CN104864519A - Water energy conversion system - Google Patents

Abstract

The invention relates to a water energy conversion system. The water energy conversion system at least comprises a control unit, an air-water energy conversion device, a water supply device and a water storage tank, wherein the water supply device supplies water for different purposes through collecting and conveying of various water resources; the water storage tank and the air-water energy conversion device operate to realize effective energy conversion and reutilization with water as a basis and a carrier for energy conversion; the high-efficiency cooling and heat removal or absorbing processes are performed with the lowest energy consumption and water consumption, circulating water is cooled, further, the cooling efficiency of the circulating water is improved, or the circulating water absorbs heat to realize temperature rise in a building, the water energy conversion system is used for air energy conversion of inner and outer environments of the building and energy adjustment and supply, further, multiple functions of water storage, water supply, disaster prevention, energy saving and energy storage are exerted, energy of the water resources is converted into energy required by the building and reutilized, and localized application and balance of water and energy are realized.

Description

Water resource energy conversion system

Technical field

The present invention has about a kind of water resource energy conversion system, this espespecially a kind of water that utilizes is as the system of power conversion, reach the recycling of water resource and energy conversion thus, simultaneously with the consumption of lowest energy consumption and water, carry out high efficiency cooling thermal discharge, and as the air energy conversion of building internal and external environment and the source of energy adjustment, supply, and then play water storage, supply water, take precautions against natural calamities and the multi-functional of energy storage, effective execution utilize water resource be converted to the energy groundization application with balance.

Background technology

Because earth resource is limited, the mankind without restraint exhaustive exploitation with milli immoderate use destroy under, global warming climatic variation extreme climate is caused to be shaped, and derivative violent disaster keeps pouring in, the result that various natural disaster constantly occurs, cause human life and property to be subject to serious threat, even some area faces the crisis that can occupy nowhere; Thus knowledgeable people is in order to save the ecology of the earth, and continuous initiated call environmental protection and the importance of saving water and energy, the phase can reduce the destruction of the mankind to the Nature, with the arrival preventing mankind's great calamity from shifting to an earlier date.

Water is the carrier of energy on the earth, and by the mode of ocean current and rainfall or snowfall, by tellurian Energy distribution in various places, the activity of the mankind in recent years facilitates extreme climate to be shaped, have a strong impact on the ecology of natural water circulation, coming of rainwater or snow, in the distribution of time and regional context, extreme inequality, dry and floods occur non-rare in same region.

Again as shown in Figure 1, it is the schematic diagram of an existing water resource storage water utilization system 1, it mainly utilizes a water supply installation 11 to provide the supply of various water, and unnecessary water resource collection can be received in an aqua storage tank 12, using the storage as alternate source by this water supply installation 11; But this mode is just received and supply during lack of water at the collection solving water, but cannot further combine or change the recycling of other available power.Moreover, according to the Nature law, under external environment is in lower state (low temperature) situation, building must be in gain of heat state, to maintain the temperature of indoor environment in livable state, and under external environment is in upper state (high temperature) situation, building must be in heat extraction state, to maintain the temperature of indoor environment in livable state, but the condition of human settlements is applicable in order to maintain building, therefore must by the operation of air-conditioning system row against natural environment, namely under external environment is in upper state (high temperature) situation, air conditioner must by interior of building hot type to the outdoor of high temperature, such as be arranged on the air-conditioner set in building, its running opportunity and natural environment contrary, the used heat discharged is in natural environment hotter period, the used heat of its required discharge is more on the contrary, thus cause the thermal pollution of environment more serious, and above-mentioned various conservation measures, effectively can not solve the problem of interior of building power conversion, so that used heat still continues to pollute environment, more do not know the conversion of how to use running opportunity, these used heat is made effective recycling.And under external environment is in lower state (low temperature) situation, building must rely on air conditioner, to the use of the external environment acquisition thermal source supply heating of house of low temperature, and the act of this violation nature, the practice expending very much the energy in fact, the arch-criminal of global warming especially.

Due in building internal and external environment, namely containing various available resource and energy, the therefore planning of air-conditioning system, with the internal energy balance of building own for considering, just should can reach the target in ground balance, but unluckily so far without good solve scheme.

Summary of the invention

In view of the bottleneck that current water resource and energy source use run into, after the present inventor goes through research many times, finally the invention of this case is completed, the i.e. goal of the invention of this case, be to provide a kind of water resource energy conversion system, it is using water as the basis of power conversion, utilize the huge energy storage capacity of water, by energy storage in aqua storage tank, and in conjunction with the running of air water energy conversion apparatus, machine and indoor and outdoor surroundings do heat exchange in due course, except creating indoor environment under healthy comfort conditions, more comply with the nature and keep energy balance relations with the Nature, reach the recycling of water resource and energy conversion thus, with the consumption of lowest energy consumption and water, carry out high efficiency cooling thermal discharge process, recirculated water is obtained cool, and then strengthen the cooling effectiveness of recirculated water, and then air energy conversion and the energy adjustment of building internal and external environment are provided, the cold/heat source of air-conditioning needed for building is provided, and then performance water storage, supply water, take precautions against natural calamities and the multi-functional of energy storage, effective execution utilizes water resource to change applying and balance in groundization of the energy.

For reaching the object of the invention described above, the invention provides a kind of water resource energy conversion system, it at least includes a control unit, an air water energy conversion apparatus, a water supply installation and the aqua storage tank of at least one, wherein:

This control unit, controls the running start of whole system, and is connected with an electric power system;

This air water energy conversion apparatus, includes:

One housing is a hollow cylinder, has a content space in it, and this case top has an exhaust outlet, and this housing perimeter is provided with at least one air inlet;

One cooling fan, is located at the exhaust outlet place of this housing, and is subject to the control of this control unit;

One supervisor row, be located at the below of this cooling fan, it is made up of at least one coil pipe, and the water inlet end of this coil pipe is connected with one first outlet pipe, and the water side of this coil pipe is connected with one first oral siphon;

One air precooling water pipe row, be located at the lower side of this supervisor row, it is made up of at least one coil pipe, and the water inlet end of the coil pipe of this air precooling water pipe row is connected with a main connecting leg, the water side of the coil pipe of this air precooling water pipe row is connected with a sparge pipe, and this sparge pipe is provided with at least one hole for water spraying;

