CN101886853A - Special heat pump unit for sewage source and system thereof - Google Patents
Special heat pump unit for sewage source and system thereof Download PDFInfo
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- CN101886853A CN101886853A CN 201010122131 CN201010122131A CN101886853A CN 101886853 A CN101886853 A CN 101886853A CN 201010122131 CN201010122131 CN 201010122131 CN 201010122131 A CN201010122131 A CN 201010122131A CN 101886853 A CN101886853 A CN 101886853A
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Abstract
The invention relates to a special heat pump unit for a sewage source and a system thereof, wherein the special heat pump unit utilizes urban untreated sewage as a cold and hot source for carrying out heating and air conditioning on a building, and comprises a compressor (1), an oil separator (2), a condenser (3), an electronic expansion valve (4), an evaporator (5), an economizer (6), a piston type untreated sewage filter device (7), a change-over valve 1 (8), a change-over valve 2 (9), a throttle valve (30), a regulating valve (31) and the like.
Description
Technical field
The present invention relates to a kind of urban original wastewater that utilizes as cold and heat source, to building heat, the source of sewage dedicated for heat pump unit and the system thereof of air-conditioning.
Background technology
Utilizing urban original wastewater as heat pump low level Cooling and Heat Source, for the building heating air-conditioner has the important energy saving and the value of environmental protection, be alleviation energy resource consumption anxiety, alleviate one of effective way of environmental pollution, but contain a large amount of dirty foreign material in the native sewage water, as under the situation of any processing, directly enter source pump and carry out heat exchange, its evaporimeter or condenser are easy to blocked, and unit can't normally move.
In addition, contain materials such as a large amount of hairs, fiber, silt in the urban original wastewater, these materials are often less than filtering mesh diameter, behind system's long-play, also many by hair, the fiber of screen pack, enter evaporimeter or condenser after, just be trapped in the influent side of heat transmission equipment, stop up heat exchanger tube, running time is long more, stops up serious more.
If add heat transmission equipment in the middle of adopting, be that sewage and intermediary's water carry out heat exchange (intermediary's hydromining system's demineralized water), intermediary's water enters source pump again and carries out heat exchange, owing to increased by a cover heat exchange system, temperature after summer intermediary's water and the native sewage water heat exchange will exceed about about 5 ℃ of native sewage water, temperature after winter intermediary's water and the native sewage water heat exchange will be lower than about about 5 ℃ of native sewage water, directly advancing source pump with native sewage water carries out heat exchange and compares, the efficient of source pump is relatively low, in addition, intermediary's water and sewage carry out heat exchange, intermediary's water-circulating pump and middle heat transmission equipment have been increased, this also is initial cost and the operating cost that has increased whole heat pump, and the floor space of machine room is also bigger.
Summary of the invention
For solve native sewage water directly advances evaporimeter or condenser stops up easily, middle heat exchange influence source pump efficient and evaporimeter, when summer in condenser winter, pipeline switched, pollution the invention provides a kind of source of sewage dedicated for heat pump unit and system thereof mutually.
Application principle:
1, as Fig. 1, shown in Figure 2, source of sewage dedicated for heat pump unit of the present invention comprises compressor, oil eliminator, condenser, electric expansion valve, evaporimeter, economizer, piston type native sewage water filter, tangential valve 1, tangential valve 2, choke valve, compositions such as control valve, summer, tangential valve 2, tangential valve 3, tangential valve 6, tangential valve 7 is for opening, tangential valve 1, tangential valve 4, tangential valve 5, tangential valve 8 is for cutting out, cold-producing medium carries out the heat exchange condensation with filtered water in condenser after, through tangential valve 7, electric expansion valve, tangential valve 6 enters evaporimeter and evaporates, entering compressor after the cold-producing medium evaporation compresses, discharge from compressor, after passing through oil eliminator and oil separating, enter condenser through tangential valve 3 and carry out condensation, enter economizer through tangential valve 7 a cold-producing mediums part through choke valve, a part enters the economizer heat exchange through control valve, enter compressor after the former evaporation and compress, latter's heat exchange is after behind the electric expansion valve, enter evaporimeter and evaporate; Winter, with tangential valve 2, tangential valve 3, tangential valve 6, tangential valve 7 cuts out, with tangential valve 1, tangential valve 4, tangential valve 5, tangential valve 8 is opened, cold formulation system is commutated, condenser becomes evaporimeter, evaporimeter becomes condenser, cold-producing medium carries out heat exchange evaporation with filtered water in condenser after, entering compressor through tangential valve 1 compresses, discharge from compressor, after passing through oil eliminator and oil separating, enter evaporimeter through tangential valve 4 and carry out condensation, condensation of refrigerant is after tangential valve 8, electric expansion valve, tangential valve 5 enters condenser and evaporates, and enters economizer through the cold-producing medium of tangential valve 8 is a part of through choke valve, a part enters the economizer heat exchange through control valve, enter compressor after the former evaporation and compress, latter's heat exchange is after behind the electric expansion valve, enter condenser and evaporate.
