CN204311481U - Pot type pipe network differential pressure benefit amount current stabilization water supply facilities - Google Patents

Abstract

The utility model discloses pot type pipe network differential pressure benefit amount current stabilization water supply facilities to form primarily of flow control valve, steady flow compensation tank, negative pressure canceller, water pump one, water pump two, air supply tank, flow detector and switch board, described steady flow compensation tank comprises the three-cavity horizontal structure be made up of current stabilization chamber, water storage cavity, air water energy-storing chamber, and current stabilization chamber and air water energy-storing chamber lay respectively at the two ends of steady flow compensation tank, water storage cavity is connected with distribution pipe by the tube connector being provided with electromagnetic valve one, is also provided with differential pressure compensation pipe and is connected with distribution pipe between electromagnetic valve one with water storage mouth.The beneficial effects of the utility model are, the advantages such as the utility model has compact conformation, it is little, convenient for installation and maintenance to take up an area, hygienic quality, and water storage cavity can carry out differential pressure compensation adjustment to tap water inflow deficiency, increase pondage, improve water supply security, air water energy-storing chamber can realize low discharge termination of pumping pressurize water supply and energy saving simultaneously, not only increases energy-conservation point, and extends application life.

Description

Pot type pipe network differential pressure benefit amount current stabilization water supply facilities

Technical field

The utility model relates to secondary water-supply technical field, specifically a kind of pot type pipe network differential pressure benefit amount current stabilization water supply facilities.

Background technology

Along with highrise building gets more and more, secondary water-supply is more prevalent.At present, highrise building secondary water-supply on market mainly comprises high-level tank water, pneumatic water supply, variable frequency water supply and pipe network serial connection water supply totally 4 kinds of modes, compared with front several mode, the tap water pipe network pressure that pipe network serial connection supplies water owing to can make use of serial connection, and take up an area few, reduced investment, management maintenance is convenient, the advantages such as energy-saving clean, thus in secondary water-supply, leading position is occupied, but pipe network serial connection supplies water because pondage is little, the defects such as water supply security difference, limit its application, and pipe network serial connection supplies water owing to adopting identical water pump parallel pumping more, there is low flow rate condition and run the phenomenon departing from efficient district, long-play is not only not energy-conservation, and the application life of water pump can be had influence on.

Utility model content

In view of the deficiency that above-mentioned prior art exists, the purpose of this utility model is to provide the pot type pipe network differential pressure benefit amount current stabilization water supply facilities that a kind of pondage is large, compact conformation, sanitary and energy-saving and result of use are good.

