CN217732896U - One-stop rural decentralized sewage treatment equipment - Google Patents

Abstract

The utility model discloses a rural decentralized sewage treatment device of one-stop type belongs to sewage treatment technical field. The utility model discloses a pretreatment of water device, multiple reverse circulation mud membrane coupling biochemical reaction system, sedimentation tank, disinfection pond, mud storage pond and equipment electric cabinet advance, multiple reverse circulation mud membrane coupling biochemical reaction system include non-aeration tank and aeration tank to and pneumatic muddy water circulating device, impeller circulation aeration device and pneumatic intermittent type agitating unit, non-aeration tank and aeration tank, sedimentation tank, disinfection pond, store the mud pond and splice jointly and form cylindricly. The utility model discloses having fused multiple reverse circulation mud membrane coupling technique, impeller circulation aeration technique, pneumatic circulation technique, pneumatic row's mud technique and pneumatic stirring technique, when having reinforceed sewage treatment's biological nitrogen and phosphorus removal function, having improved the treatment effect of organic matter and ammonia nitrogen, the full automatic operation of equipment, daily need not artificial intervention, has effectively reduced artifical running cost.

Description

One-stop rural decentralized sewage treatment equipment

Technical Field

The utility model relates to a sewage treatment technical field, more specifically say, relate to a rural decentralized sewage treatment device of one-stop type.

Background

With the vigorous promotion of the happy construction of beautiful villages in China, the research and the application of the rural sewage treatment technology and equipment are rapidly developed. At present, the rural sewage treatment is mostly carried out in the same centralized collection treatment mode as that of a town sewage treatment plant, namely, a sewage treatment station is built by taking a village or a town as a unit, and a pipe network facility meeting a certain sewage collection rate requirement is laid in a matched manner. Because rural sewage treatment scale is smaller, the structural form of the main treatment process of the current sewage station generally adopts integrated sewage treatment equipment.

However, the centralized treatment mode is not suitable for all rural sewage treatment. Firstly, rural areas in China are wide, the difference of landforms is large, and the population density is different, so that sewage collection in some rural areas is difficult, and the investment cost of a pipe network is high; on the other hand, infrastructure construction such as rural roads is laggard, and mountainous areas or remote rural areas are worse, and the problem of difficult transportation and approach often exists due to the large size of the centralized integrated sewage treatment equipment; on the other hand, during rural pipe network construction, in order to save investment, the current rainwater pipeline or ditch is often utilized, so that rainwater and sewage are difficult to strictly shunt, the water quantity and water quality change is large, and the stable operation of treatment facilities is very unfavorable; in addition, rural land is generally basic farmland in nature, and the construction land is few, so that the problem of difficult site selection in the construction of a centralized sewage treatment station still exists. Therefore, the distributed processing or the household processing is adopted according to local conditions, and the method is an effective supplement to the existing centralized processing mode.

At present, the distributed sewage treatment equipment generally adopts an activated sludge method or a biomembrane method. The activated sludge method cannot adapt to the characteristic of large water quality and water quantity fluctuation of rural sewage, and the denitrification and dephosphorization treatment effect is unstable; the biomembrane method does not have the function of biological phosphorus removal, and needs to add a phosphorus removal medicament or adopt electrochemical phosphorus removal, thereby increasing the operation cost and complicating the operation management. In addition, most of the existing distributed sewage treatment equipment is matched with a stirrer, a reflux pump, a sludge discharge pump and the like, so that the equipment cost is high, the number of fault points is large, and the energy consumption is high; and the equipment only comprises a main treatment process reaction tank, and a sewage station also needs to be matched with auxiliary structures (buildings) such as a regulating tank, a sludge storage tank, a disinfection tank, an equipment room and the like, so that the problems of high capital investment, long construction period and the like are caused.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved by the utility model

Aiming at the defects and deficiencies in the prior art, the utility model provides a one-stop rural decentralized sewage treatment device, the utility model adopts a one-stop process design, the device highly integrates the full treatment process for treating sewage to reach local agricultural sewage discharge standard and reuse standard, has the complete function of a sewage treatment station, does not need any auxiliary structures and buildings such as an adjusting tank, a sludge storage tank, a disinfection tank and a device room, and also does not need the purchase and installation of other matching devices such as a grating and a water pump, the device installation is simple, and the occupied area, the construction cost and the construction period of the sewage station are greatly reduced; in addition, the utility model adopts a distributed processing mode, which can be used by a plurality of households as well as a single household, and can effectively reduce the construction investment of sewage pipe networks; in addition, the utility model integrates multiple reverse circulation sludge film coupling technology, impeller circulation aeration technology, pneumatic circulation technology, pneumatic sludge discharge technology and pneumatic stirring technology, enhances the biological nitrogen and phosphorus removal function of sewage treatment, improves the treatment effect of organic matters and ammonia nitrogen, realizes sludge suspension, sludge water circulation and residual sludge discharge only by pneumatic force, saves mechanical stirring equipment and a circulating pump, and reduces the energy consumption by more than 80%; furthermore, the utility model discloses the full automatic operation of equipment, daily need not artificial intervention, effectively reduced the manual operation cost, effectively solved the difficult problem of the weak fortune dimension of rural technical strength in addition.

2. Technical scheme

In order to achieve the above purpose, the utility model provides a technical scheme does:

the utility model discloses a rural dispersion sewage treatment device of one-stop type, include pretreatment of water device, multiple reverse circulation mud membrane coupling biochemical reaction system, sedimentation tank, disinfection pond, store mud pond and equipment electric cabinet, its characterized in that: the multiple reverse circulation sludge-membrane coupling biochemical reaction system comprises a non-aeration tank, an aeration tank, a pneumatic sludge-water circulating device, a wave wheel circulation aeration device and a pneumatic intermittent stirring device, wherein the non-aeration tank, the aeration tank, a sedimentation tank, a disinfection tank and a sludge storage tank are jointly spliced into a cylinder shape, and a full-automatic operation control system, an aeration air pump, a power air pump and a movable pneumatic desilting device are arranged in an electric cabinet of the equipment.

