CN104534597B - A kind of depth is drawn the natural energy of subsoil water and drives air regulator circulating water air conditioner - Google Patents

Abstract

A kind of depth is drawn the natural energy of subsoil water and drives air regulator circulating water air conditioner, belongs to indoor temperature adjustment equipment field, and in particular to a kind of that the water air-conditioning that water circulation adjusts temperature is carried out using ground source energy and solar energy.It is characterized in that including geothermal source and air regulator cooling system, air regulator cooling system has the water circulation and wind energy heat exchange function of traditional water air-conditioning concurrently, the temperature difference of subsoil water and indoor environment can so be made full use of, avoid unnecessary machine interior circulation heat loss, subsoil water whole cyclic processes indoors are in air regulator, sufficient heat exchange is carried out by some capillary radiating tubes and surrounding space, heat or refrigeration more preferably.The setting of vacuum water drawing device, water air-conditioning is overcome in the non-serviceable defect in the relatively low arid area of groundwater level, improve the lift of water pump, using the principle of vacuum relay negative pressure-pumping, subsoil water is progressively drawn in circulation line, structure design is exquisite rationally, greatly reduces using for water air-conditioning and limits.

Description

A kind of depth is drawn the natural energy of subsoil water and drives air regulator circulating water air conditioner

Technical field

The invention belongs to indoor temperature adjustment equipment field, and in particular to a kind of to enter water-filling using ground source energy and solar energy Circulation adjusts the water air-conditioning of temperature.

Background technology

Traditional water air-conditioning is more inflexible by structure, is typically all drawn water into circulation line, then by wind by water pump Fan blowing radiating is freezed.As structure is limited, this water air-conditioning takes up space big larger, and subsoil water is in cyclic process Heat or cold air scatter and disappear also more seriously, and the part for being carried out heat exchange by the wind drive of fan is limited, and using effect is also significantly Discount.

And traditional water air-conditioning relies on the supply of subsoil water, and is limited to pump head, the relatively low arid of part level of ground water Area, the popularization of water air-conditioning are severely limited.Even if also regional level of ground water meets use requirement, but water quality is inclined Firmly, the circulation line of water air-conditioning is that dirty is serious using the short period, causes service life of equipment extremely short.

Further, since the temperature adjustment effect main determining factor of water air-conditioning is the difference of subsoil water and ground ambient temperature Different, bigger its regulating power of the temperature difference is better.Water air-conditioning is because that summer has wind-force to act in summer using more frequently, even if Subsoil water only has the several years temperature difference with room temperature, and resident family also can substantially feel nice and cool；And in the winter time, heat of the subsoil water through circulation line After amount is scattered and disappeared, far from the demand met for indoor heating.

In sum, many years experimentatioies of applicant Jing, for prior art defect, devise present invention seek to address that on State problem.

The content of the invention

The technical problem to be solved is to provide the natural energy driving air regulator circulation that a kind of depth draws subsoil water Water air-conditioning, can realize inhaling radiating using water source circulation, by pulser, adjusting room temperature realizes that ultromotivity rotation dissipates Heat, the more traditional water air-conditioning of structure are simpler rationally, take up room little and energy-saving；

Second goal of the invention of the present invention is to be drawn using geothermal source water source using vacuum water drawing device, and is raised To desired height, simple structure power consumption is low；

3rd goal of the invention of the present invention is to filter de-mineralized water source by water-softening plant, prevents water air-conditioning duct from accumulating Dirt, effectively extends whole machine service life；

4th goal of the invention of the present invention is can to provide heat energy to recirculated water by solar-electricity hot systems, moreover it is possible to given Whole system provides electric energy.

The technical solution adopted for the present invention to solve the technical problems is：The natural energy that a kind of depth draws subsoil water is provided Drive air regulator circulating water air conditioner, it is characterised in that including geothermal source and air regulator cooling system, geothermal source connects wind by high-pressure pump Window cooling system；Described air regulator cooling system includes air regulator and air regulator rotary pushing device；

Air regulator includes carriage and some capillary radiating tubes, and the medial extremity of carriage arranges water inlet, outside carriage Side section arranges outlet, and the liquid feeding end of capillary radiating tube connects the water inlet of carriage, the liquid outlet connection of capillary radiating tube The outlet of support frame；

