CN209763394U

CN209763394U - Humidifying device and air conditioner

Info

Publication number: CN209763394U
Application number: CN201920613353.7U
Authority: CN
Inventors: 汤展跃
Original assignee: Midea Group Co Ltd; Guangdong Midea Refrigeration Equipment Co Ltd
Current assignee: Midea Group Co Ltd; GD Midea Air Conditioning Equipment Co Ltd
Priority date: 2019-04-29
Filing date: 2019-04-29
Publication date: 2019-12-10
Anticipated expiration: 2029-04-29

Abstract

the utility model discloses a humidification device and air conditioner, humidification device includes: humidification support, humidification subassembly, water tank, water pump assembly and humidification fan subassembly. The humidification support has the basin, and the humidification subassembly is established in the basin, and the humidification subassembly includes wet membrane subassembly and micropore water guide material layer, and the top at wet membrane subassembly is established on the humidification support in the micropore water guide material layer, and the water tank is established on the humidification support, and water pump assembly establishes on the humidification support, and water pump assembly is suitable for carrying the top on the micropore water guide material layer with wet membrane subassembly with the water in basin or the water tank, and humidification fan subassembly is used for driving the air current to flow to wet membrane subassembly. According to the utility model discloses a humidification device can show and improve wet membrane module's moist efficiency and can make wet membrane module whole all be in under the humid state, and then can improve humidification efficiency and humidification volume.

Description

humidifying device and air conditioner

Technical Field

the utility model belongs to the technical field of air conditioning technology and specifically relates to a humidification device and air conditioner are related to.

Background

The related art humidifier or the air conditioner with the humidifier has the disadvantages of low humidification efficiency and small humidification amount, and cannot effectively meet the use requirements of actual users.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the present invention is to provide a humidifier, which has high humidification efficiency and large humidification amount.

the utility model also provides an air conditioner of having above-mentioned humidification device.

According to the utility model discloses humidification device of the first aspect embodiment includes: a humidifying support having a water tank; the humidifying component is arranged in the water tank and comprises a wet membrane component and a microporous water guide material layer, and the microporous water guide material layer is arranged at the top of the wet membrane component; the water tank is arranged on the humidifying bracket; the water pump assembly is arranged on the humidifying bracket and is suitable for conveying water in the water tank or the water tank to the top of the microporous water guide material layer so as to wet the wet membrane assembly; and the humidifying fan assembly is used for driving the airflow to flow to the wet film assembly.

according to the utility model discloses humidification device, through the water pump assembly who sets up, make water pump assembly carry the top to the micropore water guide material layer with moist wet membrane module with the water in basin or the water tank, carry water to the top on micropore water guide material layer through water pump assembly, dispersion and the water guide effect through micropore water guide material layer, can make water from top to bottom spread evenly and permeate to wet membrane module on, can show ground and improve wet membrane module's moist efficiency and can make wet membrane module whole all be in under the moist state, and then can improve humidification efficiency and humidification volume.

According to some embodiments of the utility model, the ascending size in upper and lower direction of micropore water guide material layer is d, d satisfies: d is more than or equal to 3 mm.

according to some embodiments of the invention, the porosity of the microporous water conducting material layer is n, n satisfies: n is between 30 and 80 percent.

Optionally, the dimension of the microporous water guide material layer in the up-down direction is d, where d satisfies: d is more than or equal to 3mm and less than or equal to 9mm, and n satisfies: n is between 30 and 50 percent.

According to some embodiments of the utility model, the water tank is suitable for to the basin supplies water, water in the basin is suitable for the infiltration extremely on the wet membrane module, water pump assembly be suitable for with the basin or water in the water tank is carried extremely the top of micropore water guide material layer is in order to moisten the wet membrane module.

According to some embodiments of the utility model, humidification fan subassembly drive air current is followed the thickness direction of wet membrane module passes wet membrane module, water pump assembly is close to the one end setting on the width direction of wet membrane module, the width direction perpendicular to of wet membrane module the thickness direction of wet membrane module and perpendicular to upper and lower direction.

according to some optional embodiments of the utility model, humidification fan subassembly's air-out end with water pump assembly is located respectively wet membrane module's the ascending both sides of thickness direction.

Optionally, the water tank and the water pump assembly are located on the same side of the wet film assembly in the thickness direction, and the water pump assembly is located between the water tank and the humidifying assembly.

further, an avoiding notch is formed on one side of the water tank adjacent to the humidifying assembly, and at least one part of the water pump assembly is accommodated in the avoiding notch.

According to the utility model discloses a some embodiments, water pump assembly's delivery port department is equipped with aperture adjustable control valve.