The utility model solves the technical scheme that its technical problem adopts: pot type pipe network differential pressure benefit amount current stabilization water supply facilities is primarily of flow control valve, steady flow compensation tank, negative pressure canceller, water pump one, water pump two, air supply tank, flow detector and switch board composition, described steady flow compensation tank comprises by current stabilization chamber, water storage cavity, the three-cavity horizontal structure that air water energy-storing chamber is formed, and in steady flow compensation tank, be provided with interior end socket one and interior end socket two, interior end socket one and interior end socket two are welded on the cylindrical shell of steady flow compensation tank in subtend, the mid portion that interior end socket one and interior end socket two are formed is water storage cavity, and the convex of interior end socket one and the convex of interior end socket two are all in water storage cavity, the space be made up of the concave panel of interior end socket one is current stabilization chamber, the space be made up of the concave panel of interior end socket two is air water energy-storing chamber, current stabilization chamber and air water energy-storing chamber lay respectively at the two ends of steady flow compensation tank, negative pressure canceller is equipped with at described water storage cavity top, signal of water shortage transmitter and atmospheric valve are housed bottom water storage cavity, and be separately provided with water storage mouth, air water energy-storing chamber top is provided with installing port, and supportingly in installing port be equiped with level sensor, low discharge mouth is provided with bottom air water energy-storing chamber, current stabilization top of chamber is provided with water inlet, bottom is provided with delivery port, tap water water inlet pipe is connected in series with water inlet, and pressure detecting table one is equiped with in turn along water (flow) direction on tap water water inlet pipe, water filter, flow control valve and backflow preventer, the delivery port in current stabilization chamber is connected with distribution pipe, distribution pipe is connected with water pump two again, water pump two water outlet is connected with feed pipe, walk around water pump two, bypass pipe is provided with between distribution pipe and feed pipe, and flap valve four is housed on bypass pipe, after the flap valve four of bypass pipe, be provided with rill buret be connected with the low discharge mouth of steady flow compensation tank, fixedly air supply tank is equiped with in the outside of steady flow compensation tank, be provided with pressure pipe bottom air supply tank to be communicated with rill buret, and pressure pipe is equiped with electromagnetic valve two, after electromagnetic valve two, pressure pipe before air supply tank is provided with the arm of electromagnetic valve three, the arm of electromagnetic valve three is communicated with air supply tank, control for draining, the installing port that blowdown pipe is connected to steady flow compensation tank is provided with at air supply tank top, the air water energy-storing chamber of steady flow compensation tank is connected with air supply tank, blowdown pipe is equipped with flap valve one, and before the flap valve one of blowdown pipe, be separately provided with respiratory siphon be connected with air supply tank, the other end of respiratory siphon is equipped with air filter and is in communication with the outside, respiratory siphon after air filter is also equipped with flap valve two, described distribution pipe was also equipped with Water sterilizer before bypass pipe and water pump two, distribution pipe before Water sterilizer is also provided with tube connector and is connected with the water storage mouth of steady flow compensation tank, and on tube connector, be equiped with electromagnetic valve one, also be provided with after differential pressure compensation pipe is connected to tube connector between electromagnetic valve one and water storage mouth, on distribution pipe before Water sterilizer, differential pressure compensation pipe is equiped with water pump one and flap valve three, described feed pipe is equiped with flow detector, flow detector is used for on-line determination water outlet instantaneous delivery and integrated flow, feed pipe is also provided with pressure detecting table two.

Described pressure detecting table one, flow control valve, level sensor, signal of water shortage transmitter, electromagnetic valve one, water pump one, Water sterilizer, electromagnetic valve two, electromagnetic valve three, water pump two, flow detector and pressure detecting table two are covered with cable respectively and are connected with switch board, described water pump one arranges 1, water pump two is 1 ~ 4 and is arranged in parallel, preferably 2 ~ 3, and every platform water pump two all variable ratio frequency changer speed regulating control, described Water sterilizer is ultraviolet sterilizer, and Water sterilizer is by the corresponding Control of switch board.

Operating principle of the present utility model is, flow control valve is not less than the lowest service force value of setting for the intake pressure controlling tap water water inlet pipe, normal water supply, flow control valve is in full-gear, tap water enters the current stabilization chamber buffering of steady flow compensation tank through flow control valve, again by the water outlet of current stabilization chamber through Water sterilizer to water pump two, and then give frequency-changing pressure stabilizing output water supply by water pump two relative to pressure detecting table two, flow detector on-line determination water outlet instantaneous delivery, the water storage cavity of steady flow compensation tank is by tube connector water storage simultaneously, electromagnetic valve one is opened, tap water enters water storage cavity, the negative pressure canceller being installed in water storage cavity is opened, and negative pressure canceller is automatically closed after water storage cavity storage full water, along with the arriving of water use peak phase, when tap water water inlet pipe pressure reduces, and when intake pressure being detected lower than the lowest service force value set by pressure detecting table one, flow control valve is by action immediately and turn down into water, fall with the decompression reducing tap water, reach current limliting, effect falls in pressure limiting, tap water water inlet pipe pressure is made to maintain more than the lowest service force value of setting, ensure that tap water water inlet pipe was in malleation water inlet state all the time before flow control valve, when tap water water inlet pipe pressure cannot be regulated by pass control valve for small flows lower than the lowest service force value of setting, flow control valve will cut out automatically, minor adjustment is closed at flow control valve, until in the process of final plant closure, the water storage cavity of steady flow compensation tank then passes through tube connector, differential pressure compensation pipe, water pump one and flap valve three-dimensional distribution pipe supplement the water-supply shortages of tap water water inlet pipe, water pump one starts, electromagnetic valve one cuts out, air will be opened and be filled into negative pressure canceller automatically with water storage cavity water level decreasing, to eliminate vacuum, treat tap water water inlet pipe pressure recover, and when output abundance and flow control valve standard-sized sheet, water pump one cuts out, electromagnetic valve one is opened, water storage cavity starts water storage again through tube connector and electromagnetic valve one, water storage cavity water level rises, when water storage cavity full water, negative pressure canceller is closed automatically, so repeatedly, complete the current limliting to tap water water inlet pipe, pressure limiting is fallen and current stabilization, water storage, the process that moisturizing ftercompction regulates, and water pump two is all in normal condition in the process,

