CN115748884A

CN115748884A - Integrated intelligent water supply system

Info

Publication number: CN115748884A
Application number: CN202211375441.0A
Authority: CN
Inventors: 吴延俊; 代生学; 吴俊力
Original assignee: Shanghai East Pump Group Co Ltd
Current assignee: Shanghai East Pump Group Co Ltd
Priority date: 2022-11-04
Filing date: 2022-11-04
Publication date: 2023-03-07
Anticipated expiration: 2042-11-04
Also published as: CN115748884B

Abstract

The invention discloses an integrated intelligent water supply system, and belongs to the technical field of secondary water supply. The household water supply system comprises a main valve, wherein one end of the main valve is connected with a municipal water pipe network and comprises a low-layer branch pipe and a high-layer branch pipe, one end of the low-layer branch pipe is connected with the main valve, the low-layer branch pipe is connected with the high-layer branch pipe, the other end of the low-layer branch pipe is connected with a hydraulic motor, one side of the hydraulic motor, which is far away from the low-layer branch pipe, is connected with a water supply assembly, the water supply assembly comprises a water distribution mechanism, a water storage tank, a cleaning mechanism, a household pipe and a filtering mechanism, the water storage tank is arranged at the upper end of the water distribution mechanism, the cleaning mechanism is arranged on the water storage tank, the household pipe is arranged at one side, which is far away from the hydraulic motor, of the water distribution mechanism, the filtering mechanism is arranged on the household pipe, one end of the high-layer branch pipe is connected with a water suction pump, and one side, which is far away from the high-layer branch pipe, of the water suction pump is also provided with the water supply assembly.

Description

Integrated intelligent water supply system

Technical Field

The invention relates to the technical field of secondary water supply, in particular to an integrated intelligent water supply system.

Background

The water supply is an important project for the development and construction of the modern society, which relates to the neighborhood of industrial production and the basic civilian life, as a large number of people gather in cities and towns, the land resources in cities become scarce, the floors where people live are higher and higher, the water supply for residents on high floors means that higher water pressure is needed, the water supply pressure is increased, water flow is sprayed and splashed after low-rise residents open water valves, and the trouble is brought to the water consumption of the low-rise residents, so that the stability of the water outlet pressure of each household is ensured, which is a problem to be solved by a water supply system.

Disclosure of Invention

The invention aims to provide an integrated intelligent water supply system to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an integration intelligent water supply system, includes the main valve, municipal water pipe network is connected to the one end of main valve, including low-level branch pipe, high-rise branch pipe, the one end of low-level branch pipe links to each other with the main valve, is connected with high-rise branch pipe on the low-level branch pipe, the other end of low-level branch pipe is connected with hydraulic motor, one side that hydraulic motor kept away from low-rise branch pipe is connected with the water supply subassembly, the water supply subassembly includes water diversion mechanism, water storage tank, clean mechanism, pipe-to-the-home, filter mechanism, the water storage tank sets up in the upper end of water diversion mechanism, is provided with clean mechanism on the water storage tank, the pipe-to-the-home sets up the one side of keeping away from hydraulic motor at water diversion mechanism, filter mechanism sets up on the pipe-to-the-to-the-home, the one side that high-rise branch pipe was kept away from to the water suction pump also is provided with the water supply subassembly, and the back is opened to the main valve, and water in the municipal water pipe network passes through low-level branch pipe and high-rise branch pipe enters into two water storage tanks, and pre-stored water shortage's water effectively alleviates the problem of peak water shortage pressure-lacking in the water pipe-to alleviate the water storage tank, alleviates the impact that water piping causes the water diversion mechanism simultaneously, alleviates the impact of water piping causes the water storage tank, clean mechanism in the water diversion mechanism.

Further, hydraulic motor's pivot coaxial coupling has the generator, the generator is connected with the suction pump through the circuit, the suction pump is connected with control system circuit, water passes through the in-process of the water storage tank of low floor branch pipe flow direction low floor, it is rotatory to utilize water pressure to drive hydraulic motor, hydraulic motor drives the generator and rotates the electricity generation, the electric quantity that the generator sent drives the suction pump work, the suction pump is taken out water to high-rise water storage tank through high-rise branch pipe, supply water to the resident family of high floor through high-rise water storage tank, compensate municipal water pipe network's not enough water pressure problem, loss pressure behind the hydraulic motor is crossed to rivers in the low floor branch pipe, play the hydraulic effect of softening low floor resident family, produce the gushing when preventing low floor user's water, utilize hydraulic motor to drive the generator and rotate the electricity generation and provide power for the suction pump and play the effect of practicing thrift the energy consumption.

