CN206176840U - White formula wind energy heat pump of coldization - Google Patents
White formula wind energy heat pump of coldization Download PDFInfo
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- CN206176840U CN206176840U CN201620769849.XU CN201620769849U CN206176840U CN 206176840 U CN206176840 U CN 206176840U CN 201620769849 U CN201620769849 U CN 201620769849U CN 206176840 U CN206176840 U CN 206176840U
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Abstract
The utility model relates to a wind energy heat pump technical field especially relates to a white formula wind energy heat pump of coldization. A white formula wind energy heat pump of coldization includes that anti -icing fluid sprays aproll device and table cold type air heat exchanger, anti -icing fluid sprays the aproll device and sets up on table cold type air heat exchanger for to spraying anti -icing fluid on table cold type air heat exchanger's coil pipe and the fin. The utility model discloses an utilize anti -icing fluid to spray the aproll device and spray anti -icing fluid on to table cold type air heat exchanger, can realize under the prerequisite that the heat pump did not commutate that his -and -hers watches cold type air heat exchanger cools the defrosting.
Description
Technical field
This utility model is related to wind energy heat pump technical field, more particularly to a kind of cold defrosting type wind energy heat pump.
Background technology
Air-cooled, air source or wind energy heat pump, no matter from properity, energy-saving and environmental protection, easy to use and cost performance etc.
It is many-sided many compared with having the advantages that than any heat pump.However, wind energy heat pump has the defect of fatal common fault:Winter heating is supplied
During heat operation, off-premises station surface cooling air heat exchanger want frosting and also needs defrost, and defrost needs to commutate and by indoor heat reverse pumping
To off-premises station surface cooling air heat exchanger, transconversion into heat frost is carried out to off-premises station surface cooling air heat exchanger using compression heat.Defrost
Indoor heating is caused to supply thermal break;Defrost is finished and still needs to the backspace that commutates, and continues to indoor heating to run.It is above-mentioned by heat defrost
Journey needs frequently repeatedly to carry out, not only large losses heat energy, also results in heating intermittently, makes to indoor heating heat supply
Into unstable and discomfort.If wind energy heat pump can overcome the defect that above-mentioned transconversion into heat frost is present, then the performance of wind energy heat pump
It is that any heat pump is impayable with using value, and application scenario and scope is more wide.
For the problems referred to above, the utility model proposes one kind can solve the problem that existing heat pump winter transconversion into heat frost process because of commutation
Thermal loss and room temperature is caused to reduce the cold defrosting type wind energy heat pump of problem.
Utility model content
The purpose of this utility model is to propose a kind of cold defrosting type wind energy heat pump, can effectively solve existing heat pump and exist
Transconversion into heat frost process is because of room temperature reduction and heat energy loss problem caused by commutation.
It is that, up to this purpose, this utility model is employed the following technical solutions:
A kind of cold defrosting type wind energy heat pump, which includes anti-icing fluid spray aproll device and surface cooling air heat exchanger, described
Anti-icing fluid spray aproll device is arranged on surface cooling air heat exchanger, for coil pipe and fin to surface cooling air heat exchanger
Upper spray anti-icing fluid realizes cold defrost.
Used as a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, the anti-icing fluid spray aproll device includes volume
Formula spray aproll device, drip tray, and connection circulation line therebetween for anti-icing fluid circulation;
Spray nozzle is provided with the positive displacement spray aproll device, the spray nozzle is for surface cooling air heat exchanger
Anti-icing fluid is sprayed on coil pipe and fin or cooling water is sent forth.
Used as a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, the anti-icing fluid spray aproll device includes that table is cold
Tubular type spray aproll device, drip tray at the top of device, and connection circulation line therebetween for anti-icing fluid circulation;
At the top of described surface cooler, tubular type spray aproll device at least sprays aproll device by a tubular type and constitutes, under its pipe
Portion is provided with spray nozzle, and the spray nozzle is for spraying anti-icing fluid to the coil pipe of surface cooling air heat exchanger and fin or sends cooling forth
Water.
Used as a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, the anti-icing fluid spray aproll device includes that table is cold
Tubular type spray aproll device, surface cooler side pipe formula spray aproll device, drip tray at the top of device, and connection surface cooler head tube formula
It is used for anti-icing fluid or cooling water circulation circulation between spray aproll device, surface cooler side pipe formula spray aproll device and drip tray
Pipeline;
At the top of described surface cooler, tubular type spray aproll device at least sprays aproll device by a tubular type and constitutes, under its pipe
Portion is equipped with spray nozzle, and the spray nozzle is for spraying anti-icing fluid to the coil pipe of surface cooling air heat exchanger and fin or sends cooling forth
Water, described surface cooler side pipe formula sprays aproll device at least by side and a tubular type spray aproll device is constituted, the tube side
Portion is equipped with spray nozzle towards coil pipe and fin direction, and spray nozzle is for anti-to surface cooling air heat exchanger one or both sides spray
Freeze liquid or send cooling water forth.
Used as a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, the anti-icing fluid spray aproll device includes adverse current
At the top of formula wind-energy tower, tower air inlet, surface cooler tubular type spray aproll device, tower blower fan and drip tray, and connection drip tray and
At the top of surface cooler between tubular type spray aproll device and for anti-icing fluid or cooling water circulation circulation line;
Described surface cooling air heat exchanger be configured in reverse-flow wind-energy tower below tubular type spray aproll device and
Above tower air inlet, at the top of described surface cooler, tubular type spray aproll device is configured in below tower blower fan and empty in surface cooling
Above gas heat exchanger, described drip tray is configured in the bottom of reverse-flow wind-energy tower, and described tower air inlet is configured in water receiving
Between disk and surface cooling air heat exchanger, at the top of described surface cooler, below tubular type spray aproll device, spray nozzle is configured.
Used as a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, the anti-icing fluid spray aproll device includes crossing current
Formula wind-energy tower, positive displacement spray equipment, tower blower fan, anti-icing fluid and drip tray, and connection positive displacement spray equipment and drip tray
Between be used for anti-icing fluid or cooling water circulation circulation line;
Described surface cooling air heat exchanger be configured in below the positive displacement spray equipment in cross-flow type wind-energy tower and
Above drip tray, described drip tray is configured in the bottom of cross-flow type wind-energy tower, below described positive displacement spray equipment
Configuration spray nozzle.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also including outdoor fan, refrigeration compressor, four-way
Reversal valve, cold-hot wind air conditioning terminal, indoor cold-hot wind heat exchanger, room conditioning blower fan and expansion valve;
One end of described surface cooling air heat exchanger is connected with the b of four-way change-over valve by pipeline, surface cooling air
The other end of heat exchanger is connected with one end of expansion valve by pipeline, described refrigeration compressor exhaust end and four-way change-over valve
The connection of a ends, refrigeration compressor air suction end is connected with the c ends of four-way change-over valve, d ends and the interior cold-hot wind of four-way change-over valve
One end of heat exchanger is connected, and the indoor other end of cold-hot wind heat exchanger is connected with the other end of expansion valve, and described is cold and hot
Wind air conditioning terminal is at least constituted by one.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also store up including recuperation of heat heat exchange coil, recuperation of heat
Water pot, anti-icing fluid drying sublimation pump and anti-icing fluid drying purification coil pipe;
Described recuperation of heat heat exchange coil is configured in recuperation of heat water tank, and its one end is connected with the aerofluxuss of refrigeration compressor
Connect, the other end is connected with a ends of four-way change-over valve, described anti-icing fluid drying sublimation pump one end is connected with recuperation of heat water tank
Connect, the other end and anti-icing fluid are dried one end of purification coil pipe and is connected, the other end of described anti-icing fluid drying purification coil pipe with
Recuperation of heat water tank is connected, and described anti-icing fluid drying purification coil arrangement is in the anti-icing fluid of drip tray.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also including surface cooling air heat exchanger, outdoor wind
Machine, refrigeration compressor, domestic hot-water's water tank, domestic hot-water's heating coil, expansion valve, tap water moisturizing interface and domestic hot-water
Output interface constitutes cold defrosting type wind energy heat pump domestic hot-water or energy storage air conditioner;
Described domestic hot-water's heating coil one end is connected with refrigeration compressor exhaust end, domestic hot-water's heating coil
The other end is connected with one end of expansion valve;
It is connected and supplements tap water with tap water by tap water moisturizing interface, by domestic hot-water's output interface and life
Hot-water heating system connects and supplies domestic hot-water;
When including four-way change-over valve, heat pump is energy storage air conditioner, now, domestic hot-water's water tank composition air-conditioning cold,
Heat medium water water tank, domestic hot-water's output interface and tap water moisturizing interface are connected with air conditioning terminal fan coil system, are constituted
Air conditioning terminal output system.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also including outdoor fan, refrigeration compressor, expansion
Valve, condenser, domestic hot-water's circulating pump, domestic hot-water's water tank, tap water moisturizing interface and domestic hot-water's output interface are constituted
Cold defrosting type wind energy heat pump domestic hot-water or energy storage air conditioner;
One end of described condenser refrigerant side is connected with refrigeration compressor exhaust end, condenser refrigerant side it is another
One end is connected with expansion valve, and one end connection domestic hot-water's water tank of Water in Condenser side, the other end of Water in Condenser side pass through
Domestic hot-water's circulating pump is connected with domestic hot-water's water tank;
It is connected and supplements tap water with tap water by tap water moisturizing interface, by domestic hot-water's output interface and life
Hot-water heating system connects and supplies domestic hot-water.
When including four-way change-over valve, heat pump constitutes energy storage air conditioner, and now, domestic hot-water's water tank constitutes air-conditioning
Hot and cold matchmaker's water water tank, domestic hot-water's output interface and tap water moisturizing interface are connected with air conditioning terminal fan coil system, structure
Into air conditioning terminal output system.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also including outdoor fan, refrigeration compressor, four-way
Reversal valve, expansion valve, condenser, air conditioning terminal circulating pump and fan coil;
One end of one end connecting fan coil pipe of described Water in Condenser side, the other end of Water in Condenser side is by air-conditioning end
End circulating pump is connected with the other end of fan coil.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also including refrigeration compressor, four-way change-over valve, cold
Hot blast air conditioning terminal, indoor cold-hot wind heat exchanger, room conditioning blower fan and expansion valve.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, the heat pump also include recuperation of heat heat exchange coil,
Recuperation of heat water tank, anti-icing fluid drying sublimation pump and anti-icing fluid drying purification coil pipe;
Described recuperation of heat heat exchange coil is configured in recuperation of heat water tank, and its one end is connected with the aerofluxuss of refrigeration compressor
Connect, the other end is connected with a ends of four-way change-over valve, described anti-icing fluid drying sublimation pump one end is connected with recuperation of heat water tank
Connect, the other end and anti-icing fluid are dried one end of purification coil pipe and is connected, the other end of described anti-icing fluid drying purification coil pipe with
Recuperation of heat water tank is connected, and described anti-icing fluid drying purification coil arrangement is in the anti-icing fluid of drip tray.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also including refrigeration compressor, four-way change-over valve, swollen
Swollen valve, condenser, air conditioning terminal circulating pump and fan coil.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also including refrigeration compressor, expansion valve, condensation
Device, domestic hot-water's circulating pump, domestic hot-water's water tank, tap water moisturizing interface and domestic hot-water's output interface constitute cold defrosting type
Wind energy heat pump domestic hot-water or energy storage air conditioner.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also pour out including anti-icing fluid fluid reservoir and anti-icing fluid
Pump;
One end of described anti-icing fluid fluid reservoir sprays aproll device by pipeline and tubular type at the top of surface cooler and is connected, antifreeze
The other end of liquid fluid reservoir is connected with drip tray by pipeline.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also including anti-icing fluid drying purification coil pipe;
The two ends of the anti-icing fluid drying purification coil pipe are connected with the two ends of Water in Condenser side by pipeline respectively.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, refrigeration compressor, four-way change-over valve, cold-hot wind are gone back
It is air conditioning terminal, indoor cold-hot wind heat exchanger, room conditioning blower fan, expansion valve, refrigeration compressor, four-way change-over valve, expansion valve, cold
Hot blast air conditioning terminal, indoor cold-hot wind heat exchanger and room conditioning blower fan constitute the double wind energy heat pump air-conditioning dresses of the tower cold defrost of crossing current
Put.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also including refrigeration compressor, four-way change-over valve, swollen
Swollen valve, condenser, air conditioning terminal circulating pump, fan coil, refrigeration compressor, four-way change-over valve, condenser, expansion valve, air-conditioning
End circulating pump, fan coil constitute the double wind energy heat pump air-conditioning devices of the tower cold defrost of crossing current.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also include being dried by anti-icing fluid fluid reservoir, anti-icing fluid
Dry purification heat exchanger, drying purification heat exchanger secondary pump and drying purification pump of heat exchanger constitute fluid reservoir drying wind energy heat pump
Air-conditioning device.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, by the surface cooling air heat exchanger, refrigeration pressure
Contracting machine, four-way change-over valve, expansion valve and condenser constitute first order heat pump, by refrigeration compressor, condenser, expansion valve, evaporation
Device constitutes second level heat pump, constitutes coupled and heat-exchange closed circuit by coupling cycle pump and pipeline, by air conditioning terminal circulating pump and wind
Machine coil pipe constitutes air conditioning terminal system.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also including cold compressor, expansion valve, condenser,
Refrigeration compressor, condenser, expansion valve, vaporizer, coupling cycle pump, domestic hot-water's circulating pump, domestic hot-water's water tank, originally
Water moisturizing interface and domestic hot-water's output interface constitute cold defrosting type two-stage wind energy heat pump domestic hot-water or energy storage air conditioner.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also pour out including anti-icing fluid fluid reservoir and anti-icing fluid
Pump;
One end of described anti-icing fluid fluid reservoir is sprayed with tubular type at the top of aproll circulating pump and surface cooler is sprayed by pipeline
Aproll device connects, and the other end of anti-icing fluid fluid reservoir is poured out pump by pipeline and anti-icing fluid and is connected with drip tray.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also including coupling cycle tank, by coupling cycle pump,
Pipeline and coupling cycle tank constitute coupling pot type recuperated cycle loop, and air-conditioning end is made up of air conditioning terminal circulating pump and fan coil
End output loop;
One end of described coupling cycle tank one end and one end and Water in Condenser side of Water in Condenser side and fan coil
One end is connected, and the other end Jing pipelines of coupling cycle tank are connected with one end of vaporizer water side, vaporizer water side it is another
End is connected with the other end of Water in Condenser side by coupling cycle pump.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also including accumulation of energy attemperater, and protected by accumulation of energy
Reservoir, energy storage circulation pump and output isolation heat exchanger constitute air-conditioner energy-accumulation device, by air conditioning terminal circulating pump and fan coil
Constitute air conditioning terminal output loop;
One end of described accumulation of energy attemperater and one end of Water in Condenser side, one end of vaporizer water side and Water in Condenser
One end of side is connected, and the other end of accumulation of energy attemperater isolates one end connection of heat exchanger, output isolation heat exchanger with output
The other end be connected with one end of energy storage circulation pump, the other end of energy storage circulation pump with it is Water in Condenser side, vaporizer water side
The other end is connected with the other end of Water in Condenser side.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, pump structure is poured out by anti-icing fluid fluid reservoir and anti-icing fluid
Device is poured out into dilution anti-icing fluid liquid storage, is changed by anti-icing fluid drying purification tank, anti-icing fluid drying heating secondary pump, anti-icing fluid heating
Hot device and anti-icing fluid drying pump of heating constitute dilution anti-icing fluid drying purification heater.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also include by accumulation of energy attemperater, energy storage circulation
Pump and output isolation heat exchanger constitute air-conditioner energy-accumulation device, and air conditioning terminal output is made up of air conditioning terminal circulating pump and fan coil
Loop.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, also including coupling cycle tank, and by coupling cycle
Tank constitutes coupling cycle loop.
