CN103124880A

CN103124880A - Apparatus and method for heating water

Info

Publication number: CN103124880A
Application number: CN2011800392182A
Authority: CN
Inventors: 兹维·施基勒尔曼
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-08-09
Filing date: 2011-08-08
Publication date: 2013-05-29
Also published as: EP2603744A2; WO2012020404A3; AU2011288113A1; US20130161404A1; WO2012020404A2; BR112013003123A2; AU2011288113B2

Abstract

The invention discloses a water heating device, comprising a vaporizer for vaporizing refrigerant and a compressor for compressing them vaporized refrigerant. The device also comprises a shell; such as a condenser and a volume reducing member positioned within the shell. The member is configured to reduce the cross section area of the volume in which water is heated in the shell. The device may also contain a refrigerant coil positioned adjacent to the volume in which water is heated in the shell; the refrigerant coil contains a refrigerant material received from the compressor, said refrigerant material heats the water in the volume in which water is heated in the shell.

Description

Water heating apparatus and method

Technical field

The present invention relates to the water technical field of heating, be specifically related to a kind of water heating apparatus and method that adopts the cold-producing medium material.

Background technology

The preparation of effective and efficient hot water production has nowadays become more and more important, especially when the non-renewable energy by after being usually used in heating water.

Heat pump is known by masses as a kind of heating fluid device commonly used, and comprising vaporizer, vaporizer comprises the vaporizer coil pipe, is distributed with special cold-producing medium through the vaporization of blowing hot-air on coil pipe; Heat exchanger or condenser, wherein relatively cold liquid is heated on thermal contact by the cold-producing medium of relatively hot, and cold-producing medium is condensed in condenser and heat is conducted to and is subjected to hot water.Heat pump is very efficient, because the required energy of condensating refrigerant is approximately only 1/3 of evaporation described (liquid state) cold-producing medium institute energy requirement; Especially, the concentrated required energy of described cold-producing medium (gas) is electric energy, and the energy that evaporates described liquid refrigerant come from (arround) heat energy in atmospheric environment.

Be depicted as a kind of heat pump of integrating Air-Water in prior art as Figure 1A, condenser and storage tank are integrated into a device 10 in this system, can be known as " associating " heat pump or " All-in-One " heat pump.This main device 10 comprises cooling water inlet 18 and hot water outlet 16.This integrated Air-Water heat pump also includes a compressor reducer 12 that is used for the refrigerating material compression is entered cold-producing medium coil pipe 22, and described cold-producing medium coil pipe 22 is looped around around the housing 24 of condenser, and a vaporizer 14 that is used for gasifying liquid.The main advantage of above-mentioned integrated heat pump is not need to arrange circulating pump, because the housing of condenser 24 is namely the housing of storage tank.Energy in condenser coil is transported in water with heating water.The shortcoming of above-mentioned integrated heat pump is: need before to spend a very long time in its " shower for the first time " and the water in whole storage tank is heated to the temperature of needs.Can see housing 24 from the cross section of integrated heat pump, water stores and is heated in housing 24; The refrigeration coil 22 that refrigerating material is arranged in one, described refrigerating material is used for the water that heating is stored in housing 24.This refrigeration coil 22 is used for whole water that heating is stored in housing 24.

Be the Air-Water heat pump of separate type in prior art as shown in Figure 1B.The heat pump of this separate type comprises compressor reducer 505, vaporizer 525, condenser 500 and pump 502.Compressor reducer 505 provides the cold-producing medium that is compressed into gaseous state by a pipeline 550 in condensation volume 555, this cold-producing medium is by an outlet 536 outputs.Cold water by relative low temperature carries out condensation to liquid cold-producing medium by thermal contact; Above-mentioned relatively cold water in said process by continuous heating.The cold-producing medium that is condensed leaves condensation volume 555 and is vaporized device 525 and utilizes the heat in the atmospheric environment next by the coil pipe transmission of vaporizer 525 to vaporize; Cold-producing medium in vaporizer 525 reenters compressor reducer 505 and carries out another circulation subsequently.Pump 502 pumps water are by pipeline 555, and the water in pipeline 555 is mainly by the Topography of the cold-producing medium that is condensed.Above-mentioned water is heated in the pipeline 510 of condenser 500.The water that was heated subsequently flows in the storage tank 520 of stored hot water by a pipeline 530.As required, current are flow to condenser 500 by pipeline 532 from hot water storage tank 520 and are further heated by pump 502 pumpings.Therefore, equipment produce hot water and with hot water storage in hot water storage tank 520, and can be used for various application.The Air-Water heat pump of separate type needs frequent maintenance, therefore can reduce its service life, reduces the reliability of heat pump.