Furthermore, the water diversion mechanism comprises a pair of three-way pipe bodies and auxiliary water pipes, each three-way pipe body is of a T shape which can be laid down, two ends of each auxiliary water pipe are respectively communicated with the bottoms of the corresponding three-way pipe bodies, the pipe wall of one three-way pipe body is communicated with a hydraulic motor, the pipe wall of the other three-way pipe body is communicated with a service pipe, the bottom of the water storage tank is communicated with the top and the bottom of the corresponding three-way pipe body, a hand wheel is arranged on each three-way pipe body in a rotating mode, a worm is coaxially installed on each hand wheel and located inside the corresponding three-way pipe body, each worm is coaxially connected with a servo motor, a servo motor control system is connected with the servo motor in a circuit mode, the water diversion mechanism controls water to flow into the service pipe from the water storage tank or flow into the service pipe through the auxiliary water pipes, in the normal use process, water flows into the water storage tank through one three-way pipe body and then flows into the service pipe through the other three-way pipe body, an operator selects a low peak time period for cleaning the water storage tank, the water storage tank is firstly rotated to keep away from the service pipe on one side of the service pipe, the three-way pipe body by using a double-head sealing valve rod, the lower end of the three-way pipe is opened, the water pipe, the upper end of the water pipe is controlled to be used as a water supply tank, the hand wheel, the upper end of the hand wheel is connected with the hand wheel, and the hand wheel, the hand pipe, the hand wheel, and the hand wheel is not used for cleaning tank, and the auxiliary water supply pipe, and the hand pipe is convenient for cleaning tank, the water supply pipe, and the hand wheel is not used for cleaning tank, and the water supply pipe.

Further, every the inside of tee bend body is provided with the installation sleeve, the installation sleeve mid-range rotates installs the worm wheel, worm wheel and worm meshing transmission, the inside slip of installation sleeve is provided with the double-end valve rod, the double-end valve rod carries out the shutoff to the upper end or the lower extreme of tee bend body.

Further, spiral grooves have been seted up on the inner wall of worm wheel, vertical logical groove has been seted up on the installation sleeve, the middle part of double-end valve rod is connected with the short pin, the short pin passes logical groove, short pin and spiral groove sliding connection, it is rotatory to drive the worm when the hand wheel pivoted, the worm drives the worm wheel and rotates, because the restriction of installation sleeve short pin on to the double-end valve rod, make the worm wheel can only promote the double-end valve rod along the vertical logical groove up-and-down motion on the installation sleeve through spiral groove, realize the shutoff to the tee bend body with open, when the double-end valve rod switches over at two positions, carry out the shutoff to the upper and lower both ends of tee bend body simultaneously earlier, open wherein one end again, in order to prevent that water from flowing backwards under the effect of pressure in the water storage tank, operating personnel also can pass through control system, control servo motor drives the worm successively and rotates, realize the shutoff and the opening of tee bend body.

Further, the cleaning mechanism comprises a drainage window, a lifting motor, at least three winding wheels and a cleaning frame, the drainage window is arranged at a position close to the top of the water storage tank, the drainage window is composed of a plurality of sections of movable grids, the lifting motor is arranged at the top of the water storage tank, a driving bevel gear is mounted on the lifting motor, at least three winding wheels are rotatably arranged at the top of the water storage tank, a driven bevel gear is coaxially mounted on each winding wheel, each driven bevel gear is in meshing transmission with the driving bevel gear, a steel cable is wound on each winding wheel, the cleaning frame is located inside the water storage tank, one end of each steel cable is connected with the cleaning frame, the driving bevel gear is driven to rotate by the driving bevel gear, all the driven bevel gears drive the winding wheels to rotate, the winding wheels output the steel cables, the cleaning frame moves downwards until bayonets at the bottom of the cleaning frame are embedded into clamping blocks on the bottom surface inside the water storage tank, and the position of the cleaning frame is fixed.

Further, the bayonet socket has been seted up on the inside bottom surface of water storage tank, the bottom of cleaning frame is provided with the fixture block with bayonet socket matched with, and the bottom of cleaning frame rotates at least and installs a brush arm, every the one end that the brush arm is close to the inside bottom surface of water storage tank is provided with scrapes the strip, and the end of every brush arm rotates and installs terminal strip of scraping, every the terminal strip of scraping is kept away from the one end of brush arm and is provided with the balancing weight, and every terminal strip of scraping is provided with the wind spring with the rotation junction of brush arm, and cleaning motor circular telegram work drives the action wheel rotatory, and the action wheel utilizes frictional force to drive the friction ring rotatory, and the friction ring moves the brush arm and rotates, scrapes the strip and contacts with the inside bottom surface of water storage tank, and the slope of brush arm sets up, and the incline direction of the motion of brush arm is opposite, scrapes the strip and scrapes the deposit of water storage tank bottom to all around, and the balancing weight on the terminal strip of scraping outwards deflects under the effect of centrifugal force, further pushes away the deposit towards the edge of water storage tank.

