CN113896393A - Rainwater collecting, utilizing and back-permeating system and device - Google Patents

Abstract

The invention relates to the field of rainwater utilization, in particular to a rainwater collecting, utilizing and back-permeating system and device. The technical problem to be solved is as follows: the rainwater mixed with the excrements of livestock is discharged into the river through the ditch, thereby causing environmental pollution, and the interior of the accumulated excrements is inconvenient for subsequent air drying treatment. A rainwater collection utilization and back-infiltration system, comprising: the feeding system is internally provided with a first spiral feeding rod for separating the input liquid and solid dirt after rainwater is collected. The invention can separate the rainwater and the livestock excrement and purify the separated rainwater; and the excrement of the livestock is crushed, so that the excrement fermentation speed is increased, the methane production rate is improved, and meanwhile, the organic fertilizer treatment system can work conveniently.

Description

Rainwater collecting, utilizing and back-permeating system and device

Technical Field

The invention relates to the field of rainwater utilization, in particular to a rainwater collecting, utilizing and back-permeating system and device.

Background

The rainwater is the main source of surface water, has extremely important meaning to ecosystem, if can retrieve and utilize the rainwater, can alleviate people's demand to fresh water, can improve the environment again. In the rainfall process, the rainwater runoff flushes and wraps a large amount of pollutants accumulated from the atmosphere, houses, residential road surfaces, green lands, road surfaces and the like in the confluence process, and the pollutants are directly discharged into the urban receiving water body without treatment, so that the serious pollution of river and lake water systems in the city is easily caused, the aquatic environment of the city is damaged, and the daily life of residents around the receiving water body is also seriously influenced; therefore, how to effectively utilize the carbon dioxide has become a problem which is concerned by people in recent years. The rainwater is recycled, which refers to the whole process of collecting rainwater as a water source by using a certain rainwater collection, properly treating the rainwater to reach a certain water quality standard, and utilizing the rainwater in a pipeline conveying or field use mode. China has abundant rainwater resources, the annual average total precipitation is 6.2 multiplied by 101 hundred million m3, and the available water resource amount is huge. With the continuous acceleration of the industrialization and urbanization of China, the demand of people for water resources is continuously increased. Therefore, developing a rainwater collection and utilization system is an important issue that needs to be solved urgently by those skilled in the art.

When a rainy day occurs, rainwater falls into the livestock colony house, the rainwater can flow into the drain along with livestock excrement, the rainwater and the excrement are conveyed and discharged through the drain, in order to prevent the livestock excrement from flowing out to pollute water and soil environment, a layer of fence for filtering the livestock excrement is usually arranged at the drain, the livestock excrement is filtered and blocked through the fence at the drain, but the interception and filtration effect on the livestock excrement is poor through the fence, the rainwater doped with the livestock excrement is discharged into a river through a ditch, so that environmental pollution can be caused, not only can the surrounding water resources be seriously polluted and damaged, but also a large amount of livestock excrement is discharged along with the rainwater without effective treatment, the livestock excrement can be gradually deposited and accumulated in the ditch and the river along with the flowing process of the rainwater, and accumulated day and month, the untreated excrement is smelly, after a large amount of the soil is accumulated, soil around ditches and rivers can be seriously eroded to pollute land resources, and when excrement entering the soil and decomposition products thereof or carried pollutants exceed the purification capacity of the soil, the composition and the shape of the soil can be changed, the original basic functions of the soil can be damaged, and the harm is caused to the life and the health of people and animals.

The main forms of soil contamination include contamination with organic decomposition products in feces, and contamination with pathogenic microorganisms and parasites in feces. The livestock manure is beneficial to the soil and is also unfavorable. The beneficial aspects of livestock manure are that: can be used as fertilizer for farmland to fertilize soil; the frequent application of manure can also improve the weathering and water erosion resistance of the soil, change the aeration and cultivation conditions of the soil, and increase the growth of organic substances and beneficial microorganisms in the soil. The disadvantageous aspects are that: excessive use of feces which has not been harmfully treated can harm the quality of crops, soil, surface water and groundwater. In some cases (usually fresh feces) there is a seedling burning phenomenon; the large amount of excrement can also cause the accumulation of dissolved salts in soil, so that the salt content of the soil is increased, and the plant growth is influenced. It was reported that in 1999, in 31% of the pastures in africa, soil salinization occurs due to the contamination of livestock manure, and the soil fertility decreases; so the livestock manure can be used as organic fertilizer after being effectively treated.

However, the accumulated fermentation of the livestock manure has a long treatment time-consuming period and a slow biogas supply speed, and when the livestock manure is subsequently used as an organic fertilizer for air drying treatment, the accumulated manure is not convenient for subsequent air drying treatment.

In summary, a system and device for collecting, utilizing and back-infiltrating rainwater are needed to solve the above problems.

Disclosure of Invention

The invention provides a rainwater collecting and utilizing and back-permeating system and device, aiming at overcoming the defects that rainwater doped with livestock excrement is discharged into a river through a ditch, so that environmental pollution is caused, and the interior of accumulated excrement is inconvenient for subsequent air drying treatment.

The technical scheme of the invention is as follows: a rainwater collection utilization and infiltration system comprising: the feeding system is internally provided with a first spiral feeding rod and is used for separating input liquid and solid dirt after rainwater is collected; the separation box is used for precipitating the unseparated impurities, sampling the liquid through a first water faucet communicated with the separation box and detecting biological components in the liquid; the purification system is internally provided with a purification box, a third filter plate, a first purifier and a second purifier, is used for purifying, filtering, disinfecting and sterilizing liquid, samples purified water through a second water tap communicated with the purification system, and is used for judging whether the purified water reaches a dischargeable standard or not, and if the purified water reaches the discharge standard, the purified water is used for cleaning a fence again; the organic fertilizer treatment system is internally provided with a scattering roller for scattering excrement and used for composting; and the methane storage tank is used for storing methane in the organic fertilizer treatment system.

