CN107036215A - A kind of intelligent dual intensity Bieffect air conditioning - Google Patents

A kind of intelligent dual intensity Bieffect air conditioning Download PDF

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Publication number
CN107036215A
CN107036215A CN201710422272.4A CN201710422272A CN107036215A CN 107036215 A CN107036215 A CN 107036215A CN 201710422272 A CN201710422272 A CN 201710422272A CN 107036215 A CN107036215 A CN 107036215A
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CN
China
Prior art keywords
water
pipe
air
conditioning
temperature
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Application number
CN201710422272.4A
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Chinese (zh)
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CN107036215B (en
Inventor
高明云
高升堂
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山东村空调有限公司
山东一村空调有限公司
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Priority to CN201710422272.4A priority Critical patent/CN107036215B/en
Publication of CN107036215A publication Critical patent/CN107036215A/en
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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F5/00Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
    • F24F5/0007Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater cooling apparatus specially adapted for use in air-conditioning
    • F24F5/001Compression cycle type
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/30Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/62Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/70Control systems characterised by their outputs; Constructional details thereof
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/70Control systems characterised by their outputs; Constructional details thereof
    • F24F11/72Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure
    • F24F11/74Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling air flow rate or air velocity
    • F24F11/77Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling air flow rate or air velocity by controlling the speed of ventilators
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/70Control systems characterised by their outputs; Constructional details thereof
    • F24F11/80Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air
    • F24F11/83Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air by controlling the supply of heat-exchange fluids to heat-exchangers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/30Arrangement or mounting of heat-exchangers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F2110/00Control inputs relating to air properties
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F5/00Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
    • F24F5/0007Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater cooling apparatus specially adapted for use in air-conditioning
    • F24F5/0017Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater cooling apparatus specially adapted for use in air-conditioning using cold storage bodies, e.g. ice
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/62Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
    • F24F11/63Electronic processing
    • F24F11/64Electronic processing using pre-stored data
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/62Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
    • F24F11/63Electronic processing
    • F24F11/65Electronic processing for selecting an operating mode
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/70Control systems characterised by their outputs; Constructional details thereof
    • F24F11/80Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air
    • F24F11/83Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air by controlling the supply of heat-exchange fluids to heat-exchangers
    • F24F11/84Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air by controlling the supply of heat-exchange fluids to heat-exchangers using valves
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F2140/00Control inputs relating to system states
    • F24F2140/10Pressure
    • F24F2140/12Heat-exchange fluid pressure
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/40Geothermal heat-pumps
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]
    • Y02B30/70Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/14Thermal energy storage

Abstract

The invention discloses a kind of intelligent dual intensity Bieffect air conditioning, belong to indoor temperature regulating device field.Specifically related to a kind of intelligent dual intensity Bieffect air conditioning installs hot-swappable fans, water circulation system, the freon circulatory system and heat exchanger including opening up air outlet on air conditioner casing, air conditioner casing in air conditioner casing.This product, by running experiment repeatedly, is opened and closed so that the energy-saving effect of the product is greatly reinforced while both water air-conditioning and refrigerant circulation air-conditioning advantage is combined by coordinating two sets of circulatory systems under refrigeration and heating mode respectively.This product up-gradation transformation simultaneously, on the basis of early production, add the various functions design of detail hommization, preheating function, anti-blow a cold wind over function, remote on-off operating function and coolant compressor temperature control function are for example blown, with this so that the using effect and usage experience of the product are obtained for new lifting.

Description

A kind of intelligent dual intensity Bieffect air conditioning
Technical field
The invention belongs to indoor temperature regulating device field, and in particular to a kind of intelligent dual intensity Bieffect air conditioning.
Background technology
Traditional freon circulation air conditioner and water air-conditioning be widely used to social production life every field, but by Limited, cut both ways in use in the structure and operation principle of itself.Applicant asks to solve this reality technology Topic, by research and probe, Patent No. has been applied in 2012:201210075894.1 patent name is:A kind of pair of medium circulation The patent of invention of changes in temperature humidifying air-conditioner, and be directed to the upgrading of the new product always, with development in science and technology bring it is soft Part function becomes increasingly abundant, and applicant combines the usage experience of the product, develops New Generation of Intelligent dual intensity Bieffect air conditioning.So as to enter One step lifts the practicality of air-conditioning, has saved consumption of the product to environmental energy.
The content of the invention
The technical problems to be solved by the invention are to provide a kind of intelligent dual intensity Bieffect air conditioning, and regulation that can be easily and effectively is occupied Room temperature.
The technical solution adopted for the present invention to solve the technical problems is:A kind of intelligent dual intensity Bieffect air conditioning is provided, including Air outlet is opened up on air conditioner casing, air conditioner casing, hot-swappable fans, water circulation system, freon cyclic system are installed in air conditioner casing System and heat exchanger;Heat exchanger includes water heat exchanger tube and freon heat exchanger tube, and two groups of described pipelines are mutually coiled or are laminated Together, but do not connect mutually;Water circulation system connects the water heat exchanger tube of heat exchanger, freon circulatory system connection heat exchanger Freon heat exchanger tube;Water circulation system includes water pump, water inlet pipe, water evaporation pipe, return pipe and outlet pipe, one end of water inlet pipe Water pump is installed and inserted in underground water source, the other end connection water evaporation pipe of water inlet pipe, water evaporation pipe connection return pipe, return pipe Connect the arrival end of water heat exchanger tube in heat exchanger, the port of export of water heat exchanger tube connects one end of outlet pipe, outlet pipe it is another Terminate back underground water source;
The freon circulatory system includes freon circulation line, four-way reversing valve, freon evaporation tube, fluid reservoir and compressor, The four-way interface of described four-way reversing valve connects freon evaporation tube, fluid reservoir, compression respectively by freon circulation line One end of freon heat exchanger tube in machine and heat exchanger;The other end connection freon evaporation tube of freon heat exchanger tube;Fluid reservoir Connect compressor;
It is characterized in that operation of air conditioner includes highly effective refrigeration pattern, energy-conservation refrigeration mode, efficient heating mode, energy-saving heat-production pattern With intelligent heating mode;
When air-conditioning is in efficient heating mode or highly effective refrigeration pattern, water circulation system and the same luck of the freon circulatory system OK;When air-conditioning is in energy-saving heat-production pattern or energy-conservation refrigeration mode, the freon circulatory system stops operation, and water circulation system is only Vertical operation;Before the efficient heating mode of starting of air conditioner or highly effective refrigeration pattern, first start water circulation and pre-actuate pattern;
Water circulation system also includes intelligent electromagnetic regulation device, and intelligent electromagnetic regulation device includes the first intelligent drainage branch road and the Water inlet pipe, first threeway are accessed in two drainage branch roads, one end of the described first intelligent drainage branch road by the first three-way interface Interface is arranged between water pump and water evaporation pipe;The other end of first intelligent drainage branch road accesses water outlet by the second three-way interface Pipe, second three-way interface is arranged on water heat exchanger tube and between underground water source;The is set on the first intelligent drainage branch road One magnetic valve, sets the second magnetic valve between water evaporation pipe and the first three-way interface;The one of described second intelligent drainage branch road End connects outlet pipe by the 3rd three-way interface, the 3rd three-way interface be arranged on the second three-way interface and underground water source it Between;The other end of second intelligent drainage branch road connects return pipe by the 4th three-way interface, and the 4th three-way interface is arranged on Between water evaporation pipe and water heat exchanger tube;3rd magnetic valve is set between the second triple valve and underground water source;Draw in the second intelligence Flow and the 4th magnetic valve is set on branch road;When air-conditioning is in intelligent heating mode, the magnetic valve of unlatching first and the 4th closes second With the 3rd magnetic valve, underground water is along the water heat exchanger tube for entering heat exchanger by water inlet pipe and the first intelligent drainage branch road, with evaporation After device heat exchanger tube heat-shift, underground water source is being flowed back to via return pipe and the second intelligent drainage branch road;When air-conditioning is in efficiently Refrigeration mode, energy-conservation refrigeration mode, efficient heating mode and energy-saving heat-production pattern, open second and the 3rd magnetic valve, close the One and the 4th magnetic valve.
