CN112962721A

CN112962721A - Intelligent water-saving water supply equipment

Info

Publication number: CN112962721A
Application number: CN202110158864.6A
Authority: CN
Inventors: 崔忠朝; 梁亚正
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-04
Filing date: 2021-02-04
Publication date: 2021-06-15

Abstract

The invention relates to the technical field of water supply equipment, and discloses intelligent water-saving water supply equipment which comprises a box body, a water supply system and a rainwater purification system, wherein a reservoir is arranged at the top of the box body, a control cabinet protection box is arranged on one side of the box body and one side of the reservoir, the water supply system and the rainwater purification system are arranged in the box body, the water supply system is used for directly supplying water by using the pressure of a tap water pipe network and outputting tap water which is automatically started and stopped at a certain flow rate and a certain lift in unit time, and the rainwater purification system is used for introducing collected rainwater into the water supply system after precipitation, filtration and disinfection treatment, so that water resources. This intelligence water conservation water supply equipment collects the rainwater through the cistern, and the rainwater can let in water supply system after deposiing, filtering, disinfecting, and when equipment need supply water for the user, the inside water of disinfect box is gone into the third water pump through the branch pump that intakes, and then supplies water for the user through water supply system is preferred, and the make full use of water resource realizes the water conservation and supplies water.

Description

Intelligent water-saving water supply equipment

Technical Field

The invention relates to the technical field of water supply equipment, in particular to intelligent water-saving water supply equipment.

Background

Water supply equipment is because pressure is not enough, can't reach the height or the stream of user's water, and the special professional equipment of novel environmental protection and energy saving who develops and designs specially, including no negative pressure frequency conversion water supply equipment, no tower frequency conversion water supply equipment, bimodulus frequency conversion water supply equipment, domestic integral type water supply equipment, vapour-pressure type water supply equipment etc.. The non-negative pressure variable frequency water supply equipment is a secondary water supply equipment which can be directly connected with a tap water pipe network and does not produce any side effect on the tap water pipe network, and the non-negative pressure variable frequency water supply equipment adopts a water supply mode that a municipal pipe network is used as a water source and is pressurized again on the basis of the original pressure, has good energy-saving effect, does not produce secondary pollution of water quality, effectively prevents the water supply equipment from sucking the water source of the municipal pipe network due to lack of water pressure, and is widely applied to various built, under-built and to-be-built residential districts, office buildings, hotels and restaurants, schools, hospitals and the like.

The existing non-negative pressure variable frequency water supply equipment directly conveys treated tap water to a user through a system by utilizing the pressure of a tap water pipe network, and only tap water is introduced into a water inlet pipe, so that the existing non-negative pressure variable frequency water supply equipment only can play a role in conveying the tap water and cannot save water resources from the source; when the municipal pipe network stops water supply, the existing pressurizing unit without the negative pressure variable frequency water supply equipment can automatically stop running, a user cannot use water, and the water supply equipment can recover normal water supply after the municipal pipe network water supply is recovered, so that inconvenience is brought to life of the user; in addition, the water supply equipment consists of a plurality of pipelines, the temperature is low in winter, the pipelines of the water supply equipment are easy to freeze when no water flows in the pipelines, the life of a user is influenced, even water pipes are frozen, particularly, no water is used for a long time in winter and at night, and the pipelines of the water supply equipment are easy to freeze.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides intelligent water-saving water supply equipment which has the advantages of realizing water-saving water supply by using purified rainwater, supplying emergency water when a municipal pipe network stops supplying water, preventing pipelines of the water supply equipment from being frozen and the like, and solves the problems that water can not be supplied from a water source of the water supply equipment in a water-saving mode, water can not be supplied when the municipal pipe network stops supplying water, and the pipelines of the water supply equipment are easy to freeze in winter.

(II) technical scheme

In order to solve the technical problems that water can not be saved from a water source of water supply equipment for supplying water, the water can not be supplied when a municipal pipe network stops supplying water and the pipeline of the water supply equipment is easy to freeze in winter, the invention provides the following technical scheme:

an intelligent water-saving water supply device comprises a box body, a water supply system and a rainwater purification system, wherein a reservoir is arranged at the top of the box body, a control cabinet protection box is arranged at one side of the box body and the reservoir, the water supply system and the rainwater purification system are arranged in the box body, the water supply system is used for directly supplying water by using the pressure of a tap water pipe network, tap water which is automatically started and stopped and outputs a certain flow and a certain lift is output in unit time, the rainwater purification system is used for leading collected rainwater into the water supply system after precipitation, filtration and disinfection treatment, the water supply system effectively saves water resources, the water supply system comprises a steady flow adjusting device, the top and the bottom of the steady flow adjusting device are respectively and fixedly connected with a first pipeline and a second pipeline, a first branch pipe and a second branch pipe are arranged at the upper end of the output end of the second pipeline, and a third pipeline is, the input of third pipeline is provided with the overhead tank, the output both sides difference fixedly connected with outlet pipe and the backward flow connecting pipe of third pipeline, rainwater purification system is including deposiing device, filter equipment and degassing unit, deposit the device bottom with be provided with first conveyer pipe between the filter equipment top, degassing unit sets up the filter equipment bottom.

