WO2021017221A1 - 加湿装置和具有其的空调器 - Google Patents
加湿装置和具有其的空调器 Download PDFInfo
- Publication number
- WO2021017221A1 WO2021017221A1 PCT/CN2019/113660 CN2019113660W WO2021017221A1 WO 2021017221 A1 WO2021017221 A1 WO 2021017221A1 CN 2019113660 W CN2019113660 W CN 2019113660W WO 2021017221 A1 WO2021017221 A1 WO 2021017221A1
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- WO
- WIPO (PCT)
- Prior art keywords
- water
- wet
- wet film
- humidification
- housing
- Prior art date
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F3/00—Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems
- F24F3/12—Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling
- F24F3/14—Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by humidification; by dehumidification
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F6/00—Air-humidification, e.g. cooling by humidification
- F24F6/02—Air-humidification, e.g. cooling by humidification by evaporation of water in the air
- F24F6/04—Air-humidification, e.g. cooling by humidification by evaporation of water in the air using stationary unheated wet elements
Definitions
- This application relates to the technical field of air treatment equipment, and in particular to a humidification device and an air conditioner having the same.
- the present application proposes a humidification device, which can improve the water absorption and humidification efficiency of the wet membrane module, and is easy to assemble.
- This application also proposes an air conditioner, including the above humidification device.
- a humidification device includes: a humidification support, the humidification support has a water tank; a humidification component, the humidification component is arranged in the water tank, the humidification component includes a wet membrane component; a water tank, the water tank is arranged on the humidification support; a water pump component ,
- the water pump assembly includes a water pump, a water outlet pipe and a water distribution box. The water pump is arranged on the humidification bracket.
- the water inlet of the water pump is connected with at least one of the water tank and the water tank.
- One end of the water outlet pipe is connected with the water outlet of the water pump.
- the water diversion box On the top of the membrane module, the water diversion box includes a first casing and a second casing, the first casing is located above the second casing, and the first casing and the second casing are snap-connected to define a water diversion cavity, The other end of the water outlet pipe is communicated with the water diversion cavity, and the bottom wall of the second shell is provided with a plurality of spaced first water diversion holes; and a humidification fan assembly for driving the airflow to the wet membrane assembly.
- the humidifying device of the embodiment of the present application by arranging the humidifying component in the water tank and driving the water flow through the water pump to pour water from the top of the wet membrane module, the wet film module absorbs water from the top while absorbing water from the water tank. Thereby, the water absorption of the wet film module is increased.
- the humidification fan module drives the air flow to the wet film module, and the air flow through the wet film module can take away more water, thereby improving the humidification efficiency.
- the humidification device is easy to assemble.
- the first housing is provided with a plurality of spaced apart buckles
- the second housing is provided with a plurality of spaced apart grooves
- the plurality of the buckles and the The card slots correspond one to one.
- a plurality of mating gaps are formed on the side wall of the first housing, and the inner side of each mating gap is provided with the buckle, and the second housing
- the side wall of the body is formed with a plurality of mating protrusions arranged at intervals, the inner side wall of each of the mating protrusions is formed with the card groove, the number of the plurality of mating protrusions and the plurality of mating notches The same and one-to-one correspondence, each of the fitting protrusions is matched with the corresponding fitting notch, and each of the buckles is matched with the corresponding slot.
- At least one of the first housing and the second housing is provided with a water inlet pipe communicating with the water diversion cavity, and the other end of the water outlet pipe is sleeved on the The other end of the water inlet pipe or the other end of the water outlet pipe extends into the water inlet pipe.
- a first mating part extending outward is formed on the first housing
- a second mating part extending outward is formed on the second housing
- the first mating part and the second The two matching parts jointly constitute the water inlet pipe.
- the extension direction of the water diversion box is consistent with the width direction of the wet membrane module, and the plurality of first water diversion holes are arranged at intervals along the extension direction of the water diversion box.
- the humidification component further includes: a water outlet box, the water outlet box is arranged on the top of the wet membrane module and the top of the water outlet box is open, the water separation box is located in the water outlet box Inside, the bottom of the water outlet box is formed with a plurality of second water diversion holes arranged at intervals.
- a rib is provided on one of the outer bottom wall of the second housing and the inner bottom wall of the water outlet box to connect the outer bottom wall of the second housing and the water outlet box
- the inner bottom wall is spaced up and down.
- the outer bottom wall of the second casing is provided with a plurality of the convex ribs spaced apart, and one end of the convex ribs away from the second casing abuts against the inner bottom wall of the water outlet box. Pick up.
- the humidification component further includes: a box cover provided at the open end of the water outlet box, and the water distribution box is located in a space defined by the water outlet box and the box cover, The water outlet pipe passes through at least one of the box cover and the water outlet box.
- the wet film module includes a wet film body and a wet film support, the wet film body is arranged in the wet film support, the water outlet box is arranged on the top of the wet film support, and the water outlet The box and the wet film support are integrally formed.
- the humidification device includes: a water guide, the water guide is arranged on the top of the wet membrane body, and the water guide is located below the water diversion box, the
- the water guiding member has a water guiding groove with an open upper end, the water guiding groove extends along the width direction of the wet film body, and the side wall of the water guiding groove faces adjacent to the center of the wet film body in the top-down direction
- the water guiding member is made of microporous water guiding material or the water guiding member is formed with a plurality of spaced water through holes.
- a plurality of water passing holes are formed at intervals on the water guiding member, the diameter of the water passing holes ranges from 0.5 to 5 mm, and the distance between two adjacent water passing holes ranges from 2. -15mm.
- the contour line of the water guide member is arc-shaped.
- the humidification fan assembly drives the airflow through the wet membrane assembly in the thickness direction of the wet membrane assembly, and the air outlet end of the humidification fan assembly and the water pump assembly are located in the Both sides in the thickness direction of the wet film module.
- the water tank and the water pump assembly are located on the same side in the thickness direction of the wet membrane assembly, and are arranged along the width direction of the wet membrane assembly.
- a microporous material layer is provided on a side of the wet membrane module away from the air outlet end of the humidification fan module.
- a control valve with adjustable opening is provided at the water outlet of the water pump assembly.
- the wet membrane module includes a wet membrane body and a wet membrane support, the wet membrane body is provided in the wet membrane support, and in the width direction of the wet membrane body, the wet membrane The film body extends in a fold line.
- the wet film module includes a wet film body, the wet film body includes: a first wet film, the first wet film includes a plurality of first sub-components arranged sequentially along a first direction A wet film, any two adjacent first sub-wet films are at an angle to each other, each of the first sub-wet films extends in a second direction, and the first direction and the second direction are at an angle to each other; Two wet films, the second wet film includes a plurality of second sub-wet films arranged along a first direction, and the second sub-wet films are arranged between at least part of two adjacent first sub-wet films membrane.
- a plurality of the second wet sub-films are all located on the same side of the first wet film.
- part of the plurality of second sub-wet films is located on one side of the first wet film, and the remaining parts are located on the other side of the first wet film.
- one second sub-wet film is provided between every two adjacent first sub-wet films.
- the second wet film is a plurality of spaced apart along the second direction.
- a plurality of second sub-wet films in two adjacent second wet films are staggered in the first direction.
- a plurality of second sub-wet films in two adjacent second wet films are in one-to-one correspondence, and the two second sub-wet films corresponding to each other are aligned in the second direction. Pair set.
- any two adjacent first sub-wet membranes are connected.
- the first wet film is an integrally formed part.
- the angle between the first direction and the second direction is 90°.
- each of the first sub-wet films has a planar structure, or a curved structure, or a combination of a plane and a curved surface.
- each of the second sub-wet films has a flat structure, or a curved structure, or a combination of a flat and a curved surface.
- the wet film module includes a wet film body, the wet film body includes a first wet film and a second wet film, the first wet film is disposed above the second wet film And the first wet film is connected to the second wet film, the first wet film extends in a fold line in a vertical direction, the second wet film extends in a fold line in the width direction, and the width direction is vertical In the thickness direction of the wet film body and perpendicular to the vertical direction, the airflow is adapted to pass through the wet film body in the thickness direction of the wet film body.
- the first wet film is located directly above the second wet film.
- the projection of the first wet film on the horizontal plane is located within the projection of the second wet film on the horizontal plane.
- the first wet film and the second wet film are bonded by an adhesive part.
- the glue part includes a plurality of glue dispensing parts arranged at intervals.
- the included angle between two adjacent first sub-wet films of the first wet film is ⁇ , and a value range of the ⁇ is 5°-50°.
- the included angle between two adjacent second sub-wet films of the second wet film is ⁇ , and the value range of ⁇ is 5-50°.
- An air conditioner includes: a housing with an air inlet and an air outlet formed on the housing; a heat exchanger component and a fan component, the heat exchanger component and the fan component are provided In the casing, the fan component is used to drive the airflow from the air inlet into the casing and exchange heat with the heat exchanger component to be discharged from the air outlet; and a humidifying device, the humidifying device
- the humidification device according to the embodiment of the first aspect of the present application, the humidification device is provided in the casing, and the humidification fan assembly is used to drive airflow into the casing from the air inlet and pass through the The humidifying component is humidified and discharged from the air outlet.
- the above-mentioned humidification device is provided to increase the water absorption of the wet membrane module.
- the humidification fan assembly drives the airflow to the wet membrane module, and the airflow passing through the wet membrane module can take away more moisture, and then Improve humidification efficiency.
- Fig. 1 is a front view of an indoor unit of an air conditioner according to some embodiments of the present application
- Figure 2 is a sectional view taken along line A-A in Figure 1;
- Figure 3 is a perspective view of a humidifying device according to some embodiments of the present application.
