CN214990940U

CN214990940U - Integrated sewage treatment system

Info

Publication number: CN214990940U
Application number: CN202120097583.XU
Authority: CN
Inventors: 陈洁; 张环茹; 高琳琳; 王凯; 方先金; 梁鹏; 霍飞
Original assignee: Beijing Capital Qing Yuan Environmental Technology Co ltd
Current assignee: Beijing Capital Qing Yuan Environmental Technology Co ltd
Priority date: 2021-01-14
Filing date: 2021-01-14
Publication date: 2021-12-03
Anticipated expiration: 2031-01-14

Abstract

The utility model provides an integration sewage treatment system, include: the sewage treatment device comprises a sewage treatment device body, a first water distribution partition plate, a second water distribution partition plate, a first partition plate assembly, a second partition plate assembly, a third partition plate assembly and a fourth partition plate assembly, wherein through holes are uniformly formed in the second water distribution partition plate, the first partition plate assembly, the second partition plate assembly, the third partition plate assembly and the fourth partition plate assembly. The utility model discloses a water distribution baffle and baffle subassembly divide into the functional area of a plurality of relatively independent and intercommunication with the sewage treatment plant body, can effectively improve and control this internal sewage flow state of sewage treatment plant, and the water distribution is even, guarantees that the sewage flow state is stable, and volume utilization is high, practices thrift area, and sewage treatment efficiency is high, and shock resistance is strong.

Description

Integrated sewage treatment system

Technical Field

The utility model relates to a sewage treatment device technical field especially relates to an integration sewage treatment system.

Background

The integrated sewage treatment equipment combines procedures of a pre-deoxidation tank, an anoxic tank, an anaerobic tank, an aerobic tank, a secondary sedimentation tank, a coagulation tank, a sedimentation tank and the like in the same device, and integrates complex processes. Can be widely applied to treating domestic sewage of tourist scenic spots, living districts, villas, office buildings, hotels and the like in rural areas, scenic spots, historic sites and the like and similar industrial organic wastewater.

The existing integrated sewage treatment equipment has the problems of non-uniform water distribution, unsatisfactory sewage flow state in an equipment functional area, serious short flow condition and low sewage treatment efficiency, so that the volume of the integrated equipment is increased to achieve a preset treatment effect, and the occupied area is large. Therefore, how to improve the utilization rate of the equipment volume is a problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

The utility model provides an integrated sewage treatment system for solve the water distribution that exists among the prior art inhomogeneous, sewage flow state is unsatisfactory, the short flow condition is serious and sewage treatment inefficiency defect.

The utility model provides an integration sewage treatment system, include: the sewage treatment device comprises a sewage treatment device body, a first water distribution partition plate, a second water distribution partition plate, a first partition plate component, a second partition plate component, a third partition plate component and a fourth partition plate component, wherein through holes are uniformly distributed on the second water distribution partition plate, the first partition plate component, the second partition plate component, the third partition plate component and the fourth partition plate component, the first water distribution partition plate is arranged at the upper half part between a pre-anoxic zone and an anoxic zone of the sewage treatment device body, the first partition plate component is arranged and communicated between the anoxic zone and an anaerobic zone of the sewage treatment device body, the second partition plate component is arranged and communicated between the aerobic zone and the aerobic zone of the sewage treatment device body, the third partition plate component is arranged and communicated between the aerobic zone and a secondary sedimentation zone of the sewage treatment device body, the second water distribution partition plate is arranged and communicated between a secondary sedimentation zone and a coagulation zone of the sewage treatment device body, and the fourth clapboard component is installed and communicated between the coagulation area and the precipitation area of the sewage treatment device body.

Wherein, the first water distribution clapboard is constructed as a bevel baffle.

The first partition plate component comprises a third water distribution partition plate and a fourth water distribution partition plate which are arranged in a clearance mode, the fourth water distribution partition plate is located on the upper half portion of the third water distribution partition plate, and first openings are formed in the third water distribution partition plate.

The second partition plate component comprises a fifth water distribution partition plate and a sixth water distribution partition plate which are arranged in a clearance mode, the sixth water distribution partition plate is located on the upper half portion of the fifth water distribution partition plate, and second openings are formed in the fifth water distribution partition plate.