Preferably, the steady flow regulating device comprises a steady flow regulator, the bottom and the bottom of the steady flow regulator are respectively provided with a water inlet and a water outlet, the water inlet and the water outlet are respectively and fixedly connected with the output end of the first pipeline and the input end of the second pipeline, the top of the steady flow regulator is provided with a negative pressure suppressor and a first pressure gauge, the bottom of the steady flow regulator is provided with a blowdown valve and support plates, the support plates are fixedly installed on two sides of the lower end of the steady flow regulator, and the second pipeline penetrates through the surface of one of the support plates.

Preferably, first pipeline surface is provided with the Y shape filter, first branch pipe sets up second branch pipe both sides, first branch pipe fixed surface installs first water pump, butterfly valve and first check valve, the butterfly valve sets up respectively first water pump both ends, first check valve sets up first water pump rather than the output between the butterfly valve, second branch pipe surface has set gradually second check valve and solenoid valve, third pipeline surface is provided with second manometer and flow sensor, the second manometer with flow sensor's detection end probes respectively inside the third pipeline, the outlet pipe with the backward flow connecting pipe surface is provided with out water butterfly valve and backward flow respectively.

Preferably, the sedimentation device comprises a sedimentation tank, the upper end of the sedimentation tank is arranged to be cylindrical, the lower end of the sedimentation tank is arranged to be conical, a liquid level sensor is arranged in the sedimentation tank, a connecting pipe is arranged at the top of the sedimentation tank, a water inlet valve is arranged on the surface of the connecting pipe, a water outlet valve is arranged at the position of a discharge port at the bottom end of the sedimentation tank, a first supporting seat is arranged on the top surface of the sedimentation tank, and a stirring mechanism is arranged between the first supporting seat and the top surface of the sedimentation tank in a penetrating manner.

Preferably, rabbling mechanism includes the motor, motor fixed mounting be in first supporting seat upper surface, motor bottom fixedly connected with pivot, pivot surface both sides all are provided with the puddler, the inside lower extreme of setting tank corresponds the puddler end is provided with the connecting block respectively, the oblique side of connecting block fixed mounting respectively has the guide plate, the guide plate with the setting tank lower extreme inner wall is laminated mutually.

Preferably, filter equipment includes the rose box, rose box upper end opening part is provided with the fixed plate, the fixed plate surface runs through and is provided with connect the through-hole, the inside second filter plate that is provided with of rose box, the inside bottom surface of rose box with the regional packing between the second filter plate lower surface has the active carbon adsorption layer, the rose box bottom is provided with the second conveyer pipe.

Preferably, degassing unit includes the disinfect box, disinfect box side surface runs through and is provided with the mounting hole, the outside top surface of disinfect box is provided with second supporting seat and third supporting seat respectively, third supporting seat upper surface is provided with the third water pump, the input fixedly connected with inlet tube of third water pump, the inlet tube surface is provided with first butterfly valve of intaking, the inlet tube surface is located the third water pump with position fixedly connected with water inlet branch pipe between the first butterfly valve of intaking, water inlet branch pipe surface is provided with the second butterfly valve of intaking, water inlet branch pipe bottom is visited into the inside lower extreme of disinfect box.

Preferably, the inside upper end of cistern is provided with first filter plate, the cistern passes through the connecting pipe with the inside intercommunication of settling tank, the discharge gate of settling tank bottom with the input fixed connection of first conveyer pipe, first conveyer pipe surface is provided with the second water pump, the output of first conveyer pipe with connecting hole connects, the second conveyer pipe runs through the second supporting seat with the disinfect box top surface, the output of third water pump with first pipeline fixed connection, the mounting hole with the output fixed connection of backward flow connecting pipe.

Preferably, the two sides of the box body are respectively provided with a first box door, the surface of the first box door is provided with a heat dissipation hole, the output end of the water outlet pipe and the input end of the water inlet pipe respectively penetrate through the surfaces of the first box doors, a temperature sensor is arranged inside the box body, the bottom surface inside the box body is provided with a mounting groove, and the second water pump is arranged inside the mounting groove.

Preferably, a variable frequency control cabinet is arranged inside the control cabinet protection box, the temperature sensor, the water supply system and the rainwater purification system are respectively connected with the variable frequency control cabinet through electric signals, a second box door is arranged on the side face of the control cabinet protection box, and heat dissipation holes are formed in the surface of the second box door.

