CN215048930U - High-efficient waste water deposits processing apparatus - Google Patents

Abstract

The utility model discloses a high-efficient waste water sedimentation treatment device belongs to the waste water treatment field. The utility model comprises a flocculation stirring area, a flocculation stirrer, a mixing stirring area, a water inlet and distribution channel, a triangular weir guide plate, a sedimentation area, a water outlet weir plate, a mud scraper and a bracket, a mud scraper main shaft, a speed reducer, a mud scraper motor, a mud scraper support frame and a walkway plate, a water outlet collecting tank, an inclined tube filler and a filler layer bracket; waste water enters the inclined tube packing bottom of the settling zone through the water inlet distribution channel and the triangular weir guide plate after passing through the mixing and stirring zone and the flocculation and stirring zone, the waste water rises through the inclined tube packing layer and then enters the water outlet weir plate to flow into the water outlet collecting tank, and the settled sludge enters the sludge cone bucket and is discharged through the sludge discharge pipe after passing through the sludge scraper. The utility model discloses can realize the operation of sewage high load sewage precipitation, realize that viscosity is big, the mud of easy caking discharges smoothly, guarantees the quick layering of muddy water, and it is limpid to go out water, and row's mud is stable, moves stably.

Description

High-efficient waste water deposits processing apparatus

Technical Field

The invention relates to a high-efficiency wastewater precipitation treatment device, and belongs to the field of wastewater treatment.

Background

The precipitation process is a wastewater treatment process, and the existing precipitation comprises advection precipitation, vertical flow precipitation, radial flow precipitation tank and inclined tube precipitation tank.

The advection sedimentation tank is effectual, nevertheless takes up an area of great, is equipped with the bagger in the pond, adopts chain belt formula mud scraper to scrape mud, because the support piece and the driving piece of chain belt all soak in aquatic, when the big mud of viscosity such as calcium sulfate and calcium carbonate exists, easy scale deposit trouble or scrape mud not smooth.

The vertical flow sedimentation tank has small floor area, but large depth and poor adaptability to impact load change, adopts gravity to discharge sludge, and is easy to scale and difficult to discharge sludge when the sludge with large viscosity such as calcium sulfate, calcium carbonate and the like exists.

The radial flow sedimentation tank is used for a treatment plant with larger water quantity, has poor adaptability to impact load change, but adopts mechanical sludge discharge, and when the sludge with large viscosity such as calcium sulfate, calcium carbonate and the like exists, the sludge is easy to discharge compared with a vertical flow sedimentation tank.

The inclined tube sedimentation tank is internally provided with the inclined plates and the honeycomb inclined tubes, has high sedimentation efficiency and small occupied area, is unstable in the great treatment effect of solid load and poor in impact load resistance, adopts gravity to discharge sludge, and is easy to scale and difficult to discharge sludge when the viscous sludge such as calcium sulfate, calcium carbonate and the like exists.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving current sedimentation process units treatment effeciency low, to containing in the sewage the problem of the difficult mud of arranging behind the sludge sedimentation of a large amount of viscosities such as calcium sulfate, calcium carbonate, easy caking, the utility model discloses a high-efficient waste water sedimentation treatment device can realize the operation of sewage high load sediment, realizes that the mud of viscosity big, easy caking discharges smoothly, guarantees the quick layering of muddy water, and the play water is limpid, and the mud of arranging is stable, and the operation is stable.

The utility model discloses a realize through following technical scheme:

the utility model discloses a high-efficient waste water sedimentation treatment device, including flocculation stirring district, flocculation mixer, mixed stirring district, the water distribution canal of intaking, triangle weir guide plate, settling zone, play weir plate, mud scraper and support, mud scraper main shaft, speed reducer, mud scraper motor, mud scraper support frame and walk the guidance tape, go out water collecting vat, pipe chute filler, packing layer support.

