CN116332435A - Efficient multi-stage sewage treatment device and application method thereof - Google Patents

Abstract

The invention discloses a high-efficiency multistage sewage treatment device and a use method thereof, wherein the high-efficiency multistage sewage treatment device comprises a main body, a controller and a first feeder, the controller is arranged at the top of the main body, a first electric telescopic rod is arranged on the inner top wall of the controller, a first switch is arranged on the inner bottom wall of the controller, a second electric telescopic rod is arranged on the inner top wall of the controller, a sliding resistor is arranged on the inner top wall of the controller, a conducting rod is arranged on the outer wall of the second electric telescopic rod, and one end of the conducting rod is in contact with the outer wall of the sliding resistor. According to the invention, a control function can be realized by installing the controller, when the electrolysis current is controlled, the first electric telescopic rod stretches to be in contact with the first switch, so that the electrode is electrified to start electrolysis of sewage, and then the second electric telescopic rod drives the conductive rod to slide on the sliding resistor to form the sliding rheostat, so that the current of the electrode is regulated, and the regulation function is realized.

Description

Efficient multi-stage sewage treatment device and application method thereof

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a high-efficiency multi-stage sewage treatment device and a use method thereof.

Background

Sewage treatment (wastewater treatment): the sewage is purified to meet the water quality requirement of being discharged into a certain water body or reused. The sewage treatment is widely applied to various fields of construction, agriculture, traffic, energy, petrifaction, environmental protection, urban landscapes, medical treatment, catering and the like, and is increasingly used in the daily life of common people, and village sewage mainly consists of domestic sewage and agricultural wastewater. The domestic sewage has relatively fixed components, mainly contains organic matters such as carbohydrate, protein, amino acid, fat and the like, is relatively suitable for the growth of bacteria, and becomes a place for the survival and propagation of bacteria and viruses; but the domestic sewage generally does not contain toxicity, has certain fertilizer efficiency, and can be used for irrigating farmlands. The agricultural wastewater has various components, different seasons, different places and villages with different development targets, and the wastewater needs different treatment methods. When sewage is treated, toilet flushing water (black water) and other domestic water (grey water) in the domestic water are separated to reduce sewage discharge and complexity thereof. The grey water is treated by the natural purification system, and the black water and human and animal excreta are treated by the anaerobic methane tank, so that the discharge amount, complexity and treatment cost of sewage can be reduced.

The existing sewage treatment device has the following defects:

1. patent document CN113716755a discloses a multistage effluent treatment plant, and the claim of protection "relates to wastewater treatment technical field, which comprises an outer shell, the inside of shell is provided with biochemical pond, sedimentation tank and reaction tank respectively, one side intercommunication of biochemical pond has the inlet tube, the bottom intercommunication of sedimentation tank has the blow off pipe, the inside symmetry fixed mounting of sedimentation tank has electric telescopic handle, electric telescopic handle's one end fixed mounting has the scraper blade, one side intercommunication of reaction tank has the drain pipe, the bottom of shell is provided with bearing structure, biochemical pond is linked together with the sedimentation tank, the sedimentation tank is linked together with the reaction tank, the inside of sedimentation tank is equipped with the slide bar admittedly, scraper blade and slide bar sliding connection. According to the invention, by arranging the scraping plate, a worker can control the electric telescopic rod to drive the scraping plate to move, so that the scraping plate mixes the sludge with water, the sludge is discharged, the operation is simple, the use of the worker is convenient, the current is required to be regulated according to different sewage types when the electrolysis is carried out, and the manual regulation of the worker is required, so that the operation is inconvenient;

2. patent document CN114873691a discloses a multistage electrocatalytic oxidation wastewater treatment device, and the claim of protection "provides a multistage electrocatalytic oxidation wastewater treatment device, including the treatment case, the inside fixedly connected with baffle of treatment case, the baffle is with the inside of treatment case divide into installation room and treatment room, the side of treatment case is provided with inlet tube and outlet pipe, inlet tube and outlet pipe are located the both sides of treatment case, the interior roof fixedly connected with two first installation cases of treatment case. The invention uses multi-stage electrocatalysis and introduces different oxidants, thus greatly enhancing the treatment effect of the wastewater; the gear drives the telescopic rod to swing, the telescopic rod drives the scraping plate to scrape dirt on the surface of the electrode plate, the condition that dirt is generated on the surface due to long-time operation of the electrode plate is avoided, and the efficiency of wastewater treatment is improved; the stirring mechanism repeatedly stirs the wastewater, so that ozone, hydrogen peroxide and the wastewater are quickly and uniformly mixed, the electrocatalytic effect is increased, the wastewater treatment effect is greatly enhanced, most of the existing devices cannot adjust the flow, and the device is inconvenient;