2, as shown in Figure 3, the heat exchanger tube of condenser adopts corrosion resistant naval copper pipe, carrying out single tube by bridge piece and pipe joint is connected, when tangential valve 9, tangential valve 12 is opened, tangential valve 10, tangential valve 11 is direct circulation when cutting out, when tangential valve 9, tangential valve 12 cuts out, tangential valve 10, tangential valve 11 is anti-circulation when opening, tangential valve adopts electrical ball valve, by the unit electric control system controls, backwashing time is set at interval, native sewage water without any processing enters piston type native sewage water filter, filtered water after process is filtered enters condenser and cold-producing medium carries out heat exchange, and through containing the following dirty foreign material of filtering accuracy in the filtered water of filtering, long-time running accumulates in the influent side of condenser, in the setting-up time of backwash, tangential valve 9, tangential valve 10, tangential valve 11, tangential valve 12 changes the Inlet and outlet water direction of condenser, and the dirty foreign material that original influent side gathers are because turning to of current recoiled to piston type native sewage water filter the discharge system.
3, as Fig. 4, shown in Figure 5, piston type native sewage water filter of the present invention comprises reducing motor, bearing block, screen pack, filtered water outlet urceolus filtering area, spiral handspike, spiral handspike sealing, piston seal, filtered water import, rinsing area, pitch brace, rinsing area piston, holds dirty district, sewage outlet, inner core piston, sewage inlet, inner core filtering area, electric pushrod, main body, upper limit position switch, lower position switch etc.Piston type native sewage water filter embodiment is, native sewage water enters the inner core filtering area from sewage inlet, enter heat transmission equipment by the filtered water outlet behind the net filtration after filtration and carry out heat exchange, filtered water after the heat exchange enters rinsing area by the filtered water import, dirty foreign material in the dirty district are held in flushing, and take with dirty foreign material and discharged by sewage outlet.Reducing motor drives the spiral handspike rotation, the dirty foreign material of leaving over after the inner core filtering area can being filtered push hold dirty district to, form the piston moving link by inner core piston, the dirty district of appearance, rinsing area piston, pitch brace, drive back and forth operation by electric pushrod, the inner core piston closely contacts with the spiral handspike sealing, seals constantly, prevent that native sewage water from entering the spiral handspike inner region, the rinsing area piston closely contacts with piston seal, seals constantly, prevents that native sewage water from entering rinsing area.The piston moving link back and forth moves, and controlled by upper limit position switch and lower position switch, holds dirty the district when moving to the inner core filtering area, the dirty foreign material that spiral handspike will be left over after will filtering advance and hold in the dirty district, this moment, connecting rod touched upper limit position switch, and the piston moving link turns, counter motion.After the dirty district of appearance entered rinsing area, the filtered water after the heat exchange entered rinsing area by the filtered water import, and dirty foreign material in the dirt district are held in flushing, and take with dirty foreign material and discharged by sewage outlet.
4, as shown in Figure 5, native sewage water source dedicated for heat pump of the present invention system is made up of trunk sewer, open caisson (23), submerged sewage pump, sewage supply channel, source of sewage dedicated for heat pump unit, sewage water return pipeline, terminal circulating pump, end system, connected mode is that sewage flows by gravitational force into open caisson in the trunk sewer, the submerged sewage pump lifting sewage is sent into source of sewage dedicated for heat pump unit by the sewage supply channel in the open caisson, after the heat exchange, flow into the trunk sewer downstream by the sewage water return pipeline.
