CN114703930A

CN114703930A - Water recycling device in multi-storey building and using method thereof

Info

Publication number: CN114703930A
Application number: CN202210273598.6A
Authority: CN
Inventors: 吴常树
Original assignee: Individual
Current assignee: Hangzhou Hangshuo Ancient Architecture And Landscape Co ltd
Priority date: 2022-03-19
Filing date: 2022-03-19
Publication date: 2022-07-05
Anticipated expiration: 2042-03-19
Also published as: CN114703930B

Abstract

The invention discloses a water recycling device in a multi-story building and a using method thereof, wherein the water recycling device comprises the following steps: the top of the left side of the recovery cavity is connected with one end of a reclaimed water recovery pipe in a penetrating way, the other end of the reclaimed water recovery pipe is connected with water outlets of a vegetable washing pool, a hand washing pool and a bathing pool through a filtering component, and one end of a water level pipe is connected on the outer side wall of the reclaimed water recovery pipe in a penetrating way; further comprising: the water inlet pipe is connected with the bottom of the right side of the recovery cavity in a penetrating way, a flow 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 flow guide pipe is arranged 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 communicated and connected with the communicated connection position of the external hose and the sealing soft sleeve. The water recycling equipment in the multi-story building and the use method thereof can effectively recycle indoor water of the building, reduce the use waste of water resources and maintain the use effectiveness of the water resources.

Description

Water recycling device in multi-storey building and using method thereof

Technical Field

The invention relates to the technical field of reclaimed water recovery, in particular to reclaimed water recycling equipment for a multistoried building and a using method thereof.

Background

In the multi-storey building, in order to meet the daily life demands of residents, a large amount of water resources are frequently used in daily life and cover multiple aspects of the daily life of the residents such as washing clothes, cooking and washing, in the daily operation, the water resources are directly discharged into a sewer pipeline after being used once, so that the water resources are wasted in use, and the development of continuous reutilization of the resources is not facilitated.

Therefore, the technical scheme designs the reclaimed water recycling equipment, which is used for independently collecting the used water in the life of the multi-story building, after the used water is used in the aspects of washing clothes, cooking, washing and the like, the filtered reclaimed water is temporarily stored through sand filtration and is guided 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 coming and going of personnel in the multi-story building is greatly reduced.

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

Disclosure of Invention

The invention aims to provide water recycling equipment in a multi-story building and a using method thereof, and aims to solve the problems that in the daily operation, a large amount of water resources are wasted and are not beneficial to the sustainable recycling development of the resources because the water is directly discharged into a sewer pipe after being used once in the drainage equipment of the multi-story building, which is proposed by the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a water recycling device in a multistoried building and a using method thereof comprise:

the top of the left side of the recovery cavity is connected with one end of a reclaimed water recovery pipe in a penetrating way, the other end of the reclaimed water recovery pipe is connected with a water outlet of the vegetable washing pool, the hand washing pool and the bathing pool through a filtering component, one end of a water level pipe is connected on the outer side wall of the reclaimed water recovery pipe in a penetrating way, and the other end of the water level pipe is connected in a sewer pipe;

further comprising:

the water inlet pipe is connected with the bottom of the right side of the recovery cavity in a penetrating manner, a flow 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 manner, the flow guide pipe is in an n shape, one end of the flow guide pipe 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 positioned in the water storage cavity of the closestool is positioned above the inner side of the water storage cavity of the closestool;

the positioning frame is positioned in the water storage cavity of the closestool, the top of the positioning frame is annularly sleeved on the outer wall of the flow 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 closestool 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 the bottom of the positioning frame penetrates through the bottom of the water storage cavity of the closestool and is positioned in the external hose and the sealing soft sleeve;

one end of the communicating pipe is communicated with the communicated joint of the external hose and the sealing soft sleeve, the other end of the communicating pipe is communicated with a water outlet pipe at the bottom of the water storage cavity of the closestool, and the middle part of the communicating pipe is provided with a one-way valve.

