CN204853952U - Integration water conservation economizer system - Google Patents

Abstract

The utility model provides an integration water conservation economizer system relates to articles for daily use field, integration water conservation economizer system includes air -source heat bump water heater and shower nozzle, air -source heat bump water heater's play water end (W. E. ) with shower nozzle leads to the pipe intercommunication, shower nozzle still feeds through with the cold water pipeline that is used for carrying cold water, the shower nozzle below is provided with waste water collection device for collect the waste water after the shower, the system includes still that waste heat recovery filters comprehensive device, carries out the waste heat with the waste water after the shower and collects and filter, waste heat recovery filter to synthesize the device intake the end with waste water collection device leads to the pipe intercommunication, play water end (W. E. ) that waste heat recovery filter to synthesize the device with air -source heat bump water heater leads to the pipe intercommunication. The utility model provides an integration water conservation economizer system, solved function singleness among the prior art, energy -conserving efficiency lower, use that the condition restriction is many, the suitability less than technical problem.

Description

Integrated water saving energy conserving system

Technical field

The utility model relates to consumer goods industries, especially relates to a kind of integrated water saving energy conserving system.

Background technology

Air source hot pump water heater, also claims " air-source water heater " " cold air water heater " " air-source water heater " etc." air-source water heater " can absorb the low temperature heat energy in air come in, after compressor compresses, be converted into high temperature heat, heating water temperature.This water heater (air-source water heater) has energy-efficient feature, manufacture identical hot water amount, the cost that air-source water heater consumes the energy is only 1/4 of electric heater, 1/3 of gas heater, utilizes efficiency high than electric assisted solar hot water device.

Air-source water heater uses heat pump operation principle, and absorb the low energy heat in air, through the heat exchange of intermediate medium, and be compressed into high-temperature gas, heated by pipeline circulating system to water, power consumption only has 1/4 of electric heater.This new product overcomes solar water heater and relies on sunlight to adopt heat and install the shortcoming of inconvenience.Media for heat exchange is passed through in work due to air-source water heater, therefore it does not need electrical heating elements directly to contact with water, avoid the danger of electric heater electric leakage, also prevent gas heater likely to explode and poisoning danger, more effectively control the air pollution that fuel-oil water heater discharging waste gas causes.

Air-source water heater does not need sunlight, is therefore placed on family or outdoor can.After the water that solar water heater stores is finished, be difficult at once produce hot water again, if electrical heating needs long time again, as long as and air-source water heater has air, temperature, just can 24 hours round-the-clock bearing operations more than zero degrees celsius.So, namely use one case water, hours even will produce one case hot water in shorter time again.It also fundamentally can be eliminated when electric heater electric leakage, dry combustion method and gas heater use and produce the potential safety hazards such as pernicious gas simultaneously, overcome that solar water heater is overcast and rainy can not use and install the shortcomings such as inconvenience, have high safety, high energy-conservation, the life-span long, do not discharge the plurality of advantages such as poison gas.The life-span of air-source water heater generally can reach 15 to 20 years.

Air-source water heater adopts refrigeration principle from air, absorb heat to carry out heating water " heat carrying " device.The cold-producing medium being subzero more than 10 DEG C a kind of boiling point leads in switch, and cold-producing medium becomes gaseous state by evaporation by liquid state and absorb heat from air.Do manual work through compressor pressurizes, the temperature of cold-producing medium just can rise sharply to 80-120 DEG C again.Then, the cold-producing medium of HTHP is passed to water heat release in the capillary in storage tank, and the hypotensive effect finally by throttling arrangement becomes the liquid refrigerant of low-temp low-pressure again, just again can absorb heat in air.This completes the workflow of " heating-heat release ".

Heat pump operation principle is used to heat, contrary with air conditioner refrigerating---national refrigeration standard is 1000 watts, electricity refrigeration 2800 watts.According to thermally equilibrated principle, the heat of minimum generation 2800 watts simultaneously, add 1000 watts of electricity of input, the actual heat produced is 3000---and 4000 watts, these heat delivery to attemperater, its power consumption is 1/4th (even if the electric heater thermal efficiency 100%, inputting the heat that 1000 electricity also only have 1000 watts) of electric heater.

