CN204345911U - Heat pump and electric heater double-stage heating backheat temperature leave hot water conditioner - Google Patents

Heat pump and electric heater double-stage heating backheat temperature leave hot water conditioner Download PDF

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CN204345911U
CN204345911U CN201420824427.9U CN201420824427U CN204345911U CN 204345911 U CN204345911 U CN 204345911U CN 201420824427 U CN201420824427 U CN 201420824427U CN 204345911 U CN204345911 U CN 204345911U
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water
heat
heating
siphon
electric heater
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侴乔力
侴雨宏
魏蔚
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GUANGDONG SHUNDE WATER AND ELECTRIC CO., LTD.
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侴乔力
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Abstract

A kind of heat pump and electric heater double-stage heating backheat temperature open hot water conditioner, integrated siphon circulation electrical heating and single tank dual heating mode high-efficiency heating boiling water heat accumulation; Cold water is produced by efficient extraction cycle; Absorb upper hydro-thermal amount by semiconductor heat electrical chip again and produce vegetable washing water, and reclaim cold water heat preparing ice boiling water, reclaim boiling water sensible heat simultaneously, the step realizing semiconductor heat electrical chip and electric heater heats upper water; Boiling water and cool boiled water combined amount is regulated to produce warm water by Drinking Water Temperature control valve; Boiling water and upper water combined amount hot water preparing is regulated by automatic regulating valve; Realize boiling water, cool boiled water, warm water, hot water, vegetable washing water function.