Install the mixer in the mixing district, install the mixer in the stirring district that flocculates, mix the stirring district and be connected 1 group with the stirring district that flocculates and congeal the region, 2 group congeal the region and 1 group congeal regional constitution the same, the settling zone is with 1 group congeal the region and 2 group congeal regional meet, 1 group congeals the region and 2 group and congeals the region and use the settling zone inboard to be the symmetry and connect side by side as the axis, settling zone upper portion installation water inlet distribution canal, settling zone middle part welding packing layer support, packing layer support upper portion installation pipe chute filler, settling zone top installation mud scraper support frame and walk the board, upper portion installation play weir plate in the settling zone, go out weir plate one side and go out water collecting vat and be connected, the another side is connected with settling zone water inlet distribution canal, go out water collecting vat and settling zone wall connection altogether.

The water inlet distribution channel extends from the center to two sides and is welded with the triangular weir guide plate, the upper part of the triangular weir guide plate is a triangular weir plate, and the lower part of the triangular weir guide plate extends to a position below the inclined tube filler.

The mud scraper is characterized in that a mud scraper motor is arranged on the mud scraper support frame and the walking board, the mud scraper motor is connected with a speed reducer belt, the upper part of a mud scraper main shaft is connected with the speed reducer, the lower part of the mud scraper main shaft is connected with the mud scraper board and a support, when the mud scraper motor rotates, the speed reducer is driven by the belt to rotate, and meanwhile, the mud scraper main shaft is driven to rotate, so that the mud scraper and the support are driven to rotate synchronously.

The main shaft of the mud scraper vertically passes through the inclined tube packing layer and the packing layer bracket without contacting with each other.

The lower part of the settling zone is provided with a mud bucket, and the inclination angle of the mud bucket is more than 60 degrees. The mud bucket is internally provided with a mud scraper and a bracket which adopt special high-strength steel plates, and the inclination angles of the mud scraper and the mud scraper on the bracket are the same as that of the mud bucket at the bottom of the settling zone.

The sedimentation tank bottom has connect the sludge discharge pipe, and the sludge discharge pipe is laid to the sedimentation tank bottom along the sludge bucket, and partial sludge pipe in the sedimentation tank adopts 45 elbows to lay.

The utility model discloses a high-efficient waste water sedimentation treatment device's working method does:

the method comprises the following steps: the sewage that contains the suspended solid at first gets into the mixing stirring district, it makes the medicament intensive mixing back through mixing the mixer to throw the medicament in the mixing district, get into the flocculation stirring district, throw the flocculating agent in the flocculation stirring district, make medicament and sewage intensive mixing back through the flocculation mixer, get into the settling zone upper portion and intake the water distribution canal, sewage flows to both sides along the water distribution canal that intakes, the water level constantly promotes the back in the canal, flow into the sedimentation tank through the triangle weir of triangle weir guide plate top, again flow into the pipe chute filler bottom below the triangle weir guide plate, waste water rises and carries out mud-water sedimentation separation through the pipe chute filler layer, the clear water gets into the play weir board and flows into out the water collecting vat, the suspended solid deposits into below mud bucket through the pipe chute.

Step two: the suspended solid forms mud behind the bagger deposit, and the mud scraper motor rotates, drives the speed reducer through the belt and rotates, leads to the mud scraper main shaft to rotate, drives the rotation of mud scraper board and support, guarantees mud and sewage mixture in the bagger, and the caking is not passed through sedimentation tank bottom mud pipe and is discharged.

Advantageous effects

1. The utility model discloses a high-efficient waste water sedimentation processing apparatus can be used to waste water treatment's first sediment, secondary sediment, advanced treatment and deposit the technology section, and precipitation effect is good, goes out water limpid, and it is convenient to arrange mud.

2. The utility model discloses a high-efficient waste water sedimentation processing apparatus, the sludge sedimentation technology who contains a large amount of viscosities such as calcium sulfate, calcium carbonate in sewage big, the easy caking guarantees the muddy water quick layering, and it is limpid to go out water, and the row's mud is stable, moves stably.

Drawings

FIG. 1 is a schematic plan view of the apparatus of the present invention;

FIG. 2 is a schematic cross-sectional view of the apparatus of the present invention;

wherein, the device comprises 1-flocculation stirring area, 2-flocculation stirring machine, 3-mixing stirring machine, 4-mixing stirring area, 5-water inlet water distribution channel, 6-triangular weir guide plate, 7-settling area, 8-water outlet weir plate, 9-mud scraper and bracket, 10-mud scraper main shaft, 11-speed reducer, 12-mud scraper motor, 13-mud scraper support frame and walkway plate, 14-water outlet collecting tank, 15-inclined tube filler, 16-filler layer bracket

Detailed Description

For better illustrating the objects and advantages of the present invention, the following description is provided in conjunction with the accompanying drawings and examples.

