WO2019079943A1

WO2019079943A1 - Integrated mobile sewage treatment device

Info

Publication number: WO2019079943A1
Application number: PCT/CN2017/107354
Authority: WO
Inventors: 王�华
Original assignee: 盐城衍易科技有限公司
Priority date: 2017-10-23
Filing date: 2017-10-23
Publication date: 2019-05-02

Abstract

An integrated mobile sewage treatment device, comprising a vehicle body (1), moving wheels (2) provided at the lower end of the vehicle body (1), and a placement bracket (3) provided at the upper end of the vehicle body (1); a cabinet (4) is placed on the placement bracket (3); a regulating pool (5), a magnetic absorption pool (6), an anaerobic pool (7), an anoxic pool (8), a biofilm reaction pool (9), a clear water pool (10) and a reverse osmosis pool (11) are sequentially provided in the cabinet (4) from front to back; the regulating pool (5) is in communication with the magnetic absorption pool (6) by means of a first overflow weir (12); the magnetic absorption pool (6) is in communication with the anaerobic pool (7) by means of a second overflow weir (13); the anaerobic pool (7) is in communication with the anoxic pool (8) by means of a third overflow weir (14); the anoxic pool (8) is in communication with the biofilm reaction pool (9) by means of a fourth overflow weir (15); the upper ends of the regulating pool (5), the anaerobic pool (7), the anoxic pool (8) and the biofilm reaction pool (9) are respectively provided with a man hole (16); and the lower ends of the regulating pool (5), the anaerobic pool (7), the anoxic pool (8) and the biofilm reaction pool (9) are respectively provided with a sludge discharge port (17).

Description

Mobile sewage treatment integrated equipment

Technical field

The invention relates to a fitness device, in particular to a mobile sewage treatment integrated device.

Background technique

With the development of society and the advancement of industry, human beings have produced more and more sewage. The problem of sewage treatment has become one of the important issues for human beings to maintain ecological balance and ensure their own development. At present, the following major problems exist in the use of sewage treatment equipment: First, the existing sewage treatment equipment is generally fixedly installed in the factory area or residential area, cannot be moved, and encounters sudden situations such as flash floods. Water pollution cannot be dealt with in time, and it is inconvenient to use. Second, there are many heavy metal particles in the existing sewage, which is difficult to handle. Heavy metal particles will directly block the biofilm components, resulting in frequent replacement of biofilm modules and high sewage treatment costs. The existing sewage treatment equipment can not treat the water to the pure water standard, can not be used directly by people, and can not be used for the sudden situation of water pollution; Fourth, the existing sewage treatment equipment and the oxygen pool and the biofilm reaction tank The aeration device is not uniform in aeration, and the aeration nozzles are generally arranged vertically upwards. When not in use, the impurities in the sewage are naturally settled and easily block the aeration nozzle directly, causing damage to the aeration nozzle. 5. Existing sewage The processing equipment requires a large amount of electric energy, and the processing cost is relatively large.

Summary of the invention

The technical problem to be solved by the present invention is to provide a mobile sewage treatment integrated device with a treatment effect.