One water evaporimeter, be installed in immediately below this supervisor row, this water evaporimeter is the water smoke refrigerating plant of a generation water evaporation endothermic effect, and at least side of this water evaporimeter is positioned at the sprinkling zone of this sparge pipe, be provided with a water-collecting tray bottom this water evaporimeter, this water-collecting tray connects one and to catchment connecting leg;

One catchments room, be located at the below of this water evaporimeter, it is an airtight room, and be communicated with this water-collecting tray by this connecting leg that catchments, this room that catchments also send the main connecting leg of water connecting leg and this to be connected by one, and this send water connecting leg to be provided with one the 3rd water pump, this room that catchments is provided with a water level sensor and is circumscribed with a filling pipe, this filling pipe is provided with one the 3rd water control valve, this water level sensor, the 3rd water control valve, the 3rd water pump and this control unit line, and controls by this control unit;

This water supply installation, it is a device that water source collection is received and classification uses, all water sources enter this water supply installation by least one water inlet connecting leg, and by one second oral siphon, water is flowed to this aqua storage tank, this second oral siphon is provided with one first water control valve, and this water supply installation, more by one second outlet pipe, uses the water storage in this aqua storage tank to be delivered to this water supply installation, this water supply installation also connects at least one supply channel, to supply needed for various water;

This aqua storage tank is an airtight room, and this aqua storage tank is provided with multiple water inlet and a water level detector, and this water level detector is in order to detect the water storage water level in this aqua storage tank.

Described water resource energy conversion system, wherein, the plurality of water inlet includes one first water inlet, one second water inlet, one the 3rd water inlet and one the 4th water inlet, this first water inlet is connected with this second oral siphon, this second water inlet is connected with this second outlet pipe, 3rd water inlet is connected with this first oral siphon, and the 4th water inlet is connected with this first outlet pipe.

Described water resource energy conversion system, wherein, this second oral siphon is provided with one first water control valve and connects establishes an Outlet Pipe, and this Outlet Pipe is provided with one the 4th water control valve.

Described water resource energy conversion system, wherein, this second outlet pipe is provided with one first water pump and one second water control valve.

Described water resource energy conversion system, wherein, this second outlet pipe more connects and establishes a leak-off pipe, this leak-off pipe is provided with one the 5th water control valve.

Another embodiment of water resource energy conversion system of the present invention, it is specially adapted to the weather of high temperature (more than 28 DEG C) or low temperature (less than 15 DEG C), utilize the powerful energy storage characteristic of water resource, in conjunction with the start of thermal source unit, supply the thermal source needed for the interior space and low-temperature receiver, it at least includes a control unit, an air water energy conversion apparatus, a water supply installation, the aqua storage tank of at least one and the thermal source unit of at least one group, it is characterized in that:

This control unit, is connected with an electric power system;

This air water energy conversion apparatus, includes:

One housing is a hollow cylinder, has a content space in it, and this case top has an exhaust outlet, and this housing perimeter is provided with at least one air inlet, and this air inlet is more close to a filter screen;

One cooling fan, is located at the exhaust outlet place of this housing, and is subject to the control of this control unit;

One supervisor row, be located at the below of this cooling fan, it is made up of at least one coil pipe, and the water inlet end of this coil pipe is connected with one first outlet pipe, and the water side of this coil pipe is connected with one first oral siphon;

One air precooling water pipe row, be located at the lower side of this supervisor row, it is made up of at least one coil pipe, and the water inlet end of the coil pipe of this air precooling water pipe row is connected with a main connecting leg, the water side of the coil pipe of this air precooling water pipe row is connected with a sparge pipe, and this sparge pipe is provided with at least one hole for water spraying;

One water evaporimeter, be installed in immediately below this supervisor row, this water evaporimeter is the water smoke refrigerating plant of a generation water evaporation endothermic effect, and at least side of this water evaporimeter is positioned at the sprinkling zone of this sparge pipe, be provided with a water-collecting tray bottom this water evaporimeter, this water-collecting tray also connects the connecting leg that catchments;

One catchments room, be located at the below of this water evaporimeter, it is an airtight room, and be communicated with this water-collecting tray by this connecting leg that catchments, this room that catchments also send the main connecting leg of water connecting leg and this to be connected by one, and this send water connecting leg to be provided with one the 3rd water pump, this room that catchments is provided with a water level sensor and is circumscribed with a filling pipe, this filling pipe is provided with one the 3rd water control valve, this water level sensor, the 3rd water control valve, the 3rd water pump and this control unit line, and controls by this control unit;

This water supply installation, it is a device that water source collection is received and classification uses, all water sources enter this water supply installation by least one water inlet connecting leg, and by one second oral siphon, water is flowed to this aqua storage tank, this second oral siphon is provided with one first water control valve, this water supply installation is more by one second outlet pipe, use the water storage in this aqua storage tank to be delivered to this water supply installation, this second outlet pipe is provided with one first water pump and one second water control valve, this water supply installation also connects at least one supply channel, to supply needed for various water;

This aqua storage tank, it is an airtight room, it is arranged at subsurface and (also can be located on ground, and its desirable setting area at the bottom of building as basement, or the groundwater reservoir of communal facility), this aqua storage tank is provided with multiple water inlet and a water level detector, and this water level detector is in order to detect the water storage water level in this aqua storage tank, this water level detector and this control unit line, and control by this control unit;

This thermal source unit, its running controls by this control unit, and be connected with this aqua storage tank via one the 3rd outlet pipe, to input recirculated water for should heat source machine group provide (or providing needing awkward silence at a meeting conjunction to carry out cold air) needing thermal field conjunction to carry out heating installation, separately be connected with this aqua storage tank via the 3rd oral siphon, by with this thermal source unit heat exchange after recirculated water reflux in this aqua storage tank.

Described water resource energy conversion system, wherein, the plurality of water inlet includes one first water inlet, one second water inlet, one the 3rd water inlet, one the 4th water inlet, one the 5th water inlet and one the 6th water inlet, this first water inlet is connected with this second oral siphon, this second water inlet is connected with this second outlet pipe, 3rd water inlet is connected with this first oral siphon, 4th water inlet is connected with this first outlet pipe, 5th water inlet is connected with the 3rd oral siphon, 6th water inlet is connected with one the 3rd outlet pipe, 3rd outlet pipe is provided with one the 4th water pump.

