CN116444027B - Modularized sewage plant adopting green energy to generate electricity and automatically allocate and cooperatively operate - Google Patents

Abstract

The invention discloses a modularized sewage plant capable of automatically allocating and cooperatively operating by adopting green energy power generation, which comprises a sewage tank, a solar panel and a cooperative allocation platform, wherein two isolation plates are fixedly arranged in the sewage tank. According to the modularized sewage plant and the application method for automatically allocating and cooperating with green energy power generation, the sewage is subjected to layered treatment by using the arrangement of the partition board, the large suspended matters in the sewage are automatically cleared by the arrangement of the driving assembly, the belt assembly and the suspended matter clearing assembly, the removal of the suspended matters is realized under the cooperation of the suspended matter clearing assembly, the inclination angle of the solar panel is adjusted by the steering assembly in the removal process, the efficient conversion of the solar panel to the solar energy is ensured, the effective driving of the driving assembly is further ensured, the cooperative pretreatment of the sewage is realized, and the efficient guarantee is provided for the treatment of the subsequent sewage while the energy conservation and the efficiency are realized.

Description

Modularized sewage plant adopting green energy to generate electricity and automatically allocate and cooperatively operate

Technical Field

The invention relates to the technical field of sewage pretreatment, in particular to a modularized sewage plant which adopts green energy to generate electricity and automatically allocate and cooperatively operate and a use method.

Background

The sewage treatment is a process of purifying sewage to meet the water quality requirement of being discharged into a certain water body or reused, and is widely applied to various fields of buildings, agriculture, traffic, energy, petrifaction, environmental protection, urban landscapes, medical treatment, catering and the like, and the sewage treatment also increasingly enters the daily life of common people.

The method is characterized in that a grid interception mode is adopted to intercept large-scale impurities in sewage before the conventional sewage is led into a sewage pool for sewage treatment, but the grid interception mode cannot effectively intercept suspended matters and smaller suspended matters in the sewage, so that the suspended matters and the suspended matters are required to be deeply treated in the subsequent sewage treatment process, the sewage treatment progress is severely restricted, the sewage plant has higher power consumption, in order to reduce the power consumption, the sewage treatment system is an environment-friendly energy aerobic aeration degradation system, the electric energy supply to sewage aeration treatment is realized through the utilization of wind energy and solar energy, the problem that the set use requirement target cannot be met easily occurs when the construction cost is high, and the efficient energy conversion of the solar panel is guaranteed by adopting the modularized sewage plant and the use method of the automatic cooperative operation of green energy power generation.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a modularized sewage plant which adopts green energy to generate electricity and automatically allocate and cooperatively operate and a use method thereof, and solves the problems that suspended matters and smaller floating matters in sewage cannot be effectively intercepted in a grid type interception mode, so that the suspended matters and the floating matters need to be deeply treated in the subsequent sewage treatment process, and the sewage treatment progress is severely restricted.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides an adopt green energy electricity generation automatic allocation to cooperate modularization sewage plant of operation, includes effluent water sump, solar panel and cooperation allocation platform, the inside fixed mounting of effluent water sump has two division boards, the front of effluent water sump just is located the intercommunication between two division boards and has the inlet tube, the back of effluent water sump just is located the intercommunication between two division boards has first drain pipe, two be provided with the division board between the division board, be provided with floater cleaning assembly on the division board, the below of division board is provided with floater cleaning assembly, the top of effluent water sump is provided with drive assembly, drive assembly drives solar panel through turning to the subassembly and rotates, turning to the subassembly and driving floater cleaning assembly through accelerating assembly and rotating, drive assembly passes through belt assembly drive floater cleaning assembly.

Through adopting above-mentioned technical scheme, utilize the setting of division board, carry out the layering to sewage and handle, through the setting of drive assembly, belt module and suspended solid clearance subassembly, carry out automatic clear to the large suspended solid in the sewage, under the cooperation of suspended solid clearance subassembly, realize the clearance to the floater, and in the clearance in-process, adjust solar panel's inclination through steering assembly, guarantee solar panel and to solar energy's high-efficient conversion, and then guarantee drive assembly effective drive, realize the collaborative preliminary treatment of sewage, when energy-conserving high-efficient, provide high-efficient guarantee for the processing of follow-up sewage.

In order to achieve continuous cleaning of suspended matter and intermittent cleaning of suspended matter, the invention is further provided with: the driving assembly comprises a mounting frame, a driving motor is mounted on the right side of the mounting frame, the output end of the driving motor penetrates through the mounting frame and is fixedly connected with a driving shaft through a coupling, one end of the driving shaft is fixedly connected with a first spline, the outer surface of the first spline is sleeved with a spline cylinder in a sliding manner, the outer surface of the spline cylinder is sleeved with a lantern ring, the outer surfaces of the spline cylinder are sleeved with limiting rings and are positioned on two sides of the lantern ring respectively, a top fixedly connected frame of the mounting frame is fixedly connected with a cylinder, a telescopic end of the cylinder is fixedly connected with an abutting plate, the bottom of the abutting plate is fixedly connected with a driving plate, and the bottom of the driving plate is fixedly connected with the outer surface of the lantern ring;

The utility model provides a solar energy power steering assembly, including the steering assembly, the steering assembly includes two arc framves and movable plate, the top of movable plate is connected with the assembly board through rotating the support rotation, solar panel fixed mounting is on the assembly board, the equal fixedly connected with guide cylinder in the left and right sides of both sides around the assembly board, the arc guide way with guide cylinder looks adaptation is seted up to the inside of arc frame, two arc frame respectively fixed mounting in the front and back both sides at the effluent water sump top, and two arc frame dislocation set, dislocation distance is two of front side setting the central interval of guide cylinder, the bottom fixedly connected with slide of movable plate, one side that the first spline was kept away from to the installing frame inner chamber is connected with the screw thread post through the bearing rotation, the inside of installing frame just is located between movable plate and the first spline fixedly connected with locating plate, the one end of screw thread post runs through movable plate and locating plate and fixedly connected with second spline in proper order, the surface and the internal surface looks adaptation of spline section of thick bamboo, the surface and the internal thread of screw thread post and movable plate.