In water pump two running, feed pipe passes through bypass pipe, rill buret to the air water energy-storing chamber water-filling of steady flow compensation tank to lay in regulating pondage, air in air water energy-storing chamber is compressed, along with decorporating of water use peak phase, water outlet instantaneous delivery reduces to low discharge water state thereupon, when detecting that water pump two conversion frequencies is lower than low discharge setpoint frequency, and when detecting that water outlet instantaneous delivery also continues 5s ~ 30s lower than setting small flow rate values by flow detector, system raising water pump two lift is made feed pipe pressure comparatively the normal constant pressure water supply of water pump two exceed 0.02 ~ 0.05MPa force value, and after voltage stabilizing 5s ~ 10s time, water pump two autostop and enter energy-conservation dormancy holding state, now compressed air is utilized to be supplied water to feed pipe by the regulating pondage force feed of deposit by the air water energy-storing chamber of steady flow compensation tank, to meet the demand of low discharge water, the continuous water supply of water pump two is stopped when realizing low discharge, reach energy-saving effect, along with the regulating pondage of air water energy-storing chamber reduces, the corresponding increase of compressed air volume, pressure reduces, when being detected feed pipe pressure by pressure detecting table two lower than the minimum operating pressure value set, water pump two wakes up automatically, and start water supply, so repeatedly, thus the efficient district of substantial deviation causes the not energy-conservation phenomenon with affecting application life at low discharge long-play to avoid water pump two.

Described air supply tank is used for the regularly quantitative air water energy-storing chamber to steady flow compensation tank and supplements air, because the air in air water energy-storing chamber directly contacts with water, lose there being the air of trace because of water-soluble, the long-time air water energy-storing chamber that will cause loses energy storage effect because air capacity reduces, therefore in order to ensure the operation condition of air water energy-storing chamber, need regularly in air water energy-storing chamber, to supplement air.Its tonifying Qi principle is: in air water energy-storing chamber, be equiped with level sensor be provided with high water level point and low water stage point two control points, when the water level in air water energy-storing chamber is positioned at high water level point, start tonifying Qi, now electromagnetic valve two cuts out, electromagnetic valve three is opened, water in air supply tank is discharged, outside air sucks air supply tank by respiratory siphon, treat 30s ~ 3min, until water in air supply tank is emptying and after being filled air, electromagnetic valve three cuts out, electromagnetic valve two is opened, and maintain 15 ~ 30s time, now air pressure in its tank supplements to air water energy-storing chamber by power conduit pressure by air supply tank, then electromagnetic valve two cuts out, the process of air supply tank draining air-breathing to tonifying Qi is opened and be restored to electromagnetic valve three, so repeatedly, until the water level in air water energy-storing chamber be in level sensor setting low water stage point and following time stop tonifying Qi, and recover normal, now, electromagnetic valve two keeps cutting out, electromagnetic valve three stays open state, if the water level of air water energy-storing chamber be again positioned at level sensor setting high water level point and above time, then start tonifying Qi again.

Described signal of water shortage transmitter is for the protection of water pump one and water pump two.When water pump one or water pump two work, because the water storage cavity of steady flow compensation tank causes its water level decreasing because of moisturizing, when detect the water level decreasing in water storage cavity to lower than signal of water shortage transmitter setting lack of water water level and following time, system judge lack of water and out of service in water pump one and water pump two and report to the police, electromagnetic valve one is opened, during when tap water water inlet pipe pressure recover and higher than lowest service force value 0.03 ~ more than the 0.10MPa set and flow control valve standard-sized sheet, water pump two will start and System recover normal water supply state automatically.

