SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a humidifying assembly, a fresh air humidifying device, a heating indoor unit and an air conditioner, and aims to solve the technical problems that an existing humidifier is single in function, complex in structure, and poor in use convenience and sanitation.
In order to solve the above problems, the present invention provides a humidification assembly, comprising a humidity transfer member, a driving member, and a housing having an accommodating space formed therein, wherein a first barrier member is disposed in the housing, the accommodating space is divided into a desorption chamber and a cooling adsorption chamber which are relatively independent from each other by the first barrier member, the desorption chamber is provided with a first air inlet and a first air outlet, and the cooling adsorption chamber is provided with a second air inlet and a second air outlet; the humidity transfer piece is positioned in the accommodating space, and the driving piece is connected with the humidity transfer piece and used for driving the humidity transfer piece to move to and fro between the desorption cavity and the cooling adsorption cavity; the humidifying assembly further comprises a heating assembly connected to the shell, and the heating assembly is used for heating the gas flowing to or into the desorption cavity.
On one hand, the humidifying component is matched with the wind-driving component for use, a fresh air humidifying device can be formed, double functions of fresh air and humidification can be achieved simultaneously, and the humidifying component is high in functionality; on the other hand, when this humidification subassembly was applied to new trend humidification device, directly utilized outdoor new trend, transferred the new trend of desorption intracavity through the hydrone that the humidity transfer piece will be cooled off in the absorption intracavity new trend, need not additionally to set up the water source etc. can realize carrying and humidity to the new trend of indoor environment and improve, simple structure, and do not have the water source and deposit aquatic incrustation scale, breed phenomenons such as bacterium to improve its convenience and the health nature of using.
Optionally, a second barrier member is arranged between the cooling region and the adsorption region of the cooling adsorption cavity, the second barrier member separates the cooling adsorption cavity into a cooling cavity and an adsorption cavity which are relatively independent, the second air inlet and the second air outlet are both arranged in the adsorption cavity, the cooling cavity is provided with a third air inlet and a third air outlet, and the third air outlet is communicated with the first air inlet; the driving piece is used for driving the humidity transfer piece to sequentially and circularly reciprocate among the desorption cavity, the cooling cavity and the adsorption cavity.
Optionally, the first barrier member is provided with a first plug hole, the humidity transfer member comprises a turntable, the turntable comprises a desorption region and a cooling adsorption region along the circumferential direction of the turntable, and the desorption region and the cooling adsorption region are both provided with vent holes; the rotary disc is inserted in the first inserting hole in a matching mode, the desorption region is located in the desorption cavity, and the cooling adsorption region is located in the cooling adsorption cavity; the rotary table is rotationally connected with the shell, and the driving piece is used for driving the rotary table to rotate. The humidity transfer piece reciprocates a concrete form in desorption chamber and cooling absorption chamber, can realize carrying new trend and humidity improvement in succession indoor environment.
Optionally, the housing includes a first half shell and a second half shell that are fastened together, the first blocking member includes a first partition plate disposed in the first half shell and a second partition plate disposed in the second half shell, and the first partition plate corresponds to an end surface of the second partition plate and forms the first insertion hole. Half shell when taking apart the state with the half shell of second, the inside of casing is open state to the dismouting of parts such as the inside carousel of casing, thereby the convenient degree of assembly and dismantlement maintenance of each part in the improvement humidification subassembly.
Optionally, an installation ring is rotatably clamped between the first half shell and the second half shell, the first insertion hole is surrounded by the first half shell and the second half shell, and the turntable is nested in the installation ring. The installation circle can carry out fixed stay to the outward flange of carousel to keeping the maintenance to the carousel shape, reducing the emergence of the carousel deformation card dun circumstances, ensure that the carousel adsorbs the humidity transfer between the chamber in desorption chamber and cooling.
Optionally, the driving member includes a motor and a driven gear sleeved on the mounting ring, a driving gear is disposed at a driving end of the motor, and the driving gear is engaged with the driven gear. The rotation drive power of driving piece transmits to the carousel through the higher installation circle of intensity, and the installation circle can drive the carousel rotation in the periphery of carousel comprehensively promptly to further improve carousel pivoted stability, reduce the emergence that its atress deformation leads to the card dun condition.