Furthermore, the water inlet pretreatment device comprises a water inlet pipe, a box-type pore plate grating and a grating limiting bracket; the top of the box-type pore plate grating is provided with a lifting rod or a lifting chain which is used for taking out the grating periodically and cleaning grating slag in the box; the aperture of the grating is 3-10 mm.

Furthermore, the non-aeration tank is divided into a plurality of grids in series by a plurality of partition plates, and the number of the grids is not less than an even number; downward flow exists in the odd lattices, upward flow exists in the even lattices, suspended fillers are arranged in the downward flow lattices, the downward flow lattices are in a mud film coupling state, and the filling rate is 20-50%; the upward flow grids are in a completely mixed state with activated sludge; the bottom and the top of the plurality of partition plates are respectively provided with a bottom square water passing hole and a top square water passing hole in sequence, the positions of the holes of the adjacent partition plates are in a diagonal relation on a plane and are in an up-and-down alternating relation in the vertical direction, the holes are square or rectangular, and the length and the width of the holes are not less than 80mm;

the aeration tank is divided into 2 grids connected in series by a partition plate, a suspension ball filler and a wave wheel circulating aeration device are arranged in the tank, the aeration tank is in a mud film coupling state, and the filling rate is 5% -20%; the impeller circulating aeration device comprises an aeration air pump and an aerator, the aerator is a nano micropore aeration pipe or a disc type micropore aerator, and the aerator is arranged at the bottom of one side of each aeration tank;

the pneumatic mud-water circulating device comprises a mud-water pipeline, an air pipeline and two sets of air distribution valve groups connected in parallel, and multiple reverse circulation of mud-water among the non-aeration tank, the aeration tank and the sedimentation tank is realized by utilizing the air stripping principle; the multiple reverse circulation comprises sludge-water mixed liquid reverse circulation among grids in the non-aeration tank, nitrification liquid reverse circulation among the aeration tank and the non-aeration tank and sludge reverse circulation among the sedimentation Chi Yufei aeration tank, and is used for realizing high-efficiency biological nitrogen and phosphorus removal; one end of the air pipeline is connected with an inlet of the muddy water pipeline, and the other end of the air pipeline is sequentially connected with the air distribution valve bank and the power air pump; the air distribution valve group comprises a distributor, a manual valve and an electromagnetic valve, an air inlet pipe of the distributor is sequentially connected with the electromagnetic valve and a power air pump, an air outlet pipe is connected with 3 air pipelines connected in parallel, each air pipe is provided with the manual valve, and the manual valve is used for adjusting the circulation flow; the electromagnetic valve is controlled by a full-automatic operation control system to switch a circulation strategy;

the pneumatic intermittent stirring device comprises an air pipeline and an air distribution valve bank, wherein one end of the air pipeline is arranged at the bottom of all upward flow grids in the non-aeration tank, a five-way joint is arranged at the end of the air pipeline, the other end of the air pipeline is connected with the air distribution valve bank, and the air distribution valve bank is controlled by a full-automatic operation control system to periodically operate and is used for regulating and controlling the sludge concentration in the non-aeration tank.

Furthermore, the sedimentation tank comprises a water distribution guide cylinder, a mud bucket, a water collection guide pipe and a pneumatic mud discharging device;

the water distribution guide cylinder is arranged on the sedimentation Chi Yiduan, and the water from the aeration tank flows in from the top of the water distribution guide cylinder and flows out from the bottom into the sedimentation tank;

the water collecting and guiding pipe is arranged at the other end of the sedimentation tank far away from the water distributing and guiding cylinder, the water inlet end of the water collecting and guiding pipe is provided with a horn-shaped water collecting port and an exhaust pipe, the water outlet end of the water collecting and guiding pipe is connected to the bottom of the disinfection tank, and the effluent of the sedimentation tank enters the disinfection tank from top to bottom through the water collecting and guiding pipe;

the pneumatic mud discharging device comprises a mud discharging pipe and an air pipeline; one end of the mud discharging pipe is arranged at the bottom of the mud bucket, the end head of the mud discharging pipe is provided with a five-way joint, and the other end of the mud discharging pipe is arranged above the liquid level at the top of the mud storage pool; one end of the air pipe is sequentially connected with the electromagnetic valve and the power air pump, the other end of the air pipe is connected with the position, away from the five-way joint, of the sludge discharge pipe by 100-300 mm, and the connection angle is 90 degrees or 45 degrees in the oblique direction.

Furthermore, the water inlet of the disinfection tank is positioned at the bottom of the tank at one end, and the water outlet is positioned at the top of the tank at the other end of the disinfection tank; a chlorine sheet sterilizer is arranged at the water inlet; the chlorine tablet sterilizer comprises a slow-release chlorine tablet, a plastic ball cage and a hanging rope, and a water outlet pipe is arranged outside the sterilizing tank.

Furthermore, the movable pneumatic dredging device comprises a manual valve, an air hose, a mud suction hose and a negative pressure mud suction head; the whole device coil is stored in an equipment electric control box and used for periodically sucking and removing sludge at the bottom of the disinfection tank, and can also replace a water pump for emptying the equipment; the negative pressure mud suction head is h-shaped and consists of a reducing tee, an elbow and a pipeline; one end of the air hose is sequentially connected with the manual valve and the power air pump, and the other end of the air hose is connected with the negative pressure mud suction head; the mud suction hose is connected with the negative pressure mud suction head to discharge the mud to the mud storage pool.

Furthermore, the pneumatic mud-water circulating device, the pneumatic intermittent stirring device, the pneumatic sludge discharging device and the movable pneumatic dredging device are all connected to the same power air pump.

