CN116606045A - Rainwater recycling system and method suitable for landscape architecture - Google Patents

Abstract

The invention relates to the technical field of rainwater recovery treatment methods, in particular to a rainwater recovery treatment system and a rainwater recovery treatment method suitable for a landscape. According to the invention, rainwater is collected, impurities are smashed and discharged based on the sewage recovery unit, the aeration treatment unit performs aeration impurity removal treatment to achieve the aeration function of sediment, the impurities are filtered and recovered, the filter pressing unit is matched with the multi-layer filter membrane structure based on the pressing principle to achieve further filtering effect, the medicine distillation unit is used for carrying out medicine application treatment on the water body, distillation work is carried out after the treatment is completed, the final treatment effect of the water body is achieved, the full-automatic treatment means is adopted, the perfect treatment effect of rainwater falling on the ground due to the atmospheric transportation in the garden range is achieved, and the situation that impurities and dirt in the water body remain to pollute the water environment is avoided.

Description

Rainwater recycling system and method suitable for landscape architecture

Technical Field

The invention relates to the technical field of rainwater recovery processing methods, in particular to a rainwater recovery processing system and method suitable for a landscape architecture.

Background

The rainwater recovery treatment method is a professional recovery method for rainwater which flows back to the ground along with the rainwater effect of the atmospheric operation, and aims to achieve the full recovery and utilization functions of the rainwater based on a water treatment means, avoid the occurrence of fresh water resource waste and further achieve the effect of environmental protection and treatment.

In the practical implementation process of the rainwater recovery processing method, as the conventional rainwater recovery processing method is generally based on the principle that a rainwater collection tower is built for filtering and recovery, water falling on the ground can only circulate along with groundwater, environmental pollution is caused, and in the garden range, dead leaves, broken sand and the like are often entrained in the ground for drainage, so that the water body processing is hindered, and improvement is needed.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a rainwater recycling system and method suitable for a landscape architecture.

In order to achieve the above purpose, the present invention adopts the following technical scheme: a rainwater recovery treatment system suitable for a landscape consists of a sewage recovery unit, an aeration treatment unit, a filter pressing unit and a dosing distillation unit;

The sewage recovery units are communicated with each other, the tail ends of the sewage recovery units are connected with the aeration treatment units, and the sewage recovery units are used for recovering and treating impurity water bodies containing fallen leaves, weeds and the like in gardens;

the output end of the aeration treatment unit is communicated with the input end of the filter pressing unit, and the aeration treatment unit is used for executing aeration impurity removal treatment, achieving the aeration treatment function of sediment, and filtering and recycling impurities;

the output end of the filter pressing unit is communicated with the input end of the drug administration distillation unit, and the filter pressing unit is matched with the multi-layer filter membrane structure specifically based on the pressing principle so as to achieve a further filtering effect;

the dosing distillation unit is used for carrying out dosing treatment on the water body, and distillation work is carried out after the treatment is completed, so that the final treatment effect on the water body is achieved, and impurities and dirt in the water body are ensured to be sufficiently filtered.

As a further scheme of the invention, the sewer recovery unit comprises a three-way pipe, the top end of the three-way pipe is provided with a sewer well body, the inner side of the wellhead position of the sewer well body is provided with a wire netting, the inner side of the wellhead position of the sewer well body is provided with a well cover, the upper surface of the well cover is provided with through grooves at equal intervals, the inner side of the three-way pipe is provided with a breaking mechanism at equal intervals, the breaking mechanism comprises a conical pipe, the conical pipe is fixedly arranged at the inner side of the upper end of the three-way pipe, the inner side of the conical pipe is provided with a miniature motor, the output end of the miniature motor is provided with a cutter disc, the two ends of the bottom of the three-way pipe are respectively provided with a flexible rubber tube, and the three-way pipe is connected with the through a hoop, a bent pipe, a tee pipe and a water through straight pipe.

As a further scheme of the invention, the aeration treatment unit comprises a reservoir, a first gear pump and a second gear pump are respectively arranged at the front end and the rear end of the reservoir, the input end of the first gear pump is communicated with a three-way pipe through a water pipe, a blower is fixedly arranged on the side surface of the reservoir, an air supply pipe is arranged at the output end of the blower, an anti-overflow valve is arranged at the bottom end of the air supply pipe, a shunt pipe is arranged at the output end of the anti-overflow valve, the shunt pipe penetrates through the inner side of the reservoir and is fixedly connected with the reservoir, an aeration interface is arranged on the outer surface of the shunt pipe at equal intervals, a water body monitor is arranged at the inner side of the reservoir near one end of the second gear pump, electric sliding rails are respectively arranged at the two sides of the top end of the reservoir, a travel frame is connected with inner side transmission of the electric sliding rails, an electric driving shaft is connected with the inner side transmission of the travel frame, an impeller group is arranged on the outer surface of the electric driving shaft, the impeller group consists of a plurality of groups of water guide impeller wheels, a driving motor is arranged at the two sides of the travel frame, a water filtering frame is arranged at the output end of the driving motor, a water filtering frame is rotatably connected with the inner side of the water filtering frame, the water filtering frame is fixedly connected with the inner side of the travel frame, the water collecting frame is arranged at the water filtering frame is fixedly connected with the bottom of the water collecting frame, and the water collecting frame is arranged at the bottom of the water collecting frame is in a water collecting frame, and the water collecting frame is attached with the water collecting frame.

As a further scheme of the invention, the filter pressing unit comprises an upper supporting seat and a lower supporting seat, an upper tee joint and a lower tee joint are respectively and fixedly arranged on the surfaces of the upper supporting seat and the lower supporting seat, a drainage pump is arranged at one end of the upper tee joint, the input end of the drainage pump is communicated with the output end of a second gear pump through a water through pipe, a booster pump is arranged at the other end of the upper tee joint, a drainage valve is arranged at one end of the lower tee joint, an exhaust elbow pipe is arranged at the other end of the lower tee joint, an exhaust valve is arranged at the top end of the exhaust elbow pipe, a filter membrane component is arranged between the upper tee joint and the lower tee joint, the filter membrane component comprises a water through barrel, an ultrafine filter membrane is arranged at the inner side of the water through barrel, the water through barrel is fixedly connected with the upper tee joint and the lower tee joint through a clamp, a rear casing is arranged at the top of the rear end of the lower supporting seat, a front casing is rotationally connected with one side of the rear casing, a front casing is connected with the rear casing through a buckle, a filter membrane is sleeved on the top of the air bag, an electric control blower is sleeved on the outer surface of the air bag, and the filter membrane component is sleeved on the top of the air bag.

