CN212425773U - Sewage distributed drainage pipe network collection and treatment device - Google Patents
Sewage distributed drainage pipe network collection and treatment device Download PDFInfo
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- CN212425773U CN212425773U CN202020124172.0U CN202020124172U CN212425773U CN 212425773 U CN212425773 U CN 212425773U CN 202020124172 U CN202020124172 U CN 202020124172U CN 212425773 U CN212425773 U CN 212425773U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/10—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
- Y02A40/20—Fertilizers of biological origin, e.g. guano or fertilizers made from animal corpses
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- Biological Treatment Of Waste Water (AREA)
Abstract
The utility model provides a sewage distributing type drain pipe network is collected and processing apparatus, includes miscellaneous drainage collecting pipe, the flushing water collecting pipe of family, characterized by: the miscellaneous drainage collecting pipe is connected with the upper part of the oil removal and slag removal well, the bottom of the oil removal and slag removal well is connected with the ash water treatment device through an ash water main pipe, and the reclaimed water is recycled after the water in the ash water treatment device is treated; the flushing water collecting pipe of the family is connected with the black water processor through the black water main pipe, the black water processor is connected with the black water deep processor through a pipeline, and the breeding fecal sewage collecting pipe is directly connected with the black water deep processor. Different filling rates of the fillers can be flexibly selected, so that the treatment capacity and the treatment effect are improved, and the requirements of high efficiency and long-term treatment scale enlargement without increasing the tank capacity are met; because the device adopts the glass fiber reinforced plastic cylinder, can be connected by the bolt completely, we can dismantle or reinstall the tank body after the operation of building, can accomplish the dilatation and the migration of tank body very easily.
Description
Technical Field
The utility model relates to a sewage treatment field especially involves a sewage distributing type drainage pipe network collection and processing apparatus.
Background
With the rapid development of economy and the continuous improvement of the living standard of people, the industrial and agricultural production, the domestic water consumption and the total sewage discharge amount are continuously increased, a large amount of sewage is generated in villages and towns and rural areas every year, and the sewage treatment rate of the villages and the towns at the present stage is low due to the difficult sewage dispersion and collection, the low technical level and the low management level of workers and the like. Today, environmental protection is generally focused on, and under the requirement of environmental protection on the basis of full resource utilization, an economic, efficient, energy-saving and easy-to-operate and manage sewage treatment solution must be found.
The treatment of domestic sewage is always carried out in a mode of standard treatment and discharge after all the traditional sewage is collected together, and the treatment always focuses on how to improve the treatment efficiency and reduce the treatment cost, and has a great difference with the sewage treatment carried out on the premise of emphasizing the resource utilization and improving the utilization rate of the resource utilization. In order to improve the treatment efficiency, the principle of priority of resource utilization must be achieved, and the problem of implementation in plain zones with small height difference is difficult.
Therefore, the device system design under the new route design must be carried out by changing the thought and adopting a new technical route way to meet the requirement.
SUMMERY OF THE UTILITY MODEL
In view of the above, an object of the present invention is to provide a new idea for sewage treatment and a treatment system after collecting black ash and water for resource utilization. The domestic sewage can be treated according to the beautiful environment requirement, and the grey water and the black water can be used as reclaimed water and fertilizer resources for utilization after being treated.