Furthermore, a mud guard is arranged at the top of the mud storage pool, the mud guard extends into the liquid level to be 200-500 mm below, the top of the mud storage pool is divided into two areas, a mud outlet of a mud discharge pipe is arranged at the top of one area, and an overflow pipe is arranged at the top of the other area; when discharging the sludge, the supernatant at the top of the sedimentation tank overflows to a non-aeration tank, and is discharged after reaching the standard after being treated; the mud overflow caused by the mixing of the discharged mud and the supernatant can be avoided by arranging the mud guard.

Furthermore, the full-automatic operation control system sends control instructions to the pneumatic mud water circulating device, the pneumatic mud discharging device and the pneumatic intermittent stirring device, so that the one-station rural decentralized sewage treatment equipment can periodically and automatically operate in an hour unit, the operation period and the operation duration can be adjusted in real time, the material of an equipment tank body can adopt one of glass fiber reinforced plastics, carbon steel and PE, the water inlet mode of the equipment adopts gravity flow and is directly connected with a sewage pipe network, an adjusting tank and other auxiliary structures and buildings do not need to be built in a matching way, and the sewage treatment can reach the standard without purchasing and installing any other matched equipment.

3. Advantageous effects

Adopt the technical scheme provided by the utility model, compare with prior art, have following beneficial effect:

the utility model adopts the one-stop process design, the equipment highly integrates the full treatment process for treating the sewage to reach the local agricultural sewage discharge standard and the reuse standard, has the complete function of a sewage treatment station, does not need the construction of any auxiliary structures and buildings such as an adjusting tank, a sludge storage tank, a disinfection tank and an equipment room, and does not need the purchase and installation of other corollary equipment such as a grid and a water pump, the equipment installation is simple, and the occupied area, the construction cost and the construction period of the sewage treatment station are greatly reduced; in addition, the utility model adopts a distributed processing mode, which can be used by a plurality of households or a single household, and can effectively reduce the construction investment of the sewage pipe network; in addition, the utility model integrates a multiple reverse circulation sludge film coupling technology, a wave wheel circulation aeration technology, a pneumatic circulation technology, a pneumatic sludge discharge technology and a pneumatic stirring technology, enhances the biological nitrogen and phosphorus removal function of sewage treatment, improves the treatment effect of organic matters and ammonia nitrogen, realizes sludge suspension, sludge water circulation and residual sludge discharge only by pneumatic force, saves mechanical stirring equipment and a circulating pump, and reduces the energy consumption by more than 80%; furthermore, the utility model discloses the full automatic operation of equipment, daily need not artificial intervention, effectively reduced the manual operation cost, effectively solved the difficult problem of the weak fortune dimension of rural technical strength in addition.

Drawings

Fig. 1 is a top view of the present invention;

fig. 2 is an expanded plan view of the present invention;

fig. 3 is the utility model discloses an equipment electric cabinet inner structure constitutes the picture.

In the figure: 1. a non-aeration tank; 101. a first non-aeration tank; 102. a second non-aeration tank; 103. a third non-aeration tank; 104. A fourth non-aeration tank; 105. a fifth non-aeration tank; 106. a sixth non-aeration tank; 2. an aeration tank; 201. a first aeration tank; 202. a second aeration tank; 3. a sedimentation tank; 4. a disinfection tank; 5. a sludge storage tank; 6. a water inlet pipe; 7. a box-type orifice plate grating; 8. A water passing hole is formed in the bottom of the water tank; 81. a first bottom square water passing hole; 82. a water passing hole is formed in the second bottom; 83. a water passing hole is formed in the third bottom; 84. a fourth bottom is provided with a water passing hole; 9. a water passing hole is formed in the top of the water tank; 91. a first top square water through hole; 92. a water passing hole is formed in the second top; 93. the third top part is provided with a water through hole; 94. a fourth top part is provided with a water through hole; 10. a pneumatic muddy water circulating device; 11. a full-automatic operation control system; 12. suspension type filling; 13. a pneumatic intermittent stirring device; 14. filling suspended balls; 15. a wave wheel circulating aeration device; 151. a first impeller cyclic aeration device; 152. a second impeller circulating aeration device; 16. a water distribution guide cylinder; 17. a mud bucket; 18. a pneumatic sludge discharge device; 19. a fender; 20. an overflow pipe; 21. a water collecting and flow guiding pipe; 22. a chlorine tablet sterilizer; 23. a water outlet pipe; 24. an aeration air pump; 25. a power air pump; 26. A movable pneumatic dredging device; 27. an equipment electric cabinet.

Detailed Description

The invention is further described with reference to the following figures and examples:

example 1

As can be seen from fig. 1-3, the one-stop rural decentralized sewage treatment equipment of the embodiment includes a water inlet pretreatment device, a multiple reverse circulation sludge-membrane coupling biochemical reaction system, a sedimentation tank 3, a disinfection tank 4, a sludge storage tank 5 and an equipment electric cabinet 27, wherein the multiple reverse circulation sludge-membrane coupling biochemical reaction system includes a non-aeration tank 1 and an aeration tank 2, a pneumatic sludge-water circulation device 10, a wave wheel circulation aeration device 15 and a pneumatic intermittent stirring device 13, the non-aeration tank 1, the aeration tank 2, the sedimentation tank 3, the disinfection tank 4 and the sludge storage tank 5 are jointly spliced into a cylinder shape, and a full-automatic operation control system 11, an aeration air pump 24, a power air pump 25 and a mobile pneumatic desilting device 26 are arranged in the equipment electric cabinet 27.

The water inlet pretreatment device comprises a water inlet pipe 6, a box-type pore plate grid 7 and a grid limiting bracket; the grid limiting support is used for supporting the box-type pore plate grid 7, the water inlet end of the water inlet pipe 6 is connected with a sewage pipe network, the water outlet end of the water inlet pipe is attached to a prefabricated water inlet hole of the box-type pore plate grid 7, and a lifting rod or a lifting chain is arranged at the top of the box-type pore plate grid 7 and used for taking out the grid periodically and cleaning grid slag in the box; the aperture of the grating is 3-10 mm.

