CN207324177U - A kind of combined inclined plate sedimentation pond - Google Patents

Abstract

The utility model belongs to water-treatment technology field, and in particular to a kind of combined inclined plate sedimentation pond.For inclined-plate clarifying basin, usual upward flow mode has optimal deposition efficiency, can reduce the area of sedimentation basin.But for precipitating more processing water, when by the way of upward flow, due to precipitation landing direction and water (flow) direction on the contrary, precipitation is easily involved in water so as to influence deposition efficiency again.The technical solution of the utility model is：Including sedimentation basin I and sedimentation basin II, sedimentation basin I from top to bottom includes inhalant region I, sloping plate deposition district I and exhalant region I, sedimentation basin II from top to bottom includes exhalant region II, sloping plate deposition district II and inhalant region II, exhalant region I is connected with inhalant region II by aqueduct, inhalant region I is provided with water inlet, exhalant region II is provided with water outlet, and water inlet position is higher than water outlet.Inclined plate I and inclined plate II can be baffling inclined plate.The utility model is suitable for sewage, the precipitation process of industrial water.

Description

A kind of combined inclined plate sedimentation pond

Technical field

The utility model belongs to water-treatment technology field, and in particular to a kind of combined inclined plate sedimentation pond.

Background technology

The structure of ramp type sedimentation basin is identical with general sedimentation basin, is by import, settling zone, outlet and the portion of mud collection area four It is grouped into, many inclined tubes or inclined plate is simply provided with settling zone.According to shallow pool principle, in the certain bar of sedimentation basin dischargeable capacity Under part.Precipitation pool area is bigger, and the deposition efficiency of sedimentation basin is higher, not related with the sedimentation time；Sedimentation basin is more shallow, precipitation Time is shorter.The settling zone of inclined tube material filling type sedimentation basin be current are separated into by series of parallel inclined plate or inclined tube it is thin Layer, embodies shallow pool principle.

The direction of inclined plate is flowed through according to current, can be divided into upward flow, it is lower to stream peace to stream three kinds.Usual upward flow has Optimal deposition efficiency, can reduce the area of sedimentation basin.But for precipitating more processing water, when the side using upward flow During formula, since precipitation slides direction with water (flow) direction on the contrary, precipitation is easily involved in water so as to influence deposition efficiency again.

Utility model content

The shortcomings that not being suitable for precipitating more water process for the upward flow mode of above-mentioned ramp type sedimentation basin, this practicality A kind of new combined inclined plate sedimentation pond of offer, its object is to：The precipitation in water is reduced by the way of lower flow direction in advance, so Efficiently precipitated by the way of upper flow direction afterwards so that above flow to mode and can be adapted for precipitating more processing water.

The technical solution adopted in the utility model is as follows：

A kind of combined inclined plate sedimentation pond, including sedimentation basin I and sedimentation basin II, sedimentation basin I from top to bottom include inhalant region I, sloping plate deposition district I and exhalant region I, sedimentation basin II from top to bottom include exhalant region II, sloping plate deposition district II and inhalant region II, go out Pool I is connected with inhalant region II by aqueduct, and inhalant region I is provided with water inlet, and exhalant region II is provided with water outlet, water inlet Mouth position is higher than water outlet.

After the technical solution, sedimentation basin I uses lower flow direction, and sedimentation basin II uses upper flow direction.Sedimentation basin I is to handling water Carry out preliminary precipitation, be precipitated out most of flocculate and solid particle etc., and final settling tanks II again to processing water into Second of precipitation of row.Sedimentation basin I only needs the area of very little processing water is carried out flowing to mode and is precipitated. Such design floor space be less than it is simple it is lower flow to mode, while make it that flowing to mode on more efficient can be adapted for Precipitate more processing water.

Preferably, multiple inclined plate I are arranged in parallel with sloping plate deposition district I, are arranged in parallel with the sloping plate deposition district II Multiple inclined plate II, inclined plate I and inclined plate II are formed by the different flat sheet combination in multistage inclination angle.Inclined plate I and inclined plate II is using folding Streaming inclined plate, can increase deposition efficiency.

Preferably, the bottom shape of exhalant region I and inhalant region II are funnel-form, the bottom of exhalant region I and inhalant region II Lowest point is respectively arranged with sludge pipe I and sludge pipe II.The bottom shape of exhalant region I and inhalant region II are arranged to funnel-form can be with The precipitation fallen from inclined plate is conveniently collected, precipitation can be arranged from sludge pipe I and sludge pipe II respectively after being collected into a certain amount Go out.