To the above purpose, the present invention provides a technical solution: the utility model provides a sewage distributing type drain pipe network is collected and processing apparatus, includes miscellaneous drainage collecting pipe, the flushing water collecting pipe of family, characterized by: the miscellaneous drainage collecting pipe is connected with the upper part of the oil removal and slag removal well, the bottom of the oil removal and slag removal well is connected with the ash water treatment device through an ash water main pipe, and the reclaimed water is recycled after the water in the ash water treatment device is treated; the domestic toilet flushing water collecting pipe is connected with a black water processor through a black water main pipe, the black water processor is connected with a black water deep processor through a pipeline, and the breeding fecal sewage collecting pipe is directly connected with the black water deep processor; the ash water treatment device consists of a buried pre-settling tank, an adjusting tank and an ash water treatment integrated tank, wherein the buried pre-settling tank and the adjusting tank are arranged side by side, an ash water main pipe is communicated with the buried pre-settling tank, the buried pre-settling tank is communicated with the adjusting tank in an overflow manner, a partition plate is arranged in the pre-settling tank, a water through hole is formed in the partition plate, spherical fillers are arranged in the adjusting tank, a submersible pump is arranged at the bottom of the adjusting tank, an outlet of the submersible pump is connected with the ash water treatment integrated tank through a pipeline, MBBR fillers are arranged in the ash water treatment integrated tank, a base is arranged at the bottom in the adjusting tank, a submerged fan is arranged on the base, an aeration pipeline is connected with the submerged fan and is uniformly distributed around the submerged; the black water treatment ware comprises four units of septic tank, anaerobism filtering pond, depositing reservoir, septic tank overflow intercommunication, septic tank and anaerobism filtering pond overflow intercommunication, anaerobism filtering pond and depositing reservoir overflow intercommunication, the bottom is provided with the reamer pump in the septic tank, and the export of reamer pump passes through the pipeline and is connected with the septic tank, still be equipped with in the septic tank and hang the membrane filler, be equipped with spherical filler in the anaerobism filtering pond, anaerobism filtering pond top is equipped with the shower nozzle, and the exit linkage of shower nozzle and high-pressure pump, the entry of high-pressure pump pass through the pipeline and supplement the jar with high-efficient little biological composition and be connected, be equipped with the immersible pump in the depositing reservoir, the immersible pump export passes through the pipeline and is connected with.
Preferably, a foam heat-insulating layer is arranged outside the black water depth processor, a spray head is arranged at the top in the black water depth processor, the spray head is connected with an outlet of a high-pressure pump, an inlet of the high-pressure pump is connected with a high-efficiency microorganism composition replenishing tank through a pipeline, a biogas pipeline is arranged at the top of the black water depth processor, the biogas pipeline is further connected with a pressure gauge, the tail end of the biogas pipeline is connected with a biogas water seal tank, and the biogas water seal tank is connected with a biogas emptying pipe.
Preferably, the bottom of the anaerobic filter tank in the black water processor is connected with a sludge pump inlet, a sludge pump outlet is connected with the grey water treatment integrated tank through a pipeline, and a regulating valve is connected in series in the pipeline.
As preferred, oil removal slagging-off well includes main well, sump pit, the main well sets up with the sump pit side by side, through overflow mouth intercommunication between main well and the sump pit, and main well upper portion one side is equipped with the water inlet, and main well bottom opposite side is equipped with the outlet, be equipped with in the middle of the main well and separate the sediment net, separate and be equipped with the sediment hand-basket between the wall of a well that sediment net and be close to water inlet one side, the subaerial stand that is equipped with of main well top one side, the rotatory jib that is equipped with in stand top, the jib tip has suspended in midair electric block, is equipped with the lifting hook with sediment hand-basket handle swing joint on.
Preferably, the top parts of the septic tank, the septic tank and the anaerobic filter tank are connected in series through a methane pipeline, the methane pipeline is also connected with a pressure gauge, the outlet of the methane pipeline extends to the bottom of the methane water seal tank through a water seal pipeline, the top part of the methane water seal tank is provided with a cover cap, and the top part of the cover cap is provided with a methane vent pipe.
Preferably, the grey water treatment device adopts a glass fiber reinforced plastic cylinder.
The utility model discloses the beneficial effect who has does:
1) the construction period is short, and the carbon steel anti-corrosion square tank body or the glass fiber reinforced plastic tank body is adopted, so that the civil engineering investment is saved. The treatment device is completely modularized in unit and manufactured in a standardized manner, only bolts are needed for connection on site, the installation is simple, the weather influence on the installation process is small, the installation period is easy to control, and the construction period is greatly shortened compared with that of a reinforced concrete pool and a steel structure pool;
2) the investment is saved: and a blower room is saved by adopting the submerged fan, so that a pipeline system is greatly reduced, and additional investment is saved. The introduction of carbon source-supplementing nutrients required by the grey water treatment device from the black water system reduces the infrastructure investment of the part, and the sludge discharge needs a subsequent advanced treatment device.