(III) advantageous effects

Compared with the prior art, the invention provides an intelligent water-saving water supply device, which has the following beneficial effects:

1. this intelligence water conservation water supply equipment, collect the rainwater through the cistern, the rainwater is deposited through inside the connecting pipe inflow settling tank, the water after the sediment is filtered inside the rose box through first conveyer pipe pump by the second water pump, the water after the filtration is disinfected through second conveyer pipe inflow disinfection incasement portion again, the back is accomplished in the disinfection, when equipment need supply water for the user, first butterfly valve of intaking is closed, make the running water can't let in from the input of inlet tube, and the second butterfly valve of intaking is opened, make the inside water of disinfect box pass through the branch pump of intaking and go into the third water pump, and then supply water for the user preferentially through water supply system, the make full use of water resource, realize water conservation and supply water.

2. The intelligent water-saving water supply equipment supplies water through a water supply system, water enters from a first pipeline, after impurities flowing into a medium are filtered and removed through a Y-shaped filter, the water flows to a second pipeline from the interior of a steady flow regulator and then flows into a third pipeline from a first branch pipe or a second branch pipe, a pressure tank is started to pressurize, so that the water flows out from a water outlet pipe opened by a water outlet butterfly valve to supply water for users, after the water enters the interior of the steady flow regulator, air in the tank is discharged from a negative pressure suppressor, after the water is full of water, the negative pressure suppressor is automatically closed, when the pressure of a tap water pipe network can meet the water demand, the water flows through the second branch pipe through the second pipeline to directly supply water, when the pressure of the tap water pipe network can not meet the water demand, the pressure value detected by a second pressure gauge is fed back to a variable frequency control cabinet, a first water pump runs, realize the constant pressure water supply.

3. This intelligence water conservation water supply equipment, through rainwater purification system to the emergent water supply of user when municipal pipe network cuts off the water, the input of inlet tube does not have the running water and gets into, and the first butterfly valve that intakes of variable frequency control cabinet control is closed, and the butterfly valve that intakes of second is opened, and the third water pump still can let in water supply system with the water in the disinfect box, and is emergent for the user.

4. This intelligence water conservation water supply equipment, through the inside temperature of temperature sensor real-time supervision box, when the temperature is less than 2 ℃, the temperature feedback that temperature sensor detected to variable frequency control cabinet, when the user stops the water, variable frequency control cabinet control goes out the water butterfly valve and closes, backward flow solenoid valve opens, go into water supply system's water at last from the output of backward flow connecting pipe through the third water pump and flow back to the disinfect box inside, the inside water of disinfect box is again through the branch pump income third water pump of water pipe pump, reach circulation backward flow's effect, there is water to flow in making water supply system's the pipeline all the time, and then effectively avoid the pipeline to freeze winter.

5. This intelligence water conservation water supply equipment deposits the rainwater through the device that deposits, the inside level sensor real-time supervision liquid level of setting tank, when the inside liquid level of setting tank reachs warning line, the water intaking valve is closed, prevent the rainwater and continuously get into, the automatic ration of flocculating agent storage jar that the setting tank top portion set up adds the flocculating agent to the setting tank is inside, the flocculating agent adds the back motor and starts, it rotates to drive the pivot, and then drive the puddler and rotate round the pivot, with flocculating agent and rainwater stirring, make its fully reaction, deposit.

6. This intelligence water conservation water supply equipment sets up the guide plate through the puddler end that corresponds at the inside lower extreme of settling tank, drives the inner wall that the guide plate is pasting the settling tank when the puddler rotates and rotates, effectively avoids deposiing the floccule of formation and blocks up at the discharge gate for the ejection of compact.

7. This intelligence water conservation water supply equipment filters the rainwater after deposiing through filter equipment, and the water after will deposiing is gone into first conveyer pipe through the second water pump, and the pump goes into the filter equipment upper end again and falls into inside the rose box, and the floccule that the sedimentation reaction formed is filtered out the separation by the second filter plate, can clear up the floccule of separating out from the upper end opening part of rose box, and the water after the filtration is through the adsorption on activated carbon layer, further purifies.

8. This intelligence water conservation water supply equipment disinfects precipitation, the rainwater after filtering through degassing unit, and the water after the precipitation device precipitates all lets in inside back, and the disinfectant storage jar automatic ration that the disinfect box top set up adds disinfectant to disinfect box inside, and the inside stirring mechanism operation that sets up of disinfect box stirs it, makes the disinfection fully thorough.

Drawings

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

FIG. 2 is a schematic structural diagram of the case of the present invention;

FIG. 3 is a schematic top view of the water supply system and the rainwater purification system of the present invention;

FIG. 4 is a schematic view of the water supply system of the present invention;

FIG. 5 is a schematic front view of the water supply system of the present invention;

FIG. 6 is a schematic structural diagram of a steady flow regulating device of the present invention;

FIG. 7 is a schematic view of the rainwater purification system according to the present invention;

FIG. 8 is a schematic front view of the rainwater purification system of the present invention;

FIG. 9 is a schematic view of the construction of the precipitation apparatus of the present invention;

FIG. 10 is a schematic structural view of a stirring mechanism of the present invention;

FIG. 11 is a schematic view of the filter apparatus of the present invention;

fig. 12 is a schematic view of the structure of the disinfection device of the present invention.

