CN204902230U - Energy -conserving shower bath of instant heating type integration - Google Patents

Energy -conserving shower bath of instant heating type integration Download PDF

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Publication number
CN204902230U
CN204902230U CN201520358321.9U CN201520358321U CN204902230U CN 204902230 U CN204902230 U CN 204902230U CN 201520358321 U CN201520358321 U CN 201520358321U CN 204902230 U CN204902230 U CN 204902230U
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China
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water
heat
shower
waste
heat exchanger
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Expired - Fee Related
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CN201520358321.9U
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Chinese (zh)
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孟伟
孟诚博
陈岁生
岑凯凯
张威
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孟伟
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Priority to CN201520358321.9U priority Critical patent/CN204902230U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A30/00Adapting or protecting infrastructure or their operation
    • Y02A30/27Relating to heating, ventilation or air conditioning [HVAC] technologies
    • Y02A30/274Relating to heating, ventilation or air conditioning [HVAC] technologies using waste energy, e.g. from internal combustion engine
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]
    • Y02B30/52Heat recovery pumps, i.e. heat pump based systems or units able to transfer the thermal energy from one area of the premises or part of the facilities to a different one, improving the overall efficiency

Abstract

The utility model relates to an energy -conserving shower bath of instant heating type integration, the device including waste water collection device, in two turbulent formula heat exchanger, heat pump unit, preheat heating device, emptier and shower room body, waste water collection device includes shower wastewater disposal basin and first filter, two in turbulent formula heat exchanger include first water pump, second running water water inlet, metal heat pipe and spirally guided pipe, the heat pump unit include condenser and evaporimeter, preheat that heating device includes the stop valve, preheats the heater, second water pump and one way check valve, the emptier include solenoid valve and first running water water inlet, the surface of metal heat pipe set the cyclic fluctuation type to, the outer even winding of metal heat pipe have the spirally guided pipe. The utility model provides a shower bath carries out secondary recycle through heat exchanger and heat pump unit to shower waste water, and the heat transfer effect is high, and energy -conserving effect is showing, and waste water waste heat recovery is efficient.