Description of drawings
Fig. 1 is that summer operation schematic diagram, Fig. 2 of source of sewage dedicated for heat pump of the present invention is that winter operation schematic diagram, Fig. 3 condenser backwash schematic diagram, Fig. 4 piston type native sewage water filter external form figure, Fig. 5 of source of sewage dedicated for heat pump of the present invention is piston type native sewage water filter profile, Fig. 6 native sewage water source dedicated for heat pump systematic schematic diagram
Among Fig. 1, Fig. 2, Fig. 3, Fig. 6, the 1-compressor; The 2-oil eliminator; The 3-condenser; The 4-electric expansion valve; The 5-evaporimeter; The 6-economizer; 7-piston type native sewage water filter; The tangential valve 1 of 8-; The tangential valve 2 of 9-; The tangential valve 3 of 10-; The tangential valve 4 of 11-; The tangential valve 5 of 12-; The tangential valve 6 of 13-; The tangential valve 7 of 14-; The tangential valve 8 of 15-; The tangential valve 9 of 16-; The tangential valve 10 of 17-; The tangential valve 11 of 18-; The tangential valve 12 of 19-; The 20-tube connector; The 21-pipe joint; The 22-trunk sewer; The 23-open caisson; 24-sewage immersible pump; 25-sewage supply channel; 26-source of sewage dedicated for heat pump unit; 27-sewage water return pipeline; The terminal circulating pump of 28-; The 29-end system; The 30-choke valve; The 31-control valve.
Among Fig. 4, Fig. 5, the 1-reducing motor; The 2-bearing block; The 3-screen pack; The outlet of 4-filtered water; 5-urceolus filtering area; The 6-spiral handspike; The sealing of 7-spiral handspike; The 8-piston seal; The import of 9-filtered water; The 10-outer sealing device; The 11-rinsing area; The 12-pitch brace; 13-rinsing area piston; 14-holds dirty district; The 15-sewage outlet; 16-inner core piston; The 17-sewage inlet; 18-inner core filtering area; The 19-electric pushrod; The 20-main body; The 21-upper limit position switch; The 22-lower position switch; 23-spiral handspike inner region; The 24-connecting rod.
The specific embodiment
1, as Fig. 1, shown in Figure 2, source of sewage dedicated for heat pump unit of the present invention comprises compressor (1), oil eliminator (2), condenser (3), electric expansion valve (4), evaporimeter (5), economizer (6), piston type native sewage water filter (7), tangential valve 1 (8), tangential valve 2 (9), choke valve (30), control valve compositions such as (31), winter, summer operating mode cold-producing medium switches embodiment: summer, tangential valve 2 (9), tangential valve 3 (10), tangential valve 6 (13), tangential valve 7 (14) is for opening, tangential valve 1 (8), tangential valve 4 (11), tangential valve 5 (12), tangential valve 8 (15) is for cutting out, cold-producing medium carries out the heat exchange condensation with filtered water in condenser (3) after, through tangential valve 7 (14), electric expansion valve (4), tangential valve 6 (13) enters evaporimeter (5) and evaporates, entering compressor (1) after the cold-producing medium evaporation compresses, discharge from compressor (1), after passing through oil eliminator (2) and oil separating, enter condenser (3) through tangential valve 3 (10) and carry out condensation, enter economizer (6) through tangential valve 7 (a 14) cold-producing mediums part through choke valve (30), a part enters economizer (6) heat exchange through control valve (31), entering compressor (1) after the former evaporation compresses, latter's heat exchange is after behind the electric expansion valve (4), enter evaporimeter (5) and evaporate; Winter is with tangential valve 2 (9), tangential valve 3 (10), tangential valve 6 (13), tangential valve 7 (14) cuts out, with tangential valve 1 (8), tangential valve 4 (11), tangential valve 5 (12), tangential valve 8 (15) is opened, cold formulation system is commutated, condenser (3) becomes evaporimeter, evaporimeter (7) becomes condenser, cold-producing medium carries out heat exchange evaporation with filtered water in condenser (3) after, entering compressor (1) through tangential valve 1 (8) compresses, discharge from compressor, after passing through oil eliminator (2) and oil separating, enter evaporimeter (5) through tangential valve 4 (11) and carry out condensation, condensation of refrigerant is after tangential valve 8 (15), electric expansion valve (4), tangential valve 5 (12) enters condenser (3) and evaporates, cold-producing medium part through tangential valve 8 (15) enters economizer (6) through choke valve (30), a part enters economizer (6) heat exchange through control valve (31), entering compressor (1) after the former evaporation compresses, latter's heat exchange is after behind the electric expansion valve (4), enter condenser (3) and evaporate.