As a kind of preferred version of above-mentioned cold defrosting type wind energy heat pump, described anti-icing fluid drying purification coil pipe or antifreeze
Thermal source needed for liquid heating heat exchanger or anti-icing fluid heating heat exchanger can also be electrical heating, remaining used heat, solar energy or boiler hot
Source substitutes.
The beneficial effects of the utility model are:This utility model using to off-premises station surface cooling air heat exchanger, using nothing
Corrosion and to Propylene Glycol of the environment without any pollution or glycerin solution as defrost the cold defrost of media implementation, cold defrost is not
Commutation, heating is needed not to interrupt, cold defrost does not also interfere with the service life of off-premises station surface cooling air heat exchanger.Coldization
Frost is not only able to thoroughly solve the drawbacks described above that existing air source heat pump transconversion into heat frost is present, but also can realize winter frostless system
Heat operation;Summer realizes that water cooling is run, and greatly improves the efficiency of air-cooled heat pump, air source heat pump, makes and more energy-conservation.Due to
Cold defrost eliminates four-way change-over valve, and system need not commutate, therefore, overcome four-way change-over valve and frequently commutate, cause internal hemorrhage due to trauma
Risk, substantially increase it is air-cooled heat and air source heat pump reliability and ruggedness.
Description of the drawings
Fig. 1:It is that the cold defrost of this utility model surface cooling air heat exchanger positive displacement spray aproll is embodied as structural representation
Figure, wherein, Fig. 1 a are the structural representations that surface cooling air heat exchanger sprays that with positive displacement aproll device coordinates, and Fig. 1 b are that table is cold
Formula air heat exchanger sprays the structural representation that aproll device and drip tray coordinate with positive displacement;
Fig. 2:It is that the cold defrost of aproll of tubular type spray is embodied as structure and shows at the top of this utility model surface cooling air heat exchanger
It is intended to, wherein, Fig. 2 a are the structural representations that tubular type spray aproll device coordinates at the top of surface cooling air heat exchanger and surface cooler,
Fig. 2 b are the structural representations that tubular type spray aproll device and drip tray coordinate at the top of surface cooling air heat exchanger and surface cooler;
Fig. 3:It is that this utility model surface cooler head tube and the cold defrost of side pipe formula spray aproll are embodied as structural representation;
Fig. 4:It is that the tower cold defrost of this utility model surface cooling air heat exchanger adverse current is embodied as structural representation;
Fig. 5:It is that the tower cold defrost of this utility model surface cooling air heat exchanger crossing current is embodied as structural representation;
Fig. 6:It is that this utility model surface cooling air heat exchanger head tube and the cold defrost heat pump of both sides tubular type spray aproll are empty
Tune is embodied as structural representation;
Fig. 7:It is that the cold defrost heat pump air conditioner of this utility model surface cooling air heat exchanger positive displacement spray aproll is embodied as
Structural representation;
Fig. 8:It is that the cold defrost heat pump air conditioner of tubular type spray aproll is specifically real at the top of this utility model surface cooling air heat exchanger
Apply structural representation;
Fig. 9:This utility model surface cooling air heat exchanger head tube and the cold defrost recuperation of heat heat of both sides tubular type spray aproll
Pump air-conditioning is embodied as structural representation;
Figure 10:It is the cold defrost heat recovery heat pump air conditioner tool of this utility model surface cooling air heat exchanger positive displacement spray aproll
Body implements structural representation;
Figure 11:It is the cold defrost heat recovery heat pump air conditioner of tubular type spray aproll at the top of this utility model surface cooling air heat exchanger
It is embodied as structural representation;
Figure 12:It is that the cold defrost heat-pump hot-water of this utility model surface cooling air heat exchanger positive displacement spray aproll or accumulation of energy are empty
Device is adjusted to be embodied as structural representation;
Figure 13:It is the cold defrost heat-pump hot-water of tubular type spray aproll or accumulation of energy at the top of this utility model surface cooling air heat exchanger
Air-conditioning device is embodied as structural representation;
Figure 14:It is this utility model surface cooling air heat exchanger head tube and the cold defrost Heat Pump of both sides tubular type spray aproll
Water or energy storage air conditioner are embodied as structural representation;
Figure 15:It is the cold defrost hot water of tubular type spray aproll or energy accumulation air conditioner at the top of this utility model surface cooling air heat exchanger
Device is embodied as structural representation;
Figure 16:It is that the cold defrost heat pump air conditioner of this utility model surface cooling air heat exchanger positive displacement spray aproll is embodied as
Structural representation;
Figure 17:It is that the cold defrost heat pump air conditioner of tubular type spray aproll is specifically real at the top of this utility model surface cooling air heat exchanger
Apply structural representation;
Figure 18:This utility model surface cooling air heat exchanger head tube and the cold defrost heat pump air conditioner of both sides tubular type spray aproll
It is embodied as structural representation;
Figure 19:It is that the cold defrost double stage heat pump air-conditioning of this utility model surface cooling air heat exchanger positive displacement spray aproll is concrete
Implement structural representation;
Figure 20:It is the cold defrost double stage heat pump air-conditioning tool of tubular type spray aproll at the top of this utility model surface cooling air heat exchanger
Body implements structural representation;
Figure 21:This utility model surface cooling air heat exchanger head tube and the cold defrost double stage heat pump of both sides tubular type spray aproll
Air-conditioning is embodied as structural representation;
Figure 22:It is the cold defrost double stage heat pump hot water of this utility model surface cooling air heat exchanger positive displacement spray aproll or storage
Energy air-conditioning device is embodied as structural representation;
Figure 23:It is that this utility model surface cooling air heat exchanger tower cold defrost heat pump air conditioner of adverse current is embodied as structure and shows
It is intended to;
Figure 24:It is that flow over tower cold defrost heat pump air conditioner of this utility model surface cooling air heat exchanger is embodied as structure and shows
It is intended to;
Figure 25:It is that the tower cold defrost heat recovery heat pump air conditioner of this utility model surface cooling air heat exchanger adverse current is embodied as
Structural representation;
Figure 26:It is that the tower cold defrost heat recovery heat pump air conditioner of this utility model surface cooling air heat exchanger crossing current is embodied as
Structural representation;
Figure 27:It is that the tower cold defrost fan coil heat pump air conditioner of this utility model surface cooling air heat exchanger adverse current is specifically real
Apply structural representation;
Figure 28:It is that this utility model surface cooling air heat exchanger flows over tower cold defrost fan coil heat pump air conditioner specifically in fact
Apply structural representation;
Figure 29:It is the tower cold defrosting type wind energy heat pump domestic hot-water of this utility model surface cooling air heat exchanger adverse current or storage
Can air-conditioning device;
Figure 30:It is the tower cold defrosting type wind energy heat pump domestic hot-water of this utility model surface cooling air heat exchanger crossing current or storage
Can air-conditioning device;
Figure 31:It is that the tower cold defrost configuration anti-icing fluid fluid reservoir heat pump of this utility model surface cooling air heat exchanger adverse current is empty
Tune is embodied as structural representation;
Figure 32:It is that the tower cold defrost configuration anti-icing fluid fluid reservoir heat pump of this utility model surface cooling air heat exchanger crossing current is empty
Tune is embodied as structural representation;
Figure 33:It is the tower cold defrost configuration anti-icing fluid drying purifying plant of this utility model surface cooling air heat exchanger adverse current
Heat pump air conditioner is embodied as structural representation;
Figure 34:It is the tower cold defrost configuration anti-icing fluid drying purifying plant of this utility model surface cooling air heat exchanger crossing current
Heat pump air conditioner is embodied as structural representation;
Figure 35:It is that the double heat pump air conditioners of the tower cold defrost of this utility model surface cooling air heat exchanger crossing current are embodied as structure
Schematic diagram;
Figure 36:It is that the double heat pump air conditioners of the tower cold defrost fan coil of this utility model surface cooling air heat exchanger crossing current are concrete
Implement structural representation;
Figure 37:It is that the tower cold defrost anti-icing fluid fluid reservoir configuration drying of this utility model surface cooling air heat exchanger adverse current is carried
Pure heat exchanger heat pump air conditioner is embodied as structural representation;
Figure 38:It is that the tower cold defrost anti-icing fluid fluid reservoir configuration drying of this utility model surface cooling air heat exchanger crossing current is carried
Pure heat exchanger heat pump air conditioner is embodied as structural representation;
Figure 39:It is that the tower cold defrost double stage heat pump air-conditioning of this utility model surface cooling air heat exchanger adverse current is embodied as knot
Structure schematic diagram;
Figure 40:It is that the tower cold defrost double stage heat pump air-conditioning of this utility model surface cooling air heat exchanger crossing current is embodied as knot
Structure schematic diagram;
Figure 41:It is the tower cold defrosting type twin-stage wind energy heat pump domestic hot-water of this utility model surface cooling air heat exchanger adverse current
Or energy storage air conditioner;
Figure 42:It is the tower cold defrosting type twin-stage wind energy heat pump domestic hot-water of this utility model surface cooling air heat exchanger crossing current
Or energy storage air conditioner;
Figure 43:It is the tower cold defrost configuration anti-icing fluid fluid reservoir twin-stage heat of this utility model surface cooling air heat exchanger adverse current
Pump air-conditioning is embodied as structural representation;
Figure 44:It is the tower cold defrost configuration anti-icing fluid fluid reservoir twin-stage heat of this utility model surface cooling air heat exchanger crossing current
Pump air-conditioning is embodied as structural representation;
Figure 45:It is the tower cold defrost configuration anti-icing fluid fluid reservoir of this utility model surface cooling air heat exchanger adverse current and coupling
Tank double stage heat pump air-conditioning is embodied as structural representation;
Figure 46:It is the tower cold defrost configuration anti-icing fluid fluid reservoir of this utility model surface cooling air heat exchanger crossing current and coupling
Tank double stage heat pump air-conditioning is embodied as structural representation;
Figure 47:It is that the tower cold defrost configuration anti-icing fluid fluid reservoir twin-stage of this utility model surface cooling air heat exchanger adverse current stores
Energy heat pump air conditioner is embodied as structural representation;
Figure 48:It is that the tower cold defrost configuration anti-icing fluid fluid reservoir twin-stage of this utility model surface cooling air heat exchanger crossing current stores
Energy heat pump air conditioner is embodied as structural representation;
Figure 49:It is that the tower cold defrost configuration anti-icing fluid liquid storage of this utility model surface cooling air heat exchanger adverse current and drying are carried
Pure tank double stage heat pump air-conditioning is embodied as structural representation;
Figure 50:It is that the tower cold defrost configuration anti-icing fluid liquid storage of this utility model surface cooling air heat exchanger crossing current and drying are carried
Pure tank double stage heat pump air-conditioning is embodied as structural representation;
Figure 51:It is that the tower cold defrost configuration anti-icing fluid liquid storage of this utility model surface cooling air heat exchanger adverse current and drying are carried
Pure tank double stage heat pump energy accumulation air conditioner is embodied as structural representation;
Figure 52:It is that the tower cold defrost configuration anti-icing fluid liquid storage of this utility model surface cooling air heat exchanger crossing current and drying are carried
Pure tank double stage heat pump energy accumulation air conditioner is embodied as structural representation;
Figure 53:It is the tower cold defrost configuration anti-icing fluid fluid reservoir of this utility model surface cooling air heat exchanger adverse current, coupling
Tank and drying purification tank double stage heat pump energy accumulation air conditioner are embodied as structural representation;
Figure 54:It is the tower cold defrost configuration anti-icing fluid fluid reservoir of this utility model surface cooling air heat exchanger crossing current, coupling
Tank and drying purification tank double stage heat pump energy accumulation air conditioner are embodied as structural representation;
In figure:
1 surface cooling air heat exchanger, 2 coil pipes, 3 fins, 4 coolant flow dividers, 5 refrigernant collectors, 6 reverse-flow wind energies
Tubular type spray at the top of tower, 7 surface cooler side pipe formulas spray aproll device, 8 spray nozzles, 9 positive displacements spray aproll device, 10 surface coolers
Aproll device, 11 domestic hot-water's water tanks, 12 domestic hot-water's heating coils, 13 spray aproll circulation pipes, 14 spray aproll circulations
Tubular type spray water knockout drum, 19 surface cooler side pipe formulas spray at the top of pump, 15 anti-icing fluid, 16 drip trays, 17 outdoor fans, 18 surface coolers
Water knockout drum, 20 refrigeration compressors, 21 four-way change-over valves, 22 cold-hot wind air conditioning terminals, cold-hot wind heat exchanger, 24 Interior Spaces in Room 23
Adjust blower fan, 25 expansion valves, 26 condensers, 27 coupling cycle pumps, 28 vaporizers, 29 single twin-stage switching valves, 30 refrigeration compressors, 31
Condenser, 32 expansion valves, 33 air conditioning terminal circulating pumps, 34 single twin-stage switching valves, 35 single twin-stage switching valves, 36 fan coils, 37
Accumulation of energy attemperater, 38 energy storage circulation pumps, 39 output isolation heat exchangers, 40 cross-flow type wind-energy towers, 41 tower air inlets, 42 life heat
It is water output interface, 43 tower blower fans, 44 recuperation of heat heat exchange coils, 45 recuperation of heat water tanks, 46 anti-icing fluid drying sublimation pump, 47 antifreeze
Liquid drying purification coil pipe, 48 anti-icing fluid drying purification valve, 49 four-way change-over valves, 50 condensers, 51 expansion valves, 52 air conditioning terminals are followed
Ring pump, 53 fan coils, 54 cold-hot wind air conditioning terminals, cold-hot wind heat exchanger, 56 room conditioning blower fans, the storage of 57 anti-icing fluid in Room 55
Flow container, 58 dilution anti-icing fluid, 59 anti-icing fluid drying purification heat exchanger, 60 drying purification heat exchanger secondary pumps, 61 drying purifications are changed
It is pump of hot device, the 62 anti-icing fluid valves of falling liquid, the 63 anti-icing fluid valves of falling liquid, the 64 anti-icing fluid valves of falling liquid, the 65 anti-icing fluid valves of falling liquid, 66 antifreeze
Liquid pours out pump, 67 dilution anti-icing fluid injection pumps, 68 anti-icing fluid drying purification tank, 69 anti-icing fluid drying heating secondary pump, 70 antifreeze
Liquid heating heat exchanger, the 71 anti-icing fluid valves of falling liquid, the 72 anti-icing fluid valves of falling liquid, 73 anti-icing fluid drying heating pump, 74 domestic hot-waters
Rear pump, 75 domestic hot-water's output interfaces, 76 tap water moisturizing interfaces, 77 purification anti-icing fluid, 78 domestic hot-water's circulating pumps, 79 lifes
Hot water water tank living, 80 refrigeration compressors, 81 coupling cycle tanks.