According to some embodiments of the invention, the water pump assembly comprises: the water pump is arranged on the humidifying bracket; the water outlet pipe is connected with the water pump; the water distribution pipe is connected with one end, far away from the water pump, of the water outlet pipe and is located above the microporous water guide material layer, and a plurality of first water outlet holes are formed in the bottom of the water distribution pipe at intervals.

according to some optional embodiments of the utility model, the extending direction of distributive pipe with the width direction of wet membrane module is unanimous, and is a plurality of first apopore is followed the extending direction interval of distributive pipe is arranged, the width direction perpendicular to of wet membrane module the direction about the thickness direction of wet membrane module and perpendicular to.

According to some optional embodiments of the present invention, the humidification assembly comprises: the water outlet box is arranged at the top of the microporous water guide material layer, the top of the water outlet box is open, at least one part of the water distribution pipe is positioned in the water outlet box, and a plurality of second water outlet holes arranged at intervals are formed at the bottom of the water outlet box.

Optionally, humidification fan subassembly drive air current follows the thickness direction of wet membrane subassembly passes wet membrane subassembly in the width direction of wet membrane subassembly, be located go out the water box middle part the cross-sectional area of second apopore is greater than being located go out the water box both ends the cross-sectional area of second apopore, the width direction of wet membrane subassembly perpendicular to the thickness direction of wet membrane subassembly and perpendicular to upper and lower direction.

Optionally, a partition plate is arranged in the water outlet box, a first water tank and a second water tank which are arranged in the thickness direction of the wet film assembly are defined between the water outlet box and the partition plate, the partition plate and the bottom wall of the water outlet box are spaced apart to form a communication channel for communicating the first water tank and the second water tank, the water distribution pipe is located in the first water tank, a plurality of second water outlet holes are formed in the bottom wall of the first water tank and the bottom wall of the second water tank, and the cross-sectional area of the second water outlet hole located in the first water tank is smaller than the cross-sectional area of the second water outlet hole located in the second water tank.

Optionally, the humidification subassembly includes wet membrane support, wet membrane component establishes in the wet membrane support, the top of wet membrane support is formed with the mounting groove, the bottom and the top of mounting groove all open, go out the water box with the micropore water guide material layer all establishes in the mounting groove.

Furthermore, the inner side wall of the mounting groove is provided with inward extending flanging parts, a water through opening is defined between the flanging parts, and the microporous water guide material layer is supported on the flanging parts and is opposite to the water through opening.

According to some optional embodiments of the present invention, the humidification assembly further comprises: the box cover is arranged at the open end of the water outlet box, and the water distribution pipe is positioned in a space limited by the water outlet box and the box cover.

optionally, one of the outlet box and the box cover is formed with a buckle, and the other of the outlet box and the box cover is formed with a clamping hole matched with the buckle.

Optionally, a positioning rib for positioning the water distribution pipe is formed on the box cover, and the positioning rib is provided with a positioning groove matched with the water distribution pipe.

The utility model discloses according to the utility model discloses air conditioner of second aspect embodiment, include: the air conditioner comprises a shell, a fan and a fan, wherein an air inlet and an air outlet are formed in the shell; the heat exchanger component and the fan component are arranged in the shell, and the fan component is used for driving airflow to enter the shell from the air inlet, exchange heat with the heat exchanger component and then discharge from the air outlet; humidification device, humidification device is according to the utility model discloses the humidification device of above-mentioned first aspect embodiment, humidification device establishes in the casing, humidification fan subassembly is used for driving the air current and follows the air intake gets into in the casing, and the warp follow behind the humidification subassembly humidification the air outlet is discharged.

According to the utility model discloses air conditioner, through setting up foretell humidification device, can improve air conditioner's humidification efficiency and humidification volume.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of an air conditioning indoor unit of an air conditioner according to some embodiments of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

Fig. 3 is a perspective view of a partial structure of a humidifying device according to some embodiments of the present invention;

FIG. 4 is a top view of the humidifying device of FIG. 3;

FIG. 5 is a side view of the humidifying device of FIG. 3;

FIG. 6 is a side view of the humidifying device of FIG. 3 at another angle;

FIG. 7 is a side view of the humidifying device of FIG. 3 at yet another angle;

FIG. 8 is a cross-sectional view taken along line B-B of FIG. 7;

FIG. 9 is a cross-sectional view taken along line C-C of FIG. 7;

Fig. 10 is an exploded view of the humidifying device in fig. 3;

FIG. 11 is a perspective view of the water pump assembly of FIG. 10;

Fig. 12 is a perspective view of the humidifying assembly of fig. 10;

FIG. 13 is an exploded view of the humidifying assembly of FIG. 12;

FIG. 14 is a perspective view of the wet film body of FIG. 13;

FIG. 15 is a perspective view of the reinforcement structure of FIG. 13;

FIG. 16 is a perspective view of the outlet box and the box cover of FIG. 13;

Figure 17 is a perspective view of a humidifying assembly of a humidifying device according to further embodiments of the present invention;

FIG. 18 is an exploded view of the humidifying assembly of FIG. 17;

Fig. 19 is a flowchart illustrating a control method of an air conditioner according to some embodiments of the present invention.