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

Preferably, the inlet tube is located and is fixed with the exocoel on retrieving the terminal outer wall of intracavity portion, and the exocoel top is run through and is installed the push rod to the upper end vertical fixation of push rod has the kickboard, and the terminal inside rotation of this inlet tube installs the closing plate moreover, and the rotation installation pivot end of this closing plate runs through the inlet tube to exocoel internal fixation has the ring gear simultaneously.

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

Preferably, the push rod is integrally arranged to be of a cross-shaped structure, the push rod is close to an inwards concave sawtooth structure which is distributed in a strip shape on the outer wall of one side of the gear ring, and the outer wall sawtooth structure of the gear ring is meshed with the gear ring.

By adopting the technical scheme, the limitation 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 rotating structure for installing the rotating shaft, the outer edge of the sealing plate is arranged to be a rubber sealing ring-shaped structure, and the outer edge of the sealing plate and the inner wall of the water inlet pipe are arranged to be in sealing sliding connection with matched and attached shapes.

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

Preferably, the top ring structure of locating rack sets up the sliding connection who laminates with the tip outer wall of honeycomb duct, and the bottom of locating rack sets up to "Y" style of calligraphy to the sliding installation that sets up as running through bottom of the lowest end of locating rack and closestool water storage cavity, closestool water storage cavity and external hose and the vertical coaxial setting of sealed soft cover moreover.

By adopting the technical scheme, the lifting position of the positioning frame is convenient to move and adjust, the movement is more stable and smooth, and the deformation of the sealing soft sleeve is promoted.

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 inside the starting switch.

By adopting the technical scheme, the starting switch can well ascend and descend, and the closing and opening states of the circuit where the starting switch is located are controlled.

Preferably, the diversion pipe is communicated with the interior of the recovery cavity, and the recovery cavity is internally provided with a first type water flow propelling and circulating structure inside the diversion pipe, the structure consists of five parts, namely a movable cavity, an electromagnet, a packing auger shaft, a first motor component and an electrified slide block, wherein the movable cavity is movably arranged in a recovery cavity, an electromagnet is fixed on the inner wall of the recovery cavity below the movable cavity, a packing auger shaft is arranged at the top of the movable cavity in a penetrating way through a sealing bearing, meanwhile, the lower end of the auger shaft is fixedly connected with the output shaft end of the first motor component, the first motor component is arranged in the movable cavity, and be fixed with the waterproof rubber membrane of elasticity between the top edge in activity chamber and the recovery intracavity wall, the gliding circular telegram slider of laminating each other is set up on the bottom edge in activity chamber and the recovery intracavity wall, circular telegram slider and first motor element electrical connection, and circular telegram slider and electro-magnet and starting switch electrical connection are switched on to this place.

By adopting the technical scheme, the circuit where the starting switch is closed is used for controlling the electromagnet and the first motor component to be started, and the delivery of the recovery cavity to the inner part of the water storage cavity of the closestool is realized through the flow guide pipe.

Preferably, the movable cavity is arranged to be an inverted T-shaped structure, the movable cavity and the recovery cavity form a relative lifting structure which is attached to slide, the movable cavity is rotatably connected with the auger shaft, the movable cavity and the electromagnet are arranged coaxially in the vertical direction, and the bottom of the movable cavity is fixed with the permanent magnet.

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

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

the external frame is fixed on the outer wall of the flow guide pipe, a second motor assembly is fixed on the external frame, the second motor assembly is located on an output shaft between the end portions of the adjacent external frames and is fixed with a telescopic rod, an extrusion roller is fixed between the tail ends of the telescopic rod, a spring is arranged inside the telescopic rod, and a rubber hose is fixed on the flow guide pipe on the side of the external frame in an embedded mode.

By adopting the technical scheme, the circuit where the starting switch is closed is used for achieving the effect that the second motor component is started to drive the telescopic rod and the squeezing roller to rotate, so that the squeezing pressure of the rubber hose is utilized to drive the flow guide pipe to realize the flow guide of reclaimed water.

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

By adopting the technical scheme, the conveying of the reclaimed water from the bottom to the top is completed by utilizing the internal negative pressure caused by extrusion of the guide pipe.