The maximum advantage of air-source water heater is " energy-conservation ".By concrete data: 30 DEG C of temperature difference heat water price lattice are respectively: electric heater 1.54 points of/rise hot water (electricity price 0.42 yuan/degree); Gas heater 1 point of/rise hot water (2 yuan/cubic metre, gas); Teat pump boiler is by obtaining free heat energy in air in a large number, the electric energy consumed is only that compressor is used for carrying air-energy energy used, therefore the thermal efficiency is up to 380%-600%, manufacture identical hot water amount, the use cost of Teat pump boiler only has 1/4 of electric heater, 1/3 of gas heater.

Its structure mainly contains, refrigeration four large parts: evaporimeter, compressor, condenser and throttling arrangement four parts.

Stablize three-major-items: fluid reservoir (compressor), expansion valve (capillary), drier (moisture content)

Defrosting one large part: cross valve.

It breaks through conventional energy replacement theory, realizes high energy efficiency: operationally, working medium can the energy QA of absorbing environmental medium storage in evaporimeter for heat pump; And start up system requires the expenditure of energy, i.e. compressor power consumption QB; Working medium is discharged into the heat QC of high-temperature medium within the condenser simultaneously; QC=QA+QB.After compressor input work start up system, become heat energy by mechanical kinetic energy.So the energy that heat pump exports is the heat QA sum that compressor work QB and heat pump absorb from environment; Input a QB, obtain QB+QA, break through between the single different energy of tradition and change the bottleneck that cannot reach 100% efficiency; Adopt heat pump techniques Energy Efficiency Ratio higher.

Power-saving technology of economizing on water between existing bathroom device is all generally consider monistic function system, and only consider that water saving is not considered energy-conservation or only considers energy-conservation and do not consider water saving, isolated the organic connections of the two, the target that user will " make the best of both worlds " is difficult to realize.As for some water-saving technologies, not because applicable elements restriction is difficult to be applied to both changed project, industrialization Industry Promotion application is difficult to exactly because of " special case ", be exactly in addition indivedual technology also exist take up room large, energy consumption is high, equipment too practical not, the middle water water quality of complexity be difficult to guarantee and there is the problems such as potential safety hazard, some water-saving technology systematization, integration degree are not high, and water-saving result is limited does not have application value.Energy-conservation between bathroom, existing technology is few, mostly just from selecting the energy-efficient performance of water heater itself to set about, not do not carry out systematic energy-conservation consideration to the key factor aspect comprising science heat-supplying mode, reasonable selection equipment, waste heat recovery etc. and affect energy-saving effect, therefore energy-saving effect is limited.

Simultaneously, due to the kind of the green clean and effective water heater required by specification can be selected at present few, in addition the restriction of application conditions, as solar water heater is only suitable for being arranged on light and heat condition better and carry out the architectural of integrated design with building, do not possess the region of light and heat condition or north orientation and East and West direction and some old existing buildings etc. and be just difficult to application, limitation is larger.Add solar water heater originally to experience the restriction of the weather conditions such as sleet and temperature, need to consume certain electric energy and assist, overall energy-saving effect is had a greatly reduced quality.

Based on this, the utility model apply the green high-efficient energy under providing a kind of comprehensive, full weather conditions and water saving and energy-conservation integral system to solve above-mentioned technical barrier and the unevident problem of reduction effect.

Utility model content

The purpose of this utility model is to provide a kind of integrated water saving energy conserving system, the technical problem that function singleness in prior art, energy-saving efficiency are lower to solve, application conditions restriction is many, poor for applicability.

Embodiments provides a kind of integrated water saving energy conserving system of the present utility model, described integrated water saving energy conserving system comprises air source hot pump water heater and shower nozzle; Water side and the described shower nozzle of described air source hot pump water heater pass through cross current; Described shower nozzle also with for carrying the cold line of cold water to be communicated with; Waste water collection device is provided with, for collecting the waste water after shower below described shower nozzle; Described system also comprises waste heat recovery and filters integration unit, and the waste water after shower is carried out residual heat collection and filtration; The water inlet end of described waste heat recovery filtration integration unit and described waste water collection device are by cross current, and water side and the described air source hot pump water heater of described waste heat recovery filtration integration unit pass through cross current.