Reference numerals:

An indoor air conditioner 1000;

A housing 10; a first mounting cavity 101; a first air inlet 102; a first air outlet 103; a second mounting cavity 104; a second air outlet 105;

A heat exchanger component 20; a fan section 30;

a humidifying device 100;

A humidifying support 1; a first sub humidification support 11; a water tank 111; a second sub humidification support 12; an air guide passage 121;

a humidifying assembly 2;

a wet film support 21; a first sub-wet film holder 211; a second sub-wet film holder 212; a mounting groove 213;

A wet film assembly 22; a wet film body 221; the second air passing holes 2211; a first bent portion 2212; a wet film sheet 2213; a reinforcing structure 222; the first air passing hole 2221; a second bent portion 2222;

a water outlet box 23; a partition 231; a first water tank 232; a second water tank 233; a snap hole 234; a perforation 235;

a box cover 24; a buckle 241; positioning ribs 242; positioning grooves 2421;

A microporous water conducting material layer 25;

A water tank 3; avoiding the notch 31;

A water pump assembly 4; a water pump 41; a water outlet pipe 42; a water diversion pipe 43;

a humidifying fan assembly 5; a humidifying fan 51; a volute 52; an air outlet end 521.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

A humidifying device 100 according to an embodiment of the present invention is described below with reference to the accompanying drawings.

according to the utility model discloses humidification device 100 of the first aspect embodiment includes: humidification support 1, humidification subassembly 2, water tank 3, water pump assembly 4 and humidification fan subassembly 5.

specifically, referring to fig. 3 to 10, the humidifying bracket 1 has a water tank 111, the humidifying module 2 is provided in the water tank 111, and the humidifying module 2 includes a wet membrane module 22 and a microporous water guide material layer 25. Alternatively, the microporous water conducting material layer 25 may be selected from various forms such as aggregate, fiber, layer, particulate, etc. in terms of texture. For example, the microporous water-conducting material layer 25 may be a PE sponge layer or a PU sponge layer, so that the microporous water-conducting material layer 25 has a strong water absorption capacity and is low in cost.

the water tank 3 is arranged on the humidifying bracket 1, the water tank 3 is suitable for supplying water to the water tank 111, the water in the water tank 3 can be added manually, the water in the water tank 3 can also be added automatically, for example, a water inlet of the water tank 3 can be connected with a tap water pipe, and the water in the water tank 3 is supplied to the water tank 111 through a water outlet of the water tank 3. Wherein, can set up water level detector in the water tank 3, for example water level detector can be float switch, when water level detector detects the water level lower, can remind the user to add water or realize adding water automatically through control.

A water pump assembly 4 is provided on the humidifying support 1, the water pump assembly 4 being adapted to deliver water in the water tank 111 or the water tank 3 to the top of the layer of microporous water conducting material 25 to wet the wet membrane assembly 22. The water pump assembly 4 conveys water in the water tank 111 or the water tank 3 to the top of the micropore water guide material layer 25, the water input to the top of the micropore water guide material layer 25 permeates into the micropore water guide material layer 25 downwards and passes through the dispersion and the water guide effect of the micropore water guide material layer 25, so that the water can permeate into the wet membrane assembly 22 downwards uniformly, the wet membrane assembly 22 can be wetted uniformly from top to bottom, and the whole wet membrane assembly 22 is in a wet state. The humidifying fan assembly 5 is used for driving the air flow to the wet film assembly 22, so that the wet film assembly 22 can humidify the air flow, and finally the air flow is discharged indoors to adjust the indoor environment humidity.

for example, when the water inlet of the water pump assembly 4 is adapted to communicate with the inner cavity of the water tank 3, the water pump assembly 4 may deliver water within the water tank 3 to the top of the layer of microporous water conducting material 25.

for another example, when the water inlet of the water pump assembly 4 is adapted to communicate with the water tank 111, the water tank 3 is adapted to supply water to the water tank 111, the water in the water tank 3 is supplied to the water tank 111 through the water outlet of the water tank 3, and the water pump assembly 4 can deliver the water in the water tank 111 to the top of the microporous water guiding material layer 25.