Described water resource energy conversion system, wherein, this second oral siphon is provided with one first water control valve and connects establishes an Outlet Pipe, and this Outlet Pipe is provided with one the 4th water control valve.

Described water resource energy conversion system, wherein, this second outlet pipe is provided with one first water pump and one second water control valve.

Described water resource energy conversion system, wherein, this second outlet pipe more connects and establishes a leak-off pipe, this leak-off pipe is provided with one the 5th water control valve.

The invention has the beneficial effects as follows: using water as the basis of power conversion, utilize the huge energy storage capacity of water, by energy storage in aqua storage tank, and in conjunction with the running of air water energy conversion apparatus, machine and indoor and outdoor surroundings do heat exchange in due course, except creating indoor environment under healthy comfort conditions, more comply with the nature and keep energy balance relations with the Nature, reach the recycling of water resource and energy conversion thus, with the consumption of lowest energy consumption and water, carry out high efficiency cooling thermal discharge process, recirculated water is obtained cool, and then strengthen the cooling effectiveness of recirculated water, and then air energy conversion and the energy adjustment of building internal and external environment are provided, the cold/heat source of air-conditioning needed for building is provided, and then performance water storage, supply water, take precautions against natural calamities and the multi-functional of energy storage, effective execution utilizes water resource to change applying and balance in groundization of the energy.

Accompanying drawing explanation

Fig. 1 is the block schematic diagram of existing water storage;

Fig. 2 is composition block schematic diagram of the present invention;

Fig. 3 is air water energy conversion apparatus of the present invention composition schematic diagram;

Fig. 4 is embodiments of the invention schematic diagram;

Fig. 5 is its composition block schematic diagram of another embodiment of the present invention;

Fig. 6 is another embodiment of the present invention embodiment schematic diagram;

Fig. 7 is its start schematic flow sheet of another embodiment of the present invention.

Description of reference numerals: 1-water resource storage water utilization system; 11-water supply installation; 12-aqua storage tank; 2-air water energy conversion apparatus; 20-housing; 201-content space; 202-exhaust outlet; 203-air inlet; 204-filter screen; 21-cooling fan; 22-is responsible for row; 220-coil pipe; 221-water inlet end; 222-water side; 23-cold water pipe is arranged; 230-coil pipe; 231-water inlet end; 232-water side; 24-water evaporimeter; 241-water-collecting tray; 25-catchments room; 251-water level sensor; 21-control unit; 3-water supply installation; 31-second oral siphon; 32-second outlet pipe; 33-supply channel; 34-is intake connecting leg; 35-leak-off pipe; 36-Outlet Pipe; 4,4 '-aqua storage tank; 42-water level detector; 5-control unit; 6-thermal source unit; A-first water inlet; B-second water inlet; C-the 3rd water inlet; D-the 4th water inlet; C1-first water control valve; C2-second water control valve; C3-the 3rd water control valve; C4-the 4th water control valve; C5-the 5th water control valve; P1-first water pump; P2-second water pump; P3-the 3rd water pump; P4-the 4th water pump; L1-first oral siphon; L2-first outlet pipe; L3-overflow pipe; L30-filling pipe; L4-the 3rd oral siphon; L40-sparge pipe; L41-hole for water spraying; L5-the 3rd outlet pipe; L50-catchments connecting leg; The main connecting leg of L6-; L70-send water connecting leg; B-building; B1-ground; E-electric power system; J-blowdown apparatus; K-sterilizer; V-hand-operated valve.

Detailed description of the invention

Referring to shown in Fig. 2, Fig. 3, Fig. 4, is water resource energy conversion system of the present invention, and it at least includes control unit 5, air water energy conversion apparatus 2, water supply installation 3 and the aqua storage tank of at least one 4.

Above-mentioned control unit 5, controls the running start of whole system, and is connected with an electric power system (comprise mains-supplied or other greenly can be powered) E.

Above-mentioned air water energy conversion apparatus 2(refers to shown in Fig. 3), it is in a housing 20, be provided with that row 22 is responsible for by a cooling fan 21, at least one air precooling water pipe row 23, water evaporimeter 24 and catchments room 25.

This housing 20 is a hollow cylinder, has a content space 201 in it, and its top has an exhaust outlet 202, and this housing 20 periphery is provided with at least one air inlet 203, and this air inlet 203 is more close to a filter screen 204.

This cooling fan 21, is located at exhaust outlet 202 place of this housing 20, and is subject to the control of this control unit 5.

This supervisor arranges 22, is located at the below of this cooling fan 21, and it is made up of at least one coil pipe 220, and the water inlet end 221 of this coil pipe 220 is connected with one first outlet pipe L2, and the water side 222 of this coil pipe 220 is connected with one first oral siphon L1.

This air precooling water pipe row 23, be located at the lower side that this supervisor arranges 22, it is made up of at least one coil pipe 230, and the water inlet end 231 of this coil pipe 230 is connected with a main connecting leg L6, the water side 232 of this coil pipe 230 is connected with a sparge pipe L40, and this sparge pipe L40 is provided with at least one hole for water spraying L41.

This water evaporimeter 24, being installed in this supervisor arranges immediately below 22, and it is the water smoke refrigerating plant of a generation water evaporation endothermic effect, and it is at least positioned at the sprinkling zone of this sparge pipe L40 in side, be provided with a water-collecting tray 241 bottom this water evaporimeter 24, this water-collecting tray 241 connects the connecting leg L50 that catchments.

This room 25 that catchments, be located at the below of this water evaporimeter 24, it is an airtight room, and be communicated with this water-collecting tray 241 by this connecting leg L50 that catchments, this room 25 that catchments also send the main connecting leg L6 of water connecting leg L70 and this to be connected by one, this send water connecting leg L70 to be provided with one the 3rd water pump P 3, this room 25 that catchments is provided with a water level sensor 251 and is circumscribed with a filling pipe L30, this filling pipe L30 is provided with one the 3rd water control valve C3, this water level sensor 251, the 3rd water control valve C3, the 3rd water pump P 3 and this control unit 5 line, and control by it.

