CN113585393A

CN113585393A - Water supply all-area networking water tank regulation, storage, energy saving and water saving dispatching system

Info

Publication number: CN113585393A
Application number: CN202110953568.5A
Authority: CN
Inventors: 吕亚军; 吕夏娥; 汤升华; 胡淑敏; 魏成涛; 喻剑飞
Original assignee: Etit Smart Water Technology Co ltd
Current assignee: Etit Smart Water Technology Co ltd
Priority date: 2021-08-19
Filing date: 2021-08-19
Publication date: 2021-11-02

Abstract

The invention belongs to the technical field of a storage, energy-saving and water-saving scheduling system of a water supply whole-area networked water tank, and particularly relates to a storage, energy-saving and water-saving scheduling system of a water supply whole-area networked water tank. This water supply full regional networking water tank regulation energy-saving and water-saving dispatch system is convenient for separately intake to the water tank, avoids the water tank box to receive the impact and damage, and is convenient for clear up the deposit of water tank bottom, avoids quality of water to receive the pollution, can the accurate water level of measuring the water tank, is favorable to the user to schedule the water consumption.

Description

Water supply all-area networking water tank regulation, storage, energy saving and water saving dispatching system

Technical Field

The invention relates to the technical field of a storage-regulating, energy-saving and water-saving dispatching system of a water supply all-area networked water tank, in particular to a storage-regulating, energy-saving and water-saving dispatching system of a water supply all-area networked water tank.

Background

Along with people's requirement to quality of life is higher and higher, the water consumption of every district also is constantly improving, to production system water door, production pressure also follows the increase, current water supply regional networking water tank regulation energy-saving water conservation dispatch system can alleviate because daytime supplies water load big, the problem of production system water department's production pressure increase, but this kind of water supply regional networking water tank regulation energy-saving water conservation dispatch system still has following several problems:

1. the water making department carries out centralized water feeding on the water inlet pipe, and water flows enter the water tank through the water inlet pipe to impact the tank body of the water tank, so that the tank body can be damaged;

2. after the water tank is used for a long time, impurities in water can be deposited at the bottom of the water tank, so that the water quality is polluted;

3. the water level of the water tank is difficult to monitor, and the user is inconvenient to dispatch water by monitoring the change of the water quantity in the water tank.

Aiming at the problems, innovative design is urgently needed on the basis of the original water supply all-area networking water tank storage regulation energy-saving and water-saving dispatching system.

Disclosure of Invention

The invention aims to provide a water supply whole-area networked water tank storage regulation energy-saving and water-saving dispatching system, which aims to solve the problems that the existing water supply whole-area networked water tank storage regulation energy-saving and water-saving dispatching system in the background art causes water flow to intensively enter a water tank, damages the tank body of the water tank, deposits at the bottom of the water tank to pollute the water quality and is inconvenient to monitor the water level.