Through the water pump assembly 4 that sets up, make water pump assembly 4 carry the top to micropore water guide material layer 25 with wet membrane module 22 with the water in basin 111 or the water tank 3, carry water to the top of micropore water guide material layer 25 through water pump assembly 4, dispersion and the water guide effect through micropore water guide material layer 25, can make water from top to bottom spread evenly and permeate to wet membrane module 22 on, thereby can show wet efficiency that improves wet membrane module 22 and can make wet membrane module 22 whole all be in under the humid state, and then can improve humidification efficiency and humidification volume.

In addition, when the water inlet of the water pump assembly 4 is suitable for communicating with the water tank 111, the water tank 3 is suitable for supplying water to the water tank 111, the water in the water tank 3 is supplied to the water tank 111 through the water outlet of the water tank 3, and the water pump assembly 4 can convey the water in the water tank 111 to the top of the microporous water guide material layer 25. Water passing through the water tank 111 spreads from bottom to top and permeates into the wet film assembly 22; meanwhile, the water pump assembly 4 conveys water to the top of the microporous water guide material layer 25, and the water is spread from top to bottom and permeates into the wet membrane assembly 22 through the dispersion and water guide effect of the microporous water guide material layer 25, so that the wetting efficiency of the wet membrane assembly 22 can be remarkably improved, the whole wet membrane assembly 22 is in a wet state, and the humidification efficiency and the humidification quantity can be improved.

Also, when the water inlet of the water pump assembly 4 is adapted to communicate with the water tank 111, by controlling whether the water pump assembly 4 is operated, the humidification amount of the humidifying device 100 can be adjusted so that the ambient humidity is maintained within a comfortable range. For example, when the indoor environment humidity is high, the water pump assembly 4 does not need to be started, so that the environment humidity is kept in a comfortable range; when indoor ambient humidity is less, can open water pump assembly 4, improve humidification efficiency and humidification volume to can improve indoor ambient humidity fast, make ambient humidity keep in comfortable within range.

Optionally, since the air flow passes through the wet film assembly 22 in the thickness direction of the wet film assembly 22, the center of the air flow may be substantially opposite to the center of the wet film assembly 22, so that the air duct field where the wet film assembly 22 is located has the characteristics of large middle air volume and small air volume at two ends in the width direction of the wet film assembly 22, the microporous water guide material layer 25 may be divided into three parts in the width direction of the wet film assembly 22, the pores at the middle part of the microporous water guide material layer 25 may be set to be large, and the pores at two end parts of the microporous water guide material layer 25 may be set to be small, so that the water dropping amount at the middle part of the microporous water guide material layer 25 is large, the air blown out by the humidifying fan assembly 5 is mainly concentrated at the middle part, and the water evaporation amount and the efficiency of the parts are high, thereby further improving the humidifying efficiency and the humidifying amount.

According to the utility model discloses humidification device 100, through the water pump assembly 4 that sets up, make water pump assembly 4 carry the top of micropore water guide material layer 25 with moist wet membrane module 22 with the water in basin 111 or the water tank 3, carry the top of micropore water guide material layer 25 with water through water pump assembly 4, dispersion and the water guide effect through micropore water guide material layer 25, can make water from top to bottom spread and evenly permeate to wet membrane module 22 on, thereby can show ground and improve wet membrane module 22's moist efficiency and can make wet membrane module 22 whole all be in under the moist state, and then can improve humidification efficiency and humidification volume.

According to some embodiments of the present invention, the dimension of the microporous water guiding material layer 25 in the up-down direction is d, and d satisfies: d is more than or equal to 3 mm. Therefore, the microporous water guide material layer 25 can be ensured to have larger water absorption capacity, the dispersion effect on water can be further enhanced, and the whole die assembly is further uniformly wetted.

According to some embodiments of the present invention, the porosity of the microporous water conducting material layer 25 is n, said n satisfying: n is between 30 and 80 percent. Thus, by setting the porosity n of the microporous water guide material layer 25 within the above range, the permeation efficiency of the wet membrane body 221 of the wet membrane module 22 can be maintained within a high range, so that the humidification efficiency can be further improved.

Optionally, the dimension of the microporous water guiding material layer 25 in the up-down direction is d, where d satisfies: d is more than or equal to 3mm and less than or equal to 9mm, and the porosity n of the microporous water guide material layer 25 meets the following requirements: n is between 30 and 50 percent. Therefore, by setting the dimension d of the microporous water guide material layer 25 in the vertical direction in the above range and setting the porosity n of the microporous water guide material layer 25 in the above range, the dimension d of the microporous water guide material layer 25 in the vertical direction can be reduced, the material consumption of the microporous water guide material layer 25 can be reduced, and the dimension of the humidifying assembly 2 in the vertical direction can be reduced while the permeation efficiency of the wet membrane body 221 of the wet membrane module 22 can be maintained in a high range.

