WO2017016312A1

WO2017016312A1 - Bladeless fan with air energy moisture absorption function

Info

Publication number: WO2017016312A1
Application number: PCT/CN2016/084455
Authority: WO
Inventors: 王东旭
Original assignee: 王东旭
Priority date: 2015-07-29
Filing date: 2016-06-02
Publication date: 2017-02-02
Also published as: CN105135561B; CN105135561A; CN107835918A

Abstract

A bladeless fan with an air energy moisture absorption function comprises a heat supply device (1), a dehydration device (2), a controller (3), and a housing (4). The heat supply device (1) and the dehydration device (2) are fixedly connected to the housing (4). The controller (3) is connected to the heat supply device (1) and the dehydration device (2) by means of control lines.

Description

Leafless fan with air absorbing function

Technical field

The present invention relates to a fan, and more particularly to a bladeless fan having an air absorbing function.

Background technique

At present, because of the problem of outdoor air pollution, people are less and less open for window ventilation, resulting in indoor harmful bacteria, indoor air circulation and indoor humidity. People use the fan in a humid environment, directly harming To people's physical health and quality of life. The bladeless fan is blown to the fan frame by a fan disposed at the bottom, and is then realized by the principle of multiplying the air pressure, and the current bladeless fan does not have the function of absorbing moisture.

Summary of the invention

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the deficiencies of the prior art and to provide a bladeless fan having a moisture absorbing function.

A leafless fan having an air absorbing function, comprising: a heating device, a dehydrating device, a controller, and a casing, wherein the heating device and the dehydrating device are fixedly connected to the casing, the controller Connecting to the heating device and the dewatering device through a control line, the heating device comprising a heat pump device disposed at a bottom of the housing, an evaporator connected to the heat pump device, and a heat pump device a left radiator and a right radiator, a fan, a water tank A, and a water tank B. The water pump A is disposed between the heat pump device and the evaporator, and a water collection pipe A is disposed in the water tank A. The surface of the water tank A is coated with a nano titanium dioxide coating, and the surface of the evaporator and the left and right heat sinks are coated with a nano titanium dioxide coating, and the evaporator is disposed between the left heat sink and the right heat sink. The water tank B is provided, and the water collection tube B is also provided with a water collection pipe B. The surface of the water connection tank B is coated with a nano titanium dioxide coating, and the outer side wall of the outer casing is provided with an air inlet, the outer casing Top setting An exhaust port is provided, the exhaust port includes a left moisture exhaust port, a left dry exhaust port, a right moisture exhaust port, and a right dry exhaust port, and the dehydrating device includes a motor, a dewatering basket, a water absorbing film, and a dewatering tank in which a water collecting pipe C is disposed, the surface of the dewatering tank is coated with a nano titanium dioxide coating, the water collecting pipe A, the water collecting pipe B and the water collecting pipe C are disposed on the casing The collection tank on the back side is connected, The water tank A, the water tank B and the back side of the dewatering tank are provided with an ultraviolet lamp tube, the base of the motor is fixedly connected with the outer casing, and the dewatering basket is connected with the rotating shaft of the motor. The water absorbing film is disposed on the dewatering basket, the motor is provided with a fan blade, the fan blade is provided with a water absorbing film, and the fan is disposed between the air inlet and the dewatering tank, the left heat dissipation The device is disposed between the left moisture absorption exhaust port and the left dry exhaust port and the air inlet, and the right heat sink is disposed on the right moisture absorption exhaust port and the right dry exhaust port Between the air inlets, the left heat sink is provided with a left moisture absorbing grid, the right heat sink is provided with a right moisture absorbing grid, and the left heat sink and the right heat sink and the evaporator a lower electric door is provided, the lower electric door is provided with a wind guiding hole, the left moisture exhausting port and the left drying exhaust port are provided with a left electric door, and the left electric door is provided with a left exhaust hole. The right moisture venting port and the right drying venting port are provided with a right electric door, and the right electric door is provided with a right venting hole, the shell The top end is fixedly connected with a bladeless fan, the leafless fan includes a fluid guiding body, the connecting portion of the guiding fluid and the outer casing is provided with a drainage air duct, and the inner side of the guiding fluid is provided with an infrared body temperature detector, the infrared A body temperature probe is coupled to the controller.