Also include vacuum water drawing device, vacuum water drawing device include suction pump, the first vacuum chamber ..., N vacuum chambers and Vacuum suction house steward, opens up water inlet, outlet, air inlet and aspirating hole on each vacuum chamber, arranges on water inlet Water intaking valve, arranges outlet valve on outlet, and intake valve is arranged on air inlet, and extraction valve is arranged on aspirating hole；Suction pump The water inlet of the first vacuum chamber is connected up by suction hose, the outlet of the first vacuum chamber connects the second vacuum by suction hose The water inlet of room ..., the outlet of N-1 vacuum chambers connect the water inlet of N vacuum chambers；Vacuum suction house steward is by pumping Be in charge of, tie point open and close valve is set gradually between vacuum suction house steward and pumping are in charge of Door ..., N branch roads opening and closing valve.

A kind of depth of the present invention is drawn the natural energy of subsoil water and drives air regulator circulating water air conditioner, it is characterised in that Road opening and closing valve includes air bag valve plug, and air bag valve plug is hollow gasbag；Just pumping is being in charge of and vacuum suction house steward's docking port Opposite vacuum suction house steward tube wall on slideway mouth is set, one end of air bag valve plug is inserted in slideway mouth, air bag valve plug The other end connects institute to being evacuated the inwall be in charge of by spring；Outlet is set back to below the one end in pumping direction in air bag valve plug Mouthful；After the vacuum chamber corresponding to air bag valve plug and pumping are in charge of to be evacuated, the gas in air bag valve plug is sucked, and band is taken offence The movement closing of capsule valve plug to pumping be in charge of, after vacuum chamber air inlet corresponding to air bag valve plug, air bag valve plug is in spring bullet Under power effect, it is mobile open to pumping be in charge of.

Water intaking valve, outlet valve, intake valve, extraction valve and branch road opening and closing valve can also be electromagnetic valve.

Air regulator rotary pushing device includes pulser, and pulser includes runner pipe and pulse tube, runner pipe and pulse Pipe is all connected with the liquid outlet of high-pressure pump；Water side of the water inlet of carriage by the pin connection pulser runner pipe that links, The outlet of support frame is arranged on outlet pipe by bearing；The water inlet end of pulser runner pipe passes through swivel joint and high-pressure pump Drain pipe be connected；Runner is set on the outer wall of the runner pipe of pulser, runner storehouse is set on pulse tube, runner is arranged on In runner storehouse, runner pipe is mutually perpendicular to pulse tube；Elastic cuffs valve is set in pulse tube, elastic cuffs valve includes being provided with The elasticity collection liquid capsule of elastic cuffs, bottom of the elastic cuffs just to runner, when the intracapsular fluid streams of elastic liquid collecting, elastic liquid collecting Capsule starts expansion, and when being expanded into the limit, elastic cuffs valve is softened, and liquid stream promotes runner by spouting in elastic cuffs valve Rotate with runner pipe, so as to drive air regulator to rotate.

Also include pulse arm, the water inlet end of elasticity collection liquid capsule, pulse in the liquid feeding end connection pulse tube of pulse arm The liquid outlet of pipe is arranged between the runner storehouse of pulse tube and elastic cuffs valve.

Also include water softening system, water softening system is arranged between air regulator cooling system and geothermal source；Water softening system Including liquid storage sump, heat-insulation layer is set in liquid storage sump；Water inlet and outlet are set on liquid storage sump, and water inlet passes through Water pump connects geothermal source, and outlet connects pulser by high-pressure pump；In liquid storage sump, soft water runner, soft water runner are set Including central bus pipe, central bus Gutron crosses positive displacement pump of the pipeline connect setting outside liquid storage sump；Central bus Gutron mistake Backflow arm connection electro-osmosis water strainer, electro-osmosis water strainer includes the infiltration housing of both ends open, in one end of infiltration housing Minus plate and cavity block are installed from inside to outside, positive plate and anode membrane are installed from inside to outside in the other end of infiltration housing, in minus plate With water hole is opened up on positive plate；The cavity that wherein negative electrode is encircled a city with anode connects backflow arm；Also include rotary electric machine, rotate electricity Machine is arranged on the outer wall of liquid storage sump, and rotary electric machine connects central bus pipe by rotary shaft, and soft water runner can be driven to revolve Turn.