Referring to the following table 1, through experimental verification, the porosity n of the microporous water conducting material layer 25 is satisfied: when n is more than or equal to 30% and less than or equal to 80%, the permeation efficiency of the wet film body 221 can be kept in a higher range. For example, the dimension d in the up-down direction of the microporous water conducting material layer 25 satisfies: d is more than or equal to 3mm and less than or equal to 9mm, and the porosity n of the microporous water diversion material layer 25 satisfies: when n is more than or equal to 30% and less than or equal to 50%, the permeability of the wet film body 221 in unit time can reach more than 90%. For another example, the dimension d in the up-down direction of the microporous water conducting material layer 25 satisfies: d is more than or equal to 11mm and less than or equal to 19mm, and the porosity n of the microporous water guide material layer 25 satisfies: when n is more than or equal to 50% and less than or equal to 80%, the permeability of the wet film body 221 in unit time can reach more than 80%. It should be noted that the "permeability of the wet film body 221" refers to a volume ratio of a wet part of the wet film body 221 to the whole wet film body 221.

It can be seen that the dimension d of the microporous water guiding material layer 25 in the up-down direction satisfies: d is more than or equal to 3mm and less than or equal to 9mm, and the porosity n of the microporous water guide material layer 25 meets the following requirements: when n is more than or equal to 30% and less than or equal to 50%, the permeation efficiency of the wet film component can be kept in a higher range, meanwhile, the dimension d of the microporous water guide material layer 25 in the vertical direction can be smaller, the material consumption of the microporous water guide material layer 25 is reduced, and the dimension of the humidifying component 2 in the vertical direction can be reduced.

the above test methods illustrate: due to the space limitation of the humidifying device or the air conditioner, the microporous water guide material layer 25 with the thickness of more than 20mm is too thick, so that the microporous water guide material layer is not suitable for being applied to occasions with compact space such as the humidifying device or the air conditioner; meanwhile, the microporous water guide material layer 25 with the thickness of less than 3mm has poor water penetration uniformity due to being too thin. Therefore, the microporous water conducting material layer 25 with the thickness of 3-20mm is tested by combining the space limitation condition and the actual permeation effect comprehensive evaluation. In the test, the wet film body 221 of the selected wet film assembly 22 is made of water-absorbent cloth, the wet film body 221 extends in a folding line in the width direction, an included angle between two adjacent first bending portions 2212 of the wet film body 221 is 20 degrees, the aperture of the second air passing hole 2211 formed in the wet film body 221 is 0.5mm and the hole pitch is 5mm, the thickness of the wet film body 221 after being folded and formed is 20mm, the height of the wet film body is 150mm, the width of the wet film body is 200mm, and the flow rate of the selected water pump assembly 4 is 1L/min.

TABLE 1

According to some embodiments of the present invention, referring to fig. 3 and 4, the humidifying fan assembly 5 drives the air flow to pass through the wet film assembly 22 in a thickness direction of the wet film assembly 22 (e.g., a front-back direction in fig. 3 and 4), the water pump assembly 4 is disposed adjacent to one end of the wet film assembly 22 in a width direction, and the wet film assembly 22 has a width direction (e.g., a left-right direction in fig. 3 and 4) perpendicular to the thickness direction of the wet film assembly 22 and perpendicular to an up-down direction. Thus, by passing the airflow through the wet film assembly 22 in the thickness direction of the wet film assembly 22, the flow resistance of the airflow can be reduced while ensuring the amount of humidification. Moreover, since the air flow passes through the wet film assembly 22 along the thickness direction of the wet film assembly 22, the center of the air flow can be generally opposite to the center of the wet film assembly 22, so that the air channel field where the wet film assembly 22 is located has the characteristics of large air volume in the middle and small air volume at two ends in the width direction of the wet film assembly 22, and the water pump assembly 4 is arranged adjacent to one end of the wet film assembly 22 in the width direction, so that the flowing resistance can be reduced, the air volume passing through the middle of the wet film assembly 22 is ensured, and the humidification efficiency and the humidification quantity are ensured.

In other embodiments, the humidifying fan assembly 5 drives the airflow to pass through the wet film assembly 22 along the thickness direction of the wet film assembly 22, and the water pump assembly 4 can also be arranged on one side of the wet film assembly 22 in the width direction, so that the influence of the water pump assembly 4 on the airflow flow can be better reduced, and the airflow flow resistance can be further reduced.

according to some optional embodiments of the present invention, referring to fig. 3 and 4, the air outlet end 521 of the humidification fan assembly 5 and the water pump assembly 4 are respectively located on two sides of the wet film assembly 22 in the thickness direction. This makes the structure of the humidifying device 100 compact, and contributes to the miniaturization of the humidifying device 100 while ensuring the amount of humidification.