The heat pump device includes a compressor, an expansion valve, a reservoir, and a gas-liquid separator, a refrigerant output joint of the compressor is connected to the radiator, and the expansion valve is connected to the radiator, the memory Connected to one side of the evaporator, the other side of the evaporator is connected to the compressor, the water tank A is provided with a first groove and a first boss, and the first boss is provided with a first a venting hole, the water tank B is provided with a second groove and a second boss, the second boss is provided with a second venting hole, and the dewatering groove is provided with a third groove and a third boss The third boss is provided with a third vent hole, and the second vent hole and the third vent hole communicate with the exhaust port and the intake port.

The ultraviolet lamp tube is disposed inside the first boss, the second boss, and the third boss.

The controller is provided with a first humidity sensor, a second humidity sensor and a control panel, the control panel is provided with an automatic control switch, a stop switch and a humidity display, and the first humidity sensor is installed at the air inlet. The second humidity sensor is mounted to the exhaust port, and the first humidity sensor and the second humidity sensor are connected to the controller through a sensing line.

The water absorbing film is provided with a vent hole, and the water absorbing film is composed of a water absorbing material including a natural water absorbing material and a synthetic water absorbing material, and the water absorbing film includes a sponge, a fiber, and a cloth.

The exhaust ports are provided with 3-5, and the air inlets are provided with 3-5.

The water tank A, the water tank B, and the dewatering tank are composed of an aluminum alloy plate.

The outer casing is provided with a control chamber, the control chamber is located below the air inlet, and the control chamber is provided with a partition.

When the leafless fan with air absorbing function works, the leafless fan with air absorbing function is placed in the room where moisture absorption is required, and the controller is used to control the heating device and the dehydrating device to operate, and the humid air enters through the air inlet of the outer casing. The humid air passes through the water absorbing membrane of the dewatering device and the water absorbing film on the fan blade, and absorbs moisture of the moist air by the water absorbing film, and the humid air absorbed by the water absorbing film enters the evaporator, condenses and absorbs moisture by the evaporator, and condenses by the evaporator. The moisture-absorbing air is discharged through the radiator and the exhaust port, and a water collecting pipe is arranged in the dewatering tank and the water receiving tank to transport the water into the water collecting box, and the ultraviolet light tube is disposed in the vent hole of the dewatering tank and the water receiving tank. The venting holes are irradiated onto the evaporator and the radiator to kill the disinfection. The evaporator and the radiator are coated with a nano titanium dioxide photocatalyst. The nano titanium dioxide has very valuable optical properties, and the nano titanium dioxide also has high chemical stability. Sexual, thermal stability, non-toxic, super-hydrophilic, non-migrating, and completely in contact with food, in purple Under the action of the line, the nanometer titanium dioxide is activated to form a free radical with high catalytic activity, which can generate strong photooxidation and reduction ability, can catalyze and photoly dissolve various organic substances such as formaldehyde and some inorganic substances, and can purify indoor air. The function is to purify the passing air during the passage of the air through the purifier, thereby achieving the purpose of enhancing the purification and moisture absorption effect.

The invention has the beneficial effects that a leafless fan with air absorbing function is provided with a heat pump device and a water collecting device, which utilizes ultraviolet lamps inside the device, ultraviolet rays and nanometers coated on the surface of the radiator, the evaporator and the sump Titanium dioxide acts as a catalyst to remove a variety of harmful substances such as formaldehyde in the air, killing a variety of harmful bacteria, using a radiator and a sump for moisture absorption, and then using a vaporizer for moisture absorption, using evaporator condensation The water cools the water tank, and the condensed water of the evaporator absorbs the steam, and the steam is turned into water to discharge into the water collecting box, thereby improving the moisture absorption efficiency of the moisture absorber.