- Figure 4 is a front view of the humidifying device in Figure 3;
- Figure 5 is a sectional view taken along line B-B in Figure 4.
- Fig. 6 is a partial structural diagram of the humidifying device in Fig. 3;
- Figure 7 is a cross-sectional view taken along line C-C in Figure 6;
- Figure 8 is an exploded view of a part of the structure of the humidification device in Figure 6;
- Figure 9 is a perspective view of the wet film body in Figure 8.
- Figure 10 is another perspective view of the wet film body in Figure 8.
- FIG 11 is a perspective view of the water diversion box in Figure 8.
- Figure 12 is a perspective view of the second housing of the water diversion box in Figure 11;
- Figure 13 is a perspective view of the first housing of the water diversion box in Figure 11;
- Figure 14 is a perspective view of the water guide in Figure 8.
- Figure 15 is a perspective view of the wet film support and the water outlet box in Figure 8;
- Figure 16 is a perspective view of a wet film body according to other embodiments of the present application.
- Figure 17 is a front view of the wet film body in Figure 16;
- Figure 18 is a cross-sectional view taken along line D-D in Figure 16;
- Figure 19 is a cross-sectional view taken along line E-E in Figure 16;
- Figure 20 is a front view of a humidifying device according to other embodiments of the present application.
- Figure 21 is an exploded view of a part of the structure of the humidifying device in Figure 20;
- Figure 22 is an exploded view of the wet film stent in Figure 20;
- Fig. 23 is a flowchart of a control method of an air conditioner according to some embodiments of the present application.
- Air conditioner indoor unit 1000 Air conditioner indoor unit 1000;
- Housing 10 first installation cavity 101; first air inlet 102; first air outlet 103; second installation cavity 104; second air outlet 105;
- Heat exchanger component 20 fan component 30;
- Humidification support 1 water tank 11; air guide channel 12;
- Outlet box 31 second water diversion hole 311; first sub-outlet box 312; second sub-outlet box 313; box cover 32;
- Water guide 4 water guide groove 41; water through hole 42;
- Water pump assembly 6 water pump 61; water outlet pipe 62;
- Water diversion box 63 water diversion cavity 630; first housing 631; mating gap 6311; buckle 6312; second housing 632; mating protrusion 6321; locking groove 6322; first water diversion hole 6323; rib 6324; Inlet pipe 633; first matching portion 6331; second matching portion 6332;
- Humidification fan assembly 7 Humidification fan assembly 7; humidification fan 71; volute 72; air outlet 721.
- the humidification device 100 according to an embodiment of the present application will be described below with reference to the drawings.
- the humidification device 100 includes: a humidification support 1, a wet membrane module 2, a water tank 5, a water pump module 6 and a humidification fan module for driving airflow to the wet membrane module 2. 7.
- the humidification support 1 has a water tank 11, and the wet membrane module 2 is provided in the water tank 11, and the water in the water tank 11 is suitable for permeating into the wet membrane body 23.
- the water tank 5 is arranged on the humidifying support 1, the water tank 5 has a function of storing water, the water tank 5 can be connected with the water tank 11, and the water tank 5 is suitable for supplying water to the water tank 11.
- the water in the water tank 5 can be manually added, or the water in the water tank 5 can be added automatically.
- the water inlet of the water tank 5 can be connected to a tap water pipe, and the water in the water tank 53 is supplied to the water tank 11 through the outlet of the water tank 5.
- a water level detector can be provided in the water tank 5, for example, the water level detector can be a float switch, and when the water level detector detects that the water level is low, it can remind the user to add water or realize automatic water addition through control.
- the water pump assembly 6 is arranged on the humidification support 1.
- the water pump assembly 6 is adapted to transport the water in the water tank 11 or the water tank 5 to the top of the wet membrane assembly 2 to wet the membrane body 23.
- the water pump module 6 transports the water in the water tank 11 or the water tank 5 to the top of the wet membrane module 2, and the water input to the top of the wet membrane module 2 penetrates downward into the wet membrane body 23.
- the humidification fan assembly 7 is used to drive the air flow to the wet film main body 23, so that the wet film main body 23 can humidify the air flow, and finally discharged to the room to adjust the indoor environmental humidity.
- the water pump assembly 6 includes a water pump 61, a water outlet pipe 62 and a water distribution box 63.
- the water pump 61 is arranged on the humidifying support 1, the water inlet of the water pump 61 is connected with at least one of the water tank 5 and the water tank 11, one end of the water outlet pipe 62 is connected with the water outlet of the water pump 61, and the water distribution box 63 is located on the top of the wet membrane module 2.
- the water distribution box 63 includes a first housing 631 and a second housing 632. The first housing 631 is located above the second housing 632.
- the first housing 631 and the second housing 632 are snap-connected to define the In the water cavity 630, the other end of the outlet pipe 62 is in communication with the water diversion cavity 630, and a plurality of spaced first water diversion holes 6323 are provided on the bottom wall of the second housing 632.
- the water pump 61 can transfer the water in the water tank 11 or the water tank 5 to the wet film assembly 2 through the outlet pipe 62 and the water distribution box 63 in sequence.
- the water can be evenly poured onto the top of the wet membrane body 23 through the multiple first water diversion holes 6323 at the bottom of the water diversion box 63, so that the water delivered by the water pump assembly 6 can be more uniform
- the ground is poured onto the top of the wet film main body 23, so that the entire wet film main body 23 can be more uniformly wetted, and the humidification efficiency and the humidification amount are further improved.
- the water diversion box 63 has a simple structure and facilitates the assembly of the water outlet pipe 62 and the water diversion box 63.
- the first housing 631 and the second housing 632 are connected to define the water diversion cavity 630, which can make the water diversion box 63 detachable, which is convenient for production on the one hand, and deposits on the second housing 632 after long-term use. The dirt can be easily removed and cleaned.
- the water pump assembly 6 can deliver the water in the water tank 5 to the top of the wet membrane module 2, while the water in the water tank 5 passes through the outlet of the water tank 5 to Water tank 11 supplies water.
- the water pump 61 drives the water flow in the water tank 5 to flow in from the water inlet of the water pump 61 and out from the water outlet of the water pump 61 into the outlet pipe 62, and then out of the outlet pipe 62 into the water diversion chamber 630, and then pass through the second housing
- the first water diversion hole 6323 in the bottom wall of the 632 flows out and flows into the top of the wet membrane module 2 so as to spray water on the top of the wet membrane module 2.
- the water in the water tank 11 spreads from bottom to top and penetrates into the wet membrane module 2, thereby increasing the water absorption of the wet membrane module 2.
- the humidification fan module 7 drives the airflow to the wet membrane module 2, and the airflow passes through the wet membrane module 2. More water can be taken away, thereby increasing the humidification efficiency.
- the water pump assembly 6 can transport the water in the water tank 11 to the top of the wet membrane module 2, and at the same time, the water in the water tank 5 can pass through the water outlet of the water tank 5 to the water tank. 11 water supply,.
- the water pump 61 drives the water flow in the water tank 11 to flow in from the water inlet of the water pump 61 and out from the water outlet of the water pump 61 into the water outlet pipe 62, and then flow out of the water outlet pipe 62 into the water diversion chamber 630, and then pass through the second housing
- the first water diversion hole 6323 in the bottom wall of 632 flows out and flows into the top of the wet membrane module 2.
- the water pump 61 drives the water flow in the water tank 5 and the water tank 11 into the water inlet of the water pump 61 and out of the outlet of the water pump 61 into the outlet pipe 62, and then flows out of the outlet pipe 62 into the water diversion chamber 630, and then passes through the first The first water diversion hole 6323 in the bottom wall of the second housing 632 flows out and flows into the top of the wet membrane module 2.
- the membrane module 2 flows back into the water tank 11. At this time, the water in the water tank 11 spreads from bottom to top and penetrates into the wet membrane module 2, thereby increasing the water absorption of the wet membrane module 2.
- the humidification fan module 7 drives the airflow to the wet membrane module 2, and the airflow passes through the wet membrane module 2. More water can be taken away, thereby increasing the humidification efficiency.
- first water diversion holes 6323 may be evenly distributed on the bottom wall of the second housing 632 or unevenly distributed.
- the diameter of the first water diversion holes 6323 can also be designed according to actual needs, such as close to the second housing.
- the position in the middle of the bottom wall of the body 632 can be provided with a larger diameter of the first water diversion hole 6323.
- the position near the middle of the wet membrane module 2 has a larger air volume and the water flows out faster, which can improve the humidification efficiency;
- the opening in the middle of the wall is smaller, and the position of the wet membrane module 2 away from the middle has a smaller air volume, and the water flow is slower, which reduces the possibility of blowing water when the air flows through the wet membrane module 2.
- the water diversion box 63 may extend along the width direction of the wet film body 23 (for example, refer to the left and right directions in the drawings), and a plurality of The first water diversion holes 6323 are arranged at intervals along the width direction of the wet membrane body 23.
- the first water diversion holes 6323 can be evenly distributed along the extension direction of the water diversion box 63, or can be based on the absorption of water by each part of the wet membrane module 2 Different speeds are arranged in zones, so that when the water entering the water diversion box 63 can flow into the wet membrane module 2 from the first water diversion hole 6323, the absorption rate of the top shower water by the wet membrane module 2 is further improved.
- the aperture of the first water diversion hole 6323 located in the middle in the width direction may be set larger or the distribution density of the first water diversion hole 6323 may be set larger. Since the air flow passes through the wet film main body 23 in the thickness direction of the wet film main body 23, the center of the air flow and the center of the wet film main body 23 can be substantially opposite, so that the air duct field where the wet film main body 23 is located is in the width direction of the wet film main body 23. With the characteristics of large air volume in the middle and small air volume at both ends, the aperture of the first water diversion hole 6323 located in the middle of the water diversion box 63 can be set larger or the distribution density of the first water diversion hole 6323 can be set larger.
