CN220656523U - Wing-type rhombus pipe sedimentation device - Google Patents

Abstract

A fin rhombus tube precipitation apparatus, comprising: the device comprises a water inlet, a water inlet water distribution area, a water inlet steady flow area, a water inlet water distribution plate, a flushing branch pipe, a flushing main pipe, a wing-type diamond inclined pipe, a water outlet steady flow area, a water outlet water distribution plate, a vent pipe, a mud discharging port, a water outlet, a mud collecting hopper, a wing-type diamond pipe, a mud channel plate and rib plates; the water inlet is welded to the outer wall of the device and is arranged in the upper position of the middle part; the volume of the water inlet and distribution area meets the residence time of 5min of the water inlet amount; the flushing main pipe is connected with the flushing branch pipe through a reducing tee joint; the water outlet is welded to the outer wall of the device and is arranged in the upper position of the middle part; the volume of the water distribution area meets the residence time of 5min of the water inflow; the bottom of the water inlet steady flow area is connected with the sludge collection hopper through a vent pipe, and the bottoms of the water outlet steady flow area and the water outlet water distribution area are connected with the sludge collection hopper through a vent pipe; the mud discharging port is connected with the mud collecting hopper through a pipeline and is provided with an electric valve; the bottom of the mud collecting hopper with an angle of 60 degrees is fixed with a bottom plate of the device; the wing type rhombus inclined tube comprises a wing type rhombus tube, a mud channel plate and rib plates.

Description

Wing-type rhombus pipe sedimentation device

Technical Field

The utility model relates to a wing-type rhombus pipe sedimentation device, in particular to efficient sludge sedimentation equipment.

Background

In the aspects of water purification treatment and sewage treatment, the action of the precipitation unit is critical, and if the precipitation effect is poor, the excessive load of the filtering unit can be caused to influence the quality of the effluent. The inclined tube sedimentation tank has the characteristics of small occupied area, high sedimentation load, good sedimentation effect and the like in small and medium-sized water plants, and is widely applied.

The traditional inclined tube sedimentation tank is higher in height, lower in sedimentation load and poor in mud discharging effect of the bottom mud collecting hopper, so that the turbidity of the discharged water of the sedimentation area is too high, and the mud at the bottom of the mud collecting hopper floats upwards anaerobically, so that the treatment effect is affected.

The wing-type rhombus pipe sedimentation device fully utilizes the advantages of lateral flow horizontal pipe sedimentation, and further improves the sedimentation load of equipment so as to further reduce the occupied area; the whole height of the equipment can be controlled to be about 3 meters, so that the whole transportation of the equipment is satisfied; the bottom conical mud bucket improves the mud discharging efficiency; the flushing device at the top of the fin type rhombus pipe sedimentation device can automatically and regularly clean the sloping plate, so that the sedimentation effect is ensured.

Disclosure of Invention

In view of the above-mentioned current situation, an object of the present utility model is to improve the effect of inclined tube precipitation and reduce the floor area of inclined tube precipitation; solves the defects of limited height, low precipitation efficiency, no automatic flushing device and the like of the traditional inclined tube precipitation equipment.

The utility model aims at realizing the following technical scheme: a fin rhombus tube precipitation apparatus, comprising: the device comprises a water inlet, a water inlet water distribution area, a water inlet steady flow area, a water inlet water distribution plate, a flushing branch pipe, a flushing main pipe, a wing-type diamond inclined pipe, a water outlet steady flow area, a water outlet water distribution plate, a vent pipe, a mud discharging port, a water outlet, a mud collecting hopper, a wing-type diamond pipe, a mud channel plate and rib plates; the water inlet is welded to the outer wall of the device and is arranged in the upper position of the middle part; the volume of the water inlet and distribution area meets the residence time of 5min of the water inlet amount; the flushing main pipe is connected with the flushing branch pipe through a reducing tee joint; the water outlet is welded to the outer wall of the device and is arranged in the upper position of the middle part; the volume of the water distribution area meets the residence time of 5min of the water inflow; the bottom of the water inlet steady flow area is connected with the sludge collection hopper through a vent pipe, and the bottoms of the water outlet steady flow area and the water outlet water distribution area are connected with the sludge collection hopper through a vent pipe; the mud discharging port is connected with the mud collecting hopper through a pipeline and is provided with an electric valve; the bottom of the mud collecting hopper with an angle of 60 degrees is fixed with a bottom plate of the device; the wing type rhombus inclined tube comprises a wing type rhombus tube, a mud channel plate and rib plates.

The water inlet steady flow area is connected with the water inlet water distribution area through a water inlet water distribution plate, the cross section area of the water inlet water distribution plate meets the requirement that the water inlet flow velocity is below 0.1m/s, and rectangular water distribution holes are arranged on the water inlet water distribution plate.