DRAWINGS

Figure 1 is a schematic view of the structure of the present invention.

Wherein, the reference numerals are: 1, heating device; 2, dehydrating device; 3, controller; 4, housing; 5, heat pump device; 6, evaporator; 7, left radiator; 8, fan; Sink A; 10, water tank B; 11, water collecting pipe A; 12, water collecting pipe B; 13, air inlet; 14, exhaust port; 15, motor; 16, dewatering tank; 17, water collecting pipe C; UV lamp; 19, fan blade; 20, compressor; 21, expansion valve; 22, reservoir; 23, gas-liquid separator; 24, refrigerant output connector; 25, first groove; 26, a first boss; 27, a second groove; 28, a second boss; 29, a third groove; 30, a third boss; 31, a first humidity sensor; 32, a second humidity sensor; , control panel; 34, automatic control switch; 35, stop switch; 36, humidity display; 37, control room; 38, partition; 39, right radiator; 40, dewatering basket; 41, water absorption film; 42, left moisture absorption Exhaust port; 43, left dry exhaust port; 44, right moisture exhaust port; 45, right dry exhaust port; 46, left moisture bar; 47, right moisture bar; 48, lower electric door; Wind guide hole; 50, left electric door; 51, left exhaust hole; 52, right electric door; 53, right exhaust hole; 54, leafless fan; 55, fluid guide; 56, infrared body temperature detector.

detailed description

In order to clearly explain the technical features of the solution, the present embodiment will be described below through specific implementation manners.