Above-mentioned water supply installation 3, be that (this water source comprises running water to water source collection receipts, rainwater, recycled water, air conditioner condensate water) and the device used of classifying, all water sources are entered before all water sources of this water supply installation 3(enter by least one water inlet connecting leg 34 and do water treatment), and by one second oral siphon 31, water is flowed to this aqua storage tank 4, this second oral siphon 31 is provided with one first water control valve C1 and connects establishes an Outlet Pipe 36, this Outlet Pipe 36 is provided with one the 4th this valve normality of water control valve C4(and closes, and when rainy season water recovery excessive time, water in this water supply installation 3 needs to be released, now this control unit 5 can control the 4th water control valve C4 and opens, this first water control valve C1 closes), this water supply installation 3 is more by one second outlet pipe 32, use so that the water storage in this aqua storage tank 4 is delivered to this water supply installation 3, this second outlet pipe 32 is provided with one first water pump P 1 and one second water control valve C2, this water supply installation 3 also connects at least one supply channel 33, to supply needed for various water, this second outlet pipe 32 another more connects and establishes a leak-off pipe 35, this leak-off pipe 35 is provided with one the 5th this valve normality of water control valve C5(for closing, and when opening this valve before rainy season or typhoon, for in advance the water in this aqua storage tank 4 being released in advance, be provided in when heavy rain comes and have more moisture storage capacity, reach effect of flood control thus).

Above-mentioned aqua storage tank 4, it is an airtight room, (also can be located on the B1 of ground under it is arranged at ground B1, and its desirable setting area at the bottom of building B as basement, or the groundwater reservoir of communal facility), this aqua storage tank 4 is provided with multiple water inlet a, b, c, d and a water level detector 42, the plurality of water inlet includes one first water inlet a, one second water inlet b, one the 3rd water inlet c and the 4th water inlet d, this first water inlet a is connected with this second oral siphon 31, this second water inlet b is connected with this second outlet pipe 32, 3rd water inlet c is connected with this first oral siphon L1, 4th water inlet d is connected with this first outlet pipe L2, this water level detector 42 is in order to detect the water storage water level in this aqua storage tank 4.

When its cooling fan 21 of above-mentioned air water energy conversion apparatus 2 operates, extraneous air can be entered by air inlet 203, and (water temperature in air precooling water pipe row 23 is lower than the temperature of air to carry out precooling by this air precooling water pipe row 23, when air by time because of heat exchange action, can make air produce cooling precooling), then air inlet enters this water evaporimeter 24, the water sprayed due to sparge pipe L40 blowing water hole L41 can form water smoke, and produce water evaporative effect with air inlet heat exchange, intake air temperature is facilitated to decline rapidly, circulating water flow is when this supervisor arranges 22 its coil pipe 220 simultaneously, also again heat exchange can be carried out with air inlet, after making air inlet obtain second time cooling down, the recirculated water arranged in 22 and its coil pipe 220 by this supervisor compared with the air inlet of low temperature is provided to carry out heat exchange, recirculated water is made to obtain cooling-down effect, recirculated water flows to this aqua storage tank 4 by this first oral siphon L1 again, and carry out heat exchange with the water storage in groove, and make the aquatic products raw food cooling-down effect in aqua storage tank 4, and the recirculated water (i.e. water storage) in this aqua storage tank 4, also can flow into this supervisor via this first outlet pipe L2 arranges in 22, again carry out heat exchange with the air inlet by this water evaporimeter 24.

As for the water-collecting tray 241 bottom this water evaporimeter 24, the water (now water temperature is because declining through water evaporative effect) that this sparge pipe L40 is sprayed on this water evaporimeter 24 received by collection, and flow into this room 25 that catchments by this connecting leg L50 that catchments, the conveying of the 3rd water pump P 3 on water connecting leg L70 is sent again by this, and by this, the water catchmented in room 25 is sent to this air precooling water pipe row 23, after precooling is carried out to the outer gas passed through, flow through this sparge pipe L40 hole for water spraying L41 again and water outlet is sprayed on this water evaporimeter 24, finally being collected by this water-collecting tray 241 takes in into the room 25 that catchments, the water level sensor 251 of this room 25 that catchments then detects inner water level at any time, once water level lower than the water yield set, this control unit 5 can control the 3rd water control valve C3 and open, this filling pipe L30 is utilized to carry out moisturizing, until this water level sensor 251 detects water level inside supplement the water yield reaching setting, this control unit 5 just can control the 3rd water control valve C3 and closes and stop moisturizing.

Air water energy conversion apparatus 2 of the present invention, when this supervisor arranges 22 Inner eycle coolant-temperature gages arrival setting low-temperature values, (this setting low-temperature values can be set according to user demand, generally be set in lower than less than 25 DEG C), this control unit 5 can control the 3rd water pump P 3 and stop start, to stop water evaporating the running strengthening cooling, to reach water saving and energy-saving effect; Separately when this supervisor arranges when 22 Inner eycle coolant-temperature gages arrive setting high temperature values, (this setting high temperature values can be set according to user demand, generally be set in higher than 30 DEG C), this control unit 5 can control the 3rd water pump P 3 accelerated service, with fortified water vaporization cycle ability, promote the operational efficiency of its cooling.

This water supply installation 3 can by collect receipts or unnecessary water, via the conveying of this second oral siphon 31, this aqua storage tank 4 is inputted by this first water inlet a, so when torrential rain, this aqua storage tank 4 can be utilized to transfer the passage dredging flood to, take precautions against natural calamities to reach, supply water and the function of water storage, and the water level detector 42 of this aqua storage tank 4 detect water storage reached setting high water level time, this control unit 5 can control this first water control valve C1 and close stops intaking, and the 4th water control valve C4 opens and releases, when water storage in this aqua storage tank 4 another is lower than setting low water level, this first water control valve of this control unit 5 control C1 opens and carries out moisturizing, in addition, when this water supply installation 3 need use water storage, the first water pump P 1 that this control unit 5 can control on this second outlet pipe 32 operates, second water control valve C2 opens, and the first water control valve C1, 4th water control valve C4 closes, supply water (when not needing to supply water the water storage in aqua storage tank 4 to be sent to this water supply installation 3, this control unit 5 can control this first water pump P 1 and shut down, second water control valve C2 closes, and foot in this aqua storage tank 4, usually only need be kept in building B, the moisture storage capacity of outer energy shift equilibrium, unnecessary water properly can use for this water supply installation 3).