The invention also provides a technical scheme that: a use method of water recycling equipment in a multistoried building comprises the following specific use methods: s1, connecting the drainage outlets of a vegetable washing pool, a hand washing pool and a bathing pool in a building room through a reclaimed water recovery pipe and a matched filtering structure in the existing market, leading reclaimed water discharged after the use of the reclaimed water recovery pipe, the hand washing pool and the bathing pool into a recovery cavity for recovery and reuse, and discharging water flow overflowing from the recovery cavity into a sewer pipe under the action of a water level pipe;

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

s3, when the water storage cavity of the closestool flushes the closestool, the water level inside the closestool is lowered, the positioning frame and the buoyancy plate are lowered due to gravity, the tail end of the positioning frame extrudes the sealing soft sleeve to deform and expand, the starting switch is pressed to descend to close the circuit where the positioning frame is located, and meanwhile, the external hose, the communicating pipe and the one-way valve act to enable water flow to be led into a water outlet pipe of the water storage cavity of the closestool in a one-way mode to be discharged, and water flow leakage is prevented;

s4: when a first class of water flow propelling circulation structure in the equipment installation diversion pipe is arranged, when a circuit where a starting switch is located is closed, an electromagnet and a first motor component are electrified and started, the electromagnet is started to generate magnetic force which repels a permanent magnet at the bottom of a movable cavity, the movable cavity and an upper structure of the movable cavity are lifted, so that an auger shaft is guided into the lower end of the diversion pipe, the auger shaft is driven by the first motor component to rotate, and reclaimed water sucked into a recovery cavity through the diversion pipe is guided into a water storage cavity of the closestool for water storage and storage;

s5: when a second type of water flow propelling circulation structure in the equipment installation flow guide pipe is arranged, when a starting switch closes a circuit where the starting switch is arranged, the second motor component drives the telescopic rod and the squeezing roller to rotate, the squeezing roller squeezes the rubber hose to deform under the action of self expansion and elasticity of the telescopic rod, and reclaimed water in the recovery cavity is guided into the closestool water storage cavity through the flow guide pipe to be stored in a water storage mode through pressure;

s6, when the reclaimed water in the recovery cavity is guided into the water storage cavity of the closestool in the two forms for water storage and storage, the water level in the water storage cavity rises, the buoyancy of the water storage cavity drives the positioning frame to move upwards with the buoyancy plate and the sealing plug, the positioning frame does not press the circuit where the positioning frame is located to be disconnected with the starting switch, 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, and the diversion pipe stops conveying the reclaimed water, so that the internal water levels of the recovery cavity and the water storage cavity of the closestool are stable.

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

1. the recycling cavity is arranged to filter and recycle reclaimed water in daily life in a building, the water level height in the recycling cavity is maintained through the water inlet pipe, the outer cavity and the internal structure of the outer cavity are arranged at the tail end of the water outlet of the water inlet pipe, when the whole water level is too low due to too little reclaimed water discharged in daily life in the recycling cavity, the floating plate and the push rod fall down due to self gravity, the sawtooth structure of the outer wall of the push rod and the gear ring are meshed with each other in the descending process to achieve the rotating effect of the gear ring and the sealing plate, the sealing plate is enabled to rotate and not block the water outlet of the water inlet pipe, external water is introduced into the recycling cavity, after the water level in the recycling cavity is lifted, the floating plate and the push rod are enabled to ascend by utilizing the buoyancy of the water, the gear ring and the sealing plate can rotate to close the water outlet of the water inlet pipe and not introduce the external water, and the reclaimed water discharged in the building indoor in the recycling cavity is mainly received and recycled, the lowest water level in the recovery cavity is controlled, so that the water storage cavity of the closestool can suck sufficient water from the recovery cavity, and the flushing effect of the closestool is achieved;

2. and the locating rack that goes up and down through setting up buoyancy control among this technical scheme and the structure of supporting on it, decline control starting switch closes its place circuit when the inside water level of closestool water storage chamber is low excessively, make two types on the honeycomb duct send water structure to start work, first kind send water structure to pass through to drive the rotation of auger shaft and go up and down, make recovery intracavity portion short-term leading-in closestool water storage chamber through the honeycomb duct, second kind send water structure to pass through the rotation extrusion rubber hose of telescopic link and squeeze roller, utilize extruded atmospheric pressure suction, will retrieve intracavity portion short-term leading-in closestool water storage chamber through the honeycomb duct, both types all only need short-term the going on, then siphon through the effect of honeycomb duct work, realize rivers by the discharge of retrieving chamber to closestool water storage chamber, the operation is high-efficient, energy saving and environmental protection.