Example 1

Referring to Figure 1: a bladeless fan having an air absorbing function, comprising a heating device 1, a dehydrating device 2, a controller 3, and a casing 4, the heating device 1 and the dehydrating device 2 are fixedly connected to the casing 4, and the controller 3 The heating device 1 includes a heat pump device 5 disposed at the bottom of the casing 4, an evaporator 6 connected to the heat pump device 5, and a left radiator 7 connected to the heat pump device 5 via a control line connected to the heating device 1 and the dehydrating device 2. And the right radiator 39, the fan 8, the water tank A9 and the water tank B10, the water pump device 5 and the evaporator 6 are provided with a water tank A9, the water tank A9 is provided with a water collecting pipe A11, and the surface of the water tank A9 is coated with nano titanium dioxide. The layer, the evaporator 6 and the left radiator 7 and the right radiator 39 are coated with a nano titanium dioxide coating, and the evaporator 6 and the left radiator 7 and the right radiator 39 are provided with a water tank B10, and the water tank B10 is also disposed. There is a water collecting pipe B12, the surface of the water tank B10 is coated with a nano titanium dioxide coating, the inner side wall of the outer casing 4 is provided with an air inlet 13 , the top of the outer casing 4 is provided with an exhaust port 14 , and the exhaust port 14 includes a left moisture exhausting exhaust Port 42, left dry exhaust port 43, right moisture absorbing row The port 44 and the right drying exhaust port 45, the dehydrating device 2 includes a motor 15, a dewatering basket 40, a water absorbing membrane 41, and a dewatering tank 16, and a water collecting pipe C17 is disposed in the dewatering tank 16, and the surface of the dewatering tank 16 is coated with a nano titanium dioxide coating. The water collecting pipe A11, the water collecting pipe B12 and the water collecting pipe C17 are connected with the water collecting box provided on the back side of the casing 4, and the water tank A9, the water tank B10 and the dewatering tank 16 are provided with an ultraviolet lamp tube 18 on the back side thereof, and the base of the motor 15 is provided. It is fixedly connected to the outer casing 4, the dewatering basket 40 is connected to the rotating shaft of the motor 15, and the water absorbing membrane 41 is disposed on the dewatering basket 40. The motor 15 is provided with a fan blade 19, and the fan blade 19 is provided with a water absorbing film, and the fan 8 is disposed at the air inlet. Between the port 13 and the dewatering tank 16, the left radiator 7 is disposed at the left moisture vent 42 And between the left dry exhaust port 43 and the air inlet 13 , the right heat sink 39 is disposed between the right moisture exhaust port 44 and the right dry exhaust port 45 and the air inlet 13 , and the left heat sink 7 is provided with a left suction The tidal grid 46, the right radiator 39 is provided with a right moisture absorbing grid 47, the left radiator 7 and the right radiator 39 and the evaporator 6 are provided with a lower electric door 48, and the lower electric door 48 is provided with a wind guiding hole 49, left The moisture venting port 42 and the left drying venting port 43 are provided with a left electric door 50, the left electric door 50 is provided with a left venting port 51, and the right absorbing and venting port 44 and the right drying venting port 45 are provided with a right electric door 52. The right electric door 52 is provided with a right venting opening 53. The top end of the housing 4 is fixedly connected with a bladeless fan 54. The bladeless fan 54 includes a fluid guiding body 55. The connecting portion of the fluid guiding body 55 and the outer casing 4 is provided with a drainage air duct. An infrared body temperature detector 56 is disposed inside the top of the fluid 55, and the infrared body temperature detector 56 is connected to the controller 3. The heat pump device 5 includes a compressor 20, an expansion valve 21, a reservoir 22, and a gas-liquid separator 23. The refrigerant output joint 24 of the compressor 20 is connected to the radiator 7, the expansion valve 21 is connected to the radiator 7, and the reservoir 22 is evaporated. The first side of the evaporator 6 is connected to the compressor 20, and the water tank A9 is provided with a first recess 25 and a first boss 26. The first boss 26 is provided with a first venting hole, and the water tank B10 is connected. A second recess 27 is provided, and the second boss 28 is provided with a second venting hole. The dewatering groove 16 is provided with a third groove 29 and a third boss 30. The third boss 30 is provided. The third venting opening, the second venting opening, and the third venting opening are in communication with the exhaust port 14 and the intake port 13. The ultraviolet lamp tube 18 is disposed inside the first boss 26, the second boss 28, and the third boss 30. The controller 3 is provided with a first humidity sensor 31, a second humidity sensor 32, and a control panel 33. The control panel 33 is provided with an automatic control switch 34, a stop switch 35, and a humidity display 36, to which the first humidity sensor 31 is mounted. The port 13, the second humidity sensor 32 is mounted to the exhaust port 14, and the first humidity sensor 31 and the second humidity sensor 32 are connected to the controller 3 via a sensing line. The water absorbing film is provided with a vent hole. The water absorbing film is composed of a water absorbing material including a natural water absorbing material and a synthetic water absorbing material, and the water absorbing film includes a sponge, a fiber, and a cloth. There are 3-5 exhaust ports 14 and 3-5 air inlets 13.

The water tank A9, the water tank B10, and the dewatering tank 16 are made of an aluminum alloy plate. The outer casing 4 is provided with a control chamber 37, the control chamber 37 is located below the air inlet 13, and the control chamber 37 is provided with a partition 38.

The leafless fan having the air absorbing function is placed in a room requiring moisture absorption, and the controller 3 controls the operation of the heat pump device 1 and the dehydrating device 2, and the controller 3 controls the fan 8 to draw humid air into the water absorbing device 2. The membrane 41 absorbs the moisture of the drawn air by the water absorbing membrane 41; the drawn air absorbs the moisture through the water absorbing membrane 41, and then enters the evaporator 6 to perform condensation and moisture absorption, and the condensed moisture enters the right radiator 39 or the left radiator 7, and uses the right heat dissipation. The right moisture absorbing grid 47 of the device 39 or the left radiator 7 The left moisture absorption grid 46 absorbs the moisture of the air, and the air absorbed by the right moisture absorption grid 47 or the left moisture absorption grid 46 is discharged to the room by the left moisture absorption exhaust port 42 or the right moisture absorption exhaust port 44; .