In order to achieve the purpose, the invention provides the following technical scheme: a storage energy-saving and water-saving dispatching system of a water supply whole-area networking water tank comprises a water tank body, a water outlet pipe and a second motor, wherein water storage is reserved in the water tank body, a floater is arranged on the surface of the water storage, a liquid level measuring rod is arranged above the floater, a positioning block is arranged on the outer side of the liquid level measuring rod, an infrared inductor is arranged on the right side of the end of the liquid level measuring rod, a first motor is arranged on the outer side of the infrared inductor, a first connecting shaft is arranged in the middle of the first motor, a cam is fixed on the outer side of the first connecting shaft, a squeezing plate is arranged on the end side of the cam, a lifting rod is fixed below the squeezing plate, a first spring is connected on the outer side of the lifting rod, a plug is fixed at the end of the lifting rod, a water outlet is formed in the outer side of the plug, and a first fixing block is arranged on the outer side of the lifting rod, and the end side of the first fixed block is fixed with a sealing ring, a water inlet pipe is arranged above the sealing ring, a water inlet valve control switch is arranged outside the water inlet pipe, a water inlet amount monitoring unit is arranged above the water inlet valve control switch, a support rod is arranged above the water inlet pipe, a water outlet pipe is fixed at the bottom of the water tank body, a water outlet valve control switch is arranged outside the water outlet pipe, a water outlet amount monitoring unit is arranged above the water outlet valve control switch, the second motor is fixed above the inner wall of the water tank body, a second connecting shaft is arranged below the second motor, a protective frame is arranged outside the second motor, a second fixed block is arranged below the protective block, a limiting block is arranged in the middle position of the second fixed block, and a second spring is nested outside the limiting block, a clamping block is fixed in the middle of the second connecting shaft, a connecting disc is arranged above the clamping block, a third connecting shaft is installed in the middle of the connecting disc, a rotating rod is arranged on the outer side of the third connecting shaft, a fourth connecting shaft is installed at the end of the rotating rod, a rotating plate is arranged on the outer side of the fourth connecting shaft, a brush is installed at the bottom of the rotating plate, a fifth connecting shaft is arranged on the end side of the rotating plate, and a third fixing block is installed at the end of the fifth connecting shaft.

Optionally, the cams are distributed on the outer side of the first connecting shaft at equal intervals, and the cams and the water tank body form a rotating installation structure through a first motor.

Optionally, the lifting rod and the positioning block form a lifting installation structure through a buoy, the outer diameter of the lifting rod is the same as the inner diameter of the positioning block, and the end of the lifting rod is arranged in a conical shape.

Optionally, the number of the first springs is 2, and the lifting rod and the water tank body form a lifting installation structure through the first springs.

Optionally, the plug is tightly attached to the water discharge opening, the plug is coaxially connected with the lifting rod, and the cross section of the plug is in a trapezoidal arrangement.

Optionally, the bracing piece is equidistant distributes in the outside of inlet tube, and inlet tube and bracing piece be perpendicular connection to the bracing piece adopts welding integration setting with the water tank body.

Optionally, the limiting block and the second fixed block form a sliding installation structure through a second spring, and the number of the second fixed blocks is 2 about the central line of the protection frame.

Optionally, the rotating rod and the connecting disc form a rotating installation structure through a third connecting shaft, and the inner diameter of the connecting disc is the same as the outer diameter of the second connecting shaft.

Optionally, the rotating plates are distributed on the outer side of the third fixing block at equal angles, and the third fixing block and the second connecting shaft are integrally welded.

Compared with the prior art, the invention has the beneficial effects that: the water supply whole-area networking water tank regulation, energy saving and water saving dispatching system is convenient for separately feeding water into the water tank, avoids the damage of the tank body of the water tank due to impact, is convenient for cleaning the sediment at the bottom of the water tank, avoids the pollution of water quality, can accurately measure the water level of the water tank and is beneficial to dispatching water for a user;

1. when a user needs to feed water into the water tank body, a water inlet valve control switch is turned on, after water flows into the water inlet pipe, a first motor is turned on, the first motor drives a first connecting shaft to rotate, a cam is fixed on the outer side of the first connecting shaft and downwards abuts against an extrusion plate, the extrusion plate downwards moves, a lifting plate is fixed below the extrusion plate, a plug is fixed at the end of the lifting plate and downwards moves, water flows into the water tank body through a water discharge port, a first spring is installed on the outer side of a lifting rod, after the cam rotates for half a circle, the lifting rod is reset under the action of the first spring so as to reciprocate, and the water flows into the water tank body intermittently, so that the water tank body is prevented from being damaged due to the fact that the water flows into the water tank in a concentrated mode, a sealing ring is installed on the outer side of the lifting rod and is made of rubber materials, and the water can be prevented from overflowing out of the water inlet pipe;

