CN114703930B

CN114703930B - Reclaimed water recycling equipment for multi-storey building and application method of reclaimed water recycling equipment

Info

Publication number: CN114703930B
Application number: CN202210273598.6A
Authority: CN
Inventors: 吴常树
Original assignee: Hangzhou Hangshuo Ancient Architecture And Landscape Co ltd
Current assignee: Hangzhou Hangshuo Ancient Architecture And Landscape Co ltd
Priority date: 2022-03-19
Filing date: 2022-03-19
Publication date: 2023-12-05
Anticipated expiration: 2042-03-19
Also published as: CN114703930A

Abstract

The invention discloses a multi-layer building reclaimed water recycling device and a use method thereof, wherein the device comprises the following steps: the top of the left side of the recycling cavity is communicated with one end of a reclaimed water recycling pipe, the other end of the reclaimed water recycling pipe is connected with drain outlets of a vegetable washing basin, a hand washing basin and a bath basin through a filtering component, and one end of a water level pipe is communicated with the outer side wall of the reclaimed water recycling pipe; further comprises: the water inlet pipe is connected with the bottom of the right side of the recovery cavity in a penetrating way, a guide pipe is arranged between the right side of the top of the recovery cavity and the water storage cavity of the closestool in a penetrating way, and the guide pipe is in an n shape; the positioning frame is positioned in the water storage cavity of the closestool, and the top of the positioning frame is annularly sleeved on the outer wall of the flow guide pipe; and one end of the communicating pipe is connected with the through connection part of the external hose and the sealing soft sleeve in a through mode. The multi-layer building reclaimed water recycling equipment and the application method thereof can effectively recycle building indoor water, reduce the use waste of water resources and maintain the use effectiveness thereof.

Description

Reclaimed water recycling equipment for multi-storey building and application method of reclaimed water recycling equipment

Technical Field

The invention relates to the technical field of reclaimed water recovery, in particular to reclaimed water recovery and reuse equipment for a multi-layer building and a use method thereof.

Background

In a multi-story building, in order to meet the demands of the daily life of the residents, a large amount of water resources are commonly used in the daily life, and the water resources are covered on various aspects of the daily life, such as clothes washing, cooking, washing and the like, and in the daily operation, the water resources are directly discharged into a sewer pipe after being used once, so that a large amount of water resources are wasted, and the development of continuous reuse of the resources is not facilitated.

Therefore, the technical scheme designs reclaimed water recycling equipment, used water in the life of the multi-layer building is independently collected, filtered reclaimed water is temporarily stored through sand and stone after water is used in aspects such as washing, cooking and washing, and the filtered reclaimed water is led into a toilet flushing structure when needed, so that the reclaimed water is recycled, and the water resource consumption of toilet flushing caused by the fact that people flow in the multi-layer building is greatly reduced.

Aiming at the problems, innovative design is urgently needed on the basis of the original multi-layer building drainage equipment.

Disclosure of Invention

The invention aims to provide a multi-layer building reclaimed water recycling device and a using method thereof, which are used for solving the problems that the prior multi-layer building drainage device is provided in the prior art, and a large amount of water resources are wasted due to direct drainage into a sewer pipe after one-time use in daily operation, and the continuous recycling development of the resources is not facilitated.

In order to achieve the above purpose, the present invention provides the following technical solutions: a multi-storey building reclaimed water recycling device and a use method thereof comprise the following steps:

the top of the left side of the recycling cavity is communicated with one end of a reclaimed water recycling pipe, the other end of the reclaimed water recycling pipe is connected with a drain outlet of a vegetable washing basin, a hand washing basin and a bath basin through a filtering component, one end of a water level pipe is communicated with the outer side wall of the reclaimed water recycling pipe, and the other end of the water level pipe is connected with a sewer pipe;

further comprises:

the water inlet pipe is connected to the bottom of the right side of the recovery cavity in a penetrating way, a flow guide pipe is installed between the right side of the top of the recovery cavity and the water storage cavity of the toilet in a penetrating way, the flow guide pipe is in an n shape, one end of the flow guide pipe, which is positioned in the recovery cavity, is positioned below the lowest water level in the recovery cavity, and the tail end of the flow guide pipe, which is positioned in the water storage cavity of the toilet, is positioned above the inner side of the water storage cavity of the toilet;

the top of the positioning frame is annularly sleeved on the outer wall of the guide pipe, the middle part of the positioning frame is fixedly provided with a buoyancy plate, the center of the top of the buoyancy plate is fixedly provided with a sealing plug, the outer wall of the water storage cavity of the toilet is fixedly provided with an outer support, the outer support is fixedly provided with an external hose, a sealing soft sleeve and a starting switch, and meanwhile, the bottom of the positioning frame penetrates through the bottom of the water storage cavity of the toilet and is positioned in the external hose and the sealing soft sleeve;

one end of the communicating pipe is connected with the through connection part of the external hose and the sealing soft sleeve in a through way, the other end of the communicating pipe is connected with the bottom water outlet pipe of the water storage cavity of the toilet in a through way, and the middle part of the communicating pipe is provided with a one-way valve.