3) The submerged fan is adopted for aeration, bubbles are continuously sheared and collided, the contact area of the bubbles and the sewage is increased, the mass transfer efficiency and the utilization rate of oxygen are improved, the integral aeration effect is improved, and therefore energy consumption is saved, and the operation cost is correspondingly reduced. And the black water deep processor is introduced to convert the black water into the fertilizer, so that the operation cost is reduced.
4) The high impact load resistance is realized, the biomass which can be enriched in unit volume is higher due to the huge specific surface area of the suspended filler, meanwhile, the carrier particles are violently collided when the carrier is fluidized, the surface of a biological membrane is continuously updated, microorganisms are always in a vigorous growth state, the fluctuation of the quality of inlet water can be effectively dispersed, the retention time of the fertilizer in the deep black water treatment system is 60-90 days, and the cycle difference and the time difference between the fertilizer production and the agricultural production can be adjusted.
5) The treatment effect is good, the filler is in a fluidized state during aeration, so that the activated sludge in the reactor and the biomembrane growing on the surface of the carrier are fully contacted with the wastewater and the air, and the treatment effect is improved. The utility model discloses black water advanced treatment ware in the system introduces the chicken and duck excrement dirt of family, and small-scale plant and adjusts, has both solved the environmental pollution problem of family with small-scale plant, has also solved the inhomogeneous worry problem of fertilizer efficiency that domestic sewage collection process arouses.
6) The suspended filler has large specific surface area and good surface characteristic, thereby not only providing space for the growth of heterotrophic microorganisms, but also creating conditions for the growth of autotrophic microorganisms (such as nitrobacteria), being beneficial to the enrichment of dominant bacteria, solving the sludge age contradiction of nitrogen and phosphorus removal, and improving the nitrogen and phosphorus removal effect because the fluidization of the filler ensures that the biological membrane is fully contacted with wastewater and air;
7) the operation management is convenient, the F/M and the MSS do not need to be controlled manually, the problems of sludge expansion and sludge loss commonly existing in the activated sludge process are solved, and the operation management is more convenient;
8) the device is flexible in tank type design, can adopt various tank types (deep, shallow, square and round), can flexibly select different filler filling rates to achieve the purposes of improving the treatment capacity and the treatment effect, and therefore achieves the purposes of high efficiency and long-term treatment scale expansion without increasing the tank capacity.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic view of the ash processor of the present invention;
FIG. 3 is a schematic view of the structure of the black water processor of the present invention;
FIG. 4 is a schematic structural view of the black water deep processor of the present invention;
fig. 5 is an enlarged schematic view of a structure in fig. 1 according to the present invention.
Detailed Description
As shown in figure 1, the sewage distributed drainage pipe network collecting and treating device comprises a household miscellaneous drainage collecting pipe 2 and a household flushing water collecting pipe 3. The miscellaneous drainage water comprises A, B, C, D, E, F drainage water such as bath water, washing water, water for washing rice, vegetables and dishes in the kitchen, etc. The black water is excrement and sewage discharged from a toilet, the excrement and the sewage are separately collected by different main pipes (the diameter is 110 mm), the black water is a main pipe, and the miscellaneous drainage water at different outlets of the main pipe is converged outdoors and flows into the grey water main pipe.
The miscellaneous drainage collecting pipe 2 is connected with the upper part of the oil removal and slag removal well 6, the bottom of the oil removal and slag removal well is connected with the ash water treatment device 1 through an ash water main pipe 9, and the water in the ash water treatment device 1 is treated and then recycled; the household toilet flushing water collecting pipe 3 is connected with the black water processor 13 through the black water main pipe 10, and the black water processor 13 is connected with the black water deep processor 52 through a pipeline. The liquid processed by the black water deep processor 52 is output by a submersible pump 59 to be used as fertilizer. The miscellaneous drainage collecting pipe 2, the household toilet flushing water collecting pipe 3, the ash water main pipe and the black water main pipe are respectively provided with a plurality of inspection wells 12, and the inspection wells adopt pipe barrels and are flexibly connected with connecting pipes on the main pipes.