Furthermore, a friction ring is arranged at one end of the brush arm, which is far away from the scraping strip, a cleaning motor is arranged at one end of the cleaning frame, which is connected with the steel cable, a driving wheel is installed on the cleaning motor, the driving wheel is contacted with the friction ring, a rubber bag is arranged on the cleaning frame in a surrounding manner, the rubber bag is connected with an air pump through a pipeline, an annular water pipe is also arranged at the top end inside the water storage tank, the annular water pipe is connected with a high-rise branch pipe through a small pipeline, an electromagnetic valve is arranged in the middle of the small pipeline, the cleaning motor stops working, the brush arm stops rotating, the tail scraping strip deflects inwards under the action of a coil spring and retracts, the air pump inflates the rubber bag, the expanded rubber bag blocks the sediments at the edge of the water storage tank to prevent the sediments from flowing back, further aerify the rubber bag and the water storage tank inner wall in close contact with of grow, the precipitate is crowded on the rubber bag, elevator motor circular telegram, it draws clean frame to drive the rolling wheel rotation, the water stain of rubber bag with water storage tank inner wall is struck off in the lump, the cleanness to inside and the bottom of water storage tank has been realized, after clean frame is drawn the highest position by the cable wire, the edge and the drainage window of rubber bag align, clean frame touches the time delay circuit breaker on the inside top of water storage tank, the solenoid valve is opened, water in the high-rise branch pipe flows to the annular water pipe through little pipeline, the last aperture of having seted up of annular water pipe, water spouts from the aperture, deposit to on the rubber bag washes, the drainage window is opened, the rivers of washing flow out the water storage tank through the drainage window, after washing, the drainage window is closed, the air pump is taken out in the rubber bag.

Furthermore, the filter mechanism comprises a filter and a movable membrane support, the movable membrane support is arranged inside the filter in a sliding mode, cover plates capable of being opened are arranged at two ends of the movable membrane support, two ceramic membranes are arranged inside the movable membrane support, a handle is arranged on the movable membrane support, the handle stretches out of the filter, when the ceramic membranes in the filter need to be replaced, the cover plates at one end of the movable membrane support, stretching out of the filter, of the filter are opened by an operator, the replaced ceramic membranes are placed into and closed, the handle is pulled afterwards, new ceramic membranes are blocked on the service pipe, the old ceramic membranes stretch out from the other end along with the movable membrane support, the operator opens the cover plates to take down the old ceramic membranes for cleaning, the ceramic membranes can be reused, water supply does not need to be stopped in the process of replacing the ceramic membranes, and the function of replacing filter elements without cutoff is achieved.

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

1. water is supplied to residents on high floors through high-rise water storage tanks, the problem that the water pressure of a municipal water pipe network is insufficient is solved, pressure loss is caused after water in the branch pipes on the low floors passes through the hydraulic motor, the effect of softening the water pressure of the residents on the low floors is achieved, gushing is prevented when water is used by users on the low floors, and the hydraulic motor is utilized to drive the generator to rotate to generate power so as to provide power for the water suction pump to achieve the effect of saving energy consumption.

2. Utilize the clearance motor to drive the brush arm and rotate, the scraping strip contacts with the inside bottom surface of water storage tank, with the deposit of water storage tank bottom to scraping all around, balancing weight on the terminal scraping strip outwards deflects under the effect of centrifugal force, further push away the scraping towards the edge of water storage tank with the deposit, the air pump aerifys in to the rubber bag, the expanded rubber bag carries out the separation with the deposit at the edge of water storage tank, prevent the deposit backward flow, further aerify the rubber bag and the water storage tank inner wall in close contact with of grow, the deposit is crowded on the rubber bag, elevator motor circular telegram, it draws to the lifting up to drive the rolling wheel rotation with the clean frame, the rubber bag strikes off the water stain of water storage tank inner wall in the lump, the cleanness to inside and the bottom of water storage tank has been realized.