In order to solve the above technical problem, the technical solution adopted by the present invention is: a mobile sewage treatment integrated device, comprising: a vehicle body, a moving wheel disposed at a lower end of the vehicle body, and a placing frame disposed at an upper end of the vehicle body, in the pendulum a box is arranged on the rack, and a regulating tank, a magnetic pool, an anaerobic tank, a facultative tank, a biofilm reaction tank, a clear water tank and a reverse osmosis tank are arranged in the tank body from the front to the rear, the adjustment The pool communicates with the magnetic pool through the first overflow weir, and the magnetic pool communicates with the anaerobic tank through the second overflow weir, and the anaerobic pool communicates with the anaerobic pool through the third overflow weir. The anaerobic pool is connected to the biofilm reaction tank through the fourth overflow weir, and a manhole is respectively disposed at the upper ends of the regulating tank, the anaerobic tank, the anaerobic tank and the biofilm reaction tank, The lower end of the anaerobic tank, the anaerobic tank and the biofilm reaction tank are provided with a sludge discharge port, and one side of the tank body is provided with a sewage water inlet communicating with the adjustment tank, on the other side of the tank Provided with a purified water outlet that communicates with the reverse osmosis tank, The upper end of the adjustment tank is provided with a chemical tank, and a trapezoidal stopper is symmetrically disposed on both sides of the lower end of the magnetic tank, and a magnet lifting box is arranged at an upper end of the magnetic pool between the two trapezoidal blocks. a magnet is connected to the magnet lifting box to form a box, and a V-shaped magnetic channel is disposed between the magnet cone-shaped box and the two trapezoidal blocks, and one end of the V-shaped magnetic channel is The first overflow weir is in communication with each other, and the other end of the V-shaped magnetic attraction channel communicates with the second weir, and a tapered magnet is disposed at the lower end of the inner portion of the magnet conical housing. The upper end of the magnetic suction pool is provided with a support frame, and a screw is disposed in the support frame, and an upper end of the screw is rotatably disposed on the support frame through an upper bearing seat, and a lower end of the screw is disposed through a lower bearing seat a magnetic sleeve is disposed on the screw with a screw sleeve that cooperates with the screw, and the upper end of the triangular magnet is connected to the screw sleeve through a connecting rod, on both sides of the screw a guiding rod is symmetrically disposed between the supporting frame and the magnetic absorbing pool, and a guiding sleeve is disposed on the two sides of the screw sleeve to cooperate with the guiding rod, and a speed reducing motor is disposed at an upper end of the supporting frame, a driving gear is disposed on a motor shaft of the motor, and a driven gear that meshes with the driving gear is disposed on an upper end of the upper end of the screw, and a flushing water pump is disposed on one side of the supporting frame, and the flushing is performed. The water pumping port of the water pump communicates with the middle of the regulating pool through the first water pumping pipe, and the water outlet of the flushing water pump communicates with the flushing main pipe disposed on the support frame, and the flushing is symmetrically arranged on both sides of the magnet lifting box body. a branch pipe, the upper ends of the two flushing branch pipes are in communication with the flushing main pipe, the lower ends of the two flushing branch pipes are respectively located at two ends of the V-shaped magnetic attraction channel, and the V-shaped magnetic attraction is disposed at a lower end of the magnetic suction pool a heavy metal impurity discharge port in which the channels communicate with each other, wherein the anaerobic tank is provided with an anaerobic bacteria elastic filler, and a facultative tank elastic filler is disposed in the anaerobic tank, and the biofilm tank is disposed in the biofilm tank a biofilm module is disposed, and an outlet pipe is disposed at an upper end of the biofilm assembly, and the outlet pipe communicates with an inner upper end of the clear water tank through a connecting pipe, and the first control valve is disposed on the connecting pipe The upper end of the clearing pool is provided with a backwashing water pump, the pumping port of the backwashing water pump is connected with the upper end of the second pumping pipe, and the lower end of the second pumping pipe extends into the bottom of the clear water tank, the backwashing water pump The water outlet communicates with the outlet pipe through a backwashing pipe, and a second control valve is disposed on the backwashing pipe, and a high pressure chamber and a low pressure chamber communicating with the purified water outlet are disposed in the reverse osmosis tank through the reverse osmosis membrane. a high-pressure water pump is disposed at an upper end of the reverse osmosis tank, and a pumping port of the high-pressure water pump communicates with a bottom of the clean water tank through a third water-sending pipe, and the water outlet of the high-pressure water pump passes through an outlet pipe and an upper end of the high-pressure chamber Connected, a return water pump is disposed at a lower end of the reverse osmosis tank, and a pumping port of the return water pump passes through a fourth The water pumping pipe communicates with the bottom of the high pressure water chamber, and the water outlet of the high pressure water pump communicates with the bottom of the regulating tank through a return pipe, and a blower is arranged on the tank at the lower end of the clear water tank, and the air suction port of the air blower and the air are mutually connected In connection, the air outlet of the air blower is connected to an aeration pipe disposed at the bottom of the anaerobic tank and the biofilm tank, and a plurality of aeration heads are evenly disposed on the aeration pipe, and the structure of the aeration head includes: a circular aeration head body, the circular aeration head body is connected to the aeration tube through a joint, and a plurality of vertical aeration nozzles communicating with each other are uniformly disposed at a lower end of the circular aeration head body. The outer side of the circular aeration head body is evenly arranged with a plurality of rows of annular aeration nozzle groups, and each row of the annular aeration nozzle group comprises a plurality of oblique aeration nozzles which are in communication with the circular aeration head body, each row of annular exposure A plurality of inclined aeration nozzles in the gas nozzle group have the same length and are inclined downwardly, and the lengths of the oblique aeration nozzles in the plurality of rows of annular aeration nozzle groups are sequentially increased from top to bottom, on both sides of the upper end of the tank body. Symmetrical settings are provided with lifting lugs.