In the figure: 1. a box body; 11. a first door; 12. a temperature sensor; 13. mounting grooves; 2. a reservoir; 21. a first filter plate; 3. a control cabinet protection box; 31. a second door; 4. a water supply system; 41. a steady flow regulating device; 411. a steady flow regulator; 412. a water inlet; 413. a water outlet; 414. a negative pressure suppressor; 415. a first pressure gauge; 416. a blowoff valve; 417. a support plate; 42. a first conduit; 421. a Y-shaped filter; 43. a second conduit; 44. a first branch pipe; 441. a first water pump; 442. a butterfly valve; 443. a first check valve; 45. a second branch pipe; 451. a second check valve; 452. an electromagnetic valve; 46. a third pipeline; 461. a second pressure gauge; 462. a flow sensor; 47. a pressure tank; 48. a water outlet pipe; 481. a water outlet butterfly valve; 49. a reflux connection tube; 491. a return solenoid valve; 5. a rainwater purification system; 51. a precipitation device; 511. a settling tank; 512. a connecting pipe; 513. a water inlet valve; 514. a water outlet valve; 515. a first support base; 516. a stirring mechanism; 5161. a motor; 5162. a rotating shaft; 5163. a stirring rod; 5164. connecting blocks; 5165. a baffle; 52. a first delivery pipe; 521. a second water pump; 53. a filtration device; 531. a filter box; 532. a fixing plate; 533. a connecting through hole; 534. a second filter plate; 535. a second delivery pipe; 54. a sterilizing device; 541. a sterilizing box; 542. mounting holes; 543. a second support seat; 544. a third support seat; 545. a third water pump; 546. a water inlet pipe; 547. a first water inlet butterfly valve; 548. a water inlet branch pipe; 549. the second butterfly valve of intaking.

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. 1-12, an intelligent water-saving water supply device comprises a box body 1, a water supply system 4 and a rainwater purification system 5, wherein a reservoir 2 is arranged at the top of the box body 1, a control cabinet protection box 3 is arranged on one side of the box body 1 and the reservoir 2, the water supply system 4 and the rainwater purification system 5 are arranged in the box body 1, the water supply system 4 is used for directly supplying water by using the pressure of a tap water pipe network, tap water which is automatically started and stopped and has a certain flow rate and a certain lift is output in a unit time, the rainwater purification system 5 is used for leading collected rainwater into the water supply system 4 after precipitation, filtration and disinfection treatment, so that water resources are effectively saved, the water supply system 4 comprises a steady flow regulating device 41, the top and the bottom of the steady flow regulating device 41 are respectively and fixedly connected with a first pipeline 42 and a second pipeline 43, a first branch pipe 44 and, the output end of the first branch pipe 44 and the output end of the second branch pipe 45 are fixedly connected with a third pipeline 46, the input end of the third pipeline 46 is provided with a pressure tank 47, the two sides of the output end of the third pipeline 46 are respectively fixedly connected with a water outlet pipe 48 and a backflow connecting pipe 49, the rainwater purification system 5 comprises a precipitation device 51, a filtering device 53 and a disinfection device 54, a first conveying pipe 52 is arranged between the bottom of the precipitation device 51 and the top of the filtering device 53, and the disinfection device 54 is arranged at the bottom end of the filtering device 53.

Further, the steady flow regulating device 41 comprises a steady flow regulator 411, a water inlet 412 and a water outlet 413 are respectively arranged at the bottom and the bottom of the steady flow regulator 411, the water inlet 412 and the water outlet 413 are respectively fixedly connected with the output end of the first pipeline 42 and the input end of the second pipeline 43, a negative pressure suppressor 414 and a first pressure gauge 415 are arranged at the top of the steady flow regulator 411, so that the first pressure gauge 415 can monitor the internal pressure of the steady flow regulator 411 in real time, when the water consumption of a user is increased to cause the pressure at the connection part of the municipal pipe network and the steady flow regulator 411 to be reduced to be below 0, a negative pressure can be formed in the steady flow regulator 411, a gas inlet valve of the negative pressure suppressor 414 is opened, the atmosphere enters the steady flow regulator 411, the internal pressure of the steady flow regulator 411 is the same as the atmosphere, the negative pressure can, the support plates 417 are fixedly installed at both sides of the lower end of the stabilizer 411, and the second pipe 43 penetrates the surface of one of the support plates 417.