3. The replaced ceramic membrane is placed into the movable membrane support, the cover plate is closed, the handle is pulled afterwards, the new ceramic membrane is blocked on the service pipe, the old ceramic membrane extends out from the other end along with the movable membrane support, an operator opens the cover plate to take down the old ceramic membrane for cleaning, so that the ceramic membrane can be reused, water supply does not need to be stopped in the process of replacing the ceramic membrane, and the function of replacing the filter element of the filter without cutoff is achieved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic structural view of a water storage tank portion of the present invention;

FIG. 3 is a schematic structural view of a three-way pipe body portion of the present invention;

FIG. 4 is a schematic view of the interior of the water storage tank of the present invention;

FIG. 5 is a schematic view of the top of the water storage tank of the present invention;

FIG. 6 is a schematic view of the construction of a portion of the cleaning frame of the present invention;

FIG. 7 is a schematic view of a cleaning frame portion of the present invention;

FIG. 8 is a schematic view of the construction of the filter portion of the present invention;

FIG. 9 is a schematic view of the worm gear of the present invention;

in the figure: 1. a main valve; 2. a high-rise branch pipe; 3. a lower layer branch pipe; 4. a hydraulic motor; 5. a water storage tank; 6. a service pipe; 7. a water pump; 8. a three-way pipe body; 9. an auxiliary water pipe; 10. a hand wheel; 11. a worm; 12. a worm gear; 13. installing a sleeve; 14. a double-ended valve stem; 15. a drainage window; 16. a winding wheel; 17. a steel cord; 18. a driven bevel gear; 19. a drive bevel gear; 20. a cleaning frame; 21. cleaning the motor; 22. a driving wheel; 23. a brush arm; 24. scraping the strips; 25. a tail end scraping strip; 26. a friction ring; 27. a rubber bladder; 28. a filter; 29. moving the membrane holder; 30. a ceramic membrane.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: the utility model provides an integration intelligent water supply system, including main valve 1, municipal water pipe network is connected to main valve 1's one end, including low level branch pipe 3, high-rise branch pipe 2, the one end of low level branch pipe 3 links to each other with main valve 1, be connected with high-rise branch pipe 2 on the low level branch pipe 3, the other end of low level branch pipe 3 is connected with hydraulic motor 4, one side that low level branch pipe 3 was kept away from to hydraulic motor 4 is connected with the water supply subassembly, the water supply subassembly is including dividing water mechanism, water storage tank 5, clean mechanism, pipe 6 of registering one's residence, filter mechanism, water storage tank 5 sets up the upper end at water diversion mechanism, be provided with clean mechanism on water storage tank 5, pipe 6 of registering one's residence sets up in the one side of keeping away from hydraulic motor 4 at water diversion mechanism, filter mechanism sets up on pipe 6, the one end of high-rise branch pipe 2 is connected with suction pump 7, one side that water pump 7 kept away from high-rise branch pipe 2 also is provided with water supply subassembly, after main valve 1 is opened, water pipe network's water pipe network enters into two water storage tank 5 through low level 3 and high-rise branch pipe 2, filter mechanism's the problem of water shortage of water pipe is effectively alleviated, the inside water pipe of filtration leads to the clean mechanism that the clean water of the clean water that leads to the clean mechanism of the inside of the water that leads to the clean mechanism that filters.

The rotating shaft of the hydraulic motor 4 is coaxially connected with a generator (not shown in the figure), the generator is connected with a water suction pump 7 through a circuit, the water suction pump 7 is connected with a control system circuit, water flows to the lower-layer water storage tank 5 through the lower-layer branch pipe 3, the hydraulic motor 4 is driven to rotate by water pressure, the hydraulic motor 4 drives the generator to rotate to generate electricity, the electricity generated by the generator drives the water suction pump 7 to work, the water suction pump 7 pumps the water into the high-layer water storage tank 5 through the high-layer branch pipe 2, water is supplied to residents on high floors through the high-layer water storage tank 5, the problem of insufficient water pressure of a municipal water pipe network is solved, the water in the lower-layer branch pipe 3 loses pressure after passing through the hydraulic motor 4, the effect of softening the water pressure of the residents on the low floors is achieved, the phenomenon of spewing when water is used by users on the low floors is prevented, and the hydraulic motor 4 is used for driving the generator to rotate to generate electricity to provide power for the water suction pump 7 to achieve the effect of saving.