The running of above-mentioned air water energy conversion apparatus 2, building B can be provided the middle season in spring, autumn, or summer, winter temperature (refer to that feeling comfortable temperature most in summer is between 23 DEG C ~ 26 DEG C in the middle temperature range period, winter is 18 DEG C ~ 20 DEG C, the requirement of relative humidity is at 50% ~ 60%RH), its running mode does not need to start any air conditioner cooling or heat supply, only outer gas need be utilized to make power conversion and supplementary fresh air via this air water energy conversion apparatus 2, comfortable indoor environment temperature can be obtained; The running of this air water energy conversion apparatus 2, by day time (or summer) high temperature (more than 28 DEG C), can utilize the water storage of low temperature in aqua storage tank 4 to carry out heat exchange (referring to when summer), then produce pre-heating temperature elevation when winter; Another when mercury dropped in evening, via the power conversion of this air water energy conversion apparatus 2, its water temperature being back to this aqua storage tank 4 also comparatively daytime be low (approximately can at about 20 DEG C), utilize this energy storage mode, can by the water storage compared with low temperature stored by night, there is provided the use carrying out power conversion time daytime high temperature (more than 28 DEG C), by the energy storage effect of this aqua storage tank 4, to supply required cold/heat source in building.

Another when night (or winter) low temperature (less than 15 DEG C), the water storage of higher temperatures in aqua storage tank 4 can be utilized, heat required in supply room, and when daytime temperature is higher, via the power conversion of this air water energy conversion apparatus 2, be back to this aqua storage tank 4 again after heat exchange action, water temperature also comparatively night be high (approximately can at about 20 DEG C), utilize this energy storage mode, can by the water storage of higher temperatures stored by daytime, the use carrying out power conversion time Low Night Temperature (less than 15 DEG C) is provided, the energy storage effect that same is also by this aqua storage tank 4, to supply required cold/heat source in building.

The invention described above is guarantee that recirculated water can not produce the problem of bacterial derivation in this catchments room 25 again, and this room 25 that catchments more can connect a sterilizer K, and this sterilizer K is a quartz burner (or a foul smell machine, an anion machine).

A blowdown apparatus J is connected with bottom the water-collecting tray 241 of the invention described above again, this blowdown apparatus J is more connected with an overflow pipe L3, and be provided with a hand-operated valve V in this overflow pipe L3, when the sewage need got rid of in water-collecting tray 241 and deposit, just open this hand-operated valve V, get rid of and completely can shut this hand-operated valve V; This overflow pipe L3, except providing sewage and sedimental discharge, still can be used as the drainage channel of water-collecting tray 241 overflow.

Refer to shown in Fig. 5 to Fig. 7, for another embodiment of water resource energy conversion system of the present invention, it is specially adapted to the weather of high temperature (more than 28 DEG C) or low temperature (less than 15 DEG C), utilize the powerful energy storage characteristic of water resource, in conjunction with the start of thermal source unit, supply the thermal source needed for the interior space and low-temperature receiver, it at least includes control unit 5, air water energy conversion apparatus 2, water supply installation 3, the aqua storage tank 4 ' of at least one and the thermal source unit 6 of at least one group.

Above-mentioned control unit 5, controls the running start of whole system, and is connected with an electric power system (comprise mains-supplied or other greenly can be powered) E.

Above-mentioned air water energy conversion apparatus 2(refers to shown in Fig. 3), it is in a housing 20, be provided with that row 22 is responsible for by a cooling fan 21, at least one air precooling water pipe row 23, water evaporimeter 24 and catchments room 25.

This housing 20 is a hollow cylinder, has a content space 201 in it, and its top has an exhaust outlet 202, and this housing 20 periphery is provided with at least one air inlet 203, and this air inlet 203 is more close to a filter screen 204.

This cooling fan 21, is located at exhaust outlet 202 place of this housing 20, and is subject to the control of this control unit 5.

This supervisor arranges 22, is located at the below of this cooling fan 21, and it is made up of at least one coil pipe 220, and the water inlet end 221 of this coil pipe 220 is connected with one first outlet pipe L2, and the water side 222 of this coil pipe 220 is connected with one first oral siphon L1.

This air precooling water pipe row 23, be located at the lower side that this supervisor arranges 22, it is made up of at least one coil pipe 230, and the water inlet end 231 of this coil pipe 230 is connected with a main connecting leg L6, the water side 232 of this coil pipe 230 is connected with a sparge pipe L40, and this sparge pipe L40 is provided with at least one hole for water spraying L41.

This water evaporimeter 24, being installed in this supervisor arranges immediately below 22, and it is the water smoke refrigerating plant of a generation water evaporation endothermic effect, and it is at least positioned at the sprinkling zone of this sparge pipe L40 in side, be provided with a water-collecting tray 241 bottom this water evaporimeter 24, this water-collecting tray 241 also connects one and to catchment connecting leg L50.

This water evaporimeter 24, being installed in this supervisor arranges immediately below 22, and it is the water smoke refrigerating plant of a generation water evaporation endothermic effect, and it is at least positioned at the sprinkling zone of this sparge pipe L40 in side, be provided with a water-collecting tray 241 bottom this water evaporimeter 24, this water-collecting tray 241 also connects the connecting leg L50 that catchments.

Above-mentioned water supply installation 3, be that (this water source comprises running water to water source collection receipts, rainwater, recycled water, air conditioner condensate water) and the device used of classifying, all water sources are entered before all water sources of this water supply installation 3(enter by least one water inlet connecting leg 34 and do water treatment), and by one second oral siphon 31, water is flowed to this aqua storage tank 4 ', this second oral siphon 31 is provided with one first water control valve C1 and connects establishes an Outlet Pipe 36, this Outlet Pipe 36 is provided with one the 4th this valve normality of water control valve C4(and closes, and when rainy season water recovery excessive time, water in this water supply installation 3 needs to be released, now this control unit 5 can control the 4th water control valve C4 and opens, this first water control valve C1 closes), this water supply installation 3 is more by one second outlet pipe 32, use the water storage in this aqua storage tank 4 ' to be delivered to this water supply installation 3, this second outlet pipe 32 is provided with one first water pump P 1 and one second water control valve C2, this water supply installation 3 also connects at least one supply channel 33, to supply needed for various water, this second outlet pipe 32 another more connects and establishes a leak-off pipe 35, this leak-off pipe 35 is provided with one the 5th this valve normality of water control valve C5(for closing, and when opening this valve before rainy season or typhoon, for in advance the water in this aqua storage tank 4 ' being released in advance, be provided in when heavy rain comes and have more moisture storage capacity, reach effect of flood control thus).