By adopting the technical scheme, the recycling treatment of domestic water is realized, and the waste of water resource use is effectively reduced.

Preferably, the water inlet pipe is fixed with the outer chamber on the terminal outer wall that is located the recovery intracavity portion, and the outer chamber top runs through and installs the push rod to the upper end perpendicular to of push rod is fixed with the kickboard, and the end inside rotation of this water inlet pipe installs the closing plate moreover, and the rotation installation pivot end of this closing plate runs through the water inlet pipe simultaneously to outer intracavity is fixed with the gear ring.

By adopting the technical scheme, the maximum water yield of the water inlet pipe is limited, and the minimum water level in the recovery cavity is controlled.

Preferably, the whole push rod is in a cross structure, the push rod leans against the concave sawtooth structure which is distributed in a strip shape on the outer wall of one side of the gear ring, and the sawtooth structure on the outer wall of the gear ring is meshed and connected with the gear ring.

By adopting the technical scheme, the limit of the highest lifting height of the push rod is facilitated, and the maximum rotation amplitude of the sealing plate is controlled.

Preferably, the sealing plate and the water inlet pipe form a relative rotation structure for installation of the rotating shaft, the outer edge of the sealing plate is of a rubber sealing ring-shaped structure, and the outer edge of the sealing plate is in shape-fit and fit sealing sliding connection with the inner wall of the water inlet pipe.

By adopting the technical scheme, the rotary installation limit control of the sealing plate is convenient, so that the flowing water quantity in the water inlet pipe is effectively controlled.

Preferably, the top annular structure of locating rack and the tip outer wall of honeycomb duct set up to the sliding connection of laminating, and the bottom of locating rack sets up to "Y" style of calligraphy to the bottom of locating rack and closestool water storage chamber sets up to the slidable mounting that runs through, and closestool water storage chamber and external hose and sealed soft cover vertical coaxial setting moreover.

By adopting the technical scheme, the lifting position of the positioning frame can be conveniently moved and adjusted, the movement is more stable and smooth, and the sealing soft sleeve is pushed to deform.

Preferably, the external hose, the sealing soft sleeve and the starting switch are positioned on the same vertical central axis, and a spring is arranged in the starting switch.

By adopting the technical scheme, the starting switch can be lifted well, and the closing and opening states of the circuit in which the starting switch is positioned are controlled.

Preferably, the honeycomb duct is link up with retrieving the intracavity portion, and retrieve the intracavity and be provided with the inside first class rivers propulsion circulation structure of honeycomb duct, this structure comprises activity chamber, the electro-magnet, the auger axle, five majority of first motor element and circular telegram slider, and activity chamber movable mounting is in retrieving the intracavity, and the retrieve intracavity wall of activity chamber below is fixed with the electro-magnet, moreover the auger axle is installed in the top of activity chamber through sealed bearing penetration, simultaneously the lower extreme fixed connection of auger axle is in the output axle head of first motor element, first motor element installs in activity intracavity portion, moreover be fixed with elasticity waterproof rubber membrane between the top edge of activity chamber and the recovery intracavity wall, the bottom edge of activity chamber and retrieve and set up the gliding circular telegram slider of laminating each other on the intracavity wall, circular telegram slider and first motor element electrical connection, here circular telegram slider and electro-magnet and start switch electrical connection.

By adopting the technical scheme, the circuit where the starting switch is closed is used for controlling the starting of the electromagnet and the first motor assembly, and the conveying of the recovery cavity towards the water storage cavity of the toilet is realized through the guide pipe.

Preferably, the movable cavity is arranged in an inverted T-shaped structure, the movable cavity and the recovery cavity form a relative lifting structure which is in fit sliding, the movable cavity is rotationally connected with the auger shaft, the auger shaft is vertically and coaxially arranged with the movable cavity and the electromagnet, and meanwhile, a permanent magnet is fixed at the bottom of the movable cavity.

By adopting the technical scheme, the lifting and rotation starting control of the auger shaft is achieved.

Preferably, the flow guide pipe is communicated with the inside of the recovery cavity, a second type water flow propelling and circulating structure is arranged on the outer wall of the middle part of the flow guide pipe, which is positioned outside the recovery cavity, and the structure consists of five parts, namely an outer frame, a second motor assembly, a telescopic rod, a squeeze roller and a rubber hose;

the external frame is fixed in the outer wall of honeycomb duct, and is fixed with second motor element on the external frame, is fixed with the telescopic link on the output shaft that second motor element is located between the adjacent external frame tip to be fixed with the squeeze roll between the terminal of telescopic link, the internally mounted of telescopic link has the spring, and the embedded rubber hose that is fixed with on the honeycomb duct of external frame avris moreover.