Summary of the invention

One object of the present invention is intended to disclose a kind of water heating apparatus, comprises for the vaporizer of gasified refrigerant and the compressor reducer that is used for compressing the cold-producing medium that is vaporized.Described water heating apparatus comprises condenser, and described condenser comprises water inlet, delivery port, condenser coil and housing.Described condenser comprises that also the volume that is positioned at housing reduces parts, and described volume reduces parts and is configured in the cross-sectional area that reduces water heating volume in housing.Described water heating apparatus also comprises a condenser coil that is adjacent to water heating volume in housing; Be equipped with in described condenser coil and transmit the refrigerating material of coming from compressor reducer, described refrigerating material is used for the water that heating is positioned at the described water heating volume of housing.

In some cases, described water heating volume is to reduce a volume between parts at described housing and described volume.In some cases, heated water mode with similar siphon between described water heating apparatus and water storage tank flows.In some cases, by set the mode that flow rate of water flow is realized described similar siphon between described water heating volume.

In some cases, described water heating apparatus is the part in a kind of integrated water heating apparatus.In some cases, described water heating apparatus is an a kind of part of water heating apparatus of separate type.In the preferred case, described housing is the sidewall of described condenser.In some cases, the described volume that is arranged in housing reduces parts the water of a volume being adjacent to described condenser sidewall is carried out local heat, described local heat makes between described water heating apparatus and described water storage tank and produces density contrast, flows to realize hydrocone type.

Under some conditions, described water heating apparatus is without pump.In some cases, described condenser coil is surrounded on described housing.

Another object of the present invention is intended to disclose a kind of method that produces hot water, comprises obtaining a heat pump, and described heat pump comprises a condenser, and described condenser comprises water inlet, delivery port and condenser coil; Parts are set in condenser, and described parts are configured in the cross-sectional area of the water heating volume that reduces in condenser; Realize that between condenser and water storage tank hydrocone type flows.

In some cases, described method comprises heating water and makes its mode with similar siphon increase along the condenser coil in condenser.

Another object of the present invention is intended to disclose a kind of method that adopts the heat pump condenser heating water, and described method comprises:

Obtain a temperature data; Adjustment as required enters the flow rate of water flow of heat pump condenser; The water that will be at the temperature that needs is delivered in water storage tank from heat pump condenser.

In some cases, the current between heat pump and water storage tank adopt the hydrocone type type of flow.In some cases, the regulatory function of execution to flow rate of water flow in water storage tank.

Another object of the present invention is intended to disclose a kind of heat pump condenser system for heating water, comprising: be used for obtaining the sensor unit with temperature correlation information; An adjustment that is used for as required enters the adjuster of the water yield of heat pump; One is conveyed into the output channel of water storage tank for the water that will reach the temperature that needs from heat pump.In some cases, described adjuster is a valve.In some cases, described adjuster is a pump.

Another object of the present invention is intended to disclose a kind of water heating apparatus, comprising: a condenser; A volume that is positioned at housing reduces parts, and described parts are configured in the cross-sectional area that reduces the water heating volume in condenser.

Description of drawings

For the non-limiting embodiment of foregoing invention purport, will be to be described with reference to following specific embodiment and form by reference to the accompanying drawings.Following accompanying drawing does not illustrate the true ratio of object usually, and any size in figure all should be regarded as specific embodiment rather than necessary restriction of the present invention.Same or analogous parts can be identical symbol or letter designation.

Figure 1A is the schematic diagram of integrated Air-Water heat pump of the prior art;

Figure 1B is the schematic diagram of separate type Air-Water heat pump of the prior art;

Fig. 2 is the schematic diagram according to the separate type water heating system of embodiments of the invention;

Fig. 3 is according to the condenser schematic diagram in the separate type water heating system of embodiments of the invention;

Fig. 4 has the schematic diagram of the condenser of annular space according to embodiments of the invention;

Fig. 5 is the schematic diagram according to the water heating integration system of embodiments of the invention;

Fig. 6 is located at the cross sectional representation of the integrated water heating system of the condenser coil in housing according to including of embodiments of the invention;

Fig. 7 is the cross sectional representation according to the integrated water heating system of embodiments of the invention.