In order to better solve the above technical problem, the present invention adopts a further technical solution: a plurality of solar panels are evenly disposed at an upper end of the box, and the solar panel is connected to a battery disposed in the box. The geared motor, the flushing water pump, the backwashing water pump, the high pressure water pump, the return water pump and the blower are respectively connected to the battery.

In order to better solve the above technical problems, the present invention adopts a further technical solution: the magnet lifting box adopts a non-magnetic material such as copper, aluminum, lead, etc., and the magnet conical placing box adopts a magnetic material such as iron. , cobalt, nickel, etc.

The invention has the advantages that the above-mentioned mobile sewage treatment integrated device has compact structure, small occupied area, easy maintenance, good treatment effect, convenient movement, and can be moved to sudden water such as mountain floods at any time. The location of the pollution to the sewage into the sewage treatment, cope with timely; before the sewage treatment through the biofilm module, the magnet is used to effectively adsorb the heavy metal particles in the sewage, and by adjusting the position of the magnet, the heavy metal particles can no longer be adsorbed, relying on the flushing water pump The automatic flushing and gravity of the heavy metal particles automatically discharge the heavy metal particles out of the box to prevent heavy metal particles in the sewage from clogging the biofilm module, effectively protecting the biofilm module and prolonging the service life of the biofilm; and treating the sewage through the reverse osmosis membrane To the pure water standard, for direct drinking, it can be used for the sudden situation of water pollution. The air nozzle on the aeration head is inclined vertically downward or obliquely downward, which can effectively prevent the sewage from being used when the sewage treatment equipment is not in use. The impurities naturally settle and block the aeration nozzle to ensure the jet effect. The air nozzle adopts a multi-row annular structure on the outer side of the air jet head, and the length of the multi-row annular air nozzle increases from top to bottom, the aeration is uniform, and the use effect is good; The battery board generates electricity and stores electricity to realize processing equipment Power, eliminating the cost of electricity consumption, reduced processing costs.

DRAWINGS

FIG. 1 is a schematic structural view of an integrated mobile sewage treatment device according to the present invention.

2 is a schematic enlarged view of the aeration head of FIG. 1.

In the figure: 1, car body, 2, moving wheel, 3, placing frame, 4, box, 5, regulating pool, 6, magnetic pool, 7, anaerobic pool, 8, anaerobic pool, 9, biological Membrane reaction tank, 10, clear water tank, 11, reverse osmosis tank, 12, first overflow weir, 13, second overflow weir, 14, third overflow weir, 15, fourth overflow weir, 16, person Hole, 17, sludge discharge port, 18, sewage inlet, 19, pure water outlet, 20, dosing box, 21, trapezoidal block, 22, magnet lifting box, 23, magnet cone placed box, 24 , V-shaped magnetic channel, 25, Conical magnet, 26, support frame, 27, screw, 28, upper bearing seat, 29, lower bearing seat, 30, threaded sleeve, 31, connecting rod, 32, guide rod, 33, guide sleeve, 34, geared motor, 35, motor shaft, 36, drive gear, 37, driven gear, 38, flushing pump, 39, first pumping pipe, 40, flushing supervisor, 41, flushing branch pipe, 42, heavy metal impurity discharge port, 43, anaerobic bacteria Elastic filler, 44, anaerobic elastic packing, 45, biofilm module, 46, outlet pipe, 47, connecting pipe, 48, first control valve, 49, backwashing pump, 50, second pumping pipe, 51, anti Flushing pipe, 52, second control valve, 53, reverse osmosis membrane, 54, high pressure chamber, 55, low pressure chamber, 56, high pressure water pump, 57, third water pump, 58, water outlet, 59, return water pump, 60, Fourth pumping pipe, 61, return pipe, 62, blower, 63, aeration pipe, 64, aeration head, 641, circular aeration head body, 642, joint, 643, vertical aerator, 644, ring Aeration nozzle group, 6441, oblique aeration nozzle, 65, lifting lug, 66, solar panels, 67, battery.

Detailed ways

The details of the present invention are described in detail below with reference to the accompanying drawings and specific embodiments.

