CN117602687B - Resource ecology purifier - Google Patents

Abstract

The invention discloses a resource ecological purification device which comprises a water tank, a purification tank, an electric cabinet and a photovoltaic power generation system, wherein two ends of the purification tank are respectively provided with a water inlet pipe joint and a water outlet pipe joint, a rotary support assembly for driving the purification tank to turn is arranged on the water tank, four pipe telescopic plug-in assemblies uniformly distributed by taking the rotation axis of the purification tank as the center are arranged on the rotary support assembly, and the water tank, the rotary support assembly, the pipe telescopic plug-in assemblies, the water adding pipe assembly, the back flushing pressurized pipe assembly, the first water draining pipe assembly, the second water draining pipe assembly and the purification tank are mutually cooperated and mutually matched, so that the centralized treatment of sewage can be realized, the problems of small water quantity and large fluctuation in the rural domestic sewage treatment process can be solved, and the conversion of three modes of sewage treatment, residual liquid draining, internal flushing and the like of the purification tank can be realized, and the service life of the purification tank can be prolonged.

Description

Resource ecology purifier

Technical Field

The invention relates to the field of sewage purification equipment, in particular to a resource ecological purification device.

Background

With the rapid development of economy and the acceleration of the urban process, the rural environment pollution problem is increasingly prominent. In order to improve rural environmental conditions and improve the quality of life of farmers, rural sewage treatment has become an important task at present. In order to improve rural environmental conditions, the investment of rural environmental protection is enhanced, including the aspects of garbage classification, sewage treatment facility construction, ecological protection and restoration enhancement, the importance of ecological environment is emphasized, and rural environmental treatment work is further promoted. Rural sewage treatment is an important measure for improving rural environment conditions and guaranteeing the health of farmers, sewage not only can pollute soil and underground water, but also can enter crops through irrigation to influence food safety, and the harm of the sewage to the environment can be reduced, the water quality is improved, and the development of agricultural production is further promoted through treatment. In addition, the good rural environment is also an important foundation for the development of the tourism industry, and the sewage treatment has important significance for improving rural tourism resources and rural images.

The current situation of rural domestic sewage treatment is as follows. 1) because living is scattered, the topography is complex, many rural areas can not collect and treat the domestic sewage uniformly like a city by utilizing a pipe network, therefore, the domestic sewage collection and treatment difficulty in the rural areas is high, 2) the population in the rural areas is less, the domestic sewage is discharged under the influence of the water habit of residents, the water consumption peak period is one in the morning, the water consumption is less in the other times, such as the night to the early morning, the domestic sewage discharge amount is less or the phenomenon of current interruption can occur, the season characteristics are obvious, the summer discharge amount is larger than the winter, the fluctuation of the water quality and the water quantity of the rural domestic sewage is larger, 3) the facility treatment capacity is inconsistent with the actual situation, the large-scale design of many facilities is large, the characteristic of the change of the domestic sewage discharge coefficient of the rural areas is not considered, the normal operation of the facilities is influenced, and 4) the black water is treated independently.

At present, the domestic sewage treatment in rural areas mainly adopts integrated sewage treatment equipment or small-sized purifying tanks, and most of main process technologies adopt biological methods for treatment. Active sludge is obtained through systematic culture and domestication, and organic matters, nitrogen, phosphorus and other substances in sewage are degraded by controlling anaerobic, anoxic and aerobic environments under the action of the active sludge. The process equipment is a high-efficiency mature process under the conditions of stable water quality, small water quantity fluctuation, small air temperature change, and has been proved in urban sewage treatment, but in rural domestic sewage treatment, the process equipment has many problems due to the characteristics of small water quantity, large fluctuation, low winter temperature and the like of rural sewage, and the running condition is quite unsatisfactory.

Therefore, a resource ecological purification device is needed, and the aim is to solve the adaptability problem of the current rural domestic sewage treatment equipment.

Disclosure of Invention

(One) solving the technical problems

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a resource ecological purification apparatus.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions:

The invention provides a resource ecological purification device which comprises a water tank, a purification tank, an electric cabinet and a photovoltaic power generation system, wherein two ends of the purification tank are respectively provided with a water inlet pipe joint and a water outlet pipe joint, a rotary support assembly for driving the purification tank to turn over and rotate is arranged on the water tank, four pipe telescopic plug-in assemblies uniformly distributed by taking the rotation axis of the purification tank as the center are arranged on the rotary support assembly, and the four pipe telescopic plug-in assemblies are respectively connected with a water adding pipe assembly for adding sewage into the purification tank, a back flushing pressurizing pipe assembly for pressurizing or flushing liquid into the purification tank, a first drain pipe assembly for purifying and discharging water in the purification tank and a second drain pipe assembly for discharging flushing liquid in the purification tank;

When the water inlet pipe joint is connected with the water inlet pipe assembly through the pipe telescopic plug-in assembly, the water outlet pipe joint can be connected with the first water outlet pipe assembly through the pipe telescopic plug-in assembly;

when the water inlet pipe joint is connected with the backwash pressurizing pipe assembly through the pipe telescopic plug assembly, the water outlet pipe joint can be connected with the second water outlet pipe assembly through the pipe telescopic plug assembly;

when the water inlet pipe joint is connected with the second water outlet pipe assembly through the pipe telescopic plug-in assembly, the water outlet pipe joint can be connected with the backwash pressurizing pipe assembly through the pipe telescopic plug-in assembly.

