CN107517591A - A kind of Intelligent dehumidifying bladeless fan - Google Patents

A kind of Intelligent dehumidifying bladeless fan Download PDF

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Publication number
CN107517591A
CN107517591A CN201680023689.7A CN201680023689A CN107517591A CN 107517591 A CN107517591 A CN 107517591A CN 201680023689 A CN201680023689 A CN 201680023689A CN 107517591 A CN107517591 A CN 107517591A
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CN
China
Prior art keywords
catch basin
air
radiator
evaporator
layer
Prior art date
Application number
CN201680023689.7A
Other languages
Chinese (zh)
Inventor
不公告发明人
Original Assignee
顾海昌
张正宇
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority to CN201510419368.6A priority Critical patent/CN105066292A/en
Priority to CN2015104193686 priority
Application filed by 顾海昌, 张正宇 filed Critical 顾海昌
Priority to PCT/CN2016/084453 priority patent/WO2017008591A1/en
Publication of CN107517591A publication Critical patent/CN107517591A/en

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Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION, OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS, OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS, OR SURGICAL ARTICLES
    • A61L9/00Disinfection, sterilisation or deodorisation of air
    • A61L9/16Disinfection, sterilisation or deodorisation of air using physical phenomena
    • A61L9/18Radiation
    • A61L9/20Ultra-violet radiation
    • 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
    • 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
    • F24F3/00Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems
    • F24F3/12Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling
    • F24F3/14Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by humidification; by dehumidification
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F3/00Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems
    • F24F3/12Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling
    • F24F3/14Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by humidification; by dehumidification
    • F24F3/1405Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by humidification; by dehumidification in which the humidity of the air is exclusively affected by contact with the evaporator of a closed-circuit cooling system or heat pump circuit
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F3/00Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems
    • F24F3/12Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling
    • F24F3/16Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by purification, e.g. by filtering; by sterilisation; by ozonisation
    • F24F8/117
    • F24F8/167
    • F24F8/192
    • F24F8/20
    • F24F8/22
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25BREFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT-PUMP SYSTEMS
    • F25B30/00Heat pumps
    • F25B30/02Heat pumps of the compression 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
    • F24F11/62Control 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

Abstract

A kind of Intelligent dehumidifying bladeless fan, including baffle (41), baffle (41) inside top is connected with infrared body-temperature detector (51), bottom is connected with main frame (42), the junction of baffle (41) and main frame (42) is provided with drainage air channel, and main frame (42) includes heat pump assembly (1), captation (2), controller (3) and shell (4);Heat pump assembly (1) includes compressor (5), evaporator (6), the first radiator (7), the second radiator (8), magnetic valve (9), check valve (10), expansion valve (11) and blower fan (12), captation (2) includes water leg (14), water leg (14) is provided with groove (16) and boss (17), boss (17) inner hollow, is provided with quartz burner (21).

Description

A kind of Intelligent dehumidifying bladeless fan Technical field

The present invention relates to a kind of temperature-adjusting device, in particular to a kind of Intelligent dehumidifying bladeless fan.

Background technique

Currently, because the problem of outdoor air pollution, cause people open a window ventilation time it is fewer and fewer, lead to that indoor harmful bacteria is bred, room air does not circulate and indoor moisture, directly jeopardize the health and quality of life of people.Common dehumidifier and function of air purifier is single, and effect is bad, can not meet people's needs.

Summary of the invention

The purpose of the present invention is overcoming the deficiencies of the prior art and provide a kind of Intelligent dehumidifying bladeless fan, meet the indoor a variety of demands used.

The technical scheme adopted by the invention is: Intelligent dehumidifying bladeless fan, including baffle 41,41 inside top of baffle is provided with infrared body-temperature detector 51, the infrared body-temperature detector 51 is connect with controller 3, and 41 lower part of baffle is connected with host 42, and the junction of baffle 41 and host 42 is provided with drainage air duct, host 42 includes, it include heat pump assembly 1, captation 2, controller 3 and shell 4, controller 3 is connected with control panel 25, and control panel 25 is equipped with control switch;Heat pump assembly 1 includes compressor 5, evaporator 6, the first radiator 7, the second radiator 8, solenoid valve 9, check valve 10, expansion valve 11 and blower 12, the refrigerant out splice going splice 13 of compressor 5 is connect with the first radiator 7 and solenoid valve 9, first radiator 7 is connect with expansion valve 11, the connection of expansion valve 11 is connect with evaporator 6, evaporator 6 is connect with compressor 5, solenoid valve 9 is connect with the second radiator 8, and the second radiator 8 is connect with check valve 10, and check valve 10 is connect with expansion valve 11;Captation 2 includes catch basin 14, catch basin 14 is equipped with groove 16, boss 17 and drainage tube 15, and 15 one end of drainage tube is connected to the other end and groove 16,17 inner hollow of boss on the outside of purification device, it is provided with quartz burner 21, boss 17 is equipped with air hole 18;Shell 4 is equipped with exhaust outlet 19 and air inlet 20, blower 12,6 first radiator 7 of evaporator and the second radiator 8 are set between exhaust outlet 19 and air inlet 20, air hole 18 is connected to exhaust outlet 19 and air inlet 20, catch basin 14 is located between evaporator 6 and the first radiator 7, the second radiator 8 between blower 12 and evaporator 6;Controller 3 is connect by control line with compressor 5 and blower 12;Catch basin 14 is equipped with multilayer, and the slot bottom of the groove 16 of bottom one layer of catch basin 14 is equipped with drainage tube 15, and 15 one end of drainage tube is connected to water receiving case, and the other end is connected to groove 16;The slot bottom of the groove 16 of non-bottom one layer of catch basin 14 is equipped with drainage hole 22, and there are space between catch basin 14, every layer of catch basin 14 is equipped with multiple grooves 16 and multiple boss 17;Controller 3 is equipped with humidity sensor 24 and control panel 25, and control panel 25 is equipped with automatic control switch 26, cold air output switch 27 and shutdown switch 35.The baffle 41 is annular.