A plurality of inspection wells (12) can be arranged on the miscellaneous drainage collecting pipe (2), the household toilet flushing water collecting pipe (3), the grey water main pipe and the black water main pipe, and the inspection wells adopt pipe barrels and are flexibly connected with connecting pipes on the grey water main pipe 9 and the black water main pipe 10. The inspection well adopts a 180-degree linear access mode, a 400mm pipe barrel is additionally arranged on the inspection well, and a rotary cover is added for opening, so that the pipeline is convenient to overhaul.
As shown in fig. 2, the ash water treatment device 1 is composed of a buried pre-settling tank 28, a regulating tank 29 and an ash water treatment integrated tank 27, and can be made into an anticorrosive square tank body or a glass fiber reinforced plastic round-head sealing cylinder by adopting assembled carbon steel and glass fiber reinforced plastic.
The underground pre-settling tank 28 and the regulating tank 29 are arranged in parallel, the ash water main pipe is communicated with the underground pre-settling tank 28, the underground pre-settling tank 28 is communicated with the overflow of the regulating tank 29, a partition plate 280 is arranged in the pre-settling tank 28, a water through hole 281 is formed in the partition plate, inlet water passes through the water through hole 281 from the partition plate, the partition plate has a certain distance from the bottom, impurities and the like are deposited at the bottom, and supernatant fluid automatically flows into the regulating tank 29 after passing through the bottom.
The adjusting tank 29 is internally provided with spherical filler B30, the bottom of the adjusting tank 29 is provided with a submersible pump A36, the outlet of the submersible pump A36 is connected with the ash water treatment integrated tank 27 through a pipeline, MBBR filler 31 is arranged in the ash water treatment integrated tank 27, the bottom of the adjusting tank 29 is provided with a base, the submerged fan 38 is arranged on the base, the aeration pipeline is connected with the submerged fan 38 and is uniformly distributed around the submerged fan, the tail end of the aeration pipeline is connected with an aeration head 39, the ash water purified water treated by the ash water treatment device is conveyed to a water spraying system 41 through the submersible pump 40 to water flowers and trees, and reclaimed water is recycled, so that the purpose of resource utilization after ash water treatment is achieved.
The submerged fan is adopted for aeration and nano aeration is formed, bubbles are continuously sheared and collided, the contact area of the bubbles and sewage is increased, and the mass transfer efficiency and the utilization rate of oxygen are improved, so that the aeration mode improves the whole aeration effect, the energy consumption is saved, and the operation cost is correspondingly reduced.
As shown in fig. 3, the black water processor 13 is composed of four units of a septic tank 16, a septic tank 17, an anaerobic filter 18 and a clarification tank 19, the septic tank 16 is communicated with the septic tank 17 in an overflow manner, the septic tank 17 is communicated with the anaerobic filter 18 in an overflow manner, the anaerobic filter 18 is communicated with the clarification tank 19 in an overflow manner, a reamer pump 20 is arranged at the bottom in the septic tank 16, and no caking phenomenon occurs after the reamer type crushing pump is used.
The outlet of the reamer pump 20 is connected with the septic tank 17 through a pipeline, a film-hanging filler 23 is further arranged in the septic tank 17, the film-hanging filler is made of PP polypropylene, the specific surface area is large, and the film-hanging is fast and has the most practical microbial carrier. It is a porous netted integral structure type filler formed by mutually welding silk strips. The biological filler has good film forming property. The biological filler is arranged in the reactor, so that the biomass can be obviously improved, and a good COD removal effect is obtained.
The anaerobic filter 18 is internally provided with spherical filler A22, the top of the anaerobic filter 18 is provided with a spray head B180, the spray head B180 is connected with the outlet of a high-pressure pump B181, the inlet of the high-pressure pump B181 is connected with the high-efficiency microorganism composition replenishing tank 15 through a pipeline, the clarification tank 19 is internally provided with a submersible pump B21, and the outlet of the submersible pump B21 is connected with the black water depth processor 52 through a pipeline.