As shown in FIG. 1 and FIG. 2, the mobile sewage treatment integrated device includes: a vehicle body 1, a moving wheel 2 disposed at a lower end of the vehicle body 1, and a placing frame 3 disposed at an upper end of the vehicle body 1, at the pendulum A box body 4 is placed on the rack 3, and a regulating tank 5, a magnetic absorbing tank 6, an anaerobic tank 7, a anaerobic tank 8, a biofilm reaction tank 9, and clean water are disposed in the tank body 4 from the front to the rear. The pool 10 and the reverse osmosis tank 11 are connected to each other through a first weir 12 and a magnetic tank 6, and the magnetic tank 6 communicates with the anaerobic tank 7 through a second weir 13 The anaerobic tank 7 communicates with the anaerobic tank 8 through the third overflow weir 14 , and the anaerobic tank 8 communicates with the biofilm reaction tank 9 through the fourth weir 15 , in the regulating tank 5 , The upper end of the anaerobic tank 7, the anaerobic tank 8 and the biofilm reaction tank 9 are respectively provided with manholes 16, and the lower ends of the conditioning tank 5, the anaerobic tank 7, the anaerobic tank 8 and the biofilm reaction tank 9 are provided with stains. The mud discharge port 17 is provided with a sewage water inlet 18 communicating with the adjustment tank 5 on one side of the tank 4, and pure water communicating with the reverse osmosis tank 11 on the other side of the tank 4 An outlet 19 is provided at the upper end of the adjustment tank 5, and a trapezoidal stopper 21 is symmetrically disposed on both sides of the lower end of the magnetic cylinder 6, and a magnetic field between the two trapezoidal stoppers 21 is provided. The upper end of the suction pool 6 is provided with a magnet lifting box 22 and a magnet conical placing box 23 connected to the magnet lifting box 22, and between the magnet conical placing box 23 and the two trapezoidal blocks 21 are disposed a V-shaped magnetic attraction channel 24, one end of the V-shaped magnetic attraction channel 24 communicates with the first weir 12, and the other end of the V-shaped magnetic attraction channel 24 communicates with the second weir 13 The inner lower end of the magnet conical placing case 23 is provided with a conical magnet 25 that cooperates with it, and a support frame 2 is disposed at an upper end of the magnetic pool 6 6. A screw 27 is disposed in the support frame 26, and an upper end of the screw 27 is rotatably disposed on the support frame 26 through the upper bearing housing 28. The lower end of the screw 27 is rotatably disposed in the magnetic cylinder through the lower bearing housing 29. 6 , a screw sleeve 30 is disposed on the screw 27 , and the upper end of the triangular magnet 25 is connected to the screw sleeve 30 via a connecting rod 31 , and the support frame 26 and the magnetic body on both sides of the screw 27 A guiding rod 32 is symmetrically disposed between the suction pools 6. A guiding sleeve 33 is disposed on the two sides of the threaded sleeve 30, and a speed reducing motor 34 is disposed at an upper end of the supporting frame 26. The motor shaft 35 of the reduction motor 34 is provided with a driving gear 36. On the upper end of the screw bearing 27 extending from the upper bearing housing 28, a driven gear 37 meshing with the driving gear 36 is disposed on the supporting frame 2 One side is provided with a flushing water pump 38, and the water pumping port of the flushing water pump 38 The first pumping pipe 39 communicates with the central portion of the regulating tank 5, and the water outlet of the flushing water pump 38 communicates with the flushing main pipe 40 disposed on the support frame 2, and is symmetrically disposed on both sides of the magnet lifting box 22. There is a flushing branch pipe 41, and the upper ends of the two flushing branch pipes 41 are in communication with the flushing main pipe 40, and the lower ends of the two flushing branch pipes 41 are respectively located at two ends of the V-shaped magnetic attraction channel 24, in the magnetic pool 6 The lower end is provided with a heavy metal impurity discharge port 42 communicating with the V-type magnetic attraction passage 24, and an anaerobic bacteria elastic filler 43 is disposed in the anaerobic tank 7, and a facultative tank elasticity is disposed in the anaerobic chamber 8 A filler 44 is disposed in the biofilm tank 9 with a biofilm module 45, and an outlet pipe 46 is disposed at an upper end of the biofilm module 45, and the outlet pipe 46 passes through the connection pipe 47 and the inner upper end of the clear water tank 10 Connected, a first control valve 48 is disposed on the connecting pipe 47, and a backwashing water pump 49 is disposed at an upper end of the clear water tank 10, and a pumping port of the backwashing water pump 49 is opposite to an upper end of the second pumping pipe 50. Connecting, the lower end of the second suction pipe 50 extends into the clear water At the bottom of the 10, the water outlet of the backwashing water pump 49 communicates with the water outlet pipe 46 through a backwash pipe 51, and a second control valve 52 is disposed on the backwash pipe 51 to pass through the reverse osmosis tank 11 The reverse osmosis membrane 53 is provided with a high pressure chamber 54 and a low pressure chamber 55 communicating with the purified water outlet 19, and a high pressure water pump 56 is disposed at the upper end of the reverse osmosis tank 11, and the pumping port of the high pressure water pump 56 passes through the third water pump 57 is in communication with the bottom of the clean water tank 10, and the water outlet of the high-pressure water pump 56 communicates with the upper end of the high-pressure chamber 54 through the outlet pipe 58, and a return water pump 59 is disposed at the lower end of the reverse osmosis tank 11, the return water pump The water outlet of 59 is communicated with the bottom of the high pressure chamber 54 through the fourth water suction pipe 60. The water outlet of the high pressure water pump 59 communicates with the bottom of the regulating tank 5 through the return pipe 61, and the tank at the lower end of the clear water tank 10 1 is provided with a blower 62, the blast The air outlet of the machine 62 is in communication with the air, and the air outlet of the air blower 62 is connected to the aeration pipe 63 disposed at the bottom of the anaerobic tank 8 and the biofilm tank 9, and a plurality of air tubes 63 are uniformly disposed on the air tube 63. The aeration head 64, the structure of the aeration head 64 includes: a circular aeration head body 641, the circular aeration head body 641 is connected to the aeration tube 63 through a joint 642, in the circular aeration The lower end of the head body 641 is evenly disposed with a plurality of vertical aeration nozzles 643 communicating with each other, and a plurality of rows of annular aeration nozzle groups 644 are evenly disposed outside the circular aeration head body 641, each row of annular aeration nozzles The group 644 includes a plurality of inclined aeration nozzles 6441 communicating with the circular aeration head body 641. The plurality of oblique aeration nozzles 6441 in each row of the annular aerator group 644 have the same length and are inclined downwardly, and the rows are arranged. The length of the inclined aeration nozzle 6441 in the annular aeration nozzle group 644 is sequentially increased from the top to the bottom, and the lifting lugs 65 are symmetrically disposed on both sides of the upper end of the casing 4.