2, as shown in Figure 3, the special-purpose heat exchange unit of source of sewage backwash process embodiment is: the heat exchanger tube of condenser (3) adopts corrosion resistant naval copper pipe, carrying out single tube by bridge piece (20) with pipe joint (21) is connected, when tangential valve 9 (16), tangential valve 12 (19) is opened, tangential valve 10 (17), tangential valve 11 (18) is direct circulation when cutting out, when tangential valve 9 (16), tangential valve 12 (19) cuts out, tangential valve 10 (17), tangential valve 11 (18) is anti-circulation when opening, tangential valve adopts electrical ball valve, by the unit electric control system controls, backwashing time is set at interval, native sewage water without any processing enters piston type native sewage water filter (7), enter condenser (3) through the filtered water after filtering and carry out heat exchange with cold-producing medium, through containing the following dirty foreign material of filtering accuracy in the filtered water of filtering, long-time running accumulates in the influent side of condenser (3), in the setting-up time of backwash, tangential valve 9 (16), tangential valve 10 (17), tangential valve 11 (18), tangential valve 12 (19) changes the Inlet and outlet water direction of condenser, the dirty foreign material that original influent side gathers are because turning to of current recoiled to piston type native sewage water filter (7) the discharge system.
3, as Fig. 4, shown in Figure 5, piston type native sewage water filter of the present invention comprises reducing motor (1), bearing block (2), screen pack (3), filtered water outlet (4) urceolus filtering area (5), spiral handspike (6), spiral handspike sealing (7), piston seal (8), filtered water import (9), outer sealing device (10), rinsing area (11), pitch brace (12), rinsing area piston (13), hold dirty district (14), sewage outlet (15), inner core piston (16), sewage inlet (17), inner core filtering area (18), electric pushrod (19), main body (20), upper limit position switch (21), lower position switch (22) etc.Piston type native sewage water filter embodiment is, native sewage water enters inner core filtering area (18) from sewage inlet (17), enter heat transmission equipment through filter screen (3) filtration back by filtered water outlet (4) and carry out heat exchange, filtered water after the heat exchange enters rinsing area (11) by filtered water import (9), dirty foreign material in the dirty district (14) are held in flushing, and take with dirty foreign material and discharged by sewage outlet (15).Reducing motor (1) drives spiral handspike (6) rotation, the dirty foreign material of leaving over after inner core filtering area (18) can being filtered push hold dirty district (14) to, by inner core piston (16), hold dirty district (14), rinsing area piston (13), pitch brace (12) is formed the piston moving link, drive back and forth operation by electric pushrod (19), inner core piston (16) closely contacts with spiral handspike sealing (7), seal constantly, prevent that native sewage water from entering spiral handspike inner region (23), rinsing area piston (13) closely contacts with piston seal (8), seal constantly, prevent that native sewage water from entering rinsing area (11).The piston moving link back and forth moves, be subjected to the control of upper limit position switch (21) and lower position switch (22), when the dirty district of appearance (14) moves to inner core filtering area (18), the dirty foreign material of leaving over after spiral handspike (6) will filter advance and hold in the dirty district (14), this moment, connecting rod touched upper limit position switch (21), the piston moving link turns, counter motion.After the dirty district of appearance (14) entered rinsing area (11), the filtered water after the heat exchange entered rinsing area (11) by filtered water import (9), and dirty foreign material in the dirt district (14) are held in flushing, and take with dirty foreign material and discharged by sewage outlet (15).