Also include solar-electricity hot systems, solar-electricity hot systems include heater；

Described heater includes glass vacuum tube solar energy energy heater, oil conservator, circulating pump and heat exchanger, wherein changing Hot device includes inner shell chamber and outer shell cavity, outer shell cavity parcel inner shell chamber；Solar heater connects oil conservator and heat exchange by pipeline The outer shell cavity of device, and closing heating circulation system is constituted, oil base circulation fluid is injected in the heating circulation system pipeline of closing； It is raised that the inner side in outer shell cavity parcel inner shell chamber arranges flow-disturbing；Inlet and liquid outlet, the feed liquor in inner shell chamber are set on inner shell chamber Mouth connects the outlet of air regulator carriage by intake pump, and the liquid outlet in inner shell chamber connects pulser runner pipe by going out water pump Water inlet end and evacuated tube.

Also include insulation vacuum tank, insulation vacuum tank is arranged on out between the water inlet end of water pump and pulser runner pipe.

Solar-electricity hot systems also include electrical energy devices, and described electrical energy devices include solar panel and accumulator, Solar panel connects accumulator, and accumulator connects high-pressure pump, water pump, rotary electric machine, circulating pump, intake pump and goes out water pump.

The invention has the beneficial effects as follows：

1. the air regulator cooling system of this equipment has the water circulation and wind energy heat exchange function of traditional water air-conditioning concurrently, can so fill Point using subsoil water and indoor environment temperature difference, it is to avoid unnecessary machine interior circulation heat loss, subsoil water indoors complete Portion's cyclic process in air regulator carries out sufficient heat exchange by some capillary radiating tubes and surrounding space, heats or freeze It is better.And air regulator structure is placed on ceiling or above wall, ground material-putting space, compact conformation reality are not take up With design science is reasonable.

2. from pulser, when the intracapsular fluid streams of elastic liquid collecting, elasticity collects the rotary power of air regulator cooling system Liquid capsule start expansion, when being expanded into the limit, elastic cuffs valve is softened, liquid stream by spouting in elastic cuffs valve, using height The hydrodynamic force accumulation of press pump is converted into impulsive force, promotes runner and the rotation of runner pipe, so as to drive air regulator to rotate.Its afterpulse Current in pipe can continue to press on runner and the rotation of runner pipe, when air regulator will stop, elastic cuffs within a certain period of time Valve can continue jet water course, promote air regulator persistently to rotate.The power resources of this structure, need not extra driving in high-pressure pump surplus energy Equipment, deft design rationally, meet energy-saving development trend.

3. the setting of vacuum water drawing device, overcomes water air-conditioning non-serviceable in the relatively low arid area of groundwater level Defect, improves the lift of water pump, using the principle of vacuum relay negative pressure-pumping, subsoil water is progressively drawn into circulation line In, structure design is exquisite rationally, greatly reduces using for water air-conditioning and limits.

4. the present invention carries out the softening and cleaning of water quality using electroosmose process principle, in one end of infiltration housing from inside to outside Minus plate and cavity block are installed, electro-osmosis water strainer installs positive plate and anode membrane, cavity block from inside to outside in the other end of infiltration housing The anion and cation in subsoil water can be filtered out with anode membrane, the two forms concentrated water by central bus manifold stream, by pipe Positive displacement pump of the road connect setting outside liquid storage sump discharges liquid storage sump, leaves the softened water after filtering, enter in liquid storage sump Enter the blood circulation of water air-conditioning, it is to avoid water quality partially hard or severe underground water pollution cycle of erosion pipeline, extend whole machine Service life.Due to the effect of heat-insulation layer during purification, temperature keeps constant to subsoil water, does not interfere with ensuing heat Exchange process.

5. solar-electricity hot systems not only can be provided for system and reserve power, moreover it is possible to heat the oil in grease trap in the winter time Base circulation fluid, heat not easy to lose characteristic little using oil base circulation fluid specific heat, is carried out with the recirculated water in air regulator cooling system Heat exchange, makes recirculated water be wrapped and wherein carry out post bake, until meeting the temperature requirements of heat supply in winter.It is this to following The mode of heating of ring water, oil base circulation fluid closing system in heat cycles, substantially without Insulation, heat scatter and disappear it is little, And solar heater long service life, than directly using solar energy energy heat cycles water also economy, energy-conservation.Flow-disturbing projection Setting can lead recirculated water to carry out dynamic heat exchange in inner shell intracavity upset mixed flow, make being uniformly heated for recirculated water.