Description

Instant heating type integrated energy-saving shower bath
Technical field
The utility model relates to a kind of Instant heating type integrated energy-saving shower bath, and particularly one has compact conformation, and energy-saving effect is remarkable, instant-heating, the Instant heating type integrated energy-saving shower bath that comfort level is high.Belong to field of electromechanical integration, be applicable to home environment, be also applicable to the public place such as students' dormitory, hotel, be specially adapted to during shower to selection that is energy-conservation, comfortable, hygienic requirements is higher place shower bath, also replaceable existing gas heater.
Background technology
Water heater enters huge numbers of families already, plays very important role in people's daily life.In order to energy-conservation and water saving, major part family has a bath and all adopts shower, during shower need by cold tap water heating to about 42 DEG C for people, but after shower, the temperature of waste water also has about 35 DEG C, these waste water containing a large amount of heat energy will directly be discharged by sewer, waste very large.If the heat recovery in shower waste can be used for heating tap water, then greatly can reduce the energy ezpenditure of water heater.
Comprise the electric heater of air-source at present, substantially based on storage-type, the advantage of storage-type electric water heater adopts smaller power, requires low to supply line, installs simple.But its shortcoming is also obviously, mainly comprises: 1) because heating power restriction, the heat time of storage-type electric water heater is very long.This kind of shower set, limits by supply line, for avoiding high-power electricity consumption, often adopts the way of ant removal of home, breaks the whole up into parts, the mode slowly heated with smaller power, the significant prolongation heat time.When this just causes and uses first, need the cost 1-3 hours time to wait for cool water heating, cannot plug and play be accomplished.2) water butt of storage-type electric water heater takes up room comparatively large, causes and installs and uses inconvenience.3) hot water of storage-type electric water heater is finished front without early warning, causes midway without hot water supply.Can not use the water yield of overflow constant volume continuously, if family people is many, midway of having a bath also needs to wait for.4) storage-type electric water heater is incubated for a long time yet needs to waste a large amount of energy, and easy breed bacteria, causes secondarily polluted water, the sanitary condition of hot water for shower is deteriorated.
Also have in some electric heaters be at present provided with two in turbulent flow type heat exchanger carry out to shower waste heat recycling, but the metal heat-conducting tube that inside and outside most heat transmission equipment uses now is all pipe, elliptical tube.But because such inner-walls of duct face parallels to the axis all the time, make fluid by time not easily form turbulent flow, have impact on the heat exchange in fluid and inner-walls of duct face.Current, at traditional smooth metal pipe type heat transfer pipe, during interior flowing, often occur as a laminar flow, and the thermograde of current is comparatively large, and heat transfer effect is not obvious, heat exchanger effectiveness is low, fluid passes through not easily to form turbulent flow.Also have shower waste in prior art to carry out directly discharging after heat exchange through heat exchanger, also remain the heat energy that a part is remaining, waste water residual heat organic efficiency is lower.
The shower system (ZL:201410463319.8) of existing recyclable shower waste partial heat at present, comprise shower nozzle, hot water for shower pipeline, bath heating device, shower cooling water inlet pipeline, shower nozzle connects hot water for shower pipeline, hot water for shower pipeline connects bath heating device, bath heating device connects shower cooling water inlet pipeline by valve, the shower cooling water inlet pipeline at valve two ends is connected in parallel to the shower waste heat reclaim unit of the heat for obtaining shower waste.This utility model is obtained by heat exchange pipeline and the heat of shower waste is passed to cold running water, and then is heated to form hot water for shower further in bath heating device, obtains required shower water.This structure has good effect under appropriate conditions, but only once absorbs shower waste, and waste water residual heat organic efficiency is lower.
In sum, for problems such as the heat time existed in solution prior art are long, heat exchanger effectiveness is low, waste water residual heat organic efficiency is lower, plug and play function is weak, need utility model one at present badly and there is compact conformation, energy-saving effect is remarkable, instant-heating performance is strong, and comfort level is high, saving water resource, heat exchange efficiency is high, practical novel Instant heating type integrated energy-saving shower bath.
Utility model content
The utility model proposes Instant heating type integrated energy-saving shower bath, the problems such as the heat time existed in solution prior art is long, heat exchanger effectiveness is low, waste water residual heat organic efficiency is lower, plug and play function is weak.
The technical solution of the utility model is achieved in that
Instant heating type integrated energy-saving shower bath, is characterized in that described device comprises waste water collection device, two interior turbulent flow type heat exchanger, heat pump unit, preheating heater, emptier and shower house body; Described waste water collection device comprises shower waste pond and the first filter; Described two interior turbulent flow type heat exchanger comprises the first water pump, the second running water water inlet, metal heat-conducting tube and spiral guide tube; Described heat pump unit comprises condenser and evaporimeter; Described preheating heater comprises stop valve, warmup heater, the second water pump and one-way cock; Described emptier comprises magnetic valve and the first running water water inlet; The outer surface of described metal heat-conducting tube is arranged to periodic wave ejector half, and the outer uniform winding of described metal heat-conducting tube has spiral guide tube.
Further, compressor, temperature sensor, expansion valve and the second filter is provided with between described condenser and evaporimeter, described compressor, temperature sensor, expansion valve and the second filter form a closed circuit, refrigerant is provided with in described closed circuit, described evaporimeter one end is provided with wastewater outlet, and described condenser one end is provided with water-quantity regulating device.