Drawings

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

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

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

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

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

FIG. 6 is a schematic view of a first water supply structure of the draft tube in embodiment 1 of the present invention;

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

FIG. 8 is a schematic view of a second water supply structure of the draft tube in embodiment 2 of the present invention;

FIG. 9 is a schematic view of the squeeze roll mounting structure 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 chamber; 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 guide pipe; 601. a movable cavity; 602. an electromagnet; 603. a packing auger shaft; 604. a first motor assembly; 605. a power-on slider; 606. an external 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 support; 11. a hose is connected externally; 12. sealing the soft sleeve; 13. starting a switch; 14. a communicating pipe; 15. a one-way valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example 1

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

the top of the left side of the recovery cavity 1 is connected with one end of a reclaimed water recovery pipe 2 in a through way, the other end of the reclaimed water recovery pipe 2 is connected with water outlets of a vegetable washing pool, a hand washing pool and a bathing pool through a filtering component, one end of a water level pipe 3 is connected on the outer side wall of the reclaimed water recovery pipe 2 in a through way, and the other end of the water level pipe 3 is connected in a sewer pipeline;

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 flow guide pipe 6 is arranged between the right side of the top of the recovery cavity 1 and the toilet water storage cavity 5 in a penetrating manner, the flow guide pipe 6 is n-shaped, one end of the flow guide pipe 6, which is 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, which is positioned in the toilet water storage cavity 5, is positioned above the inner side of the toilet water storage cavity 5;

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 arranged at the top of the outer cavity 401 in a penetrating way, and a floating plate 403 is vertically fixed to the upper end of the push rod 402, and a sealing plate 404 is rotatably installed inside the end of the inlet pipe 4, meanwhile, the rotary shaft end of the sealing plate 404 is rotatably arranged to penetrate through the water inlet pipe 4 to the outer cavity 401, a gear ring 405 is fixed in the outer cavity 401, the push rod 402 is integrally designed to be in a cross-shaped structure, and the outer wall of one side of the push rod 402 close to the gear ring 405 is in a concave sawtooth structure with strip distribution, and the outer wall sawtooth structure of the gear ring 405 is engaged with the gear ring 405, the sealing plate 404 and the water inlet pipe 4 form a relative rotation structure of the rotating shaft installation, and the outer edge of the sealing plate 404 is arranged into a rubber sealing ring-shaped structure, the outer edge of the sealing plate 404 is in sealed sliding connection with the inner wall of the water inlet pipe 4 in a shape matching and fitting manner;

the positioning frame 7 is positioned in the closestool water storage cavity 5, the top of the positioning frame is annularly sleeved on the outer wall of the flow guide pipe 6, the middle part of the positioning frame 7 is fixedly provided with a buoyancy plate 8, the top center of the buoyancy plate 8 is fixedly provided with a sealing plug 9, the outer wall of the closestool water storage cavity 5 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, meanwhile, the bottom of the positioning frame 7 penetrates through the bottom of the closestool 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 flow guide pipe 6 are in a sliding connection in a joint manner, the bottom of the positioning frame 7 is in a Y shape, the lowest end of the positioning frame 7 and the bottom of the closestool water storage cavity 5 are in a sliding installation in a penetrating manner, the closestool water storage cavity 5, the external hose 11 and the sealing soft sleeve 12 are vertically and coaxially arranged, the external hose 11 and the sealing soft sleeve 12 and the starting switch 13 are positioned on the same vertical central axis, and a spring is arranged inside the starting switch 13;