By adopting the technical scheme, the circuit where the starting switch is closed achieves the effect that the second motor assembly starts to drive the telescopic rod and the squeeze roller to rotate, so that the squeeze pressure of the rubber hose is utilized to drive the diversion pipe to achieve diversion of reclaimed water.

Preferably, 4 groups of telescopic rods are arranged on the outer wall of the output shaft of the second motor assembly at equal angles, 2 second motor assemblies are arranged in each group, and the horizontal plane where the output shaft of the second motor assembly is located is coplanar with the vertical plane in the middle of the rubber hose.

By adopting the technical scheme, the internal negative pressure caused by extrusion of the flow guide pipe is utilized to finish the transportation of reclaimed water from bottom to top.

The invention also provides a technical scheme that: the application method of the water recycling equipment in the multi-storey building comprises the following steps: s1, connecting a vegetable washing pool, a hand washing pool and a bath pool water outlet in a building room through a reclaimed water recovery pipe and a matched filtering structure in the existing market, guiding reclaimed water discharged after the three are used into a recovery cavity through the reclaimed water recovery pipe for recovery and reutilization, and discharging water overflowed from the recovery cavity into a sewer pipe under the action of a water level pipe;

s2, a water inlet pipe acts on a water tower of a high-rise building to be connected, the lowest water level in a recovery cavity is maintained for water storage of a water storage cavity of a toilet, when the water level in the recovery cavity is too low, a push rod and a floating plate descend due to gravity, so that the push rod is meshed with a gear ring to drive the gear ring and a sealing plate to rotate and expand, the water inside the water inlet pipe is not plugged any more, when the water level in the recovery cavity rises and reaches the lowest limit, the floating plate factor is that the push rod is lifted to drive the push rod to rise and meshed with the gear ring to drive the gear ring and the sealing plate to rotate to close the water inlet pipe, and the water in the water tower does not enter the recovery cavity any more;

s3, when the water storage cavity of the closestool is drained to flush the closestool, the internal water level of the closestool becomes low, the positioning frame and the buoyancy plate descend due to gravity, the tail end of the positioning frame extrudes and seals the soft sleeve to deform and swell, the starting switch is pressed to descend to close a circuit where the positioning frame is positioned, and meanwhile, the external hose, the communicating pipe and the one-way valve act, so that water flow is singly led into the water outlet pipe of the water storage cavity of the closestool to be discharged, and water flow leakage is prevented;

s4: when the first-class water flow in the honeycomb duct is installed to the equipment to push the circulation structure, when the circuit where the first-class water flow is located is closed by the starting switch, the electromagnet and the first motor component are electrified and started, the electromagnet is started to generate magnetic force which is repulsive to the permanent magnet at the bottom of the movable cavity, so that the movable cavity and the upper structure of the movable cavity are lifted, the auger shaft is led into the lower end of the honeycomb duct, the first motor component drives the auger shaft to rotate, and reclaimed water sucked into the recovery cavity through the honeycomb duct is led into the water storage cavity of the closestool to store water;

s5: when the second-class water flow inside the device mounting guide pipe advances to flow the structure, when the circuit where the device is positioned is closed by the starting switch, the second motor component drives the telescopic rod and the squeeze roller to rotate, the squeeze roller squeezes the rubber hose to deform under the self-expansion and elastic action of the telescopic rod, and the reclaimed water inside the recovery cavity is guided into the water storage cavity of the toilet by the guide pipe through pressure to store water;

and S6, when the reclaimed water in the recovery cavity is guided into the water storage cavity of the closestool to store water in the two modes, the water level in the water storage cavity rises, the buoyancy of the water storage cavity drives the locating rack, the buoyancy plate and the sealing plug to move upwards, the locating rack does not press the circuit where the locating rack is positioned to be disconnected any more, but the diversion pipe still continuously sucks the reclaimed water in the recovery cavity to be guided into the water storage cavity due to the siphon effect until the water level in the water storage cavity of the closestool is enough, the sealing plug on the buoyancy plate seals the end part of the diversion pipe, the diversion pipe stops conveying the reclaimed water, and the water level in the recovery cavity and the water storage cavity of the closestool is kept stable.

Compared with the prior art, the invention has the beneficial effects that: the multi-layer building reclaimed water recycling equipment and the application method thereof can effectively recycle building indoor water, reduce the use waste of water resources, maintain the use effectiveness, and the specific application method is as follows:

1. the water level in the indoor daily life of building is filtered and recovered through setting up the recovery chamber to rethread inlet tube keeps the water level height of recovery intracavity, at the end of inlet tube delivery port, set up outer chamber and inner structure thereof, when the recovery intracavity is because of the too little water that discharges in the daily life leads to whole water level to be too low, floating plate and push rod are because of the gravity whereabouts of oneself, make the mutual engagement between sawtooth structure and the gear ring of push rod outer wall in its decline in-process, reach the rotatory effect of gear ring and closing plate, make the closing plate rotate and no longer block up the delivery port of inlet tube, introduce external water and retrieve the intracavity, and after the lifting of recovery intracavity water level, utilize the buoyancy of water to lead to floating plate and push rod to rise, make gear ring and closing plate rotate the delivery port of closed inlet tube no longer introduce external water, make the recovery intracavity mainly receive the reclaimed water recycle of daily discharge in the building, the minimum water level control of recovery intracavity, make the closestool hold the water chamber and can inhale the abundant water therein, reach the effect of closestool bath from among them;

2. and through setting up the locating rack that buoyancy control goes up and down and supporting structure on this technical scheme, the control start switch closes its place circuit that descends when the inside water level of closestool water storage chamber is too low for two kinds of water supply structures on the honeycomb duct start up work, first kind water supply structure is rotatory and goes up and down through driving the auger axle, make retrieve the inside short time closestool water storage chamber of leading-in through the honeycomb duct of intracavity, the second kind water supply structure is through the rotation extrusion rubber hose of telescopic link and squeeze roll, utilize extruded atmospheric pressure suction, will retrieve the inside short time closestool water storage chamber of leading-in through the honeycomb duct, both modes all need go on briefly, then through the siphon effect of honeycomb duct work, realize rivers by retrieving the emission of chamber to closestool water storage chamber, the operation is high-efficient, energy-concerving and environment-protective.

Drawings

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

FIG. 2 is a schematic illustration of the push rod and gear ring transmission configuration of the present invention;

FIG. 3 is a schematic view of the mounting structure of the sealing plate of the present invention;

FIG. 4 is a schematic view of the mounting structure of the positioning frame of the present invention;

FIG. 5 is a schematic view of the internal structure of the external hose and the sealing sleeve of the present invention;

FIG. 6 is a schematic view of a first water delivery structure of a flow guide pipe according to an embodiment 1 of the present invention;

FIG. 7 is a schematic view of the installation structure of the auger shaft of the present invention;

FIG. 8 is a schematic diagram of a second water delivery structure of a flow guiding pipe according to embodiment 2 of the present invention;

FIG. 9 is a schematic view of the installation structure of the squeeze roller of the present invention;

fig. 10 is a schematic view of the internal structure of the telescopic rod of the present invention.

In the figure: 1. a recovery chamber; 2. a reclaimed water recovery pipe; 3. a water level pipe; 4. a water inlet pipe; 401. an outer cavity; 402. a push rod; 403. a floating plate; 404. a sealing plate; 405. a gear ring; 5. a toilet water storage chamber; 6. a flow guiding pipe; 601. a movable cavity; 602. an electromagnet; 603. an auger shaft; 604. a first motor assembly; 605. electrifying a sliding block; 606. an outer frame; 607. a second motor assembly; 608. a telescopic rod; 609. a squeeze roll; 610. a rubber hose; 7. a positioning frame; 8. a buoyancy plate; 9. a sealing plug; 10. an outer bracket; 11. externally connecting a hose; 12. sealing the soft sleeve; 13. starting a switch; 14. a communicating pipe; 15. a one-way valve.

Detailed Description

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

Example 1

Referring to fig. 1-7, the present invention provides a technical solution: a multi-story building water recycling apparatus comprising:

the top of the left side of the recovery cavity 1 is communicated with one end of a reclaimed water recovery pipe 2, the other end of the reclaimed water recovery pipe 2 is connected with a drain outlet of a vegetable sink, a hand sink and a bath pool through a filter assembly, one end of a water level pipe 3 is communicated with the outer side wall of the reclaimed water recovery pipe 2, and the other end of the water level pipe 3 is connected with a sewer pipe;

further comprises: the water inlet pipe 4 is connected to the bottom of the right side of the recovery cavity 1 in a penetrating way, a flow guide pipe 6 is arranged between the right side of the top of the recovery cavity 1 and the water storage cavity 5 of the toilet in a penetrating way, the flow guide pipe 6 is n-shaped, one end of the flow guide pipe 6 positioned in the recovery cavity 1 is positioned below the lowest water level in the recovery cavity 1, and the tail end of the flow guide pipe 6 positioned in the water storage cavity 5 of the toilet is positioned above the inner side of the water storage cavity 5 of the toilet;

an outer cavity 401 is fixed on the outer wall of the tail end of the inside of the recovery cavity 1 of the water inlet pipe 4, a push rod 402 is arranged at the top of the outer cavity 401 in a penetrating way, a floating plate 403 is vertically fixed at the upper end of the push rod 402, a sealing plate 404 is rotatably arranged inside the tail end of the water inlet pipe 4, meanwhile, a gear ring 405 is fixed in the outer cavity 401 from the water inlet pipe 4 to the tail end of the sealing plate 404 in a penetrating way, the whole push rod 402 is of a cross-shaped structure, the push rod 402 is close to an inner concave sawtooth structure which is distributed in a strip shape on the outer wall of one side of the gear ring 405, the sawtooth structure of the outer wall of the gear ring 405 is meshed with the gear ring 405, the sealing plate 404 and the water inlet pipe 4 form a relative rotation structure of rotating shaft installation, the outer edge of the sealing plate 404 is of a rubber sealing ring structure, and the outer edge of the sealing plate 404 is in a sealing sliding connection which is matched and attached with the inner wall of the water inlet pipe 4 in a sealing way;