4, as shown in Figure 5, native sewage water source dedicated for heat pump of the present invention system is by trunk sewer (22), open caisson (23), submerged sewage pump (24), sewage supply channel (25), source of sewage dedicated for heat pump unit (26), sewage water return pipeline (27), terminal circulating pump (28), end system (29) is formed, connected mode is that the interior sewage of trunk sewer (22) flows by gravitational force into open caisson (23), the interior submerged sewage pump of open caisson (23) (24) lifting sewage is sent into source of sewage dedicated for heat pump unit (26) by sewage supply channel (25), after the heat exchange, flow into the trunk sewer downstream by sewage water return pipeline (27).
Claims (4)
1. source of sewage dedicated for heat pump unit, it is characterized in that native sewage water and cold-producing medium directly carry out heat exchange, it comprises compressor (1), oil eliminator (2), condenser (3), electric expansion valve (4), evaporimeter (5), economizer (6), piston type native sewage water filter (7), tangential valve 1 (8), tangential valve 2 (9), choke valve (30), control valve compositions such as (31), winter, the Xia Dongxia operating mode switches to refrigerant side and switches, summer, tangential valve 2 (9), tangential valve 3 (10), tangential valve 6 (13), tangential valve 7 (14) is for opening, tangential valve 1 (8), tangential valve 4 (11), tangential valve 5 (12), tangential valve 8 (15) is for cutting out, cold-producing medium carries out the heat exchange condensation with filtered water in condenser (3) after, through tangential valve 7 (14), electric expansion valve (4), tangential valve 6 (13) enters evaporimeter (5) and evaporates, entering compressor (1) after the cold-producing medium evaporation compresses, discharge from compressor (1), after passing through oil eliminator (2) and oil separating, enter condenser (3) through tangential valve 3 (10) and carry out condensation, enter economizer (6) through tangential valve 7 (a 14) cold-producing mediums part through choke valve (30), a part enters economizer (6) heat exchange through control valve (31), entering compressor (1) after the former evaporation compresses, latter's heat exchange is after behind the electric expansion valve (4), enter evaporimeter (5) and evaporate; Winter, with tangential valve 2 (9), tangential valve 3 (10), tangential valve 6 (13), tangential valve 7 (14) cuts out, with tangential valve 1 (8), tangential valve 4 (11), tangential valve 5 (12), tangential valve 8 (15) is opened, cold formulation system is commutated, condenser (3) becomes evaporimeter, evaporimeter (7) becomes condenser, cold-producing medium carries out heat exchange evaporation with filtered water in condenser (3) after, entering compressor (1) through tangential valve 1 (8) compresses, discharge from compressor, after passing through oil eliminator (2) and oil separating, enter evaporimeter (5) through tangential valve 4 (11) and carry out condensation, condensation of refrigerant is after tangential valve 8 (15), electric expansion valve (4), tangential valve 5 (12) enters condenser (3) and evaporates, cold-producing medium part through tangential valve 8 (15) enters economizer (6) through choke valve (30), a part enters economizer (6) heat exchange through control valve (31), entering compressor (1) after the former evaporation compresses, latter's heat exchange is after behind the electric expansion valve (4), enter condenser (3) and evaporate.
2. source of sewage dedicated for heat pump unit according to claim 1, it is characterized in that native sewage water condenser (3) heat exchanger tube adopts corrosion resistant naval copper pipe, carrying out single tube by bridge piece (20) with pipe joint (21) is connected, when tangential valve 9 (16), tangential valve 12 (19) is opened, tangential valve 10 (17), tangential valve 11 (18) is direct circulation when cutting out, when tangential valve 9 (16), tangential valve 12 (19) cuts out, tangential valve 10 (17), tangential valve 11 (18) is anti-circulation when opening, tangential valve adopts electrical ball valve, by the unit electric control system controls, backwashing time is set at interval, native sewage water is entered forward and reverse switching that flows in the condenser (3), promptly the native sewage water without any processing enters piston type native sewage water filter (7), enter condenser (3) through the filtered water after filtering and carry out heat exchange with cold-producing medium, through containing the following dirty foreign material of filtering accuracy in the filtered water of filtering, long-time running accumulates in the influent side of condenser (3), in the setting-up time of backwash, tangential valve 9 (16), tangential valve 10 (17), tangential valve 11 (18), tangential valve 12 (19) changes the Inlet and outlet water direction of condenser, the dirty foreign material that original influent side gathers are because turning to of current recoiled to piston type native sewage water filter (7) the discharge system.