Example 1:

as shown in fig. 1 and 2, the high-efficiency sedimentation treatment apparatus disclosed in this embodiment includes a flocculation stirring area 1, a flocculation stirrer 2, a mixing stirrer 3, a mixing stirring area 4, a water inlet distribution channel 5, a triangular weir guide plate 6, a sedimentation area 7, a water outlet weir plate 8, a mud scraper and support 9, a mud scraper main shaft 10, a speed reducer 11, a mud scraper motor 12, a mud scraper support frame and walkway plate 13, a water outlet collection tank 14, an inclined tube filler 15, and a filler layer support 16;

the installation mixes mixer 3 and the flocculation stirring district 4 installation flocculation mixer 2 and is connected formation 1 group's coagulation area according to mixing stirring district 1, 2 group's coagulation areas are side by side with 7 one side steel sheet welding in settling zone, 7 upper portions installation water supply distribution canal 5 in settling zone, and with the welding of triangle weir guide plate 6, 7 middle part welding packing layer supports 16 in settling zone, upper portion installation pipe chute filler 15, 7 top installation mud scraper support frames and walk the board 13 in settling zone, mud scraper motor 12 is connected with speed reducer 11 belt, fix on mud scraper support frame and walk the board 13, mud scraper main shaft 10 upper portion is connected with speed reducer 11, the lower part is connected with mud scraper board and leg joint 9, when mud scraper motor 12 rotates, drive speed reducer 11 through the belt and rotate, lead to mud scraper main shaft 10 to rotate, drive mud scraper and support 9 synchronous rotation. The middle upper part of the settling zone 7 is provided with a water outlet weir plate 8, one side of the water outlet weir plate is welded with a water outlet collecting tank 14, the other side of the water outlet weir plate is welded with a water inlet distribution channel 5 of the settling zone 7, and the water outlet collecting tank 14 and the settling zone 7 are welded together.

Mix 1 installation in stirring district and mix 3 and the flocculation stirring district 4 installation flocculation stirring machine 2 and be connected and form 1 group's area of coagulating, 2 group's areas of coagulating are parallel with 7 one side steel sheet welds in settling zone, 7 another side steel sheets in settling zone and 14 one side steel sheet welds in play water collecting vat, form unified device.

The water inlet distribution channel 5 is arranged at the upper part of the settling zone 7, extends from the center to two sides, and is welded with the triangular weir guide plate 6, the upper part of the triangular weir guide plate 6 is a triangular weir plate, and the lower part of the triangular weir guide plate extends to a specific position below the inclined tube packing 15.

The welding packing layer support 16 and the inclined tube packing 15 arranged on the upper portion are arranged in the middle of the settling zone 7, and the main shaft 10 of the mud scraper vertically passes through the inclined tube packing layer and the packing layer support and is not in contact with each other.

The mud scraper support frame and the walk board 13 are installed at the top of the settling zone 7, the mud scraper motor 12 is connected with the speed reducer 11 through a belt, the mud scraper motor 12 is fixed on the mud scraper support frame and the walk board 13, the upper part of the mud scraper main shaft 10 is connected with the speed reducer 11, the lower part of the mud scraper main shaft is connected with the mud scraper board and the support 9, when the mud scraper motor 12 rotates, the speed reducer 11 is driven to rotate through the belt, the mud scraper main shaft 10 is driven to rotate, and the mud scraper and the support 9 are driven to synchronously rotate.

The scraper plate and the bracket 9 adopt special high-strength steel plates, the inclination angle of the mud bucket at the lower part of the settling zone 7 is larger than 60 degrees, and the inclination angles of the scraper plate and the mud bucket at the bottom of the settling zone are the same.

The sludge discharge pipe at the bottom of the settling zone 7 is laid to the bottom along a sludge hopper, and the sludge pipe at the upper part is laid by adopting a 45-degree elbow.