Stating exhaust outlet 19 is ring mesh structure, and the exhaust outlet 19 is multiple.

Air filter pulp is provided on the exhaust outlet 19.

The baffle 41 is bolted in main body 42, and the air filter pulp on the exhaust outlet 19 is detachable structure.

The evaporator 6, the first radiator 7 and 8 surface of the second radiator are coated with nanometer titanium dioxide coating.

14 surface of catch basin is coated with nanometer titanium dioxide coating.

Its working principle is that: Intelligent dehumidifying bladeless fan includes dehumidifying heating and dehumidifying two kinds of working conditions of cooling supply;Dehumidifying heating working condition is: when dehumidifying heating work, Intelligent dehumidifying bladeless fan is placed in the interior for needing to dehumidify, the compressor 5 of heat pump assembly 1 is controlled using controller 3 and blower 9 is run, solenoid valve 9 is controlled using controller 3 to be connected, so that the first radiator 7 and the second radiator 8 is distributed heat, evaporator 6 is made to freeze;Wet air is pumped by the air inlet 20 of shell 4, wet air first passes through 7 heating evaporation of the first radiator, moisture is absorbed by catch basin 14 is cooling, then pass through 6 dehumidification by condensation of evaporator, air after 6 dehumidification by condensation of evaporator heats up using the second radiator 8, and the air after being absorbed moisture, dehumidification by condensation and heating is discharged by exhaust outlet 19;The water that catch basin 14 and evaporator 6 absorb is collected into water receiving case by drainage tube, to reach the purpose for improving dehumidification efficiency, and the heating dry to indoor offer;Dehumidifying cooling supply working condition is: when dehumidifying cooling supply work, controlling compressor 5 using controller 3 and blower 9 is run, control solenoid valve 9 using controller 3 and turn off, solenoid valve 9 is not turned on, and enters the second radiator 8 without refrigerant;First radiator 7 of control heat pump assembly 1 distributes heat, and control evaporator 6 freezes;Wet air is pumped by the air inlet 20 of shell 4, and wet air first passes through 7 heating evaporation of the first radiator, is absorbed moisture by catch basin 14 is cooling, is then passed through 6 dehumidification by condensation of evaporator, the cold air after 6 dehumidification by condensation of evaporator is discharged by exhaust outlet 19;The water that catch basin 14 and evaporator 6 absorb is collected into water receiving case by drainage tube, to reach raising dehumidification efficiency Purpose, and the cold air dry to indoor offer.The infrared body-temperature detector 51 for being set to 41 top of baffle detects human body temperature, infrared body-temperature detector 51 and controller 3 and result is fed back to controller 3 using radio connection, is then judged by controller 3 to determine that equipment is cooling supply or heating.

When the described Intelligent dehumidifying bladeless fan dehumidifying heating work, after wet air is entered by air inlet 20, vapor is heated as by the first radiator 7, vapor is entered by the air hole 18 of most the lower layer of catch basin 14, evaporation is flow on the back position of one layer of catch basin 14, droplet is constantly cooled to by its back position, droplet flows in the groove 16 of following one layer of catch basin 14, it is flowed in bottom one layer of catch basin 14 by the drainage hole 22 of its groove 16 again, water receiving case is flowed to by drainage tube by the groove 16 of most the lower layer of catch basin 14, utilize 7 heating evaporation humid air of the first radiator, utilize the cooling moisture for absorbing humid air of catch basin 14;Humid air after first time dehumidifies, flows to evaporator 6 by the air hole 18 of one layer of catch basin 14 topmost, is condensed into water by the cooling of evaporator 6, carries out second to humid air and dehumidify;Condensed water is dripped by evaporator 6 to following catch basin 14, and the drainage hole 22 of the groove 16 of catch basin 11 of the condensed water through each layer of non-the last layer flows into the catch basin 14 of basecoat, then is discharged in water receiving case by bottom one layer of catch basin 14 by drainage tube;Wet air enters the second radiator 8 after radiator 7, catch basin 14 and evaporator 6 absorb moisture twice, is discharged after the heating of the second radiator 8 by exhaust outlet 19;It so constantly recycles, constantly absorbs the moisture of removal room air.