Specific embodiment
The technical solution of the utility model is further illustrated below in conjunction with the accompanying drawings and by specific embodiment.
Such as Fig. 1 a, Fig. 1 b, it is that the cold defrost of this utility model surface cooling air heat exchanger positive displacement spray aproll is embodied as
Structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, coolant flow divider 4, refrigernant collector 5, spray nozzle 8,
Positive displacement spray aproll device 9, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16 are constituted.
Positive displacement spray aproll device 9 is configured in the top upper bit of surface cooling air heat exchanger 1, needs to spray aproll circulating pump during defrost
15 Jing of anti-icing fluid spray aprolls circulation pipe 13 is input into positive displacement spray aproll device 9 by 14 operations, by positive displacement spray aproll dress
The uniform coil pipe 2 and fin 3 to surface cooling air heat exchanger 1 of spray nozzle 8 for putting the configuration of 9 bottoms sprays anti-icing fluid 15, coil pipe 2
The frost gathered with fin 3, is just melted in rapidly anti-icing fluid in this, is realized cold defrost after running into anti-icing fluid 15.Cold defrost
In journey, operation of heat pump is not affected, and there is no commutation, and heat pump heating operation is steady, and aproll circulating pump 14 is sprayed during defrost
The power consumption of operation is very low.
Such as Fig. 2 a, Fig. 2 b, it is that the cold defrost of this utility model surface cooling air heat exchanger push pipe formula spray aproll is embodied as
Structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, coolant flow divider 4, refrigernant collector 5, spray nozzle 8,
Tubular type spray aproll device 10, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, water receiving at the top of surface cooler
At the top of disk 16 and surface cooler, tubular type spray water knockout drum 18 is constituted.At the top of surface cooler, tubular type spray aproll device 10 is configured in surface cooling
The top upper bit of air heat exchanger 1, sprays aproll circulating pump 14 and runs 15 Jing of anti-icing fluid spray aproll circulations when needing defrost
Tubular type spray aproll device 10 at the top of the input surface cooler of pipe 13, is configured below by tubular type spray aproll device 10 at the top of surface cooler
The uniform coil pipe 2 and fin 3 to surface cooling air heat exchanger 1 of spray nozzle 8 sprays anti-icing fluid 15, and coil pipe 2 and fin 3 are gathered
Frost, anti-icing fluid is just melted in rapidly after running into anti-icing fluid 15 in this, cold defrost is realized.If by a plurality of surface cooler head tube
During formula spray aproll device 10, spraying water knockout drum 18 by tubular type at the top of surface cooler can uniformly to a plurality of surface cooler head tube
Formula spray aproll device 10 distributes anti-icing fluid 15, makes 15 feed flow of anti-icing fluid uniform, improves cold defrost effect.
Such as Fig. 3, it is that this utility model surface cooler head tube and the cold defrost of both sides tubular type spray aproll are embodied as structure and show
It is intended to.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, coolant flow divider 4, refrigernant collector 5, spray nozzle 8, surface cooler
At the top of side pipe formula spray aproll device 7, surface cooler, tubular type spray aproll device 10, spray aproll circulation pipe 13, spray aproll are followed
Tubular type spray water knockout drum 18 and surface cooler both sides tubular type spray water knockout drum at the top of ring pump 14, anti-icing fluid 15, drip tray 16, surface cooler
19 are constituted.Surface cooler side pipe formula spray aproll device 7 is configured in the both sides of the coil pipe 2 and fin 3 of surface cooling air heat exchanger 1,
At the top of surface cooler, tubular type spray aproll device 10 is configured in the top of the coil pipe 2 and fin 3 of surface cooling air heat exchanger 1, coldization
When white, by tubular type spray aproll device 10 at the top of surface cooler and surface cooler side pipe formula spray aproll device 7, while empty to surface cooling
The coil pipe 2 of gas heat exchanger 1 and the spray anti-icing fluid 15 of fin 3, make cold defrost more Quick uniform.
Such as Fig. 4, it is that the tower cold defrost of this utility model surface cooling air heat exchanger adverse current is embodied as structural representation.By
Tubular type spray aproll device 10, spray at the top of surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow wind-energy tower 6, surface cooler
Aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower air inlet 41 and tower blower fan 43 are constituted.Table is cold
Formula air heat exchanger 1 is configured at the top of the surface cooler in reverse-flow wind-energy tower 6 below tubular type spray aproll device 10, and in tower
Above air inlet 41, tower blower fan 43 is configured at the top of surface cooler above tubular type spray aproll device 10, and drip tray 16 is configured
In the bottom of reverse-flow wind-energy tower 6, and below tower air inlet 41.During cold defrost, by tubular type spray aproll at the top of surface cooler
Device 10, sprays anti-icing fluid 15 to the coil pipe 2 and fin 3 of surface cooling air heat exchanger 1, realizes cold defrost.Tower blower fan 43 runs,
Air Jing towers air inlet 41 is inhaled into, and winter provides atmospheric heat to two surface cooling air heat exchangers 1, and summer is empty by surface cooling
The condensation heat of gas heat exchanger 1 is by 43 row of tower blower fan to air.
Such as Fig. 5, it is that the tower cold defrost of this utility model surface cooling air heat exchanger crossing current is embodied as structural representation.By
Surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray aproll device 9, spray aproll circulation pipe 13, spray aproll are followed
Ring pump 14, anti-icing fluid 15, drip tray 16, cross-flow type wind-energy tower 40 and tower blower fan 43 are constituted.Two surface cooling air heat exchangers 1 are matched somebody with somebody
Put below two positive displacement spray aproll devices 9 in cross-flow type wind-energy tower 40, and above drip tray 16.Cold defrost
When, anti-icing fluid is supplied by spraying 13 to two positive displacements spray aproll devices 9 of aproll circulation pipe from spray aproll circulating pump 14, by
Spray nozzle 8 below two positive displacement spray aproll devices 9 is sprayed to the coil pipe 2 and fin 3 of two surface cooling air heat exchangers 1
Anti-icing fluid 15, realizes cold defrost.Tower blower fan 43 runs, and two surface cooling air heat exchangers 1 of air Jing enter cross-flow type wind-energy tower
40, winter provides atmospheric heat to two surface cooling air heat exchangers 1, and summer is by condensation heat by 43 row of tower blower fan to air.
Such as Fig. 6, it is that this utility model surface cooling air heat exchanger head tube and the cold defrost heat pump of side pipe formula spray aproll are empty
Tune is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector 5, spray
Tubular type spray aproll device 10, spray aproll circulation pipe 13 at the top of mouth 8, surface cooler side pipe formula spray aproll device 7, surface cooler,
It is spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, outdoor fan 17, refrigeration compressor 20, four-way change-over valve 21, cold and hot
Wind air conditioning terminal 22, indoor cold-hot wind heat exchanger 23, room conditioning blower fan 24 and expansion valve 25 are constituted.
Winter, during heating operation, the configuration anti-icing fluid 15 of drip tray 16.Refrigeration compressor 20 operates, high-temperature exhaust air Jing four-ways
The a ends of reversal valve 21 are input into and get in cold-hot wind heat exchanger 23 by the d ends of four-way change-over valve 21, condense to indoor release
Heating, the expanded valve 25 of condensed cold-producing medium are input into 2 absorption air heat of coil pipe by refrigernant collector 5 after throttling, overheated
Refrigerant gas Jing coolant flow dividers 4 entered by the b ends of four-way change-over valve 21, transported to by the c ends of four-way change-over valve 21
The suction end of refrigeration compressor 20, repeats above-mentioned heating operation Jing after refrigeration compressor 20 compresses.During cold defrost, spray aproll is followed
Ring pump 14 operates, and 15 Jing of anti-icing fluid spray aprolls circulation pipe 13 is input into tubular type spray aproll device 10 and surface cooler at the top of surface cooler
Side pipe formula spray aproll device 7, while spraying anti-icing fluid 15 to the coil pipe 2 and fin 3 of surface cooling air heat exchanger 1, rapidly will
The frost of surface cooling air heat exchanger 1 is melted, and realizes cold defrost running.Outdoor fan 17 operates, and air is by surface cooling air
Enter between the coil pipe 2 and fin 3 of heat exchanger 1, atmospheric heat is supplied to into 2 interior circulation of coil pipe by surface cooling air heat exchanger 1
Cold-producing medium.Supercool air drains into air by outdoor fan 17, realizes that conventional air-cooled heat pump provides the process of air energy.This reality
Apply a winter can with by tubular type spray aproll device 10 at the top of surface cooler and surface cooler side pipe formula spray aproll device 7, while
Continuous coil pipe 2 and fin 3 to surface cooling air heat exchanger 1 sprays anti-icing fluid 15, using anti-icing fluid and surface cooling air heat-exchange
Device 1 exchanges heat, and realizes frostless heating fortune.The present embodiment surface cooler side pipe formula spray aproll device 7, is sprayed by surface cooler both sides tubular type
Aproll device 7, sprays anti-icing fluid to the coil pipe 2 and fin 3 of surface cooling air heat exchanger 1 jointly.
Summer, during refrigerating operaton, anti-icing fluid 15 is replaced by tap water.Refrigeration compressor 20 operates, high-temperature exhaust air Jing four-ways
The a ends of reversal valve 21 are input into and by the b ends Jing coolant flow dividers 4 of four-way change-over valve 21 into surface cooling air heat exchanger 1
Coil pipe 2 release condensation heat, the heat is from 17 row of outdoor fan to air.Condensed cold-producing medium is input into by refrigernant collector 5
Expansion valve 25, expanded valve 25 are input into indoor cold-hot wind heat exchanger 23 after throttling, evaporation absorbs and circulated by room conditioning blower fan 24
Heat in the room air for flowing through, carries out refrigeration air-conditioner operation to interior, the d ends of overheated cold-producing medium by four-way change-over valve 21
Into the c ends of Jing four-way change-over valves 21 are sucked by refrigeration compressor 20, continue the above-mentioned refrigeration air-conditioner operation of compression repetition.When entering
When entering extremely hot season, cause condensation temperature too high, 20 power consumption of refrigeration compressor increase, by tubular type spray aproll at the top of surface cooler
Device 10 and surface cooler side pipe formula spray aproll device 7, while spraying certainly to the coil pipe 2 and fin 3 of surface cooling air heat exchanger 1
Water, reduces condensation temperature, improves the refrigerating efficiency of heat pump, reduces power consumption, realizes wind energy heat pump water cooling energy-saving run.This
Embodiment surface cooler side pipe formula spray aproll device 7, it is by surface cooler both sides tubular type spray aproll device 7, jointly empty to surface cooling
The coil pipe 2 of gas heat exchanger 1 and the spray tap water of fin 3.
Such as Fig. 7, it is that the cold defrost heat pump air conditioner of this utility model surface cooling air heat exchanger positive displacement spray aproll is specifically real
Apply structural representation.By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector 5, spray nozzle 8, volume
Formula spray aproll device 9, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, outdoor fan
17th, refrigeration compressor 20, four-way change-over valve 21, cold-hot wind air conditioning terminal 22, indoor cold-hot wind heat exchanger 23, room conditioning blower fan
24 and expansion valve 25 constitute., in addition to spraying aproll device shape and be different, other are just the same for Fig. 7 and Fig. 6.During cold defrost
15 Jing of anti-icing fluid spray aprolls circulation pipe 13 is input into positive displacement spray aproll device 9 by spray aproll circulating pump 14, is passed through
The uniform coil pipe 2 and fin 3 to surface cooling air heat exchanger 1 of spray nozzle 8 that positive displacement spray aproll device 9 is configured below is certainly
Upper spray anti-icing fluid downwards, completes cold defrost process.Other courses of work are identical with Fig. 6, and explanation is not repeated.
Such as Fig. 8, it is that the cold defrost heat pump air conditioner of tubular type spray aproll is concrete at the top of this utility model surface cooling air heat exchanger
Implement structural representation.By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector 5, spray nozzle 8, table
Tubular type spray aproll device 10, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray at the top of cooler
16th, outdoor fan 17, refrigeration compressor 20, four-way change-over valve 21, cold-hot wind air conditioning terminal 22, indoor cold-hot wind heat exchanger 23,
Room conditioning blower fan 24 and expansion valve 25 are constituted.Fig. 8 and Fig. 6 has only lacked surface cooler side pipe formula spray aproll device 7, by independent
At the top of surface cooler, tubular type spray aproll device 10, from up to down sprays to the coil pipe 2 and fin 3 of surface cooling air heat exchanger 1 anti-
Freeze liquid, complete cold defrost process.Other parts are just the same with Fig. 6, and its running is not repeated to introduce.
Fig. 9, this utility model surface cooling air heat exchanger head tube and the cold defrost recuperation of heat heat of both sides tubular type spray aproll
Pump air-conditioning is embodied as structural representation;By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector 5,
Tubular type spray aproll device 10, spray aproll circulation pipe at the top of spray nozzle 8, surface cooler side pipe formula spray aproll device 7, surface cooler
13rd, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, outdoor fan 17, refrigeration compressor 20, four-way change-over valve 21, cold
Hot blast air conditioning terminal 22, indoor cold-hot wind heat exchanger 23, room conditioning blower fan 24, expansion valve 25, domestic hot-water's output interface 42,
Recuperation of heat heat exchange coil 44, recuperation of heat water tank 45, anti-icing fluid drying sublimation pump 46, anti-icing fluid drying purification coil pipe 47 and originally
Water moisturizing interface 76 is constituted.