Through adopting above-mentioned technical scheme, utilize the setting of cylinder, control the connection between spline section of thick bamboo and the second spline, when guaranteeing that driving motor can drive the drive shaft pivoted, realize the effective rotation control to the screw thread post, provide convenient condition for the operation control of floater clearance subassembly, and at screw thread post drive movable plate removal in-process, under assembly plate, guide cylinder, arc guide way and arc frame's cooperation, realize solar panel inclination's regulation, guarantee solar panel to solar energy high-efficient utilization.

In order to realize effective interception of floaters in sewage, the invention is further provided with: the floater cleaning assembly comprises two cleaning rollers, the two cleaning rollers are connected through a cleaning belt in a transmission mode, assembly grooves are formed in the rear sides of the tops of the isolation plates, the two cleaning rollers are respectively and rotatably arranged in the two assembly grooves, cleaning net plates are fixedly arranged on the outer surfaces of the cleaning belts, a plurality of cleaning net plates are arranged, the cleaning net plates are evenly distributed on the cleaning belts at intervals, and the bottoms of the cleaning belts and the cleaning net plates are in sliding contact with the tops of the isolation plates.

Through adopting above-mentioned technical scheme, utilize the cooperation setting of clearance area and clearance otter board, realize effectively retaining the floater in the sewage, under the cooperation of assembly groove, when the clearance area rotates, can directly lead out the floater that holds back, the clearance is got up more conveniently.

In order to achieve an efficient driving of the cleaning belt, the invention is further arranged to: the accelerating assembly comprises a large gear and a tooth plate, the bottom of the large gear is rotatably arranged at the top of one isolation plate through a bearing, the top of the large gear is fixedly connected with a synchronous gear, the outer surface of the synchronous gear is meshed with the tooth side of the tooth plate, one top of the cleaning roller is fixedly connected with a small gear, the outer surface of the large gear is meshed with the outer surface of the small gear, and the transmission ratio of the large gear to the small gear is 1:10-30, the rear side of the movable plate is fixedly connected with the top of the tooth plate through a connecting plate.

Through adopting above-mentioned technical scheme, at the movable plate removal in-process, make tooth dental lamina take place to remove, and then make synchronous gear drive gear wheel carry out synchronous rotation, in-process, the pinion rotates with higher speed, drives the cleaning roller and rotates to realize the high-efficient drive of clearance area and clearance otter board, guarantee to lead out smoothly from the assembly groove with the floater that holds back.

In order to achieve effective interception of large suspended masses, the invention is further provided with: the suspended matter cleaning component comprises an interception plate, an interception net is arranged on the front surface of the interception plate, two clamping plates are fixedly connected to one opposite sides of the separation plate respectively, the top and the bottom of the clamping plates are fixedly connected with the bottom of the separation plate and the bottom of an inner cavity of a sewage pool respectively, the clamping plates are arranged on the front sides of the separation plate, two surfaces of the separation plate are positioned between the clamping plates and the separation plate, sliding grooves are formed in the sliding grooves, sealing plates are slidably connected to the inner surfaces of the sliding grooves, square cylinders are fixedly connected to the left side and the right side of the inner cavity of the sewage pool respectively, square rods are slidably connected to the inner surfaces of the square cylinders, reset springs are fixedly connected between one ends of the square rods and one sides of the sealing plates, the left side of the inner cavity of the sewage pool is rotatably connected with a guide rod through bearings, a net cover is sleeved between the outer surfaces of the guide rod and the two sealing plates, the net cover is arranged on the outer surfaces of the guide rod in a sliding manner, the net cover is matched with the net cover, the left side of the net cover is matched with the guide rod, the guide rod is matched with the guide rod is connected to the left side of the guide rod, the guide rod is matched with the guide rod, and the guide rod is correspondingly connected to the left side of the guide rod, and the guide rod is correspondingly provided with the guide rod, and the guide rod is fixedly connected to the guide rod, and the guide rod is arranged on the left side of the guide rod through the guide rod;

The belt assembly comprises a first belt pulley sleeved on the outer surface of the driving shaft and fixedly connected with the outer surface of the driving shaft, a second belt pulley sleeved on the outer surface of the guide rod and fixedly connected with the outer surface of the guide rod, and the first belt pulley and the second belt pulley are connected through belt transmission.

Through adopting above-mentioned technical scheme, utilize interception net to intercept the big piece impurity in the sewage, realize the effective transmission of drive shaft and guide bar through the belt module, under the cooperation of bi-directional lead screw portion and wiping the otter board, make and wipe the otter board and make a round trip to clean at interception net surface, when avoiding interception net to block up, store the screen panel, the spout, the shutoff board, under the setting of trigger lever and cardboard, when wiping the setting of otter board and remove to the cardboard rear side, the trigger lever is with the ejecting spout of shutoff board, make the big piece suspended solid that holds and hold the interception in the otter board export through the spout, cooperation square tube, square bar and reset spring's setting, when the trigger lever breaks away from the shutoff board, realize the effective reset of shutoff board, and then guarantee the interception net to the continuous effective interception of big piece impurity in the sewage.

The invention is further provided with: the left side and the right side of the bottom of the sewage pool are both fixed and communicated with a biodegradation pool, and a second drain pipe is connected to the back of the sewage pool and positioned on one side of the two opposite isolation plates.

In order to reduce the electric energy consumption of sewage treatment and realize the effective utilization of green energy, the invention is further provided with the following steps: the collaborative allocation platform comprises a time allocation unit and a storage battery monitoring unit, wherein the time allocation unit is in butt joint with the storage battery monitoring unit, the time allocation unit comprises a time period setting module and a cylinder control module, and the time period setting module is in butt joint with the cylinder control module;

the time period setting module is used for setting the power supply time of the air cylinder;

and the cylinder control module is used for controlling the extension and contraction of the cylinder after the cylinder is electrified.

The storage battery monitoring unit comprises a photovoltaic power storage module and a motor driving module;

the photovoltaic power storage module is used for converting solar energy absorbed by the solar panel into electric energy, and storing the electric energy in the storage battery as a cylinder power supply;

the motor driving module is used for connecting the driving motor with an external power supply and controlling the rotation of the driving motor.