Further, the rainwater collecting, utilizing and back-infiltrating device comprises a machine shell, a biogas storage tank, an instrument, a gas outlet, a first vent pipe, an organic fertilizer discharge hole, a broken stone cleaning pipe, a feeding system, a broken slag separating system, an organic fertilizer processing system, a spraying system and a purifying system; the middle part of the upper side of the shell is fixedly connected with a methane storage tank; an instrument is arranged on the upper part of the right wall of the methane storage tank; the middle part of the right wall of the methane storage tank is communicated with an air outlet; the middle part of the upper wall of the shell is communicated with a first vent pipe; the top end of the first vent pipe is fixedly connected with a methane storage tank; the right wall of the shell is communicated with an organic fertilizer discharge port; the bottom of the front wall of the shell is communicated with a gravel cleaning pipe; the upper part of the left wall of the machine shell is connected with a feeding system for separating rainwater and excrement; the bottom in the machine shell is connected with an organic fertilizer treatment system for stirring and crushing excrement; the bottom of the machine shell is connected with a spraying system for spraying rainwater on excrement; the left part of the lower side of the feeding system is connected with a slag separating system for separating rainwater and excrement residues; the lower part of the right side of the slag separating system is connected with a spraying system; the lower part of the right side of the spraying system is connected with a purification system.

Further, the feeding system comprises a feeding pipe, a conveying barrel, a first support, a first motor, a first bevel gear, a second bevel gear, a first spiral conveying rod and a first filter plate; the upper part of the left side of the machine shell is communicated with a conveying barrel; the left part of the upper side of the conveying barrel is communicated with a feeding pipe; the lower side of the conveying barrel is connected with a slag separating system; the middle part of the lower side of the feeding pipe is connected with a slag separating system; the left part of the lower side of the feeding pipe is connected with a slag separating system; a first bracket is fixedly connected to the rear part of the upper side of the slag separating system; a first motor is fixedly connected to the upper side of the first support; a first bevel gear is fixedly connected with an output shaft of the first motor; the output shaft of the first motor penetrates through the upper wall of the conveying barrel and is rotationally connected with the conveying barrel; a first filter plate is fixedly connected to the bottom in the conveying barrel; the bottom and the top of the inner bottom of the conveying barrel are respectively and fixedly connected with a material conveying rod supporting frame; a first spiral conveying rod is rotatably connected between the two conveying rod supporting frames; the bottom of the first spiral conveying rod is fixedly connected with a second bevel gear; the first bevel gear engages the second bevel gear.

Furthermore, the slag separating system comprises a separating box, a box door, a second bracket, a third bracket, a first separating plate, a second separating plate and a fourth bracket; the front part of the upper wall of the separation box is movably connected with a box door; a second bracket is fixedly connected to the left rear part of the upper wall of the separation box; a third bracket is fixedly connected to the upper part of the left wall of the separation box; a first separation plate is fixedly connected to the left part of the bottom wall in the separation box; a second separating plate is fixedly connected to the right part of the bottom wall in the separating box; the right side of the first separation plate is fixedly connected with a second separation plate; the left side of the second separation plate is higher than the first separation plate; the middle rear side of the upper wall of the separation box is fixedly connected with a conveying barrel; the left part of the upper wall of the separation box is fixedly connected with a first bracket; the rear bottom of the right wall of the separation box is connected with a spraying system; the upper side of the second bracket is fixedly connected with a feeding pipe; the top of the third bracket is fixedly connected with a feeding pipe; the front part of the lower side and the rear part of the lower side of the second separation plate are respectively fixedly connected with a fourth bracket; the lower sides of the two fourth supports are fixedly connected with the separating box.

Further, the organic fertilizer treatment system comprises a second motor, a second spiral conveying rod, a first transmission wheel, a second transmission wheel, a first scattering roller, a first gear, a second scattering roller, a squeezing plate, a fifth support, a second filter plate, a conveying guide plate and a push-pull rod; a second motor is fixedly connected to the rear part of the left side of the casing; the bottom of the machine shell is rotationally connected with a second spiral conveying rod; the output shaft of the second motor is fixedly connected with a second spiral conveying rod; a first driving wheel is fixedly connected to the left part of the outer surface of the second spiral conveying rod; the rear side of the left part of the shell is rotationally connected with a first scattering roller; a second driving wheel is fixedly connected to the left part of the outer surface of the first scattering roller; the outer ring surface of the first driving wheel is in transmission connection with a second driving wheel through a belt; a first gear is fixedly connected to the left part of the outer surface of the first scattering roller; the front side of the left part of the machine shell is rotatably connected with a second scattering roller; a second gear is fixedly connected to the left part of the outer surface of the second scattering roller; the first gear is meshed with the second gear; the inner front wall of the casing is fixedly connected with an extrusion plate; a fifth bracket is fixedly connected between the inner front wall and the inner rear wall of the shell; the bottom of the fifth support is connected with a second filter plate; a conveying guide plate is fixedly connected to the bottom in the shell; the left part of the upper side of the second filter plate is connected with a push-pull rod; the upper part of the outer surface of the push-pull rod penetrates through the machine shell and is connected with the machine shell in a sliding way.

Furthermore, the extrusion plate is provided with a groove matched with the first scattering roller and the second scattering roller.

Furthermore, the bottom of the fifth support is provided with a hollow groove, so that the second filter plate can slide at the bottom of the fifth support.