Optionally, the accommodating space is cylindrical, the desorption chamber and the cooling adsorption chamber are both fan-shaped regions along the circumferential direction of the accommodating space, and the angle of the corresponding fan-shaped region of the cooling adsorption chamber is 115 ° to 135 °. The humidity transfer piece has higher transfer efficiency to water molecules, and correspondingly, the fresh air flowing through the desorption cavity carries water molecules to achieve better humidification effect on the indoor environment.
The utility model also provides a fresh air humidifying device which comprises an air driving component and the humidifying component, wherein the air driving component is used for driving fresh air to flow into the desorption cavity through the first air inlet and flow out through the first air outlet, and is also used for driving fresh air to flow into the cooling adsorption cavity through the second air inlet and be exhausted through the second air outlet. The fresh air humidifying device can play the dual roles of fresh air and humidification at the same time, and is high in functionality; and fresh air humidification device can directly utilize outdoor new trend, and the hydrone that will cool off in the adsorption cavity new trend through humidity transfer piece shifts the new trend of desorption intracavity, need not additionally to set up the water source etc. can realize carrying and humidity improvement to the new trend of indoor environment, and simple structure, and do not have the water source and deposit water incrustation scale, breed phenomenons such as bacterium to improve its convenient degree of use and sanitary nature.
The utility model also provides a heating indoor unit which comprises an indoor unit body and the fresh air humidifying device, wherein the heat exchanger of the indoor unit body is used as a heating component in the fresh air humidifying device. When the heating indoor unit operates, the heat exchanger of the indoor unit body heats the indoor environment, meanwhile, the partial area of the heat exchanger is used for heating gas in the desorption cavity in the fresh air humidifying device or flowing into the desorption cavity as a heating assembly, the heat exchanger can be dual-purpose, the heating indoor unit can convey fresh air to the indoor environment and improve the humidity of the indoor environment on the basis of heating the indoor environment, and the heating indoor unit is simple in structure and strong in functionality.
The utility model also provides an air conditioner which comprises the fresh air humidifying device. This new trend humidification device can assemble in the air conditioner for the air conditioner possesses the effect of heating, carrying the new trend, improving humidity to the indoor environment refrigeration, and refrigerates to heat and carry the new trend and improve humidity and can relatively independent control, with the functional and the convenient degree of use that improve the air conditioner. Of course, when the air conditioner is a heating air conditioner, the fresh air humidifying device can be independently integrated in the air conditioner, and can also be similar to the heating indoor unit, and a heat exchanger of the air conditioner indoor unit is used as a heating component of the fresh air humidifying device.
Detailed Description
In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.
The present embodiment provides a humidification assembly, as shown in fig. 1 to 5, including a humidity transferring member 100, a driving member 200, and a housing 300 having an accommodating space formed therein, wherein a first barrier 400 is disposed in the housing 300, the accommodating space is divided into a desorption chamber 310 and a cooling adsorption chamber 320 by the first barrier 400, the desorption chamber 310 is provided with a first air inlet 311 and a first air outlet 312, and the cooling adsorption chamber 320 is provided with a second air inlet 323 and a second air outlet 324; the humidity transferring piece 100 is positioned in the accommodating space, and the driving piece 200 is connected with the humidity transferring piece 100 and used for driving the humidity transferring piece 100 to move to and fro between the desorption cavity 310 and the cooling adsorption cavity 320; the humidification assembly further includes a heating assembly 500 connected to the housing 300, the heating assembly 500 for heating the gas flowing to or into the desorption chamber 310.
The embodiment further provides a fresh air humidifying device, as shown in fig. 7 and fig. 8, including a wind driving component 900 and the above humidifying component, the wind driving component 900 is used for driving the fresh air d to flow into the desorption chamber 310 through the first air inlet 311 and flow out through the first air outlet 312, and is used for driving the fresh air d to flow into the cooling adsorption chamber 320 through the second air inlet 323 and be discharged through the second air outlet 324.
