Summary of the invention
Type electrostatic of the present invention is controlled haze freezing demist purification heat supply all-in-one object and is to purify regional haze atmospheric environment, absorbs the clammy thermal source of lifting haze and realizes environmental protection heating.
Regional haze atmospheric environment is purified, be to drive the circulation of haze air, a large amount of PM2.5 microparticle mushroom with positive charge enters electrostatic field absorption and reaches except haze object except haze device makes viral dust be adsorbed on positive plate, haze air enters electrostatic field absorption except haze device is except after haze through circulation, still there is very high water capacity, again through fin freezing demist one-level section, fin freezing demist secondary section realizes falling enthalpy dehumidification processing procedure, condense in removing humid air moisture, relative air humidity declines, two-step purification reduces in circulating air and enters air after PM2.5 bacterial virus content and water capacity.
Absorb and promote the clammy thermal source environmental protection heating of haze, containing a large amount of reproducible low level heat sources in haze air, by low-temperature level fault offset is freezing except haze finned coil Inner eycle working medium to fin while the moisture that condenses in fin freezing demist one-level section, secondary section cooling and dehumidifying layer removing air, space heating is promoted to through heat pump acting, economic environment-friend substitution fossil energy, can reduce the generation of the haze nuclei of condensation effectively.
The technical scheme of type of the present invention is: by purification heat supply all-in-one framework maintenance panel 1, electrostatic controls the freezing demist treatment system 2 of haze, haze treatment facility liquid gas purging system 3, and haze absorbs lifting heating and refrigerating system 4 and forms.
Described purification heat supply all-in-one framework maintenance panel 1 comprises all-in-one metal mold steel base; Frame four limit shaped steel column group; Shaped steel cross-arm group under central rack; Shaped steel cross-arm group on central rack; Frame top shaped steel cross-arm group; Fan type steel frame group; Panel beating maintenance panel group.
Described all-in-one metal mold steel base is integrated machine and supports; Frame four limit shaped steel column group lower margin is connected with all-in-one metal mold steel base four limit by bolt; Be connected with shaped steel cross-arm group on shaped steel cross-arm group, central rack under central rack respectively in the middle part of the shaped steel column group of frame four limit; Shaped steel column group top, frame four limit is connected with frame top shaped steel cross-arm group; Fan type steel frame group is installed on above frame top shaped steel cross-arm group; Panel beating maintenance panel group to be installed on shaped steel cross-arm group under frame four limit shaped steel column group, central rack, central rack between shaped steel cross-arm group, frame top shaped steel cross-arm group respectively.
Described electrostatic is controlled the freezing demist treatment system 2 of haze and is comprised air primary filter; Electrostatic field absorption is except haze device; Fin freezing demist one-level section; Fin freezing demist secondary section; Amplifier case; Solution spraying pipe; Air water refraction separating plate; Haze circulating fan; The delivery outlet that purifies air is formed.
Described air primary filter is arranged in electrostatic field absorption except haze device surrounding; Electrostatic field absorption is except haze Plant arrangement is below fin freezing demist one-level section; Fin freezing demist secondary section is arranged in above fin freezing demist one-level section; Amplifier case is arranged in above fin freezing demist secondary section; Solution spraying pipe is arranged in above amplifier case; Air water refraction separating plate is arranged in above solution spraying pipe; Haze circulating fan is arranged in above air water refraction separating plate.
Described haze treatment facility liquid gas purging system 3 comprises cleaning solution pharmacy jar; Cleaning solution groove; Solution circulation pump; Sterilizing filter; Solution spraying pipe; Amplifier case; Fin is freezing except haze finned tube; Fin freezing demist one-level section; Fin freezing demist secondary section; Electrostatic field absorption is except haze device formation.
Described dilution pharmacy jar is installed on the import of cleaning solution groove, and the water inlet pipe of dilution pharmacy jar connects with running water filling pipe; Cleaning solution groove is arranged in air primary filter, electrostatic field absorption except below haze device; The outlet of cleaning solution groove is connected with solution circulation pump intake by pipeline; Solution circulation pump discharge is connected with sterilizing filter entrance by pipeline; Sterilizing filter outlet is connected with solution spraying pipe by pipeline; Solution spraying pipe is arranged in above amplifier case; The freezing haze finned tube that removes of fin freezing demist secondary section, fin freezing demist one-level section, fin is arranged in below amplifier case; Electrostatic field absorption, except haze Plant arrangement is below fin freezing demist one-level section, is positioned at above cleaning solution groove.