Furthermore, the spraying system comprises a first water pump, a first water guide pipe, a second water guide pipe, a third water guide pipe, a first water faucet, an H-shaped water guide pipe, a supporting plate and a spray head; the left part of the front end of the shell is communicated with a third water guide pipe; the bottom of the third water guide pipe is communicated with a second water guide pipe; the lower end of the second water guide pipe is connected with a first water pump; the right side of the outer surface of the second water guide pipe is connected with a purification system; the left end of the first water pump is fixedly connected with a first water guide pipe; the left part of the outer surface of the first water guide pipe is fixedly connected with a separation box; the left side of the top of the third water guide pipe is in threaded connection with a first water faucet; a supporting plate is fixedly connected to the front side and the rear side of the top in the shell respectively; an H-shaped water guide pipe is fixedly connected between the upper ends of the two supporting plates; the rear part of the left side of the H-shaped water guide pipe is fixedly connected with a third water guide pipe; three spray heads are connected with the two supporting plates at equal intervals; the front part and the rear part of the lower end of the H-shaped water guide pipe are connected with three spray heads.

Further, the purification system comprises a purification box, a third filter plate, a fourth water guide pipe, a first purifier, a fifth water guide pipe, a second purifier, a sixth water guide pipe, an eighth water guide pipe, a valve, a second water pump, a ninth water guide pipe, a second water tap, a first cabin door and a second cabin door; the lower end of the shell is fixedly connected with a purifying box; a ninth water guide pipe is communicated with the right part of the front end of the shell; a third filter plate is fixedly connected to the left side of the inner wall of the purifying box; a fourth water guide pipe is communicated with the left side of the inner wall of the purification box and is positioned above the third filter plate; the rear side of the bottom in the purifying box is fixedly connected with a first purifier; the front side of the bottom in the purifying box is fixedly connected with a second purifier; the right end of the fourth water guide pipe is connected with the first purifier; the right end of the first purifier is connected with a fifth water guide pipe; the front part of the fifth water guide pipe is connected with a second purifier; the inner front wall of the purification box is connected with a sixth water guide pipe; the middle part of the left end of the second purifier is connected with a sixth water guide pipe; an eighth water guide pipe is fixedly connected to the front bottom of the right end of the purifying box; the right end of the eighth water guide pipe is fixedly connected with a valve; the front end of the eighth water guide pipe is fixedly connected with a second water pump; the upper end of the second water pump is communicated with a ninth water guide pipe; the bottom of the left side of the front end of the purifying box is movably connected with a first cabin door; the middle part of the front end of the purifying box is movably connected with a second cabin door.

Furthermore, the water dispenser also comprises a second water faucet; and the upper end of the ninth water guide pipe is in threaded connection with a second water faucet for sampling water.

Has the advantages that: the invention can separate the rainwater and the livestock excrement and purify the separated rainwater; and the excrement of the livestock is crushed, so that the excrement fermentation speed is improved, the methane production rate is improved, and meanwhile, the organic fertilizer treatment system is convenient to work.

Drawings

FIG. 1 is a flow chart of the rainwater collection, utilization and infiltration system of the present invention;

FIG. 2 is a schematic view of a first three-dimensional structure of the rainwater collection, utilization and infiltration device of the present invention;

FIG. 3 is a schematic view of a second three-dimensional structure of the rainwater collection, utilization and infiltration device of the present invention;

FIG. 4 is a schematic perspective view of a feeding system of the rainwater collection, utilization and infiltration device of the present invention;

FIG. 5 is a schematic perspective view of a debris separation system of the rainwater collection, utilization and infiltration device of the present invention;

FIG. 6 is a schematic view showing the three-dimensional structure of an organic fertilizer treatment system of the rainwater collection, utilization and infiltration device of the present invention;

FIG. 7 is a schematic perspective view of a squeeze plate of the rainwater collection, utilization and infiltration device of the present invention;

FIG. 8 is a schematic perspective view of a spraying system of the rainwater collection, utilization and infiltration device of the present invention;

FIG. 9 is a perspective view of the purification system of the rainwater collection, utilization and infiltration device of the present invention.

In the reference symbols: 1-a machine shell, 2-a biogas storage tank, 3-a meter, 4-an air outlet, 5-a first air pipe, 6-an organic fertilizer discharge port, 7-a gravel cleaning pipe, 101-a feeding pipe, 102-a conveying barrel, 103-a first bracket, 104-a first motor, 105-a first bevel gear, 106-a second bevel gear, 107-a first spiral conveying rod, 108-a first filter plate, 109-a conveying rod support frame, 201-a separation box, 202-a box door, 203-a second bracket, 204-a third bracket, 205-a first separation plate, 206-a second separation plate, 207-a fourth bracket, 301-a second motor, 302-a second spiral conveying rod, 303-a first transmission wheel, 304-a second transmission wheel, 305-a first scattering roller, 306-a first gear, 307-a second gear, 308-a second scattering roller, 309-an extrusion plate, 3010-a fifth support, 3011-a second filter plate, 3012-a conveying guide plate, 3013-a push-pull rod, 401-a first water pump, 402-a first water guide pipe, 403-a second water guide pipe, 404-a third water guide pipe, 405-a first water tap, 406-an H-shaped water guide pipe, 407-a support plate, 408-a spray head, 501-a purification box, 502-a third filter plate, 503-a fourth water guide pipe, 504-a first purifier, 505-a fifth water guide pipe, 506-a second purifier, 507-a sixth water guide pipe, 508-an eighth water guide pipe, 509-a valve, 5010-a second water pump, 5011-a ninth water guide pipe, 5012-a second water tap, 5013-first door, 5014-second door.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present application. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Examples