The specific embodiment

The defective of the challenge that possesses skills of heat pump of the prior art needs all water in the heating water storage tank when being family expenses.Another technical challenge is how to avoid using pumping the water in the condenser of heating water is delivered to water storage tank or how avoids using pumping that water storage tank is delivered in the condenser of heating water.

In embodiments of the invention, provide a kind of technical scheme: a kind of Air-Water heat pump comprises the condenser that is connected with water storage tank.This condenser comprises that housing and a volume reduce parts, and this volume reduces the volume that parts are used for reducing water heating in condenser.This volume reduces the cross-sectional area that parts reduce above-mentioned water heating volume.This volume reduces parts and is positioned at housing.In certain embodiments, reduce to produce between parts a volume for water is heated in housing sidewall and volume.In certain embodiments, the water in above-mentioned volume flows with siphon mode between water storage tank and water heating apparatus disclosed by the invention (as the condenser of water heating apparatus).

Air-Water heat pump disclosed in this invention and condenser have promoted the efficient of water heating and will be reduced to the time of " shower for the first time " time.The time of above-mentioned " shower for the first time " can be defined as heating water appropriate amount rather than must be a large amount of and be heated to suitable temperature for user's shower.

Figure 2 shows that a kind of separate type system be used to adding hot fluid according to embodiments of the invention.This system 100 connects a water storage tank 150.This system can adopt the mode that natural flow or hydrocone type flow to make water flow in water storage tank 150 between system 100 and water storage tank 150.Above-mentioned water storage tank 150 can be the water storage tank of family expenses formula.This system 100 comprises condenser 105, and condenser 105 adopts the mode of natural flow to flow to water storage tank 150 for use in the self cooling condenser 105 of water.In certain embodiments, the process that flows to water storage tank 150 in the self cooling condenser 105 of water can adopt the mode (not shown) of pumping.In the system of a separate type, condenser 105 comprises that housing 170 and a volume reduce parts 160.In embodiments of the invention as shown in Figure 2, water is heated in the volume 165 that reduces at housing 170 and volume between parts 160, for example in condenser 105.Housing 170 can be the sidewall of condenser 105.In certain embodiments, the length of housing 170 reduces the length of parts 160 greater than volume.The water that heated flow to water storage tank 150 by the first pipeline 130 from the water heating volume 165 that reduces between parts 160 at housing 170 and volume.

System 100 further comprises be used to the compressor reducer 110 that compressed refrigerant is provided; This compressed refrigerant flows to a refrigeration coil 120 by compressor reducer pipeline 108 from compressor reducer 110.This refrigeration coil 120 can be looped around around condenser 105.This refrigeration coil 120 receives cold-producing medium in compressor reducer 110, cold-producing medium is used for the water of heats cold condenser 105.Refrigeration coil 120 can reduce between parts 160 at housing 170 and volume.This refrigeration coil 120 also can be positioned on the inwall or outer wall that volume reduces parts 160.The water that this volume reduces in volume that 160 pairs of parts are adjacent to condenser 105 sidewalls carries out local heat.This Local Heating Process is made density contrast and is flowed with the hydrocone type that realizes water between system 100 and water storage tank 150.

System 100 further comprises a vaporizer 140.This vaporizer 140 is connected with the liquid outlet of refrigeration coil 120.The liquid that vaporizer 140 vaporizations are exported by refrigeration coil 120, and by pipeline 134, the aforesaid liquid that is vaporized is delivered to compressor reducer 110, compressor reducer 110 absorbs from the gas of vaporizer 140 outputs.So as seen, system 100 sees it is a system that seals with respect to atmospheric environment from the angle of gas and liquid flow.

System 100 connects water storage tank 150 by two pipelines.Wherein the water in the first pipeline 130 outwards flow to fluid from system 100 and allots piece 150.Include the liquid that enters system 100 from water storage tank 150 in second pipe 132.

According to embodiments of the invention, Figure 3 shows that the condenser in the heating system that is included in a kind of natural flow formula in embodiments of the invention.This condenser 200 comprises an import 220, and this import enters condenser 200 as water etc. for liquid, for example enters condenser 200 from water storage tank.Above-mentioned condenser 200 further comprises an outlet 230, and this outlet for example enters water storage tank as outflow condenser 200(such as water for liquid from condenser 200).