Description

Heat pump and electric heater double-stage heating backheat temperature leave hot water conditioner
(1) technical field
The present invention relates to a kind of heat pump and electric heater double-stage heating backheat temperature leaves hot water conditioner.
(2) background technology
There is following deficiency in existing product:
1, horizontally disposed heat storage electric water heater heating tank, because its efficiency of heating surface is lower, cause static preheating slow on the one hand, hot water needs to wait as long for; Dynamic heat quantity not sufficient on the other hand.Preheating, instant heating double mode electric water heater then adopt two heating tank, and large heat storage can bears static preheating, heat accumulation pattern, go out young heating tank and bear dynamically instant heating mode; Thus the product cost that had both been multiplied, do not significantly improve again heating and the heat accumulation efficiency of electric heater, cause its power consumption excessive, be not suitable for the distribution requirement of Chinese family, limit its home penetration rate.
2, existing straight drink machine product forms the extraction cycle of boiling water by 15 DEG C of large temperature difference regenerators, its efficiency is lower, only reclaims the sensible heat of in boiling water about 79%, and therefore required power consumption is larger, need high-power electric heater be configured, both increase investment and also increased product danger of hazardous electrical discharges; Cause heating-up temperature not reach the sterilization temperature of more than 92 DEG C of national standard defined, to meet the hygienic requirements of drinking water simultaneously; Product result of sampling inspection shows: even if in the summer of upper coolant-temperature gage up to 30 DEG C, its sterilization temperature also only reaches about 85 DEG C, thus has a strong impact on safe drinking water.
3, because everyone is very large to the requirement difference of the most applicable temperature of drinking-water, therefore market is expected with being intended to the wider health-oriented products regulating mixing warm water temperature, to use to facilitate the user of each age group.
4, existing water heater product controls in heating tank between hot water and upper water by Automatic temp. adjusting valve mixed proportion, with constant outlet of water heater water temperature, but due to hot water quantity of heat storage less, cause its output to be difficult to compete with gas heater.
5, five kinds of common functions such as boiling water, cool boiled water, warm water, hot water, vegetable washing water of institute of each family widespread demand, need to be realized respectively by many moneys product, cause the overlapping investment of various water appliance and put.
6, electric heater is only made up of electrothermal tube and boiler, therefore its manufacture is simple, with low cost, reliability is high, but thermoelectricity conversion is incubated by law of conservation of energy and boiler to be affected, and makes its efficiency of heating surface far below 1, this just cause power consumption excessive, add shortage of heat, higher to distribution requirement; Wherein the efficiency of heating surface of instant electric water heater is about 0.85-0.95, and power consumption is 5-9kW; Heat storage electric water heater is then because temperature retention time is longer, cooling surface area is comparatively large, and cause its heat waste comparatively large, although therefore its power consumption only has 2-3kW, its accumulative efficiency of heating surface only has 0.50-0.60.
7, air-source heat pump hot water makes full use of the principles of science of heat pump cycle, 1 part of electrical energy drive compressor, form heat pump cycle, 4 parts of tow taste heats are drawn from environment by evaporimeter, and be promoted to 5 parts of high-grade heats by heat pump cycle, again by condenser heat hot water, make its heating efficiency up to 5; Although therefore heating capacity is up to 5-14kW, its power consumption only has 1-4.5kW, and therefore power savings is fairly obvious, and significantly reduces family's distribution requirement; But heat pump circuit need be made up of refrigerant parts such as compressor, condenser, choke valve, evaporimeters, and heat accumulation, heat supplying loop are made up of wet parts such as circulating pump, boiler, valves, therefore it manufactures with installation all very complicated, and maintenance cost is high, reliability is poor.
(3) summary of the invention
The object of the invention is to provide a kind of heat pump and electric heater double-stage heating backheat temperature leaves hot water conditioner: by siphon circulation electrical heating and single tank dual heating mode, high-efficiency heating boiling water heat accumulation; Cold water is produced by efficient extraction cycle; Vegetable washing water heat is absorbed again by semiconductor heat electrical chip, and secondary recovery preparing ice boiling water heat, the step realizing semiconductor heat electrical chip and electric heater heats upper water; Boiling water and cool boiled water combined amount is regulated to produce warm water by Drinking Water Temperature control valve at wider warm area; Boiling water and upper water combined amount hot water preparing is regulated by automatic regulating valve.Thus integration realizes five kinds of domestic water functions such as (92-100 DEG C) boiling water, (5-15 DEG C) cool boiled water, (5-100 DEG C) warm water, (43-75 DEG C) hot water, (15-25 DEG C) vegetable washing water.Thermoelectric heat pump is wherein by 1 part of electrical energy drive, the siphon circulation arranged by its cold junction efficiently draws 2 parts of vegetable washing water middle-low grade heats, and be promoted to 3 parts of high-grade heats by thermoelectric chip, warm water in the siphon circulation high-efficiency heating arranged by its hot junction again, makes its heating energy efficiency ratio up to 3.0; Thus most simple structure can realize high efficiency semiconductor heat pump preheat function, to produce warm water in (43-48 DEG C), advocate " green health " life style.
The technical solution used in the present invention, namely heat pump and electric heater double-stage heating backheat temperature leave hot water conditioner as shown in Figure 1, and it is by the cotton filter of 1-PP; 2-granular activated carbon filter; 2-1-KDF filter; 3-extruded activated carbon filter; 3-1-ultra filtration filter; 4-thermoelectric heat pump; 4-1-heating tank; 4-2-semiconductor heat electrical chip; 4-3-absorbs heat tank; The vertical heating fins of 4-4-; The vertical heat absorbing fins of 4-5-; 4-6-siphon heating jacket bucket; 4-7-siphon heat-absorbing sleeve bucket; 4-8-lower inlet; 4-9-upper outlet; 4-10-semiconductor heating signal lamp; 4-11-dry burning resistance switch; 4-12-heat absorption tank upper inlet; Export under 4-13-heat absorption tank; 4-14-hot water signal lamp; 4-15-heat pump flow control valve; 5-regenerator; 6-sluices safely check-valves; 7-siphon heating heat storage can; 7-1-lower inlet; 7-2-upper outlet; 7-3-siphon cover bucket; 7-4-electric heater; 7-5-heating chamber; 7-6-heat accumulation chamber; 7-7-electric heater heating signal lamp; 7-8-dry burning resistance switch; The anti-electric divider wall of 7-9-; 7-10-safety ground and leakage protection switch; 7-11-exhaust pressure relief valve; 8-Drinking Water Temperature control valve; 8-1-drinks water signal lamp; 9-drinks water magnetic valve; 10-washes dish valve; 11-check-valves; 12-Automatic temp. adjusting valve; The upper water mixing tube of 12-1-; 13-hot water valve; 14-temperature sensor; 15-insulation material; 16-force (forcing) pump; 17-water flow switch; The compositions such as 18-ice opening quotation pipe;
Open hot water conditioner according to the heat pump shown in accompanying drawing 1 and electric heater double-stage heating backheat temperature: its by PP cotton filter 1, granular activated carbon filter 2, extruded activated carbon filter 3, wash dish threeway, mixed water threeway, heat water side on threeway, the heating tank 4-1 be connected in parallel and regenerator 5, heat storage can 7 is heated in safe sluicing check-valves 6, siphon, hot water threeway, three way of drinking, regenerator 5 boiling water side, ice open the set pipe 18, Drinking Water Temperature control valve 8 ice opens entrance and connecting line etc. thereof, form ice and open loop;