The water diversion mechanism comprises a pair of three-way pipe bodies 8 and auxiliary water pipes 9, each three-way pipe body 8 is of a T-shaped structure lying down, two ends of each auxiliary water pipe 9 are respectively communicated with the bottoms of the three-way pipe bodies 8, the pipe wall of one three-way pipe body 8 is communicated with a hydraulic motor 4, the pipe wall of the other three-way pipe body 8 is communicated with a service pipe 6, the bottom of a water storage tank 5 is communicated with the tops and bottoms of the three-way pipe bodies 8, a hand wheel 10 is rotatably arranged on each three-way pipe body 8, a worm 11 is coaxially arranged on the hand wheel 10 and is positioned inside the three-way pipe body 8, the worm 11 is coaxially connected with a servo motor, a servo motor control system is in circuit connection, a mounting sleeve 13 is arranged inside each three-way pipe body 8, a worm wheel 12 is rotatably arranged in the middle of the mounting sleeve 13, the worm wheel 12 is in meshed transmission with the worm 11, a double-headed valve rod 14 is slidably arranged inside the mounting sleeve 13, the double-headed valve rod 14 plugs the upper end or the lower end of the three-way pipe body 8, a spiral groove is formed in the inner wall of the worm wheel 12, a vertical through groove is formed in the mounting sleeve 13, a short through groove is formed in a sliding connection with a short pin, and the short pin passes through groove.

The water diversion mechanism controls two methods that water flows into the service pipe 6 from the water storage tank 5 or flows into the service pipe 6 through the auxiliary water pipe 9, in the normal use process, the water flows into the water storage tank 5 through one three-way pipe 8 and then flows out of the service pipe 6 through the other three-way pipe 8, an operator selects the low peak time period of the water to clean the water storage tank 5, the operator rotates the hand wheel 10 on the three-way pipe 8 at one side far away from the service pipe 6, the upper end of the three-way pipe 8 is sealed by the double-head valve rod 14, the lower end is opened, when the water in the water storage tank 5 is used up, the operator rotates the hand wheel 10 on the three-way pipe 8 connected with the service pipe 6 to seal the upper end of the three-way pipe 8 and open the lower end, the water flow flows from the auxiliary water pipe 9, the convenience is cleared up water storage tank 5, do not influence the normal supply of water simultaneously, hand wheel 10 pivoted drives worm 11 rotatory simultaneously, worm 11 drives worm wheel 12 and rotates, because the restriction of short pin on installation sleeve 13 to double-end valve rod 14, make worm wheel 12 can only promote double-end valve rod 14 along the vertical logical groove up-and-down motion on the installation sleeve 13 through the spiral groove, realize the shutoff and the opening to tee bend body 8, when double-end valve rod 14 switches over at two positions, will carry out the shutoff to the upper and lower both ends of tee bend body 8 simultaneously earlier, open wherein one end again, in order to prevent that water from flowing backwards under the effect of pressure to water storage tank 5, operating personnel also can pass through control system, control servo motor drives earlier worm 11 and rotates, realize the shutoff and the opening to tee bend body 8.

The cleaning mechanism comprises a drainage window 15, a lifting motor, three winding wheels 16 and a cleaning frame 20, wherein the drainage window 15 is arranged at a position close to the top of the water storage tank 5, the drainage window 15 is composed of a plurality of sections of movable grids, the lifting motor is arranged at the top of the water storage tank 5, a driving bevel gear 19 is installed on the lifting motor, the three winding wheels 16 are rotatably arranged at the top of the water storage tank 5, a driven bevel gear 18 is coaxially installed on each winding wheel 16, each driven bevel gear 18 is in meshing transmission with the driving bevel gear 19, a steel cable 17 is wound on each winding wheel 16, the cleaning frame 20 is located inside the water storage tank 5, one end of each steel cable 17 is connected with the cleaning frame 20, the driving bevel gear 19 is driven by the lifting motor to rotate, the driving bevel gear 19 drives all the driven bevel gears 18 to rotate, the winding wheels 16 drive the winding wheels 16 to rotate, the winding wheels 16 discharge the steel cable 17, the cleaning frame 20 moves downwards until a clamping block at the bottom of the cleaning frame 20 is embedded into a bayonet on the bottom of the water storage tank 5, and the cleaning frame 20 is fixed in position.