Described haze absorbs lifting heating and refrigerating system 4 and comprises working medium circulation compressor; Working medium accumulation of heat energy coil pipe, coil pipe bypass motor-driven valve; Working medium four-way change-over valve; Load heat exchanger working medium side; Working medium reservoir; Working medium electric expansion valve; Working medium expansion coil; Working medium current divider; Fin is freezing except haze finned coil; Hot water accumulation of heat energy tank; Medium circulation pump; Load heat exchanger media side, side medium heat supply check valve, side medium heat supply motor-driven valve, side medium melts haze motor-driven valve and forms.
Described working medium circulation compressor is installed on all-in-one metal mold steel base, and working medium circulation compressor is inhaled steam ports and is connected with working medium four-way change-over valve interface by pipeline; Working medium circulation exhaust outlet of compressor is connected with the import of working medium accumulation of heat energy coil pipe by pipeline; Working medium accumulation of heat energy coil outlets is connected with the import of working medium four-way change-over valve by pipeline, coil pipe bypass motor-driven valve is connected across the coil pipe import of working medium accumulation of heat energy and outlet between; Working medium four-way change-over valve interface is connected with load heat exchanger working medium side interface by pipeline; Load heat exchanger working medium side interface is connected with working medium reservoir interface by pipeline; Working medium reservoir interface is connected with working medium electric expansion valve interface by pipeline; Working medium electric expansion valve interface is connected with working medium expansion coil interface by pipeline; Working medium expansion coil interface is connected by pipeline and the working medium current divider interface that confluxes; Working medium current divider divides stream interface to be connected by the freezing haze finned coil interface that removes of isocon and fin; The freezing haze finned coil interface that removes of fin is connected with working medium four-way change-over valve interface by pipeline.
Described hot water accumulation of heat energy tank is installed on all-in-one metal mold steel base; Hot water accumulation of heat energy tank interface is connected with health cold water inlet pipeline, interface is connected with health hot water export pipeline; Hot water accumulation of heat energy tank interface is connected with medium circulation pump intake by pipeline; Medium circulation pump discharge is connected with load heat exchanger media side interface respectively by pipeline, side medium heat supply check valve connects; Load heat exchanger media side interface melts haze motor-driven valve interface respectively by pipeline and side medium heat supply motor-driven valve, side medium and is connected; Side medium is melted the outlet of haze motor-driven valve and is connected with hot water accumulation of heat energy tank interface by pipeline; Side medium heat supply check valve is connected by pipeline heat supply water return pipeline; Side medium heat supply motor-driven valve is connected with heat supply outlet pipeline by pipeline.
Detailed description of the invention
Below in conjunction with accompanying drawing: Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5 are described further with structural representation respectively to type of the present invention " electrostatic controls haze freezing demist purification heat supply all-in-one ".
With reference to accompanying drawing, the present embodiment comprises by purification heat supply all-in-one framework maintenance panel 1, and electrostatic controls the freezing demist treatment system 2 of haze, haze treatment facility liquid gas purging system 3, and haze absorbs lifting heating and refrigerating system 4 and forms.
Illustrate: figure hollow core arrow represents air-flow direction, filled arrows represents circulatory mediator, liquid, water circulation flow direction.
Described purification heat supply all-in-one framework maintenance panel 1 comprises all-in-one metal mold steel base 1-1; Frame four limit shaped steel column group 1-2; Shaped steel cross-arm group 1-3 under central rack; Shaped steel cross-arm group 1-4 on central rack; Frame top shaped steel cross-arm group 1-5; Fan type steel frame group 1-6; Panel beating maintenance panel group 1-7 is formed.