Alternatively, referring to fig. 3 and 4, the water tank 3 and the water pump assembly 4 are located on the same side in the thickness direction of the wet film assembly 22, and the water pump assembly 4 is located between the water tank 3 and the humidifying assembly 2. Therefore, the components of the humidifying device 100 are reasonable in layout and compact in structure, and resistance to air flow can be reduced. Moreover, since the water pump assembly 4 is located between the water tank 3 and the humidifying assembly 2 such that the water pump assembly 4 is adjacent to the humidifying assembly 2, the flow path of the top water delivered by the water pump assembly 4 to the wet membrane assembly 22 is shortened.

Further, referring to fig. 3, 4 and 10, a side of the water tank 3 adjacent to the humidifying assembly 2 is formed with an escape notch 31, and at least a portion of the water pump assembly 4 is accommodated in the escape notch 31. Therefore, the water tank 3 is provided with the avoidance notch 31 adjacent to the humidifying component 2 for accommodating the water pump component 4, so that the structure of the humidifying device 100 can be further compact, and a sufficient space between the water tank 3 and the humidifying component 2 for air flow to pass through can be ensured.

according to some embodiments of the utility model, the delivery port department of water pump assembly 4 is equipped with aperture adjustable control valve. Therefore, when the water pump assembly 4 works, the water outlet amount of the water pump assembly 4 per unit time can be adjusted by controlling the opening degree of the control valve, the larger the opening degree of the control valve is, the larger the water outlet amount of the water pump assembly 4 per unit time is, the smaller the opening degree of the control valve is, the smaller the water outlet amount of the water pump assembly 4 per unit time is, and the humidification efficiency and the humidification amount can be adjusted. Wherein, the aperture of control valve can be controlled according to the environment humidity value that detects, and when the environment humidity value is great relatively, the aperture that can control the control valve is less, and when the environment humidity value is less relatively, the aperture that can control the control valve is great to can make environment humidity remain throughout in comfortable within range.

according to some embodiments of the present invention, referring to fig. 3, 4, 10 and 11, the water pump assembly 4 comprises: water pump 41, water outlet pipe 42 and water distribution pipe 43. The water pump 41 is arranged on the humidification support 1, the water outlet pipe 42 is connected with the water pump 41, the water distribution pipe 43 is connected with one end of the water outlet pipe 42, which is far away from the water pump 41, the water distribution pipe 43 is positioned above the microporous water guide material layer 25, and a plurality of first water outlet holes which are arranged at intervals are formed at the bottom of the water distribution pipe 43. From this, through setting water pump assembly 4 to including foretell structure, at water pump 41 during operation, water pump 41 can loop through outlet pipe 42 and distributive pipe 43 and carry to the top of micropore water guiding material layer 25 with the water in basin 111 or the water tank 3, when water gets into distributive pipe 43, water can drench the top of micropore water guiding material layer 25 uniformly through a plurality of first apopores of distributive pipe 43 bottom, make the water that water pump assembly 4 carried can drench the top of micropore water guiding material layer 25 comparatively uniformly, thereby can make wet membrane assembly 22's whole moist even better, further improve humidification efficiency and humidification volume.

Wherein, when the water outlet of the water pump assembly 4 is provided with the control valve with adjustable opening, the control valve can be arranged in the water outlet pipe 42.

in the present invention, "a plurality" means two or more.

According to some optional embodiments of the utility model, referring to fig. 3, fig. 4, fig. 10 and fig. 11, the extending direction of distributive pipe 43 is unanimous with the width direction of wet membrane module 22, and a plurality of first apopores are arranged along the extending direction interval of distributive pipe 43, and the width direction perpendicular to of wet membrane module 22 the direction of thickness and the perpendicular to vertical direction of wet membrane module 22. Therefore, the water diversion pipe 43 can more uniformly spray water to the top of the microporous water guide material layer 25, so that the whole wet membrane assembly 22 is more uniformly wetted, and the humidifying efficiency and the humidifying quantity are further improved.

According to some alternative embodiments of the present invention, with reference to fig. 10, 12 and 13, the humidifying assembly 2 comprises: and the water outlet box 23 is arranged at the top of the microporous water guide material layer 25, the top of the water outlet box 23 is open, at least one part of the water distribution pipe 43 is positioned in the water outlet box 23, and a plurality of second water outlet holes arranged at intervals are formed at the bottom of the water outlet box 23. From this, through the play water box 23 that sets up and make at least a part of distributive pipe 43 be located out water box 23, can guarantee that the water in the distributive pipe 43 drenches to play water box 23 in through a plurality of first apopores, then drench water to the top of micropore water guide material layer 25 through a plurality of second apopores of a water box 23 bottom, thereby can guarantee that water pump assembly 4 carried can basically drench the top of micropore water guide material layer 25, guarantee humidification efficiency, and can prevent that the water that drips in the distributive pipe 43 from spattering to the outside of micropore water guide material layer 25.