After the water absorbing membrane 41 absorbs the moisture entering the air for a set time, the controller 3 controls the dehydration device 2 to dehydrate, the motor 15 drives the dewatering basket 40 to rotate, and the water of the water absorbing membrane 41 is removed to the dewatering tank 16; after the water absorbing membrane 41 absorbs moisture The air enters the evaporator 6 for condensation and moisture absorption, and the condensed water of the evaporator 6 flows to the water tank 9; the condensed moisture air enters the right radiator 39, and absorbs the moisture of the air by the right moisture absorption grid 47, and sucks through the right moisture absorption grid 47. The moisture-absorbing air is discharged into the room; at the same time, the left heat sink 7 is used to heat and dry the moisture-absorbing material of the left moisture-absorbing grid 46, so that the moisture of the moisture-absorbing material of the left moisture-absorbing grid 46 is evaporated to the outside, so that the left moisture absorption The grid 46 absorbs the moisture absorbing material and restores the moisture absorbing function; after the left moisture absorbing grid 46 absorbs the moisture absorbing material, or the moisture absorbing material of the left absorbing moisture grid 46 reaches the set time, the controller 3 controls the left heat sink 7 The heating is stopped, the evaporator 6 condenses the moisture-absorbing air into the left radiator 7, and the left moisture absorption grid 46 of the left radiator 7 absorbs the moisture entering the air, and the air absorbed by the left moisture absorption grid 46 is discharged back into the room; , controller 3 control The right heat sink 39 heats and dries the moisture absorbing material of the right moisture absorbing grid 47, and evaporates the moisture of the moisture absorbing material of the right moisture absorbing grid 47 to the outside; and alternately absorbs moisture by the right moisture absorbing grid 47 and the left moisture absorbing grid 46, using the left The heat sink 7 and the right radiator 39 heat and dry the moisture absorbing material of the left moisture absorbing grid 46 and the moisture absorbing material of the right moisture absorbing grid 47; thus continuously circulating, absorbing moisture of the indoor air, and improving the moisture absorbing effect. When the leafless fan having the air absorbing function is operated, the controller 3 controls the left radiator 7 and the right radiator 39 to perform the circulating heating operation, and when the left radiator 7 is heated, the right radiator 39 stops heating, left. When the radiator 7 stops heating, the right radiator 39 is heated, and thus circulates continuously; when the right radiator 39 is heated, the refrigerant of the heat pump device 5 passes through the right radiator 39, and when the right radiator 39 stops heating, the refrigerant cannot pass through the right radiator 39. The left radiator 7 is heated, the refrigerant of the heat pump device 5 passes through the left radiator 7, and when the left radiator 7 stops heating, the refrigerant cannot pass through the left radiator 7.