Above-mentioned aqua storage tank 4 ', it is an airtight room, (also can be located on the B1 of ground under it is arranged at ground B1, and its desirable setting area at the bottom of building B as basement, or the groundwater reservoir of communal facility), this aqua storage tank 4 ' is provided with multiple water inlet a, b, c, d, e, f and a water level detector 42, the plurality of water inlet includes one first water inlet a, one second water inlet b, one the 3rd water inlet c, one the 4th water inlet d, one the 5th water inlet e and the 6th water inlet f, this first water inlet a is connected with this second oral siphon 31, this second water inlet b is connected with this second outlet pipe 32, 3rd water inlet c is connected with this first oral siphon L1, 4th water inlet d is connected with this first outlet pipe L2, 5th water inlet e is connected with the 3rd oral siphon L4, 6th water inlet f is connected with one the 3rd outlet pipe L5, 3rd outlet pipe L5 is provided with one the 4th water pump P 4, this water level detector 42 is in order to detect the water storage water level in this aqua storage tank 4 ', 4th water pump P 4, water level detector 42 and this control unit 5 line, and control by it.

Above-mentioned thermal source unit 6, its running controls by this control unit 5, and be connected with this aqua storage tank 4 ' via the 3rd outlet pipe L5, to input recirculated water for should heat source machine group 6 provide (or providing needing awkward silence at a meeting conjunction to carry out cold air) needing thermal field conjunction to carry out heating installation, separately be connected with this aqua storage tank 4 ' via the 3rd oral siphon L4, by with this thermal source unit 6 heat exchange after recirculated water reflux in this aqua storage tank 4 '.

When its cooling fan 21 of above-mentioned air water energy conversion apparatus 2 operates, extraneous air can be entered by air inlet 203, and (water temperature in air precooling water pipe row 23 is lower than the temperature of air to carry out precooling by this air precooling water pipe row 23, when air by time because of heat exchange action, can make air produce cooling precooling), then air inlet enters this water evaporimeter 24, the water sprayed due to sparge pipe L40 blowing water hole L41 can form water smoke, and produce water evaporative effect with air inlet heat exchange, intake air temperature is facilitated to decline rapidly, circulating water flow is when this supervisor arranges 22 its coil pipe 220 simultaneously, also again heat exchange can be carried out with air inlet, after making air inlet obtain second time cooling down, the recirculated water arranged in 22 and its coil pipe 220 by this supervisor compared with the air inlet of low temperature is provided to carry out heat exchange, recirculated water is made to obtain cooling-down effect, recirculated water flows to this aqua storage tank 4 by this first oral siphon L1 again, and carry out heat exchange with the water storage in groove, and make the aquatic products raw food cooling-down effect in aqua storage tank 4, and the recirculated water (i.e. water storage) in this aqua storage tank 4, also can flow into this supervisor via this first outlet pipe L2 arranges in 22, again carry out heat exchange with the air inlet by this water evaporimeter 24.

As for the water-collecting tray 241 bottom this water evaporimeter 24, the water (now water temperature is because declining through water evaporative effect) that this sparge pipe L40 is sprayed on this water evaporimeter 24 received by collection, and flow into this room 25 that catchments by this connecting leg L50 that catchments, this is relied on to send the conveying of the 3rd water pump P 3 on water connecting leg L70 again, and by this, the water catchmented in room 25 is sent to this air precooling water pipe row 23, after precooling is carried out to the outer gas passed through, flow through this sparge pipe L40 hole for water spraying L41 again and water outlet is sprayed on this water evaporimeter 24, finally being collected by this water-collecting tray 241 takes in into the room 25 that catchments, the water level sensor 251 of this room 25 that catchments then detects inner water level at any time, once water level lower than the water yield set, this control unit 5 can control the 3rd water control valve C3 and open, this filling pipe L30 is utilized to carry out moisturizing, until this water level sensor 251 detects water level inside supplement the water yield reaching setting, this control unit 5 just can control the 3rd water control valve C3 and closes and stop moisturizing.

Air water energy conversion apparatus 2 of the present invention, when this supervisor arranges 22 Inner eycle coolant-temperature gages arrival setting low-temperature values, (this setting low-temperature values can be set according to user demand, generally be set in lower than less than 25 DEG C), this control unit 5 can control the 3rd water pump P 3 and stop start, to stop water evaporating the running strengthening cooling, to reach water saving and energy-saving effect; Separately when this supervisor arranges when 22 Inner eycle coolant-temperature gages arrive setting high temperature values, (this setting high temperature values can be set according to user demand, generally be set in higher than 30 DEG C), this control unit 5 can control the 3rd water pump P 3 accelerated service, with fortified water vaporization cycle ability, promote the operational efficiency of its cooling.

By means of the composition of said elements, make the present invention except can regulating building B ability at random, have more and initiatively supply air-conditioning cold air, Central Heating Providing ability, namely this air water energy conversion apparatus 2 coordinates the energy conversion of aqua storage tank 4 ', run for preferential with building B internal energy balance transfer, and when energy conversion is under-supply, just initiatively can start this thermal source unit 6 to operate, so greatly can save this thermal source unit 6 to operate electric power, and according to the environmental demand of building B, adjust its air conditioner energy, its drive manner is divided into circulating cold air running mode, heating circulating running mode and middle temperature range running mode (shown in Fig. 7).

Circulating cold air running mode: when Indoor Temperature angle value TA is greater than cold air supply setting value TA1, carry out circulating cold air supply cold air, water storage (i.e. recirculated water) now in this aqua storage tank 4 ', by means of the second water pump P 2 start on this first outlet pipe L2, by water storage transmission class through its air precooling water pipe of this air water energy conversion apparatus 2 row 23, and after carrying out heat exchange with the outer gas passed through, recirculated water is made to obtain cooling, reflux in this aqua storage tank 4 ' by this first oral siphon L1 again, make the water-storage cooling in this aqua storage tank 4 ', the 4th water pump P 4 start of the 3rd outlet pipe L5 is then relied in addition compared with the water storage of low temperature, low temperature water storage is made to be sent to this thermal source unit 6, water storage provides cold/heat source needed for building B for the conversion of this thermal source unit 6 for low-temperature receiver thus, simultaneously this thermal source unit 6 more by the 3rd oral siphon L4 by with its heat exchange after higher temperatures recirculated water reflux in this aqua storage tank 4 ', and the cooling in this aqua storage tank 4 ', for the use of this thermal source unit 6.