The beneficial effects of the utility model are, the utility model is by the three-cavity structure of integrated for steady flow compensation tank current stabilization chamber, water storage cavity, air water energy-storing chamber, there is compact conformation, take up an area the advantages such as little, convenient for installation and maintenance, hygienic quality, and water storage cavity can carry out differential pressure compensation adjustment to tap water inflow deficiency, increase pondage, improve water supply security, air water energy-storing chamber can realize low discharge termination of pumping pressurize water supply and energy saving simultaneously, not only increase energy-conservation point, and extend application life.

Accompanying drawing explanation

Accompanying drawing 1 is structural representation of the present utility model.

In figure, 1, tap water water inlet pipe, 2, pressure detecting table one, 3, water filter, 4, flow control valve, 5, backflow preventer, 6, steady flow compensation tank, 7, negative pressure canceller, 8, level sensor, 9, blowdown pipe, 10, flap valve one, 11, air filter, 12, flap valve two, 13, signal of water shortage transmitter, 14, tube connector, 15, electromagnetic valve one, 16, water pump one, 17, flap valve three, 18, differential pressure compensation pipe, 19, pressure pipe, 20, Water sterilizer, 21, electromagnetic valve two, 22, electromagnetic valve three, 23, rill buret, 24, flap valve four, 25, distribution pipe, 26, water pump two, 27, bypass pipe, 28, air supply tank, 29, feed pipe, 30, flow detector, 31, pressure detecting table two, 32, respiratory siphon, 33, switch board, 34, cable, 601, water inlet, 602, interior end socket one, 603, interior end socket two, 604, current stabilization chamber, 605, water storage cavity, 606, air water energy-storing chamber, 607, water storage mouth, 608, atmospheric valve, 609, low discharge mouth, 610, installing port, 801, high water level point, 802, low water stage point.

Detailed description of the invention

With regard to accompanying drawing 1, pot type pipe network differential pressure benefit amount current stabilization water supply facilities of the present utility model is described in detail below below.

As shown in Figure 1, pot type pipe network differential pressure benefit amount current stabilization water supply facilities of the present utility model is primarily of flow control valve 4, steady flow compensation tank 6, negative pressure canceller 7, water pump 1, water pump 2 26, air supply tank 28, flow detector 30 and switch board 33 form, described steady flow compensation tank 6 comprises by current stabilization chamber 604, water storage cavity 605, the three-cavity horizontal structure that air water energy-storing chamber 606 is formed, and in steady flow compensation tank 6, be provided with interior end socket 1 and interior end socket 2 603, interior end socket 1 and interior end socket 2 603 are welded on the cylindrical shell of steady flow compensation tank in subtend, the mid portion that interior end socket 1 and interior end socket 2 603 are formed is water storage cavity 605, and the convex of interior end socket 1 and the convex of interior end socket 2 603 are all in water storage cavity 605, the space be made up of the concave panel of interior end socket 1 is current stabilization chamber 604, the space be made up of the concave panel of interior end socket 2 603 is air water energy-storing chamber 606, current stabilization chamber 604 and air water energy-storing chamber 606 lay respectively at the two ends of steady flow compensation tank 6, negative pressure canceller 7 is equipped with at described water storage cavity 605 top, signal of water shortage transmitter 13 and atmospheric valve 608 are housed bottom water storage cavity 605, and be separately provided with water storage mouth 607, air water energy-storing chamber 606 top is provided with installing port 610, and supportingly in installing port 610 be equiped with level sensor 8, low discharge mouth 609 is provided with bottom air water energy-storing chamber 606, top, current stabilization chamber 604 is provided with water inlet 601, bottom is provided with delivery port, tap water water inlet pipe 1 is connected in series with water inlet 601, and pressure detecting table one 2 is equiped with in turn along water (flow) direction on tap water water inlet pipe 1, water filter 3, flow control valve 4 and backflow preventer 5, the delivery port in current stabilization chamber 604 is connected with distribution pipe 25, distribution pipe 25 is connected with water pump 2 26 again, water pump 2 26 water outlet is connected with feed pipe 29, walk around water pump 2 26, bypass pipe 27 is provided with between distribution pipe 25 and feed pipe 29, and on bypass pipe 27, flap valve 4 24 is housed, after the flap valve 4 24 of bypass pipe 27, be provided with rill buret 23 be connected with the low discharge mouth 609 of steady flow compensation tank 6, air supply tank 28 is fixedly equiped with in the outside of steady flow compensation tank 6, be provided with pressure pipe 19 bottom air supply tank 28 to be communicated with rill buret 23, and pressure pipe 19 is equiped with electromagnetic valve 2 21, after electromagnetic valve 2 21, pressure pipe 19 before air supply tank 28 is provided with the arm of electromagnetic valve 3 22, the arm of electromagnetic valve 3 22 is communicated with air supply tank 28, control for draining, the installing port 610 that blowdown pipe 9 is connected to steady flow compensation tank 6 is provided with at air supply tank 28 top, the air water energy-storing chamber 606 of steady flow compensation tank 6 is connected with air supply tank 28, blowdown pipe 9 is equipped with flap valve 1, and before the flap valve 1 of blowdown pipe 9, be separately provided with respiratory siphon 32 be connected with air supply tank 28, the other end of respiratory siphon 32 is equipped with air filter 11 and is in communication with the outside, respiratory siphon 32 after air filter 11 is also equipped with flap valve 2 12, described distribution pipe 25 was also equipped with Water sterilizer 20 before bypass pipe 27 and water pump 2 26, distribution pipe 25 before Water sterilizer 20 is also provided with tube connector 14 and is connected with the water storage mouth 607 of steady flow compensation tank 6, and electromagnetic valve 1 is equiped with on tube connector 14, also be provided with after differential pressure compensation pipe 18 is connected to tube connector 14 between electromagnetic valve 1 and water storage mouth 607, on distribution pipe 25 before Water sterilizer 20, differential pressure compensation pipe 18 is equiped with water pump 1 and flap valve 3 17, described feed pipe 29 is equiped with flow detector 30, flow detector 30 is for on-line determination water outlet instantaneous delivery and integrated flow, feed pipe 29 is also provided with pressure detecting table two 31.