It is preferred that, air-conditioning also includes lacking fluorine protection control device, blows waste heat control device, anti-ultrahigh temperature device and high pressure guarantor Protection unit;Under efficient heating mode and the highly effective refrigeration pattern, lack fluorine protection control device and start scarce fluorine defencive function, blow Waste heat apparatus, which starts, blows waste heat function, and anti-superelevation temperature protection device starts anti-superhigh temperature defencive function, and high pressure protector starts High voltage protective function;
Described scarce fluorine protection control device includes flowmeter, and the flowmeter is arranged on the circulation pipe in the freon circulatory system Lu Zhong;When the fluorine flow that flowmeter is detected in the freon circulatory system is less than preset value, the scarce fluorine protection control device Stopping signal can be fed back to air-conditioning, make air-conditioning stop operation;
The waste heat control device that blows includes preheating temperature sensor, and the preheating temperature sensor is arranged in air conditioner casing, When the temperature that preheating temperature sensor is detected in air conditioner casing is higher than preset value, water circulation system and the freon circulatory system After stopping operation, hot-swappable fans are continued to run with, until the temperature in air conditioner casing is less than preset value;
The anti-ultrahigh temperature device includes circuit board temperature sensor, and the circuit board temperature sensor is capable of aware circuit plate Real time temperature, when the real time temperature of circuit board is higher than preset value, the circuit board temperature sensor can feed back stopping signal To air-conditioning, air-conditioning is made to stop operation;
The high pressure protector includes pressure sensor, and the pressure sensor is arranged on the circulation in the freon circulatory system In pipeline, when the pressure that pressure sensor is detected in circulation line is higher than preset value, the pressure sensor can feed back Stopping signal makes air-conditioning stop operation to air-conditioning.
It is preferred that, in addition to anti-cryoprotection device;Under highly effective refrigeration pattern, anti-cryoprotection device starts anti- Cryoprotection function;The anti-cryoprotection device includes compressor temperature sensor, and compressor temperature sensor is set On the compressor and it can perceive the temperature of compressor, when the temperature of compressor is less than preset value, the compressor temperature sensing Device can feed back stopping signal to air-conditioning, make air-conditioning stop operation.
It is preferred that, in addition to anti-cooling air unit;Under efficient heating mode, anti-cooling air unit starts anti-cold wind function;Institute Stating anti-cooling air unit includes anti-cold air temperature sensor, and the anti-cold air temperature sensor is arranged on freon evaporation tube, when When the temperature that anti-cold air temperature sensor detects freon evaporation tube is higher than preset value, hot-swappable fans are made to start blowing operation.
It is preferred that, in addition to compressor temperature control device;The compressor temperature control device includes frame, the machine Frame includes fixed frame and rotates frame, and the fixed frame is sleeved on the bottom periphery of compressor, with pressure on fixed frame Contracting machine is that the center of circle sets circuit orbit;The rotation frame is arranged on circuit orbit by electronic pulley, and rotating frame can Rotated by electronic pulley on circuit orbit by pivot of compressor;Coolant back cavity is set on frame is rotated Water inlet pipe and drainpipe are opened up on body, the coolant backflow cavity;Several " J " shape coolant branch are set on frame is rotated Pipe, the coolant branch pipe includes an arc line shaped end and a linear end, and the linear end passes through elastic rubber The water inlet pipe of glue flexible pipe connection coolant backflow cavity, the arc line shaped end connects electronic reel, the electricity by drag-line Dynamic reel is arranged on the top for rotating frame;On the top for rotating frame, coolant water injection pipe, the coolant water filling are set The upper end of pipe connects the water inlet pipe of water circulation system by coolant injection pump, and the lower end of coolant water injection pipe sets several to note Water branch pipe, one coolant branch pipe of each water filling branch pipe correspondence;When electronic reel drives drag-line to tighten up, coolant branch pipe Arc line shaped end can be by the corresponding water filling branch pipe of lifting grafting;After all coolant branch pipes correspond to connection water filling branch pipe, Contactless cage heating outer net of all coolant branch pipe formation around compressor.
It is preferred that, the compressor temperature control device also includes wind wheel radiating housing;The wind-cooling heat dissipating housing includes Box-like double Shell, the double Shell covers on the outside of compressor;The double Shell includes shell body and inner housing, outside Heat sink strip seam is opened up on housing and inner housing;Wind wheel is set between shell body and inner housing, and each wind wheel is by independent Wind wheel motor control drives rotation;When wind wheel is static, the blade of wind wheel can block the heat sink strip on shell body and inner housing Seam, when wind wheel is rotated, can make the inner air and outer air of double Shell exchange flowing.
It is preferred that, set in the coolant branch pipe on ring-shaped rubber plug and annular magnetic suction block, the inwall of coolant branch pipe Ring-shaped rubber plug and annular magnetic suction block are inwardly set gradually from mouth of pipe direction;One end of water filling branch pipe insertion coolant branch pipe is set For the infundibulate mouth of pipe;When water filling branch pipe inserts coolant branch pipe, annular magnetic suction block produces suction, water filling branch pipe to water filling branch pipe The infundibulate mouth of pipe and ring-shaped rubber stopper close connection.
It is preferred that, annular arc groove is set on the cooling branch pipe wall;Rubber is set to rise ring on the outer wall of water filling branch pipe, Rubber rises by ring for hollow cavity, opens up the through hole that rises on water filling branch pipe, hollow cavity passes through the through hole UNICOM water filling branch pipe that rises.
The beneficial effects of the invention are as follows:
This product is while both water air-conditioning and refrigerant circulation air-conditioning advantage is combined, by running experiment repeatedly, leads to Cross and coordinate two sets of circulatory systems opening and closing under refrigeration and heating mode respectively so that the energy-saving effect of the product is big greatly By force.This product up-gradation transformation simultaneously, on the basis of early production, adds the various functions design of detail hommization, Preheating function, anti-blow a cold wind over function, remote on-off operating function and coolant compressor temperature control function are for example blown, with this So that the using effect and usage experience of the product are obtained for new lifting.Compressor temperature control function is radiated by wind wheel Housing and coolant branch pipe drive, by each part while coordinative role, can farthest control the work on the compressor whole body Temperature, this is designed with beneficial to protection compressor, and preventing from working when temperature is too high stops, situations such as can not starting when temperature is too low Occur.The present invention is simple in construction, flexible and convenient to use and energy-efficient.Low manufacture cost, practical performance is good, suitably in the industry cycle Popularize.
