A kind of bladeless fan with air-source dehumidification function
Technical field
The present invention relates to a kind of bladeless fan, more particularly to a kind of bladeless fan with air-source dehumidification function.
Background technology
At present, because the problem of outdoor air pollution, cause people open a window ventilation time it is fewer and fewer, cause interior to have
Evil bacteria breed, room air do not circulate and the problems such as indoor moistures, use fan in a humid environment at people, directly
Jeopardize the health and quality of life of people.Bladeless fan be by being arranged on the fan of bottom by wind to fan frame, then
Realized using the principle of air pressure multiplication, and function of the current bladeless fan without dehumidifying.
The content of the invention
The purpose of the present invention is overcome the deficiencies in the prior art, there is provided it is a kind of with air-source dehumidification function without leaf wind
Fan.
A kind of bladeless fan with air-source dehumidification function, it is characterised in that:Including heating plant, dehydration device, control
Device and shell processed, the heating plant and the dehydration device are fixedly connected with the shell, and the controller passes through control
Line processed is connected with the heating plant and the dehydration device, and the heating plant includes being arranged on the heat of the housing bottom
Pump installation, the evaporator being connected with the heat pump assembly, the left radiator and right radiator, wind being connected with the heat pump assembly
Machine, water receiving tank A and water receiving tank B, are provided with the water receiving tank A, the water receiving between the heat pump assembly and the evaporator
Collector pipe A is set in groove A, and the water receiving tank A surfaces scribble nanometer titanium dioxide coating, the evaporator and the left radiator
Nanometer titanium dioxide coating is scribbled with right spreader surface, is set between the evaporator and the left radiator and right radiator
There is the water receiving tank B, collector pipe B is also equipped with the water receiving tank B, the water receiving tank B surface scribbles nano titanium oxide painting
Layer, air inlet is provided with the shell middle-end side wall, the cover top portion is provided with exhaust outlet, and the exhaust outlet includes a left side
Dehumidify exhaust outlet, left dry exhaust mouth, right dehumidifying exhaust outlet and right dry exhaust mouth, the dehydration device include motor and
Groove is dehydrated, collector pipe C is provided with the dehydration groove, the dehydration rooved face scribbles nanometer titanium dioxide coating, described to catchment
Pipe A, the collector pipe B are connected with the collector pipe C with being arranged at the collecting box of the housing dorsal part, the water receiving tank A, described
Water receiving tank B and the dehydration groove dorsal part are provided with ultraviolet lamp tube, and the support of the motor is fixedly connected with the shell, the electricity
Flabellum is provided with machine, is provided with absorbing membrane on the flabellum, the blower fan be arranged at the air inlet and the dehydration groove it
Between, the left radiator is described between the left dehumidifying exhaust outlet and the left dry exhaust mouth and the air inlet
Right radiator is between the right dehumidifying exhaust outlet and the right dry exhaust mouth and the air inlet, the left radiator
Provided with left moisture absorption grid, the right radiator is provided with right moisture absorption grid, the left radiator and the right radiator and the evaporation
Lower electrically operated gate is provided between device, the lower electrically operated gate is provided with air-guiding hole, the left dehumidifying exhaust outlet and the left dry exhaust
Mouth is provided with left electrically operated gate, and the left electrically operated gate is provided with left bank stomata, the right dehumidifying exhaust outlet and the right dry exhaust mouth
Provided with right electrically operated gate, the right electrically operated gate is provided with right steam vent, and the housing tip is fixedly connected with bladeless fan, the no leaf
Fan includes baffle, and the junction of the baffle and the shell is provided with drainage air channel, the baffle inside top
Infrared body-temperature detector is provided with, the infrared body-temperature detector is connected with the controller.