2. when the water tank body is used for a long time and the bottom of the tank is precipitated, the limiting block is pulled, the limiting block slides outwards, the connecting disc at the end of the limiting block is separated from the limiting block and slides to the upper part of the clamping block under the action of gravity, the limiting block is limited at the middle position of the second connecting shaft, a third connecting shaft is arranged on the outer side of the connecting disc, a rotating rod is arranged on the outer side of the third connecting shaft and rotates downwards around the third connecting shaft, a fourth connecting shaft is arranged at the end of the rotating rod, the fourth connecting shaft is arranged above the rotating plate and slides above the rotating plate, the rotating plate rotates around a fifth connecting shaft until the rotating plate rotates to a position parallel to the bottom of the tank body, a hairbrush is arranged below the rotating plate and contacts the bottom of the water tank body, the fifth connecting shaft is fixed on the outer side of the third fixing block, and the third connecting shaft and the second connecting shaft are integrally welded, the motor is turned on, the motor drives the second connecting shaft to rotate, the second connecting shaft drives the rotating plate to rotate through the third fixing block, the hairbrush below the rotating plate cleans the sediment at the bottom of the water tank body, the cleaned sediment flows into the outside through the water outlet pipe, and the sediment at the bottom of the water tank body is cleaned, so that the water quality can be prevented from being influenced;

3. when the user need monitor the water tank water level, open infrared inductor, infrared inductor detects the height of liquid level measurement pole, when rivers pass through the outlet pipe and send to each cell, the storage water reduces, the cursory of storage water top descends, install the liquid level measurement pole on the cursory, the liquid level measurement pole moves down, infrared inductor detects the change of water level height, send data to the system, intake monitoring unit and water yield monitoring unit are installed respectively to the top of inlet tube and outlet pipe, the data transmission system that water yield monitoring unit and water yield monitoring unit will be monitored, the system passes through AI calculation, rationally allocate the whole regional water, alleviate the pressure of production water department.

Drawings

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

FIG. 2 is a schematic overall side view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic view of the connection structure of the lifting rod and the water inlet pipe of the present invention;

FIG. 5 is a schematic view of the connection structure of the cam and the pressing plate according to the present invention;

FIG. 6 is a schematic view of a connection structure of the connection plate and the limiting block when the connection plate contacts with the limiting block;

FIG. 7 is an enlarged view of the structure at A in FIG. 3 according to the present invention;

FIG. 8 is a schematic view of a connection structure of a fourth connecting shaft and a rotating plate according to the present invention;

fig. 9 is a flow chart of water supply scheduling according to the present invention.

In the figure: 1. a water tank body; 2. storing water; 3. floating; 4. a liquid level measuring rod; 5. positioning blocks; 6. an infrared sensor; 7. a first motor; 8. a first connecting shaft; 9. a cam; 10. a pressing plate; 11. a lifting rod; 12. a first spring; 13. a plug; 14. a water discharge outlet; 15. a first fixed block; 16. a seal ring; 17. a water inlet pipe; 18. a water inlet valve controls the switch; 19. a water inflow monitoring unit; 20. a support bar; 21. a water outlet pipe; 22. the water outlet valve controls the switch; 23. a water yield monitoring unit; 24. a second motor; 25. a second connecting shaft; 26. a protective frame; 27. a second fixed block; 28. a limiting block; 29. a second spring; 30. a clamping block; 31. a connecting disc; 32. a third connecting shaft; 33. a rotating rod; 34. a fourth connecting shaft; 35. a rotating plate; 36. a brush; 37. a fifth connecting shaft; 38. and a third fixed block.