When winter heating runs, due to containing certain moisture content in air, outdoor fan 17 operates, and air skims over surface cooling
When the coil pipe 2 of air heat exchanger 1 and fin 3, due to 2 interior circulation of coil pipe cold-producing medium temperature well below outside air temperature, because
This, in air, moisture content is condensed upon.It is above-mentioned during cold defrost
Frost again incorporated anti-icing fluid among, time length just causes anti-icing fluid to be diluted, anti-icing fluid dilution to a certain extent when, can drop
Low anti-icing fluid freezing point temperature, causes anti-icing fluid to freeze, and loses cold defrosting function.When refrigeration compressor 20 runs, high-temperature exhaust air first leads to
Recuperation of heat heat exchange coil 44 is crossed, partial condensation heat is discharged to 45 heating domestic hot water of recuperation of heat water tank, afterwards high-temperature exhaust air
The a of Jing four-way change-over valves 21 gets in cold-hot wind heat exchanger 23 by the d of four-way change-over valve 21 again, condenses thermal recovery to indoor release
Warm heat supply.Hot water, in addition to supplying domestic hot-water, is input into by the hot water of recuperation of heat water tank 45 by anti-icing fluid drying sublimation pump 46
Anti-icing fluid drying purification 47 pairs, coil pipe dilution anti-icing fluid heating, dilution anti-icing fluid be heated after water evaporates, using domestic hot-water plus
Moisture content in the dry anti-icing fluid 15 being diluted of baking the affected part after applying some drugs, realizes the purpose to diluting anti-icing fluid purification.
Such as Figure 10, it is the cold defrost heat recovery heat pump air conditioner of this utility model surface cooling air heat exchanger positive displacement spray aproll
It is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector 5, spray nozzle
8th, positive displacement spray aproll device 9, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, room
Outer blower fan 17, refrigeration compressor 20, four-way change-over valve 21, cold-hot wind air conditioning terminal 22, indoor cold-hot wind heat exchanger 23, Interior Space
Blower fan 24, expansion valve 25, domestic hot-water's output interface 42, recuperation of heat heat exchange coil 44, recuperation of heat water tank 45, anti-icing fluid is adjusted to dry
Dry sublimation pump 46, anti-icing fluid drying purification coil pipe 47 and tap water moisturizing interface 76 are constituted.Fig. 9 is increased on the basis of Fig. 7
It is configured with heat reclamation device.The process of Figure 10 winters cold defrost is just the same with Fig. 9, here just not repeated description.
Such as Figure 11, it is that the cold defrost heat-recovery heat pump of tubular type spray aproll is empty at the top of this utility model surface cooling air heat exchanger
Tune is embodied as structural representation;By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector 5, spray
Tubular type spray aproll device 10, spray aproll circulation pipe 13 at the top of mouth 8, surface cooler, spray aproll circulating pump 14, anti-icing fluid 15,
Drip tray 16, outdoor fan 17, refrigeration compressor 20, four-way change-over valve 21, cold-hot wind air conditioning terminal 22, indoor cold-hot wind heat exchange
Device 23, room conditioning blower fan 24, expansion valve 25, domestic hot-water's output interface 42, recuperation of heat heat exchange coil 44, recuperation of heat water tank
45th, anti-icing fluid drying sublimation pump 46, anti-icing fluid drying purification coil pipe 47 and tap water moisturizing interface 76 are constituted.Figure 11 winter coldization
The process of frost is just the same with Fig. 9, here just not repeated description.
Figure 12, is that the cold defrost heat-pump hot-water of this utility model surface cooling air heat exchanger positive displacement spray aproll or accumulation of energy are empty
Device is adjusted to be embodied as structural representation;By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector 5,
Spray nozzle 8, positive displacement spray aproll device 9, domestic hot-water's water tank 11, domestic hot-water's heating coil 12, spray aproll circulation
Pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, outdoor fan 17, refrigeration compressor 20, expansion valve 25, life
Hot water output interface 42 and tap water moisturizing interface 76 are constituted.Figure 12 is life hot water apparatus, and during operation, condensation heat is all by giving birth to
Hot water heating coils 12 living be released in 11 hot water of domestic hot-water's water tank this.If Figure 12 is after heat pump configuration four-way change-over valve,
Energy storage air conditioner can also be realized, now domestic hot-water's water tank 11 constitutes air-conditioning hot water or cold water's energy storage water tank, domestic hot-water is defeated
Outgoing interface 42 and tap water moisturizing interface 76 are connected with air conditioning terminal fan coil system, constitute air conditioning terminal output system.Its
Its course of work is same as above, is not repeated.
Figure 13, is the cold defrost heat-pump hot-water of tubular type spray aproll or accumulation of energy at the top of this utility model surface cooling air heat exchanger
Air-conditioning device is embodied as structural representation;By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector
5th, tubular type spray aproll device 10, domestic hot-water's water tank 11, domestic hot-water's heating coil 12, spray at the top of spray nozzle 8, surface cooler
Drench aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, outdoor fan 17, refrigeration compressor 20, swollen
Swollen valve 25, domestic hot-water's output interface 42 and tap water moisturizing interface 76 are constituted.Figure 13 and Figure 12 is only different from spray aproll dress
The form put, other are just the same, and explanation is not repeated.
Figure 14, is this utility model surface cooling air heat exchanger head tube and the cold defrost Heat Pump of both sides tubular type spray aproll
Water or energy storage air conditioner are embodied as structural representation;By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, system
Tubular type spray aproll device 10, life at the top of cryogen collector 5, spray nozzle 8, surface cooler side pipe formula spray aproll device 7, surface cooler
Hot water water tank 11, domestic hot-water's heating coil 12, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, connect
Water pond 16, outdoor fan 17, refrigeration compressor 20, expansion valve 25, domestic hot-water's output interface 42 and tap water moisturizing interface 76
Constitute.Figure 14 and Figure 12 is only different from the form of spray aproll device, and other are just the same, and explanation is not repeated.
Figure 15, is the cold defrost hot water of tubular type spray aproll or energy accumulation air conditioner at the top of this utility model surface cooling air heat exchanger
Device is embodied as structural representation;By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector 5, spray
Drench tubular type spray aproll device 10, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid at the top of mouth 8, surface cooler
15th, drip tray 16, outdoor fan 17, refrigeration compressor 20, expansion valve 25, condenser 26, domestic hot-water's output interface 42, originally
Water moisturizing interface 76, domestic hot-water's circulating pump 78 and domestic hot-water's water tank 79 are constituted.Figure 15 domestic hot-waters are by condenser
26 heating operations, the condensed 26 refrigerant side condensing heat-exchange of device of the operation aerofluxuss of refrigeration compressor 20 is to 26 water side opposite of condenser
Hot water heating living.The condensed 26 water side of device of tap water is circulated to domestic hot-water's water tank 79 by domestic hot-water's circulating pump 78, will be by
The hot water of 26 water side of condenser heating is stored among domestic hot-water's water tank 79, is supplemented originally by tap water moisturizing interface 76
Water, exports domestic hot-water by domestic hot-water's output interface 42.The present embodiment, if after configuration four-way change-over valve 21, may be constructed
Energy storage air conditioner, now, domestic hot-water's water tank 79 just constitutes energy storage water tank, winter accumulation of heat water warm heat supply;Cool-storage in summer
Freeze water refrigeration air-conditioner.It is changed to be connected with air conditioning terminal system by domestic hot-water's output interface 42 and tap water moisturizing interface 76,
To the fan coil output cold-hot water air conditioning operation of air conditioning terminal.
Figure 16, is that the cold defrost heat pump air conditioner of this utility model surface cooling air heat exchanger positive displacement spray aproll is embodied as
Structural representation;By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector 5, spray nozzle 8, positive displacement
Spray aproll device 9, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, outdoor fan 17,
Refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, air conditioning terminal circulating pump 33 and fan coil 36 are constituted.
The hot water or cold water of Figure 16 air-conditionings is run by the heat exchange of condenser 26.Winter, the operation of refrigeration compressor 20 aerofluxuss during heating operation
The a inputs of Jing four-way change-over valves 21 enter 26 refrigerant side of condenser by d and condense heat release, the heating to the circulation of 26 water side of condenser
Water is heated, and its process is that, by the condensed 26 water side of device of 33 circulating heating water of air conditioning terminal circulating pump to fan coil 36, hot water leads to
36 blowing hot-air of fan coil is crossed to air-conditioned room heating operation, the expanded valve 25 of condensed cold-producing medium throttle after by cold-producing medium collection
The input surface cooling of pipe 5 air heat exchanger 1, after evaporation absorbs outdoor air heat, by 4 Jing four-way change-over valves 21 of coolant flow divider
B input sucked by refrigeration compressor 20 by c, continue compression circulation realize heating operation.Summer, freeze when refrigeration air-conditioner runs
The a inputs of operation its aerofluxus Jing of compressor 20 four-way change-over valves 21 are changed into surface cooling air by b output Jing coolant flow dividers 4
Hot device 1 condenses heat release, and after condensation, cold-producing medium is by refrigernant collector 5, expansion valve 25,26 refrigerant side of condenser, four-way change-over valve
C input 20 suction ends of refrigeration compressor of 21 d Jing four-way change-over valves 21, continue compression circulation and realize above-mentioned refrigeration air-conditioner fortune
OK.
Figure 17, is that the cold defrost heat pump air conditioner of tubular type spray aproll is specifically real at the top of this utility model surface cooling air heat exchanger
Apply structural representation;It is cold by surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector 5, spray nozzle 8, table
Tubular type spray aproll device 10, spray aproll circulation pipe 13 at the top of device, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16,
Outdoor fan 17, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, air conditioning terminal circulating pump 33 and blower fan
Coil pipe 36 is constituted.Figure 17 and Figure 16 is different from spray aproll device form, and other are just the same with Figure 16.
Figure 18:This utility model surface cooling air heat exchanger head tube and the cold defrost heat pump air conditioner of both sides tubular type spray aproll
It is embodied as structural representation;By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector 5, spray nozzle
8th, tubular type spray aproll device 10, spray aproll circulation pipe 13, spray at the top of surface cooler side pipe formula spray aproll device 7, surface cooler
Drench aproll circulating pump 14, anti-icing fluid 15, drip tray 16, outdoor fan 17, refrigeration compressor 20, four-way change-over valve 21, expansion valve
25th, condenser 26, air conditioning terminal circulating pump 33 and fan coil 36 are constituted.Figure 18 and Figure 16 is different from spray aproll device shape
Formula, other are just the same with Figure 16.
Figure 19:It is that the cold defrost double stage heat pump air-conditioning of this utility model surface cooling air heat exchanger positive displacement spray aproll is concrete
Implement structural representation;By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector 5, spray nozzle 8, appearance
Product formula spray aproll device 9, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, outdoor wind
Machine 17, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, coupling cycle pump 27, vaporizer 28, single twin-stage
Switching valve 29, refrigeration compressor 30, condenser 31, expansion valve 32, air conditioning terminal circulating pump 33, single twin-stage switching valve 34, Dan Shuan
Level conversion valve 35 and fan coil 36 are constituted.
During winter operation, single twin-stage switching valve 35 cuts out, and single twin-stage switching valve 29 and single twin-stage switching valve 34 are opened, by cold
The coupled circulating pump of 26 water side of condenser output hot water 27 is circulated by 26 water side of condenser by single twin-stage switching valve 29 to vaporizer
28 water sides are back to coupling cycle pump 27, the system that the heat coupled and heat-exchange that prime heat pump is exported is circulated to 28 refrigerant side of vaporizer
In cryogen, by 30 second-compressed of cold-producing medium Jing refrigeration compressors of prime heat, aerofluxuss condense heat release by condenser 31,
To the heating water condensation heating circulated by air conditioning terminal circulating pump 33.Heating water circulation path is by 33 Jing of air conditioning terminal circulating pump
Single twin-stage switching valve 34 is back to air conditioning terminal circulating pump 33 to fan coil 36 by 31 water side of condenser, completes heating fortune
OK.
During cooling in summer operation of air conditioner, rear class heat pump need not run, only prime refrigerating operaton.Now single twin-stage conversion
Valve 34 and single twin-stage switching valve 29 are closed, and single twin-stage switching valve 35 is opened, and the chilled water Jing of the circulation of air conditioning terminal circulating pump 33 is mono-
Twin-stage switching valve 35 is input into fan coil 36 to 26 water side Jing pipelines of condenser and runs to blows cold wind indoors refrigeration air-conditioner.
Figure 20:It is the cold defrost double stage heat pump air-conditioning tool of tubular type spray aproll at the top of this utility model surface cooling air heat exchanger
Body implements structural representation;By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector 5, spray nozzle 8,
Tubular type spray aproll device 10, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, water receiving at the top of surface cooler
Disk 16, outdoor fan 17, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, coupling cycle pump 27, evaporation
Device 28, single twin-stage switching valve 29, refrigeration compressor 30, condenser 31, expansion valve 32, air conditioning terminal circulating pump 33, single twin-stage turn
Change valve 34, single twin-stage switching valve 35 and fan coil 36 to constitute.Figure 20 and Figure 19 are different from spray aproll device form, other with
Figure 19 is just the same.
Figure 21:This utility model surface cooling air heat exchanger head tube and the cold defrost double stage heat pump of both sides tubular type spray aproll
Air-conditioning is embodied as structural representation;By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, refrigernant collector 5, spray
Drench tubular type spray aproll device 10, spray aproll circulation pipe at the top of mouth 8, surface cooler side pipe formula spray aproll device 7, surface cooler
13rd, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, outdoor fan 17, refrigeration compressor 20, four-way change-over valve 21, swollen
It is swollen valve 25, condenser 26, coupling cycle pump 27, vaporizer 28, single twin-stage switching valve 29, refrigeration compressor 30, condenser 31, swollen
Swollen valve 32, air conditioning terminal circulating pump 33, single twin-stage switching valve 34, single twin-stage switching valve 35 and fan coil 36 are constituted.Figure 21 with
Figure 19 is different from spray aproll device form, and other are just the same with Figure 19.
Figure 22:It is the cold defrost double stage heat pump hot water of this utility model surface cooling air heat exchanger positive displacement spray aproll or storage
Energy air-conditioning device is embodied as structural representation;By surface cooling air heat exchanger 1, coil pipe 2, coolant flow divider 4, cold-producing medium collection
Pipe 5, spray nozzle 8, positive displacement spray aproll device 9, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, connect
Water pond 16, outdoor fan 17, refrigeration compressor 20, expansion valve 25, condenser 26, coupling cycle pump 27, vaporizer 28, single twin-stage
Switching valve 29, refrigeration compressor 30, condenser 31, expansion valve 32, air conditioning terminal circulating pump 33, single twin-stage switching valve 34, Dan Shuan
Level conversion valve 35, domestic hot-water's output interface 42, tap water moisturizing interface 76, domestic hot-water's circulating pump 78 and domestic hot-water's water storage
Tank 79 is constituted.Figure 22 can also constitute energy-storage air conditioner system after prime heat pump configuration four-way change-over valve.