Further, the rotary support assembly comprises two rotary support frames which are oppositely arranged, the two rotary support frames are fixedly connected to the water tank, the two rotary support frames are fixedly connected with each other through a connecting rod, two sides of the purifying tank are rotatably arranged on the two rotary support frames through rotating shafts, the rotating shafts are arranged on the outer side wall of the purifying tank positioned at the middle positions of the water inlet pipe joint and the water outlet pipe joint, the shaft ends of one rotating shaft are driven to rotate by a rotary motor fixedly arranged on the rotary support frames, and the output end of the electric cabinet is electrically connected to the input end of the rotary motor.

Further, the upside middle part position of water tank is formed with and connects the liquid cavity, the inside of water tank is provided with sewage storage chamber and the clear solution storage chamber that is located the liquid cavity both sides that connects, is provided with between sewage storage chamber and the clear solution storage chamber and is used for separating the division board of two, be provided with the second level sensor that is used for detecting its liquid level in the sewage storage chamber, be provided with the first level sensor that is used for detecting its liquid level in the clear solution storage chamber, first level sensor and second level sensor's output are electric connection to the input of electric cabinet respectively.

Further, the flexible grafting subassembly of pipe includes the brace table, the fixed setting of brace table is on rotatory support subassembly, run through in the brace table and seted up the poling hole, the intubate is passed in the poling hole sliding, the intubate is towards the fixed push pedal that is provided with in the one end outside of purifying tank, the other end of intubate is connected with flexible pipe, the both sides of poling hole are provided with two electric telescopic handle that use it as central symmetry distribution, electric telescopic handle is fixed to be set up in the brace table, electric telescopic handle's push rod head end and push pedal each other fixed connection, electric telescopic handle's output electricity is connected to electric telescopic handle's input.

Further, the water adding pipe assembly comprises a water inlet pipe connected to one side of the upper portion of the sewage storage cavity, the water adding pipe assembly further comprises a first water adding pipe arranged in the sewage storage cavity, one end of the first water adding pipe is connected with a telescopic pipe of a corresponding pipe telescopic plug-in assembly, the other end of the first water adding pipe is connected with a second water adding pipe and a third water adding pipe respectively, the lower end of the third water adding pipe extends to the bottom surface of the inner portion of the sewage storage cavity and is connected with a first water pump, a first electromagnetic three-way valve is arranged at the joint between the first water adding pipe, the second water adding pipe and the third water adding pipe, when the first water adding pipe and the second water adding pipe are communicated with each other and the liquid level in the sewage storage cavity reaches a certain height, sewage in the sewage storage cavity can sequentially enter the purifying tank through the second water adding pipe, the first water adding pipe and the pipe telescopic plug-in assembly under the action of water pressure, and the output end of the electric control box is electrically connected to the input ends of the first electromagnetic three-way valve and the first water pump respectively.

Further, the backwash pressurizing pipe assembly comprises a flushing pipe, the end part of the flushing pipe is connected with the telescopic pipe of the corresponding pipe telescopic plug-in assembly, one end of the flushing pipe, which is close to the telescopic pipe, is connected with a pressurizing pipe, a second electromagnetic three-way valve is arranged at the joint between the flushing pipe, the pressurizing pipe and the telescopic pipe, and the output end of the electric cabinet is electrically connected to the input end of the second electromagnetic three-way valve.

Further, first drain pipe subassembly includes first outlet pipe, and the one end of first outlet pipe is connected with the flexible pipe of the flexible grafting subassembly of corresponding pipe each other, and first drain pipe subassembly is still including being connected to irrigation pipe and the retrieval and utilization water pipe of clear liquid storage cavity inside bottom surface one side respectively, is provided with first solenoid valve on the irrigation pipe, is provided with the second solenoid valve on the retrieval and utilization water pipe, and the output of electric cabinet is electrically connected to the input of first solenoid valve and second solenoid valve respectively.

Further, the second drain pipe assembly includes the second outlet pipe, and the upper end of second outlet pipe is connected with the flexible pipe of the flexible grafting subassembly of corresponding pipe each other, and the lower extreme of second outlet pipe extends to the inside bottom surface of liquid receiving cavity and wears out, the second drain pipe assembly still includes the third outlet pipe, and the upper end of third outlet pipe is connected to the inside bottom surface of liquid receiving cavity, and the lower extreme and the second outlet pipe of third outlet pipe are connected each other.