As a further scheme of the invention, the drug delivery distillation unit comprises an upper cylinder body and a lower cylinder body, an outer support is arranged between the upper cylinder body and the lower cylinder body, a top cover is fixedly arranged on the upper surface of the upper cylinder body, a pumping pump and a drug delivery box are arranged on the upper surface of the top cover, the pumping pump is communicated with a drainage valve through a water pipe, a liquid flowmeter is arranged on the surface of the pumping pump, a controller is arranged on the surface of the drug delivery box, the output end of the liquid flowmeter is electrically connected with the input end of the controller, a water joint is arranged at the bottom end of the upper cylinder body, an electric control valve is arranged at the middle section of the water joint, a conducting strip is arranged at the bottom of the inner side of the lower cylinder body, an inner tank body is arranged at the inner side of the lower cylinder body, the inner tank body is connected with the bottom end of the water joint, a water storage cavity is arranged between the inner tank body and the lower cylinder body, ferrite is filled in the inner portion of the water storage cavity, a one-way valve is arranged on the outer surface of the bottom of the water joint, a condensing pipe is arranged at the output end of the one-way valve, and the condensing pipe is arranged in a multi-section bending structure.

A rainwater recycling method suitable for a landscape includes the following steps:

S1: arranging a drainage recovery unit at each drainage position in the garden, and collecting, crushing impurities and uniformly discharging rainwater based on the drainage recovery unit;

s2: the aeration treatment unit performs aeration impurity removal treatment to achieve the function of aeration treatment on the sediment, and filters and recovers impurities;

s3: the filter pressing unit is matched with the multi-layer filter membrane structure based on a pressing principle, so that a further filtering effect is achieved;

s4: the medicine distillation unit is used for carrying out medicine application treatment on the water body, and distillation work is carried out after the treatment is completed, so that the final treatment effect on the water body is achieved.

As a further scheme of the present invention, in S1, the steps of collecting, breaking up impurities and uniformly discharging rainwater based on the sewage recovery unit specifically include:

s101: rainwater flows are collected, enter the inner side of the sewer well body through the through groove of the well cover, block large particles based on the wire gauze, and enter the upper end of the three-way pipe along the sewer well body;

s102: the conical pipe is used for further gathering water flow, so that the water body can be fully contacted with the cutterhead;

s103: the cutter head is driven to rotate through the operation of the micro motor, so that particles in water flow are broken, the occurrence of blockage of the three-way pipe is avoided, and the smoothness of water body circulation is ensured;

S104: the three-way pipes are connected through the anchor ear, the bent pipe, the pipeline tee joint and the water-through straight pipe, so that a pipeline circulation structure is constructed, rainwater at multiple positions is collected, and the rainwater is discharged at the unified position.

As a further scheme of the present invention, in S2, the aeration treatment unit performs aeration impurity removal treatment to achieve an aeration treatment function for the precipitate, and the steps of filtering and recovering impurities specifically include:

s201: based on the operation of the first gear pump, introducing the three-way pipe to uniformly discharge water body and entering the reservoir;

s202: introducing external air flow into the air supply pipe through the operation of the air blower, discharging micro bubbles through the surface aeration interface of the shunt pipe, and executing aeration treatment, wherein when the air blower stops operating, water flow backflow is avoided based on the anti-overflow valve;

s203: the electric sliding rail is used for adjusting the position of the travel frame, the impeller set is driven to rotate based on the operation of the electric driving shaft in the process, and the drainage effect is achieved based on a plurality of groups of water guide impellers, so that impurities floating on the surface of the water body due to aeration treatment are collected through the water filtering frame;

s204: the water filtering frame is driven to turn over based on the operation of the driving motor, the vibration motor is started, so that dirt can be perfectly guided into the collecting frame, and the dirt can be discharged from the sewage hose based on the operation of the turbine pump;

S205: the operation based on the second gear pump carries out water body emission work, and the emission in-process, based on the operation of water body monitor, detects whether water body impurity index accords with the demand, if do not accord with, then the reverse operation of second gear pump, and the water backward flow is inside the cistern.

As a further scheme of the present invention, in S3, the step of matching the filter pressing unit with the multi-layer filter membrane structure based on the pressing principle to achieve the further filtering effect specifically includes:

s301: the drainage pump operates to guide the second gear pump to drain water into the upper tee;

s302: pressurizing the inside of the upper tee joint based on the operation of the booster pump, so that the water body is further filtered through a plurality of groups of ultrafine filter membranes;

s303: the water body and the gas reach the position of the lower tee joint, the water body is discharged based on a discharge valve, and the internal pressure is released based on an exhaust valve;

s304: under the conventional state, based on the inflation of gasbag cover, fully wrap up the water-through barrel, avoid the water to spill, when needs clean superfine filter membrane, based on automatically controlled fan's function, derive gasbag cover inside gas for gasbag cover shrink, personnel rotate the front shroud and expand to the top rolling gasbag cover, take off the staple bolt, can tear down the water-through barrel, clean the work to superfine filter membrane.

As a further scheme of the present invention, in S4, the chemical distillation unit is configured to perform chemical application treatment on a water body, and perform distillation after the treatment is completed, so as to achieve a final treatment effect on the water body, where the steps specifically include:

s401: the water is introduced into the upper cylinder body through the operation of the pumping pump, and the water inflow is recorded and transmitted to the controller based on the operation of the liquid flowmeter in the process;

s402: the controller calculates the dosage based on the water inflow, and sends the water treatment agent based on the dosage into the upper cylinder through the dosing tank to wait for the water treatment agent to react with the water body;

s403: opening an electric control valve, allowing the reacted water body to enter the inner tank body through a water through joint, and performing heat treatment on the inner tank body based on the combination of the operation of the conductive sheet and ferrite filled in the water storage cavity;

s404: after the water body is heated to reach the boiling point, steam is generated, enters the inside of the condensing tube through the one-way valve, and is finally discharged through cooling of the condensing tube.