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: a storage, energy-saving and water-saving dispatching system of a water supply whole-area networked water tank comprises a water tank body 1, stored water 2, a float 3, a liquid level measuring rod 4, a positioning block 5, an infrared sensor 6, a first motor 7, a first connecting shaft 8, a cam 9, a squeezing plate 10, a lifting rod 11, a first spring 12, a plug 13, a water discharge port 14, a first fixing block 15, a sealing ring 16, a water inlet pipe 17, a water inlet valve control switch 18, a water inlet amount monitoring unit 19, a supporting rod 20, a water outlet pipe 21, a water outlet valve control switch 22, a water outlet amount monitoring unit 23, a second motor 24, a second connecting shaft 25, a protective frame 26, a second fixing block 27, a limiting block 28, a second spring 29, a clamping block 30, a connecting plate 31, a third connecting shaft 32, a rotating rod 33, a fourth connecting shaft 34, a rotating plate 35, a hairbrush 36, a fifth connecting shaft 37 and a third fixing block 38, wherein the stored water 2 is reserved in the water tank body 1, a floater 3 is arranged on the surface of the stored water 2, a liquid level measuring rod 4 is arranged above the floater, a positioning block 5 is arranged on the outer side of the liquid level measuring rod 4, an infrared sensor 6 is arranged on the right side of the end of the liquid level measuring rod 4, a first motor 7 is arranged on the outer side of the infrared sensor 6, a first connecting shaft 8 is arranged in the middle of the first motor 7, a cam 9 is fixed on the outer side of the first connecting shaft 8, a squeezing plate 10 is arranged on the end side of the cam 9, a lifting rod 11 is fixed below the squeezing plate 10, a first spring 12 is connected on the outer side of the lifting rod 11, a plug 13 is fixed at the end of the lifting rod 11, a water outlet 14 is arranged on the outer side of the plug 13, a first fixing block 15 is arranged on the outer side of the lifting rod 11, a sealing ring 16 is fixed on the end side of the first fixing block 15, a water inlet pipe 17 is arranged above the sealing ring 16, a water inlet valve control switch 18 is arranged on the outer side of the water inlet pipe 17, a water inlet amount monitoring unit 19 is arranged above the water inlet valve control switch 18, a support rod 20 is arranged above the water inlet pipe 17, a water outlet pipe 21 is fixed at the bottom of the water tank body 1, a water outlet valve control switch 22 is arranged on the outer side of the water outlet pipe 21, a water outlet amount monitoring unit 23 is arranged above the water outlet valve control switch 22, a second motor 24 is fixed above the inner wall of the water tank body 1, a second connecting shaft 25 is arranged below the second motor 24, a protective frame 26 is arranged on the outer side of the second motor 24, a second fixed block 27 is arranged below the protective block, a limit block 28 is arranged in the middle of the second fixed block 27, a second spring 29 is nested on the outer side of the limit block 28, and a fixture block 30 is fixed in the middle of the second connecting shaft 25, a connecting disc 31 is arranged above the clamping block 30, a third connecting shaft 32 is arranged in the middle of the connecting disc 31, a rotating rod 33 is arranged outside the third connecting shaft 32, a fourth connecting shaft 34 is arranged at the end of the rotating rod 33, a rotating plate 35 is arranged outside the fourth connecting shaft 34, a brush 36 is arranged at the bottom of the rotating plate 35, a fifth connecting shaft 37 is arranged at the end side of the rotating plate 35, and a third fixing block 38 is arranged at the end of the fifth connecting shaft 37;

the cams 9 are distributed on the outer side of the first connecting shaft 8 at equal intervals, the cams 9 and the water tank body 1 form a rotating installation structure through the first motor 7, and the plurality of cams 9 are arranged on the outer side of the first connecting shaft 8, so that the extrusion plate 10 stably moves when being extruded by the cams 9, and the stability of the equipment during operation is improved;

the lifting rod 11 and the positioning block 5 form a lifting installation structure through the buoy 3, the outer diameter of the lifting rod 11 is the same as the inner diameter of the positioning block 5, the end head of the lifting rod 11 is arranged in a conical shape, and the lifting rod 11 is tightly attached to the positioning block 5, so that the lifting rod 11 is prevented from shaking left and right during lifting, and the accuracy of water level monitoring is improved;