the positioning frame 7 is positioned in the toilet water storage cavity 5, the top of the positioning frame 7 is annularly sleeved on the outer wall of the guide pipe 6, the middle part of the positioning frame 7 is fixedly provided with the buoyancy plate 8, the center of the top of the buoyancy plate 8 is fixedly provided with the sealing plug 9, the outer wall of the toilet water storage cavity 5 is fixedly provided with the outer bracket 10, the outer bracket 10 is fixedly provided with the external hose 11, the sealing soft sleeve 12 and the starting switch 13, the bottom of the positioning frame 7 penetrates through the bottom of the toilet water storage cavity 5 and is positioned in the external hose 11 and the sealing soft sleeve 12, the top annular structure of the positioning frame 7 and the outer wall of the end part of the guide pipe 6 are in fit sliding connection, the bottom of the positioning frame 7 is in a Y shape, the bottommost end of the positioning frame 7 and the bottom of the toilet water storage cavity 5 are in penetrating sliding installation, the toilet water storage cavity 5, the external hose 11, the sealing soft sleeve 12 and the starting switch 13 are positioned on the same vertical central axis, and the starting switch 13 are internally provided with a spring;

a communicating pipe 14, one end of which is connected with the through connection part of the external hose 11 and the sealing soft sleeve 12 in a through way, the other end of the communicating pipe 14 is connected with the bottom water outlet pipe of the toilet water storage cavity 5 in a through way, and the middle part of the communicating pipe 14 is provided with a one-way valve 15;

the honeycomb duct 6 is communicated with the inside of the recovery cavity 1, a first type water flow propulsion circulation structure in the honeycomb duct 6 is arranged in the recovery cavity 1, the structure is composed of a movable cavity 601, an electromagnet 602, an auger shaft 603, a first motor component 604 and an electrifying sliding block 605, the movable cavity 601 is movably installed in the recovery cavity 1, the electromagnet 602 is fixed on the inner wall of the recovery cavity 1 below the movable cavity 601, the auger shaft 603 is installed at the top of the movable cavity 601 in a penetrating mode through a sealing bearing, the lower end of the auger shaft 603 is fixedly connected to the output shaft end of the first motor component 604, the first motor component 604 is installed in the movable cavity 601, an elastic waterproof rubber film is fixed between the top edge of the movable cavity 601 and the inner wall of the recovery cavity 1, the bottom edge of the movable cavity 601 and the inner wall of the recovery cavity 1 are provided with electrifying sliding blocks 605 which are mutually attached, the electrifying sliding blocks 605 are electrically connected with the first motor component 604, the electrifying sliding blocks 605 are electrically connected with the electromagnet 602 and a starting switch 13, the movable cavity 601 is arranged into an inverted T-shaped structure, the movable cavity 601 and the cavity 1 form an attached sliding relative lifting structure, the movable cavity 603 and the auger shaft 603 is connected with the electromagnet 603 in a rotating mode, and the movable cavity 601 is fixedly connected with the auger shaft 601 at the bottom of the same time.

Example 2

Referring to fig. 1-5 and fig. 8-10, the present invention provides a technical solution: a multi-story building water recycling apparatus comprising:

the flow guide pipe 6 is communicated with the inside of the recovery cavity 1, a second type water flow propelling circulation structure is arranged on the middle outer wall of the flow guide pipe 6 outside the recovery cavity 1, and the structure consists of five parts of an external frame 606, a second motor assembly 607, a telescopic rod 608, a squeeze roller 609 and a rubber hose 610; the outer frame 606 is fixed in the outer wall of honeycomb duct 6, and be fixed with second motor assembly 607 on the outer frame 606, second motor assembly 607 is fixed with telescopic link 608 on being located the output shaft between the adjacent outer frame 606 tip, and be fixed with squeeze roll 609 between the end of telescopic link 608, telescopic link 608's internally mounted has the spring, and the embedded rubber hose 610 that is fixed with on the honeycomb duct 6 of outer frame 606 avris, telescopic link 608 is provided with 4 groups on second motor assembly 607 output shaft outer wall equiangular degree, and every group second motor assembly 607 is provided with 2, and second motor assembly 607 output shaft place horizontal plane and rubber hose 610's middle part perpendicular coplane.