Described pressure detecting table one 2, flow control valve 4, level sensor 8, signal of water shortage transmitter 13, electromagnetic valve 1, water pump 1, Water sterilizer 20, electromagnetic valve 2 21, electromagnetic valve 3 22, water pump 2 26, flow detector 30 and pressure detecting table two 31 are covered with cable 34 respectively and are connected with switch board 33, described water pump 1 arranges 1, water pump 2 26 is 1 ~ 4 and is arranged in parallel, preferably 2 ~ 3, and every platform water pump 2 26 all variable ratio frequency changer speed regulating control, described Water sterilizer 20 is ultraviolet sterilizer, and Water sterilizer 20 is by the corresponding Control of switch board 33.

Operating principle of the present utility model is, flow control valve 4 is not less than the lowest service force value of setting for the intake pressure controlling tap water water inlet pipe 1, normal water supply, flow control valve 4 is in full-gear, the current stabilization chamber 604 that tap water enters steady flow compensation tank 6 through flow control valve 4 is cushioned, again by current stabilization chamber 604 water outlet through Water sterilizer 20 to water pump 2 26, and then give frequency-changing pressure stabilizing output water supply by water pump 2 26 relative to pressure detecting table two 31, flow detector 30 on-line determination water outlet instantaneous delivery, the water storage cavity 605 of steady flow compensation tank 6 is by tube connector 14 water storage simultaneously, electromagnetic valve 1 is opened, tap water enters water storage cavity 605, the negative pressure canceller 7 being installed in water storage cavity 605 is opened, and negative pressure canceller 7 is automatically closed after water storage cavity 605 stores up full water, along with the arriving of water use peak phase, when tap water water inlet pipe 1 pressure reduces, and when intake pressure being detected lower than the lowest service force value set by pressure detecting table one 2, flow control valve 4 is by action immediately and turn down into water, fall with the decompression reducing tap water, reach current limliting, effect falls in pressure limiting, tap water water inlet pipe 1 pressure is made to maintain more than the lowest service force value of setting, ensure that tap water water inlet pipe 1 was in malleation water inlet state all the time before flow control valve 4, when tap water water inlet pipe 1 pressure cannot be regulated by pass control valve for small flows 4 lower than the lowest service force value of setting, flow control valve 4 will cut out automatically, minor adjustment is closed at flow control valve 4, until in the process of final plant closure, the water storage cavity 605 of steady flow compensation tank 6 is by tube connector 14, differential pressure compensation pipe 18, water pump 1 and flap valve 3 17 supplement the water-supply shortages of tap water water inlet pipe 1 to distribution pipe 25, water pump 1 starts, electromagnetic valve 1 cuts out, air will be opened and be filled into negative pressure canceller 7 automatically with water storage cavity 605 water level decreasing, to eliminate vacuum, treat tap water water inlet pipe 1 pressure recover, and when output abundance and flow control valve 4 standard-sized sheet, water pump 1 cuts out, electromagnetic valve 1 is opened, water storage cavity 605 starts water storage again through tube connector 14 and electromagnetic valve 1, water storage cavity 605 water level rises, when water storage cavity 605 full water, negative pressure canceller 7 is closed automatically, so repeatedly, complete the current limliting to tap water water inlet pipe 1, pressure limiting is fallen and current stabilization, water storage, the process that moisturizing ftercompction regulates, and water pump 2 26 is all in normal condition in the process,