3. patent document CN112094002a discloses a multistage effluent treatment plant and treatment process thereof, the claim of protection "relates to sewage treatment technical field, including primary sedimentation tank, equalizing basin, pre-acidification tank, IC reactor, secondary sedimentation tank, cubic sedimentation tank and the sludge concentration mechanism that sets gradually, the front end of primary sedimentation tank is equipped with grid filter mechanism, is equipped with a/O processing mechanism between IC reactor and the secondary sedimentation tank, is equipped with Fenton oxidation tower between secondary sedimentation tank and the cubic sedimentation tank, all communicates through the pipeline between primary sedimentation tank, a/O processing mechanism, secondary sedimentation tank and cubic sedimentation tank and the grid filter mechanism, grid filter mechanism includes three filter components that establish ties in proper order, every filter component all includes filter shell, filter component and sealing component, filter component installs at the middle part of filter tube, sealing component installs on filter component. The invention can improve the grating filtering effect and the treatment effect of the A/O technology on the papermaking wastewater, most of the existing devices can not detect the content, and workers need to detect the catalyst content regularly, so that the invention is inconvenient;

4. patent document CN113429026a discloses a multistage high-efficient effluent treatment plant is used in aquatic products processing, and the claim of protection "includes bottom plate and reaction tank, bottom plate fixed mounting is subaerial, the top fixed mounting of bottom plate has the reaction tank, logical groove is seted up to the top one end of reaction tank, fixed mounting has bearing mechanism on the logical groove of reaction tank, bearing mechanism's inside fixed mounting has primary processing mechanism, bearing mechanism's one end fixed mounting is kept away from at the top of reaction tank has secondary processing mechanism, and secondary processing mechanism's output pass the lateral wall fixed mounting of reaction tank in the inside of reaction tank, and this aquatic products processing is with multistage high-efficient effluent treatment plant's simple structure, the simple operation, the cooperation between primary processing mechanism and the secondary processing mechanism can realize carrying out multistage processing to the water in the equipment, is convenient for carry out quick processing to discharge to the state up to standard with water treatment, and the practicality of this equipment is higher", and current device mostly can not carry out the drainage voluntarily, needs manual control, and is inconvenient.

Disclosure of Invention

The invention aims to provide a high-efficiency multistage sewage treatment device and a use method thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a high-efficient multistage sewage treatment plant, includes main part, controller and first feeder, the controller is installed at the top of main part, first electric telescopic handle is installed to the inside roof of controller, first switch is installed to the inside diapire of controller, second electric telescopic handle is installed to the inside roof of controller, slide resistance is installed to the inside roof of controller, the conducting rod is installed to the outer wall of second electric telescopic handle, and the one end and the outer wall contact of slide resistance of conducting rod;

the inner wall of main part is equipped with a chamber, the inner wall of main part is equipped with No. two chambeies, the inner wall of main part is equipped with No. three chambeies, first feeder is installed at the top of main part, the second feeder is installed to the roof of main part, two sets of electrodes are installed to the inner wall in No. one chambeies, the filter screen is installed to the inner wall in No. one chambeies.

Preferably, the display screen is installed in the front of main part, and a plurality of control buttons are installed in the front of main part, and first motor is installed to the outer wall of main part, and the output of first motor extends into the inside of main part, and the puddler is installed to the output of first motor, and the stirring leaf is installed around the outer wall of puddler, and the inlet tube is installed in the outer wall penetration of main part, and waterproof shell is all installed to the inside diapire in No. one chamber, no. two chambeies.

Preferably, a plurality of spray pipes are installed to the bottom of inlet tube, and the valve is installed to the outer wall of spray pipe, and the fly leaf is installed to the inner wall of valve, and first spring is installed to the bottom of fly leaf, and the gag lever post of L type is installed to the inner wall of valve.