The humidification module and the fresh air humidification device provided by this embodiment include a housing 300 serving as a humidity conversion substrate, a humidity transfer member 100 for transferring the humidity of the fresh air d, a driving member 200 for driving the humidity transfer member 100 to move, and a heating module 500 for heating the gas in the desorption chamber 310 to improve the moisture absorption capacity of the desorption chamber; the fresh air humidifying device comprises the humidifying assembly and a wind driving assembly 900 used for driving fresh air d to flow through the desorption cavity 310 and the cooling adsorption cavity 320.
When in use, as shown in fig. 7, the fresh air humidifying device is installed in an installation area C, such as a wall, in the shell 300 of the air conditioner or directly placed in an indoor B, etc., the fresh air d in the outdoor a is driven by the air driving component 900 to flow through the humidifying component in two ways, wherein one way of the fresh air d flows into the desorption cavity 310 through the first air inlet 311 and flows out through the first air outlet 312, and the fresh air d is heated by the heating component 500 in the process of flowing into the desorption cavity 310, and after absorbing heat, the moisture content of the fresh air d is unchanged, the enthalpy value of air is increased, and the relative humidity is reduced, so that the moisture absorption capacity of the fresh air d entering the desorption cavity 310 is enhanced; meanwhile, the process of the heated fresh air d flowing through the desorption chamber 310 can heat the humidity transferring member 100 located therein, so that it becomes dry and the temperature thereof rises. The cooling adsorption cavity 320 comprises a cooling area and an adsorption area, the other path of fresh air d flows into the cooling adsorption cavity 320 through the second air inlet 323 and flows out through the second air outlet 324, wherein the fresh air d of the cooling area of the cooling adsorption cavity 320 can be located in the humidity transfer piece 100 in the area for primary cooling, the fresh air d of the adsorption area of the cooling adsorption cavity 320 can carry out secondary cooling on the humidity transfer piece 100 subjected to the primary cooling, and the humidity transfer piece 100 subjected to the secondary cooling can adsorb water molecules in the fresh air d.
The driving member 200 drives the humidity transfer member 100 to move back and forth between the desorption cavity 310 and the cooling adsorption cavity 320, specifically, the driving member 200 drives the humidity transfer member 100 to be heated and dried when passing through the desorption cavity 310, the heated and dried humidity transfer member 100 is then driven by the driving member 200 to enter a cooling area of the cooling adsorption cavity 320 for primary cooling and cooling, and then reaches an adsorption area of the cooling adsorption cavity 320 for secondary cooling and cooling, water molecules of fresh air d in the adsorption area are adsorbed, and dry air f after water loss in the cooling adsorption cavity 320 is discharged to the outside a through the second air outlet 324; subsequently, the driving member 200 drives the humidity transferring member 100 carrying water molecules to enter the desorption cavity 310 again, the fresh air d with stronger moisture absorption capacity in the desorption cavity 310 can take away the water molecules carried by the humidity transferring member 100, so as to improve the moisture content of the fresh air d to become the wet and warm air e, and the wet and warm air e is exhausted to the indoor B through the first air outlet 312, so that the fresh air d is provided for the indoor B environment, and the humidity of the indoor B environment is improved. The humidity transfer piece 100 which loses water in the desorption cavity 310 and is heated and dried is brought to the cooling area and the adsorption area of the cooling adsorption cavity 320 by the driving piece 200 again, the humidity transfer piece 100 is cooled again and water molecules of the fresh air d in the cooling adsorption cavity 320 are adsorbed and cooled, and the circulation is carried out, so that the effects of continuously conveying the fresh air d to the indoor environment B and improving the humidity of the indoor environment B are achieved.
On one hand, the humidifying component is matched with the wind driving component 900 for use, a fresh air humidifying device can be formed, double functions of fresh air d and humidifying can be achieved simultaneously, and the functionality is strong; on the other hand, when this humidification subassembly was applied to new trend humidification device, directly utilized outdoor A's new trend d, transferred the hydrone in the new trend d in the cooling absorption chamber 320 to the new trend d in desorption chamber 310 through humidity transfer member 100, need not additionally to set up the water source etc. can realize carrying and humidity to the new trend d of indoor B environment and improve, simple structure, and do not have the water source and deposit aquatic incrustation scale, breed phenomenons such as bacterium to improve its convenience of use and sanitary nature.