Further, the surface of the first pipe 42 is provided with a Y-shaped filter 421, the first branch pipe 44 is arranged at both sides of the second branch pipe 45, the surface of the first branch pipe 44 is fixedly provided with a first water pump 441, a butterfly valve 442 and a first check valve 443, the butterfly valves 442 are respectively arranged at both ends of the first water pump 441, the first check valve 443 is arranged between the first water pump 441 and the butterfly valve 442 at the output end thereof, the surface of the second branch pipe 45 is sequentially provided with a second check valve 451 and a solenoid valve 452, the surface of the third pipe 46 is provided with a second pressure gauge 461 and a flow sensor 462, the detection ends of the second pressure gauge 461 and the flow sensor 462 respectively protrude into the third pipe 46, so that the water pressure and the water flow in the third pipe 46 can be monitored in real time, further, the operation of the negative pressure suppressor 414 and the pressure tank 47 is controlled according to the amount of water used by the user to realize stable water supply, and a water outlet butterfly valve 481 and a return butterfly valve 491 are respectively provided on the surfaces of the water outlet pipe 48 and the return connection pipe 49.

Further, the settling device 51 comprises a settling tank 511, the upper end of the settling tank 511 is arranged to be cylindrical, the lower end of the settling tank 511 is arranged to be conical, a liquid level sensor is arranged inside the settling tank 511, a connecting pipe 512 is arranged at the top of the settling tank 511, a water inlet valve 513 is arranged on the surface of the connecting pipe 512, so that the liquid level sensor can monitor the liquid level inside the settling tank 511 in real time, when the liquid level inside the settling tank 511 reaches a warning line, the water inlet valve 513 is closed to prevent rainwater from continuously entering, a water outlet valve 514 is arranged at a discharge outlet at the bottom end of the settling tank 511, a first supporting seat 515 is arranged on the top surface of the settling tank 511, and a stirring mechanism 516 penetrates between the first supporting seat 515 and the top surface of the settling tank 511, so that the flocculating agent and the. In addition, when the system is used specifically, a flocculant storage tank is arranged on the top surface of the settling tank 511, and when the liquid level in the settling tank 511 reaches the warning line and the water inlet valve 513 is closed, a certain amount of flocculant can be automatically added into the settling tank 511.

Further, rabbling mechanism 516 includes motor 5161, motor 5161 fixed mounting is on first support seat 515 upper surface, motor 5161 bottom fixedly connected with pivot 5162, pivot 5162 surface both sides all are provided with puddler 5163, thereby motor 5161 drives pivot 5162 and rotates, and then drive puddler 5163 and rotate, can be with flocculating agent and rainwater stirring, make its abundant reaction, deposit, the corresponding puddler 5163 end of the inside lower extreme of setting tank 511 is provided with connecting block 5164 respectively, the oblique side of connecting block 5164 is fixed mounting respectively has guide plate 5165, guide plate 5165 and setting tank 511 lower extreme inner wall are laminated, thereby effectively avoid the floccule jam that the sediment formed at the discharge gate.

Further, the filtering device 53 includes a filtering tank 531, a fixing plate 532 is disposed at an opening at an upper end of the filtering tank 531, a connecting through hole 533 is disposed on a surface of the fixing plate 532 in a penetrating manner, a second filtering plate 534 is disposed inside the filtering tank 531, an activated carbon adsorption layer is filled in an area between a bottom surface inside the filtering tank 531 and a lower surface of the second filtering plate 534, a second conveying pipe 535 is disposed at a bottom end of the filtering tank 531, so that floccule formed by a precipitation reaction is filtered out and separated by the second filtering plate 534, the separated floccule can be cleaned from the opening at the upper end of the filtering tank 531, and filtered water is further purified through adsorption of the activated carbon layer.

Further, the disinfection device 54 comprises a disinfection box 541, a mounting hole 542 is formed in a side surface of the disinfection box 541 in a penetrating manner, a second supporting seat 543 and a third supporting seat 544 are respectively arranged on an outer top surface of the disinfection box 541, a third water pump 545 is arranged on an upper surface of the third supporting seat 544, an input end of the third water pump 545 is fixedly connected with a water inlet pipe 546, a first water inlet butterfly valve 547 is arranged on a surface of the water inlet pipe 546, a water inlet branch pipe 548 is fixedly connected to a position, located between the third water pump 545 and the first water inlet butterfly valve 547, on a surface of the water inlet branch pipe 548, a bottom end of the water inlet branch pipe 548 extends into a lower end inside the disinfection box 541, so that after water inside the disinfection box 541 is disinfected and needs to be supplied to a user, the first water inlet butterfly valve 547 is closed, the second water inlet butterfly valve 549 is opened, and water inside the disinfection box 541 is pumped into the, and then preferentially supplies water to the user through the water supply system 4. In addition, during the concrete application, disinfect box 541 equals with the biggest water capacity of precipitation tank 511, and disinfect box 541 is inside to be provided with the mechanism that homogenizes, and disinfect box 541 top surface is provided with disinfectant storage jar, and water after precipitation device 51 deposits is whole to let in 541 inside back, can be automatic quantitative to disinfect box 541 inside add disinfectant, homogenizes the mechanism and stirs it.