Described heat pump assembly includes compressor, expansion valve, holder and gas-liquid separator, the compressor it is cold
Matchmaker's out splice going splice is connected with the radiator, and the expansion valve is connected with the radiator, the holder and the evaporator
Side is connected, and the evaporator opposite side is connected with the compressor, and the water receiving tank A is convex provided with the first groove and first
Platform, the first boss are provided with the first air-vent, and the water receiving tank B is provided with the second groove and second boss, and described second is convex
Platform is provided with the second air-vent, and the dehydration groove is provided with the 3rd groove and the 3rd boss, and it is ventilative that the 3rd boss is provided with the 3rd
Hole, second air-vent and the 3rd air-vent connect with the exhaust outlet and air inlet.
The ultraviolet lamp tube is arranged on the inside of the first boss, the second boss and the 3rd boss.
Described controller is provided with the first humidity sensor, the second humidity sensor and control panel, the chain of command
Plate is provided with automatic control switch, shutdown switch and wetness display unit, and first humidity sensor is installed on the air inlet,
Second humidity sensor is installed on the exhaust outlet, and first humidity sensor and second humidity sensor lead to
Sensing line is crossed to be connected with the controller.
The absorbing membrane is provided with passage, and the absorbing membrane is made up of absorbent material, and the absorbent material includes natural inhale
Water material and synthesis absorbent material, the absorbing membrane include sponge, fiber and cloth.
Described exhaust outlet is provided with 3-5, and the air inlet is provided with 3-5.
The water receiving tank A, the water receiving tank B and the dehydration groove are made up of aluminium alloy plate.
The shell is provided with control room, and the control room is located at the lower section of the air inlet, and the control room is provided with dividing plate.
When bladeless fan with air-source dehumidification function works, this bladeless fan is placed in the interior for needing to dehumidify, profit
Heating plant and dehydration device is controlled to run with controller, humid air is entered by the air inlet of shell, and humid air passes through
Absorbing membrane on the absorbing membrane and flabellum of dehydration device, the moisture of humid air is absorbed using absorbing membrane, water is absorbed by absorbing membrane
Humid air after point enters evaporator, carries out dehumidification by condensation using evaporator, the air after evaporator condensation dehumidifies is through dissipating
Hot device and exhaust outlet discharge, is dehydrated in groove and water receiving tank and is provided with collector pipe, deliver water into collecting box, is dehydrated groove and connects
Quartz burner is provided with the air-vent of tank, is irradiated to through air-vent on evaporator and radiator, plays the office's of killing sterilization
Effect, scribble nano titanium dioxide photocatalyst on evaporator and radiator, nano titanium oxide has most valuable light
Property is learned, nano titanium oxide also has very high chemical stability, heat endurance, nontoxicity, Superhydrophilic, non-migratory,
And can be contacted completely with food, nanometer titanium dioxide titanium activator is made in the presence of ultraviolet and is generated with high catalytic activity
Free radical, very strong photooxidation and reducing power can be produced, can be catalyzed, organic matter and the part inorganic matter such as various formaldehyde of photodissociation,
The function of purifying the air of a room can be played, during air is by clarifier, the air of process is purified, so as to
Reach the purpose of enhancing purification effect on moisture extraction.
The beneficial effects of the invention are as follows:A kind of bladeless fan with air-source dehumidification function, provided with heat pump assembly and
Captation, using the ultraviolet lamp tube in device, ultraviolet and the nano-silica for being coated in radiator, evaporator and the rooved face that catchments
Change titanium and play catalytic action, reach the multiple harmful substances such as the formaldehyde removed in air, kill the effect of a variety of harmful bacterias, reach
To the effect purified to environment, once dehumidified using radiator and water leg, recycle evaporator to carry out once
Dehumidifying, is cooled water leg using the condensed water of evaporator, and absorbs steam using the condensed water of evaporator, and steam is become
Water is discharged in collecting box, reaches the function of being dehumidified to air.
Brief description of the drawings
Fig. 1 is the structural representation of the present invention.