The third partition plate assembly comprises a seventh water distribution partition plate and an eighth water distribution partition plate which are arranged in a clearance mode, the eighth water distribution partition plate is located on the upper half portion of the seventh water distribution partition plate, and third openings are formed in the seventh water distribution partition plate.

The fourth partition plate component comprises a ninth water distribution partition plate and a tenth water distribution partition plate which are arranged in a clearance mode, the tenth water distribution partition plate is located on the upper half portion of the ninth water distribution partition plate, and fourth holes and fifth holes are formed in the ninth water distribution partition plate.

The anaerobic treatment device comprises a pre-deoxygenation zone, an anoxic zone, an anaerobic zone, an aerobic zone, a secondary sedimentation zone, a coagulation zone and a sedimentation zone, wherein the device also comprises a support frame, and the support frame is respectively arranged at the bottoms of the pre-deoxygenation zone, the anoxic zone, the anaerobic zone, the aerobic zone, the secondary sedimentation zone, the coagulation zone and the sedimentation zone.

The device comprises a support frame, a secondary sedimentation area, a first sedimentation baffle, a second sedimentation baffle and a second sedimentation baffle, wherein the device further comprises the first sedimentation baffle and the second sedimentation baffle, the first sedimentation baffle is arranged on the support frame of the secondary sedimentation area, and the second sedimentation baffle is arranged on the support frame of the sedimentation area.

Wherein, still include the manhole, the manhole set up respectively in advance the deoxidation district the anoxic zone anaerobic zone the aerobic zone the secondary sedimentation district the coagulation district with the top in sedimentation district.

The utility model provides a pair of integration sewage treatment system adopts water distribution baffle and baffle subassembly to divide into the functional area of a plurality of relatively independent and intercommunication with the sewage treatment plant body, can effectively improve and control this internal sewage flow state of sewage treatment plant, and the water distribution is even, guarantees that the sewage flow state is stable, and volume utilization rate is high, practices thrift area, and sewage treatment efficiency is high, and shock resistance is strong.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the following briefly introduces the drawings required for the embodiments or the prior art descriptions, and obviously, the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of an integrated sewage treatment system provided by the present invention;

FIG. 2 is a top view of the integrated sewage treatment system provided by the present invention;

FIG. 3 is a right side view of the integrated sewage treatment system provided by the present invention;

FIG. 4 is a top view of the internal structure of the integrated sewage treatment system provided by the present invention;

fig. 5 is a schematic cross-sectional view of a third water distribution partition plate provided by the present invention;

fig. 6 is a schematic cross-sectional view of a ninth water distribution partition plate provided by the present invention;

fig. 7 is a schematic cross-sectional view of a fourth water distribution partition plate provided by the present invention;

fig. 8 is a schematic cross-sectional view of a first water distribution partition plate provided by the present invention;

fig. 9 is a side view of the first water distribution partition plate provided by the present invention.

Reference numerals:

001: this 002 of sewage treatment plant: a water outlet pipe; 003: a support leg; a body;

1: a pre-deoxygenation zone; 2: an anoxic zone; 3: an anaerobic zone;

4: an aerobic zone; 5: a secondary sedimentation zone; 6: a coagulation zone;

7: a settling zone; 011: a first support frame; 012: a second support frame;

013: a third support frame; 014: a fourth support frame; 015: a fifth support frame;

016: a sixth support frame; 021: a manhole; 11: a first water distribution partition plate;

21: a third water distribution partition plate; 31: a fourth water distribution partition plate; 32: a fifth water distribution partition plate;

41: a sixth water distribution partition plate; 42: a seventh water distribution partition plate; 51: an eighth water distribution partition plate;

52: a second water distribution partition plate; 61: a ninth water distribution partition; 71: a tenth water distribution partition;

531: a first settling baffle; 721: a second settling baffle; 211: a first opening;

611: a fourth opening; 612: and a fifth opening.