The top parts of the septic tank 16, the septic tank 17 and the anaerobic filter 18 are connected in series through a biogas pipeline 131, the biogas pipeline is also connected with a pressure gauge B24, the outlet of the biogas pipeline is connected with a biogas water seal tank B25 through a water seal pipeline 260, and the biogas water seal tank B25 is connected with a biogas emptying pipe B26. The methane emptying pipe 26 is a vertical plastic pipe with the height of 5 m and is directly emptied. The biogas water sealing function is good, and the peculiar smell is eliminated.
Specifically, as shown in fig. 5, the water seal pipeline 260 extends to the bottom of the biogas water seal tank B25, a cover 261 is arranged at the top of the biogas water seal tank B25, and a biogas emptying pipe B26 is arranged at the top of the cover. Absorbing hydrogen sulfide in the biogas through a biogas water seal tank, removing peculiar smell, and then emptying. The residence time of the black water in the treater is 5-7 days. The black water is then sent to a black water depth processor (52). The water can be sent to the water spraying system 41 through the submersible pump B21 to water flowers and trees, so that the reclaimed water can be recycled, and the purpose of resource utilization after black water treatment is achieved.
The black water deep processor 52 is externally provided with a foam heat-insulating layer 525, the top in the black water deep processor 52 is provided with a spray head A520, the spray head A520 is connected with an outlet of a high-pressure pump A521, an inlet of the high-pressure pump A521 is connected with an efficient microorganism composition replenishing tank B523 through a pipeline, the top of the black water deep processor 52 is provided with a biogas pipeline, the biogas pipeline is also connected with a pressure gauge A57, the tail end of the biogas pipeline is connected with a biogas water seal tank A58, and the biogas water seal tank A58 is connected with a biogas emptying pipe A56.
The black water processor (13) solves the problem of processing the black water collected by a user. The black water deep processor (52) solves the problems of fertilizer concentration and fertilizer efficiency. In addition, a black water treatment system is introduced to convert the black water into fertilizer, so that the operation cost is reduced. The purpose of resource utilization is achieved.
The high-efficiency microorganism composition supplementing tank A15 supplements high-efficiency microorganism compositions regularly and irregularly to improve the fermentation conversion efficiency of the black water processor and the black water deep processor; the efficient microbial composition comprises 10-20 parts of methanosarcina microbial inoculum, 5-10 parts of cellulolytic bacteria, 3-6 parts of hemicellulose decomposing bacteria, 3-6 parts of protein decomposing bacteria, 3-6 parts of organic phosphorus decomposing bacteria, 3-6 parts of ammonifying bacteria, 3-6 parts of photosynthetic bacteria yeast, 8-15 parts of microbial synergist and sodium pyrophosphate and 10-15 parts of polyaspartic acid.
The high-efficiency microbial composition improves the fermentation conversion efficiency of the black water treatment system. The efficiency can be improved by more than 35% by putting the strains into a system. And changes waste into valuable, and can improve the utilization rate of the existing simply treated wastewater to more than 60 percent.
The bottom of the black water processor 13 is connected with the inlet of a sludge pump 32, the outlet of the sludge pump is connected with the grey water processing integrated tank 27 through a pipeline, and a regulating valve 33 is connected in series in the pipeline.
The grey water is collected and treated independently, due to the lack of biochemical nutrients (the nutrients enter a black water collecting system), large-scale aerobic treatment is needed, a large amount of nutrients are added, aerobic facilities are added, the treatment effect can be improved, the one-time investment is large, and the operation cost is greatly improved. Here, the black water and grey water are operated separately and simultaneously, are operated jointly. The introduction amount is controlled by adjusting the valve 33 by introducing black water from a sludge pump of the black water treatment apparatus 13 into the gray water treatment apparatus 27 by a conventional sludge activation method in the simplest process route. The problem of nutrient supplement is solved. In addition, the problem of sludge removal by the activated sludge process is troublesome for each pollution treatment system, and a series of dehydration and drying treatments are additionally required, or further advanced treatments are required to prepare fertilizers. Here, the discharged sludge is replaced and introduced into the black water treatment apparatus 13, and the sludge is converted into a fertilizer and utilized. The sludge discharge is controlled by a control valve 35 and a sludge pump 32. The supplement system of nutrients, the aerobic system which needs to be additionally added, the sludge removal system and the subsequent treatment are skillfully integrated into the system design, and the equipment investment and the daily operation cost are not independently increased.