Compared with the prior art, the invention has the advantages and positive effects that:

according to the invention, rainwater is collected, impurities are smashed and uniformly discharged based on the sewage recovery unit, the aeration treatment unit performs aeration impurity removal treatment to achieve an aeration treatment function of sediment, the impurities are filtered and recovered, the filter pressing unit is matched with the multi-layer filter membrane structure based on a pressing principle to achieve a further filtering effect, the medicine distillation unit is used for carrying out medicine application treatment on the water body, distillation work is carried out after the treatment is completed to achieve a final treatment effect on the water body, a full-automatic treatment means is adopted to achieve a perfect treatment effect on rainwater falling on the ground due to atmospheric operation in a garden range, and the situations of impurity and dirt residues in the water body and pollution to the water environment are avoided.

Drawings

Fig. 1 is a flow chart of a main system of a rainwater recycling system and a method suitable for a landscape architecture according to the present invention;

fig. 2 is a schematic diagram of a sewage recovery unit structure of a rainwater recovery processing system and method suitable for a landscape architecture according to the present invention;

fig. 3 is a schematic diagram showing an explosion structure of a sewage recovery unit of the rainwater recovery treatment system and method for a landscape architecture according to the present invention;

fig. 4 is a schematic diagram of an aeration treatment unit structure of a rainwater recovery treatment system and method suitable for a landscape architecture according to the present invention;

fig. 5 is a schematic diagram showing an explosion structure of an aeration treatment unit of the rainwater recovery treatment system and method for a landscape architecture according to the present invention;

FIG. 6 is an exploded schematic view of a part of the structure of FIG. 5, showing a system and a method for recycling rainwater suitable for landscape architecture according to the present invention;

FIG. 7 is a schematic diagram showing the structure of a filter pressing unit of the rainwater recycling system and method for landscape architecture according to the present invention;

FIG. 8 is a schematic diagram showing the explosive structure of a filter pressing unit of the rainwater recycling system and method for landscape architecture according to the present invention;

fig. 9 is a schematic diagram of a dosing distillation unit of the system and method for recycling rainwater suitable for landscape architecture according to the present invention;

Fig. 10 is a schematic diagram of an explosive structure of a dosing distillation unit of the present invention, which is suitable for a rainwater recycling system and method for a landscape architecture.

In the figure: 1. a sewage recovery unit; 101. a three-way pipe; 102. a water-down well body; 103. a wire netting; 104. a well cover; 105. a conical tube; 106. a micro motor; 107. a cutterhead; 108. a soft rubber tube;

2. an aeration treatment unit; 201. a reservoir; 202. a first gear pump; 203. a second gear pump; 204. a blower; 205. an air supply pipe; 206. an anti-overflow valve; 207. a shunt; 208. an aeration interface; 209. a water body monitor; 210. an electric slide rail; 211. a travel frame; 212. an electric drive shaft; 213. an impeller set; 214. a driving motor; 215. a water filtering frame; 216. a vibration motor; 217. a collection frame; 218. a sewage hose;

3. a filter pressing unit; 301. an upper support base; 302. a lower support base; 303. a tee joint is arranged; 304. a drainage pump; 305. a booster pump; 306. a lower tee joint; 307. a drain valve; 308. an exhaust elbow; 309. an exhaust valve; 310. a water-through cylinder; 311. an ultrafine filter membrane; 312. a rear case; 313. an air bag sleeve; 314. an electric control fan; 315. a front cover shell;

4. a drug administration distillation unit; 401. an upper cylinder; 402. a lower cylinder; 403. an outer bracket; 404. a top cover; 405. a pumping pump; 406. a liquid flow meter; 407. a drug delivery box; 408. a controller; 409. a water-through joint; 410. an electric control valve; 411. a conductive sheet; 412. an inner tank; 413. a one-way valve; 414. and a condensing tube.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

In the description of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention. Furthermore, in the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1, the present invention provides a technical solution: the rainwater recovery treatment system suitable for the landscape consists of a sewage recovery unit 1, an aeration treatment unit 2, a filter pressing unit 3 and a dosing distillation unit 4;

The sewage recovery units 1 are communicated with each other, the tail ends of the sewage recovery units 1 are connected with the aeration treatment units 2, and the sewage recovery units 1 are used for recovering and treating impurity water bodies containing fallen leaves, weeds and the like in gardens;

the output end of the aeration treatment unit 2 is communicated with the input end of the filter pressing unit 3, the aeration treatment unit 2 is used for executing aeration impurity removal treatment, achieving the aeration treatment function of sediment, and filtering and recycling impurities;

the output end of the filter pressing unit 3 is communicated with the input end of the drug administration distillation unit 4, and the filter pressing unit 3 is matched with a multi-layer filter membrane structure specifically based on a pressing principle so as to achieve a further filtering effect;

the dosing distillation unit 4 is used for carrying out dosing treatment on the water body, and distillation work is carried out after the treatment is completed, so that the final treatment effect on the water body is achieved, and impurities and dirt in the water body are ensured to be sufficiently filtered.

The sewage recovery unit 1, the aeration treatment unit 2, the filter pressing unit 3 and the dosing distillation unit 4 are matched to realize the perfect treatment effect on rainwater falling on the ground due to the atmospheric operation in the garden range by a full-automatic treatment means, so that the situation of pollution to the water environment caused by impurities and dirt residues in the water body is avoided.

Referring to fig. 2 to 3, the sewage recovery unit 1 includes a three-way pipe 101, a sewer well body 102 is installed at the top end of the three-way pipe 101, a wire mesh 103 is installed at the inner side of a wellhead position of the sewer well body 102, a well cover 104 is provided at the inner side of the wellhead position of the sewer well body 102, through grooves are equidistantly formed in the upper surface of the well cover 104, a breaking mechanism is equidistantly installed at the inner side of the three-way pipe 101, the breaking mechanism includes a conical pipe 105, the conical pipe 105 is fixedly installed at the inner side of the upper end of the three-way pipe 101, a micro motor 106 is installed at the inner side of the conical pipe 105, a cutter disc 107 is installed at the output end of the micro motor 106, flexible rubber pipes 108 are installed at two ends of the bottom of the three-way pipe 101, and the three-way pipe 101 are connected through a hoop, a bent pipe, a pipeline tee joint and a water pipe.