- the water outlet resistance of the middle part of the water distribution box 63 is small and the water output is large, so that the middle part of the wet membrane body 23 can be quickly moistened and the water volume is large, so that when the middle part of the airflow passes through the middle part of the wet membrane body 23, a relatively high Excessive airflow is fully humidified, further improving the humidification effect.
- the humidification device 100 of the embodiment of the present application by arranging the humidifying component in the water tank 11, and driving the water flow through the water pump 61 to pour water from the top of the wet membrane module 2, the wet membrane module 2 absorbs water from the water tank 11 at the same time. Water is poured on the top of the absorption, thereby increasing the water absorption of the wet membrane module 2.
- the humidification fan assembly 7 drives the air flow to the wet membrane module 2, and the air flow through the wet membrane module 2 can take away more water, thereby improving the humidification efficiency.
- the humidification device 100 is easy to assemble.
- the first housing 631 is provided with a plurality of spaced apart buckles 6312
- the second housing 632 is provided with a plurality of spaced apart buckles 6312.
- the plurality of buckles 6312 correspond to the plurality of grooves 6322 one-to-one
- the first housing 631 and the second housing 632 are connected by the buckles 6312 and the grooves 6322 to engage together so as to enter the water distribution box
- the water of 63 can directly flow out from the first water diversion hole 6323, thereby reducing the possibility of water flowing out of the installation gap between the first housing 631 and the second housing 632.
- the number and shape of the buckle 6312 and the slot 6322 can be designed according to actual needs.
- three protruding parts are respectively provided on the two opposite side walls in the longitudinal direction of the second housing 632, and a groove 6322 is provided on the protruding part.
- Three notches are respectively provided on the two opposite side walls in the longitudinal direction of the first housing 631, and an L-shaped flanging is provided at the notches as a buckle 6312, and the buckle 6312 corresponds to the buckle 6312 one by one.
- a plurality of mating gaps 6311 are formed on the side wall of the first housing 631, and the inner side of each mating gap 6311 (the “coating gap
- the “inside of 6311” refers to the side of the mating notch 6311 adjacent to the center of the first housing 631) is provided with a buckle 6312, and a plurality of mating protrusions 6321 are formed at intervals on the side wall of the second housing 632, each The inner side wall of the mating protrusion 6321 (the “inner side wall of the mating protrusion 6321” refers to the side wall of the mating protrusion 6321 adjacent to the center of the first housing 631) is formed with a card slot 6322, and a plurality of mating protrusions
- the numbers 6321 and the plurality of mating notches 6311 are the same and correspond one-to-one.
- each mating protrusion 6321 is matched with the corresponding mating notch 6311, and each buckle 6312 is matched with a corresponding slot 6322. Therefore, when assembling the first housing 631 and the second housing 632, each mating protrusion 6321 on the second housing 632 can be inserted into the mating notch 6311 on the first housing 631, and at the same time, Each buckle 6312 is snapped into the corresponding slot 6322, so that the first housing 631 and the second housing 632 can be reliably connected, and the connection between the first housing 631 and the second housing 632 can be ensured.
- the matched tightness also makes the disassembly and assembly of the water distribution box 63 convenient.
- At least one of the first housing 631 and the second housing 632 is provided with a water inlet pipe communicating with the water diversion cavity 630 633, the other end of the water outlet pipe 62 is sleeved on the water inlet pipe 633 or the other end of the water outlet pipe 62 extends into the water inlet pipe 633, so that the water flow in the water outlet pipe 62 is introduced into the water distribution cavity 630 through the water inlet pipe 633. in.
- the water outlet pipe 62 is connected to the A water inlet pipe 633 on a shell 631 is sleeved.
- the first housing 631 is not provided with a water inlet pipe 633 communicating with the water diversion cavity 630 and the second housing 632 is provided with a water inlet pipe 633 communicating with the water diversion cavity 630, the water outlet pipe 62 and the second housing
- the inlet pipe 633 on the body 632 is sleeved.
- the first housing 631 and the second housing 632 may be respectively provided with a water inlet pipe
- the first shell 631 and the second shell 632 are clamped together, the parts of the two water inlet pipes 633 are combined to form a water inlet pipe 633, and the water outlet pipe 62 is sleeved on the first shell 631 Part of the inlet pipe 633 and the part of the inlet pipe 633 on the second housing 632; or the first housing 631 and the second housing 632 are respectively provided with an inlet pipe 633, and the outlet pipe 62 is sleeved at the same time
- the water inlet pipe 633 on the first housing 631 and the water inlet pipe 633 on the second housing 632 are connected.
- the first housing 631 is formed with an outward direction (the “outward” refers to a direction away from the center of the first housing 631).
- the first mating part 6331, the second housing 632 is formed with a second mating part 6332 extending outward (the "outward” refers to a direction away from the center of the second housing 632), the first mating part 6331 Together with the second matching portion 6332, a water inlet pipe 633 communicating with the water diversion cavity 630 is formed.
- the other end of the water outlet pipe 62 extends into the water inlet pipe 633 or the other end of the water outlet pipe 62 is sleeved on the water inlet pipe 633. Therefore, the disassembly and assembly of the outlet pipe 62 and the water distribution box 63 are facilitated.
- the humidification device 100 includes: a water outlet box 31, which is arranged on the top of the wet membrane module 2 and the top of the water outlet box 31 is open, and the water is divided
- the box 63 is located in the water outlet box 31, and a plurality of second water diversion holes 311 are formed at intervals at the bottom of the water outlet box 31. Therefore, by setting the water outlet box 31 and making the water distribution box 63 located in the water outlet box 31, it can be ensured that the water in the water distribution box 63 is poured into the water outlet box 31 through the plurality of first water diversion holes 6323, and then passes through the water outlet box.
- the multiple second water diversion holes 311 at the bottom of 31 pour water to the top of the wet membrane body 23, so as to ensure that the water delivered by the water pump assembly 6 can basically pour onto the top of the wet membrane body 23 to ensure humidification efficiency and prevent The water dripping from the water distribution box 63 splashes to the outside of the wet membrane body 23. It should be noted that the second water diversion holes 311 may be evenly distributed or unevenly distributed at the bottom of the water outlet box 31.
- a rib 6324 is provided on one of the outer bottom wall of the second housing 632 and the inner bottom wall of the water outlet box 31 to connect the outer bottom wall of the second housing 632 and the water outlet box 31
- the inner bottom wall of 31 is spaced apart in the up and down direction.
- a rib 6324 may be provided on the outer bottom wall of the second housing 632; or, a rib 6324 may be provided on the inner bottom wall of the water outlet box 31.
- the outer bottom wall of the second housing 632 is provided with a plurality of convex ribs 6324 arranged at intervals, and the plurality of convex ribs 6324 may be arranged at intervals along the extending direction of the second housing 632.
- the convex ribs 6324 The second housing 632 may be evenly distributed or unevenly distributed.
- the end of the rib 6324 away from the second housing 632 abuts the inner bottom wall of the water outlet box 31, so that the outer bottom wall of the second housing 632 There is a certain gap with the inner bottom wall of the water outlet box 31 to reduce the possibility that the first water diversion hole 6323 is blocked by the inner bottom wall of the water outlet box 31, so that the water entering the water diversion box 63 can pass from the bottom of the second housing 632
- the first water diversion hole 6323 on the wall flows out and flows into the inner bottom wall of the water outlet box 31.
- the humidifying device 100 may include: a box cover 32 covering the open end of the water outlet box 31, and the water distribution box 63 is located in the space defined by the water outlet box 31 and the box cover 32. Therefore, by providing the box cover 32 and making the water distribution box 63 located in the space defined by the water outlet box 31 and the box cover 32, it can be ensured that the water flowing out of the water distribution box 63 flows into the water outlet box 31, which further improves The humidification efficiency and the humidification amount can prevent the water in the water outlet box 31 from splashing out of the water outlet box 31.
- the box cover 32 cooperates with the water outlet box 31 to fix the water distribution box 63 on the top of the wet membrane module 2.
- the water distribution box 63 and other parts can be assembled, and on the other hand, the water distribution box 63 and the wet membrane module 2 can be assembled.
- the tops of the two are spaced apart, so that the water flow can better flow out of the wet membrane module 2 from the water distribution box 63.
- the box cover 32 and the water outlet box 31 may be connected by a snap connection, thereby facilitating the disassembly and assembly between the box cover 32 and the water outlet box 31.
- the water outlet pipe 62 passes through at least one of the box cover 32 and the water outlet box 31.
- the box cover 32 defines a through hole through which the outlet pipe 62 passes, and the outlet pipe 62 passes through the through hole and is sleeved on the inlet pipe 633; when the outlet pipe 62 When passing through the outlet box 31, the outlet box 31 defines a through hole through which the outlet pipe 62 passes.
- the outlet pipe 62 passes through the through hole and is sleeved on the inlet pipe 633; when the outlet pipe 62 passes through the box cover 32 When it is attached to the water outlet box 31, the box cover 32 and the water outlet box 31 jointly define a through hole through which the water outlet pipe 62 passes, and the water outlet box 31 passes through the through hole and is sleeved on the water inlet pipe 633.
- the wet film assembly 2 includes: a wet film support 21, the wet film body 23 is set in the wet film support 21, the water outlet box 31 is set on the top of the wet film support 21, and the water outlet box 31 It is integrally formed with the wet film holder 21.
- the wet membrane main body 23 can be prevented from being collapsed due to long-term immersion in water.
- integrally forming the water outlet box 31 and the wet film holder 21 the assembly process of the humidification device 100 can be simplified.