Above-mentioned refrigerant completes boosting temperature-rise period under the effect of described compressor, heat of high temperature post bake cold running water is discharged after entering described condenser again, after through described second filter, described expansion valve, described evaporimeter pressure drop, absorb heat from shower waste simultaneously, return the circulation that described compressor starts is new.
Further, cold running water in the second described running water water inlet is successively by described metal heat-conducting tube, described spiral guide tube, described condenser, by the heat absorption in shower waste and described refrigerant, finally enter described preheating heater and again heat.
Described warmup heater, described one-way cock, described two interior turbulent flow type heat exchanger, described heat pump unit and described second water pump form a cyclic preheat heating circuit by connecting pipe, described cyclic preheat heating circuit is when stop valve is closed, open warmup heater and the second water pump, pipeline inner cold water is constantly heated and circulates.
Described cyclic preheat heating circuit one end is provided with described stop valve and shower nozzle, and the other end is provided with water-quantity regulating device, the temperature-adjusting device that to be provided with micro-processing and control element (PCE) in described warmup heater be core.
Described micro-processing and control element (PCE) is according to inflow temperature, discharge, leaving water temperature, these data volumes of design temperature, calculate in real time and need power output, and by light-coupled isolation, regulate thyristor operating angle size, realize the thermostatic control of heat supplement and final outflow water temperature.
Described emptier first opens magnetic valve, then is discharged by inner air tube by the impact of the first running water water inlet injection running water.
Heat in shower waste by described first filter, described two interior turbulent flow type heat exchanger, described evaporimeter, is passed to the cold running water of shower bath, finally discharges from wastewater outlet by shower waste in described shower waste pond successively.
The utility model has following feature and beneficial effect:
(1) the utility model turbulent flow type heat exchanger in devise based on metal heat-conducting tube and spiral guide tube efficient two, makes the conduction as much as possible of the waste heat in waste water to running water, makes full use of the waste heat in waste water.Recycling of heat, saves a large amount of electric energy.Introduce heat pump unit technology again, double absorption waste water heat, improve waste water utilization efficiency of heat energy.The combination of two interior turbulent flow type heat exchanger and heat pump unit, significantly improves heat exchange efficiency, and strengthen practicality, energy-saving effect is remarkable.
(2) the utility model sets up the initial preheating that preheating heater carries out cold water.After preheating cold water 30 seconds, can hot water be exported, subsequently system heat pump, efficient two in turbulent flow type heat exchanger effect under just can realize " self-sufficient ", instant-heating is strong.
(3) adopt the brushless direct-current magnetic water pump of electronic commutation in two interior turbulent flow type heat exchanger, non-carbonate wearing and tearing, magnetically-actuated, solves the water-tight of rotating shaft, wear problem, can non-maintainingly run.Devise earth leakage protective device and reliable earthing or grounding means at warmup heater place, prevent shower process from having danger of hazardous electrical discharges, improve security.
(4) metal heat-conducting tube is processed as diameter to change from small to big and cyclic fluctuation structure from large to small, when current are through the out-of-date turbulent phenomenon that there will be clearly, greatly increases the turbulent property of current, improve the thermograde of current, improve heat transfer effect.And being wound around a plastics guide pipe outward at metal heat-conducting tube, current are directed to helical flow by original streamlined flow, because the total flow of water does not change, after screw, the flow process of current increases, and flow velocity is inevitable also to be increased, and strengthens turbulent effect.Guide pipe also plays a positioning supports effect simultaneously.And heat exchanger tube dish is become circle, take up room little, metal heat-conducting tube corrosion resistance is strong simultaneously, and the life-span is long.
(5) the utility model designs magnetic valve to be communicated with the interface of running water and water pump and heat exchanger in drainage arrangement, magnetic valve was first opened for 2 seconds, air in pipe will be drained under the impact of running water, after closed electromagnetic valve, water just can be discharged by water pump smoothly, realizes the smooth draining of water pump.
(6) the utility model is by the combination of two interior turbulent flow type heat exchanger, heat pump unit and preheating heater, make user without the need to waiting for the very long preheating cold water time, instant-heating is strong, reaches to want to wash just to wash, want to wash how long just wash result of use how long, and comfort level is high.The feature of instant heating can prevent bacteria breed in electric heater, reduces secondary pollution.Energy-saving effect is remarkable, saves energy consumption and reaches 94.6%.
Accompanying drawing explanation
In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only 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 the structural representation of the utility model Instant heating type integrated energy-saving shower bath embodiment;
Fig. 2 is the utility model Instant heating type integrated energy-saving shower bath example structure top view;
Fig. 3 is the structural representation of two interior turbulent flow type heat exchanger in the Instant heating type integrated energy-saving shower bath of the utility model.
In figure, 1-shower waste pond; 2-first filter; 3-first water pump; 4-magnetic valve; 5-first running water water inlet; 6-running water water intaking valve; 7-second running water water inlet; 8-metal heat-conducting tube; 9-spiral guide tube; 10-second filter; 11-expansion valve; 12-condenser; 13-evaporimeter; 14-wastewater outlet; 15-compressor; 16-temperature sensor; 17-water-quantity regulating device; 18-preheating heater; 19-earth leakage protective device; 20-attaching plug; 21-shower nozzle; Turbulent flow type heat exchanger in 22-is two; The spiral current of 23-; 24-stop valve; 25-warmup heater; 26-temperature-adjusting device; 27-second water pump; 28-one-way cock; 29-connecting pipe.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only 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.