When the Intelligent dehumidifying bladeless fan dehumidifying cooling supply works, after wet air is entered by air inlet 20, vapor is heated as by the first radiator 7, vapor is entered by the air hole 18 of most the lower layer of catch basin 14, evaporation is flow on the back position of one layer of catch basin 14, droplet is constantly cooled to by its back position, droplet flows in the groove 16 of following one layer of catch basin 14, it is flowed in bottom one layer of catch basin 14 by the drainage hole 22 of its groove 16 again, water receiving case is flowed to by drainage tube 15 by the groove 16 of most the lower layer of catch basin 14, utilize 7 heating evaporation humid air of the first radiator, utilize the cooling moisture for absorbing humid air of catch basin 14;Humid air after first time dehumidifies, is discharged to evaporator 6 by the air hole 18 of one layer of catch basin 14 topmost, is condensed into water by the cooling of evaporator 6, carries out second to humid air and dehumidify;Condensed water is dripped by evaporator 6 to following catch basin 14, and the drainage hole 22 of the groove 16 of catch basin 11 of the condensed water through each layer of non-the last layer flows into the catch basin 14 of basecoat, then is discharged in water receiving case by bottom one layer of catch basin 14 by drainage tube 15;Wet air is after radiator 7, catch basin 14 and evaporator 6 absorb moisture twice, by the cold air after the discharge dehumidifying of exhaust outlet 19;So Constantly circulation constantly absorbs the moisture of removal room air.

When the described Intelligent dehumidifying bladeless fan dehumidifying heating work, automatic control switch 26 is pressed, controller 3 controls solenoid valve 9 and is powered, solenoid valve 9 is connected, second radiator 8 has refrigerant to pass through, and the heat dissipation of the second radiator 8 will be heated by dehumidified air, the heating after the discharge dehumidifying of exhaust outlet 19;When the dehumidifying cooling supply work of Intelligent dehumidifying bladeless fan, cold air output switch 27 is pressed, controller 3 controls solenoid valve 9 and powers off, and solenoid valve 9 is not turned on, and the second radiator 8 passes through without refrigerant, and the second radiator 8 does not radiate, and the cold air after dehumidifying is discharged in exhaust outlet 19.

The evaporator 6 drips to 14 condensed water of catch basin, next layer of catch basin 14 is flowed by the most drainage hole 22 of its groove 16 of upper one layer of catch basin 14 and air hole 18, eventually flow into the catch basin 14 of the last layer, the catch basin 14 of each layer is cooled down using condensed water, increase the temperature difference of catch basin 14 with the humid air to be heated up by radiator 7, it is contacted using each layer catch basin 14 for the water cooling that is condensed with the humid air of heating, so that the water vapour of heating is cooled to droplet, improve the efficiency of dehumidifying.

When the described Intelligent dehumidifying bladeless fan dehumidifying heating work, press automatic control switch 26, controller 3 enters dehumidifying heating and automatically controls working condition, when indoor air humidity reaches the top limit value of humidity of setting, its moisture signal is transferred to controller 3 by humidity sensor 24, the power supply of compressor 5, blower 12 and solenoid valve 9 is connected in the control of controller 3, is dehumidified using the first radiator 7, catch basin 14 and evaporator 6;As indoor air humidity constantly reduces, when the humidity of room air reduces the humidity lower limit value of setting, its moisture signal is transferred to controller 3 by humidity sensor 24, controller 3 cuts off the power supply of compressor 5, blower 12 and solenoid valve 9, and the work of Intelligent dehumidifying bladeless fan stops dehumidifying heating.

When the Intelligent dehumidifying bladeless fan dehumidifying cooling supply works, press cold air output switch 27, controller 3 enters dehumidifying cooling supply and automatically controls working condition, when indoor air humidity reaches the top limit value of humidity of setting, its moisture signal is transferred to controller 3 by humidity sensor 24, the power supply of compressor 5 and blower 12 is connected in the control of controller 3, cuts off the power supply of solenoid valve 9, is dehumidified using the first radiator 7, catch basin 14 and evaporator 6;As indoor air humidity constantly reduces, when the humidity of room air reduces the humidity lower limit value of setting, its moisture signal is transferred to controller 3 by humidity sensor 24, and controller 3 cuts off the power supply of compressor 5, blower 12, and the work of Intelligent dehumidifying bladeless fan stops dehumidifying cooling supply.

When the Intelligent dehumidifying bladeless fan works, humid air into radiator 7 is heated as vapor, vapor is entered by multiple air holes 18 of the catch basin 14 of each layer, and the vapor being warmed directly is evaporated to the back position of the catch basin 14 of each layer, utilizes each layer collection for the water cooling that is condensed The back position of sink 14 comes into full contact with vapor, and steam is made to be cooled to water.

Described is dripped by evaporator 6 to the condensed water of following catch basin 14, it is flowed in the catch basin 14 of the last layer by the drainage hole 22 of each layer catch basin 14 above the last layer catch basin 14, when the humid air heated by the first radiator 7 passes through the drainage hole 22 of each layer catch basin 14, it is flowed through the absorption of 22 condensed water of drainage hole and becomes water, it is discharged in water receiving case by drainage tube 15, further increases the efficiency of dehumidifying.

When the blower 12 is run, the flow direction of air is to be directed toward exhaust outlet 19 by air inlet 20 in shell 4;When Intelligent dehumidifying bladeless fan works, the converting heat for absorbing air using evaporator 6 utilizes 7 heating evaporation humid air of the first radiator to the first radiator 7.