Description of the drawings

Fig. 1 is the device composition schematic diagram of the present invention；

Fig. 2 is the structural representation of vacuum water drawing device；

Fig. 3 is the partial enlarged drawing of Fig. 2；

Fig. 4 is the structural representation of water softening system；

Fig. 5 is the structural representation of electro-osmosis water strainer；

Fig. 6 is the structural representation of air regulator；

Fig. 7 is the A of Fig. 6 to structural representation；

Fig. 8 is the structural representation of pulser；

Fig. 9 is the B-B direction structural representation of Fig. 8；

Figure 10 is the structural representation of heat exchanger；

Figure 11 is the partial structural diagram of solar-electricity hot systems；

In figure：1st, vacuum suction house steward；2nd, the 3rd air bag valve plug；3rd, the second air bag valve plug；4th, the first air bag valve plug；5th, One pumping is in charge of；6th, spring；7th, the second pumping is in charge of；8th, spring；9th, the 3rd pumping is in charge of；10th, spring；11st, the 3rd vacuum chamber； 12nd, extraction valve；13rd, water intaking valve；14th, extraction valve；15th, water intaking valve；16th, extraction valve；17th, water intaking valve；18th, the first vacuum chamber；19、 Intake valve；20th, outlet valve；21st, the second vacuum chamber；22nd, intake valve；23rd, outlet valve；25th, intake valve；26th, outlet valve；27th, draw Water pump；28th, suction hose；29th, liquid storage sump；30th, central bus pipe；31st, water inlet；32nd, electro-osmosis water strainer；33rd, backflow Pipe；35th, positive displacement pump；36th, outlet；37th, seep water housing；38th, anode membrane；39th, positive plate；40th, inlet；41st, minus plate；42、 Cavity block；43rd, outer shell cavity；44th, carriage；45th, capillary radiating tube；46th, bearing；47th, outlet；48th, runner pipe；49th, runner storehouse； 50th, the drain pipe of high-pressure pump；51st, swivel joint；52nd, runner；53rd, water inlet；54th, elastic cuffs valve；55th, elasticity collection liquid capsule； 56th, pulse arm；57th, liquid outlet；58th, flow-disturbing is raised；60th, oil conservator；61st, solar panel；62nd, solar heater； 63rd, inner shell chamber.

Specific embodiment

The present invention is described in further detail with specific embodiment below in conjunction with the accompanying drawings.

As shown in figure 1, including vacuum water drawing device, air regulator cooling system, water softening system, solar electrothermal in the present invention Four part of system.After subsoil water is drained out by vacuum water drawing device, soften through the insulation of water softening system, into air regulator radiating be System carries out heat exchange with indoor environment.If in summer, the subsoil water heated up after heat exchange can be expelled directly out, it can also be used to Life daily water consumption.If in the winter time, subsoil water can enter solar heater 62 after one cycle, post bake is carried out Afterwards, entering back into interior carries out heat radiation heating, also can be expelled directly out over numerous cycles or for life daily water consumption.

The structure and function mode of each several part of the present invention is as follows：

As shown in Fig. 2 vacuum water drawing device includes suction pump 27, the first vacuum chamber 18, the second vacuum chamber 21, the 3rd vacuum Room 11 and vacuum suction house steward 1, open up water inlet, outlet, air inlet and aspirating hole on each vacuum chamber, enter at each Water intaking valve is set on the mouth of a river, outlet valve is set on each outlet, intake valve is set on each air inlet, in each pumping Extraction valve is set on hole.Suction pump 27 connects up the water inlet 17 of the first vacuum chamber 18, the first vacuum chamber by suction hose 28 18 outlet 20 connects the connection of outlet 23 the of the water inlet 15 of the second vacuum chamber 21, the second vacuum chamber 21 by suction hose The water inlet 13 of three vacuum chambers 11.Vacuum suction house steward 1 is in charge of by pumping and connect respectively each vacuum chamber, in vacuum suction house steward 1 and pumping be in charge of between set gradually branch road opening and closing valve.