As shown in FIG. 1, in the present example, a plurality of solar panels 66 are evenly disposed at the upper end of the casing 4, and the solar panels 66 are connected to a battery 67 disposed in the casing 4, The reduction motor 34, the flushing water pump 38, the backwash water pump 49, the high pressure water pump 56, the return water pump 59, and the blower 62 are connected to the battery 67, respectively.

As shown in FIG. 1 and FIG. 2, in the present example, the magnet lifting case 22 is made of a non-magnetic material such as copper, aluminum, lead, etc., and the magnet conical placing box 23 is made of a magnetically attractable material such as iron or cobalt. , nickel, etc.

When the membrane bioreactor sewage treatment integrated device is used, the lifting lugs 65 on the casing 4 are lifted by the crane, and the casing 4 is placed on the placing frame 3 at the upper end of the vehicle body 1, and the moving wheel 2 is passed through the vehicle body. The vehicle body is moved to a designated position requiring sewage treatment, and the solar panel 66 is directly facing the position of the sun. After the solar panel 66 generates electricity, the electric power is stored in the battery 67, and the battery 67 is supplied to the speed reducing motor 34 and the flushing water. The pump 38, the backwashing water pump 49, the high pressure water pump 56, the return water pump 59 and the blower 62 supply power, and the sewage is pumped from the sewage water inlet 18 through the water pump, and sequentially passes through the regulating tank 5, the first overflow weir 12, the magnetic pool 6, The second overflow weir 13, the anaerobic tank 7, the third weir 14, the anaerobic tank 8 and the fourth weir 15 reach the biofilm reaction tank 9, and are mixed in the regulating tank 5 through the dosing tank 20. The coagulation agent initially settles the sewage, and when the sewage passes through the V-shaped magnetic attraction channel 24 in the magnetic absorption tank 6, the heavy metal particles in the sewage are attracted by the conical magnet 25 to adhere to the lower ends of the magnet conical placing box 23 The anaerobic elastic filler 43 in the anaerobic tank 7 converts the macromolecular organic matter in the sewage into a small molecule organic substance, and the facultative bacteria elastic filler 44 in the oxysoxin tank 8 converts the small molecule organic matter in the sewage into an inorganic substance, and the biological The sewage in the membrane reaction tank 9 is filtered by the biofilm module 45 to treat the sewage into clean water. The clean water enters the clear water tank 10 through the outlet pipe 46 and the connecting pipe 48, and starts the high pressure water pump 56, and the high pressure water pump 56 passes through the third water suction pipe 57. Extract the clean water from the clear water pool 10 and pass it out The tube 58 injects clean water into the high pressure chamber 54 with a certain pressure, and is subjected to reverse osmosis filtration by the reverse osmosis membrane 53, and the purified water enters the low pressure chamber 55 and is discharged through the purified water outlet 19 for direct drinking; the blower 62 is activated, the blower 62, the air is sent through the aeration tube 63 into the aerobic chamber 8 and the plurality of aeration heads 64 in the biofilm reaction tank 9, and the air passes from the aeration tube 63 through the joint 642 to the circular aeration head body 641 through A plurality of vertical aeration nozzles 643 and a plurality of inclined aeration nozzles 6441 in the annular aeration nozzle group 644 are aerated; when it is required to clean the heavy metal particles adsorbed on the magnet conical housing box 23, the sewage is stopped, and the geared motor is started. 34. The motor shaft 35 of the reduction motor 34 drives the driving gear 36 to rotate, the driving gear 36 drives the driven gear 37 that meshes with the same, and the driven gear 37 drives the screw 27 to rotate between the upper bearing housing 28 and the lower bearing housing 29. The threaded sleeve 30 is on the screw 27 Moving upward and upward, the two sides of the threaded sleeve 30 are respectively slid upward on the guiding rod 32 through the guiding sleeve 33, and the threaded sleeve 30 drives the cone magnet 25 to move upward into the magnet lifting box 22 through the connecting rod 31. 25 is separated from the conical housing case 23 of the magnet, and the two sides of the lower end of the magnet conical housing 23 have no magnetic attraction force on the heavy metal particles, and the heavy metal particles automatically fall into the heavy metal impurity discharge port 42 under the action of gravity, at the same time. The flushing water pump 38 is activated, and the flushing water pump 38 pumps the sewage in the regulating tank 5 through the first water collecting pipe 39 to the flushing main pipe 40 and the two flushing branch pipes 41, respectively, and the two flushing pipe pipes 41 respectively correspond to the V-shaped magnetic suction channel 24. Flushing, opening the heavy metal impurity discharge port 42 to discharge the heavy metal particles together with the flushing sewage out of the casing 4, and closing the heavy metal impurity discharge port 42, the motor shaft 35 of the reduction motor 34 is reversely reset, so that the tapered magnet 25 is reset and continues. The lower end of the magnet conical placing box 23 abuts, the sewage continues to enter; when the biofilm assembly 45 needs to be backwashed, the first control valve 48 is closed, and the second control valve 52 is opened. The backwashing water pump 49, the backwashing water pump 49 draws the clean water in the clear water tank 10 through the second water suction pipe 50, and sends the clean water into the water outlet pipe 46 and the biofilm module 45 through the backwashing pipe 51, and the water is cleaned against the biofilm. The assembly 45 has a reverse osmotic pressure to effect backwashing of the biofilm assembly 45; during the backwashing of the biofilm assembly 45, the return pump 59 is activated, and the fourth pumping line 60 of the return pump 59 can be placed in the high pressure chamber 54. The residual sewage after the reverse osmosis is withdrawn and sent to the conditioning tank 5 through the return pipe 61 for recirculation.