Figure 23:It is that this utility model surface cooling air heat exchanger tower cold defrost heat pump air conditioner of adverse current is embodied as structure and shows
It is intended to;By tubular type spray aproll device at the top of surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow wind-energy tower 6, surface cooler
10th, aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, the commutation of refrigeration compressor 20, four-way are sprayed
Valve 21, cold-hot wind air conditioning terminal 22, indoor cold-hot wind heat exchanger 23, room conditioning blower fan 24, expansion valve 25,41 and of tower air inlet
Tower blower fan 43 is constituted.Surface cooling air heat exchanger 1 is configured and wind energy heat-exchanger rig is constituted in reverse-flow wind-energy tower 6 by Figure 23.Winter
During season 43 operation of tower blower fan, air is entered by tower air inlet 41, and air is the coil pipe 2 and fin 3 from surface cooling air heat exchanger 1
Enter below, anti-icing fluid 15 is input into into tubular type spray at the top of surface cooler by spraying aproll circulation pipe 13 by spray aproll circulating pump 14
Aproll device 10 is drenched, anti-icing fluid is sprayed to surface cooling air heat exchanger above tubular type spray aproll device 10 from the top of surface cooler
1, air rubs cold defrost and heat exchange in surface cooling air heat exchanger 1 and anti-icing fluid adverse current, supercool 43 row of air Jing towers blower fan
To air.Summer, anti-icing fluid 15 are replaced by clear water, and surface cooling air heat exchanger 1 realizes that water cooling energy-saving type air conditioner runs.
Figure 24:It is that flow over tower cold defrost heat pump air conditioner of this utility model surface cooling air heat exchanger is embodied as structure and shows
It is intended to.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray aproll device 9, spray aproll circulation pipe 13, spray
Drench aproll circulating pump 14, anti-icing fluid 15, drip tray 16, refrigeration compressor 20, four-way change-over valve 21, cold-hot wind air conditioning terminal 22,
Indoor cold-hot wind heat exchanger 23, room conditioning blower fan 24, expansion valve 25, cross-flow type wind-energy tower 40 and tower blower fan 43 are constituted.Figure 24
Different from the mode that Figure 23 is tower, other are just the same.When tower blower fan 43 runs, air is by surface cooling air heat exchanger
1 coil pipe 2 and 3 horizontal cross of fin enter cross-flow type wind-energy tower 40, and air is laterally to skim over surface cooling air heat exchanger 1 complete
Into with air heat-exchange process.
Figure 25, is that the tower cold defrost heat recovery heat pump air conditioner of this utility model surface cooling air heat exchanger adverse current is embodied as
Structural representation.Dissipated by tubular type spray at the top of surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow wind-energy tower 6, surface cooler
Water installations 10, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower air inlet 41, tower wind
Machine 43, refrigeration compressor 20, four-way change-over valve 21, cold-hot wind air conditioning terminal 22, indoor cold-hot wind heat exchanger 23, room conditioning wind
Machine 24, expansion valve 25, domestic hot-water's output interface 42, recuperation of heat heat exchange coil 44, the drying of recuperation of heat water tank 45, anti-icing fluid are carried
Pure pump 46, anti-icing fluid drying purification coil pipe 47 and tap water moisturizing interface 76 are constituted.Figure 25 passes through domestic hot-water's heating, drying simultaneously
Purification dilution anti-icing fluid.
Figure 26, is that the tower cold defrost heat recovery heat pump air conditioner of this utility model surface cooling air heat exchanger crossing current is embodied as
Structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray aproll device 9, cross-flow type wind-energy tower
40th, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower blower fan 43, refrigeration compressor 20,
Four-way change-over valve 21, cold-hot wind air conditioning terminal 22, indoor cold-hot wind heat exchanger 23, room conditioning blower fan 24, expansion valve 25, life
Hot water output interface 42, recuperation of heat heat exchange coil 44, drying sublimation pump 46, the anti-icing fluid drying of recuperation of heat water tank 45, anti-icing fluid
Purification coil pipe 47 and tap water moisturizing interface 76 are constituted.
Figure 27, is that the tower cold defrost fan coil heat pump air conditioner of this utility model surface cooling air heat exchanger adverse current is specifically real
Apply structural representation.Sprayed by tubular type at the top of surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow wind-energy tower 6, surface cooler
Aproll device 10, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower air inlet 41, tower
Blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, air conditioning terminal circulating pump 33 and fan coil
36 are constituted.
Figure 28, is that this utility model surface cooling air heat exchanger flows over tower cold defrost fan coil heat pump air conditioner specifically in fact
Apply structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray aproll device 9, cross-flow type wind-energy tower
40th, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower blower fan 43, refrigeration compressor 20,
Four-way change-over valve 21, expansion valve 25, condenser 26, air conditioning terminal circulating pump 33 and fan coil 36 are constituted.
Figure 29:It is the tower cold defrosting type wind energy heat pump domestic hot-water of this utility model surface cooling air heat exchanger adverse current or storage
Can air-conditioning device;Dissipated by tubular type spray at the top of surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow wind-energy tower 6, surface cooler
Water installations 10, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower air inlet 41, tower wind
Machine 43, refrigeration compressor 20, expansion valve 25, condenser 26, domestic hot-water's output interface 42, tap water moisturizing interface 76, life
Hot water circulating pump 78 and domestic hot-water's water tank 79 are constituted.
Figure 30:It is the tower cold defrosting type wind energy heat pump domestic hot-water of this utility model surface cooling air heat exchanger crossing current or storage
Can air-conditioning device;By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray aproll device 9, cross-flow type wind-energy tower
40th, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower blower fan 43, refrigeration compressor 20,
Expansion valve 25, condenser 26, domestic hot-water's output interface 42, tap water moisturizing interface 76, domestic hot-water's circulating pump 78 and life
Hot water water tank 79 is constituted.
Figure 31, is that the tower cold defrost configuration anti-icing fluid fluid reservoir heat pump of this utility model surface cooling air heat exchanger adverse current is empty
Tune is embodied as structural representation.At the top of surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow wind-energy tower 6, surface cooler
Tubular type spray aproll device 10, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower air intake
Mouth 41, tower blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, air conditioning terminal circulating pump 33, wind
Machine coil pipe 36, anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, the anti-icing fluid valve of falling liquid 62, the anti-icing fluid valve of falling liquid 63, anti-icing fluid fall liquid
Valve 65 and anti-icing fluid are poured out pump 66 and are constituted.Winter, among moisture content during cold defrost in air can be dissolved in anti-icing fluid 15, moisture content with
The lengthening of run time, can collect more and more, and after causing anti-icing fluid dilution, volume increases, antifreeze in order to reclaim the excessive dilution of expansion
Liquid 58, system configuration anti-icing fluid fluid reservoir 57 reclaim the dilution anti-icing fluid 58 of expansion.During recovery, the anti-icing fluid valve of falling liquid 62 cuts out, and prevents
Freeze the liquid valve of falling liquid 63 to open, unnecessary dilution anti-icing fluid 58 is poured into anti-icing fluid fluid reservoir 57 by spray aproll circulating pump 14 and stored,
Anti-icing fluid to be diluted 58 after anti-icing fluid fluid reservoir 57 is allocated properly is poured out the 66 Jing anti-icing fluid valve of falling liquid 65 of pump by anti-icing fluid and is injected
Among the anti-icing fluid 15 of drip tray 16, change the concentration of anti-icing fluid 15.
Figure 32, is that the tower cold defrost configuration anti-icing fluid fluid reservoir heat pump of this utility model surface cooling air heat exchanger crossing current is empty
Tune is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray aproll device 9, crossing current
Formula wind-energy tower 40, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower blower fan 43, refrigeration
Compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, air conditioning terminal circulating pump 33, the storage of fan coil 36, anti-icing fluid
Flow container 57, dilution anti-icing fluid 58, the anti-icing fluid valve of falling liquid 62, the anti-icing fluid valve of falling liquid 63, the anti-icing fluid valve of falling liquid 65 and anti-icing fluid are poured out
Pump 66 is constituted., from Figure 31 in addition to turriform formula is different, remaining is identical, and explanation is not repeated for Figure 32.
Figure 33, is the tower cold defrost configuration anti-icing fluid drying purifying plant of this utility model surface cooling air heat exchanger adverse current
Heat pump air conditioner is embodied as structural representation.It is cold by surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow wind-energy tower 6, table
Tubular type spray aproll device 10, spray aproll circulation pipe 13 at the top of device, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16,
Tower air inlet 41, tower blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, the circulation of condenser 26, air conditioning terminal
Pump 33, fan coil 36, anti-icing fluid drying purification coil pipe 47 and anti-icing fluid drying purification valve 48 are constituted.Figure 33 matches somebody with somebody in drip tray 16
Anti-icing fluid drying purification coil pipe 47 is put, winter is purified to anti-icing fluid drying by anti-icing fluid drying purification valve 48 using heating hot water
Coil pipe 47 provides hot water, to diluting the purification of 15 heating, drying of anti-icing fluid.
Figure 34, is the tower cold defrost configuration anti-icing fluid drying purifying plant of this utility model surface cooling air heat exchanger crossing current
Heat pump air conditioner is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray aproll device
9th, cross-flow type wind-energy tower 40, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower blower fan
43rd, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, air conditioning terminal circulating pump 33, fan coil 36, anti-
Freeze liquid drying purification coil pipe 47 and anti-icing fluid drying purification valve 48 is constituted., from Figure 33 in addition to turriform formula is different, other are complete for Figure 34
It is exactly the same.
Figure 35, is that the double heat pump air conditioners of the tower cold defrost of this utility model surface cooling air heat exchanger crossing current are embodied as structure
Schematic diagram.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray aproll device 9, cross-flow type wind-energy tower 40, spray
Drench aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower blower fan 43, refrigeration compressor 20, four-way
Reversal valve 21, expansion valve 25, condenser 26, air conditioning terminal circulating pump 33, fan coil 36, four-way change-over valve 49, expansion valve 51,
Cold-hot wind air conditioning terminal 54, indoor cold-hot wind heat exchanger 55, room conditioning blower fan 56 and refrigeration compressor 80 are constituted.Figure 35 be by
The air conditioning system that two identical heat pumps are constituted, symmetrically make use of two surface cooling air heat exchangers 1 to constitute double wind energy heat exchange systems
System, remaining is just the same with single heat pump.
Figure 36, is that the double heat pump air conditioners of the tower cold defrost fan coil of this utility model surface cooling air heat exchanger crossing current are concrete
Implement structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray aproll device 9, cross-flow type wind energy
Tower 40, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower blower fan 43, refrigeration compressor
20th, four-way change-over valve 21, expansion valve 25, condenser 26, air conditioning terminal circulating pump 33, fan coil 36, four-way change-over valve 49, cold
Condenser 50, expansion valve 51, air conditioning terminal circulating pump 52, fan coil 53 and refrigeration compressor 80 are constituted.Figure 36 and Figure 35 is distinguished
That air conditioning terminal is different, Figure 35 be condensation heat directly with cold-hot wind form operation of air conditioner, and Figure 36 is converted into by condensation heat
After hot and cold water form, cold-hot wind operation of air conditioner is blown from fan coil to interior, other are.
Figure 37, is that the tower cold defrost anti-icing fluid fluid reservoir configuration drying of this utility model surface cooling air heat exchanger adverse current is carried
Pure heat exchanger heat pump air conditioner is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow wind energy
Tubular type spray aproll device 10, spray aproll circulation pipe 13 at the top of tower 6, surface cooler, spray aproll circulating pump 14, anti-icing fluid 15,
Drip tray 16, tower air inlet 41, tower blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, air-conditioning
End circulating pump 33, fan coil 36, anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, anti-icing fluid drying purification heat exchanger 59, baking
Dry purification heat exchanger secondary pump 60, drying purification pump 61 of heat exchanger, the anti-icing fluid valve of falling liquid 62, the anti-icing fluid valve of falling liquid 63, prevent
Freeze the liquid valve of falling liquid 64 and the anti-icing fluid valve of falling liquid 65 is constituted.Heating hot water is exchanged heat by Figure 37 using anti-icing fluid drying purification heat exchanger 59
To 57 pairs of dilution 58 heating, dryings of anti-icing fluid of anti-icing fluid fluid reservoir.It is heating is hot by purification pump 61 of heat exchanger is dried during operation
Heat is changed by anti-icing fluid drying purification 59 primary side of heat exchanger by water circulation to anti-icing fluid drying purification 59 primary side of heat exchanger
Heat passes through anti-icing fluid fall liquid valve 64 Jing by drying purification heat exchanger secondary pump 60 to anti-icing fluid drying purification 59 secondary side of heat exchanger
Anti-icing fluid drying purification 59 secondary side of heat exchanger is to circulation dilution 58 heating, drying of anti-icing fluid.The anti-icing fluid of purification is by drying purification
Among the anti-icing fluid 15 of the injection drip tray 16 of the 60 Jing anti-icing fluid valve of falling liquid of heat exchanger secondary pump 65, now the anti-icing fluid valve of falling liquid 64 is closed
Close.Drying purifies the function of 60 also part-time circulation stirring anti-icing fluid raw material of heat exchanger secondary pump, and now the anti-icing fluid valve of falling liquid 65 is closed
Close, open the anti-icing fluid valve of falling liquid 64.The heating, drying benefit can be by drying purification 61 start-stop of pump of heat exchanger or change
Frequency automatically controls heating-up temperature and effect, heating, drying management easy to automate.
Figure 38, is that the tower cold defrost anti-icing fluid fluid reservoir configuration drying of this utility model surface cooling air heat exchanger crossing current is carried
Pure heat exchanger heat pump air conditioner is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray
Aproll device 9, cross-flow type wind-energy tower 40, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16,
Tower air inlet 41, tower blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, the circulation of condenser 26, air conditioning terminal
Pump 33, fan coil 36, anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, anti-icing fluid drying purification heat exchanger 59, drying purification are changed
Hot device secondary pump 60, drying purification pump 61 of heat exchanger, the anti-icing fluid valve of falling liquid 62, the anti-icing fluid valve of falling liquid 63, anti-icing fluid fall liquid
Valve 64 and the anti-icing fluid valve of falling liquid 65 are constituted., from Figure 37 in addition to turriform formula is different, other are just the same for Figure 38.