Preferably, inhalant region I is provided with shaking device I, and shaking device I is connected by clamping device I with inclined plate I, water outlet Area II is provided with shaking device II, and shaking device II is connected by clamping device II with inclined plate II.The purpose of this preferred solution is, The precipitation on inclined plate I and inclined plate II is aided in slide respectively by shaking device I and shaking device II during desilting.

Preferably, water-delivery pump is provided with aqueduct.Water-delivery pump can provide pressure for processing water, aid in treatment water from Sedimentation basin I flows to sedimentation basin II.

Preferably, aqueduct is located at the inlet front side of exhalant region I and is provided with baffle.Baffle is set to stop from inclined plate The precipitation that I slides is involved in sedimentation basin II with current.

In conclusion by adopting the above-described technical solution, the beneficial effects of the utility model are：

1. sedimentation basin I only needs the area of very little processing water is carried out flowing to mode and is precipitated.This The design floor space of sample be less than it is simple it is lower flow to mode, while make it that flowing to mode on more efficient can be adapted for sinking The processing water for forming sediment more.

2. inclined plate I and inclined plate II uses deflector type inclined plate, deposition efficiency can be increased.

3. aid in by shaking device I and shaking device II the precipitation on inclined plate I and inclined plate II respectively during desilting Slide.Thus it is good to desilt effect for the utility model.

4. water-delivery pump can provide pressure for processing water, aid in treatment water flows to sedimentation basin II from sedimentation basin I.

5. baffle can stop the precipitation from inclined plate I landings as current are involved in sedimentation basin II.

Brief description of the drawings

The utility model will illustrate by example and with reference to the appended drawing, wherein：

Fig. 1 is the structure of the utility model.

Embodiment

All features disclosed in this specification, or disclosed all methods or during the step of, except mutually exclusive Feature and/or step beyond, can combine in any way.

Elaborate with reference to Fig. 1 to the utility model.

Embodiment 1

A kind of combined inclined plate sedimentation pond, including sedimentation basin I3 and sedimentation basin II14, sedimentation basin I3 from top to bottom include into Pool I1, sloping plate deposition district I5 and exhalant region I6, sedimentation basin II14 from top to bottom include exhalant region II16, sloping plate deposition district II12 Connected with inhalant region II10, exhalant region I6 and inhalant region II10 by aqueduct 9, inhalant region I1 is provided with water inlet 2, water outlet Area II16 is provided with water outlet 15, and 2 position of water inlet is higher than water outlet 15.Multiple inclined plates are arranged in parallel with sloping plate deposition district I5 Multiple inclined plate II13 are arranged in parallel with I4, the sloping plate deposition district II12, inclined plate I4 and inclined plate II13 are by multistage inclination angle Different flat sheet combinations form.The bottom of exhalant region I6 and inhalant region II10 are provided with sludge pipe I7 and sludge pipe II11.Water delivery Water-delivery pump is provided with pipeline 9.The inlet front side that aqueduct 9 is located at exhalant region I6 is provided with baffle 8.

Sedimentation basin I3 uses lower flow direction, and sedimentation basin II14 uses upper flow direction.Sedimentation basin I3 carries out processing water preliminary sink Form sediment, be precipitated out most of flocculate and solid particle etc., and final settling tanks II14 carries out second to processing water again and sinks Form sediment.The present embodiment middle swash plate I4 and inclined plate II13 uses the baffling inclined plate formed by the different flat sheet combination in multistage inclination angle, this When sample current flow in the slit that inclined plate I4 or inclined plate II13 are formed, it can constantly change direction, the precipitation in water is due to inertia Effect is more prone to be precipitated out.

Embodiment 2

A kind of combined inclined plate sedimentation pond, including sedimentation basin I3 and sedimentation basin II14, sedimentation basin I3 from top to bottom include into Pool I1, sloping plate deposition district I5 and exhalant region I6, sedimentation basin II14 from top to bottom include exhalant region II16, sloping plate deposition district II12 Connected with inhalant region II10, exhalant region I6 and inhalant region II10 by aqueduct 9, inhalant region I1 is provided with water inlet 2, water outlet Area II16 is provided with water outlet 15, and 2 position of water inlet is higher than water outlet 15.Multiple inclined plates are arranged in parallel with sloping plate deposition district I5 Multiple inclined plate II13 are arranged in parallel with I4, the sloping plate deposition district II12, inclined plate I4 and inclined plate II13 are tablets.Exhalant region I6 Bottom shape with inhalant region II10 is funnel-form, and the lowest point of the bottom of exhalant region I6 and inhalant region II10 is respectively arranged with row Mud pipe I7 and sludge pipe II11.Water-delivery pump is provided with aqueduct 9.The inlet front side that aqueduct 9 is located at exhalant region I6 is set It is equipped with baffle 8.