Preferably, the inside diapire of waterproof shell installs first water pump, and the outer wall of waterproof shell is extended to the input of first water pump, and the output of first water pump extends into the inside in No. two chambeies, and No. two valves are installed to the output of first water pump, and the seal groove is installed to the inside diapire of No. two valves, and the closing plate is installed in the top penetration of No. two valves, and the third electric telescopic handle is installed to the inside roof of waterproof shell.

Preferably, the structure of the second feeder is the same as that of the first feeder, the display screen is located above the control button, the limit rod is located above the movable plate, and the bottom of the third electric telescopic rod is connected with the top of the sealing plate.

Preferably, the inner wall of first feeder installs two sets of swash plates, and the support frame is installed to the outer wall of swash plate, and the top of detector is installed at the top of support frame runs through and installs a pole, and the pick-up plate is installed at the top of a pole, and the second spring is installed around the outer wall of a pole, and the current-conducting plate is installed to the outer wall of a pole, and the current-conducting post of L type is installed to the outer wall of a pole, and the battery is installed to the one side inner wall of detector, and buzzer is installed to the opposite side inner wall of detector, and the electric conduction groove is installed to buzzer's bottom.

Preferably, two sets of motors are installed to the inside diapire of first feeder, and take-up shaft is installed to the output of motor, and the discharging pipe is installed to the bottom of first feeder, and the barrier plate is installed to the inner wall of discharging pipe, and the inserted bar of L type is installed in the outer wall penetration of discharging pipe, and the outer wall of inserted bar encircles and installs the third spring, and the guide wheel is installed to the bottom of first feeder, and guide wheel, inserted bar and take-up shaft pass through the cable and are connected.

Preferably, the trigger is installed to the inner wall in No. three chambeies, and the bottom of trigger runs through and installs the measuring staff, and the outer wall of measuring staff encircles and installs the fourth spring, and the floater is installed to the bottom of measuring staff, and the second switch is installed to the inside roof in trigger, and the fixed shell is installed to the inside roof in No. three chambeies, and the second water pump is installed to the inside diapire of fixed shell.

Preferably, the working steps of the processing device are as follows:

s1, when electrolysis current is controlled, a first electric telescopic rod stretches to be in contact with a first switch, so that an electrode is electrified to start electrolysis of sewage, and then a second electric telescopic rod drives a conducting rod to slide on a sliding resistor to form a sliding rheostat, so that the current of the electrode is regulated, and a regulation function is realized;

s2, when the first water pump pumps water into the second cavity, the third electric farming telescopic rod contracts to drive the sealing plate to move, and the sealing plate is separated from the sealing groove, so that electrolyzed sewage enters the second cavity, and the function of adjusting water flow is realized;

s3, when the catalytic material in the first feeder is reduced, the pressure born by the detection plate is reduced, the second spring contracts to drive the first rod to rise, the conductive plate is in contact with the battery, and the conductive column is in contact with the conductive groove, so that the buzzer gives out sound warning, and the content detection function is realized;

s4, when the sewage in the third cavity is increased, the floating ball is lifted to drive the detection rod to be lifted, the fourth spring is stretched, the detection rod is in contact with the second switch, and the second water pump works to automatically discharge the sewage in the third cavity.

Preferably, the step S1 further comprises the following steps;

s11, sewage enters the main body from the water inlet pipe, the sewage enters the spraying pipe, then the sewage impacts the movable plate, the movable plate rotates to drive the first spring to shrink, so that the sewage enters the first cavity, and the sewage is filtered by the filter screen;

the step S2 also comprises the following steps;

s21, the motor drives the winding shaft to rotate, the cable pulls the inserting rod to move through the guide wheel, the blocking plate rotates, catalytic materials in the first feeder enter the second cavity to catalyze sewage, and a control function is achieved.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, a control function can be realized by installing the controller, when the electrolysis current is controlled, the first electric telescopic rod stretches to be in contact with the first switch, so that the electrode is electrified to start electrolysis of sewage, and then the second electric telescopic rod drives the conductive rod to slide on the sliding resistor to form the sliding rheostat, so that the current of the electrode is regulated, and the regulation function is realized;

2. according to the invention, the first valve is arranged to realize the regulation function, when the first water pump pumps water into the second cavity, the third electric farming telescopic rod contracts to drive the sealing plate to move, and the sealing plate is separated from the sealing groove, so that electrolyzed sewage enters the second cavity, and the function of regulating water flow is realized;