- the humidification device 100 includes: a water guide 4, the water guide 4 is provided on the top of the wet membrane body 23, and the water guide 4 is located below the water diversion box 63
- the water guiding member 4 has a water guiding groove 41 with an open upper end.
- the water guiding groove 41 extends along the width direction of the wet film body 23. In the top-down direction, the side wall of the water guiding groove 41 faces the center adjacent to the wet film body 23.
- the water guide 4 is made of a microporous water guide material or a plurality of water through holes 42 are formed on the water guide 4 at intervals.
- the water guide 4 is arranged below the water distribution box 63, and the side wall of the water guide 41 faces the center adjacent to the center of the wet film body 23 in the top-down direction The direction is inclined to extend, so that the middle of the water channel 41 is in a lower position.
- the water in the water distribution box 63 flows down into the water channel 41 through the first water distribution hole 6323, the water can be concentrated in the water channel 41 In the middle part, more water penetrates down to the middle part of the wet membrane main body 23 through the water guiding effect of the water guiding groove 41, so that the wet membrane main body 23 can fully absorb water and increase the humidification capacity.
- the water can spread from top to bottom evenly and penetrate into the wet film body 23, thereby significantly improving the wetting efficiency of the wet film body 232 and making the wet film
- the main body 23 is in a wet state as a whole, so that the humidification efficiency and the humidification amount can be improved.
- the water guide 4 when the water guide 4 is made of a microporous water guide material, the water guide 4 is a layer of microporous water guide material, and water can directly penetrate down into the wet membrane body 23 through the water guide 4.
- the water flowing out from the first water diversion hole 6323 on the bottom wall of the second housing 632 passes through the microporous water-conducting material layer before being poured on the top of the wet membrane module 2, first is stored in the microporous water-conducting material layer, and then passes through the micropores
- the dispersion and water-conducting effect of the water-conducting material layer makes the water evenly pass through the microporous water-conducting material layer and pour down onto the top of the wet membrane module 2, so that the wet membrane module 2 can be wetted evenly from top to bottom. So that the whole wet membrane module 2 is in a wet state.
- the microporous water guiding material layer can be selected from a variety of forms such as aggregate, fiber, layered, and granular structure in terms of tissue structure.
- the water guide 4 can be a PE sponge or a PU sponge, and the water poured into the microporous water guide material layer can seep out through its own permeability, so that the water guide 4 has a strong water absorption capacity and The cost is lower.
- the water guide 4 may be a plastic part, a rubber part or a silicone part, so that the water guide 4 is relatively soft and elastic, which facilitates the installation of the water guide 4.
- the cross section of the water guide 4 may be arc-shaped, so that the structure of the water guide 4 is simple and the middle of the water guide 4 can be in a lower position, so that the water guide 41 More water can penetrate downward to the middle of the wet membrane body 23.
- a plurality of water-passing holes 42 are formed on the water guide 4 at intervals.
- the diameter of the water-passing holes 42 ranges from 0.5 to 5 mm, and the distance between two adjacent water-passing holes 42 ranges from It is 2-15 mm, for example, the distance between two adjacent water passage holes 42 may be 5 mm.
- the water guiding member 4 can better disperse the water flow, so that the wet film body 23 is more uniformly wetted.
- the contour line of the water guiding member 4 is arc-shaped, so that the microporous water guiding material layer is separated from the top of the wet film. Opening a certain gap can better enable the water in the water receiving tank 11 to seep out and pour into the top of the wet membrane module 2.
- the water guide 4 is arranged in a semi-circular shape or less than a semi-circular shape, or a semi-elliptical shape or less than a semi-elliptical shape, or a U shape or the like.
- the wet film assembly 2 includes a wet film body 23 and a wet film support 21.
- the wet film body 23 is provided in the wet film support 21, and the wet film support 21 serves as a countermeasure.
- the fixing function of the wet film main body 23 is to set the wet film main body 23 on the wet film support 21 to facilitate the assembly of the wet film main body 23 with other parts.
- the wet film main body 23 extends in a fold line, which can increase the area of the wet film main body 23 in the wet film holder 21, thereby increasing the water absorption capacity of the wet film main body 23.
- the wet membrane main body 23 may be knitted cloth, etc., some wind holes may be provided on the wet membrane main body 23 to reduce the wind resistance when the airflow passes through the wet membrane main body 23, which can improve the humidification efficiency and reduce the airflow passing through the humidity.
- the diameter of the wind hole can be selected from 0.5mm to 3mm.
- the wet film body 23 is formed by folding sheet-shaped wet film layers, wherein the sheet-shaped wet film is parallel to the horizontal plane, and the included angle of any two adjacent sheet-shaped wet films is the same.
- the wet film included angle ⁇ satisfies: 0° ⁇ 50°, preferably, ⁇ is 15°.
- the circumferential direction of the wet film body 23 can be fixedly connected with some hard materials such as hard cotton or paper frame, etc., so that the adjacent sheet-shaped wet film angles are fixed, and the shape of the wet film body 23 is maintained to facilitate the installation of the wet film body 23 To the wet film support 21.
- the water guide 4 and the wet membrane body 23 can be simultaneously arranged on the wet membrane support 21, the water guide 4 is arranged on the top of the wet membrane body 23, and the water guide 4 can It is fixed to the wet film body 23 by sticking.
- the humidification fan assembly 7 drives the airflow through the wet membrane assembly 2 in the thickness direction of the wet membrane assembly 2, and the air outlet 721 of the humidification fan assembly 7 is connected to
- the water pump components 6 are respectively located on both sides of the wet membrane module 2 in the thickness direction, which can realize that when the airflow passes through the wet membrane module 2, more water can be taken away, thereby improving the humidification efficiency.
- the water tank 5 and the water pump assembly 6 are located on the same side in the thickness direction of the wet membrane assembly 2 and are arranged along the width direction of the wet membrane assembly 2, so that the water tank 5 and the water pump The arrangement of the components 6 is reasonable, which can reduce the overall size of the humidifying device 100.
- the side of the wet membrane module 2 away from the air outlet 721 of the humidification fan assembly 7 is provided with a microporous material layer, which can reduce the possibility of blowing water when the air flows through the wet membrane module 2 .
- the microporous material layer may be a material such as sponge.
- the humidifying device 100 includes: a humidifying support 1, a wet membrane module 2, a water tank 5, a water pump module 6, a water outlet box 31, a box cover 32, a water guide 4, and a humidifying fan module 7. .
- the humidification bracket 1 has a water tank 11 and the humidification bracket 1 defines an air guiding channel 12.
- the wet film assembly 2 includes the above-mentioned wet film support 21, a wet film body 23, and a fixing frame 22.
- the wet film body 23 is fixed in the fixing frame 22.
- the wet film body 23 can be connected to the inner wall of the fixing frame 22 by glue, and the water is guided.
- the piece 4 can be arranged on the top of the wet film body 23 and located in the fixing frame 22, the top of the fixing frame 22 being open.
- the wet film support 21 includes a first sub wet film support 211 and a second sub wet film support 212 connected to each other. The first sub wet film support 211 and the second sub wet film support 212 can be clamped together, and the fixing frame 22 is provided on the wet film support Within 21.
- the spout box 31 includes a first sub spout box 312 and a second sub spout box 313.
- the first sub spout box 312 is set on the top of the first sub wet film support 211 and the first sub spout 312 and the first sub wet film support 211 Integral molding;
- the second sub-water box 313 is provided on the top of the second sub-wet film support 212 and the second sub-water box 313 and the second sub-wet film support 212 are integrally formed.
- the water outlet box 31 is located above the fixed frame 22.
- the water pump assembly 6 includes the above-mentioned water pump 61, a water outlet pipe 62 and a water distribution box 63.
- the humidification fan assembly 7 includes a volute 72 and a humidification fan 71 arranged in the volute 72.
- the humidification fan assembly 7 is arranged below the humidification support 1 and Connect with the humidifying bracket 1.
- the airflow passes through the wet film main body 23 along the thickness direction of the wet film main body 23.
- the air outlet end 721 of the volute 72 is located on the windward side of the wet film assembly 2 and the air outlet end 721 of the volute 72 communicates with the above-mentioned air guiding channel 12.
- the wet film module 2 is arranged in the water tank 11, the water pump module 6 and the water tank 5 are both arranged in the water tank 11 and located on the leeward side of the wet film module 2, and the water pump module 6 is located between the wet film module 2 and the water tank 5, and the water tank 5 faces the water tank.
- the water pump assembly 6 is disposed adjacent to one end of the wet membrane assembly 2 in the width direction, the outlet pipe 62 extends toward the wet membrane assembly 2, and the water distribution box 63 is located in the space defined by the outlet box 31 and the lid 32.
- the water pump 61 transports the water in the water tank 11 into the water distribution box 63 through the outlet pipe 62, and the water flowing into the water distribution box 63 flows down into the water outlet box 31 through the first water distribution hole 6323
- the water is poured into the water guiding groove 41 of the water guiding member 4 through the second water diversion hole 311 of the water outlet box 31, and the water is penetrated downward into the wet film body 23 through the dispersion and water guiding effect of the water guiding member 4.
- the water in the water tank 11 extends from the bottom of the wet film main body 23 upwards into the wet film main body 23.
- the humidification fan 71 is operated, and the airflow is driven from the air outlet end 721 of the volute 72 to flow into the air guiding channel 12, and the airflow from the air guiding channel 12 passes through the wet film body 23 along the thickness direction of the wet film body 23, thereby humidifying the airflow ,
- the humidified air flow flows out from the space between the humidifying body and the water tank 5, and finally flows out to the indoor environment, so that the indoor environment humidity can be quickly adjusted.