Brief description of the drawings
Fig. 1 is the operation principle schematic diagram of the embodiment of the present invention one;
Fig. 2 is air conditioning function mode state functional flow diagram;
Fig. 3 is miscellaneous function mode state functional flow diagram;
Fig. 4 is air-conditioning defencive function mode state functional flow diagram;
Fig. 5 is the structural representation of compressor temperature control device;
Fig. 6 is the structural representation of wind wheel;
Fig. 7 is the structural representation of coolant branch pipe;
Fig. 8 is the operation principle schematic diagram of the embodiment of the present invention two;
In figure:1st, freon circulation line;2nd, freon evaporation tube;3rd, four-way reversing valve;4th, fluid reservoir;5th, compressor;6th, change Hot-air fan;7th, water evaporation pipe;8th, water inlet pipe;9th, water pump;10th, underground water source;11st, outlet pipe;12nd, return pipe;13rd, heat exchange Device;14th, water heat exchanger tube;15th, freon heat exchanger tube;16th, fixed frame;17th, wind wheel;18th, electronic reel;19th, water filling branch pipe; 20th, coolant branch pipe;21st, swinging mounting;22nd, circuit orbit;23rd, elastic rubber pipe;24th, drainpipe;25th, water inlet pipe;26th, it is cold But liquid backflow cavity;27th, rubber rises ring;28th, annular arc groove;29th, rise through hole;30th, ring-shaped rubber plug;31st, annular magnetic Block;32nd, the second magnetic valve;33rd, the first three-way interface;34th, the first intelligent drainage branch road;35th, the first magnetic valve;36th, the 3rd 3 Connect mouth;37th, the 3rd magnetic valve;38th, the 4th magnetic valve;39th, the 4th three-way interface;40th, the second intelligent drainage branch road;41st, Two three-way interfaces.
Embodiment
The present invention is described in further detail with embodiment below in conjunction with the accompanying drawings.
Embodiment one
A kind of intelligent dual intensity Bieffect air conditioning, including air outlet is opened up on air conditioner casing, air conditioner casing, install and exchange heat in air conditioner casing Fan, water circulation system, the freon circulatory system and heat exchanger;Heat exchanger includes water heat exchanger tube and freon heat exchanger tube, Two groups of described pipelines are mutually coiled or stacked together, but are not connected mutually;The water heat exchange of water circulation system connection heat exchanger Pipe, the freon circulatory system connects the freon heat exchanger tube of heat exchanger;Water circulation system includes water pump, water inlet pipe, water evaporation Pipe, return pipe and outlet pipe, one end of water inlet pipe are installed water pump and inserted in underground water source, and the other end connection water of water inlet pipe steams The arrival end of water heat exchanger tube, the port of export of water heat exchanger tube in hair pipe, water evaporation pipe connection return pipe, return pipe connection heat exchanger One end of outlet pipe is connected, the other end of outlet pipe takes back underground water source.The freon circulatory system include freon circulation line, Four-way reversing valve, freon evaporation tube, fluid reservoir and compressor, the four-way interface of described four-way reversing valve are followed by freon Endless tube road connects one end of freon heat exchanger tube in freon evaporation tube, fluid reservoir, compressor and heat exchanger respectively;Freon The other end connection freon evaporation tube of heat exchanger tube;Fluid reservoir connects compressor.As shown in figure 1, a kind of intelligence of the present invention There are two sets of independent circulatory systems in energy dual intensity Bieffect air conditioning, air-conditioning:Water circulation system, the freon circulatory system.The two are System can each independently working.It is additionally provided with air-conditioning in one group of heat exchanger, heat exchanger and is provided with water heat exchanger tube and fluorine Leon heat exchanger tube, this two groups of pipelines are mutually coiled or stacked together, but separate are not connected.The air-conditioning optimizes startup Pattern, when air-conditioning is in efficient heating mode or highly effective refrigeration pattern, water circulation system and the same luck of the freon circulatory system OK;When air-conditioning is in energy-saving heat-production pattern or energy-conservation refrigeration mode, the freon circulatory system stops operation, and water circulation system is only Vertical operation;Before the efficient heating mode of starting of air conditioner or highly effective refrigeration pattern, first start water circulation and pre-actuate pattern.This sets Meter can farthest save power consumption efficiency, coordinate under the start and stop of two sets of circulatory systems, high effective model, and the advance of water circulation is opened It is dynamic to change the operating ambient temperature of air-conditioning first, make it tend to after preference temperature restart freon circulation.
Air-conditioning also includes lacking fluorine protection control device, blows waste heat control device, anti-ultrahigh temperature device and high pressure protector; Under efficient heating mode and the highly effective refrigeration pattern, lack fluorine protection control device and start scarce fluorine defencive function, blow waste heat dress Put startup and blow waste heat function, anti-superelevation temperature protection device starts anti-superhigh temperature defencive function, and high pressure protector, which starts high pressure, to be protected Protective function;Described scarce fluorine protection control device includes flowmeter, and the flowmeter is arranged on following in the freon circulatory system In endless tube road;When the fluorine flow that flowmeter is detected in the freon circulatory system is less than preset value, the scarce fluorine protection control Device can feed back stopping signal to air-conditioning, make air-conditioning stop operation, and the waste heat control device that blows is sensed including preheating temperature Device, the preheating temperature sensor is arranged in air conditioner casing, and the temperature in air conditioner casing is detected when preheating temperature sensor During higher than preset value, after water circulation system and the freon circulatory system stop operation, hot-swappable fans are continued to run with, until air conditioner Temperature in shell is less than preset value, and the anti-ultrahigh temperature device includes circuit board temperature sensor, the circuit board temperature sensing Device is capable of the real time temperature of aware circuit plate, when the real time temperature of circuit board is higher than preset value, the circuit board temperature sensing Device can feed back stopping signal to air-conditioning, make air-conditioning stop operation, and the high pressure protector includes pressure sensor, the pressure Force snesor is arranged in the circulation line in the freon circulatory system, and the pressure in circulation line is detected when pressure sensor During higher than preset value, the pressure sensor can feed back stopping signal to air-conditioning, make air-conditioning stop operation.Also include anti-ultralow Temperature protection device;Under highly effective refrigeration pattern, anti-cryoprotection device starts anti-cryoprotection function;The anti-ultralow temperature Protection device includes compressor temperature sensor, and compressor temperature sensor sets on the compressor and can perceive the temperature of compressor Degree, when the temperature of compressor is less than preset value, the compressor temperature sensor can feed back stopping signal to air-conditioning, and order is empty Tune