Rainwater water flow gathers, get into the lower water well body 102 inboard through the logical groove of well lid 104, based on the large granule thing of wire netting 103 separation, and get into three-way pipe 101 upper end along lower water well body 102, further gathering work with conical tube 105 carries out rivers, make the water can fully contact with blade disc 107, it is rotatory to drive blade disc 107 through the operation of micro motor 106, smash the granule thing in the rivers, avoid three-way pipe 101 to block up the condition and take place, ensure the smoothness of water circulation, be connected through staple bolt between the three-way pipe 101, the return bend, the pipeline tee bend, lead to the water straight tube, construct pipeline circulation structure, collect the multiposition rainwater, the unified position is discharged.

Referring to fig. 4 to 6, the aeration treatment unit 2 includes a water reservoir 201, a first gear pump 202 and a second gear pump 203 are respectively installed at front and rear ends of the water reservoir 201, an input end of the first gear pump 202 is communicated with a three-way pipe 101 through a water pipe, a blower 204 is fixedly installed on a side surface of the water reservoir 201, an air supply pipe 205 is installed at an output end of the blower 204, an anti-overflow valve 206 is installed at a bottom end of the air supply pipe 205, a shunt pipe 207 is installed at an output end of the anti-overflow valve 206, the shunt pipe 207 penetrates through an inner side of the water reservoir 201 and is fixedly connected with the water reservoir 201, an aeration interface 208 is installed on an outer surface of the shunt pipe 207 at equal intervals, a water body monitor 209 is installed at one end of an inner side of the water reservoir 201 near the second gear pump 203, electric slide rails 210 are installed at both sides of a top end of the water reservoir 201, a stroke frame 211 is connected to an inner side of the electric slide rails 210 through transmission, the inside transmission of stroke frame 211 is connected with electric drive shaft 212, the surface of electric drive shaft 212 is equipped with impeller group 213, impeller group 213 comprises multiunit water guide impeller, driving motor 214 is all equipped with to the both sides of stroke frame 211, the drainage frame 215 is equipped with to driving motor 214's output, drainage frame 215 rotates the inboard of connecting at stroke frame 211, the front end bottom of stroke frame 211 is equipped with branch, the bottom of drainage frame 215 is laminated with the upper surface of branch, vibrating motor 216 is equipped with to the inboard of drainage frame 215, collection frame 217 is equipped with to the inboard of stroke frame 211, collection frame 217's inboard sets up to the inclined plane structure, collection frame 217 is laminated with drainage frame 215, the rear end of collection frame 217 is equipped with blowdown hose 218, the blowdown hose 218 end can assemble the turbine pump and derive the dirt.

Based on the operation of the first gear pump 202, the unified water body discharged by the three-way pipe 101 is introduced into the reservoir 201, the external air flow is introduced into the air supply pipe 205 through the operation of the air blower 204, the micro-bubbles are discharged through the surface aeration interface 208 of the shunt pipe 207, aeration treatment is performed, when the air blower 204 stops operating, the water flow is prevented from flowing backwards based on the anti-overflow valve 206, the operation of the electric slide rail 210 is performed, the position of the travel frame 211 is regulated, the impeller group 213 is driven to rotate in the process based on the operation of the electric drive shaft 212, the drainage effect is achieved based on the plurality of groups of water guide impellers, impurities floating on the surface of the water body due to aeration treatment are collected through the water filtering frame 215, the operation of the driving motor 214 is driven to overturn the water filtering frame 215, the vibration motor 216 is started, the dirt can be perfectly introduced into the collecting frame 217, the dirt is discharged from the inside of the sewage hose 218 based on the operation of the turbine pump, in the discharging process, if the water body impurity index does not meet the requirements is detected based on the operation of the water body monitor 209 in the discharging process, the second gear pump 203 is reversely operated, and the water body is refluxed into the reservoir 201.

Referring to fig. 7 to 8, the filter pressing unit 3 includes an upper support base 301 and a lower support base 302, an upper tee 303 and a lower tee 306 are fixedly installed on the surfaces of the upper support base 301 and the lower support base 302, a drainage pump 304 is installed at one end of the upper tee 303, an input end of the drainage pump 304 is communicated with an output end of the second gear pump 203 through a water pipe, a booster pump 305 is installed at the other end of the upper tee 303, a drainage valve 307 is installed at one end of the lower tee 306, an exhaust elbow 308 is installed at the other end of the lower tee 306, an exhaust valve 309 is installed at the top end of the exhaust elbow 308, a filtering membrane component is arranged between the upper tee 303 and the lower tee 306, the filtering membrane component includes a water pipe 310, the inside of the water through cylinder 310 is provided with an ultrafine filter film 311, the water through cylinder 310 is fixedly connected through a clamp, wherein two groups of water through cylinders 310 are respectively fixedly connected with an upper tee joint 303 and a lower tee joint 306 through a clamp, the rear end top of a lower supporting seat 302 is provided with a rear casing 312, one side of the front end of the rear casing 312 is rotationally connected with a front casing 315, the front casing 315 is connected with the rear casing 312 through a clamp, the rear casing 312 and the front casing 315 are sleeved on the outer surface of the filter film component, the top of the inner side of the rear casing 312 is provided with an air bag sleeve 313, the input end of the air bag sleeve 313 is provided with an electric control fan 314, the electric control fan 314 is fixedly arranged at the top end of the rear casing 312, and the air bag sleeve 313 is sleeved on the outer surface of the filter film component.

The drainage pump 304 operates to guide the second gear pump 203 to discharge water into the upper tee 303, the operation of the booster pump 305 is used for applying pressure to the inside of the upper tee 303, the water is further filtered through a plurality of groups of ultrafine filter films 311, the water and gas reach the position of the lower tee 306, the water is discharged based on the drainage valve 307, the internal pressure is released based on the exhaust valve 309, under the conventional state, the water through cylinder 310 is fully wrapped based on the inflation expansion of the airbag cover 313, the water is prevented from leaking, when the ultrafine filter films 311 need to be cleaned, the gas in the airbag cover 313 is guided out based on the operation of the electric control fan 314, the airbag cover 313 is contracted, the personnel rotates and expands the front sleeve 315, the airbag cover 313 is wound up upwards, the anchor ear is taken down, and the water through cylinder 310 can be detached for cleaning the ultrafine filter films 311.