The beneficial effects of the present invention are: Intelligent dehumidifying bladeless fan is equipped with heat pump assembly and captation, after unlatching, quartz burner in device is opened therewith, it applies and the first radiator, second radiator, the nano-titanium dioxide of evaporator and the rooved face that catchments plays catalytic action, the formaldehyde in removal air can be reached, kill the effect of a variety of harmful bacterias, during purification, heat pump assembly and captation are equipped in device, utilize the first radiator, second radiator and catch basin carry out first time dehumidifying, it recycles evaporator to carry out second to dehumidify, catch basin is cooled down using the condensed water of evaporator, and steam is absorbed using the condensed water of evaporator, steam is become water, water receiving case is discharged to by drainage tube 15, enhance dehumidification efficiency;Meanwhile the air after dehumidifying can also be automatically selected as heating and freezing two ways according to the result that body temperature detecting unit detects human body temperature.It will blow out again, play the role of purification to entire indoor air while using and dehumidify after indoor air purification and dehumidifying.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of Intelligent dehumidifying bladeless fan.

Fig. 2 is the enlarged diagram for draining air duct in Fig. 1 at A

Specific embodiment

The present invention is further detailed with specific embodiment with reference to the accompanying drawing:

The structural schematic diagram of Intelligent dehumidifying bladeless fan shown in FIG. 1, Intelligent dehumidifying bladeless fan, including baffle 41,41 inside top of baffle is provided with infrared body-temperature detector 51, and the infrared body-temperature detector 51 is connect with controller 3 using radio connection, and 41 lower part of baffle is connected with host 42, the junction of baffle 41 and host 42 is provided with drainage air duct, host 42 include include heat pump assembly 1, captation 2, controller 3 and shell 4, controller 3 is connected with control Panel 25, control panel 25 are equipped with control switch;Heat pump assembly 1 includes compressor 5, evaporator 6, the first radiator 7, the second radiator 8, solenoid valve 9, check valve 10, expansion valve 11 and blower 12, the refrigerant out splice going splice 13 of compressor 5 is connect with the first radiator 7 and solenoid valve 9, first radiator 7 is connect with expansion valve 11, the connection of expansion valve 11 is connect with evaporator 6, evaporator 6 is connect with compressor 5, solenoid valve 9 is connect with the second radiator 8, and the second radiator 8 is connect with check valve 10, and check valve 10 is connect with expansion valve 11;Captation 2 includes catch basin 14, catch basin 14 is equipped with groove 16, boss 17 and drainage tube 15, and 15 one end of drainage tube is connected to the other end and groove 16,17 inner hollow of boss on the outside of purification device, it is provided with quartz burner 21, boss 17 is equipped with air hole 18;Shell 4 is equipped with exhaust outlet 19 and air inlet 20, blower 12,6 first radiator 7 of evaporator and the second radiator 8 are set between exhaust outlet 19 and air inlet 20, air hole 18 is connected to exhaust outlet 19 and air inlet 20, catch basin 14 is located between evaporator 6 and the first radiator 7, and the second radiator 8 is between blower 12 and evaporator 6;Controller 3 is connect by control line with compressor 5 and blower 12;Catch basin 14 is equipped with multilayer, and the slot bottom of the groove 16 of bottom one layer of catch basin 14 is equipped with drainage tube 15, and 15 one end of drainage tube is connected to water receiving case, and the other end is connected to groove 16;The slot bottom of the groove 16 of non-bottom one layer of catch basin 14 is equipped with drainage hole 22, and there are space between catch basin 14, every layer of catch basin 14 is equipped with multiple grooves 16 and multiple boss 17;Controller 3 is equipped with humidity sensor 24 and control panel 25, and control panel 25 is equipped with automatic control switch 26, cold air output switch 27 and shutdown switch 35.Baffle 41 is annular.Exhaust outlet 19 is ring mesh structure, and exhaust outlet 19 is multiple.Air filter pulp is provided on exhaust outlet 19.Baffle 41 is bolted in main body 42, and the air filter pulp on exhaust outlet 19 is detachable structure.Air after purification dehumidifying is discharged upwards by exhaust outlet 19, it drains and the parallel wind-guiding face parallel with outlet air air-flow and the oblique wind-guiding face 43 angled with outlet air air-flow is set at air duct, by the effect of the parallel wind-guiding face 44, it can not change airflow direction, and the part air-flow that air outlet squeezes out can be can be changed by original direction and oblique water conservancy diversion by oblique wind-guiding face 43, thus it can provide the air-flow diffused up, so that side and subsequent air-flow be pulled to move forwards together.Evaporator 6, the first radiator 7 and 8 surface of the second radiator are coated with 14 surface of nanometer titanium dioxide coating catch basin and are also coated with nanometer titanium dioxide coating.