Figure 39, is that the tower cold defrost double stage heat pump air-conditioning of this utility model surface cooling air heat exchanger adverse current is embodied as knot
Structure schematic diagram.By tubular type spray aproll at the top of surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow wind-energy tower 6, surface cooler
Device 10, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower air inlet 41, tower blower fan
43rd, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, coupling cycle pump 27, second level vaporizer 28, list
Twin-stage switching valve 29, second level refrigeration compressor 30, second level condenser 31, second level expansion valve 32, air conditioning terminal circulating pump
33rd, single twin-stage switching valve 34, single twin-stage switching valve 35 and fan coil 36 are constituted.
Figure 39 is the ultralow temperature wind energy heat pump unit for severe cold area utility model.During winter operation, single twin-stage switching valve
35 close, and single twin-stage switching valve 29 and single twin-stage switching valve 34 are opened, by the coupled circulating pump of 26 water side of condenser output hot water
27 circulations are back to coupling cycle pump 27 to 28 water side of vaporizer by single twin-stage switching valve 29 by 26 water side of condenser, by prime heat
In the cold-producing medium that the heat coupled and heat-exchange of pump output is circulated to 28 refrigerant side of vaporizer, by the cold-producing medium Jing of prime heat
30 second-compressed of refrigeration compressor, aerofluxuss condense heat release, the heating to being circulated by air conditioning terminal circulating pump 33 by condenser 31
Water condensation is heated.Heating water circulation path is to pass through 31 water side of condenser by the mono- twin-stage switching valves 34 of 33 Jing of air conditioning terminal circulating pump
Air conditioning terminal circulating pump 33 is back to fan coil 36, heating operation is completed.
During cooling in summer operation of air conditioner, rear class heat pump need not run, only prime refrigerating operaton.Now single twin-stage conversion
Valve 34 and single twin-stage switching valve 29 are closed, and single twin-stage switching valve 35 is opened, and the chilled water Jing of the circulation of air conditioning terminal circulating pump 33 is mono-
Twin-stage switching valve 35 is input into fan coil 36 to 26 water side Jing pipelines of condenser and runs to blows cold wind indoors refrigeration air-conditioner.
Figure 40, is that the tower cold defrost double stage heat pump air-conditioning of this utility model surface cooling air heat exchanger crossing current is embodied as knot
Structure schematic diagram.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray aproll device 9, cross-flow type wind-energy tower 40,
Spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower blower fan 43, refrigeration compressor 20, four
Logical reversal valve 21, expansion valve 25, condenser 26, coupling cycle pump 27, vaporizer 28, single twin-stage switching valve 29, refrigeration compressor
30th, condenser 31, expansion valve 32, air conditioning terminal circulating pump 33, single twin-stage switching valve 34, single twin-stage switching valve 35 and fan coil
36 are constituted., from Figure 39 in addition to turriform formula is different, other are just the same for Figure 40.
Figure 41:It is the tower cold defrosting type twin-stage wind energy heat pump domestic hot-water of this utility model surface cooling air heat exchanger adverse current
Or energy storage air conditioner;Sprayed by tubular type at the top of surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow wind-energy tower 6, surface cooler
Drench aproll device 10, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower air inlet 41,
Tower blower fan 43, refrigeration compressor 20, expansion valve 25, condenser 26, coupling cycle pump 27, second level vaporizer 28, single twin-stage turn
Change valve 29, second level refrigeration compressor 30, second level condenser 31, second level expansion valve 32, air conditioning terminal circulating pump 33, Dan Shuan
Level conversion valve 34, single twin-stage switching valve 35, domestic hot-water's output interface 42, tap water moisturizing interface 76, domestic hot-water's circulating pump
78th, domestic hot-water's water tank 79 is constituted.After Figure 41 primes configuration four-way change-over valve, using the single twin-stage switching valve 34 in the second level and list
Twin-stage switching valve 35 constitutes twin-stage wind energy heat pump energy-storage air conditioner system.
Figure 42:It is the tower cold defrosting type two-stage wind energy heat pump domestic hot-water of this utility model surface cooling air heat exchanger crossing current
Or energy storage air conditioner;By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray aproll device 9, cross-flow type wind energy
Tower 40, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower blower fan 43, refrigeration compressor
20th, expansion valve 25, condenser 26, coupling cycle pump 27, second level vaporizer 28, single twin-stage switching valve 29, second level refrigeration pressure
Contracting machine 30, second level condenser 31, second level expansion valve 32, air conditioning terminal circulating pump 33, single twin-stage switching valve 34, single twin-stage turn
Change valve 35, domestic hot-water's output interface 42, tap water moisturizing interface 76, domestic hot-water's circulating pump 78, domestic hot-water's water tank 79
Constitute., from Figure 41 in addition to turriform formula is different, other are just the same for Figure 42.
Figure 43, is the tower cold defrost configuration anti-icing fluid fluid reservoir twin-stage heat of this utility model surface cooling air heat exchanger adverse current
Pump air-conditioning is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow wind-energy tower 6, surface cooler
Top tubular type spray aproll device 10, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower
Air inlet 41, tower blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, coupling cycle pump 27, steaming
Send out device 28, single twin-stage switching valve 29, refrigeration compressor 30, condenser 31, expansion valve 32, air conditioning terminal circulating pump 33, single twin-stage
Switching valve 34, single twin-stage switching valve 35, fan coil 36, anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, the anti-icing fluid valve of falling liquid
62nd, the anti-icing fluid valve of falling liquid 63, the anti-icing fluid valve of falling liquid 65 and anti-icing fluid are poured out pump 66 and are constituted.Figure 43 is configured with anti-icing fluid fluid reservoir 57
The dilution anti-icing fluid 58 that storage expansion has more, other are just the same with Figure 39.
Figure 44, is the tower cold defrost configuration anti-icing fluid fluid reservoir twin-stage heat of this utility model surface cooling air heat exchanger crossing current
Pump air-conditioning is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray aproll device 9,
Cross-flow type wind-energy tower 40, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower blower fan 43,
Refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, coupling cycle pump 27, vaporizer 28, single twin-stage conversion
Valve 29, refrigeration compressor 30, condenser 31, expansion valve 32, air conditioning terminal circulating pump 33, single twin-stage switching valve 34, single twin-stage turn
Change valve 35, fan coil 36, anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, the anti-icing fluid valve of falling liquid 62, the anti-icing fluid valve of falling liquid 63,
The anti-icing fluid valve of falling liquid 65 and anti-icing fluid are poured out pump 66 and are constituted.Figure 44 is different from from Figure 43 that turriform formula is different, and other are just the same.
Figure 45, is the tower cold defrost configuration anti-icing fluid fluid reservoir of this utility model surface cooling air heat exchanger adverse current and coupling
Tank double stage heat pump air-conditioning is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow wind-energy tower
6th, at the top of surface cooler, tubular type sprays aproll device 10, spray aproll circulation pipe 13, sprays aproll circulating pump 14, anti-icing fluid 15, connects
Water pond 16, tower blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, coupling cycle pump 27, evaporation
Device 28, single twin-stage switching valve 29, refrigeration compressor 30, condenser 31, expansion valve 32, air conditioning terminal circulating pump 33, single twin-stage turn
Change valve 34, single twin-stage switching valve 35, fan coil 36, anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, the anti-icing fluid valve of falling liquid 62,
The anti-icing fluid valve of falling liquid 63, the anti-icing fluid valve of falling liquid 65, anti-icing fluid pour out pump 66 and coupling cycle tank 81 is constituted.Figure 41 is followed using coupling
Ring tank 81 constitutes prime and rear class coupling cycle heat-exchanging loop, and other are just the same with Figure 39.By coupling cycle during winter operation
The mono- twin-stages turn of Jing are circulated to coupling cycle tank 81 and by coupling cycle tank 81 in the water side of the condensed device of the circulation coupling water of pump 27 26
Changing valve 29 and coupling cycle pump 27 being back to 28 water side of second level vaporizer, prime heat is exchanged heat to second level evaporator with heat pump 28
Refrigerant side.Prime and rear class coupled and heat-exchange are completed using coupling cycle tank 81, other are identical with Figure 44.
Figure 46, is the tower cold defrost configuration anti-icing fluid fluid reservoir of this utility model surface cooling air heat exchanger crossing current and coupling
Tank double stage heat pump air-conditioning is embodied as structural representation.Dissipated by surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray
Water installations 9, cross-flow type wind-energy tower 40, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower
Blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, coupling cycle pump 27, vaporizer 28, Dan Shuan
Level conversion valve 29, refrigeration compressor 30, condenser 31, expansion valve 32, air conditioning terminal circulating pump 33, single twin-stage switching valve 34, list
Twin-stage switching valve 35, fan coil 36, anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, the anti-icing fluid valve of falling liquid 62, anti-icing fluid fall liquid
Valve 63, the anti-icing fluid valve of falling liquid 65, anti-icing fluid pour out pump 66 and coupling cycle tank 81 is constituted.Figure 46 is from Figure 45 except turriform formula is different
Outward, remaining is just the same.
Figure 47, is that the tower cold defrost configuration anti-icing fluid fluid reservoir twin-stage of this utility model surface cooling air heat exchanger adverse current stores
Energy heat pump air conditioner is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow wind-energy tower 6, table
Tubular type spray aproll device 10, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray at the top of cooler
16th, tower blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, coupling cycle pump 27, vaporizer
28th, single twin-stage switching valve 29, refrigeration compressor 30, condenser 31, expansion valve 32, air conditioning terminal circulating pump 33, single twin-stage conversion
Valve 34, single twin-stage switching valve 35, fan coil 36, accumulation of energy attemperater 37, energy storage circulation pump 38, output isolation heat exchanger 39,
It is anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, the anti-icing fluid valve of falling liquid 62, the anti-icing fluid valve of falling liquid 63, the anti-icing fluid valve of falling liquid 65, antifreeze
Liquid is poured out pump 66, domestic hot-water's rear pump 74, domestic hot-water's output interface 75 and tap water moisturizing interface 76 and is constituted.Figure 47 is profit
With the paddy electricity energy-storage air conditioner system that night is cheap.The hot water that condenser 31 is exported is stored during winter regenerative operation and be incubated in accumulation of energy
In water tank 37, the cheap heating operation of hot water deposited needed for discharging during peak electricity tariff on daytime.Accumulation of energy is by 38 Jing Dan Shuan of energy storage circulation pump
Level conversion valve 34 is back to accumulation of energy to 37 Jing of accumulation of energy attemperater output isolation 39 primary sides of heat exchanger by 31 water side of condenser and follows
Ring pump 38, heating hot water is stored in accumulation of energy attemperater 37.When air conditioning terminal heating runs, circulated by air conditioning terminal
33 circulating heating water Jing of pump output isolation 39 secondary sides of heat exchanger are back to air conditioning terminal circulating pump 33 to fan coil 36, by wind
Machine coil pipe 36 is run to indoor blowing hot-air heating.
Summer, by the mono- twin-stage switching valves 35 of 38 Jing of energy storage circulation pump by 26 water side of condenser to 37 Jing of accumulation of energy attemperater
Output isolation 39 primary side of heat exchanger is back to energy storage circulation pump 38, and chilled water is stored in accumulation of energy attemperater 37.
Figure 47 due to the heating hot water of accumulation of energy attemperater 37, by export the system at isolation heat exchanger 39 and air-conditioning end every
From, therefore, the heating hot water of accumulation of energy attemperater 37 is cleaning, it is possible to used as domestic hot-water.By domestic hot-water
Rear pump 74 supplies domestic hot-water by domestic hot-water's output interface 75, supplements tap water by tap water moisturizing interface 76.
Figure 48, is that the tower cold defrost configuration anti-icing fluid fluid reservoir twin-stage of this utility model surface cooling air heat exchanger crossing current stores
Energy heat pump air conditioner is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray aproll dress
Put 9, cross-flow type wind-energy tower 40, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16, tower blower fan
43rd, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, coupling cycle pump 27, vaporizer 28, single twin-stage turn
Change valve 29, refrigeration compressor 30, condenser 31, expansion valve 32, air conditioning terminal circulating pump 33, single twin-stage switching valve 34, single twin-stage
Switching valve 35, fan coil 36, anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, the anti-icing fluid valve of falling liquid 62, the anti-icing fluid valve of falling liquid
63rd, the anti-icing fluid valve of falling liquid 65, anti-icing fluid pours out pump 66, domestic hot-water's rear pump 74, domestic hot-water's output interface 75 and tap water
Moisturizing interface 76 is constituted., in addition to turriform formula, remaining is identical for Figure 48 and Figure 47.
Figure 49, is that the tower cold defrost configuration anti-icing fluid liquid storage of this utility model surface cooling air heat exchanger adverse current and drying are carried
Pure tank double stage heat pump air-conditioning is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow wind energy
Tubular type spray aproll device 10, spray aproll circulation pipe 13 at the top of tower 6, surface cooler, spray aproll circulating pump 14, anti-icing fluid 15,
Drip tray 16, tower air inlet 41, tower blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, coupling
Circulating pump 27, vaporizer 28, single twin-stage switching valve 29, refrigeration compressor 30, condenser 31, the circulation of expansion valve 32, air conditioning terminal
It is pump 33, single twin-stage switching valve 34, single twin-stage switching valve 35, fan coil 36, anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, anti-
Freeze the liquid valve of falling liquid 62, the anti-icing fluid valve of falling liquid 63, injection pump 67, anti-icing fluid drying purification tank 68, the anti-icing fluid drying of dilution anti-icing fluid
Heating secondary pump 69, anti-icing fluid heating heat exchanger 70, the anti-icing fluid valve of falling liquid 71, the drying heating of the anti-icing fluid valve of falling liquid 72, anti-icing fluid
Pump 73 and purification anti-icing fluid 77 are constituted.Figure 49 is independent anti-icing fluid drying purification configured behind in anti-icing fluid fluid reservoir 57
Tank 68, is easy to dilution anti-icing fluid 58 to pour out, pours into and heating, drying process, provides equipment to dilute the purification of anti-icing fluid 58 automatization
Basis.When anti-icing fluid 15 dilutes serious expansion, Jing spray aprolls circulating pump 14 pours out a certain amount of dilution anti-icing fluid 58, while
77 equivalent of purification anti-icing fluid after purification is injected into water receiving by the anti-icing fluid drying heating 69 Jing anti-icing fluid valve of falling liquid 72 of secondary pump
In disk 16, dilution anti-icing fluid 58 is added anti-icing fluid drying purification tank 68, this space-time by anti-icing fluid injection pump 67 is diluted by next step
The anti-icing fluid fluid reservoir 57 for getting off prepares to receive the dilution anti-icing fluid 58 that drip tray 16 is discharged next time.Injection anti-icing fluid drying is carried
Heating hot water is recycled to anti-icing fluid heating heat exchange by an anti-icing fluid drying pump 73 of heating by the dilution anti-icing fluid 58 in pure tank 68
The primary side of device 70 simultaneously exchanges heat to secondary side, circulates dilution 58 Jing anti-icing fluid of anti-icing fluid by anti-icing fluid drying heating secondary pump 69 and falls
By the secondary side of anti-icing fluid heating heat exchanger 70 to anti-icing fluid drying purification tank 68, dilution anti-icing fluid 58 flows through antifreeze liquid valve 71
Once heated by anti-icing fluid heating heat exchanger 70 during the secondary side of liquid heating heat exchanger 70, anti-icing fluid 77 is purified after water evaporates and is stored
Exist in anti-icing fluid drying purification tank 68, repeat the operation of drying purification next time.