The non-aeration tank 1 is divided into a plurality of grids connected in series by a plurality of partition plates, and the number of the grids is an even number which is not less than 4; downward flow is formed in the odd number grids, upward flow is formed in the double number grids, suspended fillers 12 are arranged in the downward flow grids, the downward flow grids are in a mud film coupling state, and the filling rate is 20% -50%; the upward flow grids are in a completely mixed state with activated sludge; the bottom square water passing holes 8 and the top square water passing holes 9 are sequentially arranged at the bottom and the top of the plurality of the partition plates, the positions of the holes of the adjacent partition plates are in a diagonal relation on a plane and are in an up-and-down alternating relation in the vertical direction, the holes are square or rectangular, and the length and the width of the holes are not less than 80mm;

the aeration tank 2 is divided into 2 grids connected in series by a partition board, a suspension ball filler 14 and a wave wheel circulating aeration device 15 are arranged in the tank, the aeration tank is in a mud film coupling state, and the filling rate is 5-20%; the impeller circulation aeration device 15 comprises an aeration air pump 24 and an aerator, the aerator is a nano micropore aeration pipe or a disc type micropore aerator, the aerator is arranged at the bottom of one side of each aeration tank 2, the filler continuously rolls up and down along with water flow and air flow, on one hand, gas-liquid-solid three phases are fully contacted, the mass transfer efficiency is improved, on the other hand, the filler is washed constantly to update the biological membrane, and the activity of the biological membrane is kept;

the pneumatic muddy water circulating device 10 comprises a muddy water pipeline, an air pipeline and two sets of air distribution valve groups connected in parallel, and realizes multiple reverse circulation of muddy water among the non-aeration tank 1, the aeration tank 2 and the sedimentation tank 3 by utilizing the air stripping principle; the multiple reverse circulation comprises sludge-water mixed liquid reverse circulation among grids in the non-aeration tank 1, nitration liquid reverse circulation among the aeration tank 2 and the non-aeration tank 1, and sludge reverse circulation among the sedimentation tank 3 and the non-aeration tank 1, and is used for realizing high-efficiency biological nitrogen and phosphorus removal; one end of the air pipeline is connected with the inlet of the muddy water pipeline, and the other end of the air pipeline is sequentially connected with the air distribution valve bank and the power air pump 25; the air distribution valve group comprises a distributor, a manual valve and an electromagnetic valve, an air inlet pipe of the distributor is sequentially connected with the electromagnetic valve and the power air pump 25, an air outlet pipe is connected with 3 air pipelines connected in parallel, and each air pipe is provided with the manual valve which is used for adjusting the circulating flow; the electromagnetic valve is controlled by a full-automatic operation control system 11 to switch a circulation strategy so as to cope with seasonal changes of water quality and water quantity;

the pneumatic intermittent stirring device 13 comprises an air pipeline and an air distribution valve bank, wherein one end of the air pipeline is arranged at the bottom of all upward flow grids in the non-aeration tank 1, a five-way joint is arranged at the end of the air pipeline, the other end of the air pipeline is connected with the air distribution valve bank, the full-automatic operation control system 11 controls the periodic operation of the air pipeline and is used for regulating and controlling the sludge concentration in the non-aeration tank 1, and the five-way joint has the functions of improving the stirring uniformity, shortening the stirring time and reducing the influence of air on oxygen deficiency and anaerobic environment.

The sedimentation tank 3 comprises a water distribution guide cylinder 16, a mud bucket 17, a water collection guide pipe 21 and a pneumatic mud discharging device 18;

the water distribution guide cylinder 16 is arranged at one end of the sedimentation tank 3, and the water discharged from the aeration tank 2 flows in from the top of the water distribution guide cylinder 16 and flows out from the bottom to enter the sedimentation tank 3;

the water collecting and guiding pipe 21 is arranged at the other end of the sedimentation tank 3 far away from the water distributing and guiding cylinder 16, the water inlet end of the water collecting and guiding pipe 21 is provided with a horn-shaped water collecting port and an exhaust pipe, the water outlet end is connected to the bottom of the disinfection tank 4, and the effluent of the sedimentation tank 3 enters the disinfection tank 4 from top to bottom through the water collecting and guiding pipe 21;

the pneumatic sludge discharge device 18 comprises a sludge discharge pipe and an air pipeline; one end of the mud discharging pipe is arranged at the bottom of the mud bucket 17, the end head of the mud discharging pipe is provided with a five-way joint, and the other end of the mud discharging pipe is arranged above the liquid level at the top of the mud storage pool 5; the solenoid valve and the power air pump 25 are connected in proper order to trachea one end, and the other end is connected the mud pipe and is connect 100mm ~ 300mm department apart from the five-way, and connection angle adopts 90 or upwards 45 one of to one to the slant, and the function that the five-way connects is for improving inhales mud scope and mud concentration, shortens row's mud time, avoids sucking local clear water.

The water inlet of the disinfection tank 4 is positioned at the bottom of one end of the disinfection tank, and the water outlet is positioned at the top of the other end of the disinfection tank 4; a chlorine sheet sterilizer 22 is arranged at the water inlet; the chlorine tablet sterilizer 22 comprises a slow-release chlorine tablet, a plastic ball cage and a hanging rope, and a water outlet pipe 23 is arranged on the outer side of the sterilizing tank 4.

The movable pneumatic dredging device 26 comprises a manual valve, an air hose, a mud suction hose and a negative pressure mud suction head; the whole device coil is stored in an equipment electric cabinet 27, is convenient and flexible to use, is used for regularly sucking and removing sludge at the bottom of the disinfection tank 4, and can also replace a water pump to be used for emptying the equipment; the negative pressure mud suction head is h-shaped and consists of a reducing tee, an elbow and a pipeline; one end of the air hose is sequentially connected with the manual valve and the power air pump 25, and the other end of the air hose is connected with the negative pressure suction head; the mud suction hose is connected with the negative pressure mud suction head, and the mud is discharged to the mud storage pool 5.