Detailed Description

To make the objects, technical solutions and advantages of the present invention clearer, the drawings of the present invention are combined to clearly and completely describe the technical solutions of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The integrated sewage treatment system of the present invention will be described with reference to fig. 1 to 9, which includes: the sewage treatment device comprises a sewage treatment device body 001, a first water distribution clapboard 11, a second water distribution clapboard 52, a first clapboard component, a second clapboard component, a third clapboard component and a fourth clapboard component, through holes are uniformly distributed on the second water distribution clapboard 52, the first clapboard component, the second clapboard component, the third clapboard component and the fourth clapboard component, the first water distribution clapboard 11 is arranged at the upper half part between a pre-deoxidation area 1 and an anoxic area 2 of the sewage treatment device body 001, the first clapboard component is arranged and communicated between the anoxic area 2 and an anaerobic area 3 of the sewage treatment device body 001, the second clapboard component is arranged and communicated between the anaerobic area 3 and an aerobic area 4 of the sewage treatment device body 001, the third clapboard component is arranged and communicated between the aerobic area 4 and a secondary sedimentation area 5 of the sewage treatment device body 001, the second water distribution clapboard 52 is arranged and communicated between a secondary sedimentation area 5 and a coagulation area 6 of the sewage treatment device body 001, the fourth baffle assembly is installed and communicated between the coagulation zone 6 and the sedimentation zone 7 of the sewage treatment device body 001.

Specifically, in this embodiment, the sewage treatment apparatus body 001 is divided into different functional areas by the water distribution partition plate and the partition plate assembly. One end of sewage treatment plant body 001 sets up outlet pipe 002, the bottom sets up landing leg 003, it divides into in advance deoxidation district 1 inside, anoxic zone 2, anaerobic zone 3, good oxygen district 4, secondary sedimentation district 5, a plurality of functional areas such as district 6 and sedimentation district 7 coagulate, outlet pipe 002 sets up in the exit of sedimentation district 7, in proper order with first water distribution baffle 11, first baffle subassembly, second baffle subassembly, third baffle subassembly, second water distribution baffle 52 and fourth baffle subassembly install between two adjacent functional areas, and guarantee the circulation of sewage.

The sewage treatment plant body 001 of this embodiment sets up oxygen removal district 1 in advance, combines the water distribution baffle, regulates and control the dissolved oxygen and the organic matter nutrient substance in each functional area, for the microorganism grows to breed and provides suitable living environment, the pollutant is got rid of efficiently, and shock resistance is strong.

The utility model provides a pair of integration sewage treatment system adopts water distribution baffle and baffle subassembly to divide into the functional area of a plurality of relatively independent and intercommunication with sewage treatment plant body 001, can effectively improve and control the sewage flow state in sewage treatment plant body 001, and the water distribution is even, guarantees that the sewage flow state is stable, and volume utilization is high, practices thrift area, and sewage treatment efficiency is high, and shock resistance is strong.

In one embodiment, as shown in fig. 8 and 9, the first water distribution partition 11 is configured as a baffle plate, the baffle plate is installed at the upper half part of the sewage treatment device body 001, and sewage in the pre-deoxygenation zone 1 can pass through the lower area of the baffle plate and flow to the anoxic zone 2. Furthermore, the bevel baffle plate consists of a vertical baffle plate and an inclined baffle plate, wherein the included angle between the vertical baffle plate and the inclined baffle plate ranges from 100 degrees to 125 degrees.

In one embodiment, the first partition assembly includes a third water distribution partition 21 and a fourth water distribution partition 31, which are arranged in a gap, the fourth water distribution partition 31 is located at the upper half portion of the third water distribution partition 21, and the third water distribution partition 21 is provided with first openings 211.

Similarly, the second partition assembly includes a fifth water distribution partition 32 and a sixth water distribution partition 41, which are disposed at a gap, and the sixth water distribution partition 41 is located at the upper half portion of the fifth water distribution partition 32, and the fifth water distribution partition 32 is provided with a second opening.

Similarly, the third partition assembly includes a seventh water distribution partition 42 and an eighth water distribution partition 51, which are disposed at a gap, the eighth water distribution partition 51 is located at the upper half portion of the seventh water distribution partition 42, and the seventh water distribution partition 42 is provided with a third opening.