Figure 50, is that the tower cold defrost configuration anti-icing fluid liquid storage of this utility model surface cooling air heat exchanger crossing current and drying are carried
Pure tank double stage heat pump air-conditioning is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement spray
Aproll device 9, cross-flow type wind-energy tower 40, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, drip tray 16,
Tower air inlet 41, tower blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, coupling cycle pump 27,
Vaporizer 28, single twin-stage switching valve 29, refrigeration compressor 30, condenser 31, expansion valve 32, air conditioning terminal circulating pump 33, Dan Shuan
Level conversion valve 34, single twin-stage switching valve 35, fan coil 36, anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, the anti-icing fluid valve of falling liquid
62nd, the anti-icing fluid valve of falling liquid 63, the anti-icing fluid valve of falling liquid 65, anti-icing fluid pour out pump 66, injection pump 67, the anti-icing fluid drying of dilution anti-icing fluid
Purification tank 68, anti-icing fluid drying heating secondary pump 69, anti-icing fluid heating heat exchanger 70, the anti-icing fluid valve of falling liquid 71, anti-icing fluid fall liquid
A valve 72, anti-icing fluid drying pump 73 of heating and purification anti-icing fluid 77 are constituted.Figure 50 from Figure 49 in addition to turriform formula is different, other
It is just the same.
Figure 51, is that the tower cold defrost configuration anti-icing fluid liquid storage of this utility model surface cooling air heat exchanger adverse current and drying are carried
Pure tank double stage heat pump energy accumulation air conditioner is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, reverse-flow
Tubular type spray aproll device 10, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid at the top of wind-energy tower 6, surface cooler
15th, drip tray 16, tower air inlet 41, tower blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26,
Coupling cycle pump 27, vaporizer 28, single twin-stage switching valve 29, refrigeration compressor 30, condenser 31, expansion valve 32, air conditioning terminal
Circulating pump 33, single twin-stage switching valve 34, single twin-stage switching valve 35, fan coil 36, accumulation of energy attemperater 37, energy storage circulation pump
38th, output isolation heat exchanger 39, anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, the anti-icing fluid valve of falling liquid 62, the anti-icing fluid valve of falling liquid
63rd, the anti-icing fluid valve of falling liquid 65, anti-icing fluid pours out pump 66, dilution anti-icing fluid injection pump 67, anti-icing fluid drying purification tank 68, anti-icing fluid
Drying heating secondary pump 69, anti-icing fluid heating heat exchanger 70, the anti-icing fluid valve of falling liquid 71, the drying of the anti-icing fluid valve of falling liquid 72, anti-icing fluid
Pump 73 of heating, domestic hot-water's rear pump 74, domestic hot-water's output interface 75, tap water moisturizing interface 76 and purification anti-icing fluid
77 are constituted.
Figure 52, is that the tower cold defrost configuration anti-icing fluid liquid storage of this utility model surface cooling air heat exchanger crossing current and drying are carried
Pure tank double stage heat pump energy accumulation air conditioner is embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, fin 3, positive displacement
Spray aproll device 9, cross-flow type wind-energy tower 40, spray aproll circulation pipe 13, spray aproll circulating pump 14, anti-icing fluid 15, water receiving
Disk 16, tower air inlet 41, tower blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser 26, coupling cycle
Pump 27, vaporizer 28, single twin-stage switching valve 29, refrigeration compressor 30, condenser 31, expansion valve 32, air conditioning terminal circulating pump 33,
Single twin-stage switching valve 34, single twin-stage switching valve 35, fan coil 36, accumulation of energy attemperater 37, energy storage circulation pump 38, output isolation
Heat exchanger 39, anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, the anti-icing fluid valve of falling liquid 62, the anti-icing fluid valve of falling liquid 63, anti-icing fluid fall liquid
It is secondary that valve 65, anti-icing fluid pours out pump 66, dilution anti-icing fluid injection pump 67, anti-icing fluid drying purification tank 68, anti-icing fluid drying heating
Pump 69, anti-icing fluid heating heat exchanger 70, the anti-icing fluid valve of falling liquid 71, the anti-icing fluid valve of falling liquid 72, anti-icing fluid drying pump 73 of heating,
Domestic hot-water's rear pump 74, domestic hot-water's output interface 75, tap water moisturizing interface 76 and purification anti-icing fluid 77 are constituted.
Figure 53, is the tower cold defrost configuration anti-icing fluid fluid reservoir of this utility model surface cooling air heat exchanger adverse current, coupling
Tank and drying purification tank double stage heat pump energy accumulation air conditioner are embodied as structural representation.By surface cooling air heat exchanger 1, coil pipe 2, wing
Tubular type spray aproll device 10, spray aproll circulation pipe 13, spray aproll circulation at the top of piece 3, reverse-flow wind-energy tower 6, surface cooler
Pump 14, anti-icing fluid 15, drip tray 16, tower air inlet 41, tower blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve
25th, condenser 26, coupling cycle pump 27, vaporizer 28, single twin-stage switching valve 29, refrigeration compressor 30, condenser 31, expansion valve
32nd, air conditioning terminal circulating pump 33, single twin-stage switching valve 34, single twin-stage switching valve 35, fan coil 36, accumulation of energy attemperater 37,
It is energy storage circulation pump 38, output isolation heat exchanger 39, anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, the anti-icing fluid valve of falling liquid 62, antifreeze
The liquid valve of falling liquid 63, the anti-icing fluid valve of falling liquid 65, anti-icing fluid pour out pump 66, dilution anti-icing fluid injection pump 67, anti-icing fluid drying purification tank
68th, anti-icing fluid drying heating secondary pump 69, anti-icing fluid heating heat exchanger 70, the anti-icing fluid valve of falling liquid 71, the anti-icing fluid valve of falling liquid 72, prevent
Freeze liquid drying pump 73 of heating, domestic hot-water's rear pump 74, domestic hot-water's output interface 75, tap water moisturizing interface 76, carry
Pure anti-icing fluid 77 and coupling cycle tank 81 are constituted.
Figure 54:It is the tower cold defrost configuration anti-icing fluid fluid reservoir of this utility model surface cooling air heat exchanger crossing current, coupling
Tank and drying purification tank double stage heat pump energy accumulation air conditioner are embodied as structural representation;By surface cooling air heat exchanger 1, coil pipe 2, wing
It is piece 3, positive displacement spray aproll device 9, cross-flow type wind-energy tower 40, spray aproll circulation pipe 13, spray aproll circulating pump 14, antifreeze
Liquid 15, drip tray 16, tower air inlet 41, tower blower fan 43, refrigeration compressor 20, four-way change-over valve 21, expansion valve 25, condenser
26th, coupling cycle pump 27, vaporizer 28, single twin-stage switching valve 29, refrigeration compressor 30, condenser 31, expansion valve 32, air-conditioning end
End circulating pump 33, single twin-stage switching valve 34, single twin-stage switching valve 35, fan coil 36, accumulation of energy attemperater 37, energy storage circulation pump
38th, output isolation heat exchanger 39, anti-icing fluid fluid reservoir 57, dilution anti-icing fluid 58, the anti-icing fluid valve of falling liquid 62, the anti-icing fluid valve of falling liquid
63rd, the anti-icing fluid valve of falling liquid 65, anti-icing fluid pours out pump 66, dilution anti-icing fluid injection pump 67, anti-icing fluid drying purification tank 68, anti-icing fluid
Drying heating secondary pump 69, anti-icing fluid heating heat exchanger 70, the anti-icing fluid valve of falling liquid 71, the drying of the anti-icing fluid valve of falling liquid 72, anti-icing fluid
Pump 73 of heating, domestic hot-water's rear pump 74, domestic hot-water's output interface 75, tap water moisturizing interface 76, purification anti-icing fluid
77 and coupling cycle tank 81 constitute.
Know-why of the present utility model is described above in association with specific embodiment.These descriptions are intended merely to explain this reality
With new principle, and the restriction to this utility model protection domain can not be construed to by any way.Based on explanation herein,
Those skilled in the art associates other specific embodiments of the present utility model by need not paying performing creative labour,
These modes are fallen within protection domain of the present utility model.
Claims (31)
1. a kind of cold defrosting type wind energy heat pump, it is characterised in that:Aproll device and surface cooling air heat-exchange are sprayed including anti-icing fluid
Device (1), the anti-icing fluid spray aproll device are arranged on surface cooling air heat exchanger (1), for surface cooling air heat-exchange
Anti-icing fluid (15) is sprayed on the coil pipe (2) and fin (3) of device (1) and realizes cold defrost.
2. cold defrosting type wind energy heat pump according to claim 1, it is characterised in that the anti-icing fluid sprays aproll device bag
Positive displacement spray aproll device (9), drip tray (16) are included, and connection is used for the circulation that anti-icing fluid (15) is circulated therebetween
Pipeline;
Positive displacement spray aproll device (9) is provided below spray nozzle (8), and the spray nozzle (8) is for surface cooling air
Anti-icing fluid is sprayed on the coil pipe (2) and fin (3) of heat exchanger (1) or cooling water is sent forth.
3. cold defrosting type wind energy heat pump according to claim 1, it is characterised in that the anti-icing fluid sprays aproll device bag
Tubular type spray aproll device (10), drip tray (16) at the top of surface cooler are included, and connection is used for anti-icing fluid (15) therebetween
The circulation line of circulation;
At the top of described surface cooler, tubular type spray aproll device (10) at least sprays aproll device by a tubular type and constitutes, under its pipe
Portion is provided with spray nozzle (8), and the spray nozzle (8) is sprayed for the coil pipe (2) to surface cooling air heat exchanger (1) and fin (3)
Anti-icing fluid (15) sends cooling water forth.
4. cold defrosting type wind energy heat pump according to claim 1, it is characterised in that the anti-icing fluid sprays aproll device bag
Tubular type spray aproll device (10) at the top of surface cooler, surface cooler side pipe formula spray aproll device (7), drip tray (16) are included, and
Connection surface cooler head tube formula spray aproll device (10), surface cooler side pipe formula spray aproll device (7) and drip tray (16) it
Between be used for anti-icing fluid (15) or cooling water circulation circulation line;
At the top of described surface cooler, tubular type spray aproll device (10) at least sprays aproll device by a tubular type and constitutes, under its pipe
Portion is equipped with spray nozzle (8), and the spray nozzle (8) is sprayed for the coil pipe (2) to surface cooling air heat exchanger (1) and fin (3)
Anti-icing fluid (15) sends cooling water forth, and described surface cooler side pipe formula spray aproll device (7) is at least by side and a tubular type
Spray aproll device is constituted, and the tube side part is equipped with spray nozzle (8) towards coil pipe (2) and fin (3) direction, and spray nozzle (8) is used
In (15) or sending cooling water forth to surface cooling air heat exchanger (1) one or both sides spray anti-icing fluid.
5. cold defrosting type wind energy heat pump according to claim 1, it is characterised in that the anti-icing fluid sprays aproll device bag
Include tubular type at the top of reverse-flow wind-energy tower (6), tower air inlet (41), surface cooler to spray aproll device (10), tower blower fan (43) and connect
Between tubular type spray aproll device (10) and for anti-icing fluid at the top of water pond (16), and connection drip tray (16) and surface cooler
Or cooling water circulation circulation line (15);
Described surface cooling air heat exchanger (1) is configured under interior tubular type spray aproll device (10) of reverse-flow wind-energy tower (6)
Face and above tower air inlet (41), at the top of described surface cooler, tubular type spray aproll device (10) is configured in tower blower fan (43)
Below and above surface cooling air heat exchanger (1), described drip tray (16) is configured in the bottom of reverse-flow wind-energy tower (6)
Portion, described tower air inlet (41) are configured between drip tray (16) and surface cooling air heat exchanger (1), described surface cooler top
Portion's tubular type spray aproll device (10) configures spray nozzle (8) below.
6. cold defrosting type wind energy heat pump according to claim 1, it is characterised in that the anti-icing fluid sprays aproll device bag
Include cross-flow type wind-energy tower (40), positive displacement spray equipment (9), tower blower fan (43), anti-icing fluid (15) and drip tray (16), Yi Jilian
Connect;
Described surface cooling air heat exchanger (1) is configured under the positive displacement spray equipment (9) in cross-flow type wind-energy tower (40)
Face and above drip tray (16), described drip tray (16) is configured in the bottom of cross-flow type wind-energy tower (40), described appearance
Product formula spray equipment (9) configures spray nozzle (8) below.
7. the cold defrosting type wind energy heat pump according to Claims 2 or 3 or 4, it is characterised in that also including outdoor fan
(17), refrigeration compressor (20), four-way change-over valve (21), cold-hot wind air conditioning terminal (22), indoor cold-hot wind heat exchanger (23), room
Interior air-conditioning draught fan (24) and expansion valve (25);
One end of described surface cooling air heat exchanger (1) is connected with the b of four-way change-over valve (21) by pipeline, and surface cooling is empty
The other end of gas heat exchanger (1) is connected with one end of expansion valve (25) by pipeline, described refrigeration compressor (20) aerofluxuss
End is connected with a ends of four-way change-over valve (21), and refrigeration compressor (20) suction end is connected with the c ends of four-way change-over valve (21),
The d ends of four-way change-over valve (21) are connected with one end of indoor cold-hot wind heat exchanger (23), indoor cold-hot wind heat exchanger (23)
The other end is connected with the other end of expansion valve (25), and described cold-hot wind air conditioning terminal (22) is at least constituted by one.
8. cold defrosting type wind energy heat pump according to claim 7, it is characterised in that also including recuperation of heat heat exchange coil
(44), recuperation of heat water tank (45), anti-icing fluid drying sublimation pump (46) and anti-icing fluid drying purification coil pipe (47);
Described recuperation of heat heat exchange coil (44) is configured in recuperation of heat water tank (45), its one end and refrigeration compressor (20)
Aerofluxuss are connected, and the other end is connected with a ends of four-way change-over valve (21), described anti-icing fluid drying sublimation pump (46) one end with
Recuperation of heat water tank (45) is connected, and one end that the other end dries purification coil pipe (47) with anti-icing fluid is connected, and described is antifreeze
The other end of liquid drying purification coil pipe (47) is connected with recuperation of heat water tank (45), described anti-icing fluid drying purification coil pipe
(47) it is configured in the anti-icing fluid of drip tray (16).