3. piston type native sewage water filter, it is characterized in that the impurity in the continuous filtration native sewage water, it comprises reducing motor (1), bearing block (2), screen pack (3), filtered water outlet (4) urceolus filtering area (5), spiral handspike (6), spiral handspike sealing (7), piston seal (8), filtered water import (9), outer sealing device (10), rinsing area (11), pitch brace (12), rinsing area piston (13), hold dirty district (14), sewage outlet (15), inner core piston (16), sewage inlet (17), inner core filtering area (18), electric pushrod (19), main body (20), upper limit position switch (21), lower position switch (22) etc., native sewage water enters inner core filtering area (18) from sewage inlet (17), enter heat transmission equipment through filter screen (3) filtration back by filtered water outlet (4) and carry out heat exchange, filtered water after the heat exchange enters rinsing area (11) by filtered water import (9), dirty foreign material in the dirty district (14) are held in flushing, and take with dirty foreign material and discharged by sewage outlet (15).Reducing motor (1) drives spiral handspike (6) rotation, the dirty foreign material of leaving over after inner core filtering area (18) can being filtered push hold dirty district (14) to, by inner core piston (16), hold dirty district (14), rinsing area piston (13), pitch brace (12) is formed the piston moving link, drive back and forth operation by electric pushrod (19), inner core piston (16) closely contacts with spiral handspike sealing (7), seal constantly, prevent that native sewage water from entering spiral handspike inner region (23), rinsing area piston (13) closely contacts with piston seal (8), seal constantly, prevent that native sewage water from entering rinsing area (11).The piston moving link back and forth moves, be subjected to the control of upper limit position switch (21) and lower position switch (22), when the dirty district of appearance (14) moves to inner core filtering area (18), the dirty foreign material of leaving over after spiral handspike (6) will filter advance and hold in the dirty district (14), this moment, connecting rod touched upper limit position switch (21), the piston moving link turns, counter motion.After the dirty district of appearance (14) entered rinsing area (11), the filtered water after the heat exchange entered rinsing area (11) by filtered water import (9), and dirty foreign material in the dirt district (14) are held in flushing, and take with dirty foreign material and discharged by sewage outlet (15).
4. native sewage water source dedicated for heat pump system, it is characterized in that by trunk sewer (22), open caisson (23), submerged sewage pump (24), sewage supply channel (25), source of sewage dedicated for heat pump unit (26), sewage water return pipeline (27), terminal circulating pump (28), end system (29) is formed, connected mode is that the interior sewage of trunk sewer (22) flows by gravitational force into open caisson (23), the interior submerged sewage pump of open caisson (23) (24) lifting sewage is sent into source of sewage dedicated for heat pump unit (26) by sewage supply channel (25), after the heat exchange, flow into the trunk sewer downstream by sewage water return pipeline (27).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201010122131 CN101886853B (en) | 2010-03-11 | 2010-03-11 | Special heat pump unit for sewage source and system thereof |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201010122131 CN101886853B (en) | 2010-03-11 | 2010-03-11 | Special heat pump unit for sewage source and system thereof |
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| CN101886853A true CN101886853A (en) | 2010-11-17 |
| CN101886853B CN101886853B (en) | 2013-10-30 |
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| CN 201010122131 Active CN101886853B (en) | 2010-03-11 | 2010-03-11 | Special heat pump unit for sewage source and system thereof |