the number of the first springs 12 is 2, the lifting rod 11 and the water tank body 1 form a lifting installation structure through the first springs 12, after the cam 9 rotates for a half cycle, the extrusion plate 10 is separated from the cam 9, the first springs 12 reset upwards, the lifting rod 11 is driven to move upwards, after the cam 9 rotates for a cycle, the action of propping against the extrusion plate 10 can be repeated, and in such a reciprocating way, the lifting rod 11 drives the plug 13 to intermittently control the water flow to enter, and the impact of the water flow on the water tank body is relieved;

the plug 13 is tightly attached to the water discharge port 14, the plug 13 is coaxially connected with the lifting rod 11, the section of the plug 13 is in a trapezoidal arrangement, the plug 13 is tightly attached to the water discharge port 14 to prevent water from flowing out of the water discharge port 14, and the section of the plug 13 is in a trapezoidal arrangement to facilitate the alleviation of impact of the water on the water inlet pipe 17;

the support rods 20 are distributed on the outer side of the water inlet pipe 17 at equal intervals, the water inlet pipe 17 is vertically connected with the support rods 20, the support rods 20 and the water tank body 1 are integrally welded, and the support rods 20 are arranged on the outer side of the water inlet pipe 17, so that the water inlet pipe 17 can be fastened on the water tank body 1, the water inlet pipe 17 is prevented from falling off after being used for a long time, and the service life of the water inlet pipe 17 is prolonged;

the limiting blocks 28 and the second fixing blocks 27 form a sliding installation structure through

second springs

29, 2 second fixing blocks 27 are symmetrically arranged on the center line of the protection frame 26, the limiting blocks 28 are pulled, the limiting blocks 28 are separated from the connecting disc 31, the connecting disc 31 slides onto the clamping block 30, after the bottom of the box is settled and cleaned, the connecting disc 31 is lifted upwards, the connecting disc 31 extrudes the limiting blocks 28, the limiting blocks 28 slide outwards, after the connecting disc 31 is lifted to a specified position, the limiting blocks 28 fix the connecting disc 31 below the protection frame 26 under the action of the second springs 29, and through the arrangement of the 2 second fixing blocks 27, the two sides of the connecting disc 31 are stressed in balance and fastened below the protection frame 26;

the rotating rod 33 and the connecting disc 31 form a rotating installation structure through the third connecting shaft 32, the inner diameter of the connecting disc 31 is the same as the outer diameter of the second connecting shaft 25, and the connecting disc 31 is tightly attached to the second connecting shaft 25, so that the connecting disc 31 is prevented from shaking left and right when sliding on the outer side of the second connecting shaft 25;

the rotating plates 35 are distributed on the outer sides of the third fixing blocks 38 at equal angles, the third fixing blocks 38 and the second connecting shaft 25 are integrally welded, and the rotating plates 35 are arranged on the outer sides of the third fixing blocks 38, so that the bottom sediment of the box can be cleaned more quickly by the brushes 36 below the rotating plates 35, and water quality is not affected.