As shown in fig. 4, the oil-separating and slag-removing well 6 comprises a main well 62 and an oil-collecting well 66, the main well and the oil-collecting well are arranged in parallel, the main well and the oil-collecting well are communicated through an overflow port 67, one side of the upper part of the main well 62 is provided with a water inlet 61, the other side of the bottom of the main well 62 is provided with a water outlet 65, the middle of the main well is provided with a slag-separating net 68, a slag-carrying basket 63 is arranged between the slag-separating net 68 and the wall of the well close to one side of the water inlet 61, one side of the top of the main well 62 is provided with a vertical column 69 on the ground, the top of the vertical column 69 is rotatably provided with a suspension rod 692, the end part of the. The slag separation net 68 separates the lifting basket from the floating oil. The water flows out through the pore channels in the slag trap screen 68. The bottom of the main well is provided with a support frame, and the slag basket is arranged on the support frame, so that the slag basket can be removed regularly.
Kitchen organic impurities in the slag basket 63 can be thrown into the black water treatment integrated equipment 13 through the black water treatment inlet 130.
Experimental example: carry out the black water buck separately to certain village 80 family domestic aquaculture sewage and collect and handle as the example, adopt the utility model discloses a system handles, and under the normal operating condition, the business turn over water quality of water condition that black water and buck sampled is as shown in the following table.
As can be seen from the above table: the ash effluent quality of the utility model completely reaches the primary standard in GB18918-2002, and the black water reaches the secondary standard. Can completely recycle the reclaimed water.
Claims (6)
1. The utility model provides a sewage distributing type drain pipe network is collected and processing apparatus, includes miscellaneous drainage collecting pipe (2), the toilet flushing water collecting pipe (3), the aeration pipeline of family, characterized by: the miscellaneous drainage collecting pipe (2) is connected with the upper part of the oil removal and slag removal well (6), the bottom of the oil removal and slag removal well is connected with the ash water treatment device (1) through an ash water main pipe (9), and the water in the ash water treatment device (1) is treated and then recycled; the flushing toilet water collecting pipe (3) of the family is connected with a black water processor (13) through a black water main pipe (10), the black water processor (13) is connected with a black water deep processor (52) through a pipeline, the grey water processor (1) is composed of a buried pre-sedimentation tank (28), a regulating tank (29) and a grey water processing integrated tank (27), wherein the buried pre-sedimentation tank (28) and the regulating tank (29) are arranged side by side, the grey water main pipe is communicated with the buried pre-sedimentation tank (28), the buried pre-sedimentation tank (28) is communicated with the regulating tank (29) in an overflowing manner, a partition plate (280) is arranged in the pre-sedimentation tank (28), water through holes (281) are formed in the partition plate, spherical filler B (30) is arranged in the regulating tank (29), a submersible pump A (36) is arranged at the bottom of the regulating tank (29), and the outlet of the submersible pump A (36) is connected with the grey water processing integrated, MBBR fillers (31) are arranged in the ash water treatment integrated tank (27), a base is arranged at the bottom in the regulating tank (29), a submerged fan (38) is arranged on the base, the aeration pipeline is connected with the submerged fan (38) and is uniformly distributed around the submerged fan, and the tail end of the aeration pipeline is connected with an aeration head (39); the black water treatment device (13) is composed of four units of a septic tank (16), a septic tank (17), an anaerobic filter tank (18) and a clarification tank (19), the septic tank (16) is communicated with the septic tank (17) in an overflow way, the septic tank (17) is communicated with the anaerobic filter tank (18) in an overflow way, the anaerobic filter tank (18) is communicated with the clarification tank (19) in an overflow way, a reamer pump (20) is arranged at the bottom in the septic tank (16), the outlet of the reamer pump (20) is connected with the septic tank (17) through a pipeline, a film-hanging filler (23) is further arranged in the septic tank (17), a spherical filler A (22) is arranged in the anaerobic filter tank (18), a spray head B (180) is arranged at the top of the anaerobic filter tank (18), the spray head B (180) is connected with the outlet of a high-pressure pump B (181), the inlet of the high-pressure pump B (181) is connected with a high-efficiency microorganism composition, a submersible pump B (21) is arranged in the clarification tank (19), and the outlet of the submersible pump B (21) is connected with the black water depth processor (52) through a pipeline.
