CN205442770U - Integrated sewage treatment system - Google Patents

Integrated sewage treatment system Download PDF

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Publication number
CN205442770U
CN205442770U CN201520819945.6U CN201520819945U CN205442770U CN 205442770 U CN205442770 U CN 205442770U CN 201520819945 U CN201520819945 U CN 201520819945U CN 205442770 U CN205442770 U CN 205442770U
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China
Prior art keywords
pumping plant
rotating disk
reinforced plastic
fiber reinforced
biological rotating
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CN201520819945.6U
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Chinese (zh)
Inventor
王林
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Beijing Hualing Era Technology Development Co Ltd
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Beijing Hualing Era Technology Development Co Ltd
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Priority to CN201520819945.6U priority Critical patent/CN205442770U/en
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W10/00Technologies for wastewater treatment
    • Y02W10/10Biological treatment of water, waste water, or sewage

Abstract

The utility model relates to an integrated sewage treatment system, including rotating biological disk sewage treatment plant, the prefabricated pump station of integration and cistern, rotating biological disk sewage treatment plant is linked together with the outside domestic sewage well that is used for collecting domestic sewage, the prefabricated pump station of integration respectively in rotating biological disk sewage treatment plant with the cistern is linked together. The beneficial effects of the utility model reside in that, a integrated sewage treatment system that's simple to operate, the installation is reliable, sewage treatment is efficient and energy -efficient is provided.

Description

Integrated effluent disposal system
Technical field
This utility model relates to a kind of integrated effluent disposal system.
Background technology
Along with industrial expansion, the amount of trade effluent gets more and more, therefore occurs in that various sewage disposal device, and pumping plant is one of them.Traditional pumping plant is to be built at the scene by concrete etc. to form, and construction period is usually 2-3 month, takes a substantial amount of time, material resources, financial resources.For this problem, prefabricated pumping plant (PPS, PrefabricatedPumpStation) arises at the historic moment.In prior art, the small volume of prefabricated pumping plant, in the unit interval, the flow of conveyance fluid is the least.Therefore, on the one hand, the fluid flow state in pumping plant is little on the properly functioning impact of water pump;The opposing party's aspect, less owing to being arranged on the immersible pump weight bottom pumping plant, so, although it is by being installed on bottom pumping plant from Rhizoma Nelumbinis mounting seat is unsettled, but bigger pulling force will not be produced.Simultaneously because immersible pump deadweight and power are less, the vibration produced during operation is the least.
The most domestic demand to prefabricated pumping plant and integrated effluent disposal system is the biggest, quickening along with country's Development of China's Urbanization, and national various infrastructure construction, the waste water in increasing field can not flow automatically to discharge tube, and this is accomplished by pumping plant and goes to promote and conveying.And traditional concrete pumping plant is due to big by floor space, long construction period, investment height, concrete-pool-wall easy burn into pump is cheated the factor impacts such as interior impurity deposition, increasingly can not be accepted by everybody.And integrated effluent disposal system is owing to having significant advantage and good matching performance, increasingly by everybody recognition and acceptance.It is widely used in the fields such as newly-built and the urban operating mechanism of reorganization and expansion, house, tunnel, bridge, people's air defense, there is the irreplaceable advantage of other sewage disposal system simultaneously.
Utility model content
In view of the above-mentioned problems in the prior art, main purpose of the present utility model is to solve the defect of prior art, and this utility model provides a kind of easy for installation, safe and reliable and energy-efficient integrated effluent disposal system.