The bayonet socket has been seted up on the inside bottom surface of water storage tank 5, the bottom of cleaning frame 20 is provided with the fixture block with bayonet socket matched with, cleaning frame 20's bottom is rotated and is installed two brush arms 23, the one end that every brush arm 23 is close to the inside bottom surface of water storage tank 5 is provided with scrapes strip 24, the end of every brush arm 23 is rotated and is installed terminal strip 25 of scraping, the one end that every terminal strip 25 of scraping kept away from brush arm 23 is provided with the balancing weight, the rotation junction of every terminal strip 25 of scraping and brush arm 23 is provided with the coil spring, cleaning motor 21 circular telegram work drives action wheel 22 rotatory, action wheel 22 utilizes frictional force to drive friction ring 26 rotatory, friction ring 26 drives brush arm 23 and rotates, scrape strip 24 and contact with the inside bottom surface of water storage tank 5, brush arm 23 inclines to set up, the incline direction of brush arm 23 is opposite with the motion direction of brush arm 23, scrape the strip 24 and scrape the deposit of water storage tank 5 bottom all around, the balancing weight on the terminal strip 25 deflects outwards under the effect of centrifugal force, further push away the deposit towards the edge of water storage tank 5.

A friction ring 26 is arranged at one end of the brush arm 23 far away from the scraping strip 24, a cleaning motor 21 is arranged at one end of the cleaning frame 20 connected with the steel cable 17, a driving wheel 22 is installed on the cleaning motor 21, the driving wheel 22 is in contact with the friction ring 26, a rubber bag 27 is further arranged on the cleaning frame 20 in a surrounding mode, the rubber bag 27 is connected with an air pump through a pipeline, an annular water pipe is further arranged at the top end inside the water storage tank 5 and is connected with the high-rise branch pipe 2 through a small pipeline, an electromagnetic valve is arranged in the middle of the small pipeline, the cleaning motor 21 stops working, the brush arm 23 stops rotating, the tail end scraping strip 25 deflects inwards under the action of a coil spring to be withdrawn, the air pump inflates the rubber bag 27, the expanded rubber bag 27 blocks sediments at the edge of the water storage tank 5 to prevent the sediments from flowing back, and the rubber bag 27 inflated and enlarged is in close contact with the inner wall of the water storage tank 5, on the precipitate was crowded rubber bag 27, elevator motor circular telegram, drive wind-up wheel 16 and rotate and upwards pull cleaning frame 20, rubber bag 27 strikes off the water stain of 5 inner walls of water storage tank in the lump, the cleanness to 5 inside and bottoms of water storage tank has been realized, after cleaning frame 20 was pulled to the highest position by cable wire 17, the edge and the drainage window 15 of rubber bag 27 align, cleaning frame 20 touches the time delay circuit breaker on 5 inside tops of water storage tank, the solenoid valve is opened, water in the high-rise branch pipe 2 flows to the annular water pipe through the little pipeline, the aperture has been seted up on the annular water pipe, water spouts from the aperture, wash the precipitate on rubber bag 27, drainage window 15 is opened, the rivers of washing flow out water storage tank 5 through drainage window 15, after washing, drainage window 15 is closed, the air pump takes out the gas in the rubber bag 27.

The filter mechanism comprises a filter 28 and a movable membrane support 29, the movable membrane support 29 is arranged inside the filter 28 in a sliding mode, cover plates which can be opened are arranged at two ends of the movable membrane support 29, two ceramic membranes 30 are arranged inside the movable membrane support 29, a handle is arranged on the movable membrane support 29 and extends out of the filter 28, when the ceramic membranes 30 in the filter 28 need to be replaced, an operator opens the cover plate at one end of the movable membrane support 29 extending out of the filter 28, puts the replaced ceramic membranes 30 in and closes the cover plate, then pulls the handle, new ceramic membranes 30 are blocked on the service pipe 6, the old ceramic membranes 30 extend out from the other end along with the movable membrane support 29, the operator opens the cover plate to take down the old ceramic membranes 30 for cleaning, the ceramic membranes 30 can be reused again, water supply does not need to be stopped in the process of replacing the ceramic membranes 30, and the function of replacing filter elements of the filter 28 without breaking is achieved.

The working principle of the invention is as follows: when the water supply device is used, an operator opens the main valve 1, water in a municipal water pipe network enters the two water storage tanks 5 through the low-layer branch pipes 3 and the high-layer branch pipes 2, the problem of water shortage and pressure loss in a water peak is effectively relieved by water pre-stored in the water storage tanks 5, meanwhile, impact on a pipeline caused by water evasion is relieved, water flows to the low-layer water storage tanks 5 through the low-layer branch pipes 3 and is driven to rotate by the water pressure, the hydraulic motor 4 drives the generator to rotate to generate power, the electric quantity generated by the generator drives the water suction pump 7 to work, the water suction pump 7 pumps the water into the high-layer water storage tanks 5 through the high-layer branch pipes 2, water is supplied to households on high floors through the water storage tanks 5 on the high floors, the problem of insufficient water pressure of the municipal water pipe network is solved, pressure loss is caused after the water in the low-layer branch pipes 3 passes through the hydraulic motor 4, the effect of softening the water pressure of the households is achieved, gushing generated when water is prevented, the hydraulic motor 4 is used for driving the generator to rotate to generate power to provide power for the water suction pump 7, and the effect of saving is achieved.