In water pump 2 26 running, feed pipe 29 is by bypass pipe 27, rill buret 23 to air water energy-storing chamber 606 water-filling of steady flow compensation tank 6 to lay in regulating pondage, air in air water energy-storing chamber 606 is compressed, along with decorporating of water use peak phase, water outlet instantaneous delivery reduces to low discharge water state thereupon, when detecting that water pump 2 26 conversion frequencies is lower than low discharge setpoint frequency, and when detecting that water outlet instantaneous delivery also continues 5s ~ 30s lower than setting small flow rate values by flow detector 30, system raising water pump 2 26 lift is made feed pipe 29 pressure comparatively the normal constant pressure water supply of water pump 2 26 exceed 0.02 ~ 0.05MPa force value, and after voltage stabilizing 5s ~ 10s time, water pump 2 26 autostop and enter energy-conservation dormancy holding state, now compressed air is utilized to be supplied water to feed pipe 29 by the regulating pondage force feed of deposit by the air water energy-storing chamber 606 of steady flow compensation tank 6, to meet the demand of low discharge water, the continuous water supply of water pump 2 26 is stopped when realizing low discharge, reach energy-saving effect, along with the regulating pondage of air water energy-storing chamber 606 reduces, the corresponding increase of compressed air volume, pressure reduces, when detecting feed pipe 29 pressure lower than the minimum operating pressure value set by pressure detecting table two 31, water pump 2 26 wakes up automatically, and start water supply, so repeatedly, thus the efficient district of substantial deviation causes the not energy-conservation phenomenon with affecting application life at low discharge long-play to avoid water pump 2 26.

Described air supply tank 28 supplements air for the regular quantitative air water energy-storing chamber 606 to steady flow compensation tank 6, because the air in air water energy-storing chamber 606 directly contacts with water, lose there being the air of trace because of water-soluble, the long-time air water energy-storing chamber 606 that will cause loses energy storage effect because air capacity reduces, therefore in order to ensure the operation condition of air water energy-storing chamber 606, need regularly in air water energy-storing chamber 606, to supplement air.Its tonifying Qi principle is: in air water energy-storing chamber 606, be equiped with level sensor 8 be provided with high water level point 801 and low water stage point 802 two control points, when the water level in air water energy-storing chamber 606 is positioned at high water level point 801, start tonifying Qi, now electromagnetic valve 2 21 cuts out, electromagnetic valve 3 23 is opened, water in air supply tank 28 is discharged, outside air sucks air supply tank 28 by respiratory siphon 32, treat 30s ~ 3min, until water in air supply tank 28 is emptying and after being filled air, electromagnetic valve 3 23 cuts out, electromagnetic valve 2 22 is opened, and maintain 15 ~ 30s time, now air pressure in its tank supplements to air water energy-storing chamber 606 by power conduit 19 pressure by air supply tank 28, then electromagnetic valve 2 21 cuts out, the process of air supply tank 28 draining air-breathing to tonifying Qi is opened and be restored to electromagnetic valve 3 22, so repeatedly, until the water level in air water energy-storing chamber 606 be in low water stage point 802 that level sensor 8 sets and following time stop tonifying Qi, and recover normal, now, electromagnetic valve 2 21 keeps cutting out, electromagnetic valve 3 22 stays open state, if the water level of air water energy-storing chamber 606 be again positioned at high water level point 801 that level sensor 8 sets and above time, then start tonifying Qi again.