This utility model provides a kind of integrated effluent disposal system, including biological rotating disk sewage-treatment plant, integrated prefabricated pumping plant and cistern, described biological rotating disk sewage-treatment plant is connected with the outside sanitary sewage well being used for collecting sanitary sewage, described integrated prefabricated pumping plant is connected with described cistern, wherein respectively at described biological rotating disk sewage-treatment plant:
nullDescribed biological rotating disk sewage-treatment plant includes main box,The right side of described main box and left side are respectively arranged with the first water inlet pipe and the first outlet pipe,Described first water inlet pipe is connected with described sanitary sewage well by main soil pipe,Described main box runs through a transfer tube,The right-hand member of described transfer tube is connected with described main soil pipe,The left side of described transfer tube is connected with described and integrated prefabricated pumping plant,Described first outlet pipe is connected with the left end of described transfer tube,Described main box top is provided with well lid,Position in the middle of in described main box is provided with multiple biological rotating disk processing unit,Each described biological rotating disk processing unit is made up of 2~6 biological rotors,It is connected by shaft coupling between the plurality of biological rotating disk processing unit,The position being positioned at the plurality of biological rotating disk processing unit bottom in described main box is provided with sludge-tank,In described main box, the side near described first water inlet pipe is provided with preliminary sedimentation tank,Multiple first drainage screen it is provided with in described preliminary sedimentation tank,In described main box, the side near described first outlet pipe is provided with filtering ponds,Described filtering ponds inner bottom part is provided with reflux pump,Multiple second drainage screen it is provided with in described filtering ponds,Described main box inner bottom part is provided with reflux line,Described reflux line one end is connected with described reflux pump,After described reflux line runs through described sludge-tank, the other end is arranged on above described preliminary sedimentation tank,Described preliminary sedimentation tank、It is connected by pipeline bottom sludge-tank and filtering ponds;
nullDescribed integrated prefabricated pumping plant includes fiber reinforced plastic barrel and pumping plant base,Described fiber reinforced plastic barrel is fixedly installed on described pumping plant base,Described fiber reinforced plastic barrel upper end is provided with opening,Safety grids and well lid it is provided with on described opening,Described well lid is arranged in described safety grids,Described fiber reinforced plastic barrel is internally provided with water pump、Pressure pipeline、First guide rail、Second guide rail、Pulverize grid、Cat ladder and pressure transducer and protection pipe,Described cat ladder is arranged in described glass fibre reinforced plastic cylinder body,Described fiber reinforced plastic barrel interior bottom portion upper surface is provided with multiple from Rhizoma Nelumbinis base,Described water pump is by the described bottom being arranged on described fiber reinforced plastic barrel from Rhizoma Nelumbinis base,Described pressure pipeline lower end is connected with the outlet of described water pump,The upper end of described pressure pipeline is connected with the second outlet pipe being arranged on described fiber reinforced plastic barrel side,On described pressure pipeline, the side near described second outlet pipe is provided with check-valves and gate valve,Side relative with described second outlet pipe on described fiber reinforced plastic barrel is provided with the second water inlet pipe,And the position of described second water inlet pipe is less than the position of described second outlet pipe,Described second water inlet pipe is connected with described transfer tube,Described second water inlet pipe is provided with pulverizing grid in the pipeline of the water inlet end being positioned within described fiber reinforced plastic barrel,Described first guide rail is arranged on inside described fiberglass reinforced plastic guide-rail,And its lower end is fixedly installed on described on Rhizoma Nelumbinis base and upper end is arranged on the inwall of described fiber reinforced plastic barrel upper end open,Described second guide rail is arranged on the side of internal and close described second water inlet pipe of described fiber reinforced plastic barrel,The upper end of described second guide rail is arranged on the inwall of described fiber reinforced plastic barrel upper end open and its lower end and described second water inlet pipe connect the end face within fiber reinforced plastic barrel is fixing,Described pressure transducer and protection pipe are arranged on the lower end of described cat ladder,Described fiber reinforced plastic barrel top side is provided with switch board;
Described cistern is arranged on the side of described integrated prefabricated pumping plant, and the 3rd water inlet pipe that described cistern is arranged by its side is connected with the second outlet pipe of described integrated prefabricated pumping plant;
Described main soil pipe is provided with the first standby inspection shaft with the junction of described first water inlet pipe and described transfer tube, and described second water inlet pipe is provided with the second standby inspection shaft with the junction of described transfer tube and described first outlet pipe.
Optionally, the plurality of biological rotating disk processing unit is three biological rotating disk processing units, it is respectively the first biological rotating disk processing unit, the second biological rotating disk processing unit and the 3rd biological rotating disk processing unit from left to right, it is uniformly arranged on the middle part in described main box, wherein, described first biological rotating disk processing unit is made up of 3 biological rotors, and described second biological rotating disk processing unit is made up of 3 biological rotors, and described 3rd biological rotating disk processing unit is made up of 2 biological rotors.
Optionally, it is fixedly installed reductor on the right side of described 3rd biological rotating disk processing unit, described 3rd biological rotating disk processing unit is connected with described reductor and rotates under it rotates, and drives described second biological rotating disk processing unit and described first biological rotating disk processing unit synchronous axial system by shaft coupling simultaneously.