A rainwater collecting, utilizing and back-infiltrating device is shown in figures 2-3 and comprises a machine shell 1, a methane storage tank 2, an instrument 3, an air outlet 4, a first air pipe 5, an organic fertilizer discharge port 6, a broken stone cleaning pipe 7, a feeding system, a broken slag separating system, an organic fertilizer processing system, a spraying system and a purifying system; the middle part of the upper side of the casing 1 is fixedly connected with a methane storage tank 2; an instrument 3 is arranged on the upper part of the right wall of the methane storage tank 2; the middle part of the right wall of the methane storage tank 2 is communicated with an air outlet 4; the middle part of the upper wall of the machine shell 1 is communicated with a first vent pipe 5; the top end of the first vent pipe 5 is fixedly connected with a methane storage tank 2; the right wall of the machine shell 1 is communicated with an organic fertilizer discharge port 6; the bottom of the front wall of the machine shell 1 is communicated with a gravel cleaning pipe 7; the upper part of the left wall of the machine shell 1 is connected with a feeding system for separating rainwater and excrement; the bottom in the machine shell 1 is connected with an organic fertilizer treatment system for stirring and smashing excrement; the bottom of the machine shell 1 is connected with a spraying system; the left part of the lower side of the feeding system is connected with a slag separating system; the lower part of the right side of the slag separating system is connected with a spraying system; the lower part of the right side of the spraying system is connected with a purification system.

When the rainwater collecting, utilizing and back-permeating device is used, the rainwater collecting, utilizing and back-permeating device is installed in a cellar beside a fed livestock, when the rainwater falls into a livestock pen, the rainwater doped with the excrement of the livestock flows into a feeding system from a groove, so that the rainwater doped with the excrement of the livestock is primarily separated from the excrement through the feeding system, then the rainwater is conveyed into a residue separating system, the separated rainwater also carries partial excrement residues, the rainwater is separated from the excrement residues through the residue separating system, meanwhile, the feeding system can convey the excrement into an organic fertilizer treatment system, the excrement is stirred and crushed through the organic fertilizer treatment system, the excrement fermentation speed is increased, the methane production rate is increased, and meanwhile, the rainwater treated by the residue separating system through a spraying system sprays the excrement, thereby wetting the excrement, facilitating the treatment of the organic fertilizer treatment system, extruding and crushing the excrement, manually opening the organic fertilizer discharge port 6 to discharge the organic fertilizer from the organic fertilizer discharge port 6, simultaneously, enabling the methane to enter the methane storage tank 2 through the first vent pipe 5, thereby storing the methane through the methane storage tank 2, simultaneously, detecting the methane pressure through the instrument 3, when the methane is needed to be used, externally connecting the gas delivery pipe to the gas outlet 4 to realize the transmission and use of the methane, simultaneously, conveying the rainwater into the purification system through the spraying system, purifying the rainwater through the purification system, achieving the purpose of separating the rainwater from the livestock excrement, simultaneously purifying the separated rainwater, extruding and crushing the livestock excrement, thereby improving the excrement fermentation speed and the methane productivity, meanwhile, the organic fertilizer treatment system can work conveniently.

As shown in fig. 1 and 4, the feeding system comprises a feeding pipe 101, a conveying barrel 102, a first bracket 103, a first motor 104, a first bevel gear 105, a second bevel gear 106, a first spiral conveying rod 107 and a first filter plate 108; the upper part of the left side of the machine shell 1 is communicated with a conveying barrel 102; the left part of the upper side of the conveying barrel 102 is communicated with a feeding pipe 101; the lower side of the conveying barrel 102 is connected with a slag separating system; the middle part of the lower side of the feeding pipe 101 is connected with a slag separating system; the left part of the lower side of the feeding pipe 101 is connected with a slag separating system; a first bracket 103 is fixedly connected to the rear part of the upper side of the slag separating system; a first motor 104 is connected to the upper side of the first bracket 103 through bolts; the output shaft of the first motor 104 is fixedly connected with a first bevel gear 105; an output shaft of the first motor 104 penetrates through the upper wall of the conveying barrel 102 and is rotationally connected with the conveying barrel 102; a first filter plate 108 is fixedly connected to the bottom in the conveying barrel 102; a material conveying rod supporting frame 109 is fixedly connected to the inner bottom and the inner top of the conveying barrel 102 respectively; a first spiral conveying rod 107 is rotatably connected between the two conveying rod supporting frames 109; a second bevel gear 106 is fixedly connected to the bottom of the first spiral conveying rod 107; the first bevel gear 105 engages the second bevel gear 106.

At first make pan feeding pipe 101 aim at livestock excrement discharge slot mouth, when the rainwater that is adulterated with livestock excrement flows into pan feeding pipe 101 from the ditch internal flow, the rainwater that is adulterated with livestock excrement and urine can flow into the conveying bucket 102 in, the rainwater can permeate first filter plate 108 and flow to in the disintegrating slag piece-rate system this moment, start first motor 104 afterwards and drive first bevel gear 105 and rotate, thereby drive second bevel gear 106 with it meshing through pivoted first bevel gear 105 and rotate, pivoted second bevel gear 106 can drive first spiral conveying pole 107 and rotate on two conveying pole support frames 109 this moment, convey excrement and urine simultaneously, thereby convey the excrement and urine in the organic fertilizer processing system.