Example 3

Referring to fig. 1-10, the present invention provides a technical solution: the application method of the water recycling equipment in the multi-storey building comprises the following steps:

s1, connecting a vegetable washing pool, a hand washing pool and a bath pool water outlet in a building room through a reclaimed water recovery pipe 2 and a matched filtering structure in the existing market, guiding reclaimed water discharged after the three are used into a recovery cavity 1 through the reclaimed water recovery pipe 2 for recovery and reutilization, and discharging water overflowed from the recovery cavity 1 into a sewer pipe under the action of a water level pipe 3;

s2, a water inlet pipe 4 acts on the water tower of a high-rise building to maintain the lowest water level in the recovery cavity 1 for water storage of a toilet water storage cavity 5, when the water level in the recovery cavity 1 is too low, a push rod 402 and a floating plate 403 descend due to gravity, so that the push rod 402 is meshed with a gear ring 405 to drive the gear ring 405 and a sealing plate 404 to rotate and spread, the water inside the water inlet pipe 4 is not blocked any more, water flow in the water tower can enter the recovery cavity 1, when the water level in the recovery cavity 1 rises and reaches the lowest level, the floating plate 403 is lifted to drive the push rod 402 to rise and mesh with the gear ring 405 to drive the gear ring 405 and the sealing plate 404 to rotate and close the water inlet pipe 4, and water flow in the water tower does not enter the recovery cavity 1 any more;

s3, when the water storage cavity 5 of the closestool discharges water to flush the closestool, the internal water level of the closestool becomes low, the positioning frame 7 and the buoyancy plate 8 descend due to gravity, the tail end of the positioning frame 7 extrudes the sealing soft sleeve 12 to deform and swell, the starting switch 13 is pressed to descend to close a circuit where the positioning frame is positioned, and meanwhile, the external hose 11 acts with the communicating pipe 14 and the one-way valve 15, so that water flow is discharged to the water outlet pipe of the water storage cavity 5 of the closestool in a single direction, and water flow leakage is prevented;

s4: when the first class water flow inside the device installation flow guide pipe 6 advances to circulate the structure, when the starting switch 13 closes the circuit where the device is located, the electromagnet 602 and the first motor component 604 are both electrified and started, the electromagnet 602 is started to generate magnetic force which repels the permanent magnet at the bottom of the movable cavity 601, so that the movable cavity 601 and the upper structure are lifted, the auger shaft 603 is led into the lower end inside the flow guide pipe 6, the first motor component 604 drives the auger shaft 603 to rotate, and water sucked into the inside of the recovery cavity 1 through the flow guide pipe 6 is led into the water storage cavity 5 of the toilet for storage;

s5: when the second-class water flow inside the device installation flow guide pipe 6 advances to flow the structure, when the start switch 13 closes the circuit where the start switch is located, the second motor component 607 drives the telescopic rod 608 and the squeeze roller 609 to rotate, and under the self-expansion and elastic action of the telescopic rod 608, the squeeze roller 609 squeezes the rubber hose 610 to deform, and the water inside the recovery cavity 1 is guided into the water storage cavity 5 of the toilet by the flow guide pipe 6 through pressure to store water;

s6, when the reclaimed water in the recovery cavity 1 is guided into the water storage cavity 5 of the closestool to store water in the two modes, the water level in the water storage cavity 5 rises, the buoyancy of the water storage cavity drives the locating frame 7 to move upwards with the buoyancy plate 8 and the sealing plug 9, the locating frame 7 does not press the circuit where the locating frame is located to be disconnected any more, but the diversion pipe 6 still continuously sucks the reclaimed water in the recovery cavity 1 to be guided into the water storage cavity 5 due to the siphon effect until the water level in the water storage cavity 5 of the closestool is enough, the sealing plug 9 on the buoyancy plate 8 seals the end part of the diversion pipe 6, the diversion pipe 6 stops conveying the reclaimed water, and the water level in the recovery cavity 1 and the water storage cavity 5 of the closestool is kept stable.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims

1. A multi-story building water recycling apparatus comprising:

the top of the left side of the recovery cavity (1) is communicated with one end of a reclaimed water recovery pipe (2), the other end of the reclaimed water recovery pipe (2) is connected with a sink, a hand sink and a sink drain outlet through a filtering component, one end of a water level pipe (3) is communicated with the outer side wall of the reclaimed water recovery pipe (2), and the other end of the water level pipe (3) is connected with a sewer pipe;

characterized by further comprising:

the water inlet pipe (4) is connected to the bottom of the right side of the recovery cavity (1) in a penetrating manner, a guide pipe (6) is installed between the right side of the top of the recovery cavity (1) and the toilet water storage cavity (5) in a penetrating manner, the guide pipe (6) is in an n shape, one end of the guide pipe (6) positioned in the recovery cavity (1) is positioned below the lowest water level in the recovery cavity (1), and the tail end of the guide pipe (6) positioned in the toilet water storage cavity (5) is positioned above the inner side of the toilet water storage cavity (5);