The above-mentioned mobile sewage treatment integrated device has compact structure, small occupied area, easy maintenance, good treatment effect, convenient movement, and can be moved to a place such as a flash flooding, such as a flash flood, to treat sewage into sewage, and respond in time; Using a magnet to treat wastewater before it is treated by biofilm modules The heavy metal particles in the medium are effectively adsorbed, and the heavy metal particles can no longer be adsorbed by adjusting the position of the magnet. The automatic washing of the flushing water pump and the gravity of the heavy metal particles automatically discharge the heavy metal particles out of the tank to prevent the heavy metal particles in the sewage from being clogged. The biofilm module effectively protects the biofilm module and prolongs the service life of the biofilm; the reverse osmosis membrane can treat the sewage to the pure water standard for direct drinking, and can be used for the sudden situation of water pollution, the jet on the aeration head The nozzle is inclined vertically downward or obliquely downward, which can effectively prevent the impurities in the sewage from naturally blocking the aeration nozzle when the sewage treatment equipment is not in use, and ensure the jet effect, and the air nozzle adopts a plurality of rows of annular structures on the outer side of the air jet head. The length of the multi-row annular air nozzle is increased from top to bottom, the aeration is uniform, and the use effect is good; the solar panel is used for power generation and storage to realize power supply to the processing equipment, thereby eliminating the cost of power consumption and reducing the processing cost. .