- the water outlet of the water pump assembly 6 is provided with a control valve with adjustable opening. Therefore, when the water pump assembly 6 is working, the opening of the control valve can be controlled to adjust the water pump assembly 6
- the water output per unit time the greater the opening of the control valve, the greater the water output per unit time of the water pump assembly 6, and the smaller the opening of the control valve, the smaller the water output per unit time of the water pump assembly 6, so as to adjust the humidification efficiency and The amount of humidification.
- the opening degree of the control valve can be controlled according to the detected environmental humidity value. When the environmental humidity value is relatively large, the opening degree of the control valve can be controlled to be small, and when the environmental humidity value is relatively small, the opening degree of the control valve can be controlled. Larger, so that the environmental humidity can always be kept within a comfortable range.
- wet membrane module 2 according to some embodiments of the present application will be described with reference to FIGS. 8-10.
- the wet film assembly 2 includes a wet film body 23, and the wet film body 23 includes a first wet film 231 and a second wet film 232.
- the first wet film 231 is arranged above the second wet film 232 and the first wet film 231 is connected to the second wet film 232, the first wet film 231 extends in a fold line in the vertical direction to be folded, and the second wet film 231
- the film 232 extends in a fold line in the width direction (for example, refer to the left and right direction in the drawing) to be folded and arranged, and the width direction is perpendicular to the thickness direction of the wet film body 23 (for example, refer to the front and rear direction in the drawing) and perpendicular to In the vertical direction, the airflow is suitable for passing through the wet film main body 23 along the thickness direction of the wet film main body 23.
- the wet membrane module 2 when used for humidification, water can penetrate into the wet membrane main body 23 to wet the wet membrane main body 23, and the airflow passes through the wet membrane main body 23 along the thickness direction of the wet membrane main body 23, thereby Humidify the air and adjust the humidity of the indoor environment.
- first wet film 231 and the second wet film 232 both extend along the fold line to be folded, the materials of the first wet film 231 and the second wet film 232 can be significantly increased, so that the wet film body 23 absorbs more Water can increase the amount of humidification and make the structure of the wet film body 23 compact.
- both the first wet film 231 and the second wet film 232 may be provided with vent holes, thereby reducing wind resistance.
- the aperture range of the vent hole can be 0.5-3mm, so that the humidification and noise during the humidification process reach an excellent balance.
- the wet film body 23 by arranging the wet film body 23 to include a first wet film 231 and a second wet film 232 arranged in the up and down direction, and the first wet film 231 extends in a fold line in the vertical direction, the second The wet film 232 extends in a zigzag line in the width direction, so that when the wet film body 23 is used for humidification, the bottom water can be combined with the top water spray method, so that the first wet film 231 and the second wet film 232 can be realized Fully absorb water, make full use of the wet film material, increase the amount of humidification, and meet the needs of users.
- first wet film 231 is arranged above the second wet film 232, when the top is poured downward, the first wet film 231 penetrates and wets first, because the first wet film 231 is vertically
- the extension of the fold line can prevent the water from falling rapidly under the action of gravity when the top is poured down and the first wet film 231 cannot be fully wetted, so that the water sprayed from the top down can fully wet the first wet film 231, so that the first wet film 231 absorbs more water.
- the bottom sees water upwards, the water at the bottom can seep upwards into the second wet film 232.
- the second wet film 232 extends in a fold line in the width direction, the second wet film 232 is continuous in the vertical direction, making the bottom It is easier for the water to climb upward along the second wet film 232, and can fully wet the second wet film 232, so that the second wet film 232 absorbs more water. As a result, the wet membrane main body 23 can sufficiently absorb more moisture, and the amount of humidification per unit time can be increased.
- the water at the bottom climbs upwards along the second wet film 232, or it can continue to climb upwards and penetrate into the first wet film 231; the water at the top can penetrate downwards and wet the first wet film 231, or continue It penetrates downward and wets the second wet film 232.
- the wet film body 23 is configured to include a first wet film 231 and a second wet film 232 arranged in the vertical direction, and the first wet film 231 is in a vertical direction.
- the second wet film 232 extends in a zigzag line in the width direction, so that when the wet film body 23 is used for humidification, the bottom water can be combined with the top water spray method, so that the first wet film 231 and the second wet film 232 can achieve full water absorption, make full use of wet film materials, increase the amount of humidification, and meet the needs of users.
- the first wet film 231 is located directly above the second wet film 232.
- the water at the bottom can be made to climb up into the first wet film 231, and the water at the top can also be allowed to infiltrate into the second wet film 232, which further increases the water absorption of the wet film body 23, thereby increasing the amount of humidification.
- the structure of the wet film body 23 is made compact.
- the projection of the first wet film 231 on the horizontal plane is within the projection of the second wet film 232 on the horizontal plane.
- the first wet film 231 can be stably supported on the second wet film 232, so that the overall structure of the wet film body 23 is relatively stable and reliable.
- the middle part of the wet membrane body 23 can be sufficiently wetted. Since the middle part of the wet membrane body 23 is located at the center of the airflow, the unit time can be further improved. The amount of humidification.
- the first wet film 231 and the second wet film 232 may be bonded by an adhesive part. Therefore, the connection between the first wet film 231 and the second wet film 232 is convenient and reliable.
- the glue part includes a plurality of glue dispensing parts arranged at intervals.
- the first wet film 231 and the second wet film 232 can be connected by a glue dispensing process.
- the water can penetrate down into the second wet film 232 through the gap between the dispensing parts; at the same time, the water at the bottom can be made to climb up into the first wet film 231.
- the angle between two adjacent first wet sub-films 2311 of the first wet film 231 is ⁇ , and the value of ⁇ ranges from 5°-50°, for example, ⁇ may be 15°. Therefore, without increasing the occupied space, the volume and humidification area of the first wet film 231 can be increased, and the humidification capacity can be increased. At the same time, the wind resistance of the windward side of the first wet film 231 can be made smaller, thereby increasing The overall humidification effect of the first wet film 231.
- the included angle between two adjacent second sub-wet films 2321 of the second wet film 232 is ⁇ , and the value range of ⁇ is 5-50°, for example, ⁇ may be 15. °. Therefore, without increasing the occupied space, the volume and humidification area of the second wet film 232 can be increased, and the humidification capacity can be increased. At the same time, the wind resistance of the windward side of the second wet film 232 can be made smaller, thereby increasing The overall humidification effect of the second wet film 232.
- ⁇ and ⁇ may be the same or different.
- the humidification device 100 is provided with the above-mentioned wet membrane module 2, and at the same time, the water tank 11 and the water pump assembly 6 are provided.
- the water pump assembly 6 removes the water tank 11 or the water pump 61 in the water tank 5 is sent to the top of the wet membrane module 2 while the water tank 5 supplies water to the water tank 11.
- the water in the water tank 11 spreads from bottom to top and penetrates into the second wet film 232 and the first wet film 231 of the wet film body 23.
- the water pump module 6 delivers the water to the top of the wet film module 2, so that the water flows from top to bottom.
- the wet film bodies of three different structures are compared through experiments.
- the whole wet film of the first wet film body is diffracted along the fold line in the vertical direction to be folded, and the whole wet film of the second wet film body is in the width direction.
- the upper fold line is diffracted to be folded.
- the third type of wet film body is the wet film body 23 of the application.
- the test condition is that the flow rate of the water pump 61 is 1 liter/min, the dimensions of the wet membrane bodies of the above three different structures are 215*30*160mm, and the humidification device uses the wet membrane bodies of the above three different structures for humidification.
- the obtained test data is: the humidification capacity of the humidification device using the first type of wet film body is 385L/h, the humidification capacity of the humidification device using the second type of wet film body is 346L/h, and the humidification capacity of the third type of wet film body is 346L/h.
- the humidification capacity of the humidification device 100 is 468 L/h. It can be seen that the humidification device 100 of the present application significantly improves the humidification amount per unit time.
- the humidification device 100 of the embodiment of the present application by providing the above-mentioned wet membrane module 2 and the water tank 11 and the water pump module 6 provided at the same time, when the humidifying device 100 is working, the water in the water tank 11 can gradually penetrate upward to the second In the wet film 232, the first wet film 231, and the water pump assembly 6 sends the water pump 61 to the top of the wet film body 23 to gradually wet down the first wet film 231 and the second wet film 232.
- both the first wet film 231 and the second wet film 232 can fully absorb water, so that the wet film materials are fully utilized, the humidification amount is increased, and the user's needs are met.
- an air conditioner according to an embodiment of the second aspect of the present application includes: a casing 10, a heat exchanger component 20, a fan component 30 and a humidifying device 100.
- the air conditioner may be a split floor-mounted air conditioner or a split wall-mounted air conditioner.
- the casing 10 is formed with an air inlet and an air outlet, the heat exchanger component 20 and the fan component 30 are arranged in the casing 10, and the fan component 30 is used to drive the airflow from the air inlet into the casing 10 It exchanges heat with the heat exchanger component 20 and is discharged from the air outlet.
- the humidifying device 100 is the humidifying device 100 according to the above-mentioned second aspect of the present application.
- the humidifying device 100 is arranged in the casing 10, and the humidifying fan assembly 7 is used to drive the airflow into the casing 10 from the air inlet, and humidified by the humidifying component Then discharge from the air outlet.
- the fan component 30 drives the airflow from the air inlet into the casing 10, exchanges heat with the heat exchanger component 20, and then discharges the air from the air outlet into the room, thereby adjusting the indoor environmental humidity.
- the humidifying fan assembly 7 works to drive the airflow into the cabinet 10 from the air inlet, and is humidified by the humidifying assembly and discharged from the air outlet to the room, thereby adjusting the indoor environmental humidity.