The lifting motor is electrified to work to drive the driving bevel gear 19 to rotate, the driving bevel gear 19 drives all the driven bevel gears 18 to rotate, the driven bevel gears 18 drive the winding wheel 16 to rotate, the winding wheel 16 outputs the steel cable 17, the cleaning frame 20 moves downwards until the clamping block at the bottom of the cleaning frame 20 is embedded into the bayonet on the bottom surface inside the water storage tank 5, the position of the cleaning frame 20 is fixed, the cleaning motor 21 is electrified to work to drive the driving wheel 22 to rotate, the driving wheel 22 drives the friction ring 26 to rotate by utilizing friction force, the friction ring 26 drives the brush arm 23 to rotate, the scraping strip 24 is contacted with the bottom surface inside the water storage tank 5, the brush arm 23 is obliquely arranged, the oblique direction of the brush arm 23 is opposite to the moving direction of the brush arm 23, the scraping strip 24 scrapes sediment at the bottom of the water storage tank 5 to the periphery, the balancing weight on the scraping strip 25 at the tail end deflects outwards under the action of centrifugal force, and further scrapes the sediment towards the edge of the water storage tank 5.

The cleaning motor 21 stops working, the brush arm 23 stops rotating, the tail end scraping strip 25 deflects inwards under the action of the coil spring and retracts, the air pump inflates air into the rubber bag 27, the expanded rubber bag 27 separates sediments at the edge of the water storage tank 5 to prevent the sediments from flowing back, the rubber bag 27 inflated further to grow into a larger size is in close contact with the inner wall of the water storage tank 5, the sediments are extruded onto the rubber bag 27, the lifting motor is electrified to drive the winding wheel 16 to rotate to lift the cleaning frame 20 upwards, the rubber bag 27 scrapes water stains on the inner wall of the water storage tank 5 together, cleaning of the inner portion and the bottom of the water storage tank 5 is achieved, after the cleaning frame 20 is pulled to the highest position by the steel cable 17, the edge of the rubber bag 27 is aligned with the drainage window 15, the cleaning frame 20 touches the delay circuit-breaking switch at the top end of the inner portion of the water storage tank 5, the electromagnetic valve is opened, water in the high-rise branch pipe 2 flows into the annular water pipe through the small water pipe, small holes are formed in the annular water pipe, water is sprayed out from the small holes, the sediments on the rubber bag 27, the drainage window 15 is opened, water flows out of the flushing water flow out of the water in the water storage tank 5, and is discharged out of the air pump 15, and the air pump 27, and the water pump is discharged out of the water tank 5, and the water pump 27, and the water pump is discharged after the water is discharged out of the water pump.

When the ceramic membrane 30 in the filter 28 needs to be replaced, an operator opens the cover plate extending out of one end of the movable membrane support 29 of the filter 28, puts the replaced ceramic membrane 30 into the cover plate and closes the cover plate, then pulls the handle, the new ceramic membrane 30 is blocked on the service pipe 6, the old ceramic membrane 30 extends out of the other end along with the movable membrane support 29, the operator opens the cover plate to take down the old ceramic membrane 30 for cleaning, so that the ceramic membrane 30 can be reused, in the process of replacing the ceramic membrane 30, water supply does not need to be stopped, and the function of replacing the filter element of the filter 28 without cutting off is achieved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: 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 changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An integration intelligence water supply system, includes main valve (1), municipal water pipe network, its characterized in that are connected to the one end of main valve (1): including low-rise branch pipe (3), high-rise branch pipe (2), the one end of low-rise branch pipe (3) links to each other with main valve (1), is connected with high-rise branch pipe (2) on low-rise branch pipe (3), and the other end of low-rise branch pipe (3) is connected with hydraulic motor (4), one side that low-rise branch pipe (3) were kept away from in hydraulic motor (4) is connected with water supply assembly, water supply assembly is including dividing mechanism, water storage tank (5), clean mechanism, service pipe (6), filtering mechanism, water storage tank (5) set up in the upper end of dividing the mechanism, are provided with clean mechanism on water storage tank (5), service pipe (6) set up the one side of keeping away from hydraulic motor (4) at the mechanism that divides, filtering mechanism sets up on service pipe (6), the one end of high-rise branch pipe (2) is connected with suction pump (7), one side that high-rise branch pipe (2) were kept away from in suction pump (7) also is provided with water supply assembly.