Claims

The mobile sewage treatment integrated device is characterized in that it comprises: a vehicle body (1), a moving wheel (2) disposed at a lower end of the vehicle body (1), and a placing frame (3) disposed at an upper end of the vehicle body (1). a box body (4) is disposed on the display frame (3), and an adjustment pool (5), a magnetic suction pool (6), and an anaerobic chamber are disposed in the box body (4) from the front to the rear. a pool (7), a facultative tank (8), a biofilm reaction tank (9), a clean water tank (10), and a reverse osmosis tank (11), the conditioning tank (5) passing through the first overflow weir (12) The magnetic suction cells (6) are in communication with each other, and the magnetic absorption tank (6) communicates with the anaerobic tank (7) through the second overflow weir (13), and the anaerobic tank (7) passes through the third overflow weir (14) communicating with the anaerobic tank (8), wherein the anaerobic tank (8) communicates with the biofilm reaction tank (9) through the fourth overflow weir (15), in the conditioning tank (5), The upper end of the anaerobic tank (7), the anaerobic tank (8) and the biofilm reaction tank (9) are respectively provided with a manhole (16), in the regulating tank (5), the anaerobic tank (7), the facultative pool (8) and a biofilm reaction tank (9) is provided with a sludge discharge port (17) at a lower end thereof, and a sewage inlet connected to the adjustment tank (5) is disposed at one side of the tank (4) (18) ), in the The other side of the body (4) is provided with a purified water outlet (19) communicating with the reverse osmosis tank (11), and at the upper end of the regulating tank (5) is provided a dosing tank (20) at the magnetic a trapezoidal stopper (21) is symmetrically disposed on both sides of the lower end of the suction pool (6), and a magnet lifting box (22) is disposed at an upper end of the magnetic pool (6) between the two trapezoidal stoppers (21). A magnet connected to the magnet lifting case (22) is tapered to place a casing (23), and a V-shaped magnetic attraction is disposed between the magnet conical placing case (23) and the two trapezoidal blocks (21). a channel (24), one end of the V-shaped magnetic channel (24) is in communication with the first weir (12), and the other end of the V-shaped magnetic channel (24) is connected to the second weir (13) ) Connected to each other, a tapered magnet (25) is disposed at an inner lower end of the magnet conical placing box (23), and a support frame (26) is disposed at an upper end of the magnetic pool (6). A screw (27) is disposed in the support frame (26), and an upper end of the screw (27) is rotatably disposed on the support frame (26) through an upper bearing seat (28), and a lower end of the screw (27) passes through The lower bearing seat (29) is rotatably disposed on the magnetic suction pool (6), and the screw (27) is provided with a screw sleeve (30) which cooperates with the screw shaft (30), and the upper end of the triangular magnet (25) passes through the connecting rod ( 31) is connected with the screw sleeve (30), and a guide rod (32) is symmetrically disposed between the support frame (26) on both sides of the screw (27) and the magnetic suction pool (6), in the screw sleeve ( 30) is respectively provided with a guiding sleeve (33) which cooperates with the guiding rod (32), and a geared motor (34) is arranged at the upper end of the supporting frame (26), and the geared motor (34) is arranged at the upper end of the supporting frame (26) a driving gear (36) is disposed on the motor shaft (35), and a driven gear (37) meshing with the driving gear (36) is disposed on an upper end of the upper bearing housing (28) of the screw (27), a flushing water pump is disposed on one side of the support frame (2) ( 38), the water pumping port of the flushing water pump (38) communicates with the middle of the regulating pool (5) through the first water pumping pipe (39), and the water outlet of the flushing water pump (38) is disposed on the support frame (2) The upper flushing main tubes (40) are in communication with each other, and flushing branch pipes (41) are symmetrically disposed on both sides of the magnet lifting box body (22), and the upper ends of the two flushing branch pipes (41) and the flushing main pipe (40) are mutually connected. Connected, the lower ends of the two flushing branch pipes (41) are