Water intaking valve, outlet valve, intake valve, extraction valve and branch road opening and closing valve can adopt electromagnetic valve.Or, also can be such as figure Shown in 3, branch road opening and closing valve can also adopt air bag valve plug, and air bag valve plug is hollow gasbag；Take out with vacuum being just in charge of to pumping Slideway mouth is set on the tube wall of the opposite vacuum suction house steward 1 of 1 docking port of gas house steward, one end of air bag valve plug is inserted into slideway mouth In, the other end of air bag valve plug connects institute to being evacuated the inwall being in charge of by spring；Air bag valve plug back to pumping direction one End lower section arranges gas outlet.

When in use, each branch road opening and closing valve is in the state opened to vacuum water drawing device, and vacuum suction house steward 1 couple is each Vacuum chamber carries out evacuation operation.First vacuum chamber 18 and the first pumping be in charge of 5 be evacuated after, in the first air bag valve plug 4 Gas is sucked, drive the first air bag valve plug 4 movement closing to first pumping be in charge of 5, extraction valve 16 is closed, and is then opened Water intaking valve 17, under suction function, the subsoil water in suction hose is inhaled in the first vacuum chamber 18, when liquid is full of the first vacuum Behind room 18, water intaking valve 17 is closed；At the same time the second vacuum chamber 21 is also at vacuum state, and the closing of the second air bag valve plug 3 second is taken out Edema caused by disorder of QI pipe 7, extraction valve 14 are closed.Now, the outlet valve 20, air inlet of the water intaking valve 15 of the second vacuum chamber 21 and the first vacuum chamber 18 Valve 19 is opened simultaneously, and the subsoil water in the first vacuum chamber 18 is introduced in the second vacuum chamber 21.When corresponding to the first air bag valve plug 4 The 18 water outlet air inlet of the first vacuum chamber after, the first air bag valve plug 4 under the elastic force effect of spring 5, it is mobile open to first Pumping is in charge of 5, completes once to draw lifting process, circulates in this way, and underground water energy is drawn in last vacuum chamber, And enter water softening system.

As shown in Figures 4 and 5, water softening system includes liquid storage sump 29, in liquid storage sump 29 arranges heat-insulation layer；In liquid storage Water inlet 31 and outlet 36 are set on sump 29, and water inlet 31 connects geothermal source by water pump, and outlet 36 passes through high-pressure pump Connection pulser；Soft water runner is set in liquid storage sump 29, soft water runner includes central bus pipe 30, central bus pipe 30 Positive displacement pump 35 by pipeline connect setting outside liquid storage sump 29；Central bus pipe 30 connects electro-osmosis by the arm 33 that flows back Water strainer 32, electro-osmosis water strainer 32 include the infiltration housing 37 of both ends open, pacify in one end of infiltration housing 37 from inside to outside Dress minus plate 41 and cavity block 42, install positive plate 39 and anode membrane 38 in the other end of infiltration housing 37, from inside to outside in minus plate 41 and positive plate 39 on open up water hole；The cavity that wherein negative electrode is encircled a city with anode connects backflow arm 33；Also include rotary electric machine, Rotary electric machine is arranged on the outer wall of liquid storage sump 29, and rotary electric machine connects central bus pipe 30 by rotary shaft, and can drive Soft water runner rotates.

Water softening system carries out softening and cleaning, cavity block 42 and the anode membrane of water quality using electroosmose process principle in running 38 can filter out anion and cation in subsoil water, and the two confluxes to form concentrated water by central bus pipe 30, by pipeline Positive displacement pump 35 of the connect setting outside liquid storage sump 29 discharges liquid storage sump 29, and the softening after filtering is left in liquid storage sump 29 Water, into the air regulator cooling system of water air-conditioning, it is to avoid water quality partially hard or severe underground water pollution cycle of erosion pipeline.

As Figure 6-9, air regulator cooling system includes air regulator and pulser.

As shown in Figures 6 and 7, air regulator includes carriage 44 and some capillary radiating tubes 45, and the medial extremity of carriage 44 sets Water inlet 53 is put, the lateral segment of carriage 44 arranges 47, and the liquid feeding end of capillary radiating tube 45 connects the water inlet 53 of carriage 44, The liquid outlet of capillary radiating tube 45 connects the outlet 47 of carriage 44.