Optionally, described pumping plant base includes that pumping plant base body, pumping plant base supporting square tube and pumping plant base fix flanging, described pumping plant base is fixed flanging and is arranged on the bottom of described pumping plant base body, it is that crossing distribution is fixed between flanging in described pumping plant base body and described pumping plant base that described pumping plant base props up stay tube, described pumping plant base body and described pumping plant base are fixed and are filled with resistance to compression cement sand ash in the cavity between flanging and bury material, and described pumping plant base body outer bottom circumferencial direction is provided with and multiple buries material feeding port.
Optionally, the plurality of it be three from Rhizoma Nelumbinis base and be separately positioned on the right side of described fiber reinforced plastic barrel interior bottom portion upper surface from Rhizoma Nelumbinis base, each described on Rhizoma Nelumbinis base, be fixedly installed water pump described in.
Optionally, the water outlet end of described second outlet pipe is provided with water outlet elastomeric joint, for being connected with the 3rd water inlet pipe, the inlet end of described second water inlet pipe is provided with into water elastomeric joint, for being connected with the transfer tube running through described biological rotating disk sewage-treatment plant.
Optionally, the excircle direction, top of described fiber reinforced plastic barrel is provided with multiple hanger, is used for lifting this fiber reinforced plastic barrel, described fiber reinforced plastic barrel top is provided with ventilation duct, and it is connected inside described fiber reinforced plastic barrel.
Optionally, described pumping plant base fixes the external diameter of flanging more than the external diameter bottom described pumping plant base body, described pumping plant base body outer surface lower circumference direction is provided with four and buries material feeding port, is arranged on the circumferencial direction of the outer bottom of described pumping plant base body the most symmetrically.
Optionally, a diameter of the 130~170mm of material feeding port are buried described in.
This utility model has the following advantages and beneficial effect: this utility model provides a kind of integrated effluent disposal system, this integrated effluent disposal system simple in construction and easy to use, described integrated effluent disposal system is provided with biological rotating disk sewage-treatment plant and integrated prefabricated pumping plant, wherein, this biological rotating disk sewage-treatment plant has easy for installation, simple to operate, service life length and the high feature of sewage treating efficiency, the metabolic activity of the microorganism by growing at the biological rotor within biological rotating disk, Organic substance is decomposed, simultaneously by reflux pump and reflux line, the speed of the process of sewage can be accelerated, improve water outlet efficiency, and can reach urban wastewater treatment firm pollutant emission standard;This integrated prefabricated pumping plant passes through described switch board, can be used for controlling the duty of described water pump, improve the work efficiency of operator, simultaneously by the monitoring system arranged in described switch board, and the monitoring camera that described monitoring system is arranged with described fiber reinforced plastic barrel is connected, the operation conditions of each parts in monitoring described glass fibre reinforced plastic cylinder body, achieve Based Intelligent Control and automatically run, simultaneously by this switch board, this integrated effluent disposal system can realize automatically controlling, automatically runs, unmanned and the function etc. of remotely monitoring.
Accompanying drawing explanation
Fig. 1 is the structural representation of integrated effluent disposal system of the present utility model;
Fig. 2 is the main TV structure schematic diagram changing biological rotating disk sewage-treatment plant in Fig. 1;
Fig. 3 is to change biological rotating disk sewage-treatment plant in Fig. 1 to remove the plan structure schematic diagram of well lid;
Fig. 4 is the structural representation of integrated prefabricated pumping plant in Fig. 1;
Fig. 5 is the structural representation in A-A direction in Fig. 4;
Fig. 6 is the structural representation of pumping plant base in Fig. 4;
Fig. 7 is the plan structure schematic diagram of Fig. 4.
Detailed description of the invention
With specific embodiment, this utility model is further described below with reference to accompanying drawings.