Wherein, the mounted position of heating element 500 is unrestricted, can realize improving the temperature and the moisture absorption capacity of new trend d in desorption chamber 310. Specifically, the heating assembly 500 may be installed in an air inlet pipeline at the front end of the first air inlet 311 to heat the fresh air d flowing through the air inlet pipeline; or the heating element 500 may be installed at the first air inlet 311 to heat the fresh air d flowing through the first air inlet 311; or heating element 500 can direct mount in desorption chamber 310 to the new trend d that gets into in desorption chamber 310 heats, and when heating element 500 installed in desorption chamber 310, it is comparatively abundant to the heating of new trend d in desorption chamber 310, and can effectively improve heating element 500's installation convenience, reduce heating element 500 and install on the pipeline, the installation degree of difficulty is big, the emergence of the circumstances such as fixed unstability.
Specifically, the wind driving assembly 900 may be a single fan that drives the two fresh air paths d simultaneously, or may be two fans that separately drive the two fresh air paths d, and the fans may be disposed on an air inlet side (such as a blower) of the humidifying assembly, or may be disposed on an air outlet side (such as an exhaust fan) of the humidifying assembly. The humidity transfer member 100 may be made of materials such as molecular sieve, zeolite, silica gel, etc.
Alternatively, in this embodiment, as shown in fig. 5, the first barrier member 400 is provided with a first inserting hole 430, and the humidity transferring member 100 includes a rotating disc, the rotating disc includes a desorption region and a cooling adsorption region along the circumference thereof, and the desorption region and the cooling adsorption region are both provided with vent holes; the turntable is matched and inserted in the first insertion hole 430, the desorption region is positioned in the desorption cavity 310, and the cooling adsorption region is positioned in the cooling adsorption cavity 320; the turntable is rotatably connected to the housing 300, and the driving member 200 is used for driving the turntable to rotate. The humidity transfer piece 100 is in a specific form that the humidity transfer piece moves back and forth between the desorption cavity 310 and the cooling adsorption cavity 320, the desorption region and the cooling adsorption region are sequentially arranged along the circumferential direction of the containing space in the shell 300, the turntable is positioned in the containing space and rotates in the circumferential direction under the driving action of the driving piece 200, and in the rotation process of the turntable, fresh air d in the desorption cavity 310 can circulate through the vent holes of the desorption region of the turntable and is heated and dried; the new trend d that the cooling adsorbed the chamber 320 can adsorb the ventilation hole circulation in district through the carousel cooling to cool off it, the disk body in carousel cooling adsorption district adsorbs the hydrone that flows through new trend d correspondingly. The plate body of the turntable continuously and circularly transfers the fresh air d into the desorption cavity 310 through the first inserting hole 430 for heat absorption and drying, transfers the water molecules into the cooling adsorption cavity 320 from the desorption cavity 310 for cooling and temperature reduction and adsorbs the water molecules in the fresh air d, transfers the water molecules into the desorption cavity 310 from the cooling adsorption cavity 320 for desorption and heat absorption and drying … … again, and continuously transfers the water molecules of the fresh air d in the cooling adsorption cavity 320 into the fresh air d in the desorption cavity 310 by circulation, so that the continuous conveying of the fresh air d and the humidity improvement of the indoor environment B are realized. Wherein, along with the rotation of carousel, desorption district and cooling adsorption zone on the carousel also are constantly changing.
Specifically, as shown in fig. 5, the first partition plate and the first half shell can be integrally formed, and the second partition plate and the second half shell can be integrally formed, so that the connection firmness and the processing convenience of the corresponding partition plate and the half shells are improved. Of course, in some embodiments, the first partition and the first half-shell may be two separate components, and the second partition and the second half-shell may be two separate components.
Of course, besides the above form, the humidity transferring member 100 may further include an opening on the first barrier 400, an elastic sealing film is disposed on the opening, the elastic sealing film is provided with a notch, the driving member 200 may drive the whole humidity transferring member 100 to enter the desorption cavity 310 or the cooling adsorption cavity 320 through the notch, and the humidity transferring member 100 is squeezed and spread when passing through the notch, the elastic sealing film at the edge of the notch can keep the squeezing and sealing of the humidity transferring member 100 under the elastic action, so as to ensure the relative independence of the desorption cavity 310 and the cooling adsorption cavity 320; when the humidity transferring member 100 passes through the incision, the incision is not opened any more, the incision is automatically restored, and the edges of the incision are pressed against each other to form a seal.