Heating circulating mode: when Indoor Temperature angle value TA is lower than Central Heating Providing setting value TA2, carry out heating circulating supply heating installation, water storage (i.e. recirculated water) now in this aqua storage tank 4 ', by the second water pump P 2 start on this first outlet pipe L2, by water storage transmission class through its air precooling water pipe of this air water energy conversion apparatus 2 row 23, and after carrying out heat exchange with the outer gas passed through, recirculated water is obtained heat up, reflux in this aqua storage tank 4 ' by this first oral siphon L1 again, water storage in this aqua storage tank 4 ' is heated up, the water storage of higher temperatures is then by the 4th water pump P 4 start of the 3rd outlet pipe L5 in addition, high temperature water storage is made to be sent to this thermal source unit 6, water storage provides cold/heat source needed for building B for the conversion of this thermal source unit 6 for low-temperature receiver thus, simultaneously this thermal source unit 6 more by the 3rd oral siphon L4 by with its heat exchange after comparatively low-temperature circulating water reflux in this aqua storage tank 4 ', and the intensification in this aqua storage tank 4 ', for the use of this thermal source unit 6.

Middle temperature range running mode: (1) (namely feeling most comfortable indoor temperature in summer is between 23 DEG C ~ 26 DEG C, and winter is 18 DEG C ~ 20 DEG C between the middle temperature range period that Central Heating Providing setting value TA2 and cold air supply between setting value TA1 as Indoor Temperature angle value TA, outdoor environment temperature is then between 15 DEG C ~ 18 DEG C), do not need to start thermal source unit 6 cooling or heat supply, only need utilize the running of this air water energy conversion device 2, comfortable indoor environment temperature can be obtained, its for the energy use and transition cases have: (1) by day (or summer) high temperature (more than 28 DEG C) time, the water storage of low temperature in aqua storage tank 4 ' can be utilized to carry out heat exchange (referring to when summer), then produce pre-heating temperature elevation when winter, another when mercury dropped in evening, via the power conversion of this air water energy conversion apparatus 2, its water temperature being back to this aqua storage tank 4 ' also comparatively daytime be low (approximately can at about 20 DEG C), utilize this energy storage mode, can by the water storage compared with low temperature stored by night, there is provided the use carrying out power conversion time daytime high temperature (more than 28 DEG C), by the energy storage effect of this aqua storage tank 4 ', to supply required cold/heat source in building, (2) another when night (or winter) low temperature (less than 15 DEG C), the water storage of higher temperatures in aqua storage tank 4 ' can be utilized, heat required in supply room, and when daytime temperature is higher, via the power conversion of this air water energy conversion apparatus 2, be back to this aqua storage tank 4 ' again after heat exchange action, water temperature also comparatively night be high (approximately can at about 20 DEG C), utilize this energy storage mode, can by the water storage of higher temperatures stored by daytime, the use carrying out power conversion time Low Night Temperature (less than 15 DEG C) is provided, the energy storage effect that same is also by this aqua storage tank 4 ', to supply required cold/heat source in building B.

The invention described above is guarantee that recirculated water can not produce the problem of bacterial derivation in this catchments room 25 again, and this room 25 that catchments more can connect a sterilizer K, and this sterilizer K is a quartz burner (or a foul smell machine, an anion machine).

A blowdown apparatus J is connected with bottom the water-collecting tray 241 of the invention described above again, this blowdown apparatus J is more connected with an overflow pipe L3, and be provided with a hand-operated valve V in this overflow pipe L3, when the sewage need got rid of in water-collecting tray 241 and deposit, just open this hand-operated valve V, get rid of and completely can shut this hand-operated valve V; This overflow pipe L3, except providing sewage and sedimental discharge, still can be used as the drainage channel of water-collecting tray 241 overflow.

In sum, water resource energy conversion system of the present invention, using water as the basis of power conversion and carrier, air water energy conversion apparatus is utilized to coordinate the aqua storage tank conversion energy, by energy storage in aqua storage tank, and heat exchange is done in machine and indoor in due course, except indoor environment temperature can be maintained under comfort conditions, further can keep energy balance relations with the Nature simultaneously, be particularly suitable for the spring, the middle season in autumn or summer, winter temperature appropriate time periods (gas temperature conditions did not need in the most of the time of air-conditioner operation outside), not needing to start thermal source unit can cooling or heat supply, and in the extreme weather of high temperature (more than 28 DEG C) or low temperature (less than 15 DEG C), utilize the powerful energy storage characteristic of water resource, in conjunction with the start of thermal source unit, supply the thermal source needed for the interior space and low-temperature receiver, comfortable indoor environment temperature can be obtained, to regulate as building inner air and outer air power conversion and the energy, the source of supply, have water storage concurrently again, supply water, take precautions against natural calamities and the function of energy storage, effective execution water resource is converted to the recycling of the energy, and then the application reached on ground and balance.

The specific embodiment proposed in content of the present invention, only in order to convenient, technology contents of the present invention is described, but not the present invention is narrowly limited to above-described embodiment, when not exceeding spirit of the present invention and following claim, the many variations done is implemented, and still belongs to scope of the present invention.

Claims (10)

1. a water resource energy conversion system, it at least includes a control unit, an air water energy conversion apparatus, a water supply installation and the aqua storage tank of at least one, it is characterized in that:

This control unit, is connected with an electric power system;

This air water energy conversion apparatus, includes:

One housing is a hollow cylinder, has a content space in it, and this case top has an exhaust outlet, and this housing perimeter is provided with at least one air inlet;

One cooling fan, is located at the exhaust outlet place of this housing, and is subject to the control of this control unit;

One supervisor row, be located at the below of this cooling fan, it is made up of at least one coil pipe, and the water inlet end of this coil pipe is connected with one first outlet pipe, and the water side of this coil pipe is connected with one first oral siphon;

One air precooling water pipe row, be located at the lower side of this supervisor row, it is made up of at least one coil pipe, and the water inlet end of the coil pipe of this air precooling water pipe row is connected with a main connecting leg, the water side of the coil pipe of this air precooling water pipe row is connected with a sparge pipe, and this sparge pipe is provided with at least one hole for water spraying;