Described signal of water shortage transmitter 13 is for the protection of water pump 1 and water pump 2 26.When water pump 1 or water pump 2 26 work, because the water storage cavity 605 of steady flow compensation tank 6 causes its water level decreasing because of moisturizing, when detect the water level decreasing in water storage cavity 605 to lower than signal of water shortage transmitter 13 set lack of water water level and following time, system judges lack of water, and out of service in water pump 1 and water pump 2 26, and report to the police, electromagnetic valve 1 is opened, when tap water water inlet pipe 1 pressure recover, and during higher than lowest service force value 0.03 ~ more than the 0.10MPa set and flow control valve 4 standard-sized sheet, water pump 2 26 will start automatically, and System recover normal water supply state.

Claims (5)

1. a pot type pipe network differential pressure benefit amount current stabilization water supply facilities, primarily of flow control valve, steady flow compensation tank, negative pressure canceller, water pump one, water pump two, air supply tank, flow detector and switch board composition, it is characterized in that, described steady flow compensation tank comprises by current stabilization chamber, water storage cavity, the three-cavity horizontal structure that air water energy-storing chamber is formed, and current stabilization chamber and air water energy-storing chamber lay respectively at the two ends of steady flow compensation tank, water storage mouth is provided with bottom described water storage cavity, air water energy-storing chamber top is provided with installing port, and supportingly in installing port be equiped with level sensor, low discharge mouth is provided with bottom air water energy-storing chamber, current stabilization top of chamber is provided with water inlet, bottom is provided with delivery port, tap water water inlet pipe is connected in series with water inlet, and flow control valve is equiped with on tap water water inlet pipe, the delivery port in current stabilization chamber is connected with distribution pipe, distribution pipe is connected with water pump two again, water pump two water outlet is connected with feed pipe, walk around water pump two, bypass pipe is provided with between distribution pipe and feed pipe, and flap valve four is housed on bypass pipe, after the flap valve four of bypass pipe, be provided with rill buret be connected with the low discharge mouth of steady flow compensation tank, described distribution pipe was also equipped with Water sterilizer before bypass pipe and water pump two, distribution pipe before Water sterilizer is also provided with tube connector and is connected with the water storage mouth of steady flow compensation tank, and on tube connector, be equiped with electromagnetic valve one, also be provided with after differential pressure compensation pipe is connected to tube connector between electromagnetic valve one and water storage mouth, on distribution pipe before Water sterilizer, differential pressure compensation pipe is equiped with water pump one and flap valve three, described feed pipe is equiped with flow detector, feed pipe is also provided with pressure detecting table two.

2. pot type pipe network differential pressure benefit amount current stabilization water supply facilities according to claim 1, it is characterized in that, fixedly air supply tank is equiped with in the outside of steady flow compensation tank, be provided with pressure pipe bottom air supply tank to be communicated with rill buret, and pressure pipe is equiped with electromagnetic valve two, after electromagnetic valve two, pressure pipe before air supply tank is provided with the arm of electromagnetic valve three, the arm of electromagnetic valve three is communicated with air supply tank, the installing port that blowdown pipe is connected to steady flow compensation tank is provided with at air supply tank top, flap valve one blowdown pipe is equipped with, and before the flap valve one of blowdown pipe, be separately provided with respiratory siphon be connected with air supply tank, the other end of respiratory siphon is equipped with air filter, respiratory siphon after air filter is also equipped with flap valve two.

3. pot type pipe network differential pressure benefit amount current stabilization water supply facilities according to claim 1, it is characterized in that, described water pump one arranges 1, and water pump two is 1 ~ 4 and is arranged in parallel.

4. pot type pipe network differential pressure benefit amount current stabilization water supply facilities according to claim 1, it is characterized in that, negative pressure canceller is equipped with at water storage cavity top.

5. pot type pipe network differential pressure benefit amount current stabilization water supply facilities according to claim 1, is characterized in that, signal of water shortage transmitter and atmospheric valve are housed bottom water storage cavity.