The pneumatic mud-water circulating device 10, the pneumatic intermittent stirring device 13, the pneumatic mud discharging device 18 and the movable pneumatic dredging device 26 are all connected to the same power air pump 25.

The top of the sludge storage pool 5 is provided with a mud guard 19, the mud guard 19 extends into the liquid level to be 200-500 mm below, the top of the sludge storage pool 5 is divided into two areas, a sludge outlet of a sludge discharge pipe is arranged at the top of one area, and the top of the other area is provided with an overflow pipe 20; when discharging the sludge, the supernatant on the top of the sedimentation tank 3 overflows to the non-aeration tank 1, and is discharged after reaching the standard after being treated; the mud guard 19 is arranged to prevent the mud from overflowing due to the mixing of the discharged mud and the supernatant.

The full-automatic operation control system 11 sends control instructions to the pneumatic muddy water circulating device 10, the pneumatic mud discharging device 18 and the pneumatic intermittent stirring device 13, so that the one-station rural decentralized sewage treatment equipment can periodically and automatically operate in an hour unit, the operation period and the operation duration can be adjusted in real time, the tank body of the equipment can be made of one of glass fiber reinforced plastic, carbon steel and PE, the water inlet mode of the equipment adopts gravity flow and is directly connected with a sewage pipe network, and the equipment can meet the standard without the need of constructing any auxiliary structures and buildings such as an adjusting tank and purchasing and installing any other auxiliary equipment.

A treatment method of one-stop rural decentralized sewage treatment equipment comprises the following steps:

the method comprises the following steps: the sewage firstly enters a water inlet pretreatment device, and after floaters such as garbage and the like are intercepted and removed, the sewage enters a multiple reverse circulation mud membrane coupling biochemical reaction system;

step two: in the multiple reverse circulation sludge-membrane coupling biochemical reaction system, sewage flows through a non-aeration tank 1 and an aeration tank 2 in sequence, and multiple reverse circulation is carried out among cells in the non-aeration tank 1, among the aeration tank 2 and the non-aeration tank 1, and among a sedimentation tank 3 and the non-aeration tank 1 under the control of a pneumatic sludge-water circulating device 10 and a full-automatic operation control system 11; on one hand, the activated sludge in the non-aeration tank 1 is in a suspension state under the action of multiple reverse circulation, and the purposes of effectively circulating the activated sludge in the whole reaction system and keeping the effective sludge concentration in the whole reaction system are achieved by replacing mechanical stirring with hydraulic stirring; on the other hand, the sludge-water mixed liquid rich in nitrate nitrogen in the aeration tank 2 is converged with the original sewage, and the aim of biological denitrification is fulfilled by the denitrifying bacteria in a sludge film coupling strengthening state in the non-aeration tank 1; on the other hand, the activated sludge rich in the phosphorus-accumulating bacteria realizes the alternation of anaerobic state and aerobic state, thereby achieving the purpose of biological phosphorus removal;

step three: the first cell of the non-aeration tank 1 is a downward flow, and the last cell is an upward flow; sewage flows through a plurality of grids formed by alternating downward flow and upward flow of the non-aeration tank 1 in sequence and then enters the aeration tank 2; the front 2/3 cells of the non-aeration tank 1 are in an anoxic and aerobic alternate state, and the rest cells are in an anaerobic state; the concentration of the suspended sludge in the upward flow separation lattice is gradually reduced from bottom to top and is changed along with the change of water quality and water quantity, and the concentration gradient of the sludge is regulated and controlled by the pneumatic intermittent stirring device 13, so that the aim of regulating and controlling the concentration of the sludge in the whole reaction system is fulfilled, and the stable sewage treatment effect is ensured; the suspended filler 12 is arranged in the downward flow cell, so that the amount of fixed microorganisms in the system is increased, the filler is in a swinging shape under the driving of water flow, a biological membrane is continuously and automatically updated, the activity of microorganisms is kept, and the denitrification function is enhanced;

step four: the aeration tank 2 is divided into two grids which are connected in series, the first grid is a downward flow, and the last grid is an upward flow; under the action of negative pressure formed by unilateral aeration, the suspension ball filler 14 in the aeration tank 2 continuously rolls up and down along with water flow and air flow to form a wave wheel circulation state, so that gas, liquid and solid phases are fully contacted, the mass transfer efficiency is improved, and the filler is continuously washed, thereby not only preventing mud accumulation in balls, but also promoting the falling and updating of aged biological membranes; on the other hand, the actual hydraulic retention time is prolonged, and the volumetric efficiency and the treatment effect are improved;

step five: the sedimentation tank 3 carries out mud-water separation on the effluent from the aeration tank 2, a part of sludge is reversely circulated to the non-aeration tank 1, and a part of sludge is periodically and automatically discharged into the sludge storage tank 5 through a pneumatic sludge discharge device 18; the mud discharging period is 1-2 times per day, and the mud discharging time is 10-20 s per time; the effluent enters the disinfection tank 4 through a water collecting and guiding pipe 21;

step six: the disinfection tank 4 adopts a slow-release chlorine tablet disinfection mode to disinfect and sterilize the effluent of the sedimentation tank 3; the chlorine tablet disinfector 22 is arranged at the outlet of the water collecting and guiding pipe 21 and is fully mixed with the inlet water, and the contact residence time is not less than 30min; the flow state of the plug flow in the disinfection tank 4 further reduces SS (suspended substances), and the effluent can reach the standard for discharge or recycling; removing sediments at the bottom of the pool by using a movable pneumatic dredging device 26 regularly, wherein the period is 1-3 months;

step seven: the sludge storage tank 5 stores the residual sludge discharged from the sedimentation tank 3, the storage capacity is not less than 30 days, and the sludge is regularly cleared and transported outside, so that the total phosphorus is fundamentally removed.

