of the water suction pipe is closed, and water suction holes are uniformly formed in the pipeline.

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