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

the diversion pipe 6 is communicated with the interior of the recovery cavity 1, a first class water flow propelling and circulating structure in the diversion pipe 6 is arranged in the recovery cavity 1, the structure comprises five parts, namely a movable cavity 601, an electromagnet 602, an auger shaft 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 auger shaft 603 is arranged at the top of the movable cavity 601 in a penetrating way through a sealing bearing, meanwhile, the lower end of the auger shaft 603 is fixedly connected with the output shaft end of the 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 and the inner wall of the recovery cavity 1 are provided with the electrified sliding block 605 which is mutually attached and slides, and the electrified sliding block 605 is electrically connected with the first motor component 604, the electrified slide block 605 is electrically connected with the electromagnet 602 and the starting switch 13, the movable cavity 601 is arranged to be an inverted T-shaped structure, the movable cavity 601 and the recovery cavity 1 form a relative lifting structure which is attached to slide, the movable cavity 601 is rotatably connected with the auger shaft 603, 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.

Example 2

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

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 arranged at the top of the outer cavity 401 in a penetrating way, and a floating plate 403 is vertically fixed to the upper end of the push rod 402, and a sealing plate 404 is rotatably installed inside the end of the inlet pipe 4, meanwhile, the rotary shaft end of the rotary mounting of the sealing plate 404 penetrates through the water inlet pipe 4 to the outer cavity 401, a gear ring 405 is fixed in the rotary mounting, the push rod 402 is integrally designed into a cross-shaped structure, and the outer wall of one side of the push rod 402 close to the gear ring 405 is in a strip-shaped concave saw-tooth structure, and the outer wall sawtooth structure of the gear ring 405 is engaged with the gear ring 405, the sealing plate 404 and the water inlet pipe 4 form a relative rotation structure of the rotating shaft installation, and the outer edge of the sealing plate 404 is arranged into a rubber sealing ring-shaped structure, the outer edge of the sealing plate 404 is in sealed sliding connection with the inner wall of the water inlet pipe 4 in a shape matching and fitting manner;

the diversion pipe 6 is communicated with the interior of the recovery cavity 1, a second type water flow propelling and circulating structure of the diversion pipe 6 is arranged on the outer wall of the middle part of the diversion pipe 6 positioned outside the recovery cavity 1, and the structure consists of five parts, namely an external frame 606, a second motor assembly 607, a telescopic rod 608, an extrusion roller 609 and a rubber hose 610; the external frame 606 is fixed on the outer wall of the flow guide pipe 6, a second motor assembly 607 is fixed on the external frame 606, a telescopic rod 608 is fixed on an output shaft of the second motor assembly 607 between the end portions of the adjacent external frames 606, a squeezing roller 609 is fixed between the tail ends of the telescopic rods 608, springs are installed inside the telescopic rods 608, a rubber hose 610 is fixed on the flow guide pipe 6 on the side of the external frame 606 in an embedded mode, 4 groups of telescopic rods 608 are arranged on the outer wall of the output shaft of the second motor assembly 607 at equal angles, 2 groups of second motor assemblies 607 are arranged on 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.

Example 3

Referring to fig. 1-10, the present invention provides a technical solution: a use method of water recycling equipment in a multistoried building comprises the following specific use methods:

s1, connecting a drainage port of a vegetable washing pool, a hand washing pool and a bathing pool in a building room through the reclaimed water recovery pipe 2 and a matched filtering structure in the existing market, guiding reclaimed water discharged after the use of the reclaimed water recovery pipe 2, the hand washing pool and the bathing pool into the recovery cavity 1 for recovery and reuse, and discharging water overflowing from the recovery cavity 1 into a sewer pipe under the action of the water level pipe 3;