- the air conditioner is a split floor type air conditioner.
- the air conditioner includes an air conditioner indoor unit 1000 and an air conditioner outdoor unit.
- the air conditioner indoor unit 1000 includes the above-mentioned casing 10, heat exchanger components 20, and fan components. 30 and humidification device 100.
- the casing 10 defines a first installation cavity 101 and a second installation cavity 104 spaced up and down.
- the air inlet includes a first air inlet 102 and a second air inlet arranged up and down
- the air outlet includes a first air outlet arranged up and down.
- the fan component 30 drives the airflow from the first air inlet 102 into the first installation cavity 101, exchanges heat with the heat exchanger component 20, and then discharges the air from the first air outlet 103 into the room, thereby adjusting Indoor environmental humidity.
- the humidification fan assembly 7 works to drive the airflow from the second air inlet into the second installation cavity 104 and is humidified by the humidification assembly and discharged from the second air outlet 105 to the room, thereby adjusting the indoor environmental humidity .
- the humidifying capacity can be increased to meet the user's needs.
- the humidification control method of an air conditioner includes the following steps:
- S ⁇ S ⁇ S it means that the indoor environment humidity is within a comfortable range at this time, and the humidification fan assembly 7 is controlled to be turned on and the water pump 61 is controlled to be turned off, so that the humidification device 100 maintains a small humidification efficiency and humidification volume, so that the indoor environment humidity Stay within a comfortable range.
- the environmental humidity is repeatedly detected within the preset time, and the relationship between the environmental humidity value S and the first preset value S and the second preset value S is determined, and the above process is repeated.
- S is% and S is %. Therefore, by controlling the humidifying device 100, the indoor environmental humidity can be maintained in the range of %-%, so that the indoor environmental humidity can be maintained in the range of physical comfort.
- wet membrane module 2 according to other embodiments of the present application will be described with reference to FIGS. 16-19.
- the wet film assembly 2 includes: a first wet film 231 and a second wet film 232.
- the first wet film 231 includes a plurality of first sub-wet films 2311 arranged in sequence along the first direction. It can be understood that the plurality of first sub-wet films 2311 may be connected together or spaced apart from each other. As shown in the figure, a plurality of first sub-wet films 2311 are connected together, but the present application is not limited to this. Correspondingly, the connection methods of the plurality of first sub-wet films 2311 include, but are not limited to, integral molding and pasting. The number of first wet sub-films 2311 in a certain space determines the density of the first wet film 231 along the first direction, and the number of first sub-wet films 2311 can be set according to actual requirements.
- any two adjacent first sub-wet films 2311 form an angle with each other, and the angle formed by every two adjacent first sub-wet films 2311 may be the same or different.
- two adjacent first sub-wet films 2311 are formed The smaller the angle of, the greater the number of first sub-wet films 2311 in a certain space, and the greater the density of the first wet films 231 along the first direction.
- Each first sub-wet film 2311 extends along the second direction, and the first direction and the second direction are at an angle to each other, that is, the arrangement direction of the first sub-wet film 2311 and the extension direction of the first sub-wet film 2311 are at an angle to each other.
- the second wet film 232 includes a plurality of second sub-wet films 2321 arranged along the first direction, and a second wet film 2311 is provided between at least partially adjacent two first sub-wet films 2311.
- Sub-wet film 2321 it can be understood that the second wet film 232 is connected to the first wet film 231, that is, the second sub-wet film 2321 and the two second sub-wet films 2311 between adjacent two first sub-wet films 2311
- the sub-wet membranes 2311 are respectively connected together.
- connection methods include, but are not limited to, integral molding and pasting.
- the second wet membrane 2321 is arranged between the two adjacent first wet membranes 2311.
- the wet membrane can be slowed down.
- the top of the module 2 is sprayed with water flowing into the water tank 11 along the extension direction of the first sub-wet film 2311, increasing the contact time of the water flow with the first wet film 231 and the second wet film 232, and improving the first wet film 231 and the second wet film 231
- the water absorption capacity of the second wet membrane 232 improves the humidification efficiency.
- the wet membrane module 2 is used to absorb water from bottom to top in the sink 11, the increase of the second sub wet membrane 2321 increases the water absorption area of the wet membrane module 2. As a result, the water absorption of the wet membrane module 2 increases.
- the plurality of second sub-wet membranes 2321 are all located on the same side of the first wet membrane 231, thereby increasing the diversity of the structure of the wet membrane module 2.
- part of the plurality of second sub-wet films 2321 is located on one side of the first wet film 231, and the remaining parts are located on the other side of the first wet film 231. Therefore, the diversity of the structure of the wet membrane module 2 can be increased.
- a second sub-wet film 2321 is provided between every two adjacent first sub-wet films 2311, which can slow down the extension of the top spray water along the first sub-wet film 2311 The speed of flowing into the water tank 11 can also increase the water absorption area of the wet film module 2 when the bottom absorbs water. It can be understood that the second sub-wet film 2321 is connected to two adjacent first sub-wet films 2311, Connection methods include, but are not limited to, integral molding and pasting.
- the second wet film 232 is a plurality of spaced apart along the second direction, which can further slow down the top spraying water along the first sub-wet film 2311.
- the area of the wet membrane module 2 is increased.
- the water storage capacity of the wet membrane module 2 is correspondingly improved.
- the water storage capacity of the wet membrane module 2 is increased, thereby improving the humidification efficiency.
- the number of second wet films 232 spaced apart along the second direction can be designed according to actual needs. It can be understood that the more the number of second wet films 232 spaced apart along the second direction, the more 2, the better the water storage capacity, but also when the number of the second wet film 232 is too large, it will increase the resistance of the air flow through the wet film module 2, so the second wet film 232 spaced along the second direction should be reasonably set Quantity.
- a plurality of second sub-wet films 2321 in two adjacent second wet films 232 are staggered in the first direction, thereby further increasing the diversity of the structure of the wet film module 2.
- the plurality of second sub-wet films 2321 in the two adjacent second wet films 232 correspond one-to-one, and the two second sub-wet films 2321 corresponding to each other are in one-to-one correspondence.
- the second direction is arranged opposite to each other, which can further increase the diversity of the structure of the wet membrane module 2.
- any two adjacent first sub-wet films 2311 are connected. It can be understood that any two adjacent first sub-wet films 2311 are connected along the extending direction, which can simplify The structure of the wet membrane module 2, the wet membrane module 2 as a whole is convenient for assembly with other parts.
- connection manner of any two adjacent first sub-wet films 2311 includes but is not limited to integral molding and adhesion.
- first wet film 231 is an integrally formed part, so that the structure of the first wet film 231 can be simplified.
- the angle between the first direction and the second direction is 90°, that is, the arrangement direction of the first sub-wet film 2311 is perpendicular to the extension direction of the first sub-wet film 2311, which simplifies the The structure of a wet film 231.
- each first sub-wet film 2311 has a flat structure, a curved structure, or a combination of a flat and a curved surface.
- each first sub-wet film 2311 has a planar structure such as a sheet-like planar structure, and the first wet film 231 is composed of a plurality of sheet-like planar structures; each first sub-wet film 2311 has a curved structure such as a first The sub-wet film 2311 has a U-shaped or wavy cross-section perpendicular to the second direction, that is, the extension direction of the first sub-wet film 2311; each first sub-wet film 2311 is a combination of a plane and a curved surface, such as the first sub-wet film
- the cross section of 2311 parallel to the first direction, that is, the arrangement direction of the first sub-wet film 2311 is a wave curve composed of straight lines and arcs. In this way, the diversity of the structure of the first wet film 231 can be increased, and the diversity of the structure of the wet film assembly 2 can be increased, providing more choices for the user to select the corresponding structure according to different scenarios.
- each second sub-wet film 2321 has a flat structure, a curved structure, or a combination of a flat and a curved surface. In this way, the diversity of the structure of the second wet membrane 232 can be increased, thereby increasing the diversity of the structure of the wet membrane assembly 2, and providing more choices for the user to select the corresponding structure according to different scenarios.
- the wet membrane module 2 further includes a frame.
- the frame is formed in a ring shape, and the frame surrounds the first wet film 231 to provide a fixed support for the first wet film 231 and facilitate the assembly of the wet film assembly 2 with other components.
- the water inlet holes can be arranged on the top wall, left and right side walls or bottom wall of the frame, which can be used according to different applications. Set the corresponding structure in the scene. If you need to spray water on the top, set the water inlet on the top wall of the frame.
- the frame can be an integrally formed part or multiple parts connected together by welding.
- the number and shape of the water inlet holes can also be set according to different application scenarios.
- the wet film stent 21 includes a body 2a.
- the body 2a has a receiving space with an open bottom, and the receiving space can be used for installing the wet film, and the wet film can be installed in the receiving space through the open side of the receiving space.
- the outer profile of the main body 2a of the wet membrane stent 21 is roughly a rectangular parallelepiped shape.
- the main body 2a includes a top wall and left and right side walls.
- the top wall is arranged horizontally and extends in the left and right directions.
- the left wall is located at the left end of the top wall
- the right wall is located at the right end of the top wall, between the front surface of the left wall and the front surface of the right wall and the rear surface of the left wall
- the horizontal first support ribs 2a4 are respectively connected to the rear surface of the right side wall, between the first support ribs 2a4 on the front side and the front side of the top wall, and the first support ribs 2a4 on the rear side and the rear of the top wall.
- Second supporting ribs 2a5 are respectively connected between the side surfaces, whereby the top wall, the left side wall, the right side wall, the first supporting ribs 2a4 and the second supporting ribs 2a5 of the main body 2a jointly define the wet film support 21 has an open accommodating space at the bottom, and the front and rear sides of the body 2a are open to facilitate the flow of air flow.