The device has good operation and precipitation effect, clear water outlet, convenient sludge discharge, capability of ensuring quick layering of sludge water, clear water outlet, stable sludge discharge and stable operation

The above-mentioned detailed description further elaborates the purpose, technical solution and advantages of the present invention, and it should be understood that the above only is a detailed description of the present invention, and is not intended to limit the scope of the present invention, and any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included within the scope of the present invention.

Claims (6)

1. The utility model provides a high-efficient waste water deposits processing apparatus which characterized in that: the device comprises a flocculation stirring area (1), a flocculation stirrer (2), a mixing stirrer (3), a mixing stirring area (4), a water inlet and distribution channel (5), a triangular weir guide plate (6), a settling area (7), a water outlet weir plate (8), a mud scraper and support (9), a mud scraper main shaft (10), a speed reducer (11), a mud scraper motor (12), a mud scraper support frame and walking plate (13), a water outlet collecting tank (14), an inclined tube filler (15) and a filler layer support (16);

a mixing stirrer (3) is arranged in a mixing and stirring area (4), a flocculation stirrer (2) is arranged in the flocculation stirring area (1), the mixing and stirring area (4) is connected with the flocculation stirring area (1) to form 1 group of coagulation areas, the 2 group of coagulation areas and the 1 group of coagulation areas form the same composition, a settling area (7) is connected with the 1 group of coagulation areas and the 2 group of coagulation areas, the 1 group of coagulation areas and the 2 group of coagulation areas are symmetrically connected in parallel by taking the inner side of the settling area (7) as a central axis, a water inlet and distribution channel (5) is arranged at the upper part of the settling area (7), a packing layer bracket (16) is welded at the middle part of the settling area (7), an inclined tube packing (15) is arranged at the upper part of the packing layer bracket (16), a mud scraper support frame and a walkway plate (13) are arranged at the top part of the settling area (7), a water outlet weir plate (8) is arranged at the middle upper part of the settling area (7), one side of the water outlet weir plate (8) is connected with a water outlet collecting tank (14), the other side is connected with a water inlet distribution channel (5) of the settling area (7), and the water outlet collecting tank (14) is connected with the same wall of the settling area (7).

2. A high efficiency wastewater treatment plant as set forth in claim 1 wherein: the water inlet distribution channel (5) extends from the center to two sides and is welded with the triangular weir guide plate (6), the upper part of the triangular weir guide plate (6) is provided with a triangular weir plate, and the lower part of the triangular weir guide plate extends to a position below the inclined tube filler (15).

3. A high efficiency wastewater treatment plant as set forth in claim 1 wherein: the mud scraper is characterized in that a mud scraper motor (12) is arranged on a mud scraper support frame and a track plate (13), the mud scraper motor (12) is connected with a speed reducer (11) through a belt and is fixed on the mud scraper support frame and the track plate (13), the upper part of a mud scraper main shaft (10) is connected with the speed reducer (11), the lower part of the mud scraper motor is connected with the mud scraper plate and a support (9), the mud scraper motor (12) rotates, the speed reducer (11) is driven to rotate through the belt, and the mud scraper main shaft (10) is driven to rotate simultaneously, so that the mud scraper and the support (9) are driven to rotate synchronously.

4. A high efficiency wastewater treatment plant as set forth in claim 1 wherein: the main shaft (10) of the mud scraper vertically passes through the inclined tube filler (15) and the filler layer bracket (16) and is not contacted with each other.

5. A high efficiency wastewater treatment plant as set forth in claim 1 wherein: the lower part of the settling zone (7) is provided with a mud bucket, the inclination angle of the mud bucket is more than 60 degrees, a mud scraping plate and a support (9) are arranged in the mud bucket, the mud scraping plate and the support (9) adopt high-strength steel plates, and the inclination angles of the mud scraping plate on the mud scraping plate and the support (9) are the same as that of the mud bucket at the bottom of the settling zone.

6. A high efficiency wastewater treatment plant as set forth in claim 1 wherein: the bottom of the settling zone (7) is connected with a sludge discharge pipe, the sludge discharge pipe is laid to the bottom along a sludge hopper, and a part of sludge pipes in the settling zone (7) are laid by adopting 45-degree elbows.

Images