3. according to the invention, the content can be detected by installing the detector, when the catalytic material in the first feeder is reduced, the pressure born by the detection plate is reduced, the second spring is contracted to drive the first rod to rise, the conductive plate is contacted with the battery, and the conductive column is contacted with the conductive groove, so that the buzzer gives out sound warning, and the content detection function is realized;

4. according to the invention, the trigger is arranged to automatically drain water, when the sewage in the third cavity is increased, the floating ball rises to drive the detection rod to rise, the fourth spring stretches, so that the detection rod is contacted with the second switch, and the second water pump works to automatically drain the sewage in the third cavity.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

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

FIG. 3 is a schematic view of a valve portion of the present invention;

FIG. 4 is a schematic view of a detector portion of the present invention;

FIG. 5 is a schematic view of a portion of a tapping pipe according to the present invention;

FIG. 6 is a schematic view of the waterproof housing portion structure of the present invention;

FIG. 7 is a schematic diagram of a trigger portion of the present invention;

fig. 8 is a schematic view of the first feeder portion structure of the present invention.

In the figure: 1. a main body; 2. a display screen; 3. a control knob; 4. a first motor; 5. a stirring rod; 6. stirring the leaves; 7. a water inlet pipe; 8. a spray tube; 9. a valve number one; 10. a movable plate; 11. a limit rod; 12. a first spring; 13. a controller; 14. a first electric telescopic rod; 15. a first switch; 16. a sliding resistor; 17. a second electric telescopic rod; 18. an electrode; 19. a filter screen; 20. a first cavity; 21. a second cavity; 22. a third cavity; 23. a waterproof case; 24. a first water pump; 25. a valve II; 26. sealing grooves; 27. a sealing plate; 28. a third electric telescopic rod; 29. a first feeder; 30. a sloping plate; 31. a support frame; 32. a detector; 33. a first rod; 34. a detection plate; 35. a second spring; 36. a conductive plate; 37. a conductive post; 38. a battery; 39. a buzzer; 40. a conductive groove; 41. a motor; 42. a reel is taken up; 43. a discharge pipe; 44. a blocking plate; 45. a rod; 46. a third spring; 47. a guide wheel; 48. a trigger; 49. a detection rod; 50. a fourth spring; 51. a floating ball; 52. a second switch; 53. a fixed case; 54. a second water pump; 55. and a second feeder.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1-8, an embodiment of the present invention is provided: the utility model provides a high-efficient multistage sewage treatment plant, includes main part 1, controller 13 and first feeder 29, controller 13 is installed at the top of main part 1, first electric telescopic handle 14 is installed to the inside roof of controller 13, first switch 15 is installed to the inside diapire of controller 13, second electric telescopic handle 17 is installed to the inside roof of controller 13, sliding resistor 16 is installed to the inside roof of controller 13, the conducting rod is installed to the outer wall of second electric telescopic handle 17, and the one end and the outer wall contact of sliding resistor 16 of conducting rod, and the inner wall of main part 1 is equipped with a chamber 20, the inner wall of main part 1 is equipped with No. two chambeies 21, the inner wall of main part 1 is equipped with No. three chambeies 22, the top of main part 1 has first feeder 29, the roof of main part 1 has second feeder 55, two sets of electrodes 18 are installed to the inner wall in chamber 20, filter screen 19 is installed to the inner wall in No. 20, the front of main part 1 installs display screen 2, and the motor front 3 is installed to the outer wall of main part 1 and is installed to the outer wall 3, and is installed the inner wall 7 of a plurality of inner wall of valve number 4, and is installed to the inner wall of main part 1 has a chamber 9, and the inner wall of a valve number 4 is installed to the inner wall of main part 1, and the inner wall of 8 is installed to the inner wall of a valve number 4 is installed to the inner wall of a valve 8, and the inner wall of a 4 is installed to the inner wall of a valve is 8, and the inner wall of a valve is installed to the inner wall of a 4, and 8 is installed to the inner wall of a 4, and 8 is 8, and the bottom of a valve is installed and 8, and 8 is 8.