The working principle of Intelligent dehumidifying bladeless fan is: when work, fan is opened, quartz burner 21 is opened therewith, it applies and plays catalytic action with the nano-titanium dioxide on evaporator 6,14 surface of the first radiator 7, the second radiator 8 and catch basin, remove the harmful substances such as the formaldehyde in air, a variety of harmful bacterias are killed, Intelligent dehumidifying bladeless fan includes dehumidifying heating and dehumidifying two kinds of work shapes of cooling supply State;Dehumidifying heating working condition is: when dehumidifying heating work, Intelligent dehumidifying bladeless fan is placed in the interior for needing to dehumidify, the compressor 5 of heat pump assembly 1 is controlled using controller 3 and blower 9 is run, solenoid valve 9 is controlled using controller 3 to be connected, so that the first radiator 7 and the second radiator 8 is distributed heat, evaporator 6 is made to freeze;Wet air is pumped by the air inlet 20 of shell 4, wet air first passes through 7 heating evaporation of the first radiator, moisture is absorbed by catch basin 14 is cooling, then pass through 6 dehumidification by condensation of evaporator, air after 6 dehumidification by condensation of evaporator heats up using the second radiator 8, and the air after being absorbed moisture, dehumidification by condensation and heating is discharged by exhaust outlet 19;The water that catch basin 14 and evaporator 6 absorb is collected into water receiving case by drainage tube 15, to reach the purpose for improving dehumidification efficiency, and the heating dry to indoor offer;Dehumidifying cooling supply working condition is: when dehumidifying cooling supply work, controlling compressor 5 using controller 3 and blower 9 is run, control solenoid valve 9 using controller 3 and turn off, solenoid valve 9 is not turned on, and enters the second radiator 8 without refrigerant;First radiator 7 of control heat pump assembly 1 distributes heat, and control evaporator 6 freezes;Wet air is pumped by the air inlet 20 of shell 4, and wet air first passes through 7 heating evaporation of the first radiator, is absorbed moisture by catch basin 14 is cooling, is then passed through 6 dehumidification by condensation of evaporator, the cold air after 6 dehumidification by condensation of evaporator is discharged by exhaust outlet 19;The water that catch basin 14 and evaporator 6 absorb is collected into water receiving case by drainage tube 15, to reach the purpose for improving dehumidification efficiency, and the cold air dry to indoor offer.During use, infrared body-temperature detector 51 detects human body temperature, and result is transferred to controller 3, has controller judging result to make equipment cooling supply or heating.

When the dehumidifying heating work of Intelligent dehumidifying bladeless fan, after wet air is entered by air inlet 20, vapor is heated as by the first radiator 7, vapor is entered by the air hole 18 of most the lower layer of catch basin 14, evaporation is flow on the back position 21 of one layer of catch basin 14, droplet is constantly cooled to by its back position 21, droplet flows in the groove 16 of following one layer of catch basin 14, it is flowed in bottom one layer of catch basin 14 by the drainage hole 22 of its groove 16 again, water receiving case is flowed to by drainage tube 15 by the groove 16 of most the lower layer of catch basin 14, utilize 7 heating evaporation humid air of the first radiator, utilize the cooling moisture for absorbing humid air of catch basin 14;Humid air after first time dehumidifies, flows to evaporator 6 by the air hole 18 of one layer of catch basin 14 topmost, is condensed into water by the cooling of evaporator 6, carries out second to humid air and dehumidify;Condensed water is dripped by evaporator 6 to following catch basin 14, and the drainage hole 22 of the groove 16 of catch basin 11 of the condensed water through each layer of non-the last layer flows into the catch basin 14 of basecoat, then is discharged in water receiving case by bottom one layer of catch basin 14 by drainage tube 15;Wet air by radiator 7, catch basin 14 and After evaporator 6 absorbs moisture twice, the second radiator 8 is entered, is discharged after the heating of the second radiator 8 by exhaust outlet 19;It so constantly recycles, constantly absorbs the moisture of removal room air.

When the dehumidifying cooling supply work of Intelligent dehumidifying bladeless fan, after wet air is entered by air inlet 20, vapor is heated as by the first radiator 7, vapor is entered by the air hole 18 of most the lower layer of catch basin 14, evaporation is flow on the back position 21 of one layer of catch basin 14, droplet is constantly cooled to by its back position 21, droplet flows in the groove 16 of following one layer of catch basin 14, it is flowed in bottom one layer of catch basin 14 by the drainage hole 22 of its groove 16 again, water receiving case is flowed to by drainage tube 15 by the groove 16 of most the lower layer of catch basin 14, utilize 7 heating evaporation humid air of the first radiator, utilize the cooling moisture for absorbing humid air of catch basin 14;Humid air after first time dehumidifies, is discharged to evaporator 6 by the air hole 18 of one layer of catch basin 14 topmost, is condensed into water by the cooling of evaporator 6, carries out second to humid air and dehumidify;Condensed water is dripped by evaporator 6 to following catch basin 14, and the drainage hole 22 of the groove 16 of catch basin 11 of the condensed water through each layer of non-the last layer flows into the catch basin 14 of basecoat, then is discharged in water receiving case by bottom one layer of catch basin 14 by drainage tube 15;Wet air is after radiator 7, catch basin 14 and evaporator 6 absorb moisture twice, by the cold air after the discharge dehumidifying of exhaust outlet 19;It so constantly recycles, constantly absorbs the moisture of removal room air.