As shown in fig. 1 and 5, the slag separating system includes a separating box 201, a box door 202, a second bracket 203, a third bracket 204, a first separating plate 205, a second separating plate 206 and a fourth bracket 207; the front part of the upper wall of the separation box 201 is hinged with a box door 202; a second bracket 203 is fixedly connected to the left rear part of the upper wall of the separation box 201; a third bracket 204 is fixedly connected to the upper part of the left wall of the separation box 201; a first separation plate 205 is fixedly connected to the left part of the bottom wall in the separation box 201; a second separating plate 206 is fixedly connected to the right part of the bottom wall in the separating box 201; the right side of the first separation plate 205 is fixedly connected with a second separation plate 206; the middle rear side of the upper wall of the separation box 201 is fixedly connected with a conveying barrel 102; the left part of the upper wall of the separation box 201 is fixedly connected with a first bracket 103; the rear bottom of the right wall of the separation box 201 is connected with a spraying system; the upper side of the second bracket 203 is connected with the feeding pipe 101 through a bolt; the top of the third bracket 204 is connected with the feeding pipe 101 through a bolt; a fourth bracket 207 is respectively fixedly connected to the lower front part and the lower rear part of the second separation plate 206; the lower sides of the two fourth brackets 207 are fixedly connected with the separation box 201.

The second separation plate 206 is higher on the left side than the first separation plate 205.

When rainwater permeates and is conveyed into the separation tank 201 through the first filter plate 108, the rainwater falls onto the first separation plate 205 and is accumulated on the left side of the upper surface of the first separation plate 205, when the rainwater level is higher than the second separation plate 206, after the rainwater is filtered by the first filter plate 108, the residue of the rainwater is deposited and accumulated on the left side of the first separation plate 205, the rainwater flows to the right side of the second separation plate 206, so that the separation of the rainwater and the excrement residue is completed, and when the height of the excrement residue on the first separation plate 205 is consistent with that of the left side of the second separation plate 206, the tank door 202 is manually opened to clean the excrement residue on the first separation plate 205.

As shown in fig. 1 and fig. 6-7, the organic fertilizer treatment system comprises a second motor 301, a second spiral delivery rod 302, a first driving wheel 303, a second driving wheel 304, a first scattering roller 305, a first gear 306, a second gear 307, a second scattering roller 308, a squeezing plate 309, a fifth bracket 3010, a second filter plate 3011, a delivery guide 3012 and a push-pull rod 3013; the rear part of the left side of the machine shell 1 is connected with a second motor 301 through a bolt; the bottom of the machine shell 1 is rotatably connected with a second spiral conveying rod 302; the output shaft of the second motor 301 is fixedly connected with a second spiral material conveying rod 302; a first driving wheel 303 is fixedly connected to the left part of the outer surface of the second spiral conveying rod 302; a first scattering roller 305 is rotatably connected to the rear side of the left part of the machine shell 1; a second driving wheel 304 is fixedly connected to the left part of the outer surface of the first scattering roller 305; the outer ring surface of the first driving wheel 303 is in transmission connection with a second driving wheel 304 through a belt; a first gear 306 is fixedly connected to the left part of the outer surface of the first scattering roller 305; a second scattering roller 308 is rotatably connected to the front side of the left part of the machine shell 1; a second gear 307 is fixedly connected to the left part of the outer surface of the second scattering roller 308; the first gear 306 engages the second gear 307; the inner front wall of the machine shell 1 is fixedly connected with a pressing plate 309; a fifth bracket 3010 is fixedly connected between the inner front wall and the inner rear wall of the machine shell 1; the bottom of the fifth support 3010 is connected with a second filter sheet 3011; a conveying guide plate 3012 is fixedly connected to the bottom in the machine shell 1; a push-pull rod 3013 is connected to the left part of the upper side of the second filter plate 3011; the upper part of the outer surface of the push-pull rod 3013 passes through the casing 1 and is connected with the casing 1 in a sliding way.

The pressing plate 309 is provided with grooves which are matched with the first scattering roller 305 and the second scattering roller 308.

The bottom of the fifth support 3010 is provided with a hollow groove, so that the second filter sheet 3011 can slide on the bottom of the fifth support 3010.

When the first spiral conveying rod 107 conveys the excrement to the pressing plate 309, the excrement slides to the positions of the second gear 307 and the second scattering roller 308 through the inner wall of the pressing plate 309, and simultaneously the second motor 301 is started to drive the second spiral conveying rod 302 to rotate, so that the rotating second spiral conveying rod 302 drives the first driving wheel 303 to rotate, so that the rotating first driving wheel 303 drives the second driving wheel 304 to rotate, the rotating second driving wheel 304 drives the first scattering roller 305 to rotate, so that the rotating first scattering roller 305 drives the first gear 306 to rotate, the rotating first gear 306 drives the second gear 307 meshed with the first gear 306 to rotate, so that the rotating second gear 307 drives the second scattering roller 308 to rotate in the direction opposite to that of the first scattering roller 305, so that the second scattering roller 308 and the first scattering roller 305 rotate in the opposite directions, at the moment, the excrement is crushed through the mutual matching of the crushing rods on the second crushing roller 308 and the first crushing roller 305 and the clamping grooves on the extrusion plate 309, so that the crushing treatment of the excrement is completed, the methane production rate is improved, meanwhile, the excrement is continuously sprayed by a spraying system, the excrement is always kept in a wet state, the crushing of the excrement is more thorough, the excrement can permeate through the second filter plate 3011 along with rainwater sprayed by the spraying system and fall onto the conveying guide plate 3012, because the conveying guide plate 3012 is inclined towards the middle part, the excrement fragments and the rainwater can fall into the grooves in the middle part of the conveying guide plate 3012, meanwhile, the push-pull rod 3013 is manually pushed and pulled, the push-pull rod 3013 drives the second filter plate 3011 to shake up and down, the filtering speed of the excrement fragments and the rainwater is improved, meanwhile, the second filter plate 3011 can leave small crushed stones and impurities which cannot be crushed in the excrement to the second filter plate 3011, and the inclined plane through the second filter plate 3011 slides to the second filter plate 3011 left side, when the infiltration of second filter plate 3011 to excrement and urine piece is piled up to quantity influence to the impurity that the small rubble on the second filter plate 3011 and can't pinch off, opens rubble clearance pipe 7, clears up the small rubble on the second filter plate 3011 and the impurity that can't pinch off, conveys excrement and urine piece and rainwater through pivoted second spiral material conveying pole 302 afterwards to the completion is to the processing of fertilizer material.