If Fig. 1 is to shown in 7: a kind of integrated effluent disposal system of this utility model embodiment, including biological rotating disk sewage-treatment plant 300, integrated prefabricated pumping plant 100 and cistern 400, described biological rotating disk sewage-treatment plant is connected with the outside sanitary sewage well 800 being used for collecting sanitary sewage, described integrated prefabricated pumping plant 100 is connected, wherein with described cistern 400 respectively at described biological rotating disk sewage-treatment plant 300:
nullDescribed biological rotating disk sewage-treatment plant 300 includes main box 308,The right side of described main box and left side are respectively arranged with the first water inlet pipe 309 and the first outlet pipe 310,Described first water inlet pipe 309 is connected with described sanitary sewage well 800 by main soil pipe 700,Described main box 308 runs through a transfer tube 200,The right-hand member of described transfer tube 200 is connected with described main soil pipe 700,The left side of described transfer tube is connected with described and integrated prefabricated pumping plant 100,Described first outlet pipe 310 is connected with the left end of described transfer tube,Described main box top is provided with well lid 301,Position in the middle of in described main box is provided with multiple biological rotating disk processing unit 302,Each described biological rotating disk processing unit is made up of 2~6 biological rotors,It is connected by shaft coupling 311 between the plurality of biological rotating disk processing unit,The position being positioned at the plurality of biological rotating disk processing unit bottom in described main box is provided with sludge-tank 303,In described main box, the side near described first water inlet pipe is provided with preliminary sedimentation tank 304,Multiple first drainage screen 313 it is provided with in described preliminary sedimentation tank,Sewage before the precipitation of preliminary sedimentation tank possibly together with part fine suspension,This partial suspended thing can be removed by this first drainage screen,Use clarification of water,In described main box, the side near described first outlet pipe is provided with filtering ponds 307,Described filtering ponds 307 inner bottom part is provided with reflux pump 306,Multiple second drainage screen (not drawing in figure) it is provided with in described filtering ponds 307,The float in filtering ponds can be removed further,The water making output is more clarified,Described main box inner bottom part is provided with reflux line 312,Described reflux line one end is connected with described reflux pump,After described reflux line runs through described sludge-tank, the other end is arranged on above described preliminary sedimentation tank,Described preliminary sedimentation tank、It is connected by pipeline bottom sludge-tank and filtering ponds,This biological rotating disk sewage-treatment plant has easy for installation、Simple to operate、Service life length and the high feature of sewage treating efficiency,The metabolic activity of the microorganism by growing at the biological rotor within biological rotating disk,Organic substance is decomposed,Simultaneously by reflux pump and reflux line,The speed of the process of sewage can be accelerated,Improve water outlet efficiency,And can reach urban wastewater treatment firm pollutant emission standard;
nullDescribed integrated prefabricated pumping plant includes fiber reinforced plastic barrel 20 and pumping plant base 21,Described fiber reinforced plastic barrel is fixedly installed on described pumping plant base,Described fiber reinforced plastic barrel upper end is provided with opening,Safety grids 14 and well lid 13 it is provided with on described opening,Described well lid is arranged in described safety grids,Described fiber reinforced plastic barrel is internally provided with water pump 1、Pressure pipeline 7、First guide rail 3、Second guide rail 4、Pulverize grid 15、Cat ladder 12 and pressure transducer and protection pipe 16,Described cat ladder 12 is arranged in described glass fibre reinforced plastic cylinder body,Described fiber reinforced plastic barrel interior bottom portion upper surface is provided with multiple from Rhizoma Nelumbinis base 2,Described water pump is by the described bottom being arranged on described fiber reinforced plastic barrel from Rhizoma Nelumbinis base,Described pressure pipeline lower end is connected with the outlet of described water pump,The upper end of described pressure pipeline is connected with the second outlet pipe 22 being arranged on described fiber reinforced plastic barrel 20 side,On described pressure pipeline, the side near described second outlet pipe is provided with check-valves 5 and gate valve 6,Side relative with described second outlet pipe 22 on described fiber reinforced plastic barrel is provided with the second water inlet pipe 9,And the position of described second water inlet pipe is less than the position of described second outlet pipe,Described second water inlet pipe 9 is connected with described transfer tube 200,Described second water inlet pipe 9 is provided with pulverizing grid 15 in the pipeline of the water inlet end being positioned within described fiber reinforced plastic barrel,Described first guide rail 3 is arranged on inside described fiberglass reinforced plastic guide-rail,And its lower end is fixedly installed on described on Rhizoma Nelumbinis base and upper end is arranged on the inwall of described fiber reinforced plastic barrel upper end open,Water pump fixing on self coupling base can be carried out current check by this first guide rail,Prevent water pump from