Further, the purifying tank comprises a tank body with a cuboid shape, a plurality of first partition plates used for forming a water quality adjusting homogenizing chamber, a plurality of filtering chambers and a clear water recycling chamber by separating the inside of the tank body along the length direction of the tank body are arranged in the tank body, one side of each first partition plate is provided with a second partition plate, one sides of the first partition plates and the second partition plates opposite to each other are provided with a liquid through groove, a partition net is arranged between the first partition plates and the second partition plates, patch type liquid level meters are respectively arranged in the water quality adjusting homogenizing chamber and the clear water recycling chamber, a water inlet pipe joint is connected to one end, close to the water quality adjusting homogenizing chamber, of the purifying tank, a water outlet pipe joint is connected to one end, close to the clear water recycling chamber, of the purifying tank, an inspection opening is formed in the purifying tank, the inspection opening is provided with a sealing cover, the filtering chambers comprise a solid-liquid separating chamber, a fine filtering chamber and a deep adsorbing chamber, and output ends of the patch type liquid level meters are respectively and electrically connected to input ends of the electric cabinet.

Further, the inspection port is provided with the second water pump towards the interior one end port department of clear water retrieval and utilization cavity through the support fixedly, and the delivery port of second water pump is connected with the one end of aqueduct, and the other end of aqueduct extends to the outlet pipe and connects inside, and a plurality of water through hole that is used for communicating clear water retrieval and utilization cavity and outlet pipe to connect each other is offered to support near outlet pipe joint one side, the output electricity of electric cabinet is connected to the input of second water pump.

(III) beneficial effects

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

1. Through water tank, rotatory supporting component, flexible grafting subassembly of pipe, add water pipe subassembly, back flush pressurization pipe subassembly, first drain pipe subassembly, second drain pipe subassembly and purification tank between each other cooperate, mutually support, can realize the centralized processing to sewage, solve rural domestic sewage treatment in-process water yield little, undulant big problem, can realize the conversion to three kinds of modes such as purification tank's sewage treatment, raffinate discharge and inside washing, increase purification tank's life.

2. Through the photovoltaic power generation system, municipal power is not needed, energy is saved, consumption is reduced, and the discharged water is sprayed on the vegetable field and recycled to realize resource utilization;

3. The sewage storage cavity and the water quality regulating and homogenizing cavity can play a role in regulating water quantity and homogenizing water quality;

4. the second drain pipe assembly has two functions when in use, the first function is that the second drain pipe assembly can be connected with the purification tank through the pipe telescopic plug assembly, so that liquid in the purification tank can be discharged, and the second function is that waste liquid sprayed out of the purification tank can be collected and discharged in the rotation process of the purification tank;

5. The pipe telescopic plug-in assembly plays a role in carrying and communicating the purifying tank with the water adding pipe assembly, the first drain pipe assembly of the back flushing pressurized pipe assembly and the second drain pipe assembly respectively, and can realize conversion of the purifying tank among all use states.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the front view of the present invention;

FIG. 2 is a schematic diagram of the left-hand construction of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the cross-sectional structure of FIG. 1 A-A in accordance with the present invention;

FIG. 4 is a schematic cross-sectional view of the purification tank of the present invention;

FIG. 5 is a schematic view of a partially enlarged structure of FIG. 3C according to the present invention;

FIG. 6 is a schematic view of a partially enlarged structure of the invention at D of FIG. 3;

FIG. 7 is a schematic view of a partially enlarged structure of FIG. 3 at E in accordance with the present invention;

FIG. 8 is a schematic view of the cross-sectional structure B-B of FIG. 1 according to the present invention;

fig. 9 is a schematic perspective view of the fig. 1 embodiment of the present invention.

The reference numerals are as follows, 1, water tank; 101, supporting rods; 102, a sewage storage cavity; 103, a clear liquid storage cavity, 104, a liquid receiving cavity, 105, a first liquid level sensor, 106, a second liquid level sensor, 107, a partition plate, 2, a rotary support assembly, 201, a rotary support frame, 202, a rotary motor, 203, a connecting rod, 3, a pipe telescopic plug assembly, 301, a support table, 302, a pipe penetrating hole, 303, an electric telescopic rod, 304, a push plate, 305, a cannula, 306, a telescopic pipe, 4, a water adding pipe assembly, 401, a first water adding pipe, 402, a second water adding pipe, 403, a third water adding pipe, 404, a first electromagnetic three-way valve, 405, a water inlet pipe, 406, a first water pump, 5, a back flushing pressurized pipe assembly, 501, a flushing pipe, 502, a second electromagnetic three-way valve, 503, a pressurized pipe, 6, a first water draining assembly, 601, a first water draining pipe, 602, an irrigation water pipe, 603, a first electromagnetic valve, 604, a reuse water pipe, 605, a second electromagnetic valve, 7, a second draining assembly, a second water draining pipe, 702, a third water draining pipe, 8, a purifying tank, 801, a tank body, 802, a first plate, a second water adding pipe, 402, a second water adding pipe, 403, a water inlet pipe, a water level meter, a water inlet pipe, a water meter, a water level meter, a water tank, a water meter, a water tank, a water, a pressure, and a filter, a water connector, a pressure, a connector, a water connector, a pressure, a water connector, and a water connector, a water connector and water and a water and.