As seen in figs. 6 and 8, pulser includes that runner pipe 48 and pulse tube, runner pipe 48 and pulse tube are all connected with high pressure The liquid outlet of pump；Water side of the water inlet 53 of carriage 44 by the pin connection pulser runner pipe 48 that links, carriage 44 Outlet 47 by bearing 46 be arranged on outlet pipe on；The water inlet end of pulser runner pipe 48 is by swivel joint 51 and height The drain pipe 50 of press pump is connected；Runner 52 is set on the outer wall of the runner pipe 48 of pulser, runner storehouse is set on pulse tube 49, runner 52 is arranged in runner storehouse 49, and runner pipe 48 is mutually perpendicular to pulse tube；In pulse tube, elastic cuffs valve is set 54, elastic cuffs valve 54 includes the elasticity collection liquid capsule 55 for being provided with elastic cuffs, and bullet is worked as in bottom of the elastic cuffs just to runner 52 Property collection liquid capsule 55 in fluid streams when, elasticity collection liquid capsule 55 starts expansion, and when being expanded into the limit, elastic cuffs valve 54 is softened, Liquid stream promotes runner 52 and runner pipe 48 to rotate, so as to drive air regulator to rotate by spouting in elastic cuffs valve 54.

As shown in figure 9, also include pulse arm 56, elasticity collection liquid capsule 55 in the liquid feeding end connection pulse tube of pulse arm 56 Water inlet end, the liquid outlet of pulse arm 56 is arranged between the runner storehouse 49 of pulse tube and elastic cuffs valve 54.

Air regulator cooling system has the water circulation and wind energy heat exchange function of traditional water air-conditioning concurrently, can so make full use of underground The temperature difference of water and indoor environment, it is to avoid unnecessary machine interior circulation heat loss, subsoil water whole cyclic processes indoors In air regulator, sufficient heat exchange is carried out by some capillary radiating tubes 45 and surrounding space, heat or refrigeration more preferably. And air regulator structure is placed on ceiling or above wall, ground material-putting space is not take up, compact conformation is practical, design science Rationally.

The rotary power of air regulator cooling system is from pulser, when fluid streams in elasticity collection liquid capsule 55, elasticity collection Liquid capsule 55 starts expansion, and when being expanded into the limit, elastic cuffs valve 54 is softened, liquid stream by spouting in elastic cuffs valve 54, Impulsive force is converted into using the hydrodynamic force accumulation of high-pressure pump, promotes runner 52 and runner pipe 48 to rotate, so as to drive air regulator to rotate. Current in its afterpulse arm 56 can continue to press on runner 52 within a certain period of time and runner pipe 48 rotates, when air regulator will During stopping, elastic cuffs valve 54 can continue jet water course, promote air regulator persistently to rotate.

The subsoil water that cycle heat exchange is finished in air regulator cooling system, directly can discharge or for living daily in summer Water；In the winter time, then solar-electricity hot systems can be entered, carries out post bake.

As shown in FIG. 10 and 11, described solar-electricity hot systems, solar-electricity hot systems include heater and electric energy Device two parts.

Described heater includes glass vacuum tube solar energy energy heater 62, oil conservator 60, circulating pump and heat exchanger, its Middle heat exchanger includes inner shell chamber 63 and outer shell cavity 43, the parcel inner shell of outer shell cavity 43 chamber 63；Solar heater 62 is connected by pipeline The outer shell cavity 43 of oil conservator 60 and heat exchanger is connect, and constitutes closing heating circulation system, in the heating circulation system pipeline of closing Middle injection oil base circulation fluid；The inner side that inner shell chamber 63 is wrapped up in outer shell cavity 43 arranges flow-disturbing projection 58.Arrange on inner shell chamber 63 Inlet 40 and liquid outlet 57, the inlet 40 in inner shell chamber 63 connect the outlet 47 of air regulator carriage 44 by intake pump, interior The liquid outlet 57 in shell chamber 63 connects the water inlet end and evacuated tube of pulser runner pipe 48 by going out water pump.Due to oil base circulation fluid Expanded by heating is than larger, therefore the unsuitable overfill of the oil reserve in oil conservator 60, and oil supply volume expansion provides space.And oil conservator 60 On air bleeding valve, overflow valve should be set and into and out of oil pipe, it is convenient to refuel and oil extraction operation, also can be when oil body excessively expands, in time Oil extraction exhaust decompression, it is to avoid peril occurs.