Specifically, in the present embodiment, as shown in fig. 1, fig. 2 and fig. 5, the housing 300 may include a first half-shell 330 and a second half-shell 340 that are fastened together, the first blocking member 400 includes a first partition 410 disposed in the first half-shell 330 and a second partition 420 disposed in the second half-shell 340, and the first partition 410 corresponds to an end surface of the second partition 420 and forms a first inserting hole 430. Here, it is a specific form of the housing 300 and the first blocking member 400, wherein when the first half-shell 330 and the second half-shell 340 are in a disassembled state, the inside of the housing 300 is in an open state, so as to facilitate the installation of components such as a turntable inside the housing 300, after the installation of the turntable and the like is completed, the first half-shell 330 and the second half-shell 340 are fastened, the first partition plate 410 and the second partition plate 420 correspondingly form the first inserting hole 430, and the turntable is clamped therein, so as to improve the convenience of assembly, disassembly and maintenance of each component in the humidification module.
In this embodiment, as shown in fig. 5 and 6, a sealing strip 800 may be disposed between the first partition 410, the second partition 420 and the turntable. The sealing strips 800 can improve the matching sealing performance between the first partition plate 410, the second partition plate 420 and the rotary table, correspondingly improve the air tightness of the desorption cavity 310 and the cooling adsorption cavity 320 in the rotary process of the rotary table, and reduce the occurrence of the condition that the humidity transfer effect is influenced by the escape of water molecules.
Optionally, in this embodiment, as shown in fig. 5, a mounting ring 700 is rotatably clamped between the first half shell 330 and the second half shell 340, the first inserting hole 430 is defined by the three, and the turntable is nested in the mounting ring 700. On one hand, after the installation ring 700 is arranged, the first partition plate 410 and the second partition plate 420 can be made of plates with regular shapes, when the first half shell 330 is buckled with the second half shell 340, a gap with two through ends exists between the first partition plate 410 and the second partition plate 420, and the installation ring 700 is matched with the first half shell 330 and the second half shell 340 to seal the outer end of the gap, so that a first plug hole 430 with the outer end sealed is formed, and the processing convenience of the first partition plate 410 and the second partition plate 420 is improved; on the other hand, the mounting ring 700 is rotatably clamped between the first half shell 330 and the second half shell 340, and the mounting ring 700 can fixedly support the outer edge of the turntable, and when the driving member 200 drives the turntable to rotate, the mounting ring 700 and the turntable synchronously rotate to maintain the shape of the turntable, reduce the occurrence of the deformation and blockage of the turntable, and ensure the humidity transfer of the turntable between the desorption cavity 310 and the cooling adsorption cavity 320.
Of course, in other embodiments, when the mounting ring 700 is not provided, the opposing end surfaces of the first partition plate 410 and the second partition plate 420 may be provided with steps protruding from the outer ends, and when the first half shell 330 is fastened to the second half shell 340, the steps at the outer ends of the first partition plate 410 and the second partition plate 420 are abutted to form the first inserting hole 430 with an inner end opening by splicing.
In this embodiment, as shown in fig. 1, 3 and 4, the driving member 200 includes a motor 210 and a driven gear 230 sleeved on the mounting ring 700, a driving gear 220 is disposed at a driving end of the motor 210, and the driving gear 220 is engaged with the driven gear 230. Here, in a specific form of the driving member 200, the mounting ring 700 supports an outer periphery of the turntable, and is rotatably clamped between the first half-shell 330 and the second half-shell 340, an exposed driven gear 230 is sleeved on an outer periphery of the mounting ring 700, and a driving gear 220 at a driving end of the motor 210 is engaged with the driven gear 230; during the use, starter motor 210, motor 210 drives driving gear 220 and rotates, driving gear 220 drives driven gear 230 and rotates, installation circle 700 and carousel follow the synchronous rotation of driven gear 230, thereby realize the rotation drive of driving piece 200 to the carousel, and the rotation drive power of driving piece 200 transmits to the carousel through the higher installation circle 700 of intensity, installation circle 700 can drive the carousel rotation in the periphery of carousel comprehensively promptly, thereby further improve carousel pivoted stability, reduce the emergence that its atress deformation leads to the card dun condition. In addition, above-mentioned setting, driving piece 200 installs the outside at casing 300 and can realize the rotation drive to the carousel, can effectively reduce driving piece 200 and install the dismouting that leads to in casing 300 and unchangeable and take the emergence of the inside cavity space condition of casing 300, correspondingly improve the convenient degree of dismouting of driving piece 200 and the effective flow area of each cavity in casing 300.