Optionally, the humidifying fan assembly 5 drives the airflow to pass through the wet film assembly 22 along the thickness direction of the wet film assembly 22, the cross-sectional area of the second water outlet hole located in the middle of the water outlet box 23 is larger than the cross-sectional area of the second water outlet holes located at two ends of the water outlet box 23 in the width direction of the wet film assembly 22, and the width direction of the wet film assembly 22 is perpendicular to the thickness direction of the wet film assembly 22 and perpendicular to the up-down direction. Because the air current passes through the wet film component 22 along the thickness direction of the wet film component 22, the center of the air current can be approximately opposite to the center of the wet film component 22, so that the air channel field where the wet film component 22 is located has the characteristics of large middle air volume and small air volume at two ends in the width direction of the wet film component 22, the cross-sectional area of the second water outlet hole positioned in the middle of the water outlet box 23 is larger than the cross-sectional area of the second water outlet holes positioned at two ends of the water outlet box 23, the water outlet resistance in the middle of the water outlet box 23 can be small, the water outlet amount is large, the middle of the wet film component 22 can be quickly humidified, the water amount is large, and when the middle of the air current passes through the middle of the wet film component 22, the sufficient humidification of the air current can be.

Wherein, along the width direction of the wet film assembly 22, the bottom wall of the water outlet box 23 can be divided into three equal parts, the middle third is distributed with the second air outlet with larger cross-sectional area, and the two third at the two ends are respectively distributed with the second air outlet with smaller cross-sectional area.

Optionally, referring to fig. 13 and 16, a partition 231 is disposed in the outlet box 23, a first water tank 232 and a second water tank 233 which are arranged in the thickness direction of the wet film assembly 22 are defined between the outlet box 23 and the partition 231, the partition 231 is spaced from the bottom wall of the outlet box 23 to form a communication channel for communicating the first water tank 232 with the second water tank 233, the water diversion pipe 43 is disposed in the first water tank 232, a plurality of second outlet holes are formed in the bottom wall of the first water tank 232 and the bottom wall of the second water tank 233, and the cross-sectional area of the second outlet hole in the first water tank 232 is smaller than the cross-sectional area of the second outlet hole in the second water tank 233.

Therefore, by arranging the partition 231 in the outlet box 23 and defining the first water tank 232 and the second water tank 233 which are communicated with each other, the water flowing into the outlet box 23 can be prevented from being concentrated, so that the water is uniformly distributed in the outlet box 23, and the whole wet membrane assembly 22 is uniformly wetted. Furthermore, by positioning the diversion pipe 43 in the first water tank 232 such that the cross-sectional area of the second outlet hole in the first water tank 232 is smaller than the cross-sectional area of the second outlet hole in the second water tank 233, water can be further distributed more evenly in the outlet box 23. In addition, after the water in the water diversion pipe 43 flows into the first water tank 232, because the cross-sectional area of the second water outlet hole in the first water tank 232 is relatively small, when the water in the first water tank 232 accumulates, the water in the first water tank 232 can quickly flow into the second water tank 233 through the communication channel under the action of the water pressure, and the uniformity of the water distribution in the water outlet box 23 is further improved.

Alternatively, referring to fig. 12 and 13, the humidifying assembly 2 includes a wet film support 21, the wet film assembly 22 is disposed in the wet film support 21, a mounting groove 213 is formed at the top of the wet film support 21, the bottom and the top of the mounting groove 213 are both open, and the outlet box 23 and the microporous water guide material layer 25 are both disposed in the mounting groove 213. Thus, by forming the mounting groove 213 for accommodating the water outlet box 23 and the microporous water guiding material layer 25 at the top of the wet membrane support 21, the assembly of the water outlet box 23 and the microporous water guiding material layer 25 with the wet membrane module 22 is facilitated.

Further, the inner side wall of the mounting groove 213 may be formed with burring portions extending inward (the inward is a direction toward the center adjacent to the mounting groove 213), the burring portions defining a water passage opening therebetween, and the microporous water guiding material layer 25 is supported on the burring portions and is opposite to the water passage opening. From this, through setting up turn-over portion, can make micropore water guide material layer 25 and play water box 23 install behind mounting groove 213, can obtain stable support, go out water box 23 internal water and drench to micropore water guide material layer 25 through the second apopore on to through the dispersion and the water guide effect of micropore water guide material layer 25, make the water that permeates to in micropore water guide material layer 25 permeate to wet membrane module 22 on downwards.