As shown in fig. 5 and 7, the first, second and third baffle assemblies of the above embodiment are each composed of two parallel water distribution baffles. Wherein, the diameter of the first partition (i.e. the third water distribution partition 21, the fifth water distribution partition 32 and the seventh water distribution partition 42) is the same as the inner diameter of the cylinder of the sewage treatment device body 001 (i.e. as shown in fig. 5); the second partition plate (i.e. the fourth water distribution partition plate 31, the sixth water distribution partition plate 41 and the eighth water distribution partition plate 51) behind the first partition plate is a segmental partition plate and is installed on the upper half part of the cylinder (i.e. as shown in fig. 7), and the sewage of the adjacent functional areas passes through the open holes on the first partition plate and enters the gap between the first partition plate and the second partition plate, and finally passes through the lower area of the second partition plate.

Further, the fourth partition assembly includes a ninth water distribution partition 61 and a tenth water distribution partition 71 which are arranged in a gap, the tenth water distribution partition 71 is located at the upper half portion of the ninth water distribution partition 61, and the ninth water distribution partition 61 is provided with fourth openings 611 and fifth openings 612. The fourth separator assembly in this embodiment is similar to the first separator assembly, the second separator assembly, and the third separator assembly, except that: in this embodiment, the ninth water distribution partition 61 is provided with two sets of openings (i.e., the fourth opening 611 and the fifth opening 612 in fig. 6) for passing the sewage.

It can be understood that the second water distribution partition plate 52 is arranged in a different manner from the above partition plate assembly, and the second water distribution partition plate 52 is a single partition plate vertically arranged and provided with openings.

Through the water distribution mode that angle baffle, second water distribution baffle 52 and first baffle subassembly, second baffle subassembly, third baffle subassembly and fourth baffle subassembly above constitute by the baffle of two parallels for the sewage flow state is more stable in the equipment, and volume utilization is high, practices thrift area, and anti impact force is strong.

In one embodiment, the integrated sewage treatment system further comprises support frames which are respectively arranged at the bottoms of the pre-deoxygenation zone 1, the anoxic zone 2, the anaerobic zone 3, the aerobic zone 4, the secondary sedimentation zone 5, the coagulation zone 6 and the sedimentation zone 7. In this embodiment, a support frame is arranged at the bottom of each functional area of the sewage treatment device body 001, and the support frame is specifically arranged as follows: the pre-deoxidation area 1 and the anoxic area 2 are provided with a first support frame 011; the anaerobic zone 3 is provided with a second support frame 012, and the aerobic zone 4 is provided with a third support frame 013; the secondary sedimentation zone 5 is provided with a fourth support frame 014; the coagulation zone 6 is provided with a fifth support frame 015; the sedimentation zone 7 is provided with a sixth support basket 016. The support frame is made of corrosion-resistant stainless steel materials or composite resin materials, and supporting equipment and the aeration device can be conveniently installed by arranging the support frame.

In one embodiment, the integrated sewage treatment system further comprises a first sedimentation baffle 531 and a second sedimentation baffle 721, wherein the first sedimentation baffle 531 is arranged on the support frame of the secondary sedimentation zone 5, and the second sedimentation baffle 721 is arranged on the support frame of the sedimentation zone 7. In this embodiment, the first settling baffles 531 and the second settling baffles 721 respectively disposed on the fourth supporting frame 014 and the sixth supporting frame 016 are beneficial to settling and collecting suspended matters. Specifically, the angle of the hopper formed by the first precipitation baffle 531 and the second precipitation baffle 721 is not less than 60 degrees, the selected material is the same as the material of the sewage treatment device body 001 and the water distribution partition plate, and the hopper can be made of glass fiber reinforced plastic or metal.