Detailed Description

The technical scheme and advantages of the present invention will be more apparent, and the technical scheme of the present invention will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, based on the examples herein, which are within the scope of the invention as defined by the claims, will be within the scope of the invention as defined by the claims.

Referring to fig. 1-9, the invention provides a resource ecological purification device, which comprises a water tank 1, a purification tank 8, an electric cabinet 9 and a photovoltaic power generation system 11, wherein most of the existing sewage treatment facilities are connected with municipal power supplies, the power consumption of equipment is high, effluent is discharged from rivers and ditches, the concept of low-carbon environment protection and resource utilization is not met, the photovoltaic power generation system 11 is adopted, the municipal power supplies are not needed, the energy is saved, the consumption is reduced, and the effluent is sprayed on a vegetable field and recycled to farmland for resource utilization;

The two ends of the purification tank 8 are respectively provided with a water inlet pipe joint 810 and a water outlet pipe joint 812, the water tank 1 is provided with a rotary support assembly 2 for driving the purification tank 8 to turn over and rotate, the rotary support assembly 2 is provided with four pipe telescopic plug assemblies 3 which are uniformly distributed by taking the rotation axis of the purification tank 8 as the center, further, the included angle between the two adjacent pipe telescopic plug assemblies 3 is ninety degrees, and the four pipe telescopic plug assemblies 3 are respectively connected with a water adding pipe assembly 4 for adding sewage into the purification tank 8, a back flushing pressurizing pipe assembly 5 for pressurizing or flushing liquid into the purification tank 8, a first water draining pipe assembly 6 for purifying and draining water in the purification tank 8 and a second water draining pipe assembly 7 for draining flushing liquid in the purification tank 8;

In order to realize centralized filtration of sewage, when the water inlet pipe joint 810 is connected with the water adding pipe assembly 4 through the pipe telescopic plug assembly 3, the water outlet pipe joint 812 can be connected with the first water outlet pipe assembly 6 through the pipe telescopic plug assembly 3;

In order to realize the discharge of residual sewage in the purification tank 8 without residues, when the water inlet pipe joint 810 is connected with the backwash pressurized pipe assembly 5 through the pipe telescopic plug assembly 3, the water outlet pipe joint 812 can be connected with the second water outlet pipe assembly 7 through the pipe telescopic plug assembly 3;

In order to achieve back flushing of the interior of the purification tank 8, the water outlet pipe joint 812 can be connected to each other by means of the pipe extension socket assembly 3 and the back flushing pressure pipe assembly 5, when the water inlet pipe joint 810 is connected to each other by means of the pipe extension socket assembly 3 and the second water outlet pipe assembly 7.

This embodiment proposes a specific rotary support subassembly 2, rotary support subassembly 2 includes two relative rotary support frames 201 that set up, rotary support frame 201's outline is circular, two rotary support frames 201 all fixed connection is on water tank 1, pass through connecting rod 203 fixed connection each other between two rotary support frames 201, the both sides of purifying pot 8 rotate through the pivot and set up on two rotary support frames 201, wherein the pivot sets up on the purifying pot 8 lateral wall that is located water inlet pipe joint 810 and outlet pipe joint 812 middle part position, the axle head of one of them pivot is by the rotating electrical machines 202 drive rotation of fixed setting on rotary support frames 201, the output electricity of electric cabinet 9 is connected to the input of rotating electrical machines 202. Through the above specific structural design, when the output shaft of the rotating motor 202 rotates, the purifying tank 8 can be driven to rotate between the two rotating support frames 201, so that the water inlet pipe joint 810 and the water outlet pipe joint 812 can turn around the central axis of the rotating shaft.

The upper middle part position of water tank 1 is formed with and connects liquid cavity 104, in practical application, connect liquid cavity 104 is used for rotating the in-process at purifying tank 8, play the effect of accepting the inside outflow sewage of purifying tank 8, the inside of water tank 1 is provided with sewage storage chamber 102 and clear solution storage chamber 103 that is located the both sides of connecing liquid cavity 104, be provided with between sewage storage chamber 102 and the clear solution storage chamber 103 and be used for separating the division board 107 between them, be provided with the second level sensor 106 that is used for detecting its liquid level in the sewage storage chamber 102, be provided with the first level sensor 105 that is used for detecting its liquid level in the clear solution storage chamber 103, and can transmit the signal transmission to electric cabinet 9 that detects, be provided with the display screen on the electric cabinet 9 and show, make things convenient for the staff to look over, the output of first level sensor 105 and second level sensor 106 is evenly electrically connected to the input of electric cabinet 9. In practical applications, the sewage storage chamber 102 serves to regulate the amount of water and homogenize the water quality, while the clear liquid storage chamber 103 serves to enlarge the storage of treated sewage.