Through adopting above-mentioned technical scheme, utilize the green energy that solar panel converted to carry out the drive control of cylinder, when driving motor drives the threaded rod and rotates, not only can be through the inclination to solar panel adjusting, realize the high-efficient utilization to solar energy, can also realize the effective clearance to the small-size floater in sewage through accelerating assembly and floater clearance subassembly's setting, incorporate green energy in sewage treatment, realize the collaborative formula of sewage treatment power consumption and allocate, have application prospect more.

The invention also discloses a using method of the modularized sewage plant adopting the green energy to generate electricity and automatically allocate and cooperatively operate, which comprises the following steps:

step one, intercepting: sewage flows into the sewage pool through the water inlet pipe, the interception net intercepts large suspended matters in the sewage, the suspended matters on the sewage move to the partition plate and are intercepted by the cleaning belt and the cleaning net plate, and the sewage with the large suspended matters and the suspended matters intercepted and removed is discharged through the first water discharge pipe;

step two, suspended matter cleaning: the motor driving module controls the driving motor to operate, the driving motor drives the driving shaft to enable the first belt pulley to rotate, the second belt pulley rotates through the belt, the second belt pulley drives the guide rod to rotate, the wiping screen plate moves left and right on the bidirectional screw rod part in a reciprocating manner, large suspended matters intercepted by the surface of the interception screen are scraped in the process of moving the wiping screen plate leftwards and collected in the left storage screen plate, when the wiping screen plate moves between the left clamping plate and the interception plate, the trigger rod is inserted into the blind hole, the trigger rod presses the blocking plate to leak out of the sliding groove, part of sewage is cooperated with the large suspended matters in the storage screen plate to flow to the left side of the left side isolation plate, the rear wiping screen plate moves rightwards, in the process, the trigger rod is separated from the blind hole, the reset spring pushes the blocking plate to enter into the sliding groove, when the wiping screen plate moves between the right clamping plate and the interception plate, the trigger rod presses the blocking plate to leak out of the sliding groove, and part of sewage is cooperated with the large suspended matters in the storage screen plate to flow to the right side of the right side isolation plate, and the rear wiping screen plate moves leftwards to clean the large suspended matters;

Step three, electric power storage: establishing a time period comparison table corresponding to the time period of the white day, adjusting the inclination angle of the solar panel after one time period is finished, enabling a time period setting module to conduct design of cylinder power supply time according to the time period comparison table, enabling a photovoltaic power storage module to convert solar energy absorbed by the solar panel into electric energy to be stored in a storage battery, enabling a cylinder to be connected with the storage battery after the power supply time is reached, enabling the cylinder to be electrified by a cylinder control module, controlling the cylinder to extend, driving a first spline to enable a spline cylinder to rotate in a rotation process of a second driving shaft, enabling the cylinder to extend to drive a butt joint plate to enable a driving plate to move, enabling the driving plate to drive a lantern ring to squeeze a limiting ring, enabling the spline cylinder with limit ring to move to a second spline, enabling a second spline to rotate after the spline cylinder is sleeved on the second spline, enabling a sliding plate to drive a moving plate to move, enabling an assembly plate to drive two guide cylinders to move in an arc-shaped frame and an arc-shaped guide groove, enabling the spline cylinder to be separated from the second spline cylinder after adjusting the inclination angle of the solar panel, and keeping the adjusted angle;

step four, cleaning floating objects: in the third step, the movable plate is driven to move in the moving process, so that the synchronous gear rotates, the synchronous gear drives the large gear to synchronously rotate, the large gear drives the small gear to accelerate to rotate, one cleaning roller rotates, the other cleaning roller rotates through the cleaning belt, and floaters intercepted on the cleaning screen plate are cleaned to one side of the two isolation plates opposite to each other through the assembly groove;

Fifth, biological decomposition: the biological filler is buried in the biological degradation tank, sewage after the suspended matters are blocked by the blocking net, part of sewage flows into the biological degradation tank from a gap between the sliding groove and the blocking plate, part of sewage flows into the biological degradation tank from the assembly groove, and the large suspended matters cleaned from the blocking net flow onto the biological degradation tank through the sliding groove, and are led out through the second drain pipe.

The invention provides a modularized sewage plant which adopts green energy to generate electricity and automatically allocate and cooperatively operate and a use method thereof. The beneficial effects are as follows:

(1) According to the invention, the sewage is subjected to layered treatment by utilizing the arrangement of the partition plates, the large suspended matters in the sewage are automatically removed by the arrangement of the driving assembly, the belt assembly and the suspended matters cleaning assembly, the removal of the suspended matters is realized under the cooperation of the suspended matters cleaning assembly, and in the removal process, the inclination angle of the solar panel is adjusted by the steering assembly, so that the solar panel is ensured to efficiently convert solar energy, the driving assembly is further ensured to effectively drive, the cooperative pretreatment of the sewage is realized, and the efficient and energy-saving treatment of the sewage is realized.

(2) According to the invention, the connection between the spline cylinder and the second spline is controlled by utilizing the arrangement of the air cylinder, so that the driving motor can drive the driving shaft to rotate, meanwhile, the effective rotation control of the threaded column is realized, convenient conditions are provided for the operation control of the floating object cleaning assembly, and in the process that the threaded column drives the movable plate to move, the inclination angle of the solar panel is adjusted under the cooperation of the assembly plate, the guide cylinder, the arc-shaped guide groove and the arc-shaped frame, and the solar panel is ensured to efficiently utilize solar energy.

(3) According to the invention, through the cooperation of the cleaning belt and the cleaning screen, the effective interception of the floating matters in the sewage is realized, and under the cooperation of the assembly groove, the intercepted floating matters can be directly led out when the cleaning belt rotates, so that the cleaning is more convenient.

(4) According to the invention, the tooth plate is moved in the moving process of the moving plate, so that the synchronous gear drives the large gear to synchronously rotate, and in the process, the small gear is accelerated to rotate to drive the cleaning roller to rotate, thereby realizing the efficient driving of the cleaning belt and the cleaning screen plate and ensuring that the trapped floating objects are smoothly guided out of the assembly groove.