Wherein, reference is:1st, heating plant;2nd, dehydration device;3rd, controller;4th, shell;5th, heat pump assembly;6th, steam
Send out device;7th, left radiator;8th, blower fan;9th, water receiving tank A;10th, water receiving tank B;11st, collector pipe A;12nd, collector pipe B;13rd, air inlet;
14th, exhaust outlet;15th, motor;16th, it is dehydrated groove;17th, collector pipe C;18th, ultraviolet lamp tube;19th, flabellum;20th, compressor;21st, expand
Valve;22nd, holder;23rd, gas-liquid separator;24th, refrigerant out splice going splice;25th, the first groove;26th, first boss;27th, second is recessed
Groove;28th, second boss;29th, the 3rd groove;30th, the 3rd boss;31st, the first humidity sensor;32nd, the second humidity sensor;
33rd, control panel;34th, automatic control switch;35th, shutdown switch;36th, wetness display unit;37th, control room;38th, dividing plate;39th, it is right
Radiator;42nd, left dehumidifying exhaust outlet;43rd, left dry exhaust mouth;44th, right dehumidifying exhaust outlet;45th, right dry exhaust mouth;46th, it is left
Moisture absorption grid;47th, right moisture absorption grid;48th, lower electrically operated gate;49th, air-guiding hole;50th, left electrically operated gate;51st, left bank stomata;52nd, right electrically operated gate;
53rd, right steam vent;54th, bladeless fan;55th, baffle;56th, infrared body-temperature detector.
Embodiment
For the technical characterstic for illustrating this programme can be understood, below by embodiment, this programme is illustrated.
Embodiment 1
Referring to Fig. 1:A kind of bladeless fan with air-source dehumidification function, including heating plant 1, dehydration device 2, control
Device 3 and shell 4, heating plant 1 and dehydration device 2 are fixedly connected with shell 4, and controller 3 is filled by control line and heat supply
Put 1 and dehydration device 2 connect, heating plant 1 includes being arranged on the heat pump assembly 5 of the bottom of shell 4, is connected with heat pump assembly 5
Evaporator 6, the left radiator 7 that is connected with heat pump assembly 5 and right radiator 39, water receiving tank A9 and water receiving tank B10, heat pump
Water receiving tank A9 is provided between device 5 and evaporator 6, collector pipe A11 is set in water receiving tank A9, water receiving tank A9 surfaces scribble nanometer
Coating of titanium dioxide, evaporator 6 and left radiator 7 and the surface of right radiator 39 scribble nanometer titanium dioxide coating, evaporator 6 with
Water receiving tank B10 is provided between left radiator 7 and right radiator 39, collector pipe B12, water receiving tank are also equipped with water receiving tank B10
B10 surfaces scribble nanometer titanium dioxide coating, and air inlet 13 is provided with the middle-end side wall of shell 4, and the top of shell 4 is provided with exhaust
Mouth 14, exhaust outlet 14 include left dehumidifying exhaust outlet 42, left dry exhaust mouth 43, right dehumidifying exhaust outlet 44 and right dry exhaust
Mouth 45, dehydration device 2 include motor 15 and dehydration groove 16, are dehydrated in groove 16 and are provided with collector pipe C17, the painting of dehydration groove 16 surface
There is nanometer titanium dioxide coating, collector pipe A11, collector pipe B12 connect with collector pipe C17 with being arranged at the collecting box of the dorsal part of shell 4
Connect, water receiving tank A9, water receiving tank B10 and the dehydration dorsal part of groove 16 are provided with ultraviolet lamp tube 18, and the support of motor 15 is fixed with shell 4 to be connected
Connect, flabellum 19 is provided with motor 15, absorbing membrane is provided with flabellum 19, blower fan 8 is arranged at water receiving tank A (9) and dehydration groove 16
Between, between left dehumidifying exhaust outlet 42 and left dry exhaust mouth 43 and air inlet 13, right radiator 39 is set left radiator 7
Between right dehumidifying exhaust outlet 44 and right dry exhaust mouth 45 and air inlet 13, left radiator 7 is provided with left moisture absorption grid 46, and the right side dissipates