As shown in fig. 3 and 7 of the specification, the pipe telescopic plug assembly 3 comprises a supporting table 301, the supporting table 301 is fixedly arranged on the rotary supporting assembly 2, a pipe penetrating hole 302 is formed in the supporting table 301 in a penetrating manner, the pipe penetrating hole 302 slides through a pipe penetrating hole 305 in a sliding manner, a push plate 304 is fixedly arranged on the outer side of one end of the pipe penetrating hole 305, which faces the purifying tank 8, of the pipe penetrating hole 305, a telescopic pipe 306 is connected to the other end of the pipe penetrating hole 305, two electric telescopic rods 303 which are symmetrically distributed with the electric telescopic rods as the center are arranged on two sides of the pipe penetrating hole 302, the electric telescopic rods 303 are fixedly arranged in the supporting table 301, the push rod head ends of the electric telescopic rods 303 are fixedly connected with the push plate 304, and the output end of the electric cabinet 9 is electrically connected to the input end of the electric telescopic rods 303. The pipe telescopic plug-in assembly 3 plays a role in carrying and communicating the purifying tank 8 with the water adding pipe assembly 4, the first water draining pipe assembly 6 of the back flushing pressurized pipe assembly 5 and the second water draining pipe assembly 7 respectively, and is used for realizing conversion between various using states.

As shown in fig. 3 and 5 of the specification, the water adding pipe assembly 4 comprises a water inlet pipe 405 connected to one side of the upper portion of the sewage storage cavity 102, the water adding pipe assembly 4 further comprises a first water adding pipe 401 arranged in the sewage storage cavity 102, one end of the first water adding pipe 401 is connected with a telescopic pipe 306 of the corresponding pipe telescopic plug assembly 3, the other end of the first water adding pipe 401 is respectively connected with a second water adding pipe 402 and a third water adding pipe 403, the lower end of the third water adding pipe 403 extends to the inner bottom surface of the sewage storage cavity 102 and is connected with a first water pump 406, a first electromagnetic three-way valve 404 is arranged at the joint between the first water adding pipe 401, the second water adding pipe 402 and the third water adding pipe 403, when the first water adding pipe 401 and the second water adding pipe 402 are communicated with each other and the liquid level in the sewage storage cavity 102 reaches a certain height, sewage in the sewage storage cavity 102 can enter the purifying tank 8 through the second water adding pipe 402, the first water adding pipe 401 and the pipe telescopic plug assembly 3 under the action of water pressure, and the output end of the electric cabinet 9 is respectively electrically connected to the input ends of the first electromagnetic three-way valve 404 and the first water pump 406. Through the above specific structural design, under the general condition, the water inlet pipe joint 810 is communicated with the first water inlet pipe 401 through the pipe telescopic plug assembly 3, at this time, the first water inlet pipe 401 and the second water inlet pipe 402 are adjusted by the first electromagnetic three-way valve 404 to be in a communicating state, then no matter how much sewage enters the sewage storage cavity 102 and the water quality adjusting and homogenizing cavity 805, uninterrupted purification can be realized, the phenomenon that sewage in the sewage storage cavity 102 cannot be discharged and overflowed due to the failure of the first water pump 406 and other reasons is avoided, the sewage liquid level in the sewage storage cavity 102 can be detected by the first liquid level sensor 105, and the first water inlet pipe 401 and the third water inlet pipe 403 are controlled by the electric cabinet 9, at this time, the first water inlet pipe 401 and the third water inlet pipe 403 are in a communicating state and are used for realizing active discharging treatment on the sewage in the sewage storage cavity 102, so that centralized treatment on the sewage is realized.

Referring to fig. 3 and 6 of the specification, the backwash pressurized pipe assembly 5 includes a flushing pipe 501, an end of the flushing pipe 501 is connected with the telescopic pipe 306 of the corresponding pipe telescopic plug assembly 3, one end of the flushing pipe 501 close to the telescopic pipe 306 is connected with a pressurized pipe 503, a second electromagnetic three-way valve 502 is arranged at a connection position among the flushing pipe 501, the pressurized pipe 503 and the telescopic pipe 306, and an output end of the electric cabinet 9 is electrically connected to an input end of the second electromagnetic three-way valve 502. The pressure pipe 503 can be used to fill the purge tank 8 with a protective gas to completely discharge the water in the purge tank 8, and the flushing pipe 501 can be used to add a flushing liquid into the purge tank 8 to perform a back flushing of the interior of the purge tank 8.

Referring to fig. 3 and 8 of the specification, the first drain pipe assembly 6 includes a first drain pipe 601, one end of the first drain pipe 601 is connected with the telescopic pipe 306 of the corresponding pipe telescopic plug assembly 3, the first drain pipe assembly 6 further includes an irrigation pipe 602 and a recycling water pipe 604 which are respectively connected to one side of the bottom surface of the interior of the clear liquid storage cavity 103, a first electromagnetic valve 603 is disposed on the irrigation pipe 602, a second electromagnetic valve 605 is disposed on the recycling water pipe 604, and an output end of the electric cabinet 9 is respectively and electrically connected to input ends of the first electromagnetic valve 603 and the second electromagnetic valve 605.