(5) According to the invention, the interception net is utilized to intercept large-block impurities in sewage, the effective transmission of the driving shaft and the guide rod is realized through the belt assembly, the wiping net plate is wiped back and forth on the surface of the interception net under the cooperation of the bidirectional screw rod part and the wiping net plate, the interception net is prevented from being blocked, the blocking plate is ejected out of the sliding groove by the triggering rod when the wiping net plate moves to the rear side of the blocking plate under the arrangement of the storage net cover, the sliding groove, the blocking plate and the blocking plate, the large-block suspended matters trapped in the storage net plate are led out through the sliding groove, and the effective reset of the blocking plate is realized by the arrangement of the square cylinder, the square rod and the reset spring when the triggering rod is separated from the blocking plate, so that the interception net is ensured to continuously and effectively intercept the large-block impurities in sewage.

(6) According to the invention, the driving control of the air cylinder is performed by utilizing green energy converted by the solar panel, when the driving motor drives the threaded rod to rotate, the high-efficiency utilization of solar energy can be realized by adjusting the inclination angle of the solar panel, the effective cleaning of small and medium-sized floaters in sewage can be realized by arranging the acceleration component and the floaters cleaning component, the green energy is integrated into sewage treatment, the cooperative allocation of electricity consumption for sewage treatment is realized, and the method has a more application prospect.

Drawings

FIG. 1 is a schematic view of the external structure of the present invention;

FIG. 2 is a schematic view of the rear structure of the present invention;

FIG. 3 is a schematic view of the internal structure of the present invention;

FIG. 4 is a schematic view of a suspension cleaning assembly according to the present invention;

FIG. 5 is a schematic diagram of a driving assembly according to the present invention;

FIG. 6 is an enlarged schematic view of the structure of FIG. 1A according to the present invention;

FIG. 7 is a schematic illustration of the connection of the drift cleaning assembly and the spacer structure of the present invention;

FIG. 8 is a schematic diagram of the connection of the square tube, square rod and return spring structure of the present invention;

FIG. 9 is a schematic diagram of an acceleration assembly according to the present invention;

FIG. 10 is a schematic block diagram of a system of the collaborative deployment platform of the present invention;

in the figure, 1, a sewage pool; 2. a solar panel; 3. a collaborative allocation platform; 4. a partition plate; 5. a water inlet pipe; 6. a first drain pipe; 7. a partition plate; 8. a float cleaning assembly; 9. a suspended matter cleaning assembly; 10. a drive assembly; 11. a steering assembly; 12. an acceleration assembly; 13. a belt assembly; 14. a mounting frame; 15. a driving motor; 16. a drive shaft; 17. a first spline; 18. a spline cylinder; 19. a collar; 20. a limiting ring; 21. a cylinder; 22. an abutting plate; 23. a driving plate; 24. an arc-shaped frame; 25. a moving plate; 26. an assembly plate; 27. a guide cylinder; 28. an arc-shaped guide groove; 29. a slide plate; 30. a threaded column; 31. a positioning plate; 32. a second spline; 33. a cleaning roller; 34. cleaning the belt; 35. an assembly groove; 36. cleaning the screen plate; 37. a large gear; 38. tooth plate; 39. a synchronizing gear; 40. a pinion gear; 41. an interception plate; 42. an interception net; 43. a clamping plate; 44. a chute; 45. a plugging plate; 46. a square cylinder; 47. square rods; 48. a return spring; 49. a guide rod; 50. wiping the screen plate; 51. a bidirectional screw portion; 52. storing the net cover; 53. a trigger lever; 54. a blind hole; 55. a first pulley; 56. a second pulley; 57. a belt; 58. a biodegradation tank; 59. a second drain pipe; 60. a time allocation unit; 61. a battery monitoring unit; 62. a time period setting module; 63. a cylinder control module; 64. a light Fu Xudian module; 65. and a motor driving module.

Description of the embodiments

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-10, the following technical solutions are provided in the embodiments of the present invention: a modularized sewage plant capable of automatically blending and cooperatively operating by adopting green energy power generation is shown in the accompanying drawings 1 and 10, and comprises a sewage tank 1, a solar panel 2 and a cooperative blending platform 3, wherein a floating object cleaning assembly 8 and a suspended object cleaning assembly 9 are arranged in the sewage tank 1, a driving assembly 10, a steering assembly 11 and an accelerating assembly 12 are arranged on the sewage tank 1, and the driving assembly 10 drives the solar panel 2 to rotate through the steering assembly 11.

Preferably, two isolation plates 4 are fixedly arranged in the sewage tank 1, a water inlet pipe 5 is communicated between the two isolation plates 4 on the front surface of the sewage tank 1, a first water outlet pipe 6 is communicated between the two isolation plates 4 on the back surface of the sewage tank 1,

further to the description, the float cleaning assembly 8 is used for cleaning small-sized floats in sewage, the float cleaning assembly 9 is used for cleaning big-sized floats in sewage, and in order to ensure effective separation of the small-sized floats and the big-sized floats, a partition plate 7 is arranged between the two partition plates 4.

As a preferred scheme, the driving assembly 10 includes a mounting frame 14, as shown in fig. 1, the mounting frame 14 is fixedly mounted on the left and right sides of the top of the sewage tank 1, as shown in fig. 5, a driving motor 15 is mounted on the right side of the mounting frame 14, an output end of the driving motor 15 penetrates through the mounting frame 14 and is fixedly connected with a driving shaft 16 through a coupling, in order to utilize rotation of the driving shaft 16 to effectively clean massive suspended matters, further, a first belt pulley 55 is sleeved on the outer surface of the driving shaft 16, the suspended matter cleaning assembly 9 comprises an interception plate 41, an interception net 42 is provided on the front surface of the interception plate 41, clamping plates 43 are fixedly connected to opposite sides of the two isolation plates 4, the top and the bottom of the clamping plates 43 are fixedly connected with the bottom of the isolation plate 7 and the bottom of the inner cavity of the sewage tank 1 respectively, and the clamping plates 43 are arranged on the front side of the isolation plates 4.