The humid air in the room enters from the air inlet 13 of the outer casing 4, and the air passes through the water absorption film 41 of the dewatering device 2, and the moisture of the air is absorbed by the water absorption film 41, and the air absorbed by the water absorption film 41 enters the evaporator 6, and the evaporator is used. 6 condensing moisture absorption; condensing the moisture absorbed by the evaporator 6 into the left radiator 7 or the right radiator 39, absorbing air by the left moisture absorbing grid 46 of the left radiator 7 or the right moisture absorbing grid 47 of the right radiator 39 The moisture, the air absorbed by the left moisture absorption grid 46 or the right moisture absorption grid 47 is discharged back into the room; thus continuously circulating. After the moisture absorption material of the left moisture absorbing fence 46 is dried, or after the moisture absorbing material of the left heat sink 7 is dried by the left heat sink 7 for a set time, the controller 3 controls The electric door 48 is rotated such that the air guiding hole 49 of the lower electric door 48 faces the left air inlet 30 of the left radiator 7, while the lower electric door 48 closes the right air inlet 29 of the right radiator 39; and the controller 3 controls The left electric door 50 rotates to rotate the left exhaust hole 51 of the left electric door 50 to the position of the left moisture vent 42 so that the left vent 51 communicates with the left moisture vent 42 while the left electric door 50 will The left drying exhaust port 43 is closed; the air from the evaporator 6 enters the left radiator 7 through the air guiding hole 49 and the left air inlet 30, and the air entering the left radiator 7 absorbs moisture through the moisture absorbing material of the left moisture absorbing fence 46. Thereafter, the left exhaust hole 51 and the left moisture exhaust port 42 are discharged into the room; after the lower electric door 48 closes the right air inlet 29 of the right radiator 39, the controller 3 controls the right electric door 52 to rotate, so that the right electric door The right vent hole 53 of 52 is rotated to the position of the right dry exhaust port 45, while the right electric door 52 closes the right moisture venting port 44; the right radiator 39 heats and dries the moisture absorbing material of the right moisture absorbing grill 47, and heats The evaporated water vapor is discharged to the outside by the right dry exhaust port 45; this is continuously circulated. When the leafless fan having the air absorbing function is operated, after the moisture absorbing film 41 absorbs moisture for a set time, the controller 3 controls the motor 15 to drive the spin basket 40 to rotate, and the water absorbing membrane 41 is smashed by centrifugal force. When the motor 15 is driven to the dewatering tank 16, the motor 15 drives the dewatering basket 40 to rotate for a set time, and the controller 3 controls the motor 15 to stop, so that the air is continuously circulated; the air is absorbed by the water absorbing membrane 41, and the air is vented by the upper sump of the water tank 9. 41 enters the evaporator 6, the incoming air is cooled and condensed by the evaporator 6, and the condensed water of the evaporator 6 flows to the water tank 9, and the water of the water tank 9 flows to the water tank 35; the air condensed and occluded enters the left radiator 7 or the right The heat sink 39 absorbs moisture through the moisture absorbing material of the left moisture absorbing grille 46 or the moisture absorbing material of the right moisture absorbing grill 47, and then is discharged into the room by the left moisture absorbing exhaust port 42 or the right moisture absorbing exhaust port 44;