As shown in fig. 1 and 8, the spraying system includes a first water pump 401, a first water conduit 402, a second water conduit 403, a third water conduit 404, a first water tap 405, an H-shaped water conduit 406, a support plate 407 and a spray head 408; a third water guide pipe 404 is communicated with the left part of the front end of the machine shell 1; the bottom of the third water conduit 404 is communicated with a second water conduit 403; the lower end of the second water guide pipe 403 is connected with a first water pump 401; the right side of the outer surface of the second water guide pipe 403 is connected with a purification system; the left end of the first water pump 401 is fixedly connected with a first water guide pipe 402; the left part of the outer surface of the first water guide pipe 402 is fixedly connected with the separation box 201; the left side of the top of the third water guide pipe 404 is in threaded connection with a first water tap 405; a supporting plate 407 is fixedly connected to the front side and the rear side of the top in the casing 1 respectively; an H-shaped water guide pipe 406 is fixedly connected between the upper ends of the two supporting plates 407; the rear part of the left side of the H-shaped water guide pipe 406 is fixedly connected with a third water guide pipe 404; three nozzles 408 are equidistantly connected to the two support plates 407; the front and rear parts of the lower end of the H-shaped water guide pipe 406 are connected with three nozzles 408.

When excrement on the conveying guide plate 3012 needs to be sprayed, the first water pump 401 is operated to work, so that the first water pump 401 sucks rainwater on the right side of the second separation plate 206 in the separation box 201 through the first water guide pipe 402, the rainwater is conveyed into the second water guide pipe 403 through the first water pump 401, the rainwater is conveyed into the purification system through the second water guide pipe 403, the rainwater is conveyed into the third water guide pipe 404 through the second water guide pipe 403, the rainwater flows into the H-shaped water guide pipe 406 through the third water guide pipe 404, the first water faucet 405 is opened, the rainwater is sampled through the first water faucet 405, water quality is detected, the occurrence of the condition that water quality has pathogenic bacteria is prevented, livestock is correspondingly prevented in advance, and meanwhile, the rainwater in the H-shaped water guide pipe 406 is sprayed on the excrement on the conveying guide plate 3012 through the six spray nozzles 408, thereby cooperating with an organic fertilizer treatment system to work.

As shown in fig. 1 and 9, the purification system includes a purification tank 501, a third filter plate 502, a fourth water conduit 503, a first purifier 504, a fifth water conduit 505, a second purifier 506, a sixth water conduit 507, an eighth water conduit 508, a valve 509, a second water pump 5010, a ninth water conduit 5011, a second water tap 5012, a first hatch 5013 and a second hatch 5014; the lower end of the machine shell 1 is fixedly connected with a purification box 501; a ninth water guide pipe 5011 is communicated with the right part of the front end of the machine shell 1; a third filter plate 502 is fixedly connected to the left side of the inner wall of the purification box 501; a fourth water guide pipe 503 is communicated with the left side of the inner wall of the purification box 501, and the fourth water guide pipe 503 is positioned above the third filter plate 502; a first purifier 504 is connected to the rear side bolt of the bottom in the purifying box 501; the front side of the bottom in the purification box 501 is connected with a second purifier 506 through a bolt; the right end of the fourth water conduit 503 is connected with the first purifier 504; a fifth water guide pipe 505 is connected to the right end of the first purifier 504; the front part of the fifth water guide pipe 505 is connected with a second purifier 506; the inner front wall of the purification box 501 is connected with a sixth water guide pipe 507; the middle part of the left end of the second purifier 506 is connected with a sixth water guide pipe 507; an eighth water guide pipe 508 is fixedly connected to the front bottom of the right end of the purification box 501; a valve 509 is fixedly connected at the right end of the eighth water guide pipe 508; the front end of the eighth water guiding pipe 508 is fixedly connected with a second water pump 5010; the upper end of the second water pump 5010 is communicated with a ninth water guide pipe 5011; the bottom of the left side of the front end of the purification box 501 is hinged with a first cabin door 5013; the middle of the front end of the purification box 501 is hinged with a second door 5014.

A second faucet 5012 is also included; the ninth water guide pipe 5011 is threadedly connected at the upper end thereof with a second tap 5012 for sampling water.

When rainwater flows to the purification box 501 through the second water conduit 403, and the purification box 501 is provided with three sections of isolation, the rainwater directly flows to the third filter plate 502 through the second water conduit 403, impurities in the rainwater can permeate to the bottom of the third filter plate 502 through deposition, so that the rainwater which subsequently flows to the purification box 501 through the second water conduit 403 can be prevented from impacting deposited impurities at the bottom, and impurities are mixed in the rainwater and flow into the fourth water conduit 503, when the water level reaches the height of the fourth water conduit 503, the rainwater which is subjected to deposition and filtration can flow into the first purifier 504 through the fourth water conduit 503, so that the rainwater is primarily purified through the first purifier 504, and then the rainwater which is primarily purified flows into the second purifier 506 from the first purifier 504 through the fifth water conduit 505, and then the rainwater is secondarily purified through the second purifier 506, then, the rainwater in the second purifier 506 flows into the box body at the position of the eighth water guide pipe 508 through the sixth water guide pipe 507, when the water level exceeds the height set by the eighth water guide pipe 508, the second water pump 5010 is controlled to work, so that the second water pump 5010 transmits the purified rainwater into the ninth water guide pipe 5011 through the eighth water guide pipe 508, and transmits the purified rainwater to the position of the second water faucet 5012 through the ninth water guide pipe 5011, at the moment, the purified rainwater can be sampled through the second water faucet 5012, the quality of the purified rainwater can be detected conveniently, when the purification quality reaches the standard, the water pipe can be connected to the valve 509, and the valve 509 is opened, so that the purified rainwater is transmitted.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered 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 (10)