Hot device 39 is provided with right moisture absorption grid 47, and lower electrically operated gate 48, lower electricity are provided between left radiator 7 and right radiator 39 and evaporator 6
Dynamic door 48 is provided with air-guiding hole 49, and left dehumidifying exhaust outlet 42 and left dry exhaust mouth 43 are provided with left electrically operated gate 50, left electrically operated gate 50
Provided with left bank stomata 51, right dehumidifying exhaust outlet 44 and right dry exhaust mouth 45 are provided with right electrically operated gate 52, and right electrically operated gate 52 is provided with
Right steam vent 53.The top of shell 4 is fixedly connected with bladeless fan 54, and bladeless fan 54 includes baffle 55, baffle 55 with it is outer
The junction of shell 4 is provided with drainage air channel, and the inside top of baffle 55 is provided with infrared body-temperature detector 56, infrared body temperature detection
Device 56 is connected with controller 3.Heat pump assembly 5 includes compressor 20, expansion valve 21, holder 22 and gas-liquid separator 23,
The refrigerant out splice going splice 24 of compressor 20 is connected with radiator 7, and expansion valve 21 is connected with radiator 7, holder 22 and evaporator 6
Side is connected, and the opposite side of evaporator 6 is connected with compressor 20, and water receiving tank A9 is provided with the first groove 25 and first boss 26, the
One boss 26 is provided with the first air-vent, and water receiving tank B10 is provided with the second groove 27 and second boss 28, and second boss 28 is provided with the
Two air-vents, dehydration groove 16 are provided with the 3rd groove 29 and the 3rd boss 30, and the 3rd boss 30 is provided with the 3rd air-vent, and second is saturating
Stomata and the 3rd air-vent connect with exhaust outlet 14 and air inlet 13.Ultraviolet lamp tube 18 is arranged on first boss 26, second
Boss 28 and the inner side of the 3rd boss 30.Controller 3 is provided with the first humidity sensor 31, the second humidity sensor 32 and control
Panel 33, control panel 33 are provided with automatic control switch 34, shutdown switch 35 and wetness display unit 36, the first humidity sensor
31 are installed on the air inlet 13, and the second humidity sensor 32 is installed on the exhaust outlet 14, the first humidity sensor 31 and
Second humidity sensor 32 is connected by sensing line with controller 3.Absorbing membrane is made up of provided with passage absorbing membrane absorbent material,
Absorbent material includes natural absorbent material and synthesis absorbent material, absorbing membrane include sponge, fiber and cloth.Exhaust outlet 14
Provided with 4, air inlet 13 is provided with 4.Water receiving tank A9, water receiving tank B10 and dehydration groove 16 are made up of aluminium alloy plate.Shell 4 is set
There is control room 37, control room 37 is located at the lower section of air inlet 13, and control room 37 is provided with dividing plate 38.
Bladeless fan with air-source dehumidification function is placed in the interior for needing to dehumidify, heat supply is controlled using controller 3
Pump installation 1 and dehydration device 2 are run, and malaria is pumped into the absorbing membrane of dehydration device 2 by the control blower fan 8 of controller 3,
The moisture for being pumped into air is absorbed using absorbing membrane;Suction air carries out condensation into evaporator 6 after absorbing membrane absorbs moisture and removed
Wet, the air of dehumidification by condensation enters right radiator 39 or left radiator 7, utilizes the right moisture absorption grid 47 of right radiator 39 or a left side
The moisture of the left absorption air of moisture absorption grid 46 of radiator 7, the air after right moisture absorption grid 47 or left moisture absorption grid 46 absorb moisture,
Interior is discharged to by left dehumidifying exhaust outlet 42 or right dehumidifying exhaust outlet 44;So constantly circulation.