stops operation.Also include anti-cooling air unit;Under efficient heating mode, anti-cooling air unit starts anti-cold wind function;It is described anti- Cooling air unit includes anti-cold air temperature sensor, and the anti-cold air temperature sensor is arranged on freon evaporation tube, when anti-cold When the temperature that air temperature sensor detects freon evaporation tube is higher than preset value, hot-swappable fans are made to start blowing operation.As schemed 2nd, shown in 3 and 4, under open state, press on & off switch and perform refrigerating/heating pattern switching.Long-press 5 seconds, performs present mode Lower energy-conservation/efficiently switching.Hot-swappable fans use VH3.96-7-4 plug-in units by Control, output.Hot-swappable fans also include horizontal stroke Wind turbine is swept to wind unit and longitudinal direction is swept, wind turbine is laterally swept(Single speed):Control, output uses inserted sheet, controls load Power 20W, inductive load;Sweep wind turbine in longitudinal direction:Stepper motor, the output of XH-5 sockets.Water pump is used by Control, output Inserted sheet, controls load power 1.5KW, inductive load;Compressor output is used inserted sheet, controlled by Control, control output Power 2KW, inductive load (contact current>15A) ;Four-way valve conversion output uses inserted sheet, controls load power 20W, perception Load.Anion output uses inserted sheet, controls load power 20W, capacitive load.Master control borad inputs explanation:Power input:Power supply Voltage alternating current 220V ± 10 ℅, frequency 50HZ, are inputted using inserted sheet, control load 1.5KW, inductive load;Aqueduct water temperature Spend sensor:R25=5K, B=3470 ± 1%.Inputted using XH-2 sockets;Indoor air inlet temperature sensor:R25=5K, B= 3470±1%.Inputted using XH-2 sockets;Compressor heat exchanger water saliva temperature sensor, R25=5K, B=3470 ± 1%;Adopt Inputted with XH-2 sockets;Outdoor temperature sensor:R25=5K, B=3470 ± 1%.Inputted using XH-2 sockets;Compressor pressure is protected Sensor --- high voltage protective (is turned on, disconnected during higher than normal value) shield when pressure is normal, is inputted using VH3.96-2 sockets;Pressure Sensor --- low-voltage variation (is turned on, disconnected during less than normal value) protection of contracting machine pressure when pressure is normal, is inserted using VH3.96-2 Seat input;Water flow switch (have water by when turn on), is inputted using VH3.96-2 sockets;Supply voltage detection input;Remote control Operation input uses infrared receiver window;Operate button:On off key, pendulum wind key, wind speed key, mode key, temperature-key, temperature+ Key, oxygen bar, efficiently (sleep key), (compressor operating)/energy-conservation (compressor does not work) key.The function of intelligent dual intensity Bieffect air conditioning Mainly include:Functional mode translation function:Freeze or heat;Efficiency mode translation function:Save (water air conditioning mode, compressor Do not work) or efficiently (compressor operating);Wind speed set-up function:At a high speed, middling speed, low speed and automatic;Wind speed pre-setting function automatically; Laterally sweep wind function:Swing or stop;Sweep wind function in longitudinal direction:Automatic opening, return, automatic swinging and fixed angle;Anion (oxygen bar) output function:Work stops;Pumping for water pump function(Individually drawn water when air-conditioning does not work);Sleep function;Regularly open, Shut-off function;Compressor protection function (protect, operating compression machine does not start, prolonged water pump by high voltage protective, low-voltage variation, current When starting protection);Heating mode outlet temperature is too low(≤4℃)Defencive function;Refrigeration mode outlet temperature is too high(≥40 ℃)Defencive function;Aqueduct anti-frost protection;Water pump overcurrent protection function;The too low defencive function of supply voltage(≤180V);Electricity Source overtension defencive function(≥240V);The anti-cold wind function of heating mode work;Malfunction coefficient, warning function;Backlight is bright Degree regulation and timing closing function;Press key locking function;Distant control function.Each functional mode of air-conditioning includes:The parameter used below Referred to as:Indoor temperature(Return air inlet temperature): RT;Outdoor temperature WT;Design temperature(User selects temperature):ST;Aqueduct water Temperature: GT;Compressor heat exchanger water saliva temperature:KT.Under highly effective refrigeration pattern:Refrigeration mode temperature setting range:10℃ - 35 DEG C, default setting temperature is:25 DEG C, remote control 16--30 degree is cold as design temperature ST≤(room air temperature RT -1) But starting mode of pump, after detection current are normal, as indoor temperature RT>At ST DEG C, drive compressor, when indoor temperature RT≤(Setting temperature Spend ST -1)When, compressor is closed, during refrigeration shutdown process, blower fan delay operation shutdown in 30 seconds or instruction shutdown, cooling water pump prolong When close within 30 seconds, wherein temperature controlled processes are, when ST1 DEG C of indoor temperature RT > design temperatures first start water pump, start blower fan, Then confirm after water flow switch closure, then start compressor;As indoor temperature RT≤(design temperature ST-1), close compressor, Blower fan and water pump are remained on.As indoor temperature RT≤(design temperature ST-2), blower fan is closed, water pump is delayed 30 seconds and shut down.Section Under energy refrigeration mode:In such a mode, compressor is not turned on, and reaches energy-conservation purpose.Such as when press is not turned on, extracted by water pump Well water freezes.During water cooling pattern, blower fan wind speed is selected by wind speed key, and temperature setting is consistent with refrigeration mode.Efficient heating mode Under:The temperature setting range heated is:10 DEG C -35 DEG C, default setting temperature is 25 DEG C.Remote control 16--30 degree, is heated out Machine process, when controller receives start-up command, four-way valve is opened, design temperature ST >=(indoor temperature RT+1), cooling water Pump startup;Cooling water pump, which started in 1.5 minutes, does not detect water flow switch, after 1.5 minutes after current are normal, works as indoor temperature During ST DEG C of RT < design temperatures, compressor is driven immediately;As indoor temperature RT >=(design temperature ST+1), compressor, water pump are closed Also close;Temperature is replied, and is opened after 1.5 points of water pump, is met 3 minutes and is protected, press, temperature control cycle 20S are opened immediately.Heat shutdown When process is shut down, after compressor is closed, indoor fan shuts down by blowing waste heat control;Four-way valve, to during control, is protected always in temperature Operation is held, instruction shutdown is then closed immediately, and cooling water pump is delayed 30 seconds and closed.Heat temperature controlled processes:As indoor temperature RT < design temperatures ST-1 drives hot water valve/water pump;When indoor temperature RT >=(design temperature ST+1) closes hot water valve/water pump;Indoor wind Machine is run according to waste heat rule is blown.Under energy-saving heat-production pattern:The temperature setting range heated is:10 DEG C -35 DEG C, default setting Temperature is 25 DEG C, and remote control 16--30 degree, energy-saving heat-production pattern, press is not opened, and is heated by hot water line.As indoor temperature RT < design temperature ST, start water pump, start blower fan.As indoor temperature RT >=(design temperature ST+1), stop water pump, stop wind Machine, allows the machine that blows in when outlet temperature is more than or equal