The inside diapire of waterproof casing 23 installs first water pump 24, and the outer wall of waterproof casing 23 is extended to the input of first water pump 24, and the inside in No. two chambeies 21 is extended to the output of first water pump 24, and No. two valve 25 is installed to the output of first water pump 24, and seal groove 26 is installed to No. two valve 25's inside diapire, and sealing plate 27 is installed in No. two valve 25's top penetration, and third electric telescopic handle 28 is installed to waterproof casing 23's inside roof.

The structure of the second feeder 55 is the same as that of the first feeder 29, the display screen 2 is located above the control button 3, the limit rod 11 is located above the movable plate 10, and the bottom of the third electric telescopic rod 28 is connected with the top of the sealing plate 27.

Two sets of inclined plates 30 are installed to the inner wall of first feeder 29, support frame 31 is installed to the outer wall of inclined plate 30, a pole 33 is installed in penetrating mode at the top of detector 32 in the top of support frame 31, pick-up plate 34 is installed at the top of a pole 33, second spring 35 is installed around the outer wall of a pole 33, conducting plate 36 is installed to the outer wall of a pole 33, L-shaped conducting column 37 is installed to the outer wall of a pole 33, battery 38 is installed to one side inner wall of detector 32, buzzer 39 is installed to the opposite side inner wall of detector 32, and conducting groove 40 is installed to the bottom of buzzer 39.

Two sets of motors 41 are installed to the inside diapire of first feeder 29, take-up spool 42 is installed to the output of motor 41, discharging pipe 43 is installed to the bottom of first feeder 29, barrier plate 44 is installed to the inner wall of discharging pipe 43, L type inserted bar 45 is installed in the outer wall penetration of discharging pipe 43, third spring 46 is installed around the outer wall of inserted bar 45, guide wheel 47 is installed to the bottom of first feeder 29, and guide wheel 47, inserted bar 45 and take-up spool 42 pass through the cable connection.

The inner wall of the third cavity 22 is provided with a trigger 48, the bottom of the trigger 48 is provided with a detection rod 49 in a penetrating way, the outer wall of the detection rod 49 is provided with a fourth spring 50 in a surrounding way, the bottom of the detection rod 49 is provided with a floating ball 51, the inner top wall of the trigger 48 is provided with a second switch 52, the inner top wall of the third cavity 22 is provided with a fixed shell 53, and the inner bottom wall of the fixed shell 53 is provided with a second water pump 54.

The working steps of the processing device are as follows:

s1, when electrolysis current is controlled firstly, a first electric telescopic rod 14 stretches to be in contact with a first switch 15, so that an electrode 18 is electrified to start electrolysis of sewage, and then a second electric telescopic rod 17 drives the conductive rod to slide on a sliding resistor 16 to form a sliding rheostat, and the current of the electrode 18 is regulated to realize a regulating function;

s2, when the first water pump 24 pumps water into the second cavity 21, the third electric farming telescopic rod 28 contracts to drive the sealing plate 27 to move, and the sealing plate 27 is separated from the sealing groove 26, so that electrolyzed sewage enters the second cavity 21, and the function of adjusting water flow is realized;

s3, when the catalytic material in the first feeder 29 is reduced, the pressure borne by the detection plate 34 is reduced, the second spring 35 contracts to drive the first rod 33 to rise, the conductive plate 36 is in contact with the battery 38, and the conductive column 37 is in contact with the conductive groove 40, so that the buzzer 39 gives out sound warning, and the content detection function is realized;

and S4, when the sewage in the third cavity 22 is increased, the floating ball 51 rises to drive the detection rod 49 to rise, the fourth spring 50 stretches, the detection rod 49 is in contact with the second switch 52, and the second water pump 54 works to automatically discharge the sewage in the third cavity 22.

The step S1 also comprises the following steps of;

s11, sewage enters the main body 1 from the water inlet pipe 7, the sewage enters the spray pipe 8, then the sewage impacts the movable plate 10, the movable plate 10 rotates to drive the first spring 12 to shrink, so that the sewage enters the first cavity 20, and the filter screen 19 filters the sewage;

the step S2 also comprises the following steps;

s21, the motor 41 drives the winding shaft 42 to rotate, the cable pulls the inserting rod 45 to move through the guide wheel 47, the blocking plate 44 rotates, and the catalytic material in the first feeder 29 enters the second cavity 21 to catalyze sewage, so that a control function is realized.