In order to facilitate timely removal of large suspended matters intercepted on the interception net 42, the situation that the interception net 42 is blocked is avoided, as shown in fig. 4 and 8, the surfaces of the two isolation plates 4 are located between the clamping plates 43 and the isolation plates 4, sliding grooves 44 are formed in the inner sliding mode of the sliding grooves 44, the blocking plates 45 are fixedly connected with square cylinders 46 on the left side and the right side of the inner cavity of the sewage pool 1, square rods 47 are fixedly connected with the inner side of the square cylinders 46, one ends of the square rods 47 are fixedly connected with one side of the blocking plates 45, reset springs 48 are fixedly connected between the other ends of the square rods 47 and the inner side of the square cylinders 46, guide rods 49 are rotatably connected to the left side of the inner cavity of the sewage pool 1 through bearings, one ends of the guide rods 49 sequentially penetrate through the two blocking plates 45 and are rotatably mounted on the right side of the inner cavity of the sewage pool 1 through the bearings, a wiping screen 50 is sleeved on the outer surface of the guide rods 49 and located between the two blocking plates 45, two guide rods 49 are provided with two-way lead screw portions 51 matched with the wiping screen plates 50, the two-way lead screw portions 51 are arranged on the outer surfaces of the two-way lead screw portions, and the two-way lead screw portions 51 are arranged on the left lead screw portions and can be driven to reciprocate in a reciprocating way line by the guide screw portions 50.

Further, in order to ensure that the large suspended matters cleaned on the interception net 42 are effectively driven, the left side and the right side of the wiping net plate 50 are fixedly connected with the storage net cover 52, the front side and the rear side of the storage net cover 52 are respectively matched with one side opposite to the clamping plate 43 and the interception plate 41, the top and the bottom of the storage net cover 52 are respectively matched with one side opposite to the partition plate 7 and the sewage pool 1, the left side and the right side of the wiping net plate 50 are fixedly connected with the trigger rod 53, blind holes 54 matched with the trigger rod 53 are formed in one side opposite to the two plugging plates 45, a certain distance is reserved between the storage net cover 52 and the plugging plates 45 through effective matching of the trigger rod 53 and the plugging plates 45, the large suspended matters stored in the storage net cover 52 can be rapidly discharged from the sliding grooves 44, the outer surface of the guide rod 49 is sleeved with and fixedly connected with the second belt pulley 56, and the first belt pulley 55 and the second belt pulley 56 are in transmission connection through the belt 57.

Since the east and west of the sun fall, the sun is in different positions in different time periods during the daytime, so that the irradiation directions of the sun are different, in order to ensure that the solar panel 2 can effectively face the irradiation directions of the sun, according to the on-site measurement, the solar irradiation direction data of different time periods are collected, the inclination angle of the solar panel 2 is adjusted after one time period is finished by establishing a time period comparison table corresponding to the time period of the daytime, and the inclination angle of the solar panel 2 can be sequentially adjusted after the interval setting time by utilizing the time period setting module 62 to design the power supply time of the air cylinder 21 according to the time period comparison table.

Specifically, fig. 5 and fig. 6 show, the one end fixedly connected with first spline 17 of drive shaft 16, and the surface cover of first spline 17 establishes and sliding connection has spline section of thick bamboo 18, the surface cover of spline section of thick bamboo 18 is equipped with lantern ring 19, the surface of spline section of thick bamboo 18 and the both sides that are located lantern ring 19 all overlap and fixedly connected with spacing ring 20, the top fixedly connected with cylinder 21 of installing frame 14, the telescopic end fixedly connected with butt plate 22 of cylinder 21, the bottom fixedly connected with drive plate 23 of butt plate 22, and the bottom of drive plate 23 and the surface fixed connection of lantern ring 19, as shown in fig. 2, steering assembly 11 includes two arc frames 24 and movable plate 25, the top of movable plate 25 is connected with spline section of thick bamboo 26 through rotating support rotation, solar panel 2 fixed mounting is on spline section of thick bamboo 26, the left and right sides of assembly 26 all fixedly connected with guide cylinder 27, the inside of arc frame 24 has set up with guide cylinder 27 looks adaptation's arc guide slot 28, two arc frames 24 respectively fixed mounting are in the front and back both sides at the sewage pond 1 top, and two bottom fixedly connected with drive plate 23, and the bottom of drive plate 23 and the surface fixed connection of lantern ring 19, as shown in fig. 2, the steering assembly 11 includes two arc frames 24 and movable plate 25, the top of movable plate 25 is provided with spline section of thick bamboo 25 and movable plate 25's top through rotating support 25, the fixed mounting plate 31, the fixed surface 31 is connected with spline section of thick bamboo 32, the surface of spline section of thick bamboo 25 is connected with spline section of thick bamboo 25, the fixed mounting plate and the surface is located the fixed mounting plate is located at the surface between the surface of spline section of thick bamboo 25, the surface and the fixed mounting plate is located at the surface, spline section of thick bamboo 31, the surface is located at the surface, the inside 31, the inside and is located at the surface, the front and the flange is.

Further, when the power supply timing is reached, the cylinder 21 is controlled to extend, and after the set time for the extension, the cylinder 21 is controlled to contract.

Because small-size floater that floats in sewage is less, continuously drives floater cleaning assembly 8 operation, comparatively consumes the energy, consequently adopts the interval to set for time to clear up the mode once and clear up, specifically, carries out the removal of angle modulation in-process movable plate 25 at solar panel 2, realizes through accelerating assembly 12 that floater cleaning assembly 8 is to the effective clearance of floater.

The floater cleaning assembly 8 is shown in fig. 1, 2 and 7, and comprises two cleaning rollers 33, the two cleaning rollers 33 are in transmission connection through a cleaning belt 34, assembly grooves 35 are formed in the rear sides of the tops of the two isolation plates 4, the two cleaning rollers 33 are respectively and rotatably arranged in the two assembly grooves 35, cleaning net plates 36 are fixedly arranged on the outer surfaces of the cleaning belts 34, a plurality of cleaning net plates 36 are arranged, the cleaning net plates 36 are uniformly distributed on the cleaning belts 34 at intervals, and the bottoms of the cleaning belts 34 and the cleaning net plates 36 are in sliding contact with the tops of the isolation plates 7.

In order to realize effective driving of the cleaning roller 33, as shown in fig. 9, as a preferred scheme, the accelerating assembly 12 comprises a large gear 37 and a tooth plate 38, the bottom of the large gear 37 is rotatably installed at the top of one isolation plate 4 through a bearing, the top of the large gear 37 is fixedly connected with a synchronous gear 39, the outer surface of the synchronous gear 39 is meshed with the tooth side of the tooth plate 38, the top of one cleaning roller 33 is fixedly connected with a small gear 40, the outer surface of the large gear 37 is meshed with the outer surface of the small gear 40, and the rear side of the moving plate 25 is fixedly connected with the top of the tooth plate 38 through a connecting plate.