In order to implement to improve the effect on moisture extraction of Intelligent dehumidifying bladeless fan, catch basin 14 is equipped with multilayer, and the slot bottom of the groove 16 of bottom one layer of catch basin 14 is equipped with drainage tube 15, and 15 one end of drainage tube is connected to water receiving case, and the other end is connected to groove 16;The slot bottom of the groove 16 of non-bottom one layer of catch basin 14 is equipped with drainage hole 22, there are spaces between catch basin 14, every layer of catch basin 14 is equipped with multiple grooves 16 and multiple boss 17, the air hole 18 of the boss 17 of every layer of catch basin 14 interconnects, and the drainage hole 22 of the groove 16 of every layer of non-bottom one layer of catch basin 14 interconnects;The groove 16 of every layer of catch basin 14 be equipped with it is multiple, each groove 16 be interconnected;The air hole 18 of minimum one layer of catch basin 14, against the back position 21 of the groove 16 of upper one layer of catch basin 14;Air hole 18 of the back position 21 of upper one layer of groove 16 against next layer of boss 17;It is sprayed directly on to the moist steam come out by air hole 18 on the back position 21 of groove 16;Exhaust outlet 19 be equipped with it is multiple, exhaust outlet 19 be set to host upper surface 28, air inlet 20 be equipped with it is multiple, air inlet 20 be set to shell 4 peripheral wall 29;Blower 12 is located at below exhaust outlet 19, second radiator 8 is located at below blower 12, and evaporator 6 is located at the second radiator 8 in the following, catch basin 14 is located at below evaporator 6, first radiator 7 is located at catch basin 14 in the following, the first radiator 7 is located at the top of air inlet 20;The base of blower 12, the second radiator 8, evaporator 6, catch basin 14 and first dissipate Hot device 7 is fixedly connected with shell 4;Catch basin 14 is made of aluminium alloy plate.

In order to implement to improve the control function of Intelligent dehumidifying bladeless fan, controller 3 is equipped with humidity sensor 24 and control panel 25, control panel 25 is equipped with automatic control switch 26, cold air output switch 27 and shutdown switch 35, humidity sensor 24 is installed on air inlet 20, and humidity sensor 24 is connect by sensing line with controller 3.

When the dehumidifying heating work of Intelligent dehumidifying bladeless fan, automatic control switch 26 is pressed, controller 3 controls solenoid valve 9 and is powered, solenoid valve 9 is connected, second radiator 8 has refrigerant to pass through, and the heat dissipation of the second radiator 8 will be heated by dehumidified air, the heating after the discharge dehumidifying of exhaust outlet 19;When the dehumidifying cooling supply work of Intelligent dehumidifying bladeless fan, cold air output switch 27 is pressed, controller 3 controls solenoid valve 9 and powers off, and solenoid valve 9 is not turned on, and the second radiator 8 passes through without refrigerant, and the second radiator 8 does not radiate, and the cold air after dehumidifying is discharged in exhaust outlet 19;Evaporator 6 drips to 14 condensed water of catch basin, next layer of catch basin 14 is flowed by the most drainage hole 22 of its groove 16 of upper one layer of catch basin 14 and air hole 18, eventually flow into the catch basin 14 of the last layer, the catch basin 14 of each layer is cooled down using condensed water, increase the temperature difference of catch basin 14 with the humid air to be heated up by radiator 7, it is contacted using each layer catch basin 14 for the water cooling that is condensed with the humid air of heating, so that the water vapour of heating is cooled to droplet, improve the efficiency of dehumidifying.

When the dehumidifying heating work of Intelligent dehumidifying bladeless fan, press automatic control switch 26, controller 3 enters dehumidifying heating and automatically controls working condition, when indoor air humidity reaches the top limit value of humidity of setting, its moisture signal is transferred to controller 3 by humidity sensor 24, the power supply of compressor 5, blower 12 and solenoid valve 9 is connected in the control of controller 3, is dehumidified using the first radiator 7, catch basin 14 and evaporator 6;As indoor air humidity constantly reduces, when the humidity of room air reduces the humidity lower limit value of setting, its moisture signal is transferred to controller 3 by humidity sensor 24, controller 3 cuts off the power supply of compressor 5, blower 12 and solenoid valve 9, and the work of Intelligent dehumidifying bladeless fan stops dehumidifying heating.

When the dehumidifying cooling supply work of Intelligent dehumidifying bladeless fan, press cold air output switch 27, controller 3 enters dehumidifying cooling supply and automatically controls working condition, when indoor air humidity reaches the top limit value of humidity of setting, its moisture signal is transferred to controller 3 by humidity sensor 24, the power supply of compressor 5 and blower 12 is connected in the control of controller 3, cuts off the power supply of solenoid valve 9, is dehumidified using the first radiator 7, catch basin 14 and evaporator 6;As indoor air humidity constantly reduces, when the humidity of room air reduces the humidity lower limit value of setting, its moisture signal is transferred to controller 3 by humidity sensor 24, and controller 3 cuts off the power supply of compressor 5, blower 12, the work of Intelligent dehumidifying bladeless fan Stop dehumidifying cooling supply.

When Intelligent dehumidifying bladeless fan works, humid air into radiator 7 is heated as vapor, vapor is entered by multiple air holes 18 of the catch basin 14 of each layer, the vapor being warmed directly is evaporated to the back position 21 of the catch basin 14 of each layer, it is come into full contact with using the back position 21 of each layer catch basin 14 for the water cooling that is condensed with vapor, steam is made to be cooled to water;It is dripped by evaporator 6 to the condensed water of following catch basin 14, it is flowed in the catch basin 14 of the last layer by the drainage hole 22 of each layer catch basin 14 above the last layer catch basin 14, when the humid air heated by the first radiator 7 passes through the drainage hole 22 of each layer catch basin 14, it is flowed through the absorption of 22 condensed water of drainage hole and becomes water, it is discharged in water receiving case by drainage tube 15, further increases the efficiency of dehumidifying;When blower 12 is run, the flow direction of air is to be directed toward exhaust outlet 19 by air inlet 20 in shell 4;When Intelligent dehumidifying bladeless fan works, the converting heat for absorbing air using evaporator 6 utilizes 7 heating evaporation humid air of the first radiator to the first radiator 7.