Referring to fig. 9 to 10, the drug delivery distillation unit 4 includes an upper cylinder 401 and a lower cylinder 402, an outer bracket 403 is installed between the upper cylinder 401 and the lower cylinder 402, a top cover 404 is fixedly installed on the upper surface of the upper cylinder 401, a pumping pump 405 and a drug delivery tank 407 are installed on the upper surface of the top cover 404, the pumping pump 405 is communicated with a drain valve 307 through a water pipe, a liquid flowmeter 406 is installed on the surface of the pumping pump 405, a controller 408 is installed on the surface of the drug delivery tank 407, an output end of the liquid flowmeter 406 is electrically connected with an input end of the controller 408, a water pipe joint 409 is installed at the bottom end of the upper cylinder 401, an electric control valve 410 is installed at the middle section position of the water pipe joint 409, a conductive sheet 411 is installed at the bottom of the inner side of the lower cylinder 402, an inner tank 412 is installed at the inner side of the lower cylinder 402, the inner tank 412 is connected with the bottom end of the water pipe joint 409, a water storage cavity is arranged between the inner tank 412 and the lower cylinder 402, ferrite is filled in the inner part of the water storage cavity, a one-way valve 413 is installed on the bottom outer surface of the water pipe joint 409, a condenser pipe 413 is installed at the output end of the one-way valve 413, and the condenser pipe 414 is set in a multi-section structure.

The water is introduced into the upper cylinder 401 through the operation of the pumping pump 405, and in the process, the water inflow is recorded based on the operation of the liquid flowmeter 406 and transmitted to the controller 408, the controller 408 calculates the dosage based on the water inflow, and the water treatment agent based on the dosage is sent into the upper cylinder 401 through the dosing tank 407, waiting for the water to react with the water, opening the electric control valve 410, the water after the reaction enters the inner tank 412 through the water inlet connector 409, the heat treatment is performed on the inner tank 412 based on the combination of the operation of the conductive sheet 411 and the ferrite filled in the water storage cavity, after the water is heated to reach the boiling point, water vapor is generated, enters the inside of the condensation pipe 414 through the one-way valve 413, and finally is discharged through the cooling of the condensation pipe 414.

Referring to fig. 1, a rainwater recycling method suitable for a landscape architecture includes the following steps:

s1: the method comprises the steps that a drainage recovery unit 1 is arranged at each drainage position in gardens, and rainwater is collected, impurities are smashed and uniformly discharged based on the drainage recovery unit 1;

s2: the aeration treatment unit 2 performs aeration impurity removal treatment to achieve the function of aeration treatment on the sediment, and filters and recovers impurities;

s3: the filter pressing unit 3 is matched with the multi-layer filter membrane structure based on a pressing principle, so that a further filtering effect is achieved;

S4: the medicine distillation unit is used for carrying out medicine application treatment on the water body, and distillation work is carried out after the treatment is completed, so that the final treatment effect on the water body is achieved.

Referring to fig. 2 to 3, in S1, the steps of collecting, breaking up impurities and uniformly discharging rainwater based on the sewage recovery unit 1 are specifically as follows:

s101: rainwater flows are collected, enter the inner side of the lower water well body 102 through the through groove of the well cover 104, block large particles based on the wire gauze 103 and enter the upper end of the three-way pipe 101 along the lower water well body 102;

s102: further gathering of the water flow is performed by the conical tube 105, so that the water body can be fully contacted with the cutterhead 107;

s103: the cutter head 107 is driven to rotate through the operation of the micro motor 106 to break up particles in water flow, so that the blockage of the three-way pipe 101 is avoided, and the smoothness of water flow is ensured;

s104: the three-way pipe 101 is connected with each other through a hoop, a bent pipe, a pipeline tee joint and a water-through straight pipe, so that a pipeline circulation structure is constructed, rainwater at multiple positions is collected, and the rainwater is discharged at the unified position.

Referring to fig. 4 to 6, in S2, the aeration treatment unit 2 performs aeration impurity removal treatment to achieve an aeration treatment function for the precipitate, and the steps of filtering and recovering impurities specifically include:

S201: based on the operation of the first gear pump 202, the water body uniformly discharged by the three-way pipe 101 is introduced and enters the reservoir 201;

s202: external air flow is introduced into the air supply pipe 205 through the operation of the blower 204, micro bubbles are discharged through the surface aeration interface 208 of the shunt pipe 207, aeration treatment is performed, and when the blower 204 stops operating, water flow is prevented from flowing backwards based on the anti-overflow valve 206;

s203: the electric sliding rail 210 is used for adjusting the position of the travel frame 211 and driving the impeller group 213 to rotate based on the operation of the electric driving shaft 212 in the process, so as to achieve the drainage effect based on a plurality of groups of water guide impellers, and the impurities floating on the surface of the water body due to aeration treatment are collected through the water filtering frame 215;

s204: the water filtering frame 215 is driven to turn over based on the operation of the driving motor 214, the vibrating motor 216 is started, so that dirt can be perfectly guided into the collecting frame 217 and discharged from the sewage hose 218 based on the operation of the turbine pump;

s205: the water body discharging work is performed based on the operation of the second gear pump 203, and in the discharging process, based on the operation of the water body monitor 209, whether the water body impurity index meets the requirement or not is detected, if not, the second gear pump 203 is operated reversely, and the water body flows back to the inside of the reservoir 201.

Referring to fig. 7 to 8, in S3, the filter pressing unit 3 cooperates with the multi-layer filter membrane structure based on the pressing principle, and the steps for achieving the further filtering effect are specifically as follows:

s301: the drainage pump 304 operates to guide the second gear pump 203 to drain the water into the upper tee 303;

s302: pressurizing the inside of the upper tee 303 based on the operation of the booster pump 305, so that the water body is further filtered through a plurality of groups of ultrafine filter films 311;

s303: the water and gas reach the position of the lower tee 306, the water is discharged based on the discharge valve 307, and the internal pressure is released based on the discharge valve 309;

s304: under the conventional state, based on the inflation of the airbag cover 313, the water-through cylinder 310 is fully wrapped, water leakage is avoided, when the ultra-fine filter membrane 311 needs to be cleaned, based on the operation of the electric control fan 314, the gas inside the airbag cover 313 is led out, the airbag cover 313 is contracted, personnel rotate and expand the front sleeve shell 315, the airbag cover 313 is wound upwards, the hoop is taken down, and the water-through cylinder 310 can be detached to clean the ultra-fine filter membrane 311.