This condenser 200 comprises that further a housing and a volume reduce

parts.Sidewall

224 and 234 defines the profile of housing, and

sidewall

226 and 236 defines the profile that volume reduces parts.In certain embodiments, the water in condenser 200 is reduced to flow in volume that parts limit by housing and volume in condenser 200, for example flows in the first volume 222 that the sidewall 224 of the sidewall 226 that is reduced parts by volume and housing limits.Flow in the second volume 222 that water in condenser 200 also can limit at the sidewall 234 of the sidewall 236 that is reduced parts by volume and housing.In the situation that other, water can reduce to flow in parts at volume.

In certain embodiments, water flows with siphon mode between condenser 200 and water storage tank.Storage tank can be water storage tank 150.When current flowed with siphon mode, condenser 200 disclosed in this invention can be realized above-mentioned siphon mode.

In certain embodiments, the water heating volume is set to be adjacent to the refrigeration coil 250 that contains refrigerating material.Refrigerating material temperature in refrigeration coil 250 is higher than the water in condenser, and offers the hydro-thermal contact in condenser.

In certain embodiments, the condenser 200 in water heating apparatus disclosed in this invention need not pump and gets final product heating water, and to make pump be no longer indispensable parts because reduce by volume thermal siphon stream that parts produce.It should be noted, this water heating apparatus also can be equipped with a pump that is used for regulating flow rate of water flow between water heating apparatus and water storage tank.

As shown in Figure 4, according to embodiments of the invention, condenser comprises an annular space.This condenser comprises an import 410, and water flows to import 410 by water inlet pipe 405 from water storage tank.This condenser also comprises one near the bottom 420 of the bottom 430 of import 410 and close import 410, and water flows to the bottom from water inlet pipe 405.This condenser 400 comprises a refrigeration coil 422 that contains refrigerating material.Condenser further comprises an outlet 460, and the water in condenser enters outlet pipe 465 and finally enters water storage tank from outlet.Condenser comprises that housing 440 and volume reduce parts 425.This volume reduces parts 425 and is positioned at housing 440.It can be coaxial that housing 440 and volume reduce parts 425.By import 410 with export that axis between 460 determines, so volume reduces the length of parts 425 less than the length of housing 440 due to length.In some cases, housing is the sidewall of condenser.In certain embodiments, the volume top that reduces parts 425 seals.

In certain embodiments, the water in condenser 400 flows reduced the volume that parts 425 limit by housing 440 and volume in.Flowing like this can be that hydrocone type between condenser and water storage tank flows.In certain embodiments, when water heating apparatus is the heat pump of separate type, can adopt a pump to regulate flow rate of water flow between condenser and water storage tank.

Condenser 400 makes between water heating apparatus and water storage tank and produces siphon jet.In some cases, above-mentioned siphon jet realizes by the annular space in the volume that is reduced parts 425 by housing 440 and volume and limit.This annular space produces the flow between condenser 400 and water storage tank, and realizes the thermal convection current of condenser 400 interior current, to substitute the heat conduction.

Volume reduces parts 425 and can be made of plastics, and is used for reducing being reduced by housing 440 and volume the cross-sectional area of the water flow circuit of the volume that parts 425 limit.Volume reduces convection current that parts 425 provide a reinforcement to promote from refrigeration coil 422 to the heat transmission that is reduced the water in space that parts 425 limit by housing 440 and volume.The total condensation of cold-producing medium has been guaranteed in the above-mentioned heat transmission that gets a promotion, to guarantee relatively low back pressure on compressor reducer.

Be illustrated in figure 5 as the cross sectional representation of a kind of integrated water heating apparatus in embodiments of the invention.This water heating apparatus comprises

outside coverage rate

600 and 607 shells as miscellaneous part in condenser and water heating apparatus.Housing is positioned at shell.This housing is limited by sidewall 615 and 616.In integrated firing equipment, the function of this housing is equivalent to water storage tank.This water heating apparatus comprises that further a volume reduces parts.This volume reduces parts and is limited by sidewall 620 and 622.The sidewall 620 that volume reduces parts with are connected with the sidewall 615 of housing with are connected the side and are connected, that is to say that sidewall 620 is not connected with top or the bottom of main volume 666 with being connected.In embodiment as shown in Figure 6, refrigeration coil 610,612 is around around above-mentioned housing.

Cold water in main volume 666 enters as shown in the

figure volume

640 and 642 with the direction of arrow 630 and 633.

Volume

640 and 642 reduces parts by housing and volume and limits.In certain embodiments, in integrated water heating apparatus volume reduce

parts sidewall

620 and 622 as volume 640,642 and main volume 666 between separation.