When the working principle is that the electrolysis current is controlled, the first electric telescopic rod 14 is stretched to be in contact with the first switch 15, so that the electrode 18 is electrified to start electrolysis of sewage, then the second electric telescopic rod 17 drives the conductive rod to slide on the sliding resistor 16 to form a sliding rheostat, the current of the electrode 18 is regulated, the regulation function is realized, the sewage enters the main body 1 from the water inlet pipe 7, the sewage enters the spray pipe 8, then the sewage impacts the movable plate 10, the movable plate 10 rotates to drive the first spring 12 to shrink, the sewage enters the first cavity 20, and the filter screen 19 filters the sewage;

when the first water pump 24 pumps water into the second cavity 21, the third electric farming telescopic rod 28 contracts to drive the sealing plate 27 to move, and the sealing plate 27 is separated from the sealing groove 26, so that electrolyzed sewage enters the second cavity 21 to realize the function of adjusting the water flow, the motor 41 drives the take-up shaft 42 to rotate, the cable pulls the inserting rod 45 to move through the guide wheel 47, the blocking plate 44 rotates, and catalytic materials in the first feeder 29 enter the second cavity 21 to catalyze the sewage to realize the control function;

when the catalytic material in the first feeder 29 is reduced, the pressure on the detection plate 34 is reduced, the second spring 35 is contracted to drive the first rod 33 to rise, the conductive plate 36 is contacted with the battery 38, and the conductive column 37 is contacted with the conductive groove 40, so that the buzzer 39 gives out sound warning, and the content detection function is realized;

when the sewage in the third chamber 22 increases, the floating ball 51 rises to drive the detection rod 49 to rise, the fourth spring 50 stretches, the detection rod 49 is in contact with the second switch 52, and the second water pump 54 works to automatically discharge the sewage in the third chamber 22.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a high-efficient multistage sewage treatment plant, includes main part (1), controller (13) and first feeder (29), its characterized in that: the electric telescopic device comprises a main body (1), and is characterized in that a controller (13) is arranged at the top of the main body (1), a first electric telescopic rod (14) is arranged on the inner top wall of the controller (13), a first switch (15) is arranged on the inner bottom wall of the controller (13), a second electric telescopic rod (17) is arranged on the inner top wall of the controller (13), a sliding resistor (16) is arranged on the inner top wall of the controller (13), a conducting rod is arranged on the outer wall of the second electric telescopic rod (17), and one end of the conducting rod is in contact with the outer wall of the sliding resistor (16);

the inner wall of main part (1) is equipped with chamber (20), the inner wall of main part (1) is equipped with No. two chambeies (21), the inner wall of main part (1) is equipped with No. three chambeies (22), first feeder (29) are installed at the top of main part (1), second feeder (55) are installed to the roof of main part (1), two sets of electrodes (18) are installed to the inner wall in chamber (20), filter screen (19) are installed to the inner wall in chamber (20).

2. The efficient multi-stage sewage treatment device according to claim 1, wherein: the display screen (2) is installed in the front of main part (1), a plurality of control buttons (3) are installed in the front of main part (1), first motor (4) are installed to the outer wall of main part (1), and the output of first motor (4) extends into the inside of main part (1), puddler (5) are installed to the output of first motor (4), stirring vane (6) are installed around the outer wall of puddler (5), inlet tube (7) are installed in the outer wall penetration of main part (1), waterproof shell (23) are all installed to the inside diapire of No. one chamber (20), no. two chamber (21).

3. The efficient multi-stage sewage treatment device according to claim 2, wherein: a plurality of spray pipes (8) are installed to the bottom of inlet tube (7), and valve (9) are installed to the outer wall of spray pipe (8), and fly leaf (10) are installed to the inner wall of valve (9), and first spring (12) are installed to the bottom of fly leaf (10), and gag lever post (11) of L type are installed to the inner wall of valve (9).

4. The efficient multi-stage sewage treatment device according to claim 2, wherein: the inside diapire of waterproof casing (23) is installed first water pump (24), and the outer wall of waterproof casing (23) is extended to the input of first water pump (24), the inside of No. two chambeies (21) is extended to the output of first water pump (24), no. two valves (25) are installed to the output of first water pump (24), seal groove (26) are installed to the inside diapire of No. two valves (25), sealing plate (27) are installed in the top penetration of No. two valves (25), third electric telescopic handle (28) are installed to the inside roof of waterproof casing (23).