Heat pump assembly 1 includes reservoir 30 and gas-liquid separator 31;Expansion valve 11 is connect with reservoir 30, and reservoir 30 is connect with the first radiator 7 and the second radiator 8;Compressor 5 is connect with gas-liquid separator 31, and gas-liquid separator 31 is connect with evaporator 6;Shell 4 is equipped with control room 32, and compressor 5, gas-liquid separator 31, reservoir 30 and expansion valve 11 are set in control room 32;Control room 32 is located at the lower section of air inlet 20, and control room 32 is equipped with partition 33, control room 32 and air inlet 20 are separated;Water receiving case is set to 4 outside of shell, and shell 4 is equipped with hook 34, and water receiving case is hung on hook 34.

Claims (10)

  1. A kind of Intelligent dehumidifying bladeless fan, it is characterized by comprising baffle (41), baffle (41) lower part is connected with host (42), the junction of baffle (41) and host (42) is provided with drainage air duct, baffle (41) inside top is provided with infrared body-temperature detector (51), and the infrared body-temperature detector (51) connect with controller (3);Host (42) includes, it include heat pump assembly (1), captation (2), controller (3) and shell (4), controller (3) is connected with control panel (25), and control panel (25) is equipped with control switch;Heat pump assembly (1) includes compressor (5), evaporator (6), first radiator (7), second radiator (8), solenoid valve (9), check valve (10), expansion valve (11) and blower (12), the refrigerant out splice going splice (13) of compressor (5) is connect with the first radiator (7) and solenoid valve (9), first radiator (7) is connect with expansion valve (11), expansion valve (11) connection is connect with evaporator (6), evaporator (6) is connect with compressor (5), solenoid valve (9) is connect with the second radiator (8), second radiator (8) is connect with check valve (10), check valve (10) is connect with expansion valve (11);Captation (2) includes catch basin (14), catch basin (14) is equipped with groove (16), boss (17) and drainage tube (15), drainage tube (15) one end is connected to the other end and groove (16) on the outside of purification device, boss (17) inner hollow, it is provided with quartz burner (21), boss (17) is equipped with air hole (18);Shell (4) is equipped with exhaust outlet (19) and air inlet (20), blower (12), (6) first radiator (7) of evaporator and the second radiator (8) are set between exhaust outlet (19) and air inlet (20), air hole (18) is connected to exhaust outlet (19) and air inlet (20), catch basin (14) is located between evaporator (6) and the first radiator (7), and the second radiator (8) is located between blower (12) and evaporator (6);Controller (3) is connect by control line with compressor (5) and blower (12);Catch basin (14) is equipped with multilayer, the slot bottom of the groove (16) of bottom one layer of catch basin (14) is equipped with drainage tube (15), drainage tube (15) one end is connected to water receiving case, and the other end is connected to groove (16);The slot bottom of the groove (16) of non-bottom one layer of catch basin (14) is equipped with drainage hole (22), there are space between catch basin (14), every layer of catch basin (14) is equipped with multiple grooves (16) and multiple boss (17);Controller (3) is equipped with humidity sensor (24) and control panel (25), and control panel (25) is equipped with automatic control switch (26), cold air output switch (27) and shutdown switch (35).
  2. A kind of Intelligent dehumidifying bladeless fan according to claim 1, which is characterized in that the baffle (41) is annular.
  3. Root a kind of Intelligent dehumidifying bladeless fan described in claim 1, which is characterized in that the exhaust outlet (19) is ring mesh structure, and the exhaust outlet (19) is multiple.
  4. Root a kind of Intelligent dehumidifying bladeless fan described in claim 1, which is characterized in that it is characterized in that, being provided with air filter pulp on the exhaust outlet (19).
  5. A kind of air temp regulator with Intelligent dehumidifying and air-cleaning function according to claim 4, it is characterized in that, the baffle (41) is bolted on main body (42), and the air filter pulp on the exhaust outlet (19) is detachable structure.
  6. Air temp regulator according to claim 1 with Intelligent dehumidifying and air-cleaning function, the evaporator (6), the first radiator (7) and the second radiator (8) surface are coated with nanometer titanium dioxide coating.
  7. Air temp regulator according to claim 1 with Intelligent dehumidifying and air-cleaning function, catch basin (14) surface are coated with nanometer titanium dioxide coating.
  8. - 7 any air temp regulator with Intelligent dehumidifying and air-cleaning function according to claim 1, its working principle is that: Intelligent dehumidifying bladeless fan includes dehumidifying heating and dehumidifying two kinds of working conditions of cooling supply;Dehumidifying heating working condition is: when dehumidifying heating work, Intelligent dehumidifying bladeless fan is placed in the interior for needing to dehumidify, it is run using the compressor (5) and blower (9) of controller (3) control heat pump assembly (1), it is connected using controller (3) control solenoid valve (9), so that the first radiator (7) and the second radiator (8) is distributed heat, evaporator (6) is made to freeze;Wet air is pumped by the air inlet (20) of shell (4), wet air first passes through the first radiator (7) heating evaporation, moisture