Further, a first filter plate 21 is arranged at the upper end inside the reservoir 2, so as to primarily separate out impurities with larger volume, the reservoir 2 is communicated with the inside of the settling tank 511 through a connecting pipe 512, a discharge port at the bottom end of the settling tank 511 is fixedly connected with an input end of a first delivery pipe 52, a second water pump 521 is arranged on the surface of the first delivery pipe 52, an output end of the first delivery pipe 52 is connected with a connecting through hole 533, a second delivery pipe 535 penetrates through the top surfaces of a second supporting seat 543 and a disinfection tank 541, an output end of a third water pump 545 is fixedly connected with a first pipeline 42, a mounting hole 542 is fixedly connected with an output end of a backflow connecting pipe 49, so that a water outlet butterfly valve 481 is closed, when a backflow solenoid valve 491 is opened, water pumped into the water supply system 4 through the third water pump 545 finally flows back to the inside the backflow connecting pipe 49 from the output end of the backflow connecting pipe 491, water, the effect of circulation backflow is achieved, water flows in the pipeline of the water supply system 4 all the time, and therefore the pipeline is prevented from being frozen in winter.

Further, 1 both sides of box are provided with first chamber door 11 respectively, 11 surfaces of first chamber door are provided with the louvre, thereby protect water supply system 4 and the rainwater purification system inside 1 box, and dispel the heat through the louvre, the output of outlet pipe 48 and the input of inlet tube 546 run through the surface of two first chamber doors 11 respectively, 1 inside temperature sensor 12 that is provided with of box, thereby can carry out real-time supervision to 1 inside temperature of box, 1 inside bottom surface of box is provided with mounting groove 13, second water pump 521 sets up inside mounting groove 13.

Further, the inside variable frequency control cabinet that is provided with of switch board guard box 3, temperature sensor 12, water supply system 4 and rainwater purification system 5 pass through electric signal connection with the variable frequency control cabinet respectively, thereby temperature sensor 12, first manometer 415, second manometer 461, the information feedback that flow sensor 462 and level sensor detected is to the variable frequency control cabinet after, the operation of the steerable relevant subassembly of variable frequency control cabinet, reach water conservation water supply effect, 3 sides of switch board guard box are provided with second chamber door 31, second chamber door 31 surface is provided with the louvre, thereby protect the variable frequency control cabinet of the inside of switch board guard box 3, and dispel the heat through the louvre.

The working principle is as follows: when in use, water enters from the first pipeline 42, after impurities in the medium are removed by filtering through the Y-shaped filter 421, the water flows from the interior of the flow stabilizing regulator 411 to the second pipeline 43, then flows into the third pipeline 46 from the first branch pipe 44 or the second branch pipe 45, the pressure tank 47 is started to pressurize, so that the water flows out from the water outlet pipe 48 opened by the water outlet butterfly valve 481 to supply water for users, after the water enters the interior of the flow stabilizing regulator 411, air in the tank is discharged from the negative pressure suppressor 414, after the water is full, the negative pressure suppressor 414 is automatically closed, when the pressure of the tap water pipe network can meet the water use requirement, the water directly supplies water through the second branch pipe 45 through the second pipeline 43, when the pressure of the tap water pipe network can not meet the water use requirement, the pressure value detected by the second pressure gauge 461 is fed back to the variable frequency control cabinet, the first water pump 441 operates, and the rotation speed is automatically adjusted according, realize the constant pressure water supply.

Rainwater collected by the water storage tank 2 is primarily separated from impurities with larger volume through the first filter plate 21 and then flows into the interior of the settling tank 511 through the connecting pipe 512, a liquid level sensor in the interior of the settling tank 511 monitors the liquid level in real time, when the liquid level in the interior of the settling tank 511 reaches a warning line, the water inlet valve 513 is closed to prevent the rainwater from continuously entering, a flocculating agent storage tank arranged at the top of the settling tank 511 automatically and quantitatively adds flocculating agent into the interior of the settling tank 511, the motor 5161 is started after the flocculating agent is added to drive the rotating shaft 5162 to rotate, further the stirring rod 5163 is driven to rotate around the rotating shaft 5162 to uniformly stir the flocculating agent and the rainwater so as to fully react and precipitate, and when the stirring rod 5163 corresponding to the lower end in the interior of the settling tank 511 rotates, the guide plate 5165 is driven to rotate against the inner wall of.

After the precipitation of the rainwater is completed, the outlet valve 514 is opened, the mixed liquid is pumped into the upper end of the filtering device 53 by the second water pump 521 through the first delivery pipe 52 and falls into the filtering tank 531, the floccule formed by the precipitation reaction is filtered and separated by the second filter plate 534, the separated floccule can be cleaned from the opening at the upper end of the filtering tank 531, and the filtered water is further purified by the adsorption action of the activated carbon layer and then flows into the inside of the disinfection tank 541 through the second delivery pipe 535.