In the example of fig. 1-2, the non-aeration tank 1 is divided into six compartments by partitions, namely a first non-aeration tank 101, a second non-aeration tank 102, a third non-aeration tank 103, a fourth non-aeration tank 104, a fifth non-aeration tank 105 and a sixth non-aeration tank 106;

the aeration tank 2 is divided into 2 grids connected in series by a partition plate, and the grids are a first aeration tank 201 and a second aeration tank 202 respectively;

the impeller cyclic aeration devices 15 are provided with two groups, namely a first impeller cyclic aeration device 151 and a second impeller cyclic aeration device 152;

the first impeller circulating aeration device 151 is arranged in the first aeration tank 201, and the second impeller circulating aeration device 152 is arranged in the second aeration tank 202.

A one-stop rural decentralized sewage treatment device is sequentially connected with a first non-aeration tank 101, a second non-aeration tank 102, a third non-aeration tank 103, a fourth non-aeration tank 104, a fifth non-aeration tank 105, a sixth non-aeration tank 106, a first aeration tank 201, a second aeration tank 202, a sedimentation tank 3, a disinfection tank 4 and a sludge storage tank 5,

sewage enters a box-type pore plate grating 7 through a water inlet pipe 6, the aperture of the grating is 5mm, and the sewage enters a first non-aeration tank 101 after floating objects such as garbage and the like are intercepted;

a first bottom square water passing hole 81 is formed between the first non-aeration tank 101 and the second non-aeration tank 102;

a second bottom square water through hole 82 is formed between the third non-aeration tank 103 and the fourth non-aeration tank 104;

a third bottom square water passing hole 83 is formed between the fifth non-aeration tank 105 and the sixth non-aeration tank 106;

a fourth bottom square water passing hole 84 is formed between the first aeration tank 201 and the second aeration tank 202;

a first top square water through hole 91 is formed between the second non-aeration tank 102 and the third non-aeration tank 103;

a second top square water passing hole 92 is formed between the fourth non-aeration tank 104 and the fifth non-aeration tank 105;

a third top square water passing hole 93 is formed between the sixth non-aeration tank 106 and the first aeration tank 201;

a fourth top square water passing hole 94 is formed between the second aeration tank 202 and the sedimentation tank 3;

sewage flows through a first non-aeration tank 101, a second non-aeration tank 102, a third non-aeration tank 103, a fourth non-aeration tank 104, a fifth non-aeration tank 105, a sixth non-aeration tank 106, a first aeration tank 201 and a second aeration tank 202 in sequence, and multiple reverse circulation is performed between the third non-aeration tank 103 and the first non-aeration tank 101, between an aeration tank 2 and a non-aeration tank 1, and between a sedimentation tank 3 and the non-aeration tank 1 under the control of a pneumatic mud-water circulating device 10 and a full-automatic operation control system 11; on one hand, the activated sludge in the non-aeration tank 1 is in a suspension state under the action of multiple reverse circulation, and the purposes of effectively circulating the activated sludge in the whole reaction system and keeping the effective sludge concentration in the whole reaction system are achieved by replacing mechanical stirring with hydraulic stirring; on the other hand, the sludge-water mixed liquid rich in nitrate nitrogen in the aeration tank 2 is converged with the original sewage, and the aim of biological denitrification is fulfilled by denitrifying bacteria in a sludge film coupling strengthening state in the non-aeration tank; on the other hand, the activated sludge rich in the phosphorus-accumulating bacteria realizes the alternation of anaerobic state and aerobic state, thereby achieving the purpose of biological phosphorus removal;

the interiors of the first non-aeration tank 101, the second non-aeration tank 102 and the fourth non-aeration tank 104 are in an anoxic state, and the function of denitrification is realized; the interior of the third non-aeration tank 103 is in an aerobic state and has the function of eliminating the inhibition of dissolved oxygen brought by the reverse circulation of the nitrate nitrogen muddy water mixed liquid on the denitrification function of the grid at the front end and the back end of the nitrate nitrogen muddy water mixed liquid; the fifth non-aeration tank 105 and the sixth non-aeration tank 106 are in strict anaerobic state, have the function of excessive phosphorus release of phosphorus accumulating bacteria and provide a precondition for biological phosphorus removal;

the first non-aeration tank 101, the third non-aeration tank 103 and the fifth non-aeration tank 105 are downward-flowing, suspended fillers 12 are arranged inside the first non-aeration tank, the amount of fixed microorganisms in the system is increased, the fillers are in a swinging shape under the driving of water flow, the biological membrane is continuously and automatically updated, the activity of the microorganisms is kept, and therefore the denitrification function is enhanced.

The second non-aeration tank 102, the fourth non-aeration tank 104 and the sixth non-aeration tank 106 are in upward flow, the concentration of suspended sludge in the cells is gradually reduced from bottom to top and changes along with the change of water quality and water quantity, and the concentration gradient of the sludge is regulated and controlled by the pneumatic intermittent stirring device 13, so that the purpose of regulating and controlling the concentration of the sludge in the whole reaction system is achieved, and the stable sewage treatment effect is ensured;

the first aeration tank 201 is a downward flow aeration tank, the second aeration tank 202 is a suspended ball filler 14 in an upward flow aeration tank 2, and the suspended ball filler continuously rolls up and down along with water flow and air flow under the action of single-side negative pressure formed by the impeller circulation aeration device 15 to form an impeller circulation state, so that on one hand, gas, liquid and solid three phases are fully contacted, the mass transfer efficiency is improved, on the other hand, the filler is continuously washed, the mud accumulation in the balls is prevented, and the falling and updating of an aged biological membrane are promoted; on the other hand, the actual hydraulic retention time is prolonged, and the volumetric efficiency and the treatment effect are improved;

the effluent of the aeration tank 2 flows into a sedimentation tank from top to bottom from the top of the water distribution guide cylinder 16 for sludge-water separation; one part of the sludge stored in the sludge hopper 17 is conveyed to the non-aeration tank grids 1-3 through the pneumatic mud-water circulating device 10, and the other part of the sludge is discharged into the sludge storage tank 5 through the pneumatic sludge discharge device 18; the mud discharging period is 1-2 times per day, and the mud discharging time is 10-20 s per time;

a mud guard 19 is arranged at the top of the mud storage pool 5, so as to avoid the overflow of the mud caused by the mixing of the discharged mud and the supernatant; a mud guard 19 extends 500mm below the liquid level to divide the top of the mud storage pool 5 into two areas, mud is discharged to the top of one area, and an overflow pipe 20 is arranged at the top of the other area; when discharging the sludge, the supernatant at the top of the sedimentation tank overflows to a non-aeration tank 1-3, and is discharged after reaching the standard after being treated; the sludge storage capacity of the sludge storage tank is 60 days, and the sludge is regularly cleaned and transported outside, so that the total phosphorus is fundamentally removed.