2. The distributed sewage drainage network collection and treatment plant of claim 1, wherein: the device is characterized in that a foam heat-insulating layer (525) is arranged outside the black water depth processor (52), a spray head A (520) is arranged at the top in the black water depth processor (52), the spray head A (520) is connected with an outlet of a high-pressure pump A (521), an inlet of the high-pressure pump A (521) is connected with a high-efficiency microorganism composition replenishing tank B (523) through a pipeline, a biogas pipeline is arranged at the top of the black water depth processor (52), a pressure gauge A (57) is further connected on the biogas pipeline, the tail end of the biogas pipeline is connected with a biogas water seal tank A (58), and the biogas water seal tank A (58) is connected with a biogas emptying pipe A (56).
3. The distributed sewage drainage network collection and treatment plant of claim 1, wherein: the bottom of an anaerobic filter (18) in the black water processor (13) is connected with the inlet of a sludge pump (32), the outlet of the sludge pump is connected with an integrated grey water processing tank (27) through a pipeline, and a regulating valve (33) is connected in series in the pipeline.
4. The distributed sewage drainage network collection and treatment plant of claim 1, wherein: oil removal slagging-off well (6) are including main well (62), sump (66), the main well sets up with the sump side by side, through overflow mouth (67) intercommunication between main well and the sump, main well (62) upper portion one side is equipped with water inlet (61), and main well (62) end opposite side is equipped with outlet (65), be equipped with in the middle of the main well and separate sediment net (68), separate to be equipped with between sediment net (68) and the wall of a well that is close to water inlet (61) one side sediment basket (63), be equipped with stand (69) on the ground of main well (62) top one side, stand (69) top rotation is equipped with jib (692), and the jib tip has suspended in midair electric block (691), is equipped with on electric block (691) and carries basket (63) handle swing joint's lifting hook (690).
5. The distributed sewage drainage network collection and treatment plant of claim 1, wherein: the septic tank (16), the septic tank (17) and the anaerobic filter tank (18) are connected in series through a methane pipeline (131), a pressure gauge B (24) is further connected to the methane pipeline, the outlet of the methane pipeline extends to the bottom of a methane water seal tank B (25) through a water seal pipeline (260), a cover cap (261) is arranged at the top of the methane water seal tank B (25), and a methane vent pipe B (26) is arranged at the top of the cover cap.
6. The distributed sewage drainage network collection and treatment plant of claim 1, wherein: the grey water treatment device (1) adopts a glass fiber reinforced plastic cylinder.
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| CN202020124172.0U CN212425773U (en) | 2020-01-20 | 2020-01-20 | Sewage distributed drainage pipe network collection and treatment device |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113371914A (en) * | 2021-07-12 | 2021-09-10 | 台州市路桥水立方净水器有限公司 | Kitchen water ash water treatment recycling system |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113371914A (en) * | 2021-07-12 | 2021-09-10 | 台州市路桥水立方净水器有限公司 | Kitchen water ash water treatment recycling system |
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Denomination of utility model: A sewage distributed drainage network collection and treatment device Granted publication date: 20210129 Pledgee: Hankou Bank Co.,Ltd. Xiantao sub branch Pledgor: HUBEI TIANLAN DILYU ECOLOGICAL TECHNOLOGY CO.,LTD. Registration number: Y2024980000856 |