Preferably, as shown in fig. 6, the outer end portions of the facing end surfaces of the first half shell 330 and the second half shell 340 may be provided with a rotating groove 350, the side portions of the mounting ring 700 and the driven gear 230 are rotatably inserted into the rotating groove 350 on the corresponding side, the outer circumferential edge of the rotating groove 350 is provided with an outer baffle for abutting against the outer circumferential surface of the driven gear 230 for plugging, the inner circumferential edge of the rotating groove 350 is provided with an inner baffle for abutting against the inner circumferential surface of the mounting ring 700 for plugging, that is, the mounting ring 700, the driven gear 230 and the rotating groove 350 may form a substantially sealed cavity, and lubricating oil may be injected into the cavity to improve the smoothness of the rotation of the mounting ring 700 and the driven gear 230 relative to the rotating groove 350, so as to ensure the smoothness of the rotation of the turntable.
Specifically, as shown in fig. 2 and 3, a sleeve 110 coaxial with the turntable may be disposed at the center of the turntable, and a rotating shaft may be disposed inside the housing 300, and rotatably inserted into the sleeve 110; when the driving member 200 drives the turntable to rotate, the rotating shaft can limit the rotating position of the turntable through the cooperation with the sleeve 110, so as to improve the position accuracy of the turntable rotating in the housing 300.
Alternatively, in this embodiment, as shown in fig. 2 and 5, the accommodating space is cylindrical, the desorption chamber 310 and the cooling adsorption chamber 320 are both fan-shaped regions along the circumferential direction of the accommodating space, and the angle of the corresponding fan-shaped region of the cooling adsorption chamber 320 is 115 ° to 135 °. When the angle α of the corresponding sector area of the cooling adsorption cavity 320 is 115 ° to 135 °, the angle β of the corresponding sector area of the desorption cavity 310 is 360 ° - α, and when the fresh air flow d flowing through the desorption cavity 310, the fresh air flow d flowing through the cooling adsorption cavity 320, and the heating temperature of the heating assembly 500 are quantitative, the humidity transfer member 100 has a high transfer efficiency for water molecules, and accordingly, the fresh air d flowing through the desorption cavity 310 carries water molecules with a good humidification effect for the indoor environment B.
Specifically, when other factors are quantitative, the larger the flow of the fresh air d flowing through the desorption cavity 310 is, the better the humidification effect on the indoor environment B is within a certain range; the higher the heating temperature of the fresh air d flowing through the desorption chamber 310 by the heating assembly 500 is, the better the humidification effect of the fresh air d flowing through the desorption chamber 310 on the indoor environment B is.
In this embodiment, as shown in fig. 8, a second barrier 600 may be disposed between the cooling region and the adsorption region of the cooling adsorption cavity 320, the second barrier 600 separates the cooling adsorption cavity 320 into a cooling cavity 321 and an adsorption cavity 322 which are relatively independent, the second air inlet 323 and the second air outlet 324 are both disposed in the adsorption cavity 322, the cooling cavity 321 is provided with a third air inlet and a third air outlet, and the third air outlet is communicated with the first air inlet 311; the driving member 200 is used for driving the humidity transferring member 100 to sequentially and cyclically reciprocate among the desorption chamber 310, the cooling chamber 321 and the adsorption chamber 322. The second barrier member 600 separates the cooling region and the adsorption region of the cooling adsorption chamber 320 into two relatively independent chambers, and when in use, the fresh air d from the outdoor a is driven by the driving assembly to flow through the humidifying assembly in two paths, wherein one path of fresh air d flows into the cooling chamber 321 through the third air inlet, then flows into the first air inlet 311 through the third air outlet, further flows into the desorption chamber 310, and flows out through the first air outlet 312; the fresh air d can cool the humidity transfer piece 100 located in the cooling cavity 321 in the process of flowing through the cooling cavity, accordingly, the fresh air d can absorb the heat of the humidity transfer piece 100 to be preheated, and the preheated fresh air d is reheated by the heating component 500 after flowing into the desorption cavity 310 or entering the desorption cavity 310, so that the effect of improving the moisture absorption capacity is achieved. The other path of fresh air d flows into the adsorption cavity 322 through the second air inlet 323, then the humidity transfer piece 100 in the adsorption cavity 322 is cooled for the second time to become dry air f to be discharged out of the room A, the humidity transfer piece 100 adsorbs water molecules of the fresh air d in the cavity, then the dry air f enters the desorption cavity 310 under the driving of the driving piece 200, the fresh air d in the desorption cavity 310 carries the water molecules on the humidity transfer piece 100 to become wet warm air e to be discharged into the room B environment, and therefore the fresh air d is provided for the room B environment and the humidity of the room B environment is improved.