respectively located at two ends of the V-shaped magnetic suction channel (24), and the lower end of the magnetic suction pool (6) is provided with a V-shaped magnetic attraction channel (24). a connected heavy metal impurity discharge port (42), an anaerobic elastic packing (43) is disposed in the anaerobic tank (7), and a anaerobic tank elastic packing is disposed in the anaerobic tank (8) (44) a biofilm module (45) is disposed in the biofilm cell (9), An outlet pipe (46) is disposed at an upper end of the biofilm module (45), and the outlet pipe (46) communicates with an inner upper end of the clear water tank (10) through a connecting pipe (47) at the connecting pipe ( 47) a first control valve (48) is disposed on the upper end of the clear water tank (10), and a backwash water pump (49) is provided, and the water pumping port of the backwash water pump (49) and the second water pumping pipe (50) The upper end of the second pumping pipe (50) extends into the bottom of the clear water tank (10), and the water outlet of the backwashing water pump (49) passes through the backwashing pipe (51) and the water outlet pipe (46). Connected to each other, a second control valve (52) is disposed on the backwashing pipe (51), and a high pressure chamber (54) and a reverse osmosis membrane (53) are disposed in the reverse osmosis tank (11) a pure water outlet (19) is connected to a low pressure chamber (55), and a high pressure water pump (56) is disposed at an upper end of the reverse osmosis tank (11), and a pumping port of the high pressure water pump (56) passes through a third water pumping pipe ( 57) communicating with the bottom of the clear water tank (10), the water outlet of the high pressure water pump (56) communicating with the upper end of the high pressure chamber (54) through the outlet pipe (58), in the reverse osmosis tank (11) A return pump is provided at the lower end (59) The water pumping port of the return water pump (59) communicates with the bottom of the high pressure chamber (54) through the fourth water pumping pipe (60), and the water outlet of the high pressure water pump (59) passes through the return pipe (61) and the regulating pool (5) The bottoms of the water pool are connected to each other, and a blower (62) is disposed on the tank (1) at the lower end of the clear water tank (10), and the air suction port of the air blower (62) communicates with the air, and the air blower (62) The air outlet is connected to an aeration tube (63) disposed at the bottom of the ampere pool (8) and the biofilm tank (9), and a plurality of aeration heads (64) are evenly disposed on the aeration tube (63). The structure of the aeration head (64) includes: a circular aeration head body (641), and the circular aeration head body (641) is connected to the aeration tube (63) through a joint (642). The lower end of the circular aeration head body (641) is evenly disposed with a plurality of interconnected a vertical aeration nozzle (643), a plurality of rows of annular aeration nozzle groups (644) are evenly disposed outside the circular aeration head body (641), and each row of the annular aeration nozzle group (644) includes a plurality of A diagonal aeration nozzle (6441) communicating with the circular aeration head body (641), each of the inclined aeration nozzles (6441) in each row of the annular aerator group (644) has the same length and is inclined downwardly. The lengths of the inclined aeration nozzles (6441) in the plurality of rows of annular aeration nozzle groups (644) are sequentially increased from top to bottom, and the lifting ears (65) are symmetrically disposed on both sides of the upper end of the casing (4).
A mobile sewage treatment integrated device according to claim 1, wherein a plurality of solar panels (66) are evenly disposed at an upper end of said casing (4), said solar panels (66) and The battery (67) disposed in the casing (4) is connected, the geared motor (34), the flushing water pump (38), the backwashing water pump (49), the high pressure water pump (56), the return water pump (59), and the blower. (62) Connected to the battery (67).
The mobile sewage treatment integrated device according to claim 1 or 2, wherein the magnet lifting case (22) is made of a non-magnetic material such as copper, aluminum, lead or the like, and the magnet is placed in a conical shape ( 23) Magnetic materials such as iron, cobalt, nickel, etc. are used.