to 33 DEG C, does not allow the machine that blows in when less than 30 DEG C.Anti- cryoprotection (Highly effective refrigeration pattern)Under:It is indoor when indoor coil pipe continues 5 minutes less than -1 DEG C after compressor start during refrigeration Blower fan switchs to high wind operating automatically;Indoor coil pipe continues 11 minutes less than -1 DEG C, then enters low-temperature protection, stops compression Machine, simultaneously " indoor coil pipe " and " low pressure " synchronous flashing;If indoor coil pipe is less than after -1 DEG C, extensive before fault alarm Multiple to be more than -1 DEG C, then blower fan recovers original wind speed, normal refrigerating operaton.After failure, when indoor coil pipe is more than or equal to 4 DEG C When, antifreeze, Failure elimination is immediately exited from, refrigerating operaton is reentered(And water pump is resumed work, wind speed also recovers).This failure is sent out When raw, alarm can also be released by switch mode or shutdown.Anti- superhigh temperature protection(Efficient heating mode)Under:It is anti-super into heating The necessary condition of temperature protection:Compressor operating;50 DEG C of indoor coil pipe Tp >, indoor fan switchs to high wind operating automatically;Room Inner coil pipe temperature Tp >=58 DEG C, into heating after overheating protection, compressor shutdown protection, simultaneously " indoor coil pipe " and " high pressure " synchronous flashing, this failure will automatically reset.Exit and heat overheating protection condition:Indoor coil pipe Tp≤45 DEG C. Exit and heat after overheating protection, after temperature drop, not shutting down can be with reset.Anti- cold wind function(Efficient heating mode) Under:Under heating mode, when indoor coil pipe is more than or equal to 33 DEG C, it is allowed to which blow in machine, when indoor coil pipe is less than 30 DEG C When do not allow the machine that blows in.Synchronous flashing " is heated " simultaneously, not ring.Blow waste heat function(Efficient heating mode):Under heating mode During standby or shutdown, now compressor has been switched off, and indoor fan is higher than 30 DEG C by waste heat rule operation, indoor coil pipe is blown When, blower fan is remained on, and is stopped when less than 30 DEG C.Lack fluorine protection(Efficient heating mode)Under:Under refrigeration mode, work as compression After machine is continuously run 20 minutes, judge that indoor coil pipe is more than 20 DEG C and continues 60S, stop compressor, simultaneously " design temperature " " low pressure " synchronous flashing, when this failure occurs, changeable pattern or shutdown can be released;Under heating mode, when compressor is continuous After operation 20 minutes, indoor coil pipe is less than 25 DEG C and continues 60S, stops compressor, " design temperature " and " low pressure " is same simultaneously Step flicker.This fail-over mode or shutdown can be eliminated.
Pumping for water pump function(Individually drawn water when air-conditioning does not work)Under:When air-conditioning does not work, by remote control refrigeration or air-conditioning Mode key, starts water on water pump, and display screen shows " water pump ", switched off the pump by stop key.Under compressor protection function:High pressure is protected High voltage protective is set to switch in compressor refrigerant pipeline during shield, in the case of pipeline inner pressure is less than a certain setting value, pressure Switch conduction, in the case of loine pressure is higher than setting value, pressure switch disconnects, and compressor is stopped.Compressor start it Before, if being opened when breaking during high pressure sensor, disconnected according to last time and start timing;After air-conditioning normal work, LCDs " high pressure " is normally shown;When malfunction hypertonia, after high-voltage switch gear disconnects, LCDs " high pressure " flashes, and flashes 10 After second, audible alarm while flashing flashes, audible alarm is after 20 seconds, compressor is out of service, after 30 seconds, blower fan, Water pump is stopped;If pipe temperature is higher than 30 degree, blower fan continues to run until that pipe temperature is less than 30 degree, and blower fan stops.Therefore During barrier, flash, audible alarm does not stop, until trouble shooting;After trouble shooting, delay restarts water pump, pressure after 3 minutes Contracting machine, blower fan, or " work stop " button is pressed, alarm is released, air-conditioning is stopped, and holding state presses " work again Make stopping " button, air-conditioning is transferred to working condition again.Break down to compressor before stopping, if break during high pressure sensor Open, then disconnected according to last time and start timing.Low-voltage protective switch is set in compressor refrigerant pipeline during low-voltage variation, when Pipeline inner pressure is higher than in the case of a certain setting value, pressure switch conducting, and in the case of loine pressure is less than setting value, pressure is opened Shut-off is opened, and compressor is stopped.Before compressor start, if being opened when breaking during low pressure sensor, disconnected according to last time Start timing;After air-conditioning normal work, LCDs " low pressure " is normally shown;When malfunction hypotony, low tension switch After disconnection, LCDs " low pressure " flashes, and flashes after 10 seconds, audible alarm while flashing, and flashes, 3 points of audible alarm Zhong Hou, compressor is out of service, 3 points after 30 seconds, blower fan, water pump holding work;If pipe temperature is higher than 30 degree, blower fan continues Operation, until pipe temperature is less than 30 degree, blower fan stops.During failure, flash, audible alarm does not stop, until trouble shooting, After trouble shooting, restarting water pump, compressor, blower fan after delay 3 minutes, or " work stop " button is pressed, release report Alert, air-conditioning is stopped, holding state, and " work stop " button is pressed again, and air-conditioning is transferred to working condition again.There is event Before barrier stops to compressor, if being opened when breaking during low pressure sensor, disconnected according to last time and start timing.Current are protected When, concatenation water flow switch is as water flow sensing unit in air-conditioning supply channel, to the mobility status of signal piping reclaimed water, non-water flow When dynamic, switch off, the switch conduction when there is water flowing.Air-conditioning is started shooting, starting mode of pump, in cooling mode, and blower fan starts.For Water lines have water by pipeline, and water flow switch conducting, LCDs " current " display does not detect current, 1.5 in 1.5 minutes After minute, after current are detected normal 5 seconds, represent that current are normal, compressor start, except under refrigerating state blower fan etc. according to work Program starts;During this period, current, which disconnect 0.5 second, represents water flow failure.Before compressor start, if being opened when breaking during current, Start timing according to last time conducting;After air-conditioning normal work, LCDs " current " is normally shown;If supply channel goes out Existing failure causes " current " sensor to disconnect, and LCDs " current " flashes alarm, flashed after 10 seconds, sound while flashing Sound is alarmed.After alarm is produced 10 seconds, compressor is out of service, after 30 seconds, and blower fan, water pump are stopped;If pipe temperature Higher than 30 degree, blower fan continues to run until that pipe temperature is less than 30 degree, and blower fan stops.During failure, flash, audible alarm not Stop, until trouble shooting;After trouble shooting, delay restarts water pump, compressor, blower