The working principle is as follows: when the water supply full-area networking water tank storage regulation energy-saving and water-saving dispatching system is used, when a user needs to feed water into a water tank body 1, a water inlet valve control switch 18 is opened, after the water flows into a water inlet pipe 17, a first motor 7 is opened, the first motor 7 drives a first connecting shaft 8 to rotate, a cam 9 is fixed on the outer side of the first connecting shaft 8, the cam 9 downwards supports against a squeezing plate 10, the squeezing plate 10 downwards moves, a lifting plate is fixed below the squeezing plate 10, a plug 13 is fixed at the end of the lifting plate, the plug 13 downwards moves, the water flows into the water tank body 1 through a water outlet 14, a first spring 12 is installed on the outer side of a lifting rod 11, after the cam 9 rotates for half a circle, the lifting rod 11 is reset under the action of the first spring 12 to reciprocate, the water intermittently flows into the water tank body 1, the phenomenon that the water tank body is damaged due to the concentrated water flow rushing into the water tank is avoided, a sealing ring 16 is installed on the outer side of the lifting rod 11, the sealing ring 16 is made of rubber materials and can prevent water flow from overflowing the water inlet pipe 17, when the bottom of the water tank body 1 is settled after being used for a long time, the limiting block 28 is pulled, the limiting block 28 slides outwards, the connecting disc 31 at the end of the limiting block 28 is separated from the limiting block 28 and slides to the upper part of the clamping block 30 under the action of gravity, the limiting block 30 is limited at the middle position of the second connecting shaft 25, the third connecting shaft 32 is installed at the outer side of the connecting disc 31, the rotating rod 33 is arranged at the outer side of the third connecting shaft 32, the rotating rod 33 rotates downwards around the third connecting shaft 32, the end of the rotating rod 33 is provided with the fourth connecting shaft 34, the fourth connecting shaft 34 is installed above the rotating plate 35, the fourth connecting shaft 34 slides above the rotating plate 35, the rotating plate 35 can rotate around the fifth connecting shaft 37 until the rotating plate 35 rotates to a position parallel to the bottom of the water tank body, the hairbrush 36 is installed below the rotating plate 35, the hairbrush 36 contacts the bottom of the water tank body 1, the fifth connecting shaft 37 is fixed on the outer side of the third fixing block 38, the third fixing and the second connecting shaft 25 are integrally welded, the motor is started and drives the second connecting shaft 25 to rotate, the second connecting shaft 25 drives the rotating plate 35 to rotate through the third fixing block 38, the hairbrush 36 below the rotating plate 35 cleans the sediment at the bottom of the water tank body 1, the cleaned sediment flows into the outside through the water outlet pipe 21, the sediment at the bottom of the water tank body 1 is cleaned, the water quality can be prevented from being influenced, when a user needs to monitor the water level of the water tank, the infrared sensor 6 is started, the infrared sensor 6 detects the height of the liquid level measuring rod 4, when water flow is sent to each cell through the water outlet pipe 21, the stored water 2 is reduced, the buoy 3 above the stored water 2 is descended, and the liquid level measuring rod 4 is installed on the buoy 3, the liquid level measuring rod 4 moves downwards, the infrared sensor 6 detects the change of the water level height and sends data to the system, the water inlet monitoring unit 19 and the water outlet monitoring unit 23 are respectively installed above the water inlet pipe 17 and the water outlet pipe 21, the water quantity monitoring unit and the water outlet monitoring unit 23 send the monitored data to the system, and the system reasonably allocates water in the whole area through AI calculation and relieves the pressure of a production water making department.

Finally, it should be noted that the above-mentioned contents are only used for illustrating the technical solutions of the present invention, and not for limiting the protection scope of the present invention, and that the simple modifications or equivalent substitutions of the technical solutions of the present invention by those of ordinary skill in the art can be made without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. The utility model provides a water supply whole regional networking water tank regulation energy-saving water conservation dispatch system, includes water tank body (1), outlet pipe (21) and second motor (24), its characterized in that: the water tank comprises a water tank body (1), wherein a stored water (2) is reserved in the water tank body (1), a floater (3) is arranged on the surface of the stored water (2), a liquid level measuring rod (4) is arranged above the floater, a positioning block (5) is arranged on the outer side of the liquid level measuring rod (4), an infrared inductor (6) is arranged on the right side of the end of the liquid level measuring rod (4), a first motor (7) is arranged on the outer side of the infrared inductor (6), a first connecting shaft (8) is arranged in the middle of the first motor (7), a cam (9) is fixed on the outer side of the first connecting shaft (8), a squeezing plate (10) is arranged on the end side of the cam (9), a lifting rod (11) is fixed below the squeezing plate (10), a first spring (12) is connected on the outer side of the lifting rod (11), and a plug (13) is fixed at the end of the lifting rod (11), the water outlet is arranged on the outer side of the plug (13), the first fixing block (15) is arranged on the outer side of the lifting rod (11), the sealing ring (16) is fixed on the end side of the first fixing block (15), the water inlet pipe (17) is arranged above the sealing ring (16), the water inlet valve control switch (18) is arranged on the outer side of the water inlet pipe (17), the water inflow monitoring unit (19) is arranged above the water inlet valve control switch (18), the supporting rod (20) is arranged above the water inlet pipe (17), the water outlet pipe (21) is fixed at the bottom of the water tank body (1), the water outlet valve control switch (22) is arranged on the outer side of the water outlet pipe (21), the water outflow monitoring unit (23) is arranged above the water outlet valve control switch (22), and the second motor (24) is fixed above the inner wall of the water tank body (1), a second connecting shaft (25) is arranged below the second motor (24), the second connecting shaft (25) is arranged outside the second motor (24), a protective frame (26) is arranged outside the second motor (24), a second fixing block (27) is arranged below the protective block, a limiting block (28) is arranged in the middle of the second fixing block (27), a second spring (29) is nested outside the limiting block (28), a clamping block (30) is fixed in the middle of the second connecting shaft (25), a connecting disc (31) is arranged above the clamping block (30), a third connecting shaft (32) is arranged in the middle of the connecting disc (31), a rotating rod (33) is arranged outside the third connecting shaft (32), a fourth connecting shaft (34) is arranged at the end of the rotating rod (33), and a rotating plate (35) is arranged outside the fourth connecting shaft (34), the bottom of the rotating plate (35) is provided with a hairbrush (36), the end side of the rotating plate (35) is provided with a fifth connecting shaft (37), and the end of the fifth connecting shaft (37) is provided with a third fixing block (38).