9. the cold defrosting type wind energy heat pump according to Claims 2 or 3 or 4, it is characterised in that also change including surface cooling air
Hot device (1), outdoor fan (17), refrigeration compressor (20), domestic hot-water's water tank (11), domestic hot-water's heating coil (12),
Expansion valve (25), tap water moisturizing interface (76) and domestic hot-water's output interface (42) constitute cold defrosting type wind energy heat pump life heat
Water or energy storage air conditioner;
Described domestic hot-water's heating coil (12) one end is connected with refrigeration compressor (20) exhaust end, domestic hot-water's heating dish
The other end of pipe (12) is connected with one end of expansion valve (25);
Be connected and supplement tap water with tap water by tap water moisturizing interface (76), by domestic hot-water's output interface (42) with
Hot water supply system connects and supplies domestic hot-water;
When including four-way change-over valve (21), heat pump is energy storage air conditioner, and now, domestic hot-water's water tank (11) constitutes air-conditioning
Hot and cold matchmaker's water water tank, domestic hot-water's output interface (42) and tap water moisturizing interface (76) and air conditioning terminal fan unit piping
System connection, constitutes air conditioning terminal output system.
10. the cold defrosting type wind energy heat pump according to Claims 2 or 3 or 4, it is characterised in that also including outdoor fan
(17), refrigeration compressor (20), expansion valve (25), condenser (26), domestic hot-water's circulating pump (78), domestic hot-water's water tank
(79), tap water moisturizing interface (76) and domestic hot-water's output interface (42) constitute cold defrosting type wind energy heat pump domestic hot-water or storage
Can air-conditioning device;
One end of described condenser (26) refrigerant side is connected with refrigeration compressor (20) exhaust end, condenser (26) refrigeration
The other end of agent side is connected with expansion valve (25), one end connection domestic hot-water's water tank (79) of condenser (26) water side, cold
The other end of condenser (26) water side is connected with domestic hot-water's water tank (79) by domestic hot-water's circulating pump (78);
Be connected and supplement tap water with tap water by tap water moisturizing interface (76), by domestic hot-water's output interface (42) with
Hot water supply system connects and supplies domestic hot-water;
When including four-way change-over valve (21), heat pump constitutes energy storage air conditioner, and now, domestic hot-water's water tank (11) constitutes empty
Adjust hot and cold matchmaker's water water tank, domestic hot-water's output interface (42) and tap water moisturizing interface (76) and air conditioning terminal fan coil
System connects, and constitutes air conditioning terminal output system.
The 11. cold defrosting type wind energy heat pumps according to Claims 2 or 3 or 4, it is characterised in that also including outdoor fan
(17), refrigeration compressor (20), four-way change-over valve (21), expansion valve (25), condenser (26), air conditioning terminal circulating pump (33) and
Fan coil (36);
One end of one end connecting fan coil pipe (36) of described condenser (26) water side, the other end of condenser (26) water side lead to
The other end that air conditioning terminal circulating pump (33) is crossed with fan coil (36) is connected.
12. cold defrosting type wind energy heat pumps according to claim 11, it is characterised in that by the outdoor fan (17), system
Cold compressor (20), four-way change-over valve (21), expansion valve (25) and condenser (26) constitute first order heat pump, by refrigeration compressor
(30), condenser (31), expansion valve (32), vaporizer (28) constitute second level heat pump, by coupling cycle pump (27) and pipeline structure
Into coupled and heat-exchange closed circuit, air conditioning terminal system is constituted by air conditioning terminal circulating pump (33) and fan coil (36).
13. cold defrosting type wind energy heat pumps according to claim 11, it is characterised in that by the outdoor fan (17), system
Cold compressor (20), expansion valve (25), condenser (26), refrigeration compressor (30), condenser (31), expansion valve (32), evaporation
Device (28), coupling cycle pump (27), domestic hot-water's circulating pump (78), domestic hot-water's water tank (79), tap water moisturizing interface
And domestic hot-water's output interface (42) constitutes cold defrosting type twin-stage wind energy heat pump domestic hot-water or energy storage air conditioner (76).
14. heat pumps according to claim 5 or 6, it is characterised in that also change including refrigeration compressor (20), four-way
To valve (21), cold-hot wind air conditioning terminal (22), indoor cold-hot wind heat exchanger (23), room conditioning blower fan (24) and expansion valve (25)
Constitute inverse, the tower cold defrost heat pump air conditioner of crossing current wind energy.
15. heat pumps according to claim 14, it is characterised in that the heat pump also includes recuperation of heat heat exchange coil
(44), recuperation of heat water tank (45), anti-icing fluid drying sublimation pump (46) and anti-icing fluid drying purification coil pipe (47);
Described recuperation of heat heat exchange coil (44) is configured in recuperation of heat water tank (45), its one end and refrigeration compressor (20)
Aerofluxuss are connected, and the other end is connected with a ends of four-way change-over valve (21), described anti-icing fluid drying sublimation pump (46) one end with
Recuperation of heat water tank (45) is connected, and one end that the other end dries purification coil pipe (47) with anti-icing fluid is connected, and described is antifreeze
The other end of liquid drying purification coil pipe (47) is connected with recuperation of heat water tank (45), described anti-icing fluid drying purification coil pipe
(47) it is configured in the anti-icing fluid of drip tray (16).
16. according to claim 5 or 6 cold defrosting type wind energy heat pump, it is characterised in that also including refrigeration compressor (20),
Four-way change-over valve (21), expansion valve (25), condenser (26), air conditioning terminal circulating pump (33) and fan coil (36) constitute it is inverse,
Crossing current wind-energy tower coldization formula heat pump air conditioner.
17. according to claim 5 or 6 cold defrosting type wind energy heat pump, it is characterised in that also including refrigeration compressor (20),
Expansion valve (25), condenser (26), domestic hot-water's circulating pump (78), domestic hot-water's water tank (79), tap water moisturizing interface
And domestic hot-water's output interface (42) constitutes cold defrosting type wind energy heat pump domestic hot-water or energy storage air conditioner (76).
18. according to claim 16 cold defrosting type wind energy heat pump, it is characterised in that also including anti-icing fluid fluid reservoir (57) and
Anti-icing fluid pours out pump (66);
One end of described anti-icing fluid fluid reservoir (57) is by tubular type at the top of pipeline and spray aproll circulating pump (14) and surface cooler
Spray aproll device (10) connection, the other end of anti-icing fluid fluid reservoir (57) are connected with drip tray (16) by pipeline.
19. according to claim 16 heat pump, it is characterised in that also including anti-icing fluid drying purification coil pipe (47);
The two ends of anti-icing fluid drying purification coil pipe (47) are connected with the two ends of condenser (26) water side by pipeline respectively.
20. cold defrosting type wind energy heat pumps according to claim 6, it is characterised in that go back refrigeration compressor (20), four-way commutation
Valve (21), cold-hot wind air conditioning terminal (22), indoor cold-hot wind heat exchanger (23), room conditioning blower fan (24), expansion valve (25), system
Cold compressor (80), four-way change-over valve (49), expansion valve (51), cold-hot wind air conditioning terminal (54), indoor cold-hot wind heat exchanger
And room conditioning blower fan (56) constitutes the double wind energy heat pump air-conditioning devices of the tower cold defrost of crossing current (55).
21. cold defrosting type wind energy heat pumps according to claim 6, it is characterised in that also including refrigeration compressor (20), four-way
Reversal valve (21), expansion valve (25), condenser (26), air conditioning terminal circulating pump (33), fan coil (36), refrigeration compressor
(80), four-way change-over valve (49), condenser (50), expansion valve (51), air conditioning terminal circulating pump (52), fan coil (53) are constituted
The double wind energy heat pump air-conditioning devices of tower cold defrost of flowing over.
22. according to claim 18 cold defrosting type wind energy heat pump, it is characterised in that also include by anti-icing fluid fluid reservoir
(57), anti-icing fluid drying purification heat exchanger (59), drying purification heat exchanger secondary pump (60) and drying purification pump of heat exchanger
(61) constitute fluid reservoir drying purification heat exchanger wind energy heat pump air-conditioning device.
23. cold defrosting type wind energy heat pumps according to claim 16, it is characterised in that by the surface cooling air heat exchanger
(1), refrigeration compressor (20), four-way change-over valve (21), expansion valve (25) and condenser (26) constitute first order heat pump, by freezing
Compressor (30), condenser (31), expansion valve (32), vaporizer (28) constitute second level heat pump, by coupling cycle pump (27) and
Pipeline constitutes coupled and heat-exchange closed circuit, constitutes air conditioning terminal system by air conditioning terminal circulating pump (33) and fan coil (36).
24. cold defrosting type wind energy heat pumps according to claim 23, it is characterised in that also including cold compressor (20), swollen
Swollen valve (25), condenser (26), refrigeration compressor (30), condenser (31), expansion valve (32), vaporizer (28), coupling cycle
Pump (27), domestic hot-water's circulating pump (78), domestic hot-water's water tank (79), tap water moisturizing interface (76) and domestic hot-water output
Interface (42) constitutes cold defrosting type two-stage wind energy heat pump domestic hot-water or energy storage air conditioner.
25. cold defrosting type wind energy heat pumps according to claim 23, it is characterised in that also including anti-icing fluid fluid reservoir (57)
Pump (66) is poured out with anti-icing fluid;
One end of described anti-icing fluid fluid reservoir (57) is by tubular type at the top of pipeline and spray aproll circulating pump (14) and surface cooler
Spray aproll device (10) connection, the other end of anti-icing fluid fluid reservoir (57) pour out pump (66) and water receiving by pipeline and anti-icing fluid
Disk (16) is connected.
26. cold defrosting type wind energy heat pumps according to claim 25, it is characterised in that also including coupling cycle tank (81),
Coupling pot type recuperated cycle loop is made up of coupling cycle pump (27), pipeline and coupling cycle tank (81), is circulated by air conditioning terminal
Pump (33) and fan coil (36) constitute air conditioning terminal output loop;
One end and one end and the wind of condenser (31) water side of described coupling cycle tank (81) one end and condenser (26) water side
One end of machine coil pipe (36) is connected, and the other end Jing pipelines of coupling cycle tank (81) are connected with one end of vaporizer (28) water side
Connect, the other end of vaporizer (28) water side is connected with the other end of condenser (26) water side by coupling cycle pump (27).
27. cold defrosting type wind energy heat pumps according to claim 25, it is characterised in that also including accumulation of energy attemperater
(37) air-conditioner energy-accumulation device is constituted, and by accumulation of energy attemperater (37), energy storage circulation pump (38) and output isolation heat exchanger (39),
Air conditioning terminal output loop is constituted by air conditioning terminal circulating pump (33) and fan coil (36);
One end of described accumulation of energy attemperater (37) and one end of condenser (31) water side, one end of vaporizer (28) water side and
One end of condenser (26) water side is connected, and the other end of accumulation of energy attemperater (37) isolates one end of heat exchanger (39) with output
Connection, output isolation heat exchanger (39) the other end be connected with one end of energy storage circulation pump (38), energy storage circulation pump (38) it is another
One end and condenser (31) water side, the other end of vaporizer (28) water side and condenser (26) the water side other end is connected.
28. cold defrosting type wind energy heat pumps according to claim 23, it is characterised in that by anti-icing fluid fluid reservoir (57) and anti-
Jelly liquid is poured out pump (67) composition dilution anti-icing fluid liquid storage and pours out device, is dried by anti-icing fluid drying purification tank (68), anti-icing fluid and is added
Hot secondary pump (69), anti-icing fluid heating heat exchanger (70) and anti-icing fluid drying pump (73) of heating constitutes dilution anti-icing fluid drying
Purification heater.
29. cold defrosting type wind energy heat pumps according to claim 28, it is characterised in that also include by accumulation of energy attemperater
(37), energy storage circulation pump (38) and output isolation heat exchanger (39) constitutes air-conditioner energy-accumulation device, by air conditioning terminal circulating pump (33)
Air conditioning terminal output loop is constituted with fan coil (36).
30. cold defrosting type wind energy heat pumps according to claim 29, it is characterised in that also including coupling cycle tank (81),
And coupling cycle loop is constituted by coupling cycle tank (81).
The 31. cold defrosting type wind energy heat pumps according to claim 8 or 15 or 19 or 22 or 28 or 29 or 30, its feature exist
In described anti-icing fluid drying purifies coil pipe (47) or anti-icing fluid heating heat exchanger (59) or anti-icing fluid heating heat exchanger (70) institute
The thermal source for needing can also be that electrical heating, remaining used heat, solar energy or boiler heat source are substituted.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620769849.XU CN206176840U (en) | 2016-07-20 | 2016-07-20 | White formula wind energy heat pump of coldization |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620769849.XU CN206176840U (en) | 2016-07-20 | 2016-07-20 | White formula wind energy heat pump of coldization |
Publications (1)
Publication Number | Publication Date |
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CN206176840U true CN206176840U (en) | 2017-05-17 |
Family
ID=58674290
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Cited By (4)
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CN106440578A (en) * | 2016-07-20 | 2017-02-22 | 王全龄 | Cooling defrosting type wind energy heat pump |
CN107687715A (en) * | 2017-07-28 | 2018-02-13 | 珠海格力电器股份有限公司 | Air-conditioning system and its control method |
CN107763894A (en) * | 2017-11-17 | 2018-03-06 | 王全龄 | A kind of integral type energy tower heat pump |
CN110411069A (en) * | 2018-04-26 | 2019-11-05 | 北京四季通能源科技有限公司 | Air source heat pump evaporator tower and air source heat pump system |
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2016
- 2016-07-20 CN CN201620769849.XU patent/CN206176840U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106440578A (en) * | 2016-07-20 | 2017-02-22 | 王全龄 | Cooling defrosting type wind energy heat pump |
CN107687715A (en) * | 2017-07-28 | 2018-02-13 | 珠海格力电器股份有限公司 | Air-conditioning system and its control method |
CN107763894A (en) * | 2017-11-17 | 2018-03-06 | 王全龄 | A kind of integral type energy tower heat pump |
CN110411069A (en) * | 2018-04-26 | 2019-11-05 | 北京四季通能源科技有限公司 | Air source heat pump evaporator tower and air source heat pump system |
CN110411069B (en) * | 2018-04-26 | 2024-02-13 | 北京四季通能源科技有限公司 | Air source heat pump evaporator tower and air source heat pump system |
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