blocking,Improve its security reliability run,Described second guide rail 4 is arranged on the side of internal and close described second water inlet pipe of described fiber reinforced plastic barrel,The upper end of described second guide rail is arranged on the inwall of described fiber reinforced plastic barrel upper end open and its lower end and described second water inlet pipe connect the end face within fiber reinforced plastic barrel is fixing,The pulverizing grid 15 being fixed at the water inlet end of described water inlet pipe can be made regular check on by this second guide rail,Prevent it from blocking,Improve its security reliability run,Described pressure transducer and protection pipe 16 are arranged on the lower end of described cat ladder,Described fiber reinforced plastic barrel top side is provided with switch board 17,Described switch board is for controlling the duty of described water pump,Improve the work efficiency of operator,It is provided with monitoring system in described switch board,The monitoring camera that described monitoring system is arranged with described fiber reinforced plastic barrel is connected,The operation conditions of each parts in monitoring described glass fibre reinforced plastic cylinder body,Achieve Based Intelligent Control and automatically run,Simultaneously by this switch board,This integrated effluent disposal system can realize automatically controlling、Automatically run、Unmanned and the function etc. of remotely monitoring;
Described cistern is arranged on the side of described integrated prefabricated pumping plant, and the 3rd water inlet pipe that described cistern is arranged by its side is connected with the second outlet pipe of described integrated prefabricated pumping plant;
Described main soil pipe is provided with the first standby inspection shaft with the junction of described first water inlet pipe and described transfer tube, and described second water inlet pipe is provided with the second standby inspection shaft with the junction of described transfer tube and described first outlet pipe.
Preferred implementation as above-described embodiment, the plurality of biological rotating disk processing unit is three biological rotating disk processing units, it is respectively the first biological rotating disk processing unit, the second biological rotating disk processing unit and the 3rd biological rotating disk processing unit from left to right, it is uniformly arranged on the middle part in described main box, wherein, described first biological rotating disk processing unit is made up of 3 biological rotors, described second biological rotating disk processing unit is made up of 3 biological rotors, and described 3rd biological rotating disk processing unit is made up of 2 biological rotors.
Preferred implementation as above-described embodiment, it is fixedly installed reductor 5 on the right side of described 3rd biological rotating disk processing unit, described 3rd biological rotating disk processing unit is connected with described reductor and rotates under it rotates, and drives described second biological rotating disk processing unit and described first biological rotating disk processing unit synchronous axial system by shaft coupling simultaneously.
Preferred implementation as above-described embodiment, described pumping plant base 21 includes pumping plant base body 211, pumping plant base supporting square tube 213 and pumping plant base fix flanging 214, described pumping plant base is fixed flanging and is arranged on the bottom of described pumping plant base body, it is that crossing distribution is fixed between flanging in described pumping plant base body and described pumping plant base that described pumping plant base props up stay tube, described pumping plant base body and described pumping plant base are fixed and are filled with resistance to compression cement sand ash in the cavity between flanging and bury material 212, described pumping plant base body outer bottom circumferencial direction is provided with multiple burying and expects feeding port 215, bury material feeding port 215 by this and filling concrete sand ash in cavity can be buried material, construct more convenient, safety simultaneously is improved.
Preferred implementation as above-described embodiment, the plurality of from Rhizoma Nelumbinis base 2 be three from Rhizoma Nelumbinis base, it is separately positioned on the right side of described fiber reinforced plastic barrel interior bottom portion upper surface, on Rhizoma Nelumbinis base, water pump 1 described in one it is fixedly installed described in each, improve the water outlet efficiency of this integrated effluent disposal system, the most described water pump can realize automatically running under the control of corresponding control system in switch board.
Preferred implementation as above-described embodiment, the water outlet end of described second outlet pipe 22 is provided with water outlet elastomeric joint 8, for being connected with the 3rd water inlet pipe 401, the inlet end of described second water inlet pipe is provided with into water elastomeric joint 11, for being connected with the transfer tube running through described biological rotating disk sewage-treatment plant.
Preferred implementation as above-described embodiment, the excircle direction, top of described fiber reinforced plastic barrel is provided with multiple hanger 19, for lifting this fiber reinforced plastic barrel, facilitate installation and the debugging in later stage, it is provided with ventilation duct 18 on described fiber reinforced plastic barrel top, it is connected inside described fiber reinforced plastic barrel, improves this fiber reinforced plastic barrel inner air circulation.