1. A rainwater collection utilization and back-infiltration system, comprising:

the feeding system is internally provided with a first spiral feeding rod (107) and is used for separating the input liquid and solid dirt after rainwater is collected;

the separation box (201) is used for the sediment of the unseparated impurities, and the liquid is sampled through a first water faucet (405) communicated with the separation box for detecting biological components in the liquid;

the purification system is internally provided with a purification box (501), a third filter plate (502), a first purifier (504) and a second purifier (506) and used for purifying, filtering, disinfecting and sterilizing liquid, and the purified water is sampled through a second water faucet (5012) communicated with the purification system and used for judging whether the purified water reaches a dischargeable standard or not, and if the purified water reaches the discharge standard, the purified water is used for fence cleaning again;

the organic fertilizer treatment system is internally provided with a scattering roller for scattering excrement and used for composting;

and the methane storage tank (2) is used for storing methane in the organic fertilizer treatment system.

2. A rainwater collecting, utilizing and back-infiltrating device comprises a machine shell (1), a methane storage tank (2), an instrument (3), an air outlet (4), a first vent pipe (5), an organic fertilizer discharge port (6) and a broken stone cleaning pipe (7); the middle part of the upper side of the casing (1) is fixedly connected with a methane storage tank (2); an instrument (3) is arranged on the upper part of the right wall of the methane storage tank (2); the middle part of the right wall of the methane storage tank (2) is communicated with an air outlet (4); the middle part of the upper wall of the shell (1) is communicated with a first vent pipe (5); the top end of the first vent pipe (5) is fixedly connected with a methane storage tank (2); the right wall of the machine shell (1) is communicated with an organic fertilizer discharge hole (6); the bottom of the front wall of the machine shell (1) is communicated with a gravel cleaning pipe (7); the method is characterized in that: the device also comprises a feeding system, a slag separating system, an organic fertilizer processing system, a spraying system and a purifying system; the upper part of the left wall of the machine shell (1) is connected with a feeding system for separating rainwater and excrement; the bottom in the machine shell (1) is connected with an organic fertilizer treatment system for stirring and smashing excrement; the bottom of the shell (1) is connected with a spraying system for spraying rainwater on excrement; the left part of the lower side of the feeding system is connected with a slag separating system for separating rainwater and excrement residues; the lower part of the right side of the slag separating system is connected with a spraying system; the lower part of the right side of the spraying system is connected with a purification system.

3. A rainwater collection, utilization and return-infiltration device according to claim 2, characterised in that: the feeding system comprises a feeding pipe (101), a conveying barrel (102), a first support (103), a first motor (104), a first bevel gear (105), a second bevel gear (106), a first spiral conveying rod (107) and a first filter plate (108); the upper part of the left side of the machine shell (1) is communicated with a conveying barrel (102); the left part of the upper side of the conveying barrel (102) is communicated with a feeding pipe (101); the lower side of the conveying barrel (102) is connected with a slag separating system; the middle part of the lower side of the feeding pipe (101) is connected with a slag separating system; the left part of the lower side of the feeding pipe (101) is connected with a slag separating system; a first bracket (103) is fixedly connected to the rear part of the upper side of the slag separating system; a first motor (104) is fixedly connected to the upper side of the first bracket (103); a first bevel gear (105) is fixedly connected with an output shaft of the first motor (104); an output shaft of the first motor (104) penetrates through the upper wall of the conveying barrel (102) and is rotationally connected with the conveying barrel (102); a first filter plate (108) is fixedly connected to the bottom in the conveying barrel (102); the inner bottom and the inner top of the conveying barrel (102) are respectively and fixedly connected with a material conveying rod supporting frame (109); a first spiral conveying rod (107) is rotatably connected between the two conveying rod supporting frames (109); a second bevel gear (106) is fixedly connected to the bottom of the first spiral conveying rod (107); the first bevel gear (105) engages the second bevel gear (106).

4. A rainwater collection, utilization and return-infiltration apparatus according to claim 3, characterised in that: the slag separating system comprises a separating box (201), a box door (202), a second bracket (203), a third bracket (204), a first separating plate (205), a second separating plate (206) and a fourth bracket (207); the front part of the upper wall of the separation box (201) is movably connected with a box door (202); a second bracket (203) is fixedly connected to the left rear part of the upper wall of the separation box (201); a third bracket (204) is fixedly connected to the upper part of the left wall of the separation box (201); a first separation plate (205) is fixedly connected to the left part of the inner bottom wall of the separation box (201); a second separating plate (206) is fixedly connected to the right part of the bottom wall in the separating box (201); the right side of the first separating plate (205) is fixedly connected with a second separating plate (206); the left side of the second separating plate (206) is higher than the first separating plate (205); the middle rear side of the upper wall of the separation box (201) is fixedly connected with a conveying barrel (102); the left part of the upper wall of the separation box (201) is fixedly connected with a first bracket (103); the rear bottom of the right wall of the separation box (201) is connected with a spraying system; the upper side of the second bracket (203) is fixedly connected with a feeding pipe (101); the top of the third bracket (204) is fixedly connected with a feeding pipe (101); a fourth bracket (207) is fixedly connected to the lower front part and the lower rear part of the second separating plate (206) respectively; the lower sides of the two fourth brackets (207) are fixedly connected with the separating box (201).