Also include insulation vacuum tank, be incubated vacuum tank be arranged on out water pump and pulser runner pipe 48 water inlet end it Between, voltage stabilizing water-retention can be played a part of, the heating water source of pressure stability can be provided for air regulator cooling system.

Described electrical energy devices include solar panel 61 and accumulator, and the connection accumulator of solar panel 61 stores Battery can provide electric energy for all of pump housing and electric equipment in system.

Solar-electricity hot systems not only can be provided for system and reserve power, moreover it is possible to heat the oil base in grease trap in the winter time Circulation fluid, heat not easy to lose characteristic little using oil base circulation fluid specific heat, carries out heat with the recirculated water in air regulator cooling system Exchange, make recirculated water be wrapped and wherein carry out post bake, until meeting the temperature requirements of heat supply in winter.It is this to circulation The mode of heating of water, oil base circulation fluid closing system in heat cycles, substantially without Insulation, heat scatter and disappear it is little, and And 62 long service life of solar heater, than directly using solar energy energy heat cycles water also economy, energy-conservation.Flow-disturbing projection 58 Setting recirculated water upset mixed flow in the inner shell chamber 63 can be led to carry out dynamic heat exchange, make being uniformly heated for recirculated water.

The mentality of designing of the present invention is rushed energy-saving angle completely and is set out, the driving energy of a complete set of equipment can it is self-supporting from Foot, fully meets the demand of modern society's sustainable development, suitably popularizes.

It is pointed out that above-mentioned embodiment is only the preferred embodiment of the invention, it is common for the art It is for technical staff, on the premise of operation principle of the present invention is met, any to be equal to or similar replacement, each fall within the present invention's In protection domain.

Claims (8)

1. a kind of depth draws the natural energy driving air regulator circulating water air conditioner of subsoil water, it is characterised in that including geothermal source and air regulator Cooling system, geothermal source connect air regulator cooling system by high-pressure pump；Described air regulator cooling system includes air regulator and air regulator rotation Turn pushing meanss；

Air regulator includes carriage and some capillary radiating tubes, and the medial extremity of carriage arranges water inlet, the lateral segment of carriage Outlet is set, and the liquid feeding end of capillary radiating tube connects the water inlet of carriage, the liquid outlet connection carriage of capillary radiating tube Outlet；

Also include vacuum water drawing device, vacuum water drawing device include suction pump, the first vacuum chamber ..., N vacuum chambers and vacuum Pumping house steward, opens up water inlet, outlet, air inlet and aspirating hole on each vacuum chamber, and water inlet is arranged on water inlet Valve, arranges outlet valve on outlet, and intake valve is arranged on air inlet, and extraction valve is arranged on aspirating hole；Suction pump passes through Suction hose connects up the water inlet of the first vacuum chamber, and the outlet of the first vacuum chamber connects the second vacuum chamber by suction hose Water inlet ..., the outlet of N-1 vacuum chambers connect the water inlet of N vacuum chambers by suction hose；The total Gutron of vacuum suction Cross pumping and be in charge of and connect respectively each vacuum chamber, tie point open and close valve is set gradually between vacuum suction house steward and pumping are in charge of Door ..., N branch roads opening and closing valve；

Air regulator rotary pushing device includes pulser, and pulser includes runner pipe and pulse tube；Runner pipe and pulse tube are equal The liquid outlet of connection high-pressure pump；Water side of the water inlet of carriage by the pin connection pulser runner pipe that links, carriage Outlet by bearing be arranged on outlet pipe on；The water inlet end of pulser runner pipe is gone out by swivel joint and high-pressure pump Liquid pipe is connected；Runner is set on the outer wall of the runner pipe of pulser, runner storehouse is set on pulse tube, runner is arranged on runner In storehouse, runner pipe is mutually perpendicular to pulse tube；Elastic cuffs valve is set in pulse tube, and elastic cuffs valve includes arranging flexible The elasticity collection liquid capsule of closing in, bottom of the elastic cuffs just to runner, when the intracapsular fluid streams of elastic liquid collecting, elasticity collection liquid capsule is opened Begin to expand, when being expanded into the limit, elastic cuffs valve is softened, liquid stream is promoted runner and turned by spouting in elastic cuffs valve Wheel pipe rotation, so as to drive air regulator to rotate.