In one embodiment, the integrated sewage treatment system further comprises manholes 021, wherein the manholes 021 are respectively arranged at the tops of the pre-deoxygenation zone 1, the anoxic zone 2, the anaerobic zone 3, the aerobic zone 4, the secondary sedimentation zone 5, the coagulation zone 6 and the sedimentation zone 7 and are used for maintenance and operation. The size of the manhole 021 is preferably round with the diameter of 800mm or rectangular with the size of 600mm multiplied by 1200mm, and can be adjusted according to the size of sewage treatment equipment, the manhole 021 is 600mm higher than the device cylinder, the height can be adjusted according to the installation condition of the sewage treatment equipment, and the manhole is matched with a resin manhole cover, and the thickness of the manhole cover is more than or equal to 100 mm.

Based on above embodiment, the utility model discloses an integration sewage treatment system, sewage treatment plant body 001, water distribution baffle and sediment baffle adopt glass fiber reinforced plastic to make, and the support frame adopts corrosion-resistant and ageing-resistant materials such as stainless steel to make, and long service life can adopt the aboveground formula, also can bury underground below the earth's surface, and the higher authority is afforested, and the environmental protection is pleasing to the eye.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims

1. An integrated sewage treatment system, comprising: the sewage treatment device comprises a sewage treatment device body, a first water distribution partition plate, a second water distribution partition plate, a first partition plate component, a second partition plate component, a third partition plate component and a fourth partition plate component, wherein through holes are uniformly distributed on the second water distribution partition plate, the first partition plate component, the second partition plate component, the third partition plate component and the fourth partition plate component, the first water distribution partition plate is arranged at the upper half part between a pre-anoxic zone and an anoxic zone of the sewage treatment device body, the first partition plate component is arranged and communicated between the anoxic zone and an anaerobic zone of the sewage treatment device body, the second partition plate component is arranged and communicated between the aerobic zone and the aerobic zone of the sewage treatment device body, the third partition plate component is arranged and communicated between the aerobic zone and a secondary sedimentation zone of the sewage treatment device body, the second water distribution partition plate is arranged and communicated between a secondary sedimentation zone and a coagulation zone of the sewage treatment device body, and the fourth clapboard component is installed and communicated between the coagulation area and the precipitation area of the sewage treatment device body.

2. The integrated wastewater treatment system of claim 1, wherein the first water distribution baffle is configured as a dog-ear baffle.

3. The integrated sewage treatment system of claim 1 wherein the first partition assembly comprises a third water distribution partition and a fourth water distribution partition, the third and fourth water distribution partitions being spaced apart from each other, the fourth water distribution partition being located at an upper half portion of the third water distribution partition, the third water distribution partition being provided with first openings.

4. The integrated sewage treatment system of claim 1 wherein the second partition assembly comprises a fifth water distribution partition and a sixth water distribution partition, the fifth water distribution partition and the sixth water distribution partition being spaced apart from each other, the sixth water distribution partition being located at an upper half portion of the fifth water distribution partition, the fifth water distribution partition being provided with second openings.

5. The integrated sewage treatment system of claim 1 wherein the third partition assembly comprises a seventh water distribution partition and an eighth water distribution partition, the seventh water distribution partition and the eighth water distribution partition being spaced apart from each other, the eighth water distribution partition being located at an upper half portion of the seventh water distribution partition, the seventh water distribution partition being provided with third openings.

6. The integrated sewage treatment system of claim 1 wherein the fourth partition assembly comprises a ninth water distribution partition and a tenth water distribution partition, the ninth water distribution partition and the tenth water distribution partition being spaced apart from each other, the tenth water distribution partition being located at an upper half portion of the ninth water distribution partition, the ninth water distribution partition being provided with fourth openings and fifth openings.

7. The integrated sewage treatment system of claim 1, further comprising a support frame disposed at the bottom of the pre-deoxygenation zone, the anoxic zone, the anaerobic zone, the aerobic zone, the secondary sedimentation zone, the coagulation zone, and the sedimentation zone, respectively.

8. The integrated sewage treatment system of claim 7 further comprising a first settling baffle disposed on the support frame of the secondary settling zone and a second settling baffle disposed on the support frame of the settling zone.

9. The integrated sewage treatment system of claim 1, further comprising manholes respectively disposed at tops of the pre-deoxygenation zone, the anoxic zone, the anaerobic zone, the aerobic zone, the secondary sedimentation zone, the coagulation zone, and the sedimentation zone.