5. A rainwater collection, utilization and back-infiltration device according to claim 4, characterized in that: the organic fertilizer processing system comprises a second motor (301), a second spiral conveying rod (302), a first driving wheel (303), a second driving wheel (304), a first scattering roller (305), a first gear (306), a second gear (307), a second scattering roller (308), an extrusion plate (309), a fifth support (3010), a second filter plate (3011), a conveying guide plate (3012) and a push-pull rod (3013); a second motor (301) is fixedly connected to the rear part of the left side of the machine shell (1); the bottom of the machine shell (1) is rotatably connected with a second spiral conveying rod (302); the output shaft of the second motor (301) is fixedly connected with a second spiral material conveying rod (302); a first driving wheel (303) is fixedly connected to the left part of the outer surface of the second spiral conveying rod (302); a first scattering roller (305) is rotatably connected to the rear side of the left part of the machine shell (1); a second driving wheel (304) is fixedly connected to the left part of the outer surface of the first scattering roller (305); the outer ring surface of the first driving wheel (303) is in transmission connection with a second driving wheel (304) through a belt; a first gear (306) is fixedly connected to the left part of the outer surface of the first scattering roller (305); the front side of the left part of the machine shell (1) is rotationally connected with a second scattering roller (308); a second gear (307) is fixedly connected to the left part of the outer surface of the second scattering roller (308); the first gear (306) engages the second gear (307); the inner front wall of the machine shell (1) is fixedly connected with a squeezing plate (309); a fifth bracket (3010) is fixedly connected between the inner front wall and the inner rear wall of the machine shell (1); the bottom of the fifth bracket (3010) is connected with a second filter plate (3011); a conveying guide plate (3012) is fixedly connected to the bottom in the machine shell (1); the left part of the upper side of the second filter plate (3011) is connected with a push-pull rod (3013); the upper part of the outer surface of the push-pull rod (3013) penetrates through the machine shell (1) and is connected with the machine shell (1) in a sliding way.

6. A rainwater collection, utilization and back-infiltration device according to claim 5, characterised in that: the pressing plate (309) is provided with a groove matched with the first scattering roller (305) and the second scattering roller (308).

7. A rainwater collection, utilization and back-infiltration device according to claim 5, characterised in that: the bottom of the fifth support (3010) is provided with a hollow groove, so that the second filter plate (3011) can slide on the bottom of the fifth support (3010).

8. A rainwater collection, utilization and back-infiltration device according to claim 7, characterized in that: the spraying system comprises a first water pump (401), a first water guide pipe (402), a second water guide pipe (403), a third water guide pipe (404), a first water faucet (405), an H-shaped water guide pipe (406), a supporting plate (407) and a spray head (408); a third water guide pipe (404) is communicated with the left part of the front end of the machine shell (1); the bottom of the third water guide pipe (404) is communicated with a second water guide pipe (403); the lower end of the second water guide pipe (403) is connected with a first water pump (401); the right side of the outer surface of the second water guide pipe (403) is connected with a purification system; the left end of the first water pump (401) is fixedly connected with a first water guide pipe (402); the left part of the outer surface of the first water guide pipe (402) is fixedly connected with a separation box (201); the left side of the top of the third water guide pipe (404) is in threaded connection with a first water faucet (405); the front side and the rear side of the top in the machine shell (1) are respectively fixedly connected with a supporting plate (407); an H-shaped water guide pipe (406) is fixedly connected between the upper ends of the two supporting plates (407); the rear part of the left side of the H-shaped water guide pipe (406) is fixedly connected with a third water guide pipe (404); three spray heads (408) are equidistantly connected with the two supporting plates (407); the front part and the rear part of the lower end of the H-shaped water guide pipe (406) are both connected with three spray heads (408).

9. A rainwater collection, utilization and return-infiltration apparatus according to claim 8, characterised in that: the purification system comprises a purification box (501), a third filter plate (502), a fourth water guide pipe (503), a first purifier (504), a fifth water guide pipe (505), a second purifier (506), a sixth water guide pipe (507), an eighth water guide pipe (508), a valve (509), a second water pump (5010), a ninth water guide pipe (5011), a second water tap (5012), a first cabin door (5013) and a second cabin door (5014); the lower end of the shell (1) is fixedly connected with a purifying box (501); a ninth water guide pipe (5011) is communicated with the right part of the front end of the machine shell (1); a third filter plate (502) is fixedly connected to the left side of the inner wall of the purification box (501); a fourth water guide pipe (503) is communicated with the left side of the inner wall of the purification box (501), and the fourth water guide pipe (503) is positioned above the third filter plate (502); a first purifier (504) is fixedly connected to the rear side of the bottom in the purifying box (501); a second purifier (506) is fixedly connected to the front side of the bottom in the purifying box (501); the right end of the fourth water guide pipe (503) is connected with a first purifier (504); the right end of the first purifier (504) is connected with a fifth water guide pipe (505); the front part of the fifth water guide pipe (505) is connected with a second purifier (506); the inner front wall of the purification box (501) is connected with a sixth water guide pipe (507); the middle part of the left end of the second purifier (506) is connected with a sixth water guide pipe (507); an eighth water guide pipe (508) is fixedly connected to the front bottom of the right end of the purification box (501); a valve (509) is fixedly connected to the right end of the eighth water guide pipe (508); the front end of the eighth water guide pipe (508) is fixedly connected with a second water pump (5010); the upper end of the second water pump (5010) is communicated with a ninth water guide pipe (5011); the bottom of the left side of the front end of the purifying box (501) is movably connected with a first cabin door (5013); the middle part of the front end of the purifying box (501) is movably connected with a second cabin door (5014).

10. A rainwater collection, utilization and return infiltration apparatus according to claim 9, further comprising: a second faucet (5012) is also included; the upper end of the ninth water guide pipe (5011) is in threaded connection with a second water tap (5012) for sampling water.

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