2. The integrated intelligent water supply system according to claim 1, wherein: the rotating shaft of the hydraulic motor (4) is coaxially connected with a generator, the generator is connected with a water suction pump (7) through a circuit, and the water suction pump (7) is connected with a control system through a circuit.

3. The integrated intelligent water supply system according to claim 1, wherein: the water diversion mechanism comprises a pair of tee pipe bodies (8) and auxiliary water pipes (9), each tee pipe body (8) is of a T shape which can be laid down, two ends of each auxiliary water pipe (9) are communicated with the bottoms of the tee pipe bodies (8), one pipe wall of each tee pipe body (8) is communicated with a hydraulic motor (4), the pipe wall of the other tee pipe body (8) is communicated with a house service pipe (6), the bottom of a water storage tank (5) is communicated with the top bottom of each tee pipe body (8), and each tee pipe body (8) is rotatably provided with a hand wheel (10), the hand wheel (10) is coaxially provided with a worm (11), the worm (11) is located inside each tee pipe body (8), the worm (11) is coaxially connected with a servo motor, and a servo motor control system is in circuit connection.

4. The integrated intelligent water supply system according to claim 3, wherein: every the inside of tee bend body (8) is provided with installation sleeve (13), installation sleeve (13) mid-rotation installs worm wheel (12), worm wheel (12) and worm (11) meshing transmission, the inside slip of installation sleeve (13) is provided with double-end valve rod (14), double-end valve rod (14) carry out the shutoff to the upper end or the lower extreme of tee bend body (8).

5. The integrated intelligent water supply system according to claim 4, wherein: the worm gear is characterized in that a spiral groove is formed in the inner wall of the worm gear (12), a vertical through groove is formed in the mounting sleeve (13), a short pin is connected to the middle of the double-head valve rod (14), the short pin penetrates through the through groove, and the short pin is connected with the spiral groove in a sliding mode.

6. The integrated intelligent water supply system according to claim 1, wherein: the cleaning mechanism comprises a drainage window (15), a lifting motor, at least three winding wheels (16) and a cleaning frame (20), wherein the drainage window (15) is arranged at a position close to the top of the water storage tank (5), the drainage window (15) is composed of a plurality of movable grids, the lifting motor is arranged at the top of the water storage tank (5), a driving bevel gear (19) is arranged on the lifting motor, the at least three winding wheels (16) are rotatably arranged at the top of the water storage tank (5), a driven bevel gear (18) is coaxially arranged on each winding wheel (16), each driven bevel gear (18) is in meshing transmission with the driving bevel gear (19), each winding wheel (16) is wound with a steel cable (17), the cleaning frame (20) is arranged inside the water storage tank (5), and one end of each steel cable (17) is connected with the cleaning frame (20).

7. The integrated intelligent water supply system according to claim 6, wherein: the bayonet socket has been seted up on the inside bottom surface of water storage tank (5), the bottom of cleaning frame (20) is provided with the fixture block with bayonet socket matched with, and the bottom of cleaning frame (20) is rotated at least and is installed one brush arm (23), every the one end that brush arm (23) is close to the inside bottom surface of water storage tank (5) is provided with scrapes strip (24), and the end of every brush arm (23) is rotated and is installed terminal strip (25), every the one end that brush arm (23) were kept away from in terminal strip (25) of scraping is provided with the balancing weight, and every terminal strip (25) of scraping is provided with the coil spring with the rotation junction of brush arm (23).

8. The integrated intelligent water supply system according to claim 7, wherein: the one end that scraping strip (24) was kept away from in brush arm (23) is provided with friction ring (26), the one end of cleaning frame (20) connecting cable (17) is provided with clearance motor (21), install action wheel (22) on clearance motor (21), action wheel (22) contact with friction ring (26), still encircle on cleaning frame (20) and be provided with rubber bag (27), rubber bag (27) are connected with the air pump through the pipeline, the inside top of water storage tank (5) still is provided with annular water pipe, annular water pipe is connected with high-rise branch pipe (2) through little pipeline, the middle part of little pipeline is provided with the solenoid valve.

9. The integrated intelligent water supply system according to claim 1, wherein: the filtering mechanism comprises a filter (28) and a movable membrane support (29), wherein the movable membrane support (29) is arranged inside the filter (28) in a sliding mode, cover plates capable of being opened are arranged at two ends of the movable membrane support (29), two ceramic membranes (30) are arranged inside the movable membrane support (29), a handle is arranged on the movable membrane support (29), and the handle extends out of the filter (28).