The effluent of the sedimentation tank 3 enters the bottom of the disinfection tank 4 through a water collecting and guiding pipe 21; a chlorine tablet sterilizer 22 is arranged at the water outlet of the water collecting and guiding pipe, so that the effective chlorine released by the slow-release chlorine tablets is fully mixed with the inlet water, and the contact residence time is 30min; the plug-flow state in the disinfection tank further reduces SS (suspended solids), and the effluent reaching the standard is discharged to a receiving water body through the water outlet pipe 23 and can be recycled.

The full-automatic operation control system 11 sends control instructions to the pneumatic mud-water circulating device 10, the pneumatic mud discharging device 18 and the pneumatic intermittent stirring device 13, so that the one-station rural decentralized sewage treatment equipment periodically and automatically operates in an hour unit, and the operation period and the operation duration can be adjusted in real time.

The utility model adopts the one-stop process design, the equipment highly integrates the full treatment process for treating sewage to reach the local agricultural sewage discharge standard and the recycling standard, has the complete function of one sewage treatment station, does not need the construction of any auxiliary structures and buildings such as an adjusting tank, a sludge storage tank, a disinfection tank and an equipment room, and also does not need the purchase and installation of other matched equipment such as a grating and a water pump, the equipment installation is simple, and the occupied area, the construction cost and the construction period of the sewage treatment station are greatly reduced; in addition, the utility model adopts a distributed processing mode, which can be used by a plurality of households as well as a single household, and can effectively reduce the construction investment of sewage pipe networks; in addition, the utility model integrates multiple reverse circulation sludge film coupling technology, impeller circulation aeration technology, pneumatic circulation technology, pneumatic sludge discharge technology and pneumatic stirring technology, enhances the biological nitrogen and phosphorus removal function of sewage treatment, improves the treatment effect of organic matters and ammonia nitrogen, realizes sludge suspension, sludge water circulation and residual sludge discharge only by pneumatic force, saves mechanical stirring equipment and a circulating pump, and reduces the energy consumption by more than 80%; furthermore, the utility model discloses the full automatic operation of equipment, daily need not artificial intervention, effectively reduced the manual operation cost, effectively solved the difficult problem of the weak fortune dimension of rural technical strength in addition.

The present invention and its embodiments have been described above schematically, and the description is not limited thereto, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching of the present invention, without departing from the inventive spirit of the present invention, the person skilled in the art should also design the similar structural modes and embodiments without creativity to the technical solution, and all shall fall within the protection scope of the present invention.

Claims (9)

1. The utility model provides a rural decentralized sewage treatment device of one-stop type, includes into pretreatment of water device, multiple reverse circulation mud membrane coupling biochemical reaction system, sedimentation tank (3), disinfection pond (4), stores mud pond (5) and equipment electric cabinet (27), its characterized in that: the multiple reverse circulation sludge-membrane coupling biochemical reaction system comprises a non-aeration tank (1) and an aeration tank (2), a pneumatic sludge-water circulating device (10), a wave wheel circulation aeration device (15) and a pneumatic intermittent stirring device (13), wherein the non-aeration tank (1), the aeration tank (2), a sedimentation tank (3), a disinfection tank (4) and a sludge storage tank (5) are jointly spliced to form a cylinder shape, and a full-automatic operation control system (11), an aeration air pump (24), a power air pump (25) and a movable pneumatic desilting device (26) are arranged in an equipment electric cabinet (27).

2. The one-stop rural decentralized sewage treatment device according to claim 1, characterized in that: the water inlet pretreatment device comprises a water inlet pipe (6), a box-type pore plate grating (7) and a grating limiting bracket; the top of the box-type pore plate grating (7) is provided with a lifting rod or a lifting chain which is used for taking out the grating periodically and cleaning grating slag in the box; the aperture of the grating is 3-10 mm.

3. The one-stop rural decentralized sewage treatment device according to claim 1, characterized in that: the non-aeration tank (1) is divided into a plurality of grids connected in series by a plurality of partition plates, and the number of the grids is an even number not less than 4; the single lattices are downward flow, the double lattices are upward flow, suspension type fillers (12) are arranged in the downward flow lattices, the downward flow lattices are in a mud film coupling state, and the filling rate is 20-50%; the upward flow grids are in a completely mixed state with activated sludge; the bottom and the top of the plurality of partition plates are respectively provided with a bottom square water passing hole (8) and a top square water passing hole (9) in sequence, the positions of the holes of the adjacent partition plates are in diagonal relation on a plane and in vertical alternating relation, the holes are square or rectangular, and the length and the width of the holes are not less than 80mm;

the aeration tank (2) is divided into 2 grids connected in series by partition plates, a suspension ball filler (14) and a wave wheel circulating aeration device (15) are arranged in the tank, the aeration tank is in a mud film coupling state, and the filling rate is 5-20%; the impeller circulating aeration device (15) comprises an aeration air pump (24) and an aerator, the aerator is a nano micropore aeration pipe or a disc type micropore aerator, and the aerator is arranged at the bottom of one side of each aeration tank (2);