Optionally, described system also comprises toilet seat, and described toilet seat comprises two waste preventers; The water side that integration unit is filtered in described waste heat recovery is also communicated with secondary waste heat retracting device, and described secondary waste heat retracting device is for reclaiming the waste heat in waste water; The water side of described secondary waste heat retracting device is communicated with water storage tank, is provided with the filtration sterilization synthesizer for filtering sterilization in described water storage tank; The water side of described water storage tank is communicated with waste preventer described in one of them by water pipe.

Optionally, waste preventer described in another is communicated with described cold line.

Optionally, the described water pipe being communicated with described water storage tank and described waste preventer is disposed with self priming pump, valve, hyperfiltration membrane assembly and flowmeter along water (flow) direction.

Optionally, described system also comprises sink, and the water inlet end of described sink is communicated with described cold line with described air source hot pump water heater respectively; The apopore place of described sink is provided with pure and impure moisture and dials valve, for shunting clear water and muddy water; Described pure and impure moisture dials the Graceful water end (W.E.) of valve and described water storage tank passes through cross current; The muddy water water side that described pure and impure moisture dials valve is communicated with blow-off line.

Optionally, described system also comprises washing machine, the water inlet end of described washing machine is communicated with described cold line, the outlet pipe of described washing machine being provided with the pure and impure separator for shunting clear water and muddy water, being communicated with described pure and impure moisture and dialling valve and be communicated with the Graceful water end (W.E.) of described pure and impure hydrotreater with the described water pipe of described water storage tank; The muddy water water side of described pure and impure hydrotreater is communicated with blow-off line.

Optionally, be communicated with on described water pipe that described pure and impure moisture dials valve and described water storage tank and be provided with filter, for filtering the clear water that described washing machine and described sink flow out.

Optionally, be communicated with on described water pipe that described waste heat recovery filters integration unit and described air source hot pump water heater and be provided with described heat exchanger, described heat exchanger is also communicated with caliduct.

Optionally, the water pipe between described heat exchanger and described air source hot pump water heater is provided with thermometer.

Optionally, hair filter is provided with in described waste water collection device.

The described integrated water saving energy conserving system that the utility model provides, described integrated water saving energy conserving system comprises air source hot pump water heater and shower nozzle; Water side and the described shower nozzle of described air source hot pump water heater pass through cross current; Described shower nozzle also with for carrying the cold line of cold water to be communicated with; Waste water collection device is provided with, for collecting the waste water after shower below described shower nozzle; Described system also comprises waste heat recovery and filters integration unit, and the waste water after shower is carried out residual heat collection and filtration; The water inlet end of described waste heat recovery filtration integration unit and described waste water collection device are by cross current, and water side and the described air source hot pump water heater of described waste heat recovery filtration integration unit pass through cross current.

The described integrated energy-saving system of the application, adopt described air source hot pump water heater heating cold water, than original water heater, manufacture identical hot water amount, the cost that air-source water heater consumes the energy is only 1/4 of electric heater, 1/3 of gas heater, utilizes efficiency high than electric assisted solar hot water device, and be applicable to any environment, not by the impact of the environment such as solar irradiation.Meanwhile, filter integration unit by described waste heat recovery, can reclaim people carry out shower after waste water in heat, the heat in waste water is carried out recycling, continues on for heating cold water.Carry out filtration to waste water again to utilize, saved electric energy and water resource, energy-saving efficiency is higher compared to prior art simultaneously, not only economizes on water but also energy-conservation.

Based on this, the utility model is than original technology, and have and can collect waste heat, energy-saving efficiency is higher, not only economizes on water but also energy-conservation, the advantage of good environmental adaptability.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model detailed description of the invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in detailed description of the invention or description of the prior art below, apparent, accompanying drawing in the following describes is embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is embodiment one structural representation.

Reference numeral:

1-air source hot pump water heater; 2-shower nozzle;

3-cold line; 4-waste water collection device;

Integration unit is filtered in 5-waste heat recovery; 6-toilet seat;

7-secondary waste heat retracting device; 8-water storage tank;

9-blow-off line; 10-washing machine;

11-sink; 12-heat exchanger;

13-caliduct; 14-thermometer;

15-self priming pump; 16-valve;

17-hyperfiltration membrane assembly; 18-flowmeter;

The pure and impure separator of 19-.