Referring to fig. 2 and 3 of the specification, the second drain pipe assembly 7 includes a second drain pipe 701, an upper end of the second drain pipe 701 is connected to the telescopic pipe 306 of the corresponding pipe telescopic plug assembly 3, a lower end of the second drain pipe 701 extends to an inner bottom surface of the liquid receiving cavity 104 and penetrates out, the second drain pipe assembly 7 further includes a third drain pipe 702, an upper end of the third drain pipe 702 is connected to an inner bottom surface of the liquid receiving cavity 104, and a lower end of the third drain pipe 702 is connected to the second drain pipe 701. The second drain pipe assembly 7 possesses two kinds of effects when using, and first effect is used for connecting each other through flexible grafting subassembly 3 of pipe and purification tank 8 for with the inside liquid discharge of purification tank 8, the second effect is used for collecting the discharge to the waste liquid that purification tank 8 spill in purification tank 8 rotation in-process.

As shown in fig. 3, 4 and 7 of the specification, the purifying tank 8 comprises a tank body 801 with a cuboid shape, a plurality of first partition plates 802 for separating the inside of the tank body 801 along the length direction thereof to form a water quality adjusting homogenizing chamber 805, a plurality of filtering chambers and a clear water recycling chamber 806 are arranged in the tank body 801, one side of each first partition plate 802 is provided with a second partition plate 803, one side of each first partition plate 802 and one side of each second partition plate 803 opposite to each other are provided with a liquid through groove, a partition net 804 is arranged between each first partition plate 802 and each second partition plate 803, a patch type liquid level meter 811 is respectively arranged in the water quality adjusting homogenizing chamber 805 and the clear water recycling chamber 806, a water inlet pipe joint 810 is connected to one end of the purifying tank 8 close to the water quality adjusting homogenizing chamber 805, the water outlet pipe joint 812 is connected to one end of the purifying tank 8 close to the clear water recycling chamber 806, an inspection opening 817 is arranged on the purifying tank 8, the filtering chambers comprise a solid-liquid separating chamber 807, a fine filtering chamber 808 and a depth adsorbing chamber 809, and output ends of the patch type liquid level meter 811 are respectively connected to an electric control end of a patch type 9. The inspection port 817 is provided with the second water pump 813 towards the interior one end port department of clear water retrieval and utilization cavity 806 through support 814 is fixed, and the delivery port of second water pump 813 is connected with the one end of aqueduct 816, and the other end of aqueduct 816 extends to outlet pipe joint 812 inside, and support 814 is close to outlet pipe joint 812 one side and has seted up a plurality of water through hole 815 that is used for with clear water retrieval and utilization cavity 806 and outlet pipe joint 812 intercommunication each other, and the output electricity of electric cabinet 9 is connected to the input of second water pump 813. Through the specific structural design, the device is a high-efficiency materialization treatment device, adopts a high-efficiency filtration sedimentation technology to replace the traditional biological method, firstly enters a solid-liquid separation cavity 807, utilizes a rapid separation technology to finish rapid adsorption sedimentation, then enters a composite high-efficiency filtering area such as a fine filtering cavity 808, a deep adsorption cavity 809 and the like, removes suspended matters and pollutants in water through multi-stage filtering, finally enters a clear water recycling cavity 806, and adopts a second water pump 813 to lift the discharged water for recycling after disinfection, and recharge farmlands and vegetable fields, wherein the second water pump 813 adopts a solar water pump.

Working principle:

When the purifying tank 8 is used, in the process of rotating three hundred sixty degrees under the drive of the rotary supporting component 2, the water inlet pipe joint 810 and the water outlet pipe joint 812 on the purifying tank 8 are respectively in butt joint with two pipe telescopic plug-in components 3, and in particular, the angle interval between the four pipe telescopic plug-in components 3 is ninety degrees as shown in the figure 3 of the specification;

The first use state is that when the water inlet pipe joint 810 is connected with the water inlet pipe assembly 4 through the pipe telescopic plug assembly 3, the water outlet pipe joint 812 can be connected with the first water outlet pipe assembly 6 through the pipe telescopic plug assembly 3, and the connecting line of the water inlet pipe joint 810 and the water outlet pipe joint 812 is horizontally arranged at the moment and is used for sewage treatment when enough sewage is accumulated in the sewage storage cavity 102 and the water quality adjusting and homogenizing cavity 805;