s2, the water inlet pipe 4 acts on a water tower of a high-rise building to be connected, the lowest water level in the recovery cavity 1 is maintained to be used for storing water in the toilet water storage cavity 5, when the water level in the recovery cavity 1 is too low, the push rod 402 and the floating plate 403 descend due to gravity, so that the push rod 402 is meshed with the gear ring 405 to drive the gear ring 405 and the sealing plate 404 to rotate and unfold without plugging the interior of the water inlet pipe 4, 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 limit, the floating plate 403 is lifted to drive the push rod 402 to rise and is meshed with the gear ring 405 to drive the gear ring 405 and the sealing plate 404 to rotate and close the interior of 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 toilet water storage cavity 5 drains water and flushes the toilet, the water level inside the toilet 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 expand, the starting switch 13 is pressed to descend to close the circuit where the positioning frame is located, and meanwhile, the external hose 11 acts with the communicating pipe 14 and the one-way valve 15, so that water flow is guided into the water outlet pipe of the toilet water storage cavity 5 in a one-way mode to be discharged, and water flow leakage is prevented;

s4: when a first class water flow propelling and circulating structure in the equipment installation flow guide pipe 6 is adopted, when a circuit where the starting switch 13 is arranged is closed, the electromagnet 602 and the first motor component 604 are electrified and started, the electromagnet 602 is started to generate magnetic force repelling with a permanent magnet at the bottom of the movable cavity 601, the movable cavity 601 and an upper structure thereof are lifted, the auger shaft 603 is led into the lower end of the flow guide pipe 6, the auger shaft 603 is driven by the first motor component 604 to rotate, and the water in the recovery cavity 1 is sucked through the flow guide pipe 6 and led into the water storage cavity 5 of the closestool for water storage;

s5: when the second type of water flow propelling circulation structure in the equipment installation flow guide pipe 6 is adopted, when the starting switch 13 is switched on, the second motor component 607 drives the telescopic rod 608 and the squeezing roller 609 to rotate, under the action of self expansion and elasticity of the telescopic rod 608, the squeezing roller 609 squeezes the rubber hose 610 to deform, and the reclaimed water in the recovery cavity 1 is guided into the toilet water storage cavity 5 through the flow guide pipe 6 to be stored in a stored mode through pressure;

s6, when the reclaimed water in the recovery cavity 1 is guided into the toilet water storage cavity 5 for storage in the two forms, the water level in the water storage cavity 5 rises, the buoyancy of the water drives the positioning frame 7, the buoyancy plate 8 and the sealing plug 9 to move upwards, the positioning frame 7 does not press the circuit where the positioning frame is located to be disconnected to the starting switch 13, but the reclaimed water in the recovery cavity 1 is still continuously sucked into the water storage cavity 5 by the flow guide pipe 6 due to the siphon effect until the water level in the toilet water storage cavity 5 is enough, the sealing plug 9 on the buoyancy plate 8 seals the end of the flow guide pipe 6, the flow guide pipe 6 stops conveying the reclaimed water, and the internal water levels of the recovery cavity 1 and the water storage toilet cavity 5 are kept stable.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. A water recycling apparatus in a multistory building, comprising:

the top of the left side of the recovery cavity (1) is connected with one end of a reclaimed water recovery pipe (2) in a through mode, the other end of the reclaimed water recovery pipe (2) is connected with water outlets of a vegetable washing pool, a hand washing pool and a bathing pool through a filtering component, one end of a water level pipe (3) is connected on the outer side wall of the reclaimed water recovery pipe (2) in a through mode, and the other end of the water level pipe (3) is connected into a sewer pipe;

it is characterized by also 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 n-shaped, one end, located inside the recovery cavity (1), of the guide pipe (6) is located below the lowest water level inside the recovery cavity (1), and the tail end, located inside the toilet water storage cavity (5), of the guide pipe (6) is located above the inner side of the toilet water storage cavity (5);

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

one end of the communicating pipe (14) is communicated with the communicated joint of the external hose (11) and the sealing soft sleeve (12), the other end of the communicating pipe (14) is communicated with a water outlet pipe at the bottom of the water storage cavity (5) of the closestool, and the middle part of the communicating pipe (14) is provided with a one-way valve (15).