fan after 3 minutes, or presses " work Make stopping " button, release alarm, air-conditioning is stopped, holding state presses " work stop " button, air-conditioning is again again It is transferred to working condition.Break down to compressor before stopping, if being opened when breaking during water flow sensing unit, being turned on according to last time Start timing;Upper electric compressor start is not delayed first, is again started up to be delayed 3 minutes;To prevent compressor continuously starts from leading Cause to damage, compressor 3 minutes starting protections of delay are set, upper electricity is not delayed first, stops being again started up delay 3 in the course of work Minute restarts.Operating compression machine does not start water pump;Only when pump working has current, compressor could start, water pump Do not work, non-water flow when compressor No starting.During the too low protection of heating mode lower outlet temperature, mode of operation feelings are being heated Under condition, the temperature of delivery port is detected using the temperature sensor for being arranged on delivery port, to prevent supply channel current are too small from causing Heating effect reduces and prevented heat exchanger freezing situation.Under normal operation, LCDs is normally shown Mouth of a river temperature;When outlet temperature is less than or equal to 5 degree, outlet temperature was flashed after 10 seconds, audible alarm while flashing, and was dodged Dynamic, audible alarm is after 20 seconds, and compressor is out of service, after 30 seconds, and blower fan must be stopped, water pump holding work;If Pipe temperature is higher than 30 degree, and blower fan continues to run until that pipe temperature is less than 30 degree, and blower fan stops.When outlet temperature is more than Failure is automatically terminated during equal to 10 DEG C.During failure, flash, audible alarm does not stop, until trouble shooting, after trouble shooting, Start water pump, restarting compressor, blower fan after delay 3 minutes, or " work stop " button is pressed, release alarm, air-conditioning It is stopped, holding state presses " work stop " button again, and air-conditioning is transferred to working condition again.Cut-in temperature is not sensed Device, not in this related function, the normal work of air-conditioning is not influenceed.During refrigeration mode lower outlet high temperature protection.In refrigeration In the case of mode of operation, the temperature of delivery port is detected using the temperature sensor for being arranged on delivery port, to prevent supply channel water Flow through small or temperature it is too high cause refrigeration reduce and compressor temperature it is too high.When outlet temperature be more than or equal to 35 degree, Outlet temperature was flashed after 10 seconds, audible alarm while flashing, and was flashed, audible alarm is after 20 seconds, and compressor stops fortune OK, water pump, blower fan holding work(Blower fan minimum speed is refrigeration mode setting speed), during failure, flash, audible alarm not Stop, until trouble shooting, after trouble shooting, starts water pump, delay restarts compressor, blower fan after 3 minutes, or presses " work stop " button, releases alarm, and air-conditioning is stopped, holding state, and " work stop " button, air-conditioning weight is pressed again Newly it is transferred to working condition.Cut-in temperature sensor, not in this related function, the normal work of air-conditioning is not influenceed.Water delivery Freezing prevention tubing protection includes:Behind outdoor temperature≤- 3 DEG C, start water 10 minutes on water pump, start once within every 2 hours, circulation. Behind outdoor temperature≤- 5 DEG C, start water 10 minutes on water pump, start once within every 1 hour, circulation.Water pump overcurrent protection starts When, current transformer is concatenated in water pump power supply circuit, for detecting water pump supply current, causes electric current when water pump breaks down When excessive, cut-out water pump is powered and compressor.Before compressor start, if small when big during water pump electric current, according to last time Detect failure and start timing;After air-conditioning normal work, LCDs " water pump " is normally shown;When sensor detects water pump After electric current is excessive, LCDs " water pump " flashes, and flashes after 10 seconds, audible alarm while flashing, and flashes, audible alarm After 20 seconds, water pump is stopped, while compressor is out of service, after 30 seconds, blower fan is stopped;If pipe temperature is higher than 30 degree, blower fan continues to run until that pipe temperature is less than 30 degree, and blower fan stops.During failure, flash, audible alarm does not stop, Until trouble shooting;After trouble shooting, start water pump, delay restarts compressor, blower fan after 3 minutes, or presses " work Make stopping " button, release alarm, air-conditioning is stopped, holding state presses " work stop " button, air-conditioning is again again It is transferred to working condition.Break down to water pump, compressor before stopping, if small when big during water pump electric current, according to last time Detect failure and start timing.When performing brownout defencive function, when voltage is less than 180 volts, compressor, water pump, blower fan It is stopped.When line voltage is less than 180 volts, malfunction hypotony, LCDs " low pressure " and " power supply " dodge It is dynamic, flash after 10 seconds, audible alarm while flashing, flash, audible alarm is after 20 seconds, compressor is out of service, 30 seconds Zhong Hou, blower fan, water pump are stopped;If pipe temperature is higher than 30 degree, blower fan continues to run until that pipe temperature is less than 30 degree, Blower fan stops.During failure, flash, audible alarm does not stop, until trouble shooting, after trouble shooting, after being delayed 3 minutes again Start water pump, compressor, blower fan, or press " work stop " button, release alarm, air-conditioning is stopped, holding state, " work stop " button is pressed again, and air-conditioning is transferred to working condition again.When performing overtension defencive function, when voltage is high When 240 volts, compressor, water pump, blower fan are stopped.When line voltage be higher than 240 volts when, LCDs " high pressure " and " power supply " flashes, and flashes after 10 seconds, audible alarm while flashing, and flashes, audible alarm is after 20 seconds, and compressor stops Operation, after 30 seconds, blower fan, water pump are stopped;If pipe temperature is higher than 30 degree, blower fan continues to run until pipe temperature Less than 30 degree, blower fan stops.During failure, flash, audible alarm does not stop, until trouble shooting;After trouble shooting, delay 3 Restarting water pump, compressor, blower fan after minute, or " work stop " button is pressed, alarm is released, air-conditioning is stopped, Holding state, presses " work stop " button again, and air-conditioning is transferred to working condition again.Behind outdoor temperature≤- 5 DEG C, start Water 10 minutes on water pump, start once, circulation for every 1 hour.If outdoor temperature sensor is not accessed, antifreeze function is invalid.Pass Antifreeze function is invalid, display screen has display when sensor open circuit, short circuit.Intelligent dual intensity Bieffect air conditioning adds APP control functions, can With by unit parameter, state, alarm query function, remote setting operational mode, operating air velocity, design temperature.Unit can be inquired about Run time, remotely urge the functions such as money, long-range lock machine, the village characteristic value inquiry of remote acknowledgement electric-controlled plate one.