The flushing branch pipe is fixed above the winged diamond inclined pipe through angle steel in a disc type arrangement, a PP or stainless steel nozzle is arranged below the flushing branch pipe in a wire connection mode, and the winged diamond inclined pipe is automatically flushed through an automatic control program.

The water outlet steady flow area is connected with the water outlet water distribution area through a water outlet water distribution plate, the cross section of the water outlet water distribution plate meets the requirement that the inflow velocity is below 0.1m/s, and rectangular water distribution holes are arranged on the water outlet water distribution plate.

The breather pipe is connected with the sludge collection hopper through a steel pipe, the connecting point is positioned at the middle upper part of the sludge collection hopper, the inclination angle of the steel pipe is 135 degrees, and the sludge collection hopper is communicated with the atmosphere when sludge is discharged, so that the sludge discharge efficiency is improved; the folding angle of the wing-type rhombus pipe is 120 degrees, the wing-type rhombus pipe is fixed on a rib plate in a socket joint mode, the rib plate is vertically welded on a mud path plate, and the integral installation angle of the wing-type rhombus pipe is 60 degrees.

Raw water in the water inflow steady flow area horizontally and uniformly flows through the vane type rhombus inclined tubes, small rotational flow is formed in each vane type rhombus tube, the settling efficiency of suspended matters is improved, and the horizontal load of the inclined tubes is controlled to be 25-40 m ³ And (h) between every two square meters, each fin type diamond pipe is made of PP material or stainless steel material.

From the above description of the utility model, it is clear that the utility model has the following advantages over the prior art: the wing-type rhombus pipe sedimentation device fully utilizes the advantages of lateral flow horizontal pipe sedimentation, further improves the sedimentation load of equipment, reduces the height of the equipment and meets the overall transportation requirement; the bottom conical mud bucket is connected with a vent pipe for treatment, so that the mud discharging efficiency is improved; the wing-type diamond inclined tube can automatically and regularly clean the inclined plate, so that the sedimentation effect is ensured.

Drawings

FIG. 1 is a front view of a fin type rhombus tube sedimentation device of the present utility model

FIG. 2 is a top view of a fin type rhombus tube sedimentation device according to the present utility model

FIG. 3 is a sectional view of a fin type rhombus tube settling device 1-1 according to the present utility model

FIG. 4 is a cross-sectional view of a sedimentation device 2-2 of a fin type rhombus tube according to the present utility model

FIG. 5 is a detailed view of a part of a sedimentation device for a fin type rhombus tube according to the present utility model

In the drawings, the list of components represented by the various numbers is as follows: 1. a water inlet, a water inlet water distribution area, a water inlet steady flow area, a water distribution plate, a flushing branch pipe, a flushing main pipe, a wing-type diamond pipe inclined pipe, a water outlet steady flow area, 9, a water outlet water distribution area, 10, a water outlet water distribution plate, 11, a vent pipe, 12, a sludge discharge port, 13, a water outlet, 14, a sludge collecting bucket, 15, a wing-type diamond pipe, 16, a sludge passage plate, 17 and a rib plate.

Detailed Description

The principles and features of the present utility model are described below with reference to the drawings, the examples are illustrated for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

As shown in fig. 1, 2, 3, 4 and 5, a fin rhomb tube settling device is characterized by comprising: the device comprises a water inlet, a water inlet water distribution area, a water inlet steady flow area, a water inlet water distribution plate, a flushing branch pipe, a flushing main pipe, a wing-type diamond inclined pipe, a water outlet steady flow area, a water outlet water distribution plate, a vent pipe, a mud discharging port, a water outlet, a mud collecting hopper, a wing-type diamond pipe, a mud channel plate and rib plates; the water inlet is welded to the outer wall of the device and is arranged in the upper position of the middle part; the volume of the water inlet and distribution area meets the residence time of 5min of the water inlet amount; the flushing main pipe is connected with the flushing branch pipe through a reducing tee joint; the water outlet is welded to the outer wall of the device and is arranged in the upper position of the middle part; the volume of the water distribution area meets the residence time of 5min of the water inflow; the bottom of the water inlet steady flow area is connected with the sludge collection hopper through a vent pipe, and the bottoms of the water outlet steady flow area and the water outlet water distribution area are connected with the sludge collection hopper through a vent pipe; the mud discharging port is connected with the mud collecting hopper through a pipeline and is provided with an electric valve; the bottom of the mud collecting hopper with an angle of 60 degrees is fixed with a bottom plate of the device; the wing type rhombus inclined tube comprises a wing type rhombus tube, a mud channel plate and rib plates.

The water inlet steady flow area is connected with the water inlet water distribution area through a water inlet water distribution plate, the cross section area of the water inlet water distribution plate meets the requirement that the water inlet flow velocity is below 0.1m/s, and rectangular water distribution holes are arranged on the water inlet water distribution plate.

The flushing branch pipe is fixed above the winged diamond inclined pipe through angle steel in a disc type arrangement, a PP or stainless steel nozzle is arranged below the flushing branch pipe in a wire connection mode, and the winged diamond inclined pipe is automatically flushed through an automatic control program.