Detailed description of the invention

Be clearly and completely described the technical solution of the utility model below in conjunction with accompanying drawing, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

In description of the present utility model, it should be noted that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "left", "right", " vertically ", " level ", " interior ", " outward " they be based on orientation shown in the drawings or position relationship; be only the utility model and simplified characterization for convenience of description; instead of instruction or imply the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second ", " the 3rd " only for describing object, and can not be interpreted as instruction or hint relative importance.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or the connection of one; Can be mechanical connection, also can be that electric welding connects; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition the concrete meaning of above-mentioned term in the utility model can be understood.

Embodiment one

As shown in Figure 1, provide a kind of integrated water saving energy conserving system in the present embodiment, described integrated water saving energy conserving system comprises air source hot pump water heater 1 and shower nozzle 2; Water side and the described shower nozzle 2 of described air source hot pump water heater 1 pass through cross current; Described shower nozzle 2 also with for carrying the cold line 3 of cold water to be communicated with; Waste water collection device 4 is provided with, for collecting the waste water after shower below described shower nozzle 2; Described system also comprises waste heat recovery and filters integration unit 5, and the waste water after shower is carried out residual heat collection and filtration; The water inlet end of described waste heat recovery filtration integration unit 5 and described waste water collection device 4 are by cross current, and water side and the described air source hot pump water heater 1 of described waste heat recovery filtration integration unit 5 pass through cross current.

The described integrated energy-saving system of the application, adopt described air source hot pump water heater 1 heating cold water, than original water heater, manufacture identical hot water amount, the cost that air-source water heater consumes the energy is only 1/4 of electric heater, 1/3 of gas heater, utilizes efficiency high than electric assisted solar hot water device.Meanwhile, filter integration unit 5 by described waste heat recovery, can reclaim people carry out shower after waste water in heat, the heat in waste water is carried out recycling, continues on for heating cold water.Carry out filtration to waste water again to utilize, saved electric energy and water resource, energy-saving efficiency is higher compared to prior art simultaneously.

Based on this, the utility model, than original technology, has and can collect waste heat, the advantage that energy-saving efficiency is higher.

As Fig. 1, in the possibility of the present embodiment, described system also comprises toilet seat 6, and described toilet seat 6 comprises two waste preventers; Described two waste preventers are respectively used to storage running water and Zhong Shui, are two water quality water tank.The water side that integration unit 5 is filtered in described waste heat recovery is also communicated with secondary waste heat retracting device 7, and described secondary waste heat retracting device 7 is for reclaiming the waste heat in waste water; The water side of described secondary waste heat retracting device 7 is communicated with water storage tank 8, is provided with the filtration sterilization synthesizer for filtering sterilization in described water storage tank 8; The water side of described water storage tank 8 is communicated with waste preventer described in one of them by water pipe.

Waste water after shower, through the first time waste heat recovery of described waste heat recovery filtration integration unit 5 with after filtering, by described secondary waste heat retracting device 7, carries out secondary waste heat recovery for the waste water after shower, saves the energy further.Then to carry out disinfection filtration through described filtration sterilization synthesizer, enter described water storage tank 8 and store.Water in described water storage tank 8 enters described toilet seat 6 waste preventer described in one of them by water pipe, for rinsing described toilet seat 6, by wastewater reuse, and saving water resource.

Further, waste preventer described in another is communicated with described cold line 3.It is convenient by the direct flushing closestool 6 of cold water when described water storage tank 8 does not have water.

Further, described water storage tank 8 is communicated with blow-off line 9 by water tank overflow pipe.Discharge exceeding the water that water level cannot take up in water tank.

Further, described waste heat recovery filtration integration unit 5 is communicated with blow-off line 9, for discharging the dirt of filtration.

Optionally, described cold water pipe can filter integration unit 5 with described secondary waste heat retracting device 7, described waste heat recovery successively, described air source hot pump water heater 1 is communicated with, cold water, by being heated by described air source hot pump water heater 1 after the heating of twice waste heat, saves the energy again.

As Fig. 1, in the possibility of the present embodiment, be communicated with on described water storage tank 8 and the described water pipe of described waste preventer and be disposed with self priming pump 15, valve 16, hyperfiltration membrane assembly 17 and flowmeter 18 along water (flow) direction.Promote water level by described self priming pump 15, then filter through described hyperfiltration membrane assembly 17, make it enter in toilet seat 6.Described water storage tank 8 and described waste preventer also directly can be communicated with after water level is promoted by self priming pump.