Described all-in-one metal mold steel base 1-1 is integrated machine and supports; Frame four limit shaped steel column group 1-2 lower margin is connected with all-in-one metal mold steel base 1-1 tetra-limit by bolt; Be connected with shaped steel cross-arm group 1-4 on shaped steel cross-arm group 1-3, central rack under central rack respectively in the middle part of the shaped steel column group 1-2 of frame four limit; Shaped steel column group 1-2 top, frame four limit is connected with frame top shaped steel cross-arm group 1-5; Fan type steel frame group 1-6 is installed on above frame top shaped steel cross-arm group 1-5; Panel beating maintenance panel group 1-7 to be installed on shaped steel cross-arm group 1-3 under frame four limit shaped steel column group 1-2, central rack, central rack between shaped steel cross-arm group 1-4, frame top shaped steel cross-arm group 1-5 respectively.
Described electrostatic is controlled the freezing demist treatment system 2 of haze and is comprised air primary filter 2-1; Electrostatic field absorption is except haze device 2-2; Fin freezing demist one-level section 2-3; Fin freezing demist secondary section 2-4; Amplifier case 2-5; Solution spraying pipe 3-5; Air water refraction separating plate 2-6; Haze circulating fan 2-7; The delivery outlet 2-8 that purifies air is formed.
Described air primary filter 2-1 is arranged in electrostatic field absorption except haze device 2-2 surrounding; Electrostatic field absorption removes haze device 2-2 and is arranged in below fin freezing demist one-level section 2-3; Fin freezing demist secondary section 2-4 is arranged in above fin freezing demist one-level section 2-3; Amplifier case 2-5 is arranged in above fin freezing demist secondary section 2-4; Solution spraying pipe 3-5 is arranged in above amplifier case 2-5; Air water refraction separating plate 2-6 is arranged in above solution spraying pipe 3-5; Haze circulating fan 2-7 is arranged in above air water refraction separating plate 2-6.
Described haze treatment facility liquid gas purging system 3 comprises cleaning solution pharmacy jar 3-1; Cleaning solution groove 3-2; Solution circulation pump 3-3; Sterilizing filter 3-4; Solution spraying pipe 3-5; Amplifier case 2-5; Fin is freezing except haze finned tube 4-9; Fin freezing demist one-level section 2-3; Fin freezing demist secondary section 2-4; Electrostatic field absorption removes haze device 2-2 and forms.
Described dilution pharmacy jar 3-1 is installed on cleaning solution groove 3-2 import A-7, and the water inlet pipe of dilution pharmacy jar 3-1 connects with running water filling pipe; Cleaning solution groove 3-2 is arranged in air primary filter 2-1, electrostatic field absorption except below haze device 2-2; Cleaning solution groove 3-2 is exported B-7 and is connected with solution circulation pump 3-3 entrance by pipeline; Solution circulation pump 3-3 outlet is connected with sterilizing filter 3-4 entrance by pipeline; Sterilizing filter 3-4 outlet is connected with solution spraying pipe 3-5 by pipeline; Solution spraying pipe 3-5 is arranged in above amplifier case 2-5; The freezing haze finned tube 4-9 that removes of fin freezing demist secondary section 2-4, fin freezing demist one-level section 2-3, fin is arranged in below amplifier case 2-5; Electrostatic field absorption is arranged in below fin freezing demist one-level section 2-3 except haze device 2-2, is positioned at above cleaning solution groove 3-2.
Described haze absorbs lifting heating and refrigerating system 4 and comprises working medium circulation compressor 4-1; Working medium accumulation of heat energy coil pipe 4-2, coil pipe bypass motor-driven valve 4-2.1; Working medium four-way change-over valve 4-3; Load heat exchanger working medium side 4-4; Working medium reservoir 4-5; Working medium electric expansion valve 4-6; Working medium expansion coil 4-7; Working medium current divider 4-8; Fin is freezing except haze finned coil 4-9; Hot water accumulation of heat energy tank 4-10; Medium circulation pump 4-11; Load heat exchanger media side 4-12, side medium heat supply check valve 4-12.1, side medium heat supply motor-driven valve 4-12.2, side medium melts haze motor-driven valve 4-12.3 and forms.