When the leafless fan of the air absorbing function works, the humid air entering by the air inlet 13 enters the water absorbing film by the blade 19 on the motor 15 and the first vent hole of the dewatering tank 16, and is carried out by the water absorbing film for the first time. Absorbing the moisture of the moist air, the water absorption film absorbs the moisture of the humid air for a set time, and then enters the evaporator 6 from the first vent hole of the water tank A9, is cooled and condensed and absorbed by the evaporator 6; the air after condensing and absorbing the moisture enters the radiator 7. It is heated by the radiator 7 and discharged through the exhaust port 14. The fan 8 is disposed between the exhaust port 14 and the radiator 7, and the evaporator 6 is disposed between the radiator 7 and the water tank A9. When the fan 8 is in operation, the flow of air in the casing 4 is directed to the exhaust by the air inlet 13 Mouth 14. The moisture absorbing passage of the humid air is: the air inlet 13 → the first vent hole → the water absorbing film → the second vent hole → the evaporator 6 → the radiator 7 → the exhaust port 14 . In order to collect the water in the dewatering tank and the water receiving tank, a water collecting pipe is arranged at the bottom of the tank of the dewatering tank, and a water collecting pipe is arranged at the bottom of the water tank, and the water collecting pipe is connected with the water collecting box. In order to display the intake port 13, exhaust The humidity of the mouth 14 and the humidity for controlling moisture absorption, the controller 3 is provided with a first humidity sensor 31, a second humidity sensor 32 and a control panel 33, and the control panel 33 is provided with an automatic control switch 34, a stop switch 35 and a humidity display 36, A humidity sensor 31 is mounted to the intake port 13, a second humidity sensor 32 is mounted to the exhaust port 14, and the first humidity sensor 31 and the second humidity sensor 32 are coupled to the controller 3 via a sensing line. When the controller 3 is in operation, the first humidity sensor 31 transmits the humidity signal of the air inlet 13 to the controller 3, the controller 3 controls the humidity display 36 to display the humidity of the air inlet 13, and the second humidity sensor 32 connects the air outlet 14 The humidity signal is transmitted to the controller 3, which controls the humidity display 36 to display the humidity of the exhaust port 14. In order to make the water absorbing film have a moisture absorbing function and a good gas permeable function, the water absorbing film is provided with a vent hole, and the water absorbing film is composed of a water absorbing material including a natural water absorbing material and a synthetic water absorbing material, and the water absorbing film includes a sponge, a fiber, and a cloth. When the automatic control switch 34 is pressed, the controller 3 enters the automatic control working state. When the air humidity of the air inlet 13 reaches the set humidity upper limit value, the first humidity sensor 31 transmits its humidity signal to the controller 3 to control The heater 3 controls the operation of the heating device 1 and the dehydrating device 2, and absorbs moisture by the heating device 1 and the dehydrating device 2, and as the humidity of the indoor air is continuously lowered, when the humidity of the indoor air is lowered to the set lower limit of the humidity, the first The humidity sensor 31 transmits its humidity signal to the controller 3, and the controller 3 controls the heating device 1 and the dehydrating device 2 to stop.