Open in loop at above-mentioned ice, three way of drinking connects Drinking Water Temperature control valve 8 boiling water entrance etc., then form boiling water loop;
Open in loop at above-mentioned ice, wash dish three and connect heat absorption tank 4-3, wash dish valve 10 etc., then composition washes dish loop;
Open in loop at above-mentioned ice, hot water three connects check-valves 11, Automatic temp. adjusting valve 12, and between mixed water threeway and Automatic temp. adjusting valve 12, water mixing tube 12-1 in connection, then connect hot water valve 13 by Automatic temp. adjusting valve 12, composition hot-water return;
Wherein thermoelectric heat pump 4 is by heating tank 4-1, semiconductor heat electrical chip 4-2, heat absorption tank 4-3, vertical heating fins 4-4, vertical heat absorbing fins 4-5, siphon heating jacket bucket 4-6, siphon heat-absorbing sleeve bucket 4-7, lower inlet 4-8, upper outlet 4-9, semiconductor heating signal lamp 4-10, dry burning resistance switch 4-11, heat absorption tank upper inlet 4-12, 4-13 is exported under heat absorption tank, hot water signal lamp 4-14, temperature sensor 14, composition such as insulation material 15 grade, the hot junction of semiconductor heat electrical chip 4-2 and the flat heated close contact of heating tank 4-1, flat heated inwall arranges vertical heating fins 4-4, the heated side of vertical heating fins 4-4 arranges siphon heating jacket bucket 4-6, its top is reserved siphon circulation and is gone out hydrospace, siphon circulation water inlet space is reserved in its underpart,
The cold junction of semiconductor heat electrical chip 4-2 and the heat absorption plane close contact of heat absorption tank 4-3, heat absorption planar inner wall arranges vertical heat absorbing fins 4-5, the heat absorbing side of vertical heat absorbing fins 4-5 arranges siphon heat-absorbing sleeve bucket 4-7, siphon circulation water inlet space is reserved on its top, and its underpart is reserved siphon circulation and gone out hydrospace;
Wherein heating tank 4-1 is that perpendicular elongate circle lacks post tank body, the flat lower inlet 4-8 of bottom outside face boiling water, vertical upper outlet 4-9 is opened in the end face center of circle, semiconductor heat electrical chip 4-2 interlocks with semiconductor heating signal lamp 4-10 in control, end face inwall arranges dry burning resistance switch 4-11, the temperature sensor 14 that middle part sidewall is arranged controls on-off and the power adjusting of semiconductor heat electrical chip 4-2, and shows its heating heat accumulation temperature regime by hot water signal lamp 4-14;
The tank 4-3 that wherein absorbs heat is that perpendicular elongate circle lacks post tank body, the flat upper inlet 4-12 of top outside boiling water, exports 4-13 under bottom outside face boiling water is flat;
The display state of the temperature sensor 14 closed-loop control drinking-water signal lamp 8-1 that siphon heating heat storage can 7 end face is arranged, and the heating heat accumulation temperature of static cost control electric heater 7-4, and by heating signal lamp 7-7 simultaneous display; On-off and the power adjusting of the temperature sensor 14 Dynamic controlling electric heater 7-4 that side is arranged in the middle part of heat storage can 7 are heated in siphon, and by heating signal lamp 7-7 simultaneous display;
Heating tank 4-1, regenerator 5, siphon heating heat storage can 7 and the high temperature conduit connected and pipe fitting etc., need thermal insulation material 15.
Siphon heating heat storage can 7 is perpendicular elongate cylinder tank body, the flat lower inlet 7-1 of bottom outside face boiling water, end face central authorities open vertical upper outlet 7-2, central vertical arranges siphon cover bucket 7-3, its top is reserved siphon circulation and is gone out hydrospace, siphon circulation water inlet space is reserved in its underpart, siphon cover bucket 7-3 Lower Half central vertical arranges electric heater 7-4, and in siphon cover bucket 7-3, form heating chamber 7-5 thus, and form heat accumulation chamber 7-6 at the interlayer that siphon cover bucket 7-3 outer wall and siphon heat heat storage can 7 inwall, electric heater 7-4 interlocks with heating signal lamp 7-7 in control, end face inwall arranges dry burning resistance switch 7-8, in the water inlet of the cotton filter 1 of PP and hot water valve 13, a nonmetal resistance electric-type pipe fitting is respectively set as anti-electric divider wall 7-9, open in loop at electric heater 7-4 and ice and safety ground and leakage protection switch 7-10 are set.
Automatic temp. adjusting valve 12 is upper water jet and mixes the induction apparatus 12 of boiling water.
On heating tank 4-1, import 4-8 installs a heat pump flow control valve 4-15 under water.
Between the hot water threeway connected at upper outlet 7-2 and three way of drinking, a drinking-water magnetic valve 9 is installed, and together with drinking-water signal lamp 8-1, heats heat storage can 7 top surface temperature sensor 14 closed-loop synchronization by siphon and control.
Regenerator 5, as the heat exchanger of upper Water Sproading boiling water heat, is concentric locking collar pipe heat exchanger 5, or the brazing plate type heat exchanger of multipaths 5, or the contra-flow heat exchanger such as double pipe heat exchanger 5; Or shell and tube exchanger 5, or coil exchanger 5.
Electric heater 7-4 is the vertically disposed multipair inverted U metal electric heat pipe 7-4 of siphon heating heat storage can 7 bottom surface inwall; Or the Ying Gelai 840 stainless steel electrothermal tube 7-4 of the vertically disposed high strength of heat storage can 7 bottom surface inwall, water power shielding, seamless automatic silver brazing, withstand voltage 12bar is heated in siphon; Or siphon heating heat storage can 7 bottom surface inwall vertically disposed major diameter combination nickel filament heat-generating pipe; Or the vertically disposed many high insulation of heat storage can 7 bottom surface inwall, high heat conduction, high stability non-metal electric heating pipe 7-4 are heated in siphon; Or the electric heat-generating disc 7-4 that siphon heating heat storage can 7 bottom surface outer wall central horizontal is arranged; Or the electromagnetic type heat-generating disc 7-4 that siphon heating heat storage can 7 bottom surface outer wall central horizontal is arranged.
A KDF filter 2-1 is installed in the outlet of granular activated carbon filter 2.
A ultra filtration filter 3-1 is installed in the outlet of extruded activated carbon filter 3.
The end face outer wall of siphon heating heat storage can 7 installs an exhaust pressure relief valve 7-11.
The inlet ductwork of the cotton filter 1 of PP installs check-valves 11, force (forcing) pump 16, water flow switch 17.
The course of work that heat pump of the present invention and electric heater double-stage heating backheat temperature open hot water conditioner 1 is described as follows by reference to the accompanying drawings:
1, be vented: successively open Drinking Water Temperature control valve 8, wash dish valve 10, hot water valve 13, make water drain ice respectively with 0.5 ~ 6bar gauge pressure and open loop, boiling water loop, the air washed in dish loop, hot-water return, every road is until close respective valves again after complete water outlet;
2, preheating hot water heat accumulation: switch on power and start the present invention, the temperature sensor 14 that in the middle part of heating tank 4-1, sidewall is arranged, when perception water temperature is lower than 30 DEG C, semiconductor heat electrical chip 4-2 is connected by closed-loop control, by 1 part of electrical energy drive by the vertically disposed siphon circulation of its cold junction, the efficient tow taste heat drawn in 2 parts of vegetable washing waters, and be promoted to 3 parts of high-grade heats by semiconductor heat electrical chip 4-2, again by the vertically disposed siphon circulation in its hot junction, warm water in high-efficiency heating; Until upper water is heated to 35 DEG C, then disconnect semiconductor heat electrical chip 4-2; When temperature sensor 14 perception water temperature is more than 33 DEG C, then show hot water dormant state by hot water signal lamp 4-14, can hot-water supply at any time;