2. a kind of depth according to claim 1 draws the natural energy driving air regulator circulating water air conditioner of subsoil water, its feature It is that branch road opening and closing valve includes air bag valve plug, air bag valve plug is hollow gasbag；Just pumping is being in charge of and vacuum suction house steward Slideway mouth is set on the tube wall of the opposite vacuum suction house steward of docking port, and one end of air bag valve plug is inserted in slideway mouth, air bag The other end of valve plug connects institute to being evacuated the inwall be in charge of by spring；Set back to below the one end in pumping direction in air bag valve plug Put gas outlet；After the vacuum chamber corresponding to air bag valve plug and pumping are in charge of to be evacuated, the gas in air bag valve plug is sucked, Drive the movement closing of air bag valve plug to pumping be in charge of, after vacuum chamber air inlet corresponding to air bag valve plug, air bag valve plug exists Under spring force effect, it is mobile open to pumping be in charge of.

3. a kind of depth according to claim 1 draws the natural energy driving air regulator circulating water air conditioner of subsoil water, its feature It is that water intaking valve, outlet valve, intake valve, extraction valve and branch road opening and closing valve is electromagnetic valve.

4. a kind of depth according to Claims 2 or 3 draws the natural energy driving air regulator circulating water air conditioner of subsoil water, and which is special It is also to include pulse arm to levy, the water inlet end of elasticity collection liquid capsule, pulse arm in the liquid feeding end connection pulse tube of pulse arm Liquid outlet be arranged between the runner storehouse of pulse tube and elastic cuffs valve.

5. a kind of depth according to claim 4 draws the natural energy driving air regulator circulating water air conditioner of subsoil water, its feature It is also to include water softening system, water softening system is arranged between air regulator cooling system and geothermal source；Water softening system includes Liquid storage sump, arranges heat-insulation layer in liquid storage sump；Water inlet and outlet are set on liquid storage sump, and water inlet passes through water pump Connection geothermal source, outlet connect pulser by high-pressure pump；Soft water runner is set in liquid storage sump, soft water runner includes Central bus pipe, central bus Gutron cross positive displacement pump of the pipeline connect setting outside liquid storage sump；Central bus Gutron crosses backflow Arm connects electro-osmosis water strainer, and electro-osmosis water strainer includes the infiltration housing of both ends open, in one end of infiltration housing by interior And minus plate and cavity block are installed outward, positive plate and anode membrane are installed from inside to outside in the other end of infiltration housing, in minus plate and sun Water hole is opened up on pole plate；The cavity that wherein negative electrode is encircled a city with anode connects backflow arm；Also include rotary electric machine, rotary electric machine peace It is mounted on the outer wall of liquid storage sump, rotary electric machine connects central bus pipe by rotary shaft, and soft water runner can be driven to rotate.

6. a kind of depth according to claim 5 draws the natural energy driving air regulator circulating water air conditioner of subsoil water, its feature It is also to include solar-electricity hot systems, solar-electricity hot systems include heater；

Described heater includes glass vacuum tube solar energy energy heater, oil conservator, circulating pump and heat exchanger, wherein heat exchanger Including inner shell chamber and outer shell cavity, outer shell cavity parcel inner shell chamber；Solar heater connects oil conservator and heat exchanger by pipeline Outer shell cavity, and closing heating circulation system is constituted, oil base circulation fluid is injected in the heating circulation system pipeline of closing；In shell It is raised that the inner side in chamber parcel inner shell chamber arranges flow-disturbing；Inlet and liquid outlet are set on inner shell chamber, and the inlet in inner shell chamber leads to The outlet that intake pump connects air regulator carriage is crossed, the liquid outlet in inner shell chamber connects entering for pulser runner pipe by going out water pump Water end (W.E.) and evacuated tube.

7. a kind of depth according to claim 6 draws the natural energy driving air regulator circulating water air conditioner of subsoil water, its feature It is also to include insulation vacuum tank, insulation vacuum tank is arranged on out between the water inlet end of water pump and pulser runner pipe.

8. a kind of depth according to claim 7 draws the natural energy driving air regulator circulating water air conditioner of subsoil water, its feature It is that solar-electricity hot systems also include electrical energy devices, described electrical energy devices include solar panel and accumulator, the sun Energy cell panel connection accumulator, accumulator connect high-pressure pump, water pump, rotary electric machine, circulating pump, intake pump and go out water pump.