2. The water recycling and reusing equipment for the multistoried building according to claim 1, wherein: the inlet tube (4) are located and retrieve and are fixed with exocoel (401) on the inside terminal outer wall in chamber (1), and exocoel (401) top is run through and is installed push rod (402) to the upper end vertical fixation of push rod (402) has kickboard (403), and the terminal inside rotation of this inlet tube (4) installs closing plate (404) moreover, and the rotation installation pivot end of this closing plate (404) runs through inlet tube (4) to exocoel (401) internal fixation has gear ring (405) simultaneously.

3. The water recycling apparatus in multistoried building according to claim 2, wherein: the push rod (402) is integrally arranged to be of a cross-shaped structure, the push rod (402) is close to an inner concave sawtooth structure which is in strip distribution on the outer wall of one side of the gear ring (405), and the outer wall sawtooth structure of the gear ring (405) is meshed with the gear ring (405) to be connected.

4. The water recycling apparatus in multistoried building according to claim 2, wherein: the sealing plate (404) and the water inlet pipe (4) form a relative rotating structure for installing a rotating shaft, the outer edge of the sealing plate (404) is of a rubber sealing ring-shaped structure, and the outer edge of the sealing plate (404) and the inner wall of the water inlet pipe (4) are in sealed sliding connection with the same shape and fit.

5. The water recycling apparatus in multistoried building according to claim 1, wherein: the top ring structure of locating rack (7) sets up the sliding connection for the laminating with the tip outer wall of honeycomb duct (6), and the bottom of locating rack (7) sets up to "Y" style of calligraphy to the sliding installation that sets up as running through bottom and closestool water storage chamber (5) of locating rack (7), closestool water storage chamber (5) and external hose (11) and sealed soft cover (12) vertical coaxial setting moreover.

6. The water recycling apparatus in multistoried building according to claim 1, wherein: the external hose (11), the sealing soft sleeve (12) and the starting switch (13) are located on the same vertical central axis, and a spring is installed inside the starting switch (13).

7. The water recycling apparatus in multistoried building according to claim 1, wherein: the flow guide pipe (6) is communicated with the interior of the recycling cavity (1), a first class water flow propelling and circulating structure inside the flow guide pipe (6) is arranged in the recycling cavity (1), the structure consists of five parts, namely a movable cavity (601), an electromagnet (602), an auger shaft (603), a first motor component (604) and an electrified sliding block (605), the movable cavity (601) is movably arranged in the recycling cavity (1), the electromagnet (602) is fixed on the inner wall of the recycling cavity (1) below the movable cavity (601), the auger shaft (603) is arranged at the top of the movable cavity (601) in a penetrating way 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 arranged in the movable cavity (601), and an elastic waterproof rubber film is fixed between the top edge of the movable cavity (601) and the inner wall of the recycling cavity (1), the bottom edge of the movable cavity (601) and the inner wall of the recycling cavity (1) are provided with an electrified sliding block (605) which is mutually attached and slides, the electrified sliding block (605) is electrically connected with the first motor component (604), and the electrified sliding block (605) is electrically connected with the electromagnet (602) and the starting switch (13).

8. The water recycling apparatus in multistoried building according to claim 7, wherein: activity chamber (601) set up to the "T" style of calligraphy structure of invering, and activity chamber (601) and recovery chamber (1) constitute the gliding relative elevation structure of laminating to activity chamber (601) and auger shaft (603) rotate to be connected, and auger shaft (603) and activity chamber (601) and vertical coaxial setting of electro-magnet (602) moreover, the bottom in activity chamber (601) is fixed with the permanent magnet simultaneously.

9. The water recycling and reusing equipment for the multistoried building according to claim 1, wherein: the flow guide pipe (6) is communicated with the interior of the recovery cavity (1), a second type water flow propelling and circulating structure of the flow guide pipe (6) is mounted on the outer wall of the middle part of the flow guide pipe (6) positioned outside the recovery cavity (1), and the structure consists of five parts, namely an external frame (606), a second motor assembly (607), a telescopic rod (608), an extrusion roller (609) and a rubber hose (610);

the outer frame (606) is fixed on the outer wall of the flow guide pipe (6), a second motor assembly (607) is fixed on the outer frame (606), the second motor assembly (607) is located on an output shaft between the end portions of the adjacent outer frames (606) and is fixed with a telescopic rod (608), a squeezing roller (609) is fixed between the tail ends of the telescopic rod (608), a spring is installed inside the telescopic rod (608), and a rubber hose (610) is fixed on the flow guide pipe (6) on the side of the outer frame (606) in an embedded mode.