Described working medium circulation compressor 4-1 is installed on all-in-one metal mold steel base, and working medium circulation compressor 4-1 is inhaled steam ports A-5 and is connected with working medium four-way change-over valve 4-3 interface B-1 by pipeline; Working medium circulation compressor 4-1 exhaust outlet B-5 is connected with working medium accumulation of heat energy coil pipe 4-2 import A-6 by pipeline; B-6 is connected with working medium four-way change-over valve 4-3 import D-1 by pipeline, coil pipe bypass motor-driven valve 4-2.1 is connected across working medium accumulation of heat energy coil pipe 4-2 import A-6 and export between B-6 in working medium accumulation of heat energy coil pipe 4-2 outlet; Working medium four-way change-over valve 4-3 interface A-1 is connected with load heat exchanger working medium side 4-4 interface A-2 by pipeline; Load heat exchanger working medium side 4-4 interface B-2 is connected with working medium reservoir 4-5 interface A-4 by pipeline; Working medium reservoir 4-5 interface B-4 is connected with working medium electric expansion valve 4-6 interface A-3 by pipeline; Working medium electric expansion valve 4-6 interface B-3 is connected with working medium expansion coil 4-7 interface A-8 by pipeline; Working medium expansion coil 4-7 interface B-8 is connected by pipeline and the working medium current divider 4-8 interface that confluxes; Working medium current divider 4-8 divides stream interface to be connected by the freezing haze finned coil 4-9 interface A-9 that removes of isocon and fin; The freezing haze finned coil 4-9 interface B-9 that removes of fin is connected with working medium four-way change-over valve 4-3 interface C-1 by pipeline.
Described hot water accumulation of heat energy tank 4-10 is installed on all-in-one metal mold steel base; Hot water accumulation of heat energy tank 4-10 interface G is connected with health cold water inlet pipeline, interface F is connected with health hot water export pipeline; Hot water accumulation of heat energy tank 4-10 interface D-3 is connected with medium circulation pump 4-11 entrance by pipeline; Medium circulation pump 4-11 outlet is connected with load heat exchanger media side 4-12 interface D-2 respectively by pipeline, side medium heat supply check valve 4-12.1 connects; Load heat exchanger media side 4-12 interface C-2 melts haze motor-driven valve 4-12.3 interface respectively by pipeline and side medium heat supply motor-driven valve 4-12.2, side medium and is connected; Side medium is melted haze motor-driven valve 4-12.3 outlet and is connected with hot water accumulation of heat energy tank 4-10 interface E by pipeline; Side medium heat supply check valve 4-12.1 is connected by pipeline heat supply water return pipeline; Side medium heat supply motor-driven valve 4-12.2 is connected with heat supply outlet pipeline by pipeline.
Electrostatic controls haze freezing demist purification heat supply all-in-one operation principle.
Electrostatic controls haze freezing demist purification heat supply all-in-one, comprise by purification heat supply all-in-one framework maintenance panel 1, electrostatic controls the freezing demist treatment system 2 of haze, haze treatment facility liquid gas purging system 3, haze absorbs lifting heating and refrigerating system 4 and consists of haze purification, air conditioner, health hot water four function device.
Purification heat supply all-in-one framework maintenance panel 1 aufbauprinciple, is shown in Fig. 2.
Described all-in-one metal mold steel base 1-1 tectonism; support all-in-one armamentarium weight; frame four limit shaped steel column group 1-2 bears shaped steel cross-arm group 1-4, frame top shaped steel cross-arm group 1-5 on shaped steel cross-arm group 1-3 under central rack, central rack; frame top shaped steel cross-arm group 1-5 supports fan type steel frame group 1-6, shaped steel cross-arm group 1-4, frame top shaped steel cross-arm group 1-5 framework snapping on shaped steel cross-arm group 1-3, central rack under panel beating maintenance panel group 1-7 and four limit shaped steel column group 1-2, central rack.
Electrostatic controls haze freezing demist treatment system 2 operation principle, sees Fig. 3.
Described haze circulating fan drives air circulation, through air primary filter 2-1 primary filter, PM2.5 microparticle mushroom in a large number with positive charge enters electrostatic field absorption except haze device 2-2, a large amount of PM2.5 microparticle mushroom with positive charge enters electrostatic field absorption and reaches except haze effect except haze device makes bacterial virus dust be adsorbed on positive plate, through the air except haze, still there is very high water capacity, direct discharge remains one of origin cause of formation stoping haze diffusion, application fin freezing demist one-level section 2-3, fin freezing demist secondary section 2-4 cooling and dehumidifying equipment, the water capacity reduced in air reduces relative air humidity and is conducive to polluter diffusion, two-step purification to reduce in circulating air after PM2.5 bacterial virus content and water capacity, through amplifier case 2-5, solution spraying pipe 3-5, air water refraction separating plate 2-6, loaded by haze circulating fan 2-7 and enter air, improve living environment air quality.