After the time that the moisture that absorbing membrane is absorbed into air reaches setting, controller 3 controls dehydration device 2 to be dehydrated, will
Water is dehydrated groove 16;Air after dehumidifying enters evaporator 6 and carries out dehumidification by condensation, the condensation flow of evaporator 6 to water receiving tank
9;Air after dehumidification by condensation enters right radiator 39, using the moisture of the right absorption air of moisture absorption grid 47, through right moisture absorption grid 47
The air that moisture wicking material absorbs moisture is discharged to interior;Meanwhile the suction of left moisture absorption grid 46 is heated and dried using left radiator 7
Damp material, the moisture evaporation of the left moisture wicking material of moisture absorption grid 46 is discharged to outdoor, make the left moisture wicking material of moisture absorption grid 46 dry and extensive
Relapse damp function;After the left moisture wicking material of moisture absorption grid 46 is dried, or, the moisture wicking material for drying left moisture absorption grid 46 reaches setting
Time, controller 3 control left radiator 7 to stop heating, and the air after the dehumidification by condensation of evaporator 6 enters left radiator 7, utilizes a left side
The left moisture absorption grid 46 of radiator 7 are absorbed into the moisture of air, and the air that moisture is absorbed through left moisture absorption grid 46 is expelled back into interior;Together
When, controller 3 controls the moisture wicking material of the right right moisture absorption grid 47 of the heat drying of radiator 39, by the water of the right moisture wicking material of moisture absorption grid 47
Evaporation is divided to be discharged to outdoor;Replace the moisture absorption with left moisture absorption grid 46 using right moisture absorption grid 47, utilize left radiator 7 and right radiator 39
The moisture wicking material of the left moisture absorption grid 46 of heat drying and the moisture wicking material of right moisture absorption grid 47;So constantly circulation, by room air
Dehumidifying, improve the effect of the moisture absorption.When a kind of described air cleaning unit with air-source dehumidification function works, controller 3
Left radiator 7 and right radiator 39 is controlled to carry out circulating-heating work, when left radiator 7 heats, right radiator 39 stops adding
Heat, when left radiator 7 stops heating, right radiator 39 heats, so constantly circulation;When right radiator 39 heats, heat pump assembly 5
Refrigerant by right radiator 39, when right radiator 39 stops heating, refrigerant can not pass through right radiator 39;Left radiator 7 adds
Heat, the refrigerant of heat pump assembly 5 is by left radiator 7, and when left radiator 7 stops heating, refrigerant can not pass through left radiator 7.
The air of indoor moisture is entered by the air inlet 13 of shell 4, air of the air after dehydration device 2 absorbs moisture
Into evaporator 6, dehumidification by condensation is carried out using evaporator 6;Air after the dehumidification by condensation of evaporator 6 enter left radiator 7 or
The right radiator 39 of person, utilize the water of the right absorption air of moisture absorption grid 47 of the left moisture absorption grid 46 or right radiator 39 of left radiator 7
Point, the air after left moisture absorption grid 46 or right moisture absorption grid 47 absorb moisture flows back to interior;So constantly circulation.Described left suction
After the damp moisture wicking material of grid 46 is dried, or, after the time that the moisture wicking material that left radiator 7 dries left moisture absorption grid 46 reaches setting,
The lower electrically operated gate 48 of the control of controller 3 rotates, and makes the air-guiding hole 49 of lower electrically operated gate 48 against the left air intake vent of left radiator 7, meanwhile,
Lower electrically operated gate 48 closes the right air intake vent of right radiator 39;And controller 3 controls left electrically operated gate 50 to rotate, and makes left electrically operated gate
50 left bank stomata 51 turns to the position of left dehumidifying exhaust outlet 42, left bank stomata 51 is connected with left dehumidifying exhaust outlet 42, together
When, left electrically operated gate 50 closes left dry exhaust mouth 43;Entered by the air that evaporator 6 comes out by air-guiding hole 49 and left air intake vent
Enter left radiator 7, into left radiator 7 air after the moisture wicking material moisture absorption of left moisture absorption grid 46, by left bank stomata 51 and
Left dehumidifying exhaust outlet 42 is discharged to interior;For lower electrically operated gate 48 by after the right air intake vent closing of right radiator 39, controller 3 controls right electricity
Dynamic door 52 rotates, and the right steam vent 53 of right electrically operated gate 52 is turned to the position of right dry exhaust mouth 45, meanwhile, right electrically operated gate 52
Right dehumidifying exhaust outlet 44 is closed;The moisture wicking material of the right right moisture absorption grid 47 of the heat drying of radiator 39, the steam of heating evaporation by
Right dry exhaust mouth 45 is discharged to outdoor;So constantly circulation.The described air cleaning unit work with air-source dehumidification function
When making, water is thrown away dehydration groove 16 by the controlled motor 15 of controller 3 using centrifugal force, and the controlled motor 15 of controller 3 stops, so
Constantly circulation;Air after absorbing membrane absorbs moisture, air enter evaporator 6 by the upper air-vent of water receiving tank 9, entrance
Air is cooled dehumidification by condensation by evaporator 6, and the condensation flow of evaporator 6 flows to water receiving case to water receiving tank 9, the water of water receiving tank 9;It is cold
Air after solidifying dehumidifying enters left radiator 7 or right radiator 39, moisture wicking material or right moisture absorption grid through left moisture absorption grid 46
After 47 moisture wicking material absorbs moisture, interior is discharged to by left dehumidifying exhaust outlet 42 or right dehumidifying exhaust outlet 44;So constantly
Circulation.