Preferred implementation as above-described embodiment, described pumping plant base fixes the external diameter of flanging 214 more than the external diameter bottom described pumping plant base body 211, described pumping plant base body outer surface lower circumference direction is provided with four and buries material feeding port 215, is arranged on the circumferencial direction of the outer bottom of described pumping plant base body the most symmetrically.
As the preferred implementation of above-described embodiment, described in bury a diameter of the 130~170mm of material feeding port, 150mm can be preferably.
Last it is noted that above-described each embodiment is merely to illustrate the technical solution of the utility model, it is not intended to limit;Although this utility model being described in detail with reference to previous embodiment, it will be understood by those within the art that: the technical scheme described in previous embodiment still can be modified by it, or wherein part or all of technical characteristic is carried out equivalent;And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of this utility model each embodiment technical scheme.

Claims (9)

1. an integrated effluent disposal system, it is characterized in that: include biological rotating disk sewage-treatment plant, integrated prefabricated pumping plant and cistern, described biological rotating disk sewage-treatment plant is connected with the outside sanitary sewage well being used for collecting sewage, described integrated prefabricated pumping plant is connected with described cistern, wherein respectively at described biological rotating disk sewage-treatment plant:
nullDescribed biological rotating disk sewage-treatment plant includes main box,The right side of described main box and left side are respectively arranged with the first water inlet pipe and the first outlet pipe,Described first water inlet pipe is connected with described sanitary sewage well by main soil pipe,Described main box runs through a transfer tube,The right-hand member of described transfer tube is connected with described main soil pipe,The left end of described transfer tube is connected with described integrated prefabricated pumping plant,Described first outlet pipe is connected with the left end of described transfer tube,Described main box top is provided with well lid,Position in the middle of in described main box is provided with multiple biological rotating disk processing unit,Each described biological rotating disk processing unit is made up of 2~6 biological rotors,It is connected by shaft coupling between the plurality of biological rotating disk processing unit,The position being positioned at the plurality of biological rotating disk processing unit bottom in described main box is provided with sludge-tank,In described main box, the side near described first water inlet pipe is provided with preliminary sedimentation tank,Multiple first drainage screen it is provided with in described preliminary sedimentation tank,In described main box, the side near described first outlet pipe is provided with filtering ponds,Described filtering ponds inner bottom part is provided with reflux pump,Multiple second drainage screen it is provided with in described filtering ponds,Described main box inner bottom part is provided with reflux line,Described reflux line one end is connected with described reflux pump,After described reflux line runs through described sludge-tank, the other end is arranged on above described preliminary sedimentation tank,Described preliminary sedimentation tank、It is connected by pipeline bottom sludge-tank and filtering ponds;
nullDescribed integrated prefabricated pumping plant includes fiber reinforced plastic barrel and pumping plant base,Described fiber reinforced plastic barrel is fixedly installed on described pumping plant base,Described fiber reinforced plastic barrel upper end is provided with opening,Safety grids and well lid it is provided with on described opening,Described well lid is arranged in described safety grids,Described fiber reinforced plastic barrel is internally provided with water pump、Pressure pipeline、First guide rail、Second guide rail、Pulverize grid、Cat ladder and pressure transducer and protection pipe,Described cat ladder is arranged in described glass fibre reinforced plastic cylinder body,Described fiber reinforced plastic barrel interior bottom portion upper surface is provided with multiple from Rhizoma Nelumbinis base,Described water pump is by the described bottom being arranged on described fiber reinforced plastic barrel from Rhizoma Nelumbinis base,Described pressure pipeline lower end is connected with the outlet of described water pump,The upper end of described pressure pipeline is connected with the second outlet pipe being arranged on described fiber reinforced plastic barrel side,On described pressure pipeline, the side near described second outlet pipe is provided with check-valves and gate valve,Side relative with described second outlet pipe on described fiber reinforced plastic barrel is provided with the second water inlet pipe,And the position of described second water inlet pipe is less than the position of described second outlet pipe,Described second water inlet pipe is connected with described transfer tube,Described second water inlet pipe is provided with pulverizing grid in the pipeline of the water inlet end being positioned within described fiber reinforced plastic barrel,Described first guide rail is arranged on inside described fiberglass reinforced plastic guide-rail,And its lower end is fixedly installed on described on Rhizoma Nelumbinis base and upper end is arranged on the inwall of described fiber reinforced plastic barrel upper end open,Described second guide rail is arranged on the side of internal and close described second water inlet pipe of described fiber reinforced plastic barrel,The upper end of described second guide rail is arranged on the inwall of described fiber reinforced plastic barrel upper end open and its lower end and described second water inlet pipe connect the end face within fiber reinforced plastic barrel is fixing,Described pressure transducer and protection pipe are arranged on the lower end of described cat ladder,Described fiber reinforced plastic barrel top side is provided with switch board;
Described cistern is arranged on the side of described integrated prefabricated pumping plant, and the 3rd water inlet pipe that described cistern is arranged by its side is connected with the second outlet pipe of described integrated prefabricated pumping plant;
Described main soil pipe is provided with the first standby inspection shaft with the junction of described first water inlet pipe and described transfer tube, and described second water inlet pipe is provided with the second standby inspection shaft with the junction of described transfer tube and described first outlet pipe.