the pneumatic muddy water circulating device (10) comprises a muddy water pipeline, an air pipeline and two sets of air distribution valve groups connected in parallel, and multiple reverse circulation of muddy water among the non-aeration tank (1), the aeration tank (2) and the sedimentation tank (3) is realized by utilizing the air stripping principle; the multiple reverse circulation comprises sludge-water mixed liquid reverse circulation among grids in the non-aeration tank (1), nitrification liquid reverse circulation among the aeration tank (2) and the non-aeration tank (1), and sludge reverse circulation among the sedimentation tank (3) and the non-aeration tank (1), and is used for realizing efficient biological nitrogen and phosphorus removal; one end of the air pipeline is connected with an inlet of the muddy water pipeline, and the other end of the air pipeline is sequentially connected with the air distribution valve bank and the power air pump (25); the air distribution valve group comprises a distributor, a manual valve and an electromagnetic valve, an air inlet pipe of the distributor is sequentially connected with the electromagnetic valve and a power air pump (25), an air outlet pipe is connected with 3 air pipelines connected in parallel, each air pipe is provided with the manual valve, and the manual valves are used for adjusting the circulation flow; the electromagnetic valve is controlled by a full-automatic operation control system (11) to switch a circulation strategy;

the pneumatic intermittent stirring device (13) comprises an air pipeline and an air distribution valve group, wherein one end of the air pipeline is arranged at the bottom of all upward flow grids in the non-aeration tank (1), a five-way joint is arranged at the end of the air pipeline, the other end of the air pipeline is connected with the air distribution valve group, and the full-automatic operation control system (11) controls the periodic operation and is used for regulating and controlling the sludge concentration in the non-aeration tank (1).

4. The one-stop rural decentralized sewage treatment plant according to claim 1, characterized in that: the sedimentation tank (3) comprises a water distribution guide cylinder (16), a mud bucket (17), a water collection guide pipe (21) and a pneumatic mud discharging device (18);

the water distribution guide cylinder (16) is arranged at one end of the sedimentation tank (3), and the water discharged from the aeration tank (2) flows in from the top of the water distribution guide cylinder (16) and flows out from the bottom into the sedimentation tank (3);

the water collecting and guiding pipe (21) is arranged at the other end of the sedimentation tank (3) far away from the water distributing and guiding cylinder (16), the water inlet end of the water collecting and guiding pipe (21) is provided with a horn-shaped water collecting port and an exhaust pipe, the water outlet end is connected to the bottom of the disinfection tank (4), and the effluent of the sedimentation tank (3) enters the disinfection tank (4) from top to bottom through the water collecting and guiding pipe (21);

the pneumatic mud discharging device (18) comprises a mud discharging pipe and an air pipeline; one end of the mud discharging pipe is arranged at the bottom of the mud bucket (17), the end head is provided with a five-way joint, and the other end of the mud discharging pipe is arranged above the liquid level at the top of the mud storage pool (5); one end of the air pipe is sequentially connected with the electromagnetic valve and the power air pump (25), the other end of the air pipe is connected with the position of the sludge discharge pipe, which is 100 mm-300 mm away from the five-way joint, and the connection angle is 90 degrees or 45 degrees in the oblique direction.

5. The one-stop rural decentralized sewage treatment device according to claim 1, characterized in that: the water inlet of the disinfection tank (4) is positioned at the bottom of one end of the disinfection tank, and the water outlet of the disinfection tank (4) is positioned at the top of the other end of the disinfection tank; a chlorine sheet sterilizer (22) is arranged at the water inlet; the chlorine tablet disinfector (22) comprises a slow-release chlorine tablet, a plastic ball cage and a hanging rope, and a water outlet pipe (23) is arranged on the outer side of the disinfection tank (4).

6. The one-stop rural decentralized sewage treatment device according to claim 1, characterized in that: the movable pneumatic dredging device (26) comprises a manual valve, an air hose, a mud suction hose and a negative pressure mud suction head; the whole device coil is stored in an electric cabinet (27) of the equipment and is used for periodically sucking and removing sludge at the bottom of the disinfection tank (4) and also can replace a water pump to empty the equipment; the negative pressure mud suction head is h-shaped and consists of a reducing tee, an elbow and a pipeline; one end of the air hose is sequentially connected with the manual valve and the power air pump (25), and the other end of the air hose is connected with the negative pressure mud suction head; the mud suction hose is connected with the negative pressure mud suction head to discharge the mud to the mud storage pool (5).

7. The one-stop rural decentralized sewage treatment device according to claim 1, characterized in that: the pneumatic mud-water circulating device (10), the pneumatic intermittent stirring device (13), the pneumatic mud discharging device (18) and the mobile pneumatic dredging device (26) are all connected to the same power air pump (25).

8. The one-stop rural decentralized sewage treatment device according to claim 4, characterized in that: a mud guard (19) is arranged at the top of the mud storage pool (5), the mud guard (19) extends into the liquid level to be 200-500 mm below, the top of the mud storage pool (5) is divided into two areas, a mud outlet of a mud discharge pipe is arranged at the top of one area, and an overflow pipe (20) is arranged at the top of the other area; when discharging the sludge, the supernatant on the top of the sedimentation tank (3) overflows to the non-aeration tank (1), and is discharged after reaching the standard after being treated; the mud guard (19) is arranged to prevent the mud from overflowing due to the mixing of the discharged mud and the supernatant.

9. The one-stop rural decentralized sewage treatment plant according to claim 1, characterized in that: the full-automatic operation control system (11) sends control instructions to the pneumatic muddy water circulating device (10), the pneumatic mud discharging device (18) and the pneumatic intermittent stirring device (13), so that the one-station rural decentralized sewage treatment equipment can periodically and automatically operate in an hour unit, the operation period and the operation duration can be adjusted in real time, one of glass fiber reinforced plastic, carbon steel and PE can be adopted as the material of the equipment tank body, the water inlet mode of the equipment adopts gravity self-flow and is directly connected with a sewage pipe network, the auxiliary structures and buildings of the regulating tank do not need to be constructed, and the sewage treatment can reach the standard without purchasing and installation of any other auxiliary equipment.

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