The water outlet steady flow area is connected with the water outlet water distribution area through a water outlet water distribution plate, the cross section of the water outlet water distribution plate meets the requirement that the inflow velocity is below 0.1m/s, and rectangular water distribution holes are arranged on the water outlet water distribution plate.

The breather pipe is connected with the sludge collecting hopper through a steel pipe, the connecting point is positioned at the middle upper part of the sludge collecting hopper, the inclination angle of the steel pipe is 135 degrees, and the sludge collecting hopper is communicated with the atmosphere during sludge discharge, so that the sludge discharge efficiency is improved.

The folding angle of the wing-type rhombus pipe is 120 degrees, the wing-type rhombus pipe is fixed on a rib plate in a socket joint mode, the rib plate is vertically welded on a mud path plate, and the integral installation angle of the wing-type rhombus pipe is 60 degrees.

Raw water in the water inflow steady flow area horizontally and uniformly flows through the vane type rhombus inclined tubes, small rotational flow is formed in each vane type rhombus tube, the settling efficiency of suspended matters is improved, and the horizontal load of the inclined tubes is controlled to be 25-40 m ³ And (h) between every two square meters, each fin type diamond pipe is made of PP material or stainless steel material.

In the description herein, reference to the term "embodiment" means that a particular method, apparatus or feature described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, methods, apparatus, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

The foregoing is only illustrative of the present utility model and is not to be construed as limiting thereof, but rather as various modifications, equivalent arrangements, improvements, etc., within the spirit and principles of the present utility model.

Claims (6)

1. A fin rhombus tube precipitation apparatus, comprising: the water inlet (1), the water inlet water distribution area (2), the water inlet steady flow area (3), the water inlet water distribution plate (4), the flushing branch pipe (5), the flushing main pipe (6), the wing-type diamond inclined pipe (7), the water outlet steady flow area (8), the water outlet water distribution area (9), the water outlet water distribution plate (10), the vent pipe (11), the mud outlet (12), the water outlet (13), the mud collecting bucket (14), the wing-type diamond pipe (15), the mud channel plate (16) and the rib plate (17); the water inlet (1) is welded to the outer wall of the device and is arranged in the middle part at an upper position; the volume of the water inlet and distribution area (2) meets the residence time of 5min of the water inlet quantity; the flushing main pipe (6) is connected with the flushing branch pipe (5) through a reducing tee joint; the water outlet (13) is welded to the outer wall of the device and is arranged in the upper position of the middle part; the volume of the water outlet water distribution area (9) meets the residence time of 5min of the water inlet quantity; the bottom of the water inlet steady flow area (3) is connected with a sludge hopper (14) through a vent pipe (11), and the bottoms of the water outlet steady flow area (8) and the water outlet water distribution area (9) are connected with the sludge hopper (14) through the vent pipe (11); the mud discharging port (12) is connected with the mud collecting hopper (14) through a pipeline, and the mud discharging port (12) is provided with an electric valve; the bottom of the mud collecting hopper (14) with an angle of 60 degrees is fixed with a bottom plate of the device; the wing type rhombus inclined tube (7) comprises a wing type rhombus tube (15), a mud path plate (16) and a rib plate (17).

2. A fin rhombus tube precipitation apparatus according to claim 1, wherein: the water inlet steady flow area (3) is connected with the water inlet water distribution area (2) through a water inlet water distribution plate (4), and rectangular water distribution holes are arranged on the water inlet water distribution plate (4).

3. A fin rhombus tube precipitation apparatus according to claim 1, wherein: the flushing branch pipe (5) is fixed above the winged type diamond inclined pipe (7) through angle steel by adopting disc type arrangement, a PP or stainless steel nozzle is arranged below the flushing branch pipe (5) in a threaded mode, and the winged type diamond inclined pipe (7) is automatically flushed through an automatic control program.

4. A fin rhombus tube precipitation apparatus according to claim 1, wherein: the water outlet steady flow area (8) is connected with the water outlet water distribution area (9) through a water outlet water distribution plate (10), and rectangular water distribution holes are arranged on the water outlet water distribution plate (10).

5. A fin rhombus tube precipitation apparatus according to claim 1, wherein: the breather pipe (11) is connected with the sludge collection hopper (14) through a steel pipe, the connecting point is positioned at the middle upper part of the sludge collection hopper (14), and the steel pipe is inclined at an angle of 135 degrees.

6. A fin rhombus tube precipitation apparatus according to claim 1, wherein: the folding angle of 120 degrees of the wing-type diamond-shaped pipe (15) is fixed on the rib plate (17) in a socket joint mode, the rib plate (17) is vertically welded on the mud path plate (16), and the integral installation angle of the wing-type diamond-shaped inclined pipe (7) is 60 degrees; each fin type diamond tube (15) is made of PP material or stainless steel material.