As Fig. 1, in the possibility of the present embodiment, described system also comprises sink 11, and the water inlet end of described sink 11 is communicated with described cold line 3 with described air source hot pump water heater 1 respectively; The apopore place of described sink 11 is provided with pure and impure moisture and dials valve, for shunting clear water and muddy water; Described pure and impure moisture dials the Graceful water end (W.E.) of valve and described water storage tank 8 passes through cross current; The muddy water water side that described pure and impure moisture dials valve is communicated with blow-off line 9.

The water of sink 11 can use by the water after heating or, directly use cold water.Water after washed, dials valve by described pure and impure moisture, and be separated more muddy water and clear water, more muddy water directly enters blow-off line 9, and comparatively clear water will enter described water storage tank 8 and recycles.

As Fig. 1, in the possibility of the present embodiment, described system also comprises washing machine 10, the water inlet end of described washing machine 10 is communicated with described cold line 3, the outlet pipe of described washing machine 10 being provided with the pure and impure separator 19 for shunting clear water and muddy water, being communicated with described pure and impure moisture and dialling valve and be communicated with the Graceful water end (W.E.) of described pure and impure hydrotreater 19 with the described water pipe of described water storage tank 8; The muddy water water side of described pure and impure hydrotreater 19 is communicated with blow-off line 9.

At the water of the washed clothes of described washing machine 10, through described pure and impure separator, more muddy water directly enters blow-off line 9, and comparatively clear water enters water storage tank 8 and recycles.

Further, be communicated with on described water pipe that described pure and impure moisture dials valve and described water storage tank 8 and be provided with filter, for filtering the clear water that described washing machine 10 flows out with described sink 11.

As Fig. 1, in the possibility of the present embodiment, be communicated with described waste heat recovery and filter on integration unit 5 and the described water pipe of described air source hot pump water heater 1 and be provided with described heat exchanger 12, described heat exchanger 12 is also communicated with caliduct 13.Through water and the heating exchange of waste-heat, again heated, saved electric energy.

As Fig. 1, in the possibility of the present embodiment, the water pipe between described heat exchanger 12 and described air source hot pump water heater 1 is provided with thermometer 14.For exact heat temperature.

In the possibility of the present embodiment, in described waste water collection device 4, be provided with hair filter.Hair after having a bath is filtered.

The described integrated water saving energy conserving system of the application, have can economize on water and can energy-conservation and integration degree is high, be applied between bathroom make it full product, two large advantages that complete " machine " is changed.To save water and energy and industrialization, industrialization are the essential main ideas of green building, and the impetus of green building just between bathroom.Native system is systematic overcome solve correlation technique before this water saving or energy-conservation in unicity and functional facilities equipment can not the unified defect of organic coordination, both the difficult problem that two technology can not be unified had been solved, eliminating again user for fitting up and install bathroom facility equipment and the awkward predicament of run around here and there, gall mouth, the disconnected leg of race, enabling user easily obtain more professional, Full Featured application and experiencing.

Native system efficiency of saving water and energy breaches the limit of prior art, reaches a new height.Native system achieves systematic energy-conservation, and total energy-saving efficiency reaches more than 80%.Native system adopts green energy resource, all the other several heat-supplying modes mentioned in background technology, and the air source hot pump water heater efficiency that native system adopts is high, energy-saving effect is obvious, and average COP reaches more than 3.5, and energy consumption is very low, 22% of electric heater, 31% of gas heater.The preferred monoblock type source heat pump water heater of native system, than Split water-heater, the power consumption of 1 year can reduce about 15%.

The heat-supplying mode of science is also an energy-conservation important ring, and research shows that central heating has larger thermal losses waste than dispersed supply of heating.Heating system is concentrated on one with hot systems by native system, is distributed between each bathroom by water heater, make it with by water end zero distance, and without the need to applied cyclic water pump, decrease thermal losses.Also shorten and use water distance.Meanwhile, owing to supplying water, distance is very short, lets cool the phenomenon of water, saved water resource before greatly reducing shower.