One water evaporimeter, be installed in immediately below this supervisor row, this water evaporimeter is the water smoke refrigerating plant of a generation water evaporation endothermic effect, and at least side of this water evaporimeter is positioned at the sprinkling zone of this sparge pipe, be provided with a water-collecting tray bottom this water evaporimeter, this water-collecting tray connects one and to catchment connecting leg;

One catchments room, be located at the below of this water evaporimeter, it is an airtight room, and be communicated with this water-collecting tray by this connecting leg that catchments, this room that catchments also send the main connecting leg of water connecting leg and this to be connected by one, and this send water connecting leg to be provided with one the 3rd water pump, this room that catchments is provided with a water level sensor and is circumscribed with a filling pipe, this filling pipe is provided with one the 3rd water control valve, this water level sensor, the 3rd water control valve, the 3rd water pump and this control unit line, and controls by this control unit;

This water supply installation, it is a device that water source collection is received and classification uses, all water sources enter this water supply installation by least one water inlet connecting leg, and by one second oral siphon, water is flowed to this aqua storage tank, this second oral siphon is provided with one first water control valve, and this water supply installation, more by one second outlet pipe, uses the water storage in this aqua storage tank to be delivered to this water supply installation, this water supply installation also connects at least one supply channel, to supply needed for various water;

This aqua storage tank is an airtight room, and this aqua storage tank is provided with multiple water inlet and a water level detector, and this water level detector is in order to detect the water storage water level in this aqua storage tank.

2. water resource energy conversion system as claimed in claim 1, it is characterized in that: the plurality of water inlet includes one first water inlet, one second water inlet, one the 3rd water inlet and one the 4th water inlet, this first water inlet is connected with this second oral siphon, this second water inlet is connected with this second outlet pipe, 3rd water inlet is connected with this first oral siphon, and the 4th water inlet is connected with this first outlet pipe.

3. water resource energy conversion system as claimed in claim 1, is characterized in that: this second oral siphon is provided with one first water control valve and connects establishes an Outlet Pipe, and this Outlet Pipe is provided with one the 4th water control valve.

4. water resource energy conversion system as claimed in claim 1, is characterized in that: this second outlet pipe is provided with one first water pump and one second water control valve.

5. water resource energy conversion system as claimed in claim 1, it is characterized in that: this second outlet pipe more connects and establishes a leak-off pipe, this leak-off pipe is provided with one the 5th water control valve.

6. a water resource energy conversion system, it at least includes a control unit, an air water energy conversion apparatus, a water supply installation, the aqua storage tank of at least one and the thermal source unit of at least one group, it is characterized in that:

This control unit, is connected with an electric power system;

This air water energy conversion apparatus, includes:

One housing is a hollow cylinder, has a content space in it, and this case top has an exhaust outlet, and this housing perimeter is provided with at least one air inlet, and this air inlet is more close to a filter screen;

One cooling fan, is located at the exhaust outlet place of this housing, and is subject to the control of this control unit;

One supervisor row, be located at the below of this cooling fan, it is made up of at least one coil pipe, and the water inlet end of this coil pipe is connected with one first outlet pipe, and the water side of this coil pipe is connected with one first oral siphon;

One air precooling water pipe row, be located at the lower side of this supervisor row, it is made up of at least one coil pipe, and the water inlet end of the coil pipe of this air precooling water pipe row is connected with a main connecting leg, the water side of the coil pipe of this air precooling water pipe row is connected with a sparge pipe, and this sparge pipe is provided with at least one hole for water spraying;

One water evaporimeter, be installed in immediately below this supervisor row, this water evaporimeter is the water smoke refrigerating plant of a generation water evaporation endothermic effect, and at least side of this water evaporimeter is positioned at the sprinkling zone of this sparge pipe, be provided with a water-collecting tray bottom this water evaporimeter, this water-collecting tray also connects the connecting leg that catchments;

One catchments room, be located at the below of this water evaporimeter, it is an airtight room, and be communicated with this water-collecting tray by this connecting leg that catchments, this room that catchments also send the main connecting leg of water connecting leg and this to be connected by one, and this send water connecting leg to be provided with one the 3rd water pump, this room that catchments is provided with a water level sensor and is circumscribed with a filling pipe, this filling pipe is provided with one the 3rd water control valve, this water level sensor, the 3rd water control valve, the 3rd water pump and this control unit line, and controls by this control unit;

This water supply installation, it is a device that water source collection is received and classification uses, all water sources enter this water supply installation by least one water inlet connecting leg, and by one second oral siphon, water is flowed to this aqua storage tank, this second oral siphon is provided with one first water control valve, this water supply installation is more by one second outlet pipe, use the water storage in this aqua storage tank to be delivered to this water supply installation, this second outlet pipe is provided with one first water pump and one second water control valve, this water supply installation also connects at least one supply channel, to supply needed for various water;

This aqua storage tank is an airtight room, and this aqua storage tank is provided with multiple water inlet and a water level detector, this water level detector in order to detect the water storage water level in this aqua storage tank, this water level detector and this control unit line, and control by this control unit;

This thermal source unit, its running controls by this control unit, and is connected with this aqua storage tank via one the 3rd outlet pipe, to input recirculated water for should heat source machine group, separately be connected with this aqua storage tank via the 3rd oral siphon, by with this thermal source unit heat exchange after recirculated water reflux in this aqua storage tank.

7. water resource energy conversion system as claimed in claim 6, it is characterized in that: the plurality of water inlet includes one first water inlet, one second water inlet, one the 3rd water inlet, one the 4th water inlet, one the 5th water inlet and one the 6th water inlet, this first water inlet is connected with this second oral siphon, this second water inlet is connected with this second outlet pipe, 3rd water inlet is connected with this first oral siphon, 4th water inlet is connected with this first outlet pipe, 5th water inlet is connected with the 3rd oral siphon, 6th water inlet is connected with one the 3rd outlet pipe, 3rd outlet pipe is provided with one the 4th water pump.

8. water resource energy conversion system as claimed in claim 6, is characterized in that: this second oral siphon is provided with one first water control valve and connects establishes an Outlet Pipe, and this Outlet Pipe is provided with one the 4th water control valve.

9. water resource energy conversion system as claimed in claim 6, is characterized in that: this second outlet pipe is provided with one first water pump and one second water control valve.

10. water resource energy conversion system as claimed in claim 6, it is characterized in that: this second outlet pipe more connects and establishes a leak-off pipe, this leak-off pipe is provided with one the 5th water control valve.