Then above-mentioned setting, the new trend d that flows through cooling chamber 321 can also preheat the new trend d that gets into desorption chamber 310 front end on the basis that the realization carries out cooling to its interior humidity transfer piece 100 once to the heat to cooling chamber 321 carries out recycle, to reduce heating element 500 to the heating load that gets into desorption chamber 310 new trend d, the energy that the operation of corresponding reduction new trend humidification device consumed.
Wherein, similar to the first barrier 400, a first plug hole 430 is provided, when the cooling adsorption cavity 320 is partitioned into the cooling cavity 321 and the adsorption cavity 322 by the second barrier 600, a second plug hole may also be provided on the second barrier 600, and different parts of the turntable are simultaneously plugged into the first plug hole 430 and the second plug hole, correspondingly, different tray body regions of the turntable are located in the desorption cavity 310, the cooling cavity 321 and the adsorption cavity 322, and along with the rotation drive of the turntable by the driving member 200, the tray body regions of the turntable sequentially circulate through the desorption cavity 310, the cooling cavity 321 and the adsorption cavity 322, so as to transfer water molecules in the adsorption cavity 322 into the desorption cavity 310 and bring the water molecules to the indoor B environment by the fresh air d flowing through the desorption cavity 310, thereby increasing the humidity of the fresh air d conveyor in the indoor B environment.
When the first barrier 400 is in another form, that is, the first barrier 400 is in a form of disposing an elastic sealing film at the opening, and similarly, when the cooling adsorption cavity 320 is partitioned into the cooling cavity 321 and the adsorption cavity 322 by the second barrier 600, the second barrier 600 may also be disposed with an opening, on which the elastic sealing film is disposed, and on which a notch for the humidity transfer member 100 to pass is disposed.
This embodiment still provides a heating indoor set, including indoor set body and above-mentioned new trend humidification device, the heat exchanger of indoor set body is as heating element 500 among the new trend humidification device. When the heating indoor unit operates, the heat exchanger of the indoor unit body heats the indoor B environment, meanwhile, the partial area of the heat exchanger serves as the heating assembly 500 to heat gas flowing to or flowing into the desorption cavity 310 in the fresh air humidifying device, the heat exchanger can be dual-purpose, the heating indoor unit can convey fresh air d to the indoor B environment and improve the humidity of the indoor B environment on the basis of heating the indoor B environment, and the heating indoor unit is simple in structure and strong in functionality.
Of course, when the fresh air humidifying device is used independently, the heating element such as an electric heater can be selected as the heating component 500.
The embodiment also provides an air conditioner, which comprises the fresh air humidifying device. This new trend humidification device can assemble in the air conditioner for the air conditioner possesses the effect of heating, carrying new trend d, improving humidity to indoor B environment refrigeration, and refrigerates and heats and carry new trend d and improve humidity and can relatively independent control, with the functional and the convenient degree of use that improve the air conditioner. Of course, when the air conditioner is a heating air conditioner, the fresh air humidifying device can be independently integrated in the air conditioner, or similar to the heating indoor unit, the heat exchanger of the indoor unit B of the air conditioner is used as the heating component 500 of the fresh air humidifying device.
Finally, it should also be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.