2. The system for regulating, storing, saving energy and saving water of the water supply all-area networking water tank according to claim 1, characterized in that: the cams (9) are distributed on the outer side of the first connecting shaft (8) at equal intervals, and the cams (9) and the water tank body (1) form a rotating installation structure through the first motor (7).

3. The system for regulating, storing, saving energy and saving water of the water supply all-area networking water tank according to claim 1, characterized in that: the lifting rod (11) and the positioning block (5) form a lifting installation structure through the buoy (3), the outer diameter of the lifting rod (11) is the same as the inner diameter of the positioning block (5), and the end of the lifting rod (11) is arranged in a conical shape.

4. The system for regulating, storing, saving energy and saving water of the water supply all-area networking water tank according to claim 1, characterized in that: the number of the first springs (12) is 2, and the lifting rod (11) and the water tank body (1) form a lifting installation structure through the first springs (12).

5. The system for regulating, storing, saving energy and saving water of the water supply all-area networking water tank according to claim 1, characterized in that: the plug (13) is tightly attached to the water discharge opening (14), the plug (13) is coaxially connected with the lifting rod (11), and the cross section of the plug (13) is in a trapezoidal arrangement.

6. The system for regulating, storing, saving energy and saving water of the water supply all-area networking water tank according to claim 1, characterized in that: the bracing piece (20) equidistant distribution is in the outside of inlet tube (17), and inlet tube (17) and bracing piece (20) are connected for perpendicular to bracing piece (20) and water tank body (1) adopt welding integration to set up.

7. The system for regulating, storing, saving energy and saving water of the water supply all-area networking water tank according to claim 1, characterized in that: the limiting blocks (28) and the second fixing blocks (27) form a sliding installation structure through second springs (29), and the number of the second fixing blocks (27) is 2 in symmetry with the center line of the protection frame (26).

8. The system for regulating, storing, saving energy and saving water of the water supply all-area networking water tank according to claim 1, characterized in that: the rotating rod (33) and the connecting disc (31) form a rotating installation structure through a third connecting shaft (32), and the inner diameter of the connecting disc (31) is the same as the outer diameter of the second connecting shaft (25).

9. The system for regulating, storing, saving energy and saving water of the water supply all-area networking water tank according to claim 1, characterized in that: the rotating plates (35) are distributed on the outer sides of the third fixing blocks (38) at equal angles, and the third fixing blocks (38) and the second connecting shaft (25) are integrally welded.