3, preheating drinking-water also heat accumulation: switch on power and start the present invention, the temperature sensor 14 that siphon heating heat storage can 7 end face upper outlet 7-2 place is arranged, when perception water temperature is lower than 92 DEG C, by continuous heating after closed-loop control connection electric heater 7-4, until upper water is heated to 97 DEG C then disconnect electric heater 7-4, wherein when temperature sensor 14 perception water temperature is more than 92 DEG C, control drinking-water signal lamp 8-1 and show drinkable state, and open drinking-water magnetic valve 9 to supply various drinking-water;
4, ice opens function: Drinking Water Temperature control valve 8 is opened to the ice beginning, through the cotton filter 1 of PP, granular activated carbon filter 2, the upper water of extruded activated carbon filter 3, utilize the gauge pressure of its 0.5 ~ 6bar to flow through and wash dish threeway, mixed water threeway, heating threeway, water side on the heating tank 4-1 be connected in parallel and regenerator 5, safe sluicing check-valves 6, and the boiling water side of 92 DEG C of boiling water press-in regenerators 5 in siphon heating heat storage can 7, to form 5 DEG C little temperature difference countercurrent flows of water and boiling water in the both sides of regenerator 5, 87 DEG C are preheated to after the sensible heat of wherein 20 DEG C of upper Water Sproading boiling water 93%, mixed by warm aqueous phase in 35 DEG C that discharge through upper outlet 4-9 after thermoelectric heat pump preheating simultaneously with heating tank 4-1, flow through siphon heating heat storage can 7 again to carry out second time electrical heating, be cooled into 25 DEG C of cold water after the sensible heat of simultaneously 92 DEG C of boiling water releases 93%, then flow through ice opening quotation pipe 18 and reclaim heat further, be cooled into 5 DEG C of cool boiled waters, and discharged by the ice beginning of Drinking Water Temperature control valve 8 and drink,
Subsequently when the temperature sensor 14 perception water temperature that sidewall in the middle part of heating tank 4-1 is arranged is lower than 30 DEG C; Connect semiconductor heat electrical chip 4-2, the siphon circulation arranged by its cold junction by 1 part of electrical energy drive, efficient absorption 2 parts of vegetable washing waters and cool boiled water middle-low grade heat, and be promoted to 3 parts of high-grade heats by semiconductor heat electrical chip 4-2, again by the siphon circulation that its hot junction is arranged, warm water in high-efficiency heating; Process lasts carries out, until user closes ice open function; Then the present invention proceeds to and performs preheating hot water and heat storage function, and waits for that continuous heating recovers display hot water dormant state to hot water signal lamp 4-14;
When the temperature sensor 14 perception water temperature arranged when siphon heating heat storage can 7 end face upper outlet 7-2 place is subsequently lower than 92 DEG C, connection electric heater 7-4 also regulates heating power, with stable in outlet water temperature at 94.5 ± 2.5 DEG C; Process lasts carries out, until close Drinking Water Temperature control valve 8; In said process, the check-valves 11 that hot water threeway connects, prevents water to flow into Drinking Water Temperature control valve 8; In addition, upper water is under 0.5 ~ 6bar gauge pressure, be heated to 92-97 DEG C of sterilization, still keeps the higher solubility of oxygen; And cool boiled water then recovers normal pressure, low temperature and oxygen normal solubility when taking, thus making cool boiled water dynamic because being rich in oxygen, therefore progressively can replace traditional anaerobic cool boiled water, having suitable human health;
5, boiling water function: Drinking Water Temperature control valve 8 is opened to boiling water end, through the upper water of the cotton filter 1 of PP, granular activated carbon filter 2, extruded activated carbon filter 3, utilize its 0.5 ~ 6bar gauge pressure to flow through and wash water side, safe sluicing check-valves 6 on dish threeway, mixed water threeway, heating threeway, the heating tank 4-1 be connected in parallel and regenerator 5, and the boiling water end of 92 DEG C of boiling water press-in Drinking Water Temperature control valves 8 in siphon heating heat storage can 7, drunk by its discharge; Wherein in heating tank 4-1 by after thermoelectric heat pump preheating through upper outlet 4-9 discharge 35 DEG C in warm water, then flow through siphon heating heat storage can 7 carry out second time electrical heating;
Subsequently when the temperature sensor 14 perception water temperature that sidewall in the middle part of heating tank 4-1 is arranged is lower than 30 DEG C; Connect semiconductor heat electrical chip 4-2, the siphon circulation arranged by its cold junction by 1 part of electrical energy drive, efficient absorption 2 parts of vegetable washing water middle-low grade heats, and be promoted to 3 parts of high-grade heats by semiconductor heat electrical chip 4-2, again by the siphon circulation that its hot junction is arranged, warm water in high-efficiency heating; Process lasts carries out, until user closes boiling water function; Then the present invention proceeds to and performs preheating hot water and heat storage function, and waits for that continuous heating recovers display hot water dormant state to hot water signal lamp 4-14;
When the temperature sensor 14 perception water temperature arranged when siphon heating heat storage can 7 end face upper outlet 7-2 place is subsequently lower than 92 DEG C, connection electric heater 7-4 also regulates heating power, with stable in outlet water temperature at 94.5 ± 2.5 DEG C; Process lasts carries out, until close Drinking Water Temperature control valve 8, or because leaving water temperature closes drinking-water magnetic valve 9 automatically lower than 92 DEG C, and control drinking-water signal lamp 8-1 display disabled status, now must close Drinking Water Temperature control valve 8, wait for that continuous heating recovers display drinkable state to drinking-water signal lamp 8-1; In said process, the check-valves 11 that hot water threeway connects, prevents water to flow into Drinking Water Temperature control valve 8; In addition, upper water is under 0.5 ~ 6bar gauge pressure, be heated to 92-97 DEG C of sterilization, still keeps the higher solubility of oxygen; Thus make boiling water dynamic because being rich in oxygen, therefore progressively can replace traditional anaerobic boiling water, have suitable human health;
6, temperature opens function: Drinking Water Temperature control valve 8 is opened to mixing section, through the upper water of the cotton filter 1 of PP, granular activated carbon filter 2, extruded activated carbon filter 3, utilize the gauge pressure of its 0.5 ~ 6bar to flow through and wash water side, safe sluicing check-valves 6 on dish threeway, mixed water threeway, heating threeway, the heating tank 4-1 be connected in parallel and regenerator 5, and 92 DEG C of boiling water in siphon heating heat storage can 7 are pressed into the boiling water side of regenerator 5 simultaneously, and lead to the boiling water entrance of Drinking Water Temperature control valve 8; To form 5 DEG C little temperature difference countercurrent flows of water and boiling water in the both sides of regenerator 5,87 DEG C are preheated to after the sensible heat of wherein 20 DEG C of upper Water Sproading boiling water 93%, mixed by warm aqueous phase in 35 DEG C that discharge through upper outlet 4-9 after thermoelectric heat pump preheating simultaneously with heating tank 4-1, then flow through siphon and heat heat storage can 7 to carry out second time electrical heating; 25 DEG C of cold water are cooled into after the sensible heat of 92 DEG C of boiling water releases 93% simultaneously, flow through ice opening quotation pipe 18 again and reclaim heat further, be cooled into 5 DEG C of cool boiled waters, and flow through the cool boiled water entrance of Drinking Water Temperature control valve 8, discharge after becoming warm water with boiling water by required proportion adjustment and drink;