As a preferred scheme, in order to facilitate the treatment of bulk suspended matters and sewage, the left and right sides of the bottom of the sewage tank 1 are both fixed and communicated with a biodegradation tank 58, and the back of the sewage tank 1 and the opposite sides of the two isolation plates 4 are both connected with a second drain pipe 59.

As shown in fig. 10, the collaborative blending platform 3 preferably includes a time blending unit 60 and a battery monitoring unit 61.

The time allocation unit 60 includes a period setting module 62 and an air cylinder control module 63, the period setting module 62 being used for setting the power supply time of the air cylinder 21;

the period setting module 62 interfaces with a cylinder control module 63, and the cylinder control module 63 is configured to control extension and contraction of the cylinder 21 after the cylinder 21 is energized.

The battery monitoring unit 61 includes a light Fu Xudian module 64 and a motor driving module 65;

the light Fu Xudian module 64 is used for converting solar energy absorbed by the solar panel 2 into electric energy, and storing the electric energy in a storage battery as a power supply for the air cylinder 21;

the motor driving module 65 is used for connecting the driving motor 15 with an external power supply and controlling the rotation of the driving motor 15;

and the light Fu Xudian module 64 interfaces with the cylinder control module 63.

The application method of the modularized sewage plant adopting green energy power generation to automatically allocate and cooperatively operate specifically comprises the following steps:

Step one, intercepting: sewage flows into the sewage pool 1 through the water inlet pipe 5, the interception net 42 intercepts large suspended matters in the sewage, the suspended matters on the sewage move to the partition plate 7 and are intercepted by the cleaning belt 34 and the cleaning net plate 36, and the sewage from which the large suspended matters and the suspended matters are intercepted and removed is discharged through the first water discharge pipe 6;

step two, suspended matter cleaning: the motor driving module 65 controls the driving motor 15 to operate, the driving motor 15 drives the driving shaft 16 to enable the first belt pulley 55 to rotate, the second belt pulley 56 is enabled to rotate through the belt 57, the second belt pulley 56 drives the guide rod 49 to rotate, the wiping screen 50 moves left and right on the bidirectional screw rod part 51 in a reciprocating manner, large suspended matters intercepted by the surface of the interception screen 42 are scraped in the leftward movement process of the wiping screen 50, and are collected in the left storage screen 52, when the wiping screen 50 moves between the left clamping plate 43 and the interception plate 41, the trigger rod 53 is inserted into the blind hole 54, the trigger rod 53 presses the plugging plate 45, the sliding chute 44 leaks, part of sewage cooperates with the large suspended matters in the storage screen 52 to flow to the left side of the left isolation plate 4, the rear wiping screen 50 moves rightward, in the process, the trigger rod 53 is separated from the blind hole 54, the reset spring 48 pushes the plugging plate 45 to enter the sliding chute 44, when the wiping screen 50 moves between the right clamping plate 43 and the interception plate 41, the trigger rod 53 is inserted into the blind hole 54, the trigger rod 53 presses the sliding plate 45, part of the sliding chute 44 leaks out, part of the sewage cooperates with the large suspended matters in the storage screen 52 to move to the left side of the right isolation plate 4, and the large suspended matters in the storage screen 52 moves leftward and then the large suspended matters are cleaned;

Step three, electric power storage: establishing a time period comparison table corresponding to the time period of the day, after one time period is finished, adjusting the inclination angle of the solar panel 2, enabling a time period setting module 62 to conduct design of power supply time of a cylinder 21 according to the time period comparison table, enabling a light Fu Xudian module 64 to convert solar energy absorbed by the solar panel 2 into electric energy to be stored in a storage battery, enabling a cylinder control module 63 to connect the cylinder 21 with the storage battery to be electrified after the power supply time is reached, controlling the cylinder 21 to extend, driving a shaft 16 to rotate in the step two, driving a first spline 17 to enable a spline cylinder 18 to rotate, enabling the cylinder 21 to extend to drive a butt plate 22 to enable a driving plate 23 to move, enabling a lantern ring 19 to squeeze a limiting ring 20, enabling the limiting ring 20 to drive the rotating spline cylinder 18 to move to a second spline 32, enabling a threaded column 30 to rotate after the spline cylinder 18 is sleeved on the second spline 32, enabling a sliding plate 29 to drive a moving plate 25 to move, enabling an assembly plate 26 to drive two guide cylinders 27 to move in an arc-shaped frame 24 and an arc-shaped guide groove 28, controlling the cylinder 21 to extend, enabling the cylinder 21 to shrink away from the spline cylinder 18, and keeping the spline angle of the solar panel 2 to be adjusted after the spline cylinder 2 is retracted;

Step four, cleaning floating objects: in the third step, the moving plate 25 moves to drive the toothed plate 38 to move, so that the synchronous gear 39 rotates, the synchronous gear 39 drives the large gear 37 to synchronously rotate, the large gear 37 drives the small gear 40 to accelerate to rotate, one cleaning roller 33 rotates, the other cleaning roller 33 rotates through the cleaning belt 34, and floaters intercepted on the cleaning screen plate 36 are cleaned to the opposite sides of the two isolation plates 4 through the assembly grooves 35;

fifth, biological decomposition: the biological filler is buried in the biological degradation tank 58, the sewage after the suspension is intercepted by the interception net 42, part of the sewage flows into the biological degradation tank 58 from the gap between the chute 44 and the blocking plate 45, part of the sewage flows into the biological degradation tank 58 from the assembly groove 35, and the large suspension cleaned from the interception net 42 flows into the biological degradation tank 58 through the chute 44, and is guided out through the second drain pipe 59.