The bottom shape of exhalant region I6 and inhalant region II10 are funnel-form in the present embodiment, more convenient to collect from inclined plate I4 Or the precipitation slid on inclined plate II13, while current can be weakened and roll the precipitation of bottom again.

Embodiment 3

A kind of combined inclined plate sedimentation pond, including sedimentation basin I3 and sedimentation basin II14, sedimentation basin I3 from top to bottom include into Pool I1, sloping plate deposition district I5 and exhalant region I6, sedimentation basin II14 from top to bottom include exhalant region II16, sloping plate deposition district II12 Connected with inhalant region II10, exhalant region I6 and inhalant region II10 by aqueduct 9, inhalant region I1 is provided with water inlet 2, water outlet Area II16 is provided with water outlet 15, and 2 position of water inlet is higher than water outlet 15.Multiple inclined plates are arranged in parallel with sloping plate deposition district I5 Multiple inclined plate II13 are arranged in parallel with I4, the sloping plate deposition district II12, inclined plate I4 and inclined plate II13 are tablets.Exhalant region I6 The bottom of inhalant region II10 is provided with sludge pipe I7 and sludge pipe II11.Inhalant region I1 is provided with shaking device I20, vibrations dress Put I20 to be connected with inclined plate I4 by clamping device I19, exhalant region II16 is provided with shaking device II17, and shaking device II17 leads to Clamping device II18 is crossed to be connected with inclined plate II13.Water-delivery pump is provided with aqueduct 9.Aqueduct 9 is located at exhalant region I6's Inlet front side is provided with baffle 8.

Be provided with the present embodiment respectively with inclined plate I4 and inclined plate II13 the shaking device I20 being connected and shaking device II17, it is necessary to open sludge pipe I7 and sludge pipe II11 discharges bottom accumulation after the precipitation accumulation of sedimentation basin bottom is more Precipitation.The precipitation accumulated on shaking device I20 and shaking device II17 auxiliary inclined plate I4 and inclined plate II13 can be opened at this time to slide, So as to improve the effect of spoil disposal.

Embodiment described above only expresses the embodiment of the application, its description is more specific and detailed, but simultaneously Therefore the limitation to the application protection domain cannot be interpreted as.It should be pointed out that for those of ordinary skill in the art For, on the premise of technical scheme design is not departed from, various modifications and improvements can be made, these belong to this The protection domain of application.

Claims (6)

1. A kind of 1. combined inclined plate sedimentation pond, it is characterised in that：Including sedimentation basin I (3) and sedimentation basin II (14), sedimentation basin I (3) From top to bottom include inhalant region I (1), sloping plate deposition district I (5) and exhalant region I (6), sedimentation basin II (14) from top to bottom includes Pool II (16), sloping plate deposition district II (12) and inhalant region II (10), exhalant region I (6) and inhalant region II (10) pass through water-supply-pipe Road (9) connects, and inhalant region I (1) is provided with water inlet (2), and exhalant region II (16) is provided with water outlet (15), water inlet (2) position Put and be higher than water outlet (15).
2. 2. combined inclined plate sedimentation pond described in accordance with the claim 1, it is characterised in that：It is parallel in the sloping plate deposition district I (5) Be provided with multiple inclined plate I (4), be arranged in parallel with multiple inclined plate II (13) in the sloping plate deposition district II (12), inclined plate I (4) and Inclined plate II (13) is formed by the different flat sheet combination in multistage inclination angle.
3. 3. combined inclined plate sedimentation pond described in accordance with the claim 1, it is characterised in that：Exhalant region I (6) and inhalant region II (10) Bottom shape be funnel-form, the lowest point of the bottom of exhalant region I (6) and inhalant region II (10) is respectively arranged with sludge pipe I (7) With sludge pipe II (11).
4. 4. combined inclined plate sedimentation pond described in accordance with the claim 1, it is characterised in that：Inhalant region I (1) is provided with shaking device I (20), shaking device I (20) are connected by clamping device I (19) with inclined plate I (4), and exhalant region II (16) is provided with shaking device II (17), shaking device II (17) are connected by clamping device II (18) with inclined plate II (13).
5. 5. combined inclined plate sedimentation pond described in accordance with the claim 1, it is characterised in that：Aqueduct is provided with water delivery on (9) Pump.
6. 6. combined inclined plate sedimentation pond described in accordance with the claim 1, it is characterised in that：The aqueduct (9) is located at water outlet The inlet front side of area I (6) is provided with baffle (8).