With reference to the structural representation of the Instant heating type integrated energy-saving shower bath embodiment shown in Fig. 1.Instant heating type integrated energy-saving shower bath comprises waste water collection device, two interior turbulent flow type heat exchanger 22, heat pump unit, preheating heater 18, emptier and shower house body.Waste water collection device comprises shower waste pond 1 and the first filter 2, first filter 2 adopts stainless (steel) wire to make.
With reference to the structural representation of interior turbulent flow type heat exchanger two in the Instant heating type integrated energy-saving shower bath shown in Fig. 3.Two interior turbulent flow type heat exchanger 22 comprises the first water pump 3, second running water water inlet 7, running water water intaking valve 6, metal heat-conducting tube 8 and spiral guide tube 9; The outer surface of metal heat-conducting tube 8 is arranged to periodic wave ejector half, improve the thermograde of current, improve heat transfer effect, greatly add the turbulent property of current, the outer uniform winding of metal heat-conducting tube 8 has spiral guide tube 9, current are directed to helical flow by original streamlined flow, because the total flow of water does not change, after screw, the flow process of current increases, flow velocity is inevitable also to be increased, and strengthens turbulent effect.First water pump 3 adopts and is of a size of 90mm × 99mm × 40mm, and model is the brushless direct-current water pump of 4509, and input power is 31W.Spiral guide tube 9 adopts length 30 meters, diameter 3mm, carries out plastic tube or the metal tube of anti-corrosion treatment.Metal heat-conducting tube 8 adopts length to be the stainless steel tube of 20m, inside diameter 12mm, outside diameter 15.5mm.Spiral current 23 are that in shower waste pond 1, shower waste is formed by the first water pump 3, spiral guide tube 9 successively.
With reference to the Instant heating type integrated energy-saving shower bath example structure top view shown in Fig. 2.Two interior turbulent flow type heat exchanger 22 coils into circle, by the conductive force of metal heat-conducting tube 8, the heat in shower waste is passed to cold running water, and metal heat-conducting tube 8 corrosion resistance is strong simultaneously, and the life-span is long.
Heat pump unit comprises condenser 12 and evaporimeter 13.The model of condenser 12 is 118HD020.Compressor 15, temperature sensor 16, expansion valve 11 and the second filter 10 is provided with between condenser 12 and evaporimeter 13, compressor 15, temperature sensor 16, expansion valve 11 and the second filter 10 form a closed circuit, are provided with refrigerant in closed circuit.Evaporimeter 13 adopts model to be the high-efficiency tank of 118HD020.Compressor 8 adopts power output to be the scroll compressor of 1.1kw.Expansion valve 11 adopts model to be the internal balance type expansion valve of RF22-φ 1.5.Second filter 10 adopts copper material to customize and is formed.Evaporimeter 13 one end is provided with wastewater outlet 14, and condenser 12 one end is provided with water-quantity regulating device 17.
Refrigerant completes boosting temperature-rise period under the effect of described compressor 15, heat of high temperature heating cold running water is discharged after entering described condenser 12 again, after pressure drop when the second filter 10, expansion valve 11, evaporimeter 13 again, absorb heat from shower waste simultaneously, get back to compressor 15 and start new circulation.
Emptier comprises magnetic valve 4 and the first running water water inlet 5; Inner air tube by opening magnetic valve 42 ~ 4 seconds, and is discharged by the impact that the first running water water inlet 4 injects running water by emptier.Again after shut electromagnetic valve 4, water just can be discharged by the first water pump 3 smoothly, realizes smooth draining.Design in drainage arrangement magnetic valve 4 to be communicated with running water and the first water pump 3 with two in the interface of turbulent flow type heat exchanger 22, magnetic valve 4 was first opened for 2 seconds, air in pipe will be drained under the impact of running water, after magnetic valve 4 cuts out, water just can be discharged by the first water pump 3 smoothly, realizes smooth draining.
Preheating heater 18 comprises warmup heater 25, second water pump 27 and one-way cock 28; Warmup heater 25, one-way cock 28, two interior turbulent flow type heat exchanger 22, heat pump unit and the second water pump 27 form a cyclic preheat heating circuit by connecting pipe 29, cyclic preheat heating circuit is when stop valve 24 is closed, open warmup heater 25 and the second water pump 27, pipeline inner cold water is constantly heated and circulates.
Cyclic preheat heating circuit one end is provided with stop valve 24 and shower nozzle 21, and the other end is provided with water-quantity regulating device 17, the temperature-adjusting device 26 that to be provided with micro-processing and control element (PCE) in warmup heater 25 be core.Micro-processing and control element (PCE) is according to inflow temperature, discharge, leaving water temperature, these data volumes of design temperature, calculate in real time and need power output, and by light-coupled isolation, regulate thyristor operating angle size, realize the thermostatic control of heat supplement and final outflow water temperature.Second water pump 27 adopts and is of a size of 90mm × 99mm × 40mm, and model is the brushless direct-current water pump of 4509, and input power is 31W, lift 9m.One end of preheating heater 18 is also provided with earth leakage protective device 19 and attaching plug 20.Devise earth leakage protective device 19 and reliable earthing or grounding means at warmup heater 18 place, prevent shower process from having danger of hazardous electrical discharges, improve security.
Heat in shower waste by the first filter 2, two interior turbulent flow type heat exchanger 22, evaporimeter 13, is passed to cold running water, finally discharges from wastewater outlet 14 by shower waste in shower waste pond 1 successively.
Cold running water in second running water water inlet 7 by metal heat-conducting tube 8, condenser 12, absorbs heat, finally enters preheating heater 18 and carry out last heat supplement, reach temperature required successively from shower waste and refrigerant.After preheating cold water 30 seconds, can export hot water, device just can realize " self-sufficient " under the effect of heat pump unit, two interior turbulent flow type heat exchanger 22 subsequently, and instant-heating is strong.
The utility model is by the combination of two interior turbulent flow type heat exchanger 22, heat pump unit and preheating heater 18, make user without the need to waiting for the very long preheating cold water time, instant-heating is strong, reaches to want to wash just to wash, want to wash how long just wash result of use how long, and comfort level is high.The feature of instant heating can prevent bacteria breed in electric heater, reduces secondary pollution.Energy-saving effect is remarkable, saves energy consumption and reaches 94.6%.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (4)