When all the water precipitated by the precipitation device 51 is introduced into the disinfection tank 541, disinfectant is automatically and quantitatively added into the disinfection tank 541 from a disinfectant storage tank arranged at the top of the disinfection tank 541, a stirring mechanism arranged in the disinfection tank 541 operates to stir the disinfectant, so that the disinfection is sufficient and thorough, after the disinfection is finished, when equipment needs to supply water for users, the first water inlet butterfly valve 547 is closed, tap water cannot be introduced from the input end of the water inlet pipe 546, the second water inlet butterfly valve 549 is opened, so that the water in the disinfection tank 541 is pumped into the third water pump 545 through the water inlet branch pipe 548, and then the water supply system 4 preferentially supplies water for the users, thereby realizing water-saving water supply; when municipal pipe network water cut off, the input of inlet tube 546 does not have the running water and gets into, and the first butterfly valve 547 of intaking of variable frequency control cabinet control is closed, and the second butterfly valve 549 of intaking opens, and the third water pump 545 still can let in water supply system 4 with the water in the disinfect box 541, and is emergent for the user.

Temperature sensor 12 real-time supervision box 1 inside temperature, in winter, when the temperature is less than 2 ℃, the temperature feedback that temperature sensor 12 detected to the variable frequency control cabinet, when the user stopped using water, variable frequency control cabinet control goes out water butterfly valve 481 and closes, backward flow solenoid valve 491 opens, water that pump income water supply system 4 was gone into through third water pump 545 flows back to disinfect box 541 inside from the output of backward flow connecting pipe 49 at last, the inside water of disinfect box 541 is gone into third water pump 545 through inlet branch 548 again, reach the effect of circulation backward flow, make water flow in the pipeline of water supply system 4 all the time, and then effectively avoid the pipeline to freeze winter.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an intelligence water conservation water supply equipment, includes box (1), water supply system (4) and rainwater purification system (5), its characterized in that: the rainwater purification system is characterized in that a water storage tank (2) is arranged at the top of the box body (1), a control cabinet protection box (3) is arranged on one side of the box body (1) and the water storage tank (2), a water supply system (4) and a rainwater purification system (5) are arranged inside the box body (1), the water supply system (4) is used for directly supplying water by utilizing the pressure of a tap water pipe network, tap water which is started and stopped automatically at a certain flow and a certain lift is output in unit time, the rainwater purification system (5) is used for leading collected rainwater into the water supply system (4) after precipitation, filtration and disinfection treatment, water resources are effectively saved, the water supply system (4) comprises a steady flow adjusting device (41), a first pipeline (42) and a second pipeline (43) are fixedly connected to the top and the bottom of the steady flow adjusting device (41) respectively, a first branch pipe (44) and a second branch pipe (45) are arranged at the, first branch pipe (44) with output fixedly connected with third pipeline (46) of second branch pipe (45), the input of third pipeline (46) is provided with overhead tank (47), the output both sides difference fixedly connected with outlet pipe (48) and backward flow connecting pipe (49) of third pipeline (46), rainwater purification system (5) are including precipitating device (51), filter equipment (53) and degassing unit (54), precipitate device (51) bottom with be provided with first conveyer pipe (52) between filter equipment (53) top, degassing unit (54) set up filter equipment (53) bottom.

2. The intelligent water-saving water supply equipment according to claim 1, characterized in that: the steady flow regulating device (41) comprises a steady flow regulator (411), the bottom and the bottom of the steady flow regulator (411) are respectively provided with a water inlet (412) and a water outlet (413), the water inlet (412) and the water outlet (413) are respectively fixedly connected with the output end of the first pipeline (42) and the input end of the second pipeline (43), the top of the steady flow regulator (411) is provided with a negative pressure suppressor (414) and a first pressure gauge (415), the bottom of the steady flow regulator (411) is provided with a blow-off valve (416) and supporting plates (417), the supporting plates (417) are fixedly arranged on two sides of the lower end of the steady flow regulator (411), the second pipeline (43) penetrates through the surface of one of the supporting plates (417) to supply water for a user, and after water enters the interior of the steady flow regulator (411), air in the tank is discharged from the negative pressure suppressor (414), after the water is full, the negative pressure suppressor (414) is automatically closed.

3. The intelligent water-saving water supply equipment according to claim 2, characterized in that: the surface of the first pipeline (42) is provided with a Y-shaped filter (421), the first branch pipe (44) is arranged on two sides of the second branch pipe (45), the surface of the first branch pipe (44) is fixedly provided with a first water pump (441), a butterfly valve (442) and a first check valve (443), the butterfly valve (442) is respectively arranged at two ends of the first water pump (441), the first check valve (443) is arranged between the first water pump (441) and the butterfly valve (442) at the output end thereof, the surface of the second branch pipe (45) is sequentially provided with a second check valve (451) and an electromagnetic valve (452), the surface of the third pipeline (46) is provided with a second pressure gauge (461) and a flow sensor (462), the detection ends of the second pressure gauge (461) and the flow sensor (462) respectively extend into the third pipeline (46), and the surfaces of the water outlet pipe (48) and the backflow connecting pipe (49) are respectively provided with a water outlet butterfly valve (481) and a backflow butterfly valve (481) Butterfly valve (491), when water pipe network pressure can satisfy the water requirement, water directly supplies water through second branch pipe (45) through second pipeline (43), when water pipe network pressure can not satisfy the water requirement, the pressure value that second manometer (461) detected feeds back to variable frequency control cabinet, and first water pump (441) operation to discharge automatically regulated rotational speed according to flow sensor (462) detect realizes the constant voltage and supplies water.