During bladeless fan work with air-source dehumidification function, the humid air that is entered by air inlet 13, by motor 15
On flabellum 19 and absorbing membrane is entered by the 3rd air-vent, by absorbing membrane carry out for the first time absorb humid air moisture, water suction
After the time that the moisture that film absorbs humid air reaches setting, evaporator 6 is entered by water receiving tank A9 the first air-vent, evaporated
The cooling dehumidification by condensation of device 6;Air after dehumidification by condensation enters radiator 7, is discharged after being heated by radiator 7 through exhaust outlet 14.Wind
Between water receiving tank A9 and dehydration groove 16, evaporator 6 is located between radiator 7 and water receiving tank A9 machine 8, when blower fan 8 is run, outside
The flow direction of air is to point to exhaust outlet 14 by air inlet 13 in shell 4.Humid air is except wet channel:Air inlet 13 → 3rd is saturating
Stomata → absorbing membrane → the first air-vent → 6 → the second air-vents of evaporator → 7 → exhaust outlet of radiator 14.In order to collect dehydration
The water of groove and water receiving tank, the bottom land for being dehydrated groove are provided with collector pipe, and water receiving tank bottom land is provided with collector pipe, collector pipe and collecting box phase
Connection.In order to show the humidity of air inlet 13, the humidity of exhaust outlet 14 and control dehumidifying, controller 3 passes provided with the first humidity
Sensor 31, the second humidity sensor 32 and control panel 33, control panel 33 are provided with automatic control switch 34, shutdown switch 35
And wetness display unit 36, the first humidity sensor 31 are installed on air inlet 13, the second humidity sensor 32 is installed on exhaust outlet
14, the first humidity sensor 31 and the second humidity sensor 32 are connected by sensing line with controller 3.When controller 3 works,
The moisture signal of air inlet 13 is transferred to controller 3 by the first humidity sensor 31, and controller 3 controls wetness display unit 36 to show
The moisture signal of exhaust outlet 14 is transferred to controller 3 by the humidity of air inlet 13, the second humidity sensor 32, and controller 3 controls
Wetness display unit 36 shows the humidity of exhaust outlet 14.In order that absorbing membrane has moisture absorption function and good airing function, inhale
Moisture film is provided with passage, and absorbing membrane is made up of absorbent material, and absorbent material includes natural absorbent material and synthesis water-absorption material
Material, absorbing membrane include sponge, fiber and cloth.Automatic control switch 34 is pressed, controller 3, which enters, automatically controls work shape
State, when the air humidity of air inlet 13 reaches the top limit value of humidity of setting, the first humidity sensor 31 passes its moisture signal
Controller 3 is defeated by, controller 3 controls heating plant 1 and dehydration device 2 to run, utilizes heating plant 1 and dehydration device 2
Dehumidifying, as the air humidity of interior constantly reduces, when the humidity of room air reduces the humidity lower limit of setting, first is wet
Its moisture signal is transferred to controller 3 by degree sensor 31, and controller 3 controls heating plant 1 and dehydration device 2 to stop.
The foregoing is only presently preferred embodiments of the present invention, be not intended to limit the invention, it is all the present invention spirit and
Within principle, any modification, equivalent substitution and improvements made etc., it should be included in the scope of the protection.