is absorbed by catch basin (14) are cooling, then pass through evaporator (6) dehumidification by condensation, air after evaporator (6) dehumidification by condensation heats up using the second radiator (8), and the air after being absorbed moisture, dehumidification by condensation and heating is discharged by exhaust outlet (19);The water that catch basin (14) and evaporator (6) absorb is collected into water receiving case by drainage tube (15), to reach the purpose for improving dehumidification efficiency, and the heating dry to indoor offer;Dehumidifying cooling supply working condition is: when dehumidifying cooling supply work, it is run using controller (3) control compressor (5) and blower (9), it is turned off using controller (3) control solenoid valve (9), solenoid valve (9) is not turned on, and enters the second radiator (8) without refrigerant;The first radiator (7) of control heat pump assembly (1) distributes heat, and control evaporator (6) refrigeration;Wet air is pumped by the air inlet (20) of shell (4), wet air first passes through the first radiator (7) heating evaporation, moisture is absorbed by catch basin (14) are cooling, then pass through evaporator (6) dehumidification by condensation, the cold air after evaporator (6) dehumidification by condensation is discharged by exhaust outlet (19);The water that catch basin (14) and evaporator (6) absorb is collected into water receiving case by drainage tube (15), to reach the purpose for improving dehumidification efficiency, and the cold air dry to indoor offer.
  9. Intelligent dehumidifying bladeless fan according to claim 8, it is characterized by: the Intelligent dehumidifying bladeless fan dehumidifying heats when work, after wet air is entered by air inlet (20), vapor is heated as by the first radiator (7), vapor is entered by the air hole (18) of most the lower layer of catch basin (14), evaporation is flow on the back position of one layer of catch basin (14), droplet is constantly cooled to by its back position, droplet flows in the groove (16) of following one layer of catch basin (14), it is flowed in bottom one layer of catch basin (14) by the drainage hole (22) of its groove (16) again, water receiving case is flowed to by drainage tube (15) by the groove (16) of most the lower layer of catch basin (14), utilize the first radiator (7) heating evaporation humid air, Utilize catch basin (14) the cooling moisture for absorbing humid air;Humid air after first time dehumidifies, flows to evaporator (6) by the air hole (18) of one layer of catch basin (14) topmost, is condensed into water by evaporator (6) cooling, carries out second to humid air and dehumidify;Condensed water is dripped by evaporator (6) to following catch basin (14), the drainage hole (22) of the groove (16) of catch basin (11) of the condensed water through each layer of non-the last layer flows into the catch basin (14) of basecoat, then is discharged in water receiving case by bottom one layer of catch basin (14) by drainage tube (15);Wet air is after radiator (7), catch basin (14) and evaporator (6) absorb moisture twice, the second radiator (8) are entered, are discharged after the second radiator (8) heating by exhaust outlet (19);It so constantly recycles, constantly absorbs the moisture of removal room air.
  10. Intelligent dehumidifying bladeless fan according to claim 8, it is characterized by: when the Intelligent dehumidifying bladeless fan dehumidifying cooling supply works, after wet air is entered by air inlet (20), vapor is heated as by the first radiator (7), vapor is entered by the air hole (18) of most the lower layer of catch basin (14), evaporation is flow on the back position of one layer of catch basin (14), droplet is constantly cooled to by its back position, droplet flows in the groove (16) of following one layer of catch basin (14), it is flowed in bottom one layer of catch basin (14) by the drainage hole (22) of its groove (16) again, water receiving case is flowed to by drainage tube (15) by the groove (16) of most the lower layer of catch basin (14), utilize the first radiator (7) heating evaporation humid air, Utilize catch basin (14) the cooling moisture for absorbing humid air;Humid air after first time dehumidifies, evaporator (6) are discharged to by the air hole (18) of one layer of catch basin (14) topmost, water is condensed by evaporator (6) cooling, second is carried out to humid air and is dehumidified;Condensed water is dripped by evaporator (6) to following catch basin (14), the drainage hole (22) of the groove (16) of catch basin (11) of the condensed water through each layer of non-the last layer flows into the catch basin (14) of basecoat, then is discharged in water receiving case by bottom one layer of catch basin (14) by drainage tube (15);Wet air is by radiator (7), catch basin (14) and steams After hair device (6) absorbs moisture twice, by the cold air after exhaust outlet (19) discharge dehumidifying;It so constantly recycles, constantly absorbs the moisture of removal room air.
CN201680023689.7A 2015-07-16 2016-06-02 A kind of Intelligent dehumidifying bladeless fan CN107517591A (en)

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CN201510419368.6A CN105066292A (en) 2015-07-16 2015-07-16 Intelligent dehumidifying bladeless fan
CN2015104193686 2015-07-16
PCT/CN2016/084453 WO2017008591A1 (en) 2015-07-16 2016-06-02 A smart bladesless fan for dehumidification

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CN104949223A (en) * 2015-07-16 2015-09-30 冯林 Air purification system
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