4. The intelligent water-saving water supply equipment according to claim 2, characterized in that: sediment device (51) is including setting up tank (511), setting up to cylindric on setting up tank (511), setting up to coniform tank (511) lower extreme, inside level sensor that is provided with of setting up tank (511), setting up tank (511) top is provided with connecting pipe (512), connecting pipe (512) surface is provided with water intaking valve (513), the discharge gate department of setting up tank (511) bottom is provided with outlet valve (514), setting up tank (511) top surface is provided with first supporting seat (515), first supporting seat (515) with it is provided with rabbling mechanism (516) to run through between setting up tank (511) top surface.

5. The intelligent water-saving water supply equipment according to claim 4, characterized in that: rabbling mechanism (516) are including motor (5161), motor (5161) fixed mounting be in first supporting seat (515) upper surface, motor (5161) bottom fixedly connected with pivot (5162), pivot (5162) surface both sides all are provided with puddler (5163), the inside lower extreme of setting tank (511) corresponds puddler (5163) end is provided with connecting block (5164) respectively, the oblique side of connecting block (5164) fixed mounting respectively has guide plate (5165), guide plate (5165) with setting tank (511) lower extreme inner wall is laminated mutually.

6. The intelligent water-saving water supply equipment according to claim 3, characterized in that: filter equipment (53) includes rose box (531), rose box (531) upper end opening part is provided with fixed plate (532), fixed plate (532) surface runs through and is provided with connect through hole (533), rose box (531) inside is provided with second filter plate (534), rose box (531) inside bottom surface with regional packing between second filter plate (534) lower surface has the active carbon adsorption layer, rose box (531) bottom is provided with second conveyer pipe (535).

7. The intelligent water-saving water supply equipment according to claim 6, characterized in that: the disinfection device (54) comprises a disinfection box (541), wherein a mounting hole (542) is formed in one side surface of the disinfection box (541) in a penetrating mode, a second supporting seat (543) and a third supporting seat (544) are respectively arranged on the outer top surface of the disinfection box (541), a third water pump (545) is arranged on the upper surface of the third supporting seat (544), an input end of the third water pump (545) is fixedly connected with a water inlet pipe (546), a first water inlet butterfly valve (547) is arranged on the surface of the water inlet pipe (546), the surface of the water inlet pipe (546) is located between the third water pump (545) and the first water inlet butterfly valve (547) and is fixedly connected with a water inlet branch pipe (548), a second water inlet butterfly valve (549) is arranged on the surface of the water inlet branch pipe (548), and the bottom end of the water inlet branch pipe (548) extends into the inner lower end.

8. The intelligent water-saving water supply equipment according to claim 4, 6 or 7, characterized in that: the inside upper end of cistern (2) is provided with first filter plate (21), cistern (2) are passed through connecting pipe (512) with the inside intercommunication of settling tank (511), the discharge gate of settling tank (511) bottom with the input fixed connection of first conveyer pipe (52), first conveyer pipe (52) surface is provided with second water pump (521), the output of first conveyer pipe (52) with connect hole (533) are connected, second conveyer pipe (535) run through second supporting seat (543) with disinfect box (541) top surface, the output of third water pump (545) with first pipeline (42) fixed connection, mounting hole (542) with the output fixed connection of backward flow connecting pipe (49).

9. The intelligent water-saving water supply equipment according to claim 8, characterized in that: the refrigerator comprises a refrigerator body (1), and is characterized in that two sides of the refrigerator body (1) are respectively provided with a first refrigerator door (11), the surface of the first refrigerator door (11) is provided with a heat dissipation hole, the output end of a water outlet pipe (48) and the input end of a water inlet pipe (546) respectively penetrate through the surfaces of the two first refrigerator doors (11), a temperature sensor (12) is arranged inside the refrigerator body (1), the bottom surface inside the refrigerator body (1) is provided with a mounting groove (13), and a second water pump (521) is arranged inside the mounting groove (13).

10. The intelligent water-saving water supply equipment according to claim 9, characterized in that: the control cabinet protection box is characterized in that a variable frequency control cabinet is arranged inside the control cabinet protection box (3), the temperature sensor (12), the water supply system (4) and the rainwater purification system (5) are respectively connected with the variable frequency control cabinet through electric signals, a second box door (31) is arranged on the side face of the control cabinet protection box (3), and heat dissipation holes are formed in the surface of the second box door (31).