Subsequently when the temperature sensor 14 perception water temperature that sidewall in the middle part of heating tank 4-1 is arranged is lower than 30 DEG C; Connect semiconductor heat electrical chip 4-2, the siphon circulation arranged by its cold junction by 1 part of electrical energy drive, efficient absorption 2 parts of vegetable washing water middle-low grade heats, and be promoted to 3 parts of high-grade heats by semiconductor heat electrical chip 4-2, again by the siphon circulation that its hot junction is arranged, warm water in high-efficiency heating; Process lasts carries out, until user closes temperature open function; Then the present invention proceeds to and performs preheating hot water and heat storage function, and waits for that continuous heating recovers display hot water dormant state to hot water signal lamp 4-14;
When the temperature sensor 14 perception water temperature arranged when siphon heating heat storage can 7 end face upper outlet 7-2 place is subsequently lower than 92 DEG C, connection electric heater 7-4 also regulates heating power, with stable in outlet water temperature at 94.5 ± 2.5 DEG C; Process lasts carries out, until close Drinking Water Temperature control valve 8; In said process, the check-valves 11 that hot water threeway connects, prevents water to flow into Drinking Water Temperature control valve 8; In addition, upper water is under 0.5 ~ 6bar gauge pressure, be heated to 92-97 DEG C of sterilization, still keeps the higher solubility of oxygen; And warm water then recovers normal pressure, normal temperature and oxygen normal solubility when taking, thus making warm water dynamic because being rich in oxygen, therefore progressively can replace traditional anaerobic warm water, having suitable human health;
7, hot water function: open hot water valve 13, through the upper water of the cotton filter 1 of PP, granular activated carbon filter 2, extruded activated carbon filter 3, utilize its 0.5 ~ 6bar gauge pressure to flow through and wash water side, safe sluicing check-valves 6 on dish threeway, mixed water threeway, heating threeway, the heating tank 4-1 be connected in parallel and regenerator 5, and 92 DEG C of boiling water press-in Automatic temp. adjusting valves 12 in siphon heating heat storage can 7,60 DEG C of hot water are mixed into the upper water of 20 DEG C in upper water mixing tube 12-1, flow through hot water valve 13 again, continue the upper water with 20 DEG C after being discharged by it and be mixed into 34-42 DEG C of bath hot water; Wherein in heating tank 4-1 by after thermoelectric heat pump preheating through upper outlet 4-9 discharge 35 DEG C in warm water, then flow through siphon heating heat storage can 7 carry out second time electrical heating;
Subsequently when the temperature sensor 14 perception water temperature that sidewall in the middle part of heating tank 4-1 is arranged is lower than 30 DEG C; Connect semiconductor heat electrical chip 4-2, the siphon circulation arranged by its cold junction by 1 part of electrical energy drive, efficient absorption 2 parts of vegetable washing water middle-low grade heats, and be promoted to 3 parts of high-grade heats by semiconductor heat electrical chip 4-2, again by the siphon circulation that its hot junction is arranged, warm water in high-efficiency heating; Process lasts carries out, until user closes hot water function; Then the present invention proceeds to and performs preheating hot water and heat storage function, and waits for that continuous heating recovers display hot water dormant state to hot water signal lamp 4-14;
Subsequently when the temperature sensor 14 perception water temperature of siphon heating heat storage can 7 end face upper outlet 7-2 place setting is lower than 92 DEG C, connect electric heater 7-4 and regulate heating power to maximum, switch to instant heating mode by preheating heat accumulation pattern, the heating and the heat accumulation effect that make full use of siphon heating heat storage can 7 maintain bath water-temperature; Process lasts carries out, until close hot water valve 13; Wait for that continuous heating recovers display drinkable state to drinking-water signal lamp 8-1; Now, the hot water of about 25% under 0.5 ~ 6bar gauge pressure, is heated to 92-97 DEG C of sterilization by upper water;
8, five-function compound: five kinds of domestic water functions such as above-mentioned boiling water, cool boiled water, warm water, hot water, vegetable washing water, individually can use, thus realize the organic assembling of its five functions;
9, heat, hold temperature, sterilization: on regenerator 5, water side outlet has been preheating to upper water or 20 DEG C of upper water of 87 DEG C, after being heated to 94.5 ± 2.5 DEG C by electric heater 7-4 by siphon circulation, in siphon heating heat storage can 7, hold temperature flowing more than 3 minutes, to realize high temperature sterilization, produce boiling water; And when opening Drinking Water Temperature control valve 8, the display state of the signal lamp 8-1 that notably drinks water, to guarantee that drinking water reaches national health index;
10, protect:
(1) anti-dry: when the water level in dry burning resistance switch 7-8 perception siphon heating heat storage can 7 is not yet full of, for preventing electric heater 7-4 from damaging because of dry combustion method, just can cutting electromechanical source automatically, enter guard mode, until water level is full of siphon heating heat storage can 7, can automatically reset;
(2) superpressure preventing: when upper water meter pressure is more than 6bar, safe sluicing check-valves 6 can by mozzle releasing pressure automatically, the use safety of protection siphon heating heat storage can 7;
(3) chlorine is arranged: when producing chlorine in siphon heating heat storage can 7 because of heating, exhaust pressure relief valve 7-11 can get rid of chlorine and pressure release automatically by mozzle, protection drinking-water use safety;
(4) anti-electricity wall: a nonmetal resistance electric-type pipe fitting is respectively set as anti-electric divider wall 7-9, to guarantee product use safety in the water inlet of the cotton filter 1 of PP and hot water valve 13;
(5) anticreep: on safety ground basis of the present invention, when the built-in leakage protection switch 7-10 of undesirable mutual electromagnetic inductance formula detects that leakage current exceedes human body sensing scope, just can in 0.01 ~ 0.1 second automatic cut-off power, glimmered by heating signal lamp 7-7 simultaneously, to show fault, ensure human-body safety;
11, pressurize: when upper water pressure regular lower than 110 DEG C of saturation water pressure time, or in high altitude localities, or well water, river etc. are through precipitation and after other process; Just in the import of PP cotton filter 1, check-valves 11, force (forcing) pump 16, water flow switch 17 need be installed, when unlatching Drinking Water Temperature control valve 8 and or wash dish valve 10 and or hot water valve 13 while, force (forcing) pump 16 is started by water flow switch 17, to pressurize water inlet on 110 DEG C of saturation water pressure, guarantee that the present invention normally works, until above-mentioned all valve closings;
12, instead clean: open safe sluicing check-valves 6 and first water more than in the present invention is drained, again closed safe sluicing check-valves 6, hot water valve 13, wash dish valve 10, open Drinking Water Temperature control valve 8 to the ice beginning, take the tube connector of extruded activated carbon filter 3 apart simultaneously, then go up water participate in food acids and be heated to 80 DEG C, be forced through the ice beginning that flexible pipe is connected to Drinking Water Temperature control valve 8 again, utilize its pressure to open loop to ice and implement reverse cleaning, to remove the dirt in each equipment, after draining sewage, then access clear water continuation reverse cleaning 20 minutes.
Compared with existing product, integrated innovation advantage of the present invention as follows listed by:
1, semiconductor heat electrical chip: a kind of semiconductor heat pump water heater using vegetable washing water as thermal source is provided, semiconductor heat electrical chip is started by temperature sensor when preheating, heat accumulation, insulation, the siphon circulation arranged by its cold junction by 1 part of electrical energy drive, the tow taste heat of 20 DEG C in efficient absorption 2 parts of vegetable washing waters, and be promoted to 3 parts of 35 DEG C of high-grade heats by semiconductor heat electrical chip, again by the siphon circulation that its hot junction is arranged, warm water in high-efficiency heating 30 DEG C, and hold warm heat accumulation; Because its heating energy efficiency ratio is up to 3.0, compare the electric heater amount of saving energy 70%, advocate " green health " life style;
2, electric heater: the vertical siphon cover bucket arranged in vertical heating tank, forms siphon circulation when static preheating heat accumulation, hold warm heat accumulation in bucket outside high-efficiency heating, bucket; The quick tubular type heating in cover bucket is formed when dynamically immediately heating; Thus the static preheating heat accumulation of changeable realization, dynamically instant these two kinds of electrical heating patterns of heating, not only save product cost but also improve electrical heating heat accumulation efficiency, and be applicable to the low distribution requirement of Chinese family.
3, step heating: start semiconductor heat electrical chip by heating tank temperature sensor, heat heat storage can temperature sensor by siphon and start electric heater, thus realize the double dynamical step heat hot water of heat pump and electric heater, hot water result of use is guaranteed on the significantly amount of saving energy basis;
4, siphon circulation high-efficiency heating: by siphon circulation, the density difference utilizing Action of Gravity Field and formed between cold water and hot water, realize the high efficiency heat absorption of semiconductor heat electrical chip cold junction and the high-efficiency heating process in hot junction, thus significantly improve electrical heating of the present invention, heat absorption, heat accumulation efficiency;
5, efficient extraction cycle: form efficient extraction cycle by 5 DEG C little temperature difference regenerators, to reclaim the sensible heat of in 92 DEG C of boiling water 93%, 75% can be economized on electricity compared with common 15 DEG C of temperature difference regenerators, often spending electricity can 172 liters, preparing ice boiling water, reach 14 times of continous way boiled water machine, run the commercial electricity charge of saving for 6.7 days and recyclable product-specific investments continuously.
6, Drinking Water Temperature control valve: the warm water being produced any mixed proportion between boiling water and cool boiled water by Drinking Water Temperature control valve, thus on energy-conservation basis, provide convenient result of use;
7, Automatic temp. adjusting valve: control the mixed proportion between high-temperature-hot-water and upper water, with the outlet water temperature of constant water heater by Automatic temp. adjusting valve; Thus with minimum water tank volume, realize the maximization of quantity of heat storage;
8, without the need to fluid device heat pump: the present invention had both exempted the various refrigerant parts of the steam compression heat pumps such as compressor, condenser, choke valve, evaporimeter, also exempt the various water system parts such as circulating pump, boiler, therefore manufacture and install all very simply, maintenance cost is cheap, reliability is higher;
9, five functions is integrated: innovation integrate five functions, in one, is avoided the overlapping investment of various water appliance, advocated " green health " life style.
In sum, the present invention's integrated siphon circulation electrical heating and single tank dual heating mode, high-efficiency heating boiling water heat accumulation; Cold water is produced by efficient extraction cycle; Absorb upper hydro-thermal amount by semiconductor heat electrical chip again and produce vegetable washing water, and reclaim cold water heat preparing ice boiling water, reclaim boiling water sensible heat simultaneously, the step realizing semiconductor heat electrical chip and electric heater heats upper water; Boiling water and cool boiled water combined amount is regulated to produce warm water by Drinking Water Temperature control valve at wider warm area; Boiling water and upper water combined amount hot water preparing is regulated by automatic regulating valve.Thus integration realizes five kinds of domestic water functions such as (92-100 DEG C) boiling water, (5-15 DEG C) cool boiled water, (5-100 DEG C) warm water, (43-75 DEG C) hot water, (15-25 DEG C) vegetable washing water; Upper water step-by-step movement after multistage filtering experiences following thermal process: thermoelectric chip one-level heat hot water heat accumulation reclaims boiling water sensible heat simultaneously, and then heat boiling water heat accumulation, release boiling water sensible heat by electric heater secondary and become cold water, flow through the ice pipe that opens the set and be cooled to cool boiled water, boiling water and become warm water, boiling water and upper water to be automatically mixed into hot water with cool boiled water hand mix, thermoelectric chip absorption is gone up hydro-thermal amount and is formed vegetable washing water in addition; Just boiling water, cool boiled water, warm water can be provided respectively by a Drinking Water Temperature control valve; Drinking-water output increased 12 times, advocates green health life.
(4) accompanying drawing explanation
Accompanying drawing 1 is system flow chart of the present invention.
Accompanying drawing 2 is that in the present invention, Automatic temp. adjusting valve 12 is the system flow chart of induction apparatus.
(5) detailed description of the invention
Heat pump and electric heater double-stage heating backheat temperature that the present invention proposes open the embodiment of hot water conditioner as shown in Figure 1, are now described as follows: its by nonmetal anti-electric divider wall 7-9, PP cotton filter 1, granular activated carbon filter 2, KDF filter 2-1, extruded activated carbon filter 3, ultra filtration filter 3-1, wash dish threeway, mix water threeway, heat threeway, heat pump flow control valve 4-15, the heating tank 4-1 be connected in parallel and heat exchange area 0.315m 2316 stainless steel braze welding plate regenerators 5 on water side, safe sluicing check-valves 6, siphon heating heat storage can 7, hot water threeway, drinking-water magnetic valve 9, three way of drinking, regenerator 5 boiling water side, diameter 10mm, length 0.8m the opening quotation of copper tube ice pipe 18, DN15 internal thread interface 304 stainless steel Drinking Water Temperature control valve 8 ice open the 304 stainless steel connecting lines etc. of entrance and DN15 thereof, composition ice opens loop, open in loop at above-mentioned ice, three way of drinking connects DN15 internal thread interface 304 stainless steel Drinking Water Temperature control valve 8 boiling water entrance etc., then form boiling water loop, open in loop at above-mentioned ice, wash dish three and connect heat absorption tank 4-3, DN15 internal thread interface 304 stainless steel and wash dish valve 10 etc., then composition washes dish loop, open in loop at above-mentioned ice, hot water three connects DN15 internal thread interface 304 stainless steel check-valves 11, Automatic temp. adjusting valve 12, and between mixed water threeway and Automatic temp. adjusting valve 12, water mixing tube 12-1 on 304 stainless steels of connection DN15, DN15 internal thread interface 304 stainless steel hot water valve 13 is connected again, composition hot-water return by Automatic temp. adjusting valve 12, wherein thermoelectric heat pump 4 lacks cylinder heating tank 4-1 by the 304 stainless steel circles of diameter 200mm and height 500mm, the square of 5 pieces of length of side 90mm and the heating capacity 480W of thick 15mm, the semiconductor heat electrical chip 4-2 of input power 160W, the 304 stainless steel circles of diameter 150mm and height 500mm lack cylinder heat absorption tank 4-3, vertical heating fins 4-4, vertical heat absorbing fins 4-5, siphon heating