Claims (7)

1. The utility model provides an adopt green energy electricity generation to allocate automatically and cooperate modularization sewage plant of operation, includes effluent water sump (1), solar panel (2) and cooperation allotment platform (3), its characterized in that: the sewage treatment device is characterized in that two isolation plates (4) are fixedly arranged in the sewage tank (1), a water inlet pipe (5) is communicated between the two isolation plates (4) and arranged on the front surface of the sewage tank (1), a first water outlet pipe (6) is communicated between the two isolation plates (4) and arranged on the back of the sewage tank (1), a partition plate (7) is arranged between the two isolation plates (4), a floating object cleaning assembly (8) is arranged on the partition plate (7), a suspended object cleaning assembly (9) is arranged below the partition plate (7), a driving assembly (10) is arranged at the top of the sewage tank (1), the driving assembly (10) drives a solar panel (2) to rotate through a steering assembly (11), the steering assembly (11) drives the floating object cleaning assembly (8) to rotate through an accelerating assembly (12), and the driving assembly (10) drives the floating object cleaning assembly (9) to rotate through a belt assembly (13);

The driving assembly (10) comprises a mounting frame (14), a driving motor (15) is mounted on the right side of the mounting frame (14), an output end of the driving motor (15) penetrates through the mounting frame (14) and is fixedly connected with a driving shaft (16) through a coupling, one end of the driving shaft (16) is fixedly connected with a first spline (17), the outer surface of the first spline (17) is sleeved with a spline cylinder (18) in a sliding manner, the outer surface of the spline cylinder (18) is sleeved with a lantern ring (19), the outer surface of the spline cylinder (18) is sleeved with two sides of the lantern ring (19) in a sleeved manner and is fixedly connected with a limiting ring (20), a top fixedly connected frame of the mounting frame (14) is fixedly connected with an air cylinder (21), a telescopic end of the air cylinder (21) is fixedly connected with an abutting plate (22), the bottom of the abutting plate (22) is fixedly connected with a driving plate (23), and the bottom of the driving plate (23) is fixedly connected with the outer surface of the lantern ring (19).

The steering assembly (11) comprises two arc-shaped frames (24) and a moving plate (25), wherein the top of the moving plate (25) is rotationally connected with an assembling plate (26) through a rotating bracket, the solar panel (2) is fixedly arranged on the assembling plate (26), the left side and the right side of the front side and the rear side of the assembling plate (26) are fixedly connected with guide cylinders (27), arc-shaped guide grooves (28) matched with the guide cylinders (27) are formed in the arc-shaped frames (24), the two arc-shaped frames (24) are respectively and fixedly arranged on the front side and the rear side of the top of the sewage pool (1), the two arc-shaped frames (24) are arranged in a staggered mode, the staggered distance is the center distance between the two guide cylinders (27) arranged on the front side, the bottom of the moving plate (25) is fixedly connected with sliding plates (29), one side, far away from the first spline (17), of an inner cavity of the mounting frame (14) is rotationally connected with a threaded column (30) through a bearing, the inner side of the mounting frame (14) is provided with a spline (31) which is positioned between the moving plate (25) and the first spline (17), the inner spline (31) is fixedly connected with the second spline (32) and the inner spline (32) which is fixedly connected with the outer surface of the second spline (32) in turn, the outer surface of the threaded column (30) is in threaded connection with the inner surface of the movable plate (25);

The suspended solid cleaning component (9) comprises an interception plate (41), an interception net (42) is arranged on the front surface of the interception plate (41), two opposite sides of the inner cavity of the sewage tank (1) are fixedly connected with a clamping plate (43), the top and the bottom of the clamping plate (43) are fixedly connected with the bottom of the partition plate (7) and the bottom of the inner cavity of the sewage tank (1) respectively, the clamping plate (43) is arranged on the front side of the partition plate (4), sliding grooves (44) are formed in the surfaces of the two partition plates (4) and between the clamping plate (43) and the partition plate (4), a plugging plate (45) is connected to the inner side of the sliding grooves (44) in a sliding manner, square cylinders (46) are fixedly connected to the left side and the right side of the inner cavity of the sewage tank (1), one end of each square cylinder (47) is fixedly connected with one side of the corresponding to one side of the corresponding plugging plate (45), a reset spring (48) is fixedly connected between the other end of each square cylinder (47) and the inner cavity of the corresponding to the corresponding square cylinder (46), the left side of the sewage tank (1) is connected with one end of the corresponding to the corresponding guide shaft (49) through a bearing (49) in turn, the guide shaft (49) penetrates through the inner cavity of the corresponding bearings (45), the outer surface of the guide rod (49) is sleeved with a wiping screen plate (50) between two blocking plates (45), the outer surface of the guide rod (49) is provided with a bidirectional screw rod part (51) matched with the wiping screen plate (50), the left side and the right side of the wiping screen plate (50) are fixedly connected with a storage screen (52), the front side and the rear side of the storage screen (52) are respectively matched with one side opposite to the clamping plate (43) and the blocking plate (41), the top and the bottom of the storage screen (52) are respectively matched with one side opposite to the spacing plate (7) and the sewage pool (1), the left side and the right side of the wiping screen plate (50) are fixedly connected with a trigger rod (53), and blind holes (54) matched with the trigger rod (53) are respectively formed in one side opposite to the two blocking plates (45);

The belt assembly (13) comprises a first belt pulley (55) sleeved and fixedly connected to the outer surface of the driving shaft (16), a second belt pulley (56) sleeved and fixedly connected to the outer surface of the guide rod (49), and the first belt pulley (55) and the second belt pulley (56) are in transmission connection through a belt (57).

2. The modular sewage plant for automatically deploying and cooperating using green energy power generation according to claim 1, wherein: the floater cleaning assembly (8) comprises two cleaning rollers (33), the two cleaning rollers (33) are connected through a cleaning belt (34) in a transmission mode, the two cleaning rollers (33) are respectively rotatably installed in the two assembly grooves (35) at the rear side of the top of the isolation plate (4), cleaning net plates (36) are fixedly installed on the outer surfaces of the cleaning belt (34), a plurality of cleaning net plates (36) are arranged, the cleaning net plates (36) are evenly distributed on the cleaning belt (34) at intervals, and the bottoms of the cleaning belt (34) and the cleaning net plates (36) are in sliding contact with the tops of the isolation plates (7).

3. The modular sewage plant for automatically deploying and cooperating using green energy power generation according to claim 2, wherein: the accelerating assembly (12) comprises a large gear (37) and a tooth plate (38), the bottom of the large gear (37) is rotatably arranged at the top of a separation plate (4) through a bearing, the top of the large gear (37) is fixedly connected with a synchronous gear (39), the outer surface of the synchronous gear (39) is meshed with the tooth side of the tooth plate (38), one cleaning roller (33) is fixedly connected with a pinion (40), the outer surface of the large gear (37) is meshed with the outer surface of the pinion (40), and the rear side of the movable plate (25) is fixedly connected with the top of the tooth plate (38) through a connecting plate.