1. Instant heating type integrated energy-saving shower bath, is characterized in that described device comprises waste water collection device, two interior turbulent flow type heat exchanger, heat pump unit, preheating heater, emptier and shower house body; Described waste water collection device comprises shower waste pond and the first filter; Described two interior turbulent flow type heat exchanger comprises the first water pump, the second running water water inlet, metal heat-conducting tube and spiral guide tube; Described heat pump unit comprises condenser and evaporimeter; Described preheating heater comprises stop valve, warmup heater, the second water pump and one-way cock; Described emptier comprises magnetic valve and the first running water water inlet; The outer surface of described metal heat-conducting tube is arranged to periodic wave ejector half, and the outer uniform winding of described metal heat-conducting tube has spiral guide tube.
2. Instant heating type integrated energy-saving shower bath according to claim 1, it is characterized in that between described condenser and evaporimeter, being provided with compressor, temperature sensor, expansion valve and the second filter, described compressor, temperature sensor, expansion valve and the second filter form a closed circuit, refrigerant is provided with in described closed circuit, described evaporimeter one end is provided with wastewater outlet, and described condenser one end is provided with water-quantity regulating device.
3. Instant heating type integrated energy-saving shower bath according to claim 1, it is characterized in that described warmup heater, described one-way cock, described two in turbulent flow type heat exchanger, described heat pump unit and described second water pump form a cyclic preheat heating circuit by connecting pipe.
4. Instant heating type integrated energy-saving shower bath according to claim 3, it is characterized in that described cyclic preheat heating circuit one end is provided with described stop valve and shower nozzle, the temperature-adjusting device that to be provided with micro-processing and control element (PCE) in described warmup heater be core.
CN201520358321.9U 2015-05-28 2015-05-28 Energy -conserving shower bath of instant heating type integration Expired - Fee Related CN204902230U (en)

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Application Number Priority Date Filing Date Title
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104896734A (en) * 2015-05-28 2015-09-09 孟伟 Instant-heating-type integrated energy-saving showering apparatus
CN109405347A (en) * 2018-12-05 2019-03-01 江苏天舒电器有限公司 A kind of bathroom utilizes control system for heat pump and control method with Multi-stage heat

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104896734A (en) * 2015-05-28 2015-09-09 孟伟 Instant-heating-type integrated energy-saving showering apparatus
CN109405347A (en) * 2018-12-05 2019-03-01 江苏天舒电器有限公司 A kind of bathroom utilizes control system for heat pump and control method with Multi-stage heat
CN109405347B (en) * 2018-12-05 2021-08-06 江苏天舒电器有限公司 Control method of multi-stage heat utilization heat pump control system for bathroom

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20151223

Termination date: 20160528