5. A high efficiency multi-stage sewage treatment apparatus according to any one of claims 1 to 4, wherein: the structure of the second feeder (55) is the same as that of the first feeder (29), the display screen (2) is located above the control button (3), the limit rod (11) is located above the movable plate (10), and the bottom of the third electric telescopic rod (28) is connected with the top of the sealing plate (27).

6. The efficient multi-stage sewage treatment device according to claim 1, wherein: two sets of swash plates (30) are installed to the inner wall of first feeder (29), support frame (31) are installed to the outer wall of swash plate (30), a pole (33) is installed in the top penetration of detector (32) is installed at the top of support frame (31), pick-up plate (34) is installed at the top of a pole (33), second spring (35) are installed around the outer wall of a pole (33), conducting plate (36) are installed to the outer wall of a pole (33), L type conducting column (37) are installed to the outer wall of a pole (33), battery (38) are installed to the one side inner wall of detector (32), buzzer (39) are installed to the opposite side inner wall of detector (32), conducting groove (40) are installed to the bottom of buzzer (39).

7. The efficient multi-stage sewage treatment device according to claim 1, wherein: two sets of motors (41) are installed to the inside diapire of first feeder (29), receive spool (42) are installed to the output of motor (41), discharging pipe (43) are installed to the bottom of first feeder (29), barrier plate (44) are installed to the inner wall of discharging pipe (43), the outer wall of discharging pipe (43) runs through and installs L type inserted bar (45), third spring (46) are installed around the outer wall of inserted bar (45), guide wheel (47) are installed to the bottom of first feeder (29), and guide wheel (47), inserted bar (45) are connected through the cable with receive spool (42).

8. The efficient multi-stage sewage treatment device according to claim 1, wherein: the inner wall in No. three chamber (22) is installed trigger (48), and the bottom of trigger (48) runs through and installs measuring rod (49), and fourth spring (50) are installed around the outer wall of measuring rod (49), and floater (51) are installed to the bottom of measuring rod (49), and second switch (52) are installed to the inside roof in trigger (48), and fixed shell (53) are installed to the inside roof in No. three chamber (22), and second water pump (54) are installed to the inside diapire of fixed shell (53).

9. The method of using a high efficiency multi-stage sewage treatment apparatus according to any one of claims 1 to 8, wherein the working steps of the apparatus are as follows:

s1, when electrolysis current is controlled, a first electric telescopic rod (14) stretches to be in contact with a first switch (15) so that an electrode (18) is electrified to start electrolysis of sewage, and then a second electric telescopic rod (17) drives the conductive rod to slide on a sliding resistor (16) to form a sliding rheostat, so that the current of the electrode (18) is regulated, and a regulating function is realized;

s2, when the first water pump (24) pumps water into the second cavity (21), the third electric farming telescopic rod (28) contracts to drive the sealing plate (27) to move, and the sealing plate (27) is separated from the sealing groove (26), so that electrolyzed sewage enters the second cavity (21), and the function of adjusting water flow is realized;

s3, when the catalytic material in the first feeder (29) is reduced, the pressure borne by the detection plate (34) is reduced, the second spring (35) is contracted to drive the first rod (33) to rise, the conductive plate (36) is in contact with the battery (38), the conductive column (37) is in contact with the conductive groove (40), and the buzzer (39) gives out sound warning to realize the content detection function;

s4, when the sewage in the third cavity (22) is increased, the floating ball (51) rises to drive the detection rod (49) to rise, the fourth spring (50) stretches, the detection rod (49) is in contact with the second switch (52), and the second water pump (54) works to automatically discharge the sewage in the third cavity (22).

10. The method of using a high efficiency multi-stage sewage treatment apparatus according to claim 9, wherein said step S1 further comprises the steps of;

s11, sewage enters the main body (1) from the water inlet pipe (7), the sewage enters the spraying pipe (8), then the sewage impacts the movable plate (10), the movable plate (10) rotates to drive the first spring (12) to shrink, so that the sewage enters the first cavity (20), and the filter screen (19) filters the sewage;

the step S2 also comprises the following steps;

s21, the motor (41) drives the take-up shaft (42) to rotate, the cable pulls the inserted link (45) to move through the guide wheel (47), the blocking plate (44) rotates, catalytic materials in the first feeder (29) enter the second cavity (21) to catalyze sewage, and a control function is achieved.

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