In the second use state, when the water inlet pipe joint 810 is connected with the backwash pressurized pipe assembly 5 through the pipe telescopic plug assembly 3, the water outlet pipe joint 812 can be connected with the second water outlet pipe assembly 7 through the pipe telescopic plug assembly 3, and at the moment, the connecting lines of the water inlet pipe joint 810 and the water outlet pipe joint 812 are vertically arranged and are used for discharging residual sewage in the water quality adjusting and homogenizing chamber 805 after the sewage storage cavity 102 and the water quality adjusting and homogenizing chamber 805 are treated, so that the residual sewage in the purifying tank 8 is avoided;

in the third use state, when the water inlet pipe joint 810 is connected with the second drain pipe assembly 7 through the pipe telescopic plug-in assembly 3, the water outlet pipe joint 812 can be connected with the backwash pressurized pipe assembly 5 through the pipe telescopic plug-in assembly 3, and at the moment, the connecting line of the water inlet pipe joint 810 and the water outlet pipe joint 812 is vertically arranged and is used for carrying out backwash treatment on the inside of the purification tank 8 through the backwash pressurized pipe assembly 5, and waste liquid generated by treatment is discharged by the second drain pipe assembly 7.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. The resource ecological purification device is characterized by comprising a water tank (1), a purification tank (8), an electric cabinet (9) and a photovoltaic power generation system (11), wherein the purification tank (8) comprises a tank body (801) with a cuboid shape, two ends of the purification tank (8) are respectively provided with a water inlet pipe joint (810) and a water outlet pipe joint (812), a rotary support assembly (2) for driving the purification tank (8) to rotate in a turnover way is arranged on the water tank (1), four pipe telescopic plug-in assemblies (3) which take the rotation axis of the purification tank (8) as a center are uniformly distributed on the rotary support assembly (2), and the four pipe telescopic plug-in assemblies (3) are respectively connected with a water adding pipe assembly (4) for adding sewage into the purification tank (8), a backwash pressurizing pipe assembly (5) for pressurizing or flushing liquid into the purification tank (8), a first water discharging pipe assembly (6) for purifying and discharging the flushing liquid in the purification tank (8) and a second assembly (7) for discharging the flushing liquid in the purification tank (8);

When the water inlet pipe joint (810) is connected with the water adding pipe assembly (4) through the pipe telescopic plug assembly (3), the water outlet pipe joint (812) can be connected with the first water outlet pipe assembly (6) through the pipe telescopic plug assembly (3);

When the water inlet pipe joint (810) is connected with the backwash pressurizing pipe assembly (5) through the pipe telescopic plug assembly (3), the water outlet pipe joint (812) can be connected with the second water outlet pipe assembly (7) through the pipe telescopic plug assembly (3);

when the water inlet pipe joint (810) is connected with the second water outlet pipe assembly (7) through the pipe telescopic plug assembly (3), the water outlet pipe joint (812) can be connected with the backwash pressurized pipe assembly (5) through the pipe telescopic plug assembly (3);

the rotary support assembly (2) comprises two rotary support frames (201) which are oppositely arranged, the two rotary support frames (201) are fixedly connected to the water tank (1), the two rotary support frames (201) are fixedly connected with each other through a connecting rod (203), two sides of the purification tank (8) are rotatably arranged on the two rotary support frames (201) through rotating shafts, the rotating shafts are arranged on the outer side wall of the purification tank (8) positioned in the middle of the water inlet pipe joint (810) and the water outlet pipe joint (812), the shaft ends of one rotating shaft are driven to rotate by a rotary motor (202) fixedly arranged on the rotary support frames (201), and the output end of the electric cabinet (9) is electrically connected to the input end of the rotary motor (202);

A liquid receiving cavity (104) is formed in the middle of the upper side of the water tank (1), a sewage storage cavity (102) and a clear liquid storage cavity (103) which are positioned at two sides of the liquid receiving cavity (104) are arranged in the water tank (1), a separation plate (107) for separating the sewage storage cavity (102) from the clear liquid storage cavity (103) is arranged between the sewage storage cavity and the clear liquid storage cavity, a second liquid level sensor (106) for detecting the liquid level of the sewage storage cavity is arranged in the sewage storage cavity (102), a first liquid level sensor (105) for detecting the liquid level of the clear liquid storage cavity is arranged in the clear liquid storage cavity (103), and the output ends of the first liquid level sensor (105) and the second liquid level sensor (106) are respectively electrically connected to the input end of the electric control box (9);

The pipe telescopic plug-in assembly (3) comprises a supporting table (301), the supporting table (301) is fixedly arranged on the rotary supporting assembly (2), a pipe penetrating hole (302) is formed in the supporting table (301) in a penetrating mode, a push plate (304) is fixedly arranged on the outer side of one end of the pipe penetrating hole (302) towards the purifying tank (8), a telescopic pipe (306) is connected to the other end of the pipe penetrating hole (305), two electric telescopic rods (303) which are symmetrically distributed with the electric telescopic rods serving as centers are arranged on two sides of the pipe penetrating hole (302), the electric telescopic rods (303) are fixedly arranged in the supporting table (301), the push rod head end of each electric telescopic rod (303) is fixedly connected with the push plate (304), and the output end of the electric cabinet (9) is electrically connected to the input end of each electric telescopic rod (303);