the locating rack (7) is positioned in the water storage cavity (5) of the closestool, the top of the locating rack is annularly sleeved on the outer wall of the guide pipe (6), the middle part of the locating rack (7) is fixedly provided with a buoyancy plate (8), the center of the top of the buoyancy plate (8) is fixedly provided with a sealing plug (9), the outer wall of the water storage cavity (5) of the closestool is fixedly provided with an outer support (10), the outer support (10) is fixedly provided with an external hose (11), a sealing soft sleeve (12) and a starting switch (13), and meanwhile the bottom of the locating rack (7) penetrates through the bottom of the water storage cavity (5) of the closestool and is positioned in the external hose (11) and the sealing soft sleeve (12);

a communicating pipe (14) with one end connected with the through connection part of the external hose (11) and the sealing soft sleeve (12), the other end of the communicating pipe (14) connected with the bottom water outlet pipe of the toilet water storage cavity (5), and a one-way valve (15) arranged in the middle of the communicating pipe (14);

an outer cavity (401) is fixed on the outer wall of the tail end of the water inlet pipe (4) positioned in the recovery cavity (1), a push rod (402) is installed at the top of the outer cavity (401) in a penetrating mode, a floating plate (403) is vertically fixed at the upper end of the push rod (402), a sealing plate (404) is installed in the tail end of the water inlet pipe (4) in a rotating mode, and a rotating shaft end of the sealing plate (404) penetrates through the water inlet pipe (4) to the inner portion of the outer cavity (401) in a rotating mode, and a gear ring (405) is fixed in the outer cavity (401);

the utility model discloses a water flow circulation device, which is characterized in that a flow guide pipe (6) is communicated with the inside of a recovery cavity (1), a first type water flow propulsion circulation structure in the flow guide pipe (6) is arranged in the recovery cavity (1), the structure consists of five parts of a movable cavity (601), an electromagnet (602), a screw mandrel (603), a first motor component (604) and an electrified sliding block (605), the movable cavity (601) is movably arranged in the recovery cavity (1), the electromagnet (602) is fixed on the inner wall of the recovery cavity (1) below the movable cavity (601), the screw mandrel (603) is arranged at the top of the movable cavity (601) in a penetrating way through a sealing bearing, the lower end of the screw mandrel (603) is fixedly connected to the output shaft end of a first motor component (604), the first motor component (604) is arranged in the movable cavity (601), an elastic waterproof rubber film is fixed between the top edge of the movable cavity (601) and the inner wall of the recovery cavity (1), the bottom edge of the movable cavity (601) is provided with the electrified sliding block (605), and the electrified sliding block (605) is attached to the inner wall of the recovery cavity (1), and the electrified sliding block (605) is connected with a first motor component (604) and an electrified switch (13) and an electrified switch (602) is started;

the movable cavity (601) is arranged to be of an inverted T-shaped structure, the movable cavity (601) and the recovery cavity (1) form a relative lifting structure which is in fit sliding, the movable cavity (601) and the auger shaft (603) are rotationally connected, the auger shaft (603) is vertically and coaxially arranged with the movable cavity (601) and the electromagnet (602), and meanwhile, a permanent magnet is fixed at the bottom of the movable cavity (601).

2. The multi-story building water recycling apparatus of claim 1, wherein: the push rod (402) is integrally arranged into a cross-shaped structure, the push rod (402) leans against the inner concave sawtooth-shaped structure which is distributed in a strip shape on the outer wall of one side of the gear ring (405), and the sawtooth structure of the outer wall of the gear ring (405) is meshed and connected with the gear ring (405).

3. The multi-story building water recycling apparatus of claim 1, wherein: the sealing plate (404) and the water inlet pipe (4) form a relative rotation structure for rotating shaft installation, the outer edge of the sealing plate (404) is of a rubber sealing ring structure, and the outer edge of the sealing plate (404) and the inner wall of the water inlet pipe (4) are in shape-fit and fit sealing sliding connection.

4. The multi-story building water recycling apparatus of claim 1, wherein: the top annular structure of locating rack (7) and the tip outer wall of honeycomb duct (6) set up to the sliding connection of laminating, and the bottom of locating rack (7) sets up to "Y" style of calligraphy to the bottom of locating rack (7) and closestool water storage chamber (5) sets up to the slidable mounting that runs through, and closestool water storage chamber (5) and external hose (11) and sealed soft cover (12) vertical coaxial setting moreover.

5. The multi-story building water recycling apparatus of claim 1, wherein: the external hose (11), the sealing soft sleeve (12) and the starting switch (13) are positioned on the same vertical central axis, and a spring is arranged in the starting switch (13).