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Cited By (9)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN102261704A (en) * | 2011-05-08 | 2011-11-30 | 姜衍礼 | Direct-type sewage source heat pump central air-conditioning hot water system |
| CN102451582A (en) * | 2011-05-26 | 2012-05-16 | 北京瑞宝利热能科技有限公司 | Spiral cutting-type hydraulic sewage treatment plant and system thereof |
| CN102734982A (en) * | 2011-03-30 | 2012-10-17 | 哈尔滨工大金涛科技股份有限公司 | Direct sewage source heat pump |
| CN103028287A (en) * | 2013-01-03 | 2013-04-10 | 青岛科创新能源科技有限公司 | Rotating drum type block prevention device for sewage or surface water source heat pump system |
| CN103090478A (en) * | 2011-11-07 | 2013-05-08 | 哈尔滨工大金涛科技股份有限公司 | Direct-type sewage source heat pump device |
| CN105115190A (en) * | 2015-06-24 | 2015-12-02 | 杨胜东 | Sewage taking well of sewage source heat pump air conditioning system and sewage guide and drain system having same |
| CN106288508A (en) * | 2016-09-23 | 2017-01-04 | 杨胜东 | A kind of high energy efficiency dead-beat sewage source heat pump unit and system thereof |
| CN106705738A (en) * | 2017-01-18 | 2017-05-24 | 杨胜东 | Filtering and reversing end enclosure of sewage source heat pump unit and system thereof |
| CN108954679A (en) * | 2018-06-28 | 2018-12-07 | 湖南湖大瑞格能源科技有限公司 | A kind of energy-saving control method and system of sewage source heat pump system |
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| CN100582605C (en) * | 2008-05-23 | 2010-01-20 | 天津美意空调设备销售有限公司 | Native sewage water heat pump air conditioning system |
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Cited By (12)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN102734982A (en) * | 2011-03-30 | 2012-10-17 | 哈尔滨工大金涛科技股份有限公司 | Direct sewage source heat pump |
| CN102734982B (en) * | 2011-03-30 | 2014-10-08 | 哈尔滨工大金涛科技股份有限公司 | Direct sewage source heat pump |
| CN102261704A (en) * | 2011-05-08 | 2011-11-30 | 姜衍礼 | Direct-type sewage source heat pump central air-conditioning hot water system |
| CN102451582A (en) * | 2011-05-26 | 2012-05-16 | 北京瑞宝利热能科技有限公司 | Spiral cutting-type hydraulic sewage treatment plant and system thereof |
| CN103090478A (en) * | 2011-11-07 | 2013-05-08 | 哈尔滨工大金涛科技股份有限公司 | Direct-type sewage source heat pump device |
| CN103090478B (en) * | 2011-11-07 | 2015-04-15 | 哈尔滨工大金涛科技股份有限公司 | Direct-type sewage source heat pump device |
| CN103028287A (en) * | 2013-01-03 | 2013-04-10 | 青岛科创新能源科技有限公司 | Rotating drum type block prevention device for sewage or surface water source heat pump system |
| CN105115190A (en) * | 2015-06-24 | 2015-12-02 | 杨胜东 | Sewage taking well of sewage source heat pump air conditioning system and sewage guide and drain system having same |
| CN106288508A (en) * | 2016-09-23 | 2017-01-04 | 杨胜东 | A kind of high energy efficiency dead-beat sewage source heat pump unit and system thereof |
| CN106705738A (en) * | 2017-01-18 | 2017-05-24 | 杨胜东 | Filtering and reversing end enclosure of sewage source heat pump unit and system thereof |
| CN106705738B (en) * | 2017-01-18 | 2018-10-23 | 杨胜东 | A kind of sewage source heat pump unit filtering commutation end socket and its system |
| CN108954679A (en) * | 2018-06-28 | 2018-12-07 | 湖南湖大瑞格能源科技有限公司 | A kind of energy-saving control method and system of sewage source heat pump system |
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| CN101886853B (en) | 2013-10-30 |
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Denomination of invention: Special heat pump unit for sewage source and system thereof Effective date of registration: 20140606 Granted publication date: 20131030 Pledgee: Beijing Chenguang prosperity financing Company limited by guarantee Pledgor: Beijing Ruibaoli Heat Energy Technology Co., Ltd. Registration number: 2014990000442 |
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