Integrated effluent disposal system the most according to claim 1, it is characterized in that, the plurality of biological rotating disk processing unit is three biological rotating disk processing units, it is respectively the first biological rotating disk processing unit from left to right, second biological rotating disk processing unit and the 3rd biological rotating disk processing unit, it is uniformly arranged on the middle part in described main box, wherein, described first biological rotating disk processing unit is made up of 3 biological rotors, described second biological rotating disk processing unit is made up of 3 biological rotors, described 3rd biological rotating disk processing unit is made up of 2 biological rotors.
Integrated effluent disposal system the most according to claim 2, it is characterized in that, it is fixedly installed reductor on the right side of described 3rd biological rotating disk processing unit, described 3rd biological rotating disk processing unit is connected with described reductor and rotates under it rotates, and drives described second biological rotating disk processing unit and described first biological rotating disk processing unit synchronous axial system by shaft coupling simultaneously.
Integrated effluent disposal system the most according to claim 1, it is characterized in that, described pumping plant base includes pumping plant base body, pumping plant base supporting square tube and pumping plant base fix flanging, described pumping plant base is fixed flanging and is arranged on the bottom of described pumping plant base body, it is that crossing distribution is fixed between flanging in described pumping plant base body and described pumping plant base that described pumping plant base props up stay tube, described pumping plant base body and described pumping plant base are fixed and are filled with resistance to compression cement sand ash in the cavity between flanging and bury material, described pumping plant base body outer bottom circumferencial direction is provided with and multiple buries material feeding port.
Integrated effluent disposal system the most according to claim 1, it is characterized in that, the plurality of it be three from Rhizoma Nelumbinis base and be separately positioned on the right side of described fiber reinforced plastic barrel interior bottom portion upper surface from Rhizoma Nelumbinis base, each described on Rhizoma Nelumbinis base, be fixedly installed water pump described in.
Integrated effluent disposal system the most according to claim 1, it is characterized in that, the water outlet end of described second outlet pipe is provided with water outlet elastomeric joint, for being connected with the 3rd water inlet pipe, the inlet end of described second water inlet pipe is provided with into water elastomeric joint, for being connected with the transfer tube running through described biological rotating disk sewage-treatment plant.
Integrated effluent disposal system the most according to claim 1, it is characterized in that, the excircle direction, top of described fiber reinforced plastic barrel is provided with multiple hanger, is used for lifting this fiber reinforced plastic barrel, being provided with ventilation duct on described fiber reinforced plastic barrel top, it is connected inside described fiber reinforced plastic barrel.
Integrated effluent disposal system the most according to claim 4, it is characterized in that, described pumping plant base fixes the external diameter of flanging more than the external diameter bottom described pumping plant base body, described pumping plant base body outer surface lower circumference direction is provided with four and buries material feeding port, is arranged on the circumferencial direction of the outer bottom of described pumping plant base body the most symmetrically.
Integrated effluent disposal system the most according to claim 8, it is characterised in that described in bury material feeding port a diameter of 130~170mm.
CN201520819945.6U 2015-10-21 2015-10-21 Integrated sewage treatment system Withdrawn - After Issue CN205442770U (en)

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CN201520819945.6U CN205442770U (en) 2015-10-21 2015-10-21 Integrated sewage treatment system

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105198073A (en) * 2015-10-21 2015-12-30 北京华凌时代科技发展有限公司 Integrated sewage treatment system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105198073A (en) * 2015-10-21 2015-12-30 北京华凌时代科技发展有限公司 Integrated sewage treatment system

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