As it can be seen in figures 5 and 6, also including compressor temperature control device;The compressor temperature control device includes frame, The frame includes fixed frame and rotates frame, and the fixed frame is sleeved on the bottom periphery of compressor, in fixed frame On by the center of circle of compressor set circuit orbit;The rotation frame is arranged on circuit orbit by electronic pulley, rotating machine Frame can be rotated by electronic pulley on circuit orbit by pivot of compressor;Coolant is set to return on frame is rotated Flow and open up water inlet pipe and drainpipe on cavity, the coolant backflow cavity;Several " J " shapes are set to cool down on frame is rotated Liquid branch pipe, the coolant branch pipe includes an arc line shaped end and a linear end, and the linear end passes through bullet Property rubber hose connection coolant flow back the water inlet pipe of cavity, the arc line shaped end connects electronic reel by drag-line, institute State electronic reel and be arranged on the top for rotating frame;On the top for rotating frame, coolant water injection pipe, the coolant are set The upper end of water injection pipe connects the water inlet pipe of water circulation system by coolant injection pump, and the lower end of coolant water injection pipe sets some Individual water filling branch pipe, one coolant branch pipe of each water filling branch pipe correspondence;When electronic reel drives drag-line to tighten up, coolant branch The arc line shaped end of pipe can be by the corresponding water filling branch pipe of lifting grafting;When all coolant branch pipes correspond to connection water filling branch pipe Afterwards, contactless cage heating outer net of all coolant branch pipe formation around compressor.The compressor temperature control device Also include wind wheel radiating housing;The wind-cooling heat dissipating housing includes box-like double Shell, and the double Shell covers on compressor It is outside;The double Shell includes shell body and inner housing, and heat sink strip seam is opened up on shell body and inner housing;In shell body Wind wheel is set between inner housing, and each wind wheel drives by independent wind wheel motor control to be rotated;When wind wheel is static, wind wheel Blade can block on shell body and inner housing heat sink strip seam, when wind wheel is rotated, the interior outer space of double Shell can be made Gas exchanges flowing.Set in the coolant branch pipe on ring-shaped rubber plug and annular magnetic suction block, the inwall of coolant branch pipe from pipe Mouth direction inwardly sets gradually ring-shaped rubber plug and annular magnetic suction block;One end of water filling branch pipe insertion coolant branch pipe is set to Lou The bucket shape mouth of pipe;When water filling branch pipe inserts coolant branch pipe, annular magnetic suction block produces suction, the leakage of water filling branch pipe to water filling branch pipe The bucket shape mouth of pipe stoppers close connection with ring-shaped rubber.As shown in fig. 7, setting annular arc groove on the cooling branch pipe wall;Water filling Set rubber to rise ring on the outer wall of branch pipe, rubber rises by ring for hollow cavity, the through hole that rises is opened up on water filling branch pipe, hollow cavity leads to Cross the through hole UNICOM water filling branch pipe that rises.The device when in use, first can be to compression by the wind wheel regulation on fixed support Closing and opening-wide state are realized in the periphery of machine, when this adjustment effect reaches the upper limit, and cooling branch can also be driven by swinging mounting Pipe, is run along circuit orbit, and the air of compressor periphery is carried out into cooling operations, compressor operating is further influenceed, makes it most The normal work of compressor is ensured in big degree.
Embodiment two
Operation of air conditioner also includes intelligent heating mode.
In the present embodiment, as shown in figure 8, water circulation system also includes intelligent electromagnetic regulation device, intelligent electromagnetic regulation and control Device includes the first intelligent drainage branch road and the second drainage branch road, and one end of the described first intelligent drainage branch road passes through the first threeway Interface accesses water inlet pipe, and first three-way interface is arranged between water pump and water evaporation pipe;First intelligent drainage branch road it is another One end by the second three-way interface access outlet pipe, second three-way interface be arranged on water heat exchanger tube and with underground water source it Between;The first magnetic valve is set on the first intelligent drainage branch road, the second electricity is set between water evaporation pipe and the first three-way interface Magnet valve;One end of described second intelligent drainage branch road connects outlet pipe by the 3rd three-way interface, and the 3rd three-way interface is set Put between the second three-way interface and underground water source;The other end of second intelligent drainage branch road is connected back to by the 4th three-way interface Water pipe, the 4th three-way interface is arranged between water evaporation pipe and water heat exchanger tube;Between the second triple valve and underground water source 3rd magnetic valve is set;The 4th magnetic valve is set on the second intelligent drainage branch road.
When air-conditioning is in intelligent heating mode, the magnetic valve of unlatching first and the 4th, the magnetic valve of closing second and the 3rd, ground Lower water is along the water heat exchanger tube for entering heat exchanger by water inlet pipe and the first intelligent drainage branch road, with heat exchange pipe of evaporator heat-shift Afterwards, underground water source is being flowed back to via return pipe and the second intelligent drainage branch road.
When air-conditioning needs, in highly effective refrigeration pattern, energy-conservation refrigeration mode, efficient heating mode and energy-saving heat-production pattern, to open Second and the 3rd magnetic valve are opened, first and the 4th magnetic valve is closed.
It is pointed out that above-mentioned embodiment is only the preferred embodiment of the invention, for the ordinary skill of the art For personnel, on the premise of operation principle of the present invention is met, any equivalent or similar replacement each falls within the protection of the present invention In the range of.

Claims (8)

1. a kind of intelligent dual intensity Bieffect air conditioning, including air outlet is opened up on air conditioner casing, air conditioner casing, install and change in air conditioner casing Hot-air fan, water circulation system, the freon circulatory system and heat exchanger;Heat exchanger includes water heat exchanger tube and freon exchanges heat Pipe, two groups of described pipelines are mutually coiled or stacked together, but are not connected mutually;The water of water circulation system connection heat exchanger is changed Heat pipe, the freon circulatory system connects the freon heat exchanger tube of heat exchanger;Water circulation system includes water pump, water inlet pipe, water and steamed Hair pipe, return pipe and outlet pipe, one end of water inlet pipe are installed water pump and inserted in underground water source, the other end connection water of water inlet pipe The arrival end of water heat exchanger tube, the outlet of water heat exchanger tube in evaporation tube, water evaporation pipe connection return pipe, return pipe connection heat exchanger One end of end connection outlet pipe, the other end of outlet pipe takes back underground water source;
The freon circulatory system includes freon circulation line, four-way reversing valve, freon evaporation tube, fluid reservoir and compressor, The four-way interface of described four-way reversing valve connects freon evaporation tube, fluid reservoir, compression respectively by freon circulation line One end of freon heat exchanger tube in machine and heat exchanger;The other end connection freon evaporation tube of freon heat exchanger tube;Fluid reservoir Connect compressor;
It is characterized in that operation of air conditioner includes highly effective refrigeration pattern, energy-conservation refrigeration mode, efficient heating mode, energy-saving heat-production pattern With intelligent heating mode;
When air-conditioning is in efficient heating mode or highly effective refrigeration pattern, water circulation system and the same luck of the freon circulatory system OK;When air-conditioning is in energy-saving heat-production pattern or energy-conservation refrigeration mode, the freon circulatory system stops operation, and water circulation system is only Vertical operation;Before the efficient heating mode of starting of air conditioner or highly effective refrigeration pattern, first start water circulation and pre-actuate pattern;
Water circulation system also includes intelligent electromagnetic regulation device, and intelligent electromagnetic regulation device includes the first intelligent drainage branch road and the Water inlet pipe, first threeway are accessed in two drainage branch roads, one end of the described first intelligent drainage branch road by the first three-way interface Interface is arranged between water pump and water evaporation pipe;The other end of first intelligent drainage branch road accesses water outlet by the second three-way interface Pipe, second three-way interface is arranged on water heat exchanger tube and between underground water source;The is set on the first intelligent drainage branch road One magnetic valve, sets the second magnetic valve between water evaporation pipe and the first three-way interface;The one of described second intelligent drainage branch road End connects outlet pipe by the 3rd three-way interface, the 3rd three-way interface be arranged on the second three-way interface and underground water source it Between;The other end of second intelligent drainage branch road connects return pipe by the 4th three-way interface, and the 4th three-way interface is arranged on Between water evaporation pipe and water heat exchanger tube;3rd magnetic valve is set between the second triple valve and underground water source;Draw in the second intelligence Flow and the 4th magnetic valve is set on branch road;When air-conditioning is in intelligent heating mode, the magnetic valve of unlatching first and the 4th closes second With the 3rd magnetic valve, underground water is along the water heat exchanger tube for entering heat exchanger by water inlet pipe and the first intelligent drainage branch road, with evaporation After device heat exchanger tube heat-shift, underground water source is being flowed back to via return pipe and the second intelligent drainage branch road;When air-conditioning is in efficiently Refrigeration mode, energy-conservation refrigeration mode, efficient heating mode and energy-saving heat-production pattern, open second and the 3rd magnetic valve, close the One and the 4th magnetic valve.