Adopt refrigeration coil

610 and 612 heating water in

volume

640 and 642, and the water that will be heated is subsequently sent into the top 682 of main volume 666.Because the water that was heated is accumulated in top 682, so top 682 stores the temperature of water higher than storing the temperature of water in main volume 666.The past upper reaches of the water that was heated and their density are reducing.Separate 662 and 664 for the top that stops

current direction volume

640 and 642.

In certain embodiments, in integrated water heating apparatus, water flows out from

volume

640 and 642, and by adjuster of a pipeline flow-direction, and subsequently from adjuster through a pipeline flow-direction top 682.This adjuster can be located at the inside of

outside coverage rate

600 and 607, adjuster 671 as shown in FIG..Water flows out from

volume

640 and 642, and flows to adjuster 671 by pipeline 673, and water flows to top 682 through piping 675 from adjuster 671 subsequently.Adjuster also can be arranged on the outside of

outside coverage rate

600 and 607, for example adjuster shown in figure 650.Water flows out from

volume

640 and 642, flows to adjuster 650 by pipeline 655, flows to top 682 through piping 653 from adjuster 650 subsequently.Above-mentioned adjuster can be valve or pump.Valve can be used for reducing to flow to from

volume

640 and 642 flow rate of water flow on top 682, and pump can increase above-mentioned flow velocity.Adjuster also can be arranged on the inside of

outside coverage rate

600 and 607 and the outside of main volume 666 simultaneously.

Figure 6 shows that according to embodiments of the invention, include the cross sectional representation of the integrated water heating apparatus of the refrigeration coil that is positioned at enclosure interior.Water heating apparatus as shown in Figure 6 comprises an outside coverage rate 700.According to embodiments of the invention illustrated in fig. 6, the volume of water heating use limits by housing with for the parts that reduce this water heating volume cross section and forms.Water storage tank is limited by sidewall 710 and 712 and forms, the water heating volume by sidewall 710,712 and sidewall 740,742 between limit.Sidewall 740 and 742 is the parts be used to the parts that reduce water heating volume cross section.For example, water is by the sidewall 710 of housing be used for reducing the volume 730 that the sidewall 740 of the parts of water heating volume cross section limits and be heated.In the disclosed preferred embodiment as Fig. 6, refrigeration coil 720 is positioned at volume 730.Water is heated and leaves volume 730 by an outlet pipe 743 along the refrigeration coil 720 in volume 730 and flows to water storage tank.Outlet pipe 743 is connected with an adjuster 745, and this adjuster is used for the flow rate of water flow between volume adjusted 730 and water storage tank.This adjuster connects water storage tank by an adjuster pipeline 748.Similar, water is by the sidewall 712 of housing be used for reducing the volume 732 that the sidewall 742 of the parts of water heating volume cross section limits and be heated.In the disclosed embodiments of the invention as Fig. 6, refrigeration coil 722 is arranged in volume 732.Water is heated along the refrigeration coil 722 in volume 732, and current are separated 752 and stop.Finally, the water in volume 732 leaves volume 732 by the outlet pipe 743 of volume 730.Firing equipment further comprises vaporizer and the compressor reducer that is positioned at the zone 770 of separating with water storage tank.

Be illustrated in figure 7 as the cross sectional representation according to a kind of integrated water heating apparatus of embodiments of the invention.This equipment as shown in Figure 7 comprises an outside coverage rate 800.According to Fig. 7 the disclosed embodiments, the volume of water heating use is positioned at parts, and these parts are limited by

sidewall

835 and 833 and form, and is used for reducing the cross-sectional area that water heats the volume 820 of use.Water storage tank comprises a central volume 840, and water flows to volume 820 along the arrow 810 shown in figure and 812 from this volume 840.In the disclosed embodiment as Fig. 7, refrigeration coil 815 is arranged in volume 820.Water is heated and leaves volume 820 by an outlet pipe 830 along the refrigeration coil 815 in volume 820 and flows to storage tank.This outlet pipe 830 can connect an adjuster (not shown).

The present invention further is intended to disclose a kind of system and method for regulating the flow rate of water flow between heating system and water storage tank according to preferred embodiment.Said system and method can reduce the water yield of heating water, and for example the water yield of " shower for the first time ", also can reduce the heat time heating time of the above-mentioned water yield of heating, and need not to heat the water yield in whole water storage tank.The method of above-mentioned adjusting flow rate of water flow comprises the data of obtaining with temperature correlation.The said temperature data can be obtained by a thermometer.With the data of temperature correlation can be, such as, temperature outside the temperature in water storage tank, water heating apparatus etc.In some cases, desirable temperature is a constant value, and this system only detects the temperature of the water in water storage tank.In some other situation, system detects the outer atmospheric temperature of water storage tank.