10. The water recycling apparatus in multistoried building according to claim 9, wherein: the telescopic rod (608) is provided with 4 groups on the outer wall of the output shaft of the second motor assembly (607) at equal angles, 2 groups of the 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).

11. The use method of the water recycling equipment in the multistoried building according to claim 1, characterized in that the specific use method is as follows:

s1, connecting a vegetable washing pool, a hand washing pool and a bathing pool drainage port 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 use of the reclaimed water recovery pipe (2) into a recovery cavity (1) for recovery and reuse, and discharging water flow overflowing from the recovery cavity (1) into a sewer pipe under the action of a water level pipe (3);

s2, the water inlet pipe (4) acts on the water tower connection of the high-rise building, the lowest water level in the recovery cavity (1) is maintained to be used for water storage of the toilet water storage cavity (5), when the water level in the recovery cavity (1) is too low, the push rod (402) and the floating plate (403) descend due to gravity, so that the push rod (402) is meshed with the gear ring (405) to drive the gear ring (405) and the sealing plate (404) to rotate and unfold, the inner part of the water inlet pipe (4) is not blocked, 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 limit, the factor of the floating plate (403) is that the push rod (402) is driven to rise and is meshed with the gear ring (405), the gear ring (405) and the sealing plate (404) are driven to rotate to close the inner part of the water inlet pipe (4), and the water flow in the water tower does not enter the recovery cavity (1);

s3, when the toilet water storage cavity (5) drains water and flushes the toilet, the water level inside the toilet 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 expand, the starting switch (13) is pressed to descend to close the circuit where the positioning frame (7) is located, and meanwhile, the external hose (11) acts with the communicating pipe (14) and the one-way valve (15), so that water flow is guided into a water outlet pipe of the toilet water storage cavity (5) in a one-way mode to be discharged, and water flow leakage is prevented;

s4: when a first class water flow propelling circulation structure in an equipment installation guide pipe (6) is adopted, when a circuit where a starting switch (13) is located is closed, an electromagnet (602) and a first motor component (604) are electrified and started, the electromagnet (602) is started to generate magnetic force repelling with a permanent magnet at the bottom of a movable cavity (601), the movable cavity (601) and an upper structure thereof are lifted, so that an auger shaft (603) is guided into the lower end of the guide pipe (6), the first motor component (604) drives the auger shaft (603) to rotate, and water sucked into a recovery cavity (1) through the guide pipe (6) is guided into a water storage closestool cavity (5) to be stored;

s5: when a second type of water flow propelling circulation structure in the equipment installation flow guide pipe (6) is adopted, when a starting switch (13) closes a circuit where the starting switch is arranged, the second motor component (607) drives the telescopic rod (608) and the extrusion roller (609) to rotate, under the self expansion and elastic effects of the telescopic rod (608), the extrusion roller (609) extrudes the rubber hose (610) to deform, and reclaimed water in the recovery cavity (1) is guided into the toilet water storage cavity (5) through the flow guide pipe (6) to be stored in a water storage mode through pressure;

s6, when the reclaimed water in the recovery cavity (1) is guided into the toilet water storage cavity (5) to be stored, the water level in the water storage cavity (5) rises, the buoyancy of the reclaimed water drives the positioning frame (7), the buoyancy plate (8) and the sealing plug (9) to move upwards, the positioning frame (7) does not press the starting switch (13) to disconnect the circuit where the positioning frame is located, but the diversion pipe (6) is still continuously sucked into the recovery cavity (1) to be guided into the water storage cavity (5) due to siphon effect until the water level in the toilet water storage cavity (5) 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 stable water levels in the recovery cavity (1) and the toilet water storage cavity (5) are maintained.