2. a kind of intelligent dual intensity Bieffect air conditioning according to claim 1, it is characterised in that air-conditioning also includes lacking fluorine protection control Device processed, blow waste heat control device, anti-ultrahigh temperature device and high pressure protector;In the efficient heating mode and highly effective refrigeration Under pattern, lack fluorine protection control device and start scarce fluorine defencive function, blow waste heat apparatus startup and blow waste heat function, anti-superhigh temperature protection Device starts anti-superhigh temperature defencive function, and high pressure protector starts high voltage protective function;
Described scarce fluorine protection control device includes flowmeter, and the flowmeter is arranged on the circulation pipe in the freon circulatory system Lu Zhong;When the fluorine flow that flowmeter is detected in the freon circulatory system is less than preset value, the scarce fluorine protection control device Stopping signal can be fed back to air-conditioning, make air-conditioning stop operation;
The waste heat control device that blows includes preheating temperature sensor, and the preheating temperature sensor is arranged in air conditioner casing, When the temperature that preheating temperature sensor is detected in air conditioner casing is higher than preset value, water circulation system and the freon circulatory system After stopping operation, hot-swappable fans are continued to run with, until the temperature in air conditioner casing is less than preset value;
The anti-ultrahigh temperature device includes circuit board temperature sensor, and the circuit board temperature sensor is capable of aware circuit plate Real time temperature, when the real time temperature of circuit board is higher than preset value, the circuit board temperature sensor can feed back stopping signal To air-conditioning, air-conditioning is made to stop operation;
The high pressure protector includes pressure sensor, and the pressure sensor is arranged on the circulation in the freon circulatory system In pipeline, when the pressure that pressure sensor is detected in circulation line is higher than preset value, the pressure sensor can feed back Stopping signal makes air-conditioning stop operation to air-conditioning.
3. a kind of intelligent dual intensity Bieffect air conditioning according to claim 2, it is characterised in that also filled including anti-cryoprotection Put;Under highly effective refrigeration pattern, anti-cryoprotection device starts anti-cryoprotection function;The anti-cryoprotection device Including compressor temperature sensor, compressor temperature sensor sets on the compressor and can perceive the temperature of compressor, works as pressure When the temperature of contracting machine is less than preset value, the compressor temperature sensor can feed back stopping signal to air-conditioning, make air-conditioning stop Operation.
4. a kind of intelligent dual intensity Bieffect air conditioning according to claim 2, it is characterised in that also including anti-cooling air unit;In height Imitate under heating mode, anti-cooling air unit starts anti-cold wind function;The anti-cooling air unit includes anti-cold air temperature sensor, described Anti-cold air temperature sensor is arranged on freon evaporation tube, when anti-cold air temperature sensor detects the temperature of freon evaporation tube When degree is higher than preset value, hot-swappable fans are made to start blowing operation.
5. a kind of intelligent dual intensity Bieffect air conditioning according to claim 3 or 4, it is characterised in that also including compressor temperature control Device processed;The compressor temperature control device includes frame, and the frame includes fixed frame and rotates frame, the fixation Frame is sleeved on the bottom periphery of compressor, sets circuit orbit by the center of circle of compressor on fixed frame;The rotating machine Frame is arranged on circuit orbit by electronic pulley, rotate frame can by electronic pulley on circuit orbit using compressor as Pivot is rotated;Set coolant to flow back cavity on frame is rotated, opened up on the coolant backflow cavity water inlet pipe and Drainpipe;Several " J " shape coolant branch pipes are set on frame is rotated, and the coolant branch pipe includes an arc line shaped end With a linear end, the linear end connects the water inlet pipe of coolant backflow cavity, institute by elastic caoutchouc flexible pipe State arc line shaped end and electronic reel is connected by drag-line, the electronic reel is arranged on the top for rotating frame;Rotating The top of frame sets coolant water injection pipe, and the upper end of the coolant water injection pipe connects water circulation system by coolant injection pump The water inlet pipe of system, the lower end of coolant water injection pipe sets several water filling branch pipes, one coolant branch of each water filling branch pipe correspondence Pipe;When electronic reel drives drag-line to tighten up, the arc line shaped end of coolant branch pipe can be by the corresponding water filling of lifting grafting Branch pipe;After all coolant branch pipes correspond to connection water filling branch pipe, all coolant branch pipe formation connect around the non-of compressor Touch cage heats outer net.
6. a kind of intelligent dual intensity Bieffect air conditioning according to claim 3 or 4, it is characterised in that the compressor temperature control Device also includes wind wheel radiating housing;The wind-cooling heat dissipating housing includes box-like double Shell, and the double Shell covers on compression The outside of machine;The double Shell includes shell body and inner housing, and heat sink strip seam is opened up on shell body and inner housing;Outside Wind wheel is set between housing and inner housing, and each wind wheel drives by independent wind wheel motor control to be rotated;When wind wheel is static, The blade of wind wheel can block the heat sink strip seam on shell body and inner housing, when wind wheel is rotated, can make the interior of double Shell Outer air exchange current is moved.
7. a kind of intelligent dual intensity Bieffect air conditioning according to claim 5, it is characterised in that set in the coolant branch pipe On ring-shaped rubber plug and annular magnetic suction block, the inwall of coolant branch pipe ring-shaped rubber plug and ring are inwardly set gradually from mouth of pipe direction Shape magnetic block;One end of water filling branch pipe insertion coolant branch pipe is set to the infundibulate mouth of pipe;When water filling branch pipe inserts coolant branch Guan Shi, annular magnetic suction block produces suction to water filling branch pipe, and the infundibulate mouth of pipe and the ring-shaped rubber of water filling branch pipe stopper close connection.
8. a kind of intelligent dual intensity Bieffect air conditioning according to claim 7, it is characterised in that set on the cooling branch pipe wall Put annular arc groove;Rubber is set to rise ring on the outer wall of water filling branch pipe, rubber rises by ring for hollow cavity, opens up and rises on water filling branch pipe Water through hole, hollow cavity passes through the through hole UNICOM water filling branch pipe that rises.
CN201710422272.4A 2017-06-07 2017-06-07 Intelligent dual-energy double-effect air conditioner Active CN107036215B (en)

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