Native system has started the monoblock type integral application precedent of air source hot pump water heater, bathroom facility and water-saving energy-saving system.Native system is applied between monoblock type bathroom, with system integration theory for starting point, handgrip is applied as with the science of latest scientific research and new green power equipment, integrate heating equipment, bathroom facility, water-saving energy-saving system, combine with existing integral vacuum toilet technology and same floor wastewater discharge technique, manufacture the bathroom room system of " robotic " completely, achieve monoblock type integration real between bathroom.Between the integrated bathroom of this integrated form, meet the developing direction of modern architecture, for industrialization, industrialization, the component realizing building is laid a good foundation.Native system achieves modular processing, in form of construction work, complete industrialization, batch production, scene only has assembling procedure, revolutionizes the wet work mode of tradition finishing and loaded down with trivial details construction operation program, and owner is really freed from the predicament of finishing, allow user realize handbag completely move in, achieve science, efficient, energy-conservation living environment and cost is low, save the economic effect of operating cost simultaneously.

Last it is noted that above each embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to foregoing embodiments, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of each embodiment technical scheme of the utility model.

Claims (10)

1. an integrated water saving energy conserving system, is characterized in that, comprises air source hot pump water heater and shower nozzle; Water side and the described shower nozzle of described air source hot pump water heater pass through cross current; Described shower nozzle also with for carrying the cold line of cold water to be communicated with; Waste water collection device is provided with, for collecting the waste water after shower below described shower nozzle; Described system also comprises waste heat recovery and filters integration unit, and the waste water after shower is carried out residual heat collection and filtration; The water inlet end of described waste heat recovery filtration integration unit and described waste water collection device are by cross current, and water side and the described air source hot pump water heater of described waste heat recovery filtration integration unit pass through cross current.

2. integrated water saving energy conserving system according to claim 1, is characterized in that, described system also comprises toilet seat, and described toilet seat comprises two waste preventers; The water side that integration unit is filtered in described waste heat recovery is also communicated with secondary waste heat retracting device, and described secondary waste heat retracting device is for reclaiming the waste heat in waste water; The water side of described secondary waste heat retracting device is communicated with water storage tank, is provided with the filtration sterilization synthesizer for filtering sterilization in described water storage tank; The water side of described water storage tank is communicated with waste preventer described in one of them by water pipe.

3. integrated water saving energy conserving system according to claim 2, is characterized in that, waste preventer described in another is communicated with described cold line.

4. integrated water saving energy conserving system according to claim 2, is characterized in that, the described water pipe being communicated with described water storage tank and described waste preventer is disposed with self priming pump, valve, hyperfiltration membrane assembly and flowmeter along water (flow) direction.

5. integrated water saving energy conserving system according to claim 2, is characterized in that, described system also comprises sink, and the water inlet end of described sink is communicated with described cold line with described air source hot pump water heater respectively; The apopore place of described sink is provided with pure and impure moisture and dials valve, for shunting clear water and muddy water; Described pure and impure moisture dials the Graceful water end (W.E.) of valve and described water storage tank passes through cross current; The muddy water water side that described pure and impure moisture dials valve is communicated with blow-off line.

6. integrated water saving energy conserving system according to claim 5, it is characterized in that, described system also comprises washing machine, the water inlet end of described washing machine is communicated with described cold line, the outlet pipe of described washing machine being provided with the pure and impure separator for shunting clear water and muddy water, being communicated with described pure and impure moisture and dialling valve and be communicated with the Graceful water end (W.E.) of described pure and impure hydrotreater with the described water pipe of described water storage tank; The muddy water water side of described pure and impure hydrotreater is communicated with blow-off line.

7. integrated water saving energy conserving system according to claim 6, is characterized in that, is communicated with on described water pipe that described pure and impure moisture dials valve and described water storage tank and is provided with filter, for filtering the clear water that described washing machine and described sink flow out.

8. integrated water saving energy conserving system according to claim 3, is characterized in that, be communicated with on described water pipe that described waste heat recovery filters integration unit and described air source hot pump water heater and be provided with heat exchanger, described heat exchanger is also communicated with caliduct.

9. integrated water saving energy conserving system according to claim 8, is characterized in that, the water pipe between described heat exchanger and described air source hot pump water heater is provided with thermometer.

10. the integrated water saving energy conserving system according to any one of claim 1-9, is characterized in that, is provided with hair filter in described waste water collection device.