Referring to fig. 9 to 10, in S4, the medicine distillation unit is configured to perform a medicine application treatment on a water body, and perform a distillation operation after the treatment is completed, so as to achieve a final treatment effect on the water body, specifically, the steps of:

S401: the water is introduced into the upper cylinder 401 through the operation of the pumping pump 405, and during the process, the water inflow is recorded based on the operation of the liquid flowmeter 406 and transmitted to the controller 408;

s402: the controller 408 calculates the dosage based on the water inflow amount, and sends the water treatment agent based on the dosage into the upper cylinder 401 through the dosing tank 407, waiting for the water treatment agent to react with the water body;

s403: opening an electric control valve 410, allowing the reacted water body to enter an inner tank 412 through a water through joint 409, and performing heat treatment on the inner tank 412 based on the combination of the operation of a conductive sheet 411 and ferrite filled in the water storage cavity;

s404: after the water body is heated to reach the boiling point, steam is generated, enters the condensation pipe 414 through the one-way valve 413, and is cooled by the condensation pipe 414 for final discharge.

Working principle: the sewer recovery units 1 are arranged at each drainage position in gardens, rainwater is collected, impurities are smashed and uniformly discharged based on the sewer recovery units 1 (rainwater flows are collected, enter the inner side of a sewer well body 102 through a through groove of a well cover 104, large particles are blocked based on a wire mesh 103 and enter the upper end of a three-way pipe 101 along the sewer well body 102, the water flows are further collected by a conical pipe 105, so that the water body can be fully contacted with a cutter disc 107, the cutter disc 107 is driven to rotate through the operation of a micro motor 106, particles in the water flow are smashed, the occurrence of blockage of the three-way pipe 101 is avoided, the smoothness of water body circulation is ensured, the three-way pipes 101 are connected through a hoop, a bent pipe, a pipeline tee joint and a water through straight pipe, a pipeline circulation structure is constructed, and rainwater at multiple positions is collected and uniformly discharged); the aeration treatment unit 2 performs aeration impurity removal treatment to achieve the aeration treatment function of sediment, and filters and recovers impurities (based on the operation of the first gear pump 202, water is uniformly discharged by introducing the three-way pipe 101, the water enters the reservoir 201, external air flow is introduced into the air supply pipe 205 through the operation of the air blower 204, micro bubbles are discharged through the surface aeration interface 208 of the shunt pipe 207, aeration treatment is performed, when the air blower 204 stops operating, water flow is prevented from flowing backwards based on the anti-overflow valve 206, the operation of the electric slide rail 210 is performed, the position of the travel frame 211 is regulated, the impeller group 213 is driven to rotate in the process based on the operation of the electric drive shaft 212, the drainage effect is achieved based on the multiple groups of water guide impellers, impurities floating on the surface of the water are collected through the water filtering frame 215, the operation of the driving motor 214 is driven to overturn the water filtering frame 215, the vibrating motor 216 is started, the impurities can be perfectly introduced into the inside the collecting frame 217, the water is discharged from the inside the sewage discharging hose 218 based on the operation of the turbine pump, the operation of the second gear pump 203 is performed, in the discharging process, whether the water is in accordance with the water body monitoring operation 209 and if the water body does not meet the water requirement index, and the water flowing backwards is detected in the water tank 201 is reversed; the filter pressing unit 3 is matched with a multi-layer filter membrane structure based on a pressing principle to achieve a further filtering effect (the drainage pump 304 operates to guide the second gear pump 203 to discharge water into the upper tee 303, the upper tee 303 is pressed based on the operation of the booster pump 305, the water is further filtered through a plurality of groups of ultrafine filter membranes 311, the water and gas reach the position of the lower tee 306, the water is discharged based on the drainage valve 307, the internal pressure is released based on the exhaust valve 309, in a conventional state, the water-through cylinder 310 is fully wrapped based on the air bag sleeve 313 in an inflation manner, the water is prevented from leaking out, when the ultrafine filter membrane 311 needs to be cleaned, the gas in the air bag sleeve 313 is guided out based on the operation of the electric control fan 314, the air bag sleeve 313 is contracted, a person rotates and expands the front sleeve 315, the air bag sleeve 313 is wound up, the water-through cylinder 310 can be detached, and the ultrafine filter membrane 311 is cleaned; the medicine distillation unit is used for carrying out medicine application treatment on the water body, distillation work is carried out after the treatment is completed, the final treatment effect of the water body is achieved (the water body is introduced into the upper cylinder 401 through the operation of the pumping pump 405, and in the process, the water inflow is recorded based on the operation of the liquid flowmeter 406, and is transmitted to the controller 408, the controller 408 calculates the dosage based on the water inflow, the water treatment agent based on the dosage is sent into the upper cylinder 401 through the medicine feeding box 407, the water body is waited for reacting with the water body, the electric control valve 410 is opened, the water body enters the inner tank 412 through the water connection 409 after the reaction, the heat treatment is carried out on the inner tank 412 based on the operation of the conducting strip 411 and the ferrite filled in the water storage cavity, the water body generates water vapor after being heated to reach the boiling point, and enters the inside of the condensation pipe 414 through the one-way valve 413, and is cooled through the condensation pipe 414 for final discharge).

The present invention is not limited to the above embodiments, and any equivalent embodiments which can be changed or modified by the technical disclosure described above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above embodiments according to the technical matter of the present invention will still fall within the scope of the technical disclosure.