6. The multi-story building water recycling apparatus of claim 1, wherein: the flow guide pipe (6) is communicated with the inside of the recovery cavity (1), a second type water flow propelling and circulating structure is further arranged on the middle outer wall of the flow guide pipe (6) positioned outside the recovery cavity (1), the second type water flow propelling and circulating structure replaces the first type water flow propelling and circulating structure, and the structure consists of five parts, namely an external frame (606), a second motor assembly (607), a telescopic rod (608), a squeeze roller (609) and a rubber hose (610);

the external frame (606) is fixed in the outer wall of honeycomb duct (6), and is fixed with second motor assembly (607) on external frame (606), is fixed with telescopic link (608) on the output shaft that second motor assembly (607) are located between adjacent external frame (606) tip to be fixed with squeeze roll (609) between the end of telescopic link (608), the internally mounted of telescopic link (608) has the spring, and embedded being fixed with rubber hose (610) on honeycomb duct (6) of external frame (606) avris moreover.

7. The multi-story building water recycling apparatus of claim 6, wherein: the telescopic rods (608) are arranged on the outer wall of the output shaft of the second motor assembly (607) at equal angles, 2 second motor assemblies (607) are arranged in each group, and the horizontal plane where the output shaft of the second motor assembly (607) is located is coplanar with the middle vertical plane of the rubber hose (610).

8. The method of using the multi-story building water recycling apparatus of claim 7, wherein the specific method of using is as follows:

s1, connecting a vegetable washing pool, a hand washing pool and a bath pool water outlet in a building room through a reclaimed water recovery pipe (2) and a matched filtering structure in the existing market, guiding reclaimed water discharged after the three are used into a recovery cavity (1) through the reclaimed water recovery pipe (2) for recovery and reutilization, and discharging water overflowed from the recovery cavity (1) into a sewer pipe under the action of a water level pipe (3);

s2, a water inlet pipe (4) acts on the water tower of a high-rise building to maintain the lowest water level in the recovery cavity (1) for water storage of a toilet water storage cavity (5), when the water level in the recovery cavity (1) is too low, a push rod (402) and a floating plate (403) are lowered due to gravity, so that the push rod (402) is meshed with a gear ring (405), the gear ring (405) and a sealing plate (404) are driven to rotate and spread, the water inside the water inlet pipe (4) is not blocked any more, water flow in the water tower can enter the recovery cavity (1), and when the water level in the recovery cavity (1) rises and reaches the minimum, the floating plate (403) drives the push rod (402) to rise and be meshed with the gear ring (405) due to water level lifting, the gear ring (405) and the sealing plate (404) are driven to rotate and close the water inlet pipe (4), and the water flow in the water tower does not enter the recovery cavity (1) any more;

s3, when the water storage cavity (5) of the closestool is drained to flush the closestool, the internal water level of the water storage cavity is lowered, the locating frame (7) and the buoyancy plate (8) are lowered due to gravity, the tail end of the locating frame (7) is extruded to seal the soft sleeve (12) to deform and expand, the starting switch (13) is pressed to descend to close a circuit where the locating frame is located, and meanwhile, the external hose (11), the communicating pipe (14) and the one-way valve (15) act, so that water flow is discharged to a water outlet pipe of the water storage cavity (5) of the closestool in a single direction, and water flow leakage is prevented;

s4: when a first class water flow inside the equipment installation flow guide pipe (6) advances to circulate the structure, when a circuit where the starting switch (13) is closed, both the electromagnet (602) and the first motor component (604) are electrified and started, the electromagnet (602) is started to generate magnetic force which is repulsive to a permanent magnet at the bottom of the movable cavity (601), the movable cavity (601) and the upper structure are lifted, so that the auger shaft (603) is led into the lower end inside the flow guide pipe (6), the first motor component (604) drives the auger shaft (603) to rotate, and water sucked into the inside of the recovery cavity (1) through the flow guide pipe (6) is led into the water storage cavity (5) of the toilet for storage;

s5: when the second class water flow inside the equipment installation flow guide pipe (6) advances to circulate the structure, when the circuit where the starting switch (13) is closed, the second motor component (607) drives the telescopic rod (608) and the squeeze roller (609) to rotate, the squeeze roller (609) squeezes the rubber hose (610) to deform under the self-expansion and elastic action of the telescopic rod (608), and reclaimed water inside the recovery cavity (1) is guided into the closestool water storage cavity (5) from the flow guide pipe (6) through pressure to store water;

s6, when the reclaimed water in the recovery cavity (1) is led into the water storage cavity (5) of the toilet bowl to be stored, the water level in the water storage cavity (5) of the toilet bowl rises, the buoyancy of the water level drives the locating frame (7), the buoyancy plate (8) and the sealing plug (9) to move upwards, the locating frame (7) does not press the starting switch (13) to break a circuit where the locating frame is located, but the siphon effect guide pipe (6) still continuously sucks the reclaimed water in the recovery cavity (1) to be led into the water storage cavity (5) of the toilet bowl until the water level in the water storage cavity (5) of the toilet bowl is enough, the sealing plug (9) on the buoyancy plate (8) seals the end part of the guide pipe (6), the guide pipe (6) stops conveying the reclaimed water, and the water level in the recovery cavity (1) and the water storage cavity (5) of the toilet bowl is kept stable.