Haze treatment facility liquid gas purging system 3 operation principle, is shown in Fig. 4.
Described under environment negative temperature condition, system cloud gray model 10-12 hours needs remove haze device 2-2 positive plate, negative electrode hachure to electrostatic field absorption, fin freezing demist one-level section 2-3, fin freezing demist secondary section 2-4 carry out dust haze and the cleaning of white haze, and in cleaning process, haze circulating fan 2-7 is out of service.Describedly except haze finned tube 4-9 working substance steam heat energy passed to fin freezing demist secondary section 2-4 and fin freezing demist one-level section 2-3 starts to melt white haze from fin is freezing, solution circulation pump 3-3 startup optimization is from cleaning solution groove 3-2 inspiration cleaning solution simultaneously, solution spraying pipe 3-5 is entered through sterilizing filter 3-4, cleaning solution is sprayed uniformly on amplifier case 2-5, cleaning solution flows into fin freezing demist secondary section 2-4 by Action of Gravity Field, fin freezing demist one-level section 2-3, electrostatic field absorption is except haze device 2-2 positive plate, negative electrode hachure carry out interior heat melt+outer cleaning after, cleaning solution enters cleaning solution groove 3-2 and cleans through solution circulation pump 3-3 loaded cycle.
Haze absorbs and promotes heating and refrigerating system 4 operation principle, sees Fig. 5.
The clammy thermal source of described haze is through fin freezing demist one-level section 2-3, after fin freezing demist secondary section 2-4 isolates haze, clammy thermal source is passed to the freezing built-in circulation low pressure working fluid of haze finned coil 4-9 that removes of fin and be evaporated to unsaturation steam state working medium, enter working medium four-way change-over valve 4-3 interface C-1 and enter working medium circulation compressor 4-1 suction steam ports A-5 via interface B-1 derivation, be promoted to high-pressure working medium overheated gas through Alternative Refrigerant Compressors acting to be discharged by 4-1 exhaust outlet B-5, enter working medium accumulation of heat energy coil pipe 4-2 interface A-6 and be cooled to high pressure saturated gas to hot water accumulation of heat energy tank 4-10 by high pressure superheater gas, heat energy is passed to hot water accumulation of heat energy tank 4-10, health hot water is flowed out by F mouth after entering intensification by G mouth, remove white haze hot water to be entered by E mouth, flowed out by D-3 mouth after intensification.
Described high-pressure working medium overheated gas of being discharged by working medium circulation compressor 4-1 is cooled to high pressure saturated gas via hot water accumulation of heat energy tank 4-10 heat release, enter working medium four-way change-over valve 4-3 interface D-1 by interface A-1 derive enter load heat exchanger working medium side 4-4 interface A-2 discharge heat energy be condensed into high-pressure liquid working medium, heat energy is passed to load heat exchanger media side 4-12 and drive circulation by outer pump, cold backwater enters through side medium heat supply check valve 4-12.1, exports heat supply after heating by side medium heat supply motor-driven valve 4-12.2.
The described load heat exchanger working medium side 4-4 interface A-2 release heat energy that enters is condensed into high-pressure liquid working medium, entering working medium electric expansion valve 4-6 throttling expansion through working medium reservoir 4-5 is low pressure working fluid vehicle repair major fluid, is evaporated to low pressure working fluid moist steam enters working medium current divider 4-8 shunting and enter that fin is freezing completes the inverse carnot's cycle process of working medium evaporation-compression-condensation-throttling except haze finned tube 4-9 through working medium expansion coil 4-7.
Described coil pipe bypass motor-driven valve 4-2.1 is under hot water accumulation of heat energy tank 4-10 reaches temperature conditions, implements by-pass operation.
Described working medium four-way change-over valve 4-3 can realize freezing by conversion, heat, defrosting haze function.
The above; be only the specific embodiment of the present invention; but protection scope of the present invention is not limited thereto; any those of ordinary skill in the art are in the technical scope disclosed by the present invention; the change can expected without creative work or replacement, all should be encompassed within protection scope of the present invention.Therefore, the protection domain that protection scope of the present invention should limit with claims is as the criterion.