Claims (10)

1. Rainwater recovery processing system suitable for landscape, its characterized in that: the rainwater recovery treatment system suitable for the landscape is composed of a sewage recovery unit (1), an aeration treatment unit (2), a filter pressing unit (3) and a dosing distillation unit (4);

the sewage recovery units (1) are communicated, the tail ends of the sewage recovery units (1) are connected with the aeration treatment units (2), and the sewage recovery units (1) are used for recovering and treating impurity water bodies containing fallen leaves, weeds and the like in gardens;

the output end of the aeration treatment unit (2) is communicated with the input end of the filter pressing unit (3), and the aeration treatment unit (2) is used for executing aeration impurity removal treatment, achieving the aeration treatment function of sediment and filtering and recycling impurities;

The output end of the filter pressing unit (3) is communicated with the input end of the drug administration distillation unit (4), and the filter pressing unit (3) is matched with a multi-layer filter membrane structure specifically based on a pressing principle so as to achieve a further filtering effect;

the dosing distillation unit (4) is used for carrying out dosing treatment on the water body, and distillation work is carried out after the treatment is completed, so that the final treatment effect on the water body is achieved, and impurities and dirt in the water body are ensured to be sufficiently filtered.

2. The rainwater recycling system suitable for landscape architecture according to claim 1, wherein: the utility model provides a drainage recovery unit (1) includes three-way pipe (101), lower water well body (102) are equipped with on the top of three-way pipe (101), lower water well body (102) well head position inboard is equipped with wire netting (103), lower water well body (102) well head position inboard is provided with well lid (104), logical groove has been seted up to the upper surface equidistance of well lid (104), smash the inboard equidistance of three-way pipe (101) is installed and is smashed the mechanism, smash the mechanism and include conical tube (105), conical tube (105) fixed mounting is inboard in the upper end of three-way pipe (101), miniature motor (106) are equipped with to the inboard of conical tube (105), cutter disc (107) are equipped with to the output of miniature motor (106), soft rubber tube (108) are all equipped with at the bottom both ends of three-way pipe (101), be connected through staple bolt, return bend, pipeline tee bend, logical water pipe.

3. The rainwater recycling system suitable for landscape architecture according to claim 1, wherein: the aeration treatment unit (2) comprises a water storage tank (201), a first gear pump (202) and a second gear pump (203) are respectively arranged at the front end and the rear end of the water storage tank (201), the input end of the first gear pump (202) is communicated with a three-way pipe (101) through a water pipe, an air blower (204) is fixedly arranged on the side surface of the water storage tank (201), an air supply pipe (205) is arranged at the output end of the air supply pipe (205), an anti-overflow valve (206) is arranged at the bottom end of the air supply pipe (205), a shunt pipe (207) is arranged at the output end of the anti-overflow valve (206), the shunt pipe (207) penetrates through the inner side of the water storage tank (201) and is fixedly connected with the water storage tank (201), an aeration interface (208) is arranged on the outer surface of the shunt pipe (207) at equal intervals, a water body monitor (209) is arranged on the inner side of the water storage tank (201), an electric sliding rail (210) is arranged on two sides of the top end of the water storage tank (201), a stroke frame (211) is connected with an inner side transmission of the electric sliding rail, a plurality of impeller sets (212) are connected with an impeller drive shaft (212), and the impeller sets (213) are arranged on the outer surfaces of impeller sets (213), the utility model discloses a sewage treatment device, including stroke frame (211), collecting frame (217) are equipped with in the both sides of stroke frame (211), water drainage frame (215) are equipped with to the output of driving motor (214), water drainage frame (215) rotate and connect in the inboard of stroke frame (211), branch is equipped with to the front end bottom of stroke frame (211), the bottom of water drainage frame (215) is laminated with the upper surface of branch mutually, vibrating motor (216) are equipped with to the inboard of water drainage frame (215), collecting frame (217) are equipped with to the inboard of stroke frame (211), collecting frame (217) are inboard to set up to the inclined plane structure, collecting frame (217) is laminated mutually with water drainage frame (215), sewage hose (218) are equipped with to the rear end of collecting frame (217), sewage hose (218) end can assemble the turbopump and derive dirt.

4. A rainwater recycling system suitable for use in a landscape architecture according to claim 3, characterised in that: the filter pressing unit (3) comprises an upper supporting seat (301) and a lower supporting seat (302), an upper tee joint (303) and a lower tee joint (306) are respectively and fixedly arranged on the surfaces of the upper supporting seat (301) and the lower supporting seat (302), a drainage pump (304) is arranged at one end of the upper tee joint (303), the input end of the drainage pump (304) is communicated with the output end of a second gear pump (203) through a water pipe, a booster pump (305) is arranged at the other end of the upper tee joint (303), a drainage valve (307) is arranged at one end of the lower tee joint (306), an exhaust elbow (308) is arranged at the other end of the lower tee joint (306), an exhaust valve (309) is arranged at the top end of the exhaust elbow (308), a filtering membrane component is arranged between the upper tee joint (303) and the lower tee joint (306), the filtering membrane component comprises a water through barrel (310), an ultrafine filtering membrane (311) is arranged at the inner side of the water through barrel (310), two groups of the water through barrels (310) are fixedly connected through a clamp, the water through the clamp (310) and are respectively connected with the rear end of the upper tee joint (306) and the rear end of the lower tee joint (306) through the support (312), the novel filter membrane is characterized in that the front casing (315) is connected with the rear casing (312) through a buckle, the rear casing (312) is sleeved on the outer surface of the filter membrane assembly with the front casing (315), an air bag sleeve (313) is arranged at the inner top of the rear casing (312), an electric control fan (314) is arranged at the input end of the air bag sleeve (313), the electric control fan (314) is fixedly arranged at the top end of the rear casing (312), and the air bag sleeve (313) is sleeved on the outer surface of the filter membrane assembly.

5. The rainwater recycling system suitable for landscape architecture according to claim 1, wherein: the drug delivery distillation unit (4) comprises an upper cylinder (401) and a lower cylinder (402), an outer bracket (403) is arranged between the upper cylinder (401) and the lower cylinder (402), a top cover (404) is fixedly arranged on the upper surface of the upper cylinder (401), a pumping pump (405) and a drug delivery box (407) are arranged on the upper surface of the top cover (404), the pumping pump (405) and the drainage valve (307) are communicated through a water pipe, a liquid flowmeter (406) is arranged on the surface of the pumping pump (405), a controller (408) is arranged on the surface of the drug delivery box (407), the output end of the liquid flowmeter (406) is electrically connected with the input end of the controller (408), a water through connector (409) is arranged at the bottom end of the upper cylinder (401), an electric control valve (410) is arranged at the middle section position of the water through connector (409), a conducting sheet (411) is arranged at the bottom of the inner side of the lower cylinder (402), an inner tank (412) is arranged on the inner side of the lower cylinder (402), a water through connector (412) is arranged between the inner tank (412) and the water through connector (409), a water storage cavity (409) is arranged on the inner side of the water through connector (409), the output end of the one-way valve (413) is provided with a condensation pipe (414), and the condensation pipe (414) is of a multi-section bending structure.