Said method further comprises according to the said temperature data regulates the flow rate of water flow that enters heat pump condenser.Selectable, the method also can be used for regulating the flow rate of water flow from the condenser to the water storage tank.Can adopt an adjuster to regulate flow velocity.Temperature as required can increase or reduce flow velocity.Above-mentioned adjuster can be arranged on inside or the outside of water storage tank.This adjuster can be the mechanical module of the adjusting flow rate of water flow commonly used of a valve, a pump or other those skilled in the art.Above-mentioned valve can be a magnetic valve.

Although content disclosed by the invention is described in detail according to above-mentioned specific embodiment; to those skilled in the art; should recognize that being equal to that all utilizations specification of the present invention and diagramatic content done replace and the resulting scheme of apparent variation, all should be included in protection scope of the present invention.In addition, can adapt to the various improvement of special circumstances or material in the scope that does not exceed necessity of the present invention.Therefore, content disclosed in this invention is limited by above-mentioned preferred embodiment, but delimits according to claims of the present invention.

Claims

1. water heating apparatus comprises:

A vaporizer that is used for gasified refrigerant;

A compressor reducer that is used for compressing the described cold-producing medium that is vaporized;

A condenser, described condenser comprise import, outlet, housing and the refrigeration coil that includes refrigerating material;

A volume reduces parts, and described volume reduces parts and is arranged in described housing; Described volume reduces the current cross-sectional area that parts are configured in the space that reduces in described condenser to be used for the water heating.

2. water heating apparatus as claimed in claim 1, is characterized in that, described condenser comprises a volume that is used for the water heating, and described volume reduces parts by described housing and described volume and limits.

3. water heating apparatus as claimed in claim 1, is characterized in that, the water that was heated mode with similar siphon between described water heating apparatus and water storage tank flows.

4. water heating apparatus as claimed in claim 1, is characterized in that, described water heating apparatus is the part of an integrated water heating apparatus.

5. water heating apparatus as claimed in claim 1, is characterized in that, described water heating apparatus is the part of a separate type water heating apparatus.

6. water heating apparatus as claimed in claim 1, is characterized in that, described volume reduces parts and is positioned at described housing, and offer the function of the water local heat in a volume of the sidewall that is adjacent to described condenser.

7. water heating apparatus as claimed in claim 1, is characterized in that, described water heating apparatus is without pump.

8. a method that produces hot water, is characterized in that, comprising:

Obtain a heat pump, described heat pump comprises a condenser, and described condenser comprises water inlet, delivery port, housing and refrigeration coil;

Parts are set in described condenser, and described parts are configured in the cross-sectional area in the space that reduces in described condenser to be used for the water heating;

Produce siphon jet between described condenser and a water storage tank.

9. method as claimed in claim 8, is characterized in that, comprises heating water and make its rising that described refrigeration coil is realized in the mode of similar siphon in the condenser pipe.

10. the method for a heating water in heat pump condenser, is characterized in that, described method comprises:

Obtain the temperature correlation data;

Regulate the flow rate of water flow that enters in described heat pump condenser according to described temperature correlation data;

Provide from described heat pump condenser according to the described flow rate of water flow of regulating and flow to the water that possesses ideal temperature a water storage tank.

11. method as claimed in claim 10 is characterized in that, the current between described heat pump condenser and described water storage tank adopt the hydrocone type mode to flow.

12. method as claimed in claim 10 is characterized in that, regulates described flow rate of water flow at the delivery port of described water storage tank.

13. the system of a heating water in heat pump condenser is characterized in that, comprising:

A sensor unit, described sensor unit is used for obtaining the temperature correlation data;

An adjuster, described adjuster is for the water flow of the temperature correlation data adjusting heat pump condenser that obtains according to described sensor unit;

An outlet pipe, described outlet pipe is used for providing the water that possesses ideal temperature that flow to described water storage tank from described heat pump condenser.

14. system as claimed in claim 13 is characterized in that, described adjuster is a valve.

15. system as claimed in claim 13 is characterized in that, described adjuster is a pump.

16. a water heating apparatus is characterized in that, comprising:

A condenser;

A volume that is positioned at housing reduces parts, and described volume reduces the cross-sectional area that parts are configured in the space that reduces in described condenser to be used for the water heating.