The above are only the preferred embodiments of the present invention, and are not intended to limit the present invention. Any modifications, equivalents, improvements, etc., which are within the spirit and scope of the present invention, should be included in the protection of the present invention. Within the scope.

Claims

A leafless fan having an air absorbing function, comprising: a heating device (1), a dehydrating device (2), a controller (3), and a casing (4), the heating device (1) and The dewatering device (2) is fixedly connected to the outer casing (4), and the controller (3) is connected to the heating device (1) and the dehydrating device (2) through a control line, the heating The device (1) comprises a heat pump device (5) disposed at the bottom of the casing (4), an evaporator (6) connected to the heat pump device (5), and a left heat sink connected to the heat pump device (5) (7) and right radiator (39), fan (8), water tank A (9) and water tank B (10), between the heat pump device (5) and the evaporator (6) The water tank A (9), the water tank A (9) is provided with a water collecting pipe A (11), the surface of the water receiving tank A (9) is coated with a nano titanium dioxide coating, and the evaporator (6) is The left heat sink (7) and the right heat sink (39) are coated with a nano titanium dioxide coating, and the evaporator (6) is disposed between the left heat sink (7) and the right heat sink (39). The water collection tank B (10), the water collection tank B (10) is also provided with a water collection pipe B (12), The surface of the water tank B (10) is coated with a nano titanium dioxide coating, the inner side wall of the outer casing (4) is provided with an air inlet (13), and the top of the outer casing (4) is provided with an exhaust port (14). The exhaust port (14) includes a left moisture exhaust port (42), a left dry exhaust port (43), a right moisture exhaust port (44), and a right dry exhaust port (45), the dewatering device ( 2) comprising a motor (15), a dewatering basket (40), a water absorbing film (41), and a dewatering tank (16), the base of the motor (15) being fixedly connected to the casing (4), the motor (15) a fan blade (19) is disposed on the blade (19), and a water absorption film is disposed on the fan blade (19), the dewatering basket (40) is coupled to a rotating shaft of the motor (15), and the water absorbing film (41) is disposed on On the dewatering basket (40), a water collecting pipe C (17) is disposed in the dewatering tank (16), the surface of the dewatering tank (16) is coated with a nano titanium dioxide coating, the water collecting pipe A (11), the The water collecting pipe B (12) and the water collecting pipe C (17) are connected to a water collecting box provided on the back side of the casing (4), the water receiving tank A (9), the water receiving tank B (10) And a UV lamp (18) is disposed on the back side of the dewatering tank (16), and the fan (8) is disposed at the air inlet (13) and the dewatering tank (1) 6), the left radiator (7) is disposed between the left moisture vent (42) and the left dry vent (43) and the air inlet (13), a right radiator (39) is disposed between the right moisture vent (44) and the right dry vent (45) and the air inlet (13), and the left radiator (7) is provided There is a left moisture absorbing grid (46), the right heat sink (39) is provided with a right moisture absorbing grid (47), the left heat sink (7) and the right heat sink (39) and the evaporator ( 6) A lower electric door (48) is provided, the lower electric door (48) is provided with a wind guiding hole (49), the left moisture venting opening (42) and the left drying exhaust port (43) ) with left electric a door (50), the left electric door (50) is provided with a left exhaust hole (51), and the right moisture exhaust port (44) and the right dry exhaust port (45) are provided with a right electric door ( 52), the right electric door (52) is provided with a right venting hole (53), the top end of the housing (4) is fixedly connected with a bladeless fan (54), and the leafless fan (54) includes a fluid guiding body (55) a drainage air duct is disposed at a junction of the fluid guiding body (55) and the outer casing (4), and an infrared body temperature detector (56) is disposed at a top inner side of the fluid guiding body (55), and the infrared body temperature is A detector (56) is coupled to the controller (3).
A leafless fan having an air absorbing function according to claim 1, wherein said heat pump device (5) comprises a compressor (20), an expansion valve (21), a reservoir (22), and a gas. a liquid separator (23), a refrigerant output joint (24) of the compressor (20) is connected to the radiator (7), and the expansion valve (21) is connected to the radiator (7), The memory (22) is connected to one side of the evaporator (6), the other side of the evaporator (6) is connected to the compressor (20), and the water tank A (9) is provided with a first groove. (25) and a first boss (26), the first boss (26) is provided with a first venting hole, and the water receiving tank B (10) is provided with a second groove (27) and a second boss (28), the second boss (28) is provided with a second venting hole, and the dewatering groove (16) is provided with a third groove (29) and a third boss (30), the third convex The stage (30) is provided with a third venting hole, and the second venting hole and the third venting hole are in communication with the exhaust port (14) and the air inlet (13).
A leafless fan having an air absorbing function according to claim 1 or 2, wherein said ultraviolet lamp tube (18) is disposed on said first boss (26) and said second boss ( 28) and the inside of the third boss (30).
The leafless fan with air absorbing function according to any one of claims 1 to 3, characterized in that the controller (3) is provided with a first humidity sensor (31) and a second humidity sensor (32). And a control panel (33), the control panel (33) is provided with an automatic control switch (34), a stop switch (35) and a humidity display (36), the first humidity sensor (31) being mounted on the a gas port (13), the second humidity sensor (32) is mounted to the exhaust port (14), and the first humidity sensor (31) and the second humidity sensor (32) pass through a sensing line The controller (3) is connected.
A leafless fan having an air absorbing function according to any one of claims 1 to 4, wherein the water absorbing film is provided with a vent hole, and the water absorbing film is composed of a water absorbing material, and the water absorbing material includes natural A water absorbing material comprising a sponge, a fiber, and a cloth, and a synthetic water absorbing material.
A leafless fan having an air absorbing function according to any one of claims 1 to 5, characterized in that: said exhaust port (14) is provided with 3-5, said air inlet (13) There are 3-5.
A leafless fan having an air absorbing function according to any one of claims 1 to 6, characterized in that: the water tank A (9), the water tank B (10), and the dewatering tank (16) ) consists of an aluminum alloy plate.
A leafless fan having an air absorbing function according to any one of claims 1 to 7, wherein the outer casing (4) is provided with a control chamber (37), and the control chamber (37) is located at Below the air inlet (13), the control chamber (37) is provided with a partition (38).