jacket bucket 4-6, siphon heat-absorbing sleeve bucket 4-7, lower inlet 4-8, upper outlet 4-9, semiconductor heating signal lamp 4-10, dry burning resistance switch 4-11, heat absorption tank upper inlet 4-12, 4-13 is exported under heat absorption tank, hot water signal lamp 4-14, temperature sensor 14, composition such as insulation material 15 grade, the hot junction of semiconductor heat electrical chip 4-2 and the flat heated close contact of heating tank 4-1, flat heated inwall arranges the vertical heating fins 4-4 of pitch of fins 5mm, and the heated side of vertical heating fins 4-4 arranges diameter 100mm, height 380mm, the 304 stainless steel semi-cylindrical siphon heating jacket bucket 4-6 of wall thickness 0.8mm, its top is reserved 60mm siphon circulation and is gone out hydrospace, and 60mm siphon circulation water inlet space is reserved in its underpart, the cold junction of semiconductor heat electrical chip 4-2 and the heat absorption plane close contact of heat absorption tank 4-3, heat absorption planar inner wall arranges the vertical heat absorbing fins 4-5 of pitch of fins 5mm, the heat absorbing side of vertical heat absorbing fins 4-5 arranges the 304 stainless steel semi-cylindrical siphon heat-absorbing sleeve bucket 4-7 of diameter 100mm, height 380mm, wall thickness 0.8mm, 60mm siphon circulation water inlet space is reserved on its top, and its underpart is reserved 60mm siphon circulation and gone out hydrospace, wherein heating tank 4-1 is that perpendicular elongate circle lacks post tank body, the horizontal lower inlet 4-8 of DN15 internal thread 304 stainless steel is opened in bottom outside face, the vertical upper outlet 4-9 of DN15 internal thread 304 stainless steel is opened in the end face center of circle, semiconductor heat electrical chip 4-2 interlocks with semiconductor heating signal lamp 4-10 in control, end face inwall arranges dry burning resistance switch 4-11, the temperature sensor 14 that middle part sidewall is arranged controls on-off and the power adjusting of semiconductor heat electrical chip 4-2, and shows its heating heat accumulation temperature regime by hot water signal lamp 4-14, the tank 4-3 that wherein absorbs heat is that perpendicular elongate circle lacks post tank body, the horizontal upper inlet 4-12 of top outside boiling water flat DN15 internal thread 304 stainless steel, and bottom outside face exports 4-13 under opening DN15 internal thread 304 stainless steel level, the display state of the temperature sensor 14 closed-loop control drinking-water signal lamp 8-1 that siphon heating heat storage can 7 end face is arranged, and the heating heat accumulation temperature of static cost control electric heater 7-4, and by heating signal lamp 7-7 simultaneous display, on-off and the power adjusting of the temperature sensor 14 Dynamic controlling electric heater 7-4 that side is arranged in the middle part of heat storage can 7 are heated in siphon, and by heating signal lamp 7-7 simultaneous display, heating tank 4-1, regenerator 5, siphon heating heat storage can 7 and the high temperature conduit connected and pipe fitting etc., need add the thick polyurethane foam heat insulation material of 50mm 15.Siphon heating heat storage can 7 is diameter 150mm, height 800mm, the 304 stainless steel perpendicular elongate cylinder tank bodies of wall thickness 1mm, bottom outside face boiling water flat DN15 internal thread interface 304 stainless steel lower inlet 7-1, end face central authorities open vertical DN15 internal thread interface 304 stainless steel upper outlet 7-2, central vertical arranges diameter 80mm, height 700mm, the 304 stainless steel siphon cover bucket 7-3 of wall thickness 0.8mm, its top is reserved 40mm siphon circulation and is gone out hydrospace, 60mm siphon circulation water inlet space is reserved in its underpart, siphon cover bucket 7-3 Lower Half central vertical arranges 4kW electric heater 7-4, and in siphon cover bucket 7-3, form heating chamber 7-5 thus, and form heat accumulation chamber 7-6 at the interlayer that siphon cover bucket 7-3 outer wall and siphon heat heat storage can 7 inwall, electric heater 7-4 interlocks with heating signal lamp 7-7 in control, end face inwall arranges dry burning resistance switch 7-8, in the water inlet of the cotton filter 1 of PP and hot water valve 13, a DN15 internal thread interface nonmetal resistance electric-type pipe fitting is respectively set as anti-electric divider wall 7-9, open in loop at electric heater 7-4 and ice and safety ground and leakage protection switch 7-10 are set.On heating tank 4-1, import 4-8 installs a DN15 internal thread interface 304 stainless steel hot pump discharge control valve 4-15 under water.Between the hot water threeway connected at upper outlet 7-2 and three way of drinking, a DN15 internal thread interface 304 stainless steel drinking-water magnetic valve 9 is installed, and together with drinking-water signal lamp 8-1, heats heat storage can 7 top surface temperature sensor 14 closed-loop synchronization by siphon and control.Regenerator 5, as the heat exchanger of upper Water Sproading boiling water heat, is concentric locking collar tubular type, inner and outer diameter is respectively copper tube, the heat exchange area 2m of 7mm and 15mm 2contra-flow heat exchanger 5.Electric heater 7-4 is the Ying Gelai 840 stainless steel electrothermal tube 7-4 of the vertically disposed 4 pairs of inverted Us of siphon heating heat storage can 7 bottom surface inwall, high strength, water power shielding, seamless automatic silver brazing, withstand voltage 12bar, input power 4.4kW.The end face outer wall of siphon heating heat storage can 7 installs a DN15 internal thread interface 304 stainless steel exhaust pressure relief valve 7-11.
In the embodiment of the present invention: upper coolant-temperature gage 20 DEG C, upper water meter pressure 2.5bar, middle warm water's heat accumulation temperature 30-35 DEG C, drinking-water sterilization temperature 92-100 DEG C, single phase poaer supply rated voltage 220V, rated frequency 50Hz, the rated input power 0.8kW of 5 block semiconductor thermoelectric chips and specified heating capacity 2.4kW, electric heater rated input power 2.0kW.Semiconductor heat electrical chip is started by the temperature sensor of heating tank when hot water preheating and heat accumulation, 20 DEG C of vegetable washing waters and 5 DEG C of cool boiled water middle-low grade heat 1.6kW are efficiently drawn by siphon circulation in heat absorption tank, 35 DEG C of high-grade heat 2.4kW are promoted to by semiconductor heat electrical chip, and warm heat accumulation is held by warm water in the efficient preheating of siphon circulation 30 DEG C in heating tank, therefore the heating Energy Efficiency Ratio of thermoelectric heat pump is up to 3.0, compares the electric heater amount of saving energy 70%.And when using various domestic water function, then the temperature sensor startup electric heater of heat storage can is heated by siphon, and together with semiconductor heat electrical chip, jointly realize the specified total heating capacity of 4.4kW with the specified total power input of 2.8kW.Wherein, by automatically regulating boiling water and upper water mixed proportion, immediately produce warm water 6L/min in 45 DEG C, total Energy Efficiency Ratio reaches 1.57, compares the electric heater amount of saving energy 43%; As being 3/1 calculating in preheating and the ratio of heat accumulation time and instant heat time, then on average heating Energy Efficiency Ratio up to 2.23, compare the electric heater amount of saving energy 55%; Thus on saving power consumption basis over half, guarantee hot water result of use.In addition, utilize 5 DEG C little temperature difference heat exchangers to reclaim 4.2kW boiling water sensible heat heat, supplement 0.846kW input power and can produce 5 DEG C of cool boiled water 1.5L/min, on average often spend electricity and produce 152 liters of cool boiled waters, unit power consumption amount significantly improves drinking-water output 12 times; 92 DEG C of boiling water 0.5L/min are produced, input power 2.5kW with siphon circulation Electric heating; By regulating the mixed proportion of boiling water and cool boiled water, produce 15-100 DEG C of warm water; Every platform unit weight 10.5kg, operating weight 35.5kg, noiselessness during operation.