4. The modular sewage plant for automatically deploying and cooperating using green energy power generation according to claim 1, wherein: the left side and the right side of the bottom of the sewage tank (1) are both fixed and communicated with a biodegradation tank (58), and a second drain pipe (59) is connected to the back of the sewage tank (1) and positioned on one side of the two isolation plates (4) opposite to each other.

5. The modular sewage plant for automatically deploying and cooperating using green energy power generation according to claim 1, wherein: the collaborative allocation platform (3) comprises a time allocation unit (60) and a storage battery monitoring unit (61), the time allocation unit (60) is in butt joint with the storage battery monitoring unit (61), the time allocation unit (60) comprises a time period setting module (62) and a cylinder control module (63), and the time period setting module (62) is in butt joint with the cylinder control module (63);

the time period setting module (62) is used for setting the power supply time of the air cylinder (21);

the cylinder control module (63) is used for controlling the extension and contraction of the cylinder (21) after the cylinder (21) is electrified.

6. The modular sewage plant for automatically deploying and cooperating using green energy for power generation according to claim 5 wherein: the storage battery monitoring unit (61) comprises a light Fu Xudian module (64) and a motor driving module (65);

The light Fu Xudian module (64) is used for converting solar energy absorbed by the solar panel (2) into electric energy, and storing the electric energy in a storage battery to be used as a power supply for the air cylinder (21);

the motor driving module (65) is used for connecting the driving motor (15) with an external power supply and controlling the rotation of the driving motor (15).

7. The method for using the green energy power generation automatic allocation and cooperative operation modularized sewage plant as claimed in claim 1, wherein the method comprises the following steps: the method specifically comprises the following steps:

step one, intercepting: sewage flows into the sewage pool (1) through the water inlet pipe (5), the interception net (42) intercepts large suspended matters in the sewage, the suspended matters on the sewage move to the partition plate (7) and are intercepted by the cleaning belt (34) and the cleaning net plate (36), and the sewage with the large suspended matters and the suspended matters intercepted and removed is discharged through the first water discharge pipe (6);

step two, suspended matter cleaning: the motor driving module (65) controls the driving motor (15) to operate, the driving motor (15) drives the driving shaft (16) to enable the first belt pulley (55) to rotate, the second belt pulley (56) drives the guide rod (49) to rotate through the belt (57), the wiping screen (50) moves left and right on the bidirectional screw rod part (51) in a reciprocating manner, in the process that the wiping screen (50) moves left, large suspended matters intercepted by the surface of the interception screen (42) are scraped, and collected in the left storage screen (52), when the wiping screen (50) moves between the left clamping plate (43) and the interception plate (41), the triggering rod (53) is inserted into the blind hole (54), the triggering rod (53) presses the blocking plate (45) to leak out of the sliding groove (44), part of sewage is cooperated with the large suspended matters in the storage screen (52) to flow to the left side of the left separation plate (4), in the process that the triggering rod (53) is separated from the blind hole (54), the reset spring (48) pushes the resetting spring (48) to separate from the blind hole (54) to push the large suspended matters intercepted by the rear wiping screen (50) to the blind hole (50), when the resetting spring (48) moves between the blocking plate (44) and the blind hole (41) and the blind hole (43) to be inserted into the blind hole (41), the trigger rod (53) presses the plugging plate (45), leaks out of the sliding groove (44), and part of sewage cooperates with a large suspended matters stored in the net cover (52) to flow to the right side of the right side isolation plate (4), and then the rear wiping net plate (50) moves leftwards to clean the large suspended matters;

Step three, electric power storage: establishing a time period comparison table corresponding to the time period of the day, adjusting the inclination angle of the solar panel (2) after the end of the time period, enabling a time period setting module (62) to conduct design of power supply time of an air cylinder (21) according to the time period comparison table, enabling a light Fu Xudian module (64) to convert solar energy absorbed by the solar panel (2) into electric energy to be stored in a storage battery, enabling an air cylinder control module (63) to connect the air cylinder (21) with the storage battery to be electrified after the power supply time is reached, controlling the air cylinder (21) to extend, driving a first spline (17) to enable the spline cylinder (18) to rotate in the rotating process of a second driving shaft (16), enabling the air cylinder (21) to extend to drive a butt plate (22) to enable a driving plate (23) to move, enabling a lantern ring (19) to squeeze a limit ring (20) to enable the limit ring (20) to drive the rotating spline cylinder (18) to move towards a second spline (32), driving the second spline (32) to enable a threaded column (30) to rotate after the spline (18) is sleeved on the second spline (32), enabling a threaded column (30) to enable a threaded column (26) to rotate, enabling a sliding plate (25) to drive a guide plate (24) to move in an arc-shaped guide plate (24) to move, and an arc-shaped guide plate (24) to move in the arc-shaped groove (24), the cylinder (21) is controlled to shrink, so that the spline cylinder (18) is separated from the second spline (32), and the solar panel (2) maintains the adjusted angle;

Step four, cleaning floating objects: in the third step, the moving plate (25) is driven to move, the tooth plate (38) is driven to move, the synchronous gear (39) is driven to rotate, the large gear (37) is driven to synchronously rotate by the synchronous gear (39), the small gear (40) is driven to accelerate to rotate by the large gear (37), one cleaning roller (33) is driven to rotate, the other cleaning roller (33) is driven to rotate by the cleaning belt (34), and floaters intercepted on the cleaning screen plate (36) are cleaned to the opposite sides of the two isolation plates (4) through the assembly grooves (35);

fifth, biological decomposition: the biological filler is buried in the biological degradation tank (58), sewage after the suspended matters are blocked by the blocking net (42), part of sewage flows into the biological degradation tank (58) from a gap between the sliding groove (44) and the blocking plate (45), part of sewage flows into the biological degradation tank (58) from the assembly groove (35), and the large suspended matters cleaned from the blocking net (42) flow onto the biological degradation tank (58) through the sliding groove (44) and are led out through the second drain pipe (59).