6. The rainwater recycling method suitable for the landscape is characterized by comprising the following steps of:

s1: arranging a drainage recovery unit (1) at each drainage position in the garden, and collecting, crushing impurities and uniformly discharging rainwater based on the drainage recovery unit (1);

s2: the aeration treatment unit (2) performs aeration impurity removal treatment to achieve the function of aeration treatment of the sediment and filters and recovers impurities;

s3: the filter pressing unit (3) is matched with the multi-layer filter membrane structure based on a pressing principle, so that a further filtering effect is achieved;

s4: the medicine distillation unit (4) is used for carrying out medicine application treatment on the water body, and distillation work is carried out after the treatment is completed, so that the final treatment effect on the water body is achieved.

7. The rainwater recycling method suitable for landscape architecture according to claim 6, wherein: in the S1, the steps of collecting rainwater, crushing impurities and uniformly discharging the rainwater based on the sewage recovery unit (1) are specifically as follows:

s101: rainwater flows are collected, enter the inner side of a sewer well body (102) through a through groove of a well cover (104), block large particles based on an iron wire net (103), and enter the upper end of a three-way pipe (101) along the sewer well body (102);

S102: the conical pipe (105) is used for further gathering water flow, so that the water body can be fully contacted with the cutterhead (107);

s103: the cutter head (107) is driven to rotate through the operation of the micro motor (106), so that particles in water flow are broken, the occurrence of blockage of the three-way pipe (101) is avoided, and the smoothness of water circulation is ensured;

s104: the three-way pipe (101) is connected with each other through the anchor ear, the bent pipe, the pipeline tee joint and the water-through straight pipe, so as to construct a pipeline circulation structure, collect the rainwater at multiple positions and discharge the rainwater at the unified positions.

8. The rainwater recycling method suitable for landscape architecture according to claim 6, wherein: in the step S2, the aeration treatment unit (2) performs aeration impurity removal treatment to achieve an aeration treatment function for the precipitate, and the steps of filtering and recovering impurities specifically include:

s201: based on the operation of the first gear pump (202), the water body uniformly discharged by the three-way pipe (101) is introduced and enters the reservoir (201);

s202: introducing external air flow into the air supply pipe (205) through the operation of the blower (204), discharging micro bubbles through the surface aeration interface (208) of the shunt pipe (207), performing aeration treatment, and avoiding water flow backflow based on the anti-overflow valve (206) when the blower (204) stops operating;

S203: the position of the travel frame (211) is adjusted through the operation of the electric sliding rail (210), the impeller group (213) is driven to rotate based on the operation of the electric driving shaft (212) in the process, and the drainage effect is achieved based on a plurality of groups of water guide impellers, so that impurities floating on the surface of a water body due to aeration treatment are collected through the water filtering frame (215);

s204: the water filtering frame (215) is driven to turn over based on the operation of the driving motor (214), the vibrating motor (216) is started, so that dirt can be perfectly guided into the collecting frame (217), and is discharged from the sewage hose (218) based on the operation of the turbine pump;

s205: the water body discharging work is carried out based on the operation of the second gear pump (203), and in the discharging process, based on the operation of the water body monitor (209), whether the water body impurity index meets the requirement or not is detected, if not, the second gear pump (203) reversely operates, and the water body flows back to the inside of the reservoir (201).

9. The rainwater recycling method suitable for landscape architecture according to claim 6, wherein: in the step S3, the filter pressing unit (3) is matched with the multi-layer filter membrane structure based on the pressing principle, and the step of achieving the further filtering effect is specifically as follows:

S301: the drainage pump (304) operates to guide the second gear pump (203) to drain water into the upper tee joint (303);

s302: pressurizing the inside of the upper tee joint (303) based on the operation of the booster pump (305), so that the water body is further filtered through a plurality of groups of ultrafine filter films (311);

s303: the water body and the gas reach the position of the lower tee joint (306), the water body is discharged based on a discharge valve (307), and the internal pressure is released based on an exhaust valve (309);

s304: under the conventional state, based on the inflation of the air bag sleeve (313), the water-through cylinder (310) is fully wrapped, water leakage is avoided, when the ultra-fine filter membrane (311) needs to be cleaned, based on the operation of the electric control fan (314), the air inside the air bag sleeve (313) is led out, the air bag sleeve (313) is contracted, a person rotates and expands the front sleeve shell (315), the air bag sleeve (313) is wound upwards, the hoop is taken down, the water-through cylinder (310) can be detached, and cleaning work is carried out on the ultra-fine filter membrane (311).

10. The rainwater recycling method suitable for landscape architecture according to claim 6, wherein: in the step S4, the medicine distillation unit (4) is used for carrying out medicine application treatment on the water body, and distillation work is carried out after the treatment is completed, so that the final treatment effect of the water body is achieved, and the steps are as follows:

S401: the water is introduced into the upper cylinder (401) through the operation of the pumping pump (405), and the water inflow is recorded and transmitted to the controller (408) based on the operation of the liquid flowmeter (406) in the process;

s402: the controller (408) calculates the dosage based on the water inflow, and sends the water treatment agent based on the dosage into the upper cylinder (401) through the dosing tank (407) to wait for the water treatment agent to react with the water body;

s403: opening an electric control valve (410), allowing the reacted water body to enter an inner tank body (412) through a water through joint (409), and performing heat treatment on the inner tank body (412) based on the combination of the operation of a conductive sheet (411) and ferrite filled in the water storage cavity;

s404: after the water body is heated to reach the boiling point, steam is generated, enters the inside of the condensation pipe (414) through the one-way valve (413), and is cooled through the condensation pipe (414) for final discharge.