- the first supporting rib 2a4 and the second supporting rib 2a5 of the body 2a are arranged to enhance the structural strength of the body 2a, and the bottom of the body 2a Open, so that when installing the wet film, the wet film can be inserted into the accommodating space of the main body 2a from the bottom open side of the main body 2a from bottom to top, and when the wet film needs to be replaced, the wet film can be directly moved to the bottom of the main body 2a
- the open side can be drawn out from the containing space, and the entire disassembly and assembly process is simple and convenient.
- first feature and second feature may include one or more of these features.
- first and second are only used for descriptive purposes, and cannot be understood as indicating or implying relative importance or implicitly indicating the number of indicated technical features.
- the features defined with “first” and “second” may explicitly or implicitly include one or more of these features.
- a humidification hole 2a1 is formed on the top wall of the main body 2a, and water can be poured onto the wet film through the humidification hole 2a1.
- spray humidification of the wet film can be realized.
- the bottom of the wet film stent in the related art is usually equipped with a sink. When the wet film is installed in the wet film stent, the bottom of the wet film will be soaked in the sink, so that the moisture at the bottom is diffused to the top by the penetration of the wet film. In this way, it can realize its own wetting, which has a slower wetting speed.
- the humidification hole 2a1 is formed on the top wall of the wet film holder 21 in this embodiment.
- the main body 2a of the wet film holder 21 is an integrally formed part.
- the above-mentioned top wall, left side wall, right side wall, first supporting rib 2a4 and second supporting rib 2a5 are integrally formed.
- the structural strength of the wet film stent 21 can be increased, so that the wet film stent 21 is not easily damaged and deformed, and compared with the disassembled and assembled body 2a, the wet film stent 21 in this embodiment has fewer installation connections. , Making the assembly process easier and faster.
- the wet film holder 21 of the embodiment of the present application since the bottom of the main body 2a is open, the wet film can be easily assembled with the wet film holder 21 from the open side of the bottom of the main body 2a; because the top wall of the main body 2a is formed with a humidification hole 2a1, so the wet film can be sprayed and humidified, which is beneficial to increase the wet film's wet rate.
- FIG. 22 there are multiple humidification holes 2a1, and the multiple humidification holes 2a1 are spaced apart along the length direction of the main body 2a. Therefore, it is beneficial to quickly realize the spray humidification of the wet film.
- “plurality” means two or more.
- the top wall of the main body 2a is provided with a plurality of humidification holes 2a1, the length of the main body 2a is the left and right directions shown in the figure, and the plurality of humidification holes 2a1 are evenly spaced in the top wall along the left and right directions. Therefore, the flow rate of the water flowing out of the humidification hole 2a1 can be increased, so that the wet membrane can absorb more water, and the water discharged from different humidification holes 2a1 can be poured into different areas on the top of the wet membrane, which is beneficial The wet film is wetted quickly and evenly, thereby improving the humidification efficiency.
- the top wall of the body 2a is recessed downward to define a water storage tank 2a2, and the humidification hole 2a1 is located in the water storage tank 2a2.
- the arrangement of the water storage tank 2a2 can increase the amount of temporarily stored water on the top wall of the main body 2a, so that more water flows to the wet film.
- the wet film support 21 further includes a cover 2b, which is arranged on the top wall of the body 2a to cover the water storage tank 2a2, so that when the cover 2b When assembled with the top wall of the body 2a, the water storage tank 2a2 can be sealed to prevent the water flow in the water storage tank 2a2 from overflowing.
- the cover 2b is provided with a plurality of slot portions 2b1, and the plurality of slot portions 2b1 are spaced apart along the circumferential direction of the cover 2b.
- the outer peripheral wall of the water storage tank 2a2 is provided with an extension portion 2a6 extending in a direction away from the main body 2a, and the top wall of the extension portion 2a6 is recessed downward to define a water tank 2a8, and the water tank 2a8 Connected with the water storage tank 2a2, the bottom wall of the water holding tank 2a8 is provided with a water pipe joint 2a7, and the outer peripheral wall of the cover body 2b is provided with a cover part 2b2. Under the condition that the cover body 2b covers the water storage tank 2a2, the cover part 2b2 Cover the water tank 2a8.
- the water pipe joint 2a7 can be easily connected to an external water source (for example, the water tank 5 below or the water tank 11 of the humidification bracket 1 described below) through the water pipe, so that water can flow to the water tank 2a8 through the water pipe joint 2a7, and further It flows into the water storage tank 2a2 so that the water can be discharged from the humidification hole 2a1 to the wet film, and at the same time, the cover part 2b2 covers the water tank 2a8 to avoid water overflow.
- an external water source for example, the water tank 5 below or the water tank 11 of the humidification bracket 1 described below
- the cover 2b is approximately rectangular, and the shape of the cover 2b matches the shape of the top wall of the main body 2a.
- the bottom surface of the cover 2b is recessed upward to define a limiting groove, a plurality of groove portions 2b1 are arranged at intervals along the circumferential direction of the side wall of the limiting groove, and the groove portions 2b1 penetrate the side wall of the limiting groove.
- the buckle portions 2a3 are arranged on the outer circumferential surface of the side wall of the water storage tank 2a2 at intervals along the circumferential direction of the side wall of the water storage tank 2a2 of the main body 2a, and the plurality of buckle portions 2a3 are matched with the plurality of groove portions 2b1 one by one.
- the outer circumferential wall of the limiting groove is provided with a horizontally extending cover portion 2b2, and the rear surface of the outer circumferential wall of the water storage tank 2a2 is provided with an extending portion 2a6 extending backward horizontally.
- the top wall of the extending portion 2a6 is recessed downward to define Outlet holding tank 2a8, holding tank 2a8 communicates with water storage tank 2a2, the bottom wall of holding tank 2a8 is provided with water pipe joint 2a7, which is clamped in the groove part 2b1 through the buckle part 2a3, so as to cover the cover 2b on the body
- the top wall of 2a and the cover part 2b2 cover the water tank 2a8.
- Reliable and high-quality fastening and positioning can be provided by the buckle part 2a3 in the groove part 2b1, and the assembly process of the buckle is simple, generally only one insertion action is required, which is quick and simple, which can improve the assembly of the two effectiveness.
- the inner peripheral surface of the side wall of the limiting groove of the cover 2b will abut the outer peripheral surface of the side wall of the water storage tank 2a2 of the main body 2a, so no additional sealing parts are required.
- a gasket, etc. can provide a good sealing effect between the cover 2b and the body 2a, so that more water in the water storage tank 2a2 flows to the wet film along the humidification hole 2a1.
- cover 2b and the main body 2a can also be detachably connected in other ways.
- the cover 2b and the main body 2a can also be connected by screws or bolts.
- the specific connection method can be selected flexibly according to actual needs.
- the two sides in the thickness direction of the wet film support 21 are the air inlet side and the air outlet side, respectively, and the humidification hole 2a1 is provided adjacent to the air inlet side.
- the thickness direction of the wet film stent 21 is the front-to-rear direction shown in Figure 21, the front side of the wet film stent 21 is the air outlet side, the rear side is the air inlet side, and the humidification hole 2a1 is provided
- the wet film support 21 is a plastic part. Therefore, it is beneficial to reduce costs.
- the humidification device 100 includes a humidification support 1, a wet membrane module 2, a water tank 5, a water pump module 6 and a humidification fan module 7 for driving airflow to the wet membrane module 2.
- the humidification support 1 has a water tank 11, and the wet film module 2 includes the above-mentioned wet film support 21 and a wet film main body 23 provided in the wet film support 21.
- the wet film module 2 is provided in the water tank 11, and the wet film main body 23 passes through the main body.
- the bottom of 2a is installed in the main body 2a.
- the water pump assembly 6 includes a water pump 61 and an air outlet pipe 62.
- the water inlet of the water pump 61 is in communication with the water tank 5 or the water tank 11.
- the water pipe joint 2a7 is connected, the water pump 61 can pump water into the water storage tank 2a2 on the top of the wet film support 21, and wet the wet film body 23 downward through the humidification hole 2a1, while the water in the water tank 11 penetrates upward into the wet film body 23.
- the humidification fan assembly 7 is used to drive the airflow to the wet film assembly 2, and when the airflow passes through the wet film body 23, part of the moisture in the wet film body 23 is taken away, so as to humidify the airflow.
- the wet film main body 23 and the wet film support 21 can be easily assembled from the open bottom side of the main body 2a;
- the membrane holder 21 has fewer installation and connection points, making the assembly process easier and faster, and the body 2a has a high structural strength; because the top wall of the body 2a is formed with a humidifying hole 2a1, the wet membrane body 23 can be sprayed Drenching and humidifying is helpful to increase the wet film's soaking speed.