The water adding pipe assembly (4) comprises a water inlet pipe (405) connected to one side of the upper part of the sewage storage cavity (102), the water adding pipe assembly (4) further comprises a first water adding pipe (401) arranged in the sewage storage cavity (102), one end of the first water adding pipe (401) is connected with a telescopic pipe (306) of the corresponding pipe telescopic plug-in assembly (3), the other end of the first water adding pipe (401) is respectively connected with a second water adding pipe (402) and a third water adding pipe (403), the lower end of the third water adding pipe (403) extends to the inner bottom surface of the sewage storage cavity (102) and is connected with a first water pump (406), a first electromagnetic three-way valve (404) is arranged at the joint between the first water adding pipe (401), the second water adding pipe (402) and the third water adding pipe (403), and when the first water adding pipe (401) is mutually communicated and the liquid level in the sewage storage cavity (102) reaches a certain height, sewage in the sewage storage cavity (102) can sequentially pass through the second water adding pipe (402), the first water adding pipe (402) and the first water adding pipe (3) and the telescopic plug-in assembly (8) under the action of water pressure, and the sewage water can enter the first water pump (8) and the first water pump (406) and the first water adding pipe telescopic plug-in the first water pipe (3) and the electric control valve (8) to be connected to the first water pump (8);

the first drain pipe assembly (6) comprises a first water outlet pipe (601), one end of the first water outlet pipe (601) is connected with the telescopic pipe (306) of the corresponding pipe telescopic plug-in assembly (3), and the first drain pipe assembly (6) further comprises an irrigation water pipe (602) and a recycling water pipe (604) which are respectively connected to one side of the bottom surface of the inside of the clear liquid storage cavity (103);

The second water drain pipe assembly (7) comprises a second water drain pipe (701), the upper end of the second water drain pipe (701) is connected with the telescopic pipe (306) of the corresponding pipe telescopic plug-in assembly (3), and the lower end of the second water drain pipe (701) extends to the inner bottom surface of the liquid receiving cavity (104) and penetrates out.

2. The resource ecological purification device according to claim 1, wherein the backwash pressurized pipe assembly (5) comprises a flushing pipe (501), the end part of the flushing pipe (501) is connected with the telescopic pipe (306) of the corresponding pipe telescopic plug assembly (3), one end of the flushing pipe (501) close to the telescopic pipe (306) is connected with a pressurized pipe (503), a second electromagnetic three-way valve (502) is arranged at the joint between the flushing pipe (501), the pressurized pipe (503) and the telescopic pipe (306), and the output end of the electric cabinet (9) is electrically connected to the input end of the second electromagnetic three-way valve (502).

3. The resource ecological purification device according to claim 1, wherein the irrigation water pipe (602) is provided with a first electromagnetic valve (603), the recycling water pipe (604) is provided with a second electromagnetic valve (605), and the output end of the electric cabinet (9) is electrically connected to the input ends of the first electromagnetic valve (603) and the second electromagnetic valve (605) respectively.

4. The device of claim 1, wherein the second drain pipe assembly (7) further comprises a third drain pipe (702), an upper end of the third drain pipe (702) is connected to an inner bottom surface of the liquid receiving cavity (104), and a lower end of the third drain pipe (702) is connected to the second drain pipe (701).

5. The device of claim 1, wherein a plurality of first partition plates (802) for separating the inside of the tank body (801) into a water quality adjusting homogenization chamber (805), a plurality of filtering chambers and a clear water recycling chamber (806) are arranged in the tank body along the length direction of the tank body, a second partition plate (803) is arranged on one side of each first partition plate (802), a liquid through groove is formed on one side of each first partition plate (802) and one side of each second partition plate (803) opposite to each other, a separation net (804) is arranged between the first partition plates (802) and the second partition plates (803), a patch type liquid level meter (811) is arranged in each of the water quality adjusting homogenization chamber (805) and the clear water recycling chamber (806), a water inlet pipe joint (810) is connected to one end of the purification tank (8) close to the water quality adjusting homogenization chamber (805), an inspection opening (817) is formed in one side of each first partition plate (802) and one side of each second partition plate (803), a sealing cover (817) is arranged on one side of each purification tank (8), and the fine separation chambers (809) are respectively connected to the fine separation chambers (811) through the fine separation chambers (811), and the fine separation chambers (811) are respectively connected to the fine separation chambers (811).

6. The device of claim 5, wherein the inspection port (817) is fixedly provided with a second water pump (813) towards one end port in the clear water recycling cavity (806) through a support (814), a water outlet of the second water pump (813) is connected with one end of a water guide pipe (816), the other end of the water guide pipe (816) extends to the inside of the water outlet pipe joint (812), a plurality of water through holes (815) for communicating the clear water recycling cavity (806) with the water outlet pipe joint (812) are formed in one side, close to the water outlet pipe joint (812), of the support (814), and an output end of the electric cabinet (9) is electrically connected to an input end of the second water pump (813).