Claims (11)

1. heat pump and electric heater double-stage heating backheat temperature leave a hot water conditioner, and it is by the cotton filter (1) of PP, granular activated carbon filter (2), KDF filter (2-1), extruded activated carbon filter (3), ultra filtration filter (3-1), thermoelectric heat pump (4), heating tank (4-1), semiconductor heat electrical chip (4-2), heat absorption tank (4-3), vertical heating fins (4-4), vertical heat absorbing fins (4-5), siphon heating jacket bucket (4-6), siphon heat-absorbing sleeve bucket (4-7), lower inlet (4-8), upper outlet (4-9), semiconductor heating signal lamp (4-10), dry burning resistance switch (4-11), heat absorption tank upper inlet (4-12), outlet (4-13) under heat absorption tank, hot water signal lamp (4-14), heat pump flow control valve (4-15), regenerator (5), sluice safely check-valves (6), siphon heating heat storage can (7), lower inlet (7-1), upper outlet (7-2), siphon cover bucket (7-3), electric heater (7-4), heating chamber (7-5), heat accumulation chamber (7-6), electric heater heating signal lamp (7-7), dry burning resistance switch (7-8), anti-electric divider wall (7-9), safety ground and leakage protection switch (7-10), exhaust pressure relief valve (7-11), Drinking Water Temperature control valve (8), drinking-water signal lamp (8-1), drinking-water magnetic valve (9), wash dish valve (10), check-valves (11), Automatic temp. adjusting valve (12), upper water mixing tube (12-1), hot water valve (13), temperature sensor (14), insulation material (15), force (forcing) pump (16), water flow switch (17), ice opening quotation pipe (18), it is characterized in that: the cotton filter (1) of PP, granular activated carbon filter (2), extruded activated carbon filter (3), wash dish threeway, mixed water threeway, heating threeway, the heating tank (4-1) and the upper water side of regenerator (5), the safety that are connected in parallel sluice check-valves (6), heat storage can (7) heat in siphon, hot water threeway, three way of drinking, regenerator (5) boiling water side, ice open the set manages (18), Drinking Water Temperature control valve (8) ice opens entrance and connecting line etc. thereof, form ice and open loop, open in loop at above-mentioned ice, three way of drinking connects Drinking Water Temperature control valve (8) boiling water entrance etc., then form boiling water loop, open in loop at above-mentioned ice, wash dish three and connect heat absorption tank (4-3), wash dish valve (10) etc., then composition washes dish loop, open in loop at above-mentioned ice, hot water three connects check-valves (11), Automatic temp. adjusting valve (12), and between mixed water threeway and Automatic temp. adjusting valve (12), water mixing tube (12-1) in connection, hot water valve (13) is connected again, composition hot-water return by Automatic temp. adjusting valve (12), wherein thermoelectric heat pump (4) is by heating tank (4-1), semiconductor heat electrical chip (4-2), heat absorption tank (4-3), vertical heating fins (4-4), vertical heat absorbing fins (4-5), siphon heating jacket bucket (4-6), siphon heat-absorbing sleeve bucket (4-7), lower inlet (4-8), upper outlet (4-9), semiconductor heating signal lamp (4-10), dry burning resistance switch (4-11), heat absorption tank upper inlet (4-12), outlet (4-13) under heat absorption tank, hot water signal lamp (4-14), temperature sensor (14), the compositions such as insulation material (15), the hot junction of semiconductor heat electrical chip (4-2) and the flat heated close contact of heating tank (4-1), flat heated inwall arranges vertical heating fins (4-4), the heated side of vertical heating fins (4-4) arranges siphon heating jacket bucket (4-6), its top is reserved siphon circulation and is gone out hydrospace, siphon circulation water inlet space is reserved in its underpart, the cold junction of semiconductor heat electrical chip (4-2) and the heat absorption plane close contact of heat absorption tank (4-3), heat absorption planar inner wall arranges vertical heat absorbing fins (4-5), the heat absorbing side of vertical heat absorbing fins (4-5) arranges siphon heat-absorbing sleeve bucket (4-7), siphon circulation water inlet space is reserved on its top, and its underpart is reserved siphon circulation and gone out hydrospace, wherein heating tank (4-1) is the scarce post tank body of perpendicular elongate circle, the flat lower inlet of bottom outside face boiling water (4-8), vertical upper outlet (4-9) is opened in the end face center of circle, semiconductor heat electrical chip (4-2) is interlocked with semiconductor heating signal lamp (4-10) in control, end face inwall arranges dry burning resistance switch (4-11), the temperature sensor (14) that middle part sidewall is arranged controls on-off and the power adjusting of semiconductor heat electrical chip (4-2), and shows its heating heat accumulation temperature regime by hot water signal lamp (4-14), the tank (4-3) that wherein absorbs heat lacks post tank body, the flat upper inlet of top outside boiling water (4-12) for perpendicular elongate circle, exports (4-13) under bottom outside face boiling water is flat, the display state of temperature sensor (14) closed-loop control drinking-water signal lamp (8-1) that siphon heating heat storage can (7) end face is arranged, and the heating heat accumulation temperature of static cost control electric heater (7-4), and by heating signal lamp (7-7) simultaneous display, the on-off of temperature sensor (14) the Dynamic controlling electric heater (7-4) that side, siphon heating heat storage can (7) middle part is arranged and power adjusting, and by heating signal lamp (7-7) simultaneous display, heating tank (4-1), regenerator (5), siphon heating heat storage can (7) and the high temperature conduit connected and pipe fitting etc., need thermal insulation material (15).
2. open hot water conditioner according to heat pump according to claim 1 and electric heater double-stage heating backheat temperature, it is characterized in that: siphon heating heat storage can (7) is perpendicular elongate cylinder tank body, the flat lower inlet of bottom outside face boiling water (7-1), end face central authorities open vertical upper outlet (7-2), central vertical arranges siphon cover bucket (7-3), its top is reserved siphon circulation and is gone out hydrospace, siphon circulation water inlet space is reserved in its underpart, siphon cover bucket (7-3) Lower Half central vertical arranges electric heater (7-4), and in siphon cover bucket (7-3), form heating chamber (7-5) thus, and form heat accumulation chamber (7-6) at the interlayer that siphon cover bucket (7-3) outer wall and siphon heat heat storage can (7) inwall, electric heater (7-4) is interlocked with heating signal lamp (7-7) in control, end face inwall arranges dry burning resistance switch (7-8), in the water inlet of the cotton filter (1) of PP and hot water valve (13), a nonmetal resistance electric-type pipe fitting is respectively set as anti-electric divider wall (7-9), open in loop at electric heater (7-4) and ice and safety ground and leakage protection switch (7-10) are set.
3. open hot water conditioner according to heat pump according to claim 1 and electric heater double-stage heating backheat temperature, it is characterized in that: Automatic temp. adjusting valve 12 is upper water jet and mixes the induction apparatus 12 of boiling water.
4. open hot water conditioner according to heat pump according to claim 1 and electric heater double-stage heating backheat temperature, it is characterized in that: on heating tank (4-1), a heat pump flow control valve (4-15) is installed in import under water (4-8).
5. open hot water conditioner according to heat pump according to claim 1 and electric heater double-stage heating backheat temperature, it is characterized in that: between the hot water threeway connected at upper outlet (7-2) and three way of drinking, a drinking-water magnetic valve (9) is installed, and together with drinking-water signal lamp (8-1), heat heat storage can (7) top surface temperature sensor (14) closed-loop synchronization by siphon and control.
6. open hot water conditioner according to heat pump according to claim 1 and electric heater double-stage heating backheat temperature, it is characterized in that: regenerator (5) is as the heat exchanger of upper Water Sproading boiling water heat, concentric locking collar pipe heat exchanger (5), or the brazing plate type heat exchanger of multipaths (5), or the contra-flow heat exchanger such as double pipe heat exchanger (5); Or shell and tube exchanger (5), or coil exchanger (5).
7. open hot water conditioner according to heat pump according to claim 1 and electric heater double-stage heating backheat temperature, it is characterized in that: electric heater (7-4) is the vertically disposed multipair inverted U metal electric heat pipe (7-4) of siphon heating heat storage can (7) bottom surface inwall; Or Ying Gelai 840 stainless steel electrothermal tube (7-4) of the vertically disposed high strength of heat storage can (7) bottom surface inwall, water power shielding, seamless automatic silver brazing, withstand voltage 12bar is heated in siphon; Or siphon heating heat storage can (7) bottom surface inwall vertically disposed major diameter combination nickel filament heat-generating pipe; Or the vertically disposed many high insulation of heat storage can (7) bottom surface inwall, high heat conduction, high stability non-metal electric heating pipe (7-4) are heated in siphon; Or the electric heat-generating disc (7-4) that siphon heating heat storage can (7) bottom surface outer wall central horizontal is arranged; Or the electromagnetic type heat-generating disc (7-4) that siphon heating heat storage can (7) bottom surface outer wall central horizontal is arranged.
8. open hot water conditioner according to heat pump according to claim 1 and electric heater double-stage heating backheat temperature, it is characterized in that: a KDF filter (2-1) is installed in the outlet of granular activated carbon filter (2).
9. open hot water conditioner according to heat pump according to claim 1 and electric heater double-stage heating backheat temperature, it is characterized in that: a ultra filtration filter (3-1) is installed in the outlet of extruded activated carbon filter (3).
10. open hot water conditioner according to heat pump according to claim 1 and electric heater double-stage heating backheat temperature, it is characterized in that: the end face outer wall of siphon heating heat storage can (7) installs an exhaust pressure relief valve (7-11).
11. open hot water conditioner according to heat pump according to claim 1 and electric heater double-stage heating backheat temperature, it is characterized in that: the inlet ductwork of the cotton filter (1) of PP installs check-valves (11), force (forcing) pump (16), water flow switch (17).
CN201420824427.9U 2014-12-10 2014-12-10 Heat pump and electric heater double-stage heating backheat temperature leave hot water conditioner Withdrawn - After Issue CN204345911U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104566963A (en) * 2014-12-10 2015-04-29 侴乔力 Heat pump and electric heater double-stage heating and heat regenerating type warm water, boiled water and hot water adjusting machine
CN107830634A (en) * 2017-09-19 2018-03-23 中国科学院理化技术研究所 A kind of mixed working fluid back-heating type heat pump boiler and control method

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104566963A (en) * 2014-12-10 2015-04-29 侴乔力 Heat pump and electric heater double-stage heating and heat regenerating type warm water, boiled water and hot water adjusting machine
CN104566963B (en) * 2014-12-10 2017-09-22 侴乔力 Heat pump drives hot water regulation machine with electric heater double-stage heating backheat temperature
CN107830634A (en) * 2017-09-19 2018-03-23 中国科学院理化技术研究所 A kind of mixed working fluid back-heating type heat pump boiler and control method

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Effective date of registration: 20160323

Address after: 230051, room 9, building 123, Greentown Yulan apartment, No. 201 Tongcheng South Road, Hefei, Anhui

Patentee after: Chou Qiaoli

Patentee after: GUANGDONG SHUNDE WATER AND ELECTRIC CO., LTD.

Address before: 230051 Anhui province Baohe District of Hefei city Yangjiang Road water Ling Water Garden South Building 7 Room 301

Patentee before: Chou Qiaoli

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Granted publication date: 20150520

Effective date of abandoning: 20170922

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