Abstract
Description
Claims (39)
- 一种加湿装置,其特征在于,包括:加湿支架,所述加湿支架具有水槽;加湿组件,所述加湿组件设在所述水槽内,所述加湿组件包括湿膜组件;水箱,所述水箱设在所述加湿支架上;水泵组件,所述水泵组件包括水泵、出水管和分水盒,所述水泵设在所述加湿支架上,所述水泵的进水口与所述水箱和所述水槽中的至少一个连通,所述出水管的一端与所述水泵的出水口连接,所述分水盒位于所述湿膜组件的顶部,所述分水盒包括第一壳体和第二壳体,所述第一壳体位于所述第二壳体的上方,所述第一壳体和所述第二壳体卡接连接以限定出分水腔,所述出水管的另一端与所述分水腔连通,所述第二壳体的底壁上设有多个间隔开的第一分水孔;及用于驱动气流流向所述湿膜组件的加湿风机组件。
- 根据权利要求1所述的加湿装置,其特征在于,所述第一壳体上设有多个间隔开的卡扣,所述第二壳体上设有多个间隔开的卡槽,多个所述卡扣与多个所述卡槽一一对应。
- 根据权利要求2所述的加湿装置,其特征在于,所述第一壳体的侧壁上形成有多个间隔设置的配合缺口,每个所述配合缺口的内侧设有所述卡扣,所述第二壳体的侧壁上形成有多个间隔设置的配合凸起,每个所述配合凸起的内侧壁上形成有所述卡槽,多个所述配合凸起与多个所述配合缺口的数量相同且一一对应,每个所述配合凸起与对应的所述配合缺口配合,每个所述卡扣与对应的所述卡槽配合。
- 根据权利要求1-3中任一项所述的加湿装置,其特征在于,所述第一壳体和所述第二壳体中的至少一个上设有与所述分水腔连通的进水管,所述出水管的另一端套设在所述进水管上或所述出水管的另一端伸入至所述进水管内。
- 根据权利要求4所述的加湿装置,其特征在于,所述第一壳体上形成有向外延伸的第一配合部,所述第二壳体上形成有向外延伸的第二配合部,所述第一配合部和所述第二配合部共同构成所述进水管。
- 根据权利要求1-5中任一项所述的加湿装置,其特征在于,所述分水盒的延伸方向与所述湿膜组件的宽度方向一致,多个所述第一分水孔沿所述分水盒的延伸方向间隔排布。
- 根据权利要求1-6中任一项所述的加湿装置,其特征在于,所述加湿组件还包括:出水盒,所述出水盒设在所述湿膜组件的顶部且所述出水盒的顶部敞开,所述分水盒位于所述出水盒内,所述出水盒的底部形成有多个间隔设置的第二分水孔。
- 根据权利要求7所述的加湿装置,其特征在于,所述第二壳体的外底壁上和所述出 水盒的内底壁中的一个上设有凸筋,以将所述第二壳体的外底壁和所述出水盒的内底壁在上下方向上间隔开。
- 根据权利要求8所述的加湿装置,其特征在于,所述第二壳体的外底壁上设有多个间隔开的所述凸筋,所述凸筋的远离所述第二壳体的一端与所述出水盒的内底壁抵接。
- 根据权利要求7所述的加湿装置,其特征在于,所述加湿组件还包括:盒盖,所述盒盖盖设在所述出水盒的敞开端,所述分水盒位于所述出水盒和所述盒盖所限定的空间内,所述出水管穿设在所述盒盖和所述出水盒中的至少一个上。
- 根据权利要求7所述的加湿装置,其特征在于,所述湿膜组件包括湿膜本体和湿膜支架,所述湿膜本体设在所述湿膜支架内,所述出水盒设在所述湿膜支架的顶部,且所述出水盒与所述湿膜支架一体成型。
- 根据权利要求1-11中任一项所述的加湿装置,其特征在于,包括:导水件,所述导水件设在所述湿膜本体的顶部,且所述导水件位于所述分水盒的下方,所述导水件具有上端敞开的导水槽,所述导水槽沿所述湿膜本体的宽度方向延伸,在由上至下的方向上,所述导水槽的侧壁朝向邻近所述湿膜本体的中心的方向倾斜延伸,所述导水件由微孔导水材料制成或所述导水件上形成有多个间隔设置的通水孔。
- 根据权利要求12所述的加湿装置,其特征在于,所述导水件上形成有多个间隔设置的通水孔,所述通水孔的孔径范围为0.5-5mm,相邻两个所述通水孔之间的间距范围为2-15mm。
- 根据权利要求12所述的加湿装置,其特征在于,在所述导水件的垂直于所述湿膜组件宽度方向的横截面上,所述导水件的轮廓线为弧形。
- 根据权利要求1-14中任一项所述的加湿装置,其特征在于,所述加湿风机组件驱动气流沿所述湿膜组件的厚度方向穿过所述湿膜组件,所述加湿风机组件的出风端与所述水泵组件分别位于所述湿膜组件的厚度方向上的两侧。
- 根据权利要求15所述的加湿装置,其特征在于,所述水箱与所述水泵组件位于所述湿膜组件的厚度方向上的同一侧,且沿所述湿膜组件的宽度方向排布。
- 根据权利要求1-16中任一项所述的加湿装置,其特征在于,所述湿膜组件的远离所述加湿风机组件的出风端的一侧设有微孔材料层。
- 根据权利要求1-17中任一项所述的加湿装置,其特征在于,所述水泵组件的出水口处设有开度可调的控制阀。
- 根据权利要求1-18中任一项所述的加湿装置,其特征在于,所述湿膜组件包括湿膜本体和湿膜支架,所述湿膜本体设在所述湿膜支架内,在所述湿膜本体的宽度方向上,所述湿膜本体呈折线延伸。
- 根据权利要求1-18中任一项所述的加湿装置,其特征在于,所述湿膜组件包括湿膜本体,所述湿膜本体包括:第一湿膜,所述第一湿膜包括多个沿第一方向依次排布的第一子湿膜,任意相邻两个所述第一子湿膜互成角度,每个所述第一子湿膜沿第二方向延伸,所述第一方向和所述第二方向互成角度;及第二湿膜,所述第二湿膜包括多个沿第一方向排布的第二子湿膜,至少部分相邻的两个所述第一子湿膜之间设有所述第二子湿膜。
- 根据权利要求20所述的加湿装置,其特征在于,多个所述第二子湿膜均位于所述第一湿膜的同一侧。
- 根据权利要求20所述的加湿装置,其特征在于,多个所述第二子湿膜中的部分位于所述第一湿膜的一侧,其余部分位于所述第一湿膜的另一侧。
- 根据权利要求20所述的加湿装置,其特征在于,每相邻的两个所述第一子湿膜之间设有一个所述第二子湿膜。
- 根据权利要求20所述的加湿装置,其特征在于,所述第二湿膜为沿所述第二方向间隔开的多个。
- 根据权利要求24所述的加湿装置,其特征在于,相邻的两个所述第二湿膜中的多个第二子湿膜在所述第一方向上交错设置。
- 根据权利要求24所述的加湿装置,其特征在于,相邻的两个所述第二湿膜中的多个第二子湿膜一一对应,且一一对应的两个所述第二子湿膜在所述第二方向上正对设置。
- 根据权利要求20所述的加湿装置,其特征在于,任意相邻的两个所述第一子湿膜连接。
- 根据权利要求27所述的加湿装置,其特征在于,所述第一湿膜为一体成型件。
- 根据权利要求20所述的加湿装置,其特征在于,所述第一方向和所述第二方向之间的角度为90°。
- 根据权利要求20所述的加湿装置,其特征在于,每个所述第一子湿膜为平面结构、或曲面结构、或平面和曲面的结合。
- 根据权利要求20所述的加湿装置,其特征在于,每个所述第二子湿膜为平面结构、或曲面结构、或平面和曲面的结合。
- 根据权利要求1-18中任一项所述的加湿装置,其特征在于,所述湿膜组件包括湿膜本体,所述湿膜本体包括第一湿膜和第二湿膜,所述第一湿膜设在所述第二湿膜的上方且所述第一湿膜与所述第二湿膜相连,所述第一湿膜在竖直方向上呈折线延伸,所述第二湿膜在宽度方向上呈折线延伸,所述宽度方向垂直于所述湿膜本体的厚度方向且垂直于所 述竖直方向,气流适于沿所述湿膜本体的厚度方向穿过所述湿膜本体。
- 根据权利要求32所述的加湿装置,其特征在于,所述第一湿膜位于所述第二湿膜的正上方。
- 根据权利要求33所述的加湿装置,其特征在于,所述第一湿膜在水平面的投影位于所述第二湿膜在水平面的投影内。
- 根据权利要求32所述的加湿装置,其特征在于,所述第一湿膜和所述第二湿膜之间通过粘胶部粘接。
- 根据权利要求35所述的加湿装置,其特征在于,所述粘胶部包括多个间隔设置的点胶部。
- 根据权利要求32所述的加湿装置,其特征在于,所述第一湿膜的相邻两个第一子湿膜之间的夹角为α,所述α的取值范围为5°-50°。
- 根据权利要求32所述的加湿装置,其特征在于,所述第二湿膜的相邻两个第二子湿膜之间的夹角为β,所述β的取值范围为5-50°。
- 一种空调器,其特征在于,包括:机壳,所述机壳上形成有进风口和出风口;换热器部件和风机部件,所述换热器部件和所述风机部件设在所述机壳内,所述风机部件用于驱动气流从所述进风口进入机壳内并与所述换热器部件换热后从所述出风口排出;以及加湿装置,所述加湿装置为根据权利要求1-38中任一项所述的加湿装置,所述加湿装置设在所述机壳内,所述加湿风机组件用于驱动气流从所述进风口进入所述机壳内,并经所述加湿组件加湿后从所述出风口排出。
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CN201921218449.X | 2019-07-30 | ||
CN201921218512.X | 2019-07-30 | ||
CN201921218528.0 | 2019-07-30 | ||
CN201921218449.XU CN210688496U (zh) | 2019-07-30 | 2019-07-30 | 湿膜组件、加湿装置及空调器 |
CN201921218202.8 | 2019-07-30 | ||
CN201921218528.0U CN210463288U (zh) | 2019-07-30 | 2019-07-30 | 加湿装置和具有其的空调器 |
CN201921218512.XU CN210463287U (zh) | 2019-07-30 | 2019-07-30 | 湿膜组件、加湿装置及空调器 |
CN201921218202.8U CN210688493U (zh) | 2019-07-30 | 2019-07-30 | 湿膜支架、加湿装置和空调器 |
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