Optionally, the inward extending dimension of the cuff may be 2mm to 10mm, so that the supporting areas of the microporous water guiding material layer 25 and the water outlet box 23 may be ensured, and the supporting stability of the microporous water guiding material layer 25 and the water outlet box 23 may be ensured.

according to some optional embodiments of the present invention, referring to fig. 12, 13 and 16, the humidifying assembly 2 further comprises: the box cover 24 is arranged at the open end of the water outlet box 23, and the water diversion pipe 43 is positioned in the space defined by the water outlet box 23 and the box cover 24. Therefore, through the arranged box cover 24, the water diversion pipe 43 is positioned in the space defined by the water outlet box 23 and the box cover 24, the water flowing out of the water diversion pipe 43 can be ensured to flow into the water outlet box 23, the humidification efficiency and the humidification quantity are further improved, and the water in the water outlet box 23 can be prevented from splashing outside the water outlet box 23.

Alternatively, referring to FIG. 16, one of the outlet box 23 and the cover 24 is formed with a snap 241, and the other of the outlet box 23 and the cover 24 is formed with a snap hole 234 for engaging the snap 241. For example, when the buckle 241 is formed on the water outlet box 23, the buckle hole 234 is formed on the box cover 24; when the outlet box 23 is formed with the locking hole 234, the box cover 24 is formed with a locking buckle 241. Therefore, through the matching of the buckle 241 and the clamping hole 234, the connection assembly of the box cover 24 and the water outlet box 23 is facilitated, and the opening end of the water outlet box 23 is opened and closed by the box cover 24.

Optionally, referring to fig. 16, a positioning rib 242 for positioning the shunt pipe 43 is formed on the box cover 24, and the positioning rib 242 has a positioning groove 2421 engaged with the shunt pipe 43. Therefore, by arranging the positioning rib 242 on the box cover 24, when the water distribution pipe 43 is inserted into the space defined by the water outlet box 23 and the box cover 24, the water distribution pipe 43 can be matched with the positioning groove 2421 of the positioning rib 242, so that the function of fixing the water distribution pipe 43 can be achieved. Wherein, water diversion pipe 43 may be a circular pipe, and positioning groove 2421 may be arc-shaped, so that water diversion pipe 43 and positioning groove 2421 are more stably fitted.

For example, in the example of fig. 16, a plurality of positioning ribs 242 are formed on a wall surface of the box cover 24 facing the outlet box 23, the plurality of positioning ribs 242 are arranged at intervals along a length direction (e.g., a left-right direction in fig. 16) of the box cover 24, an extending direction of the water diversion pipe 43 is consistent with the length direction of the box cover 24, and the water diversion pipe 43 is matched with the positioning groove 2421 of each positioning rib 242, so that the water diversion pipe 43 can be better fixed on the box cover 24. Furthermore, a through hole 235 is formed in the side wall of the outlet box 23 for the outlet pipe 42 to pass through, so that the outlet pipe 42 can be fixed, and the through hole 235 can upwardly penetrate through the upper end face of the outlet box 23, so that the outlet pipe 42 can be conveniently passed through the through hole 235.

Utility model for example, in the examples of fig. 3 to 16, the humidifying device 100 includes: humidification support 1, humidification subassembly 2, water tank 3, water pump assembly 4 and humidification fan subassembly 5. The humidifying support 1 comprises a first sub-humidifying support 11 and a second sub-humidifying support 12 which are connected, a water tank 111 is arranged in the first sub-humidifying support 11, and an air guide channel 121 is defined in the second sub-humidifying support 12. The humidifying assembly 2 comprises the wet film support 21, the wet film assembly 22, the water outlet box 23, the box cover 24 and the microporous water guide material layer 25, the wet film support 21 comprises a first sub-wet film support 211 and a second sub-wet film support 212 which are connected with each other, the first sub-wet film support 211 and the second sub-wet film support 212 can be clamped, and the wet film assembly 22 is arranged in a space defined by the wet film support 21. The top of the wet film support 21 is provided with a mounting groove 213, the inner side wall of the mounting groove 213 adjacent to one end of the wet film assembly 22 is formed with the above-mentioned flanging part, the water outlet box 23 is accommodated in the mounting groove 213, the microporous water guide material layer 25 is positioned in the mounting groove 213 and supported on the above-mentioned flanging part, the microporous water guide material layer 25 is positioned between the wet film assembly 22 and the water outlet box 23, and the upper end of the water outlet box 23 is covered by the box cover 24.

The water pump assembly 4 comprises the water pump 41, the water outlet pipe 42 and the water diversion pipe 43, the humidifying fan assembly 5 comprises a volute 52 and a humidifying fan 51 arranged on the volute 52, and the humidifying fan assembly 5 is arranged below the humidifying support 1 and connected with the humidifying support 1. The air flow passes through the wet film assembly 22 along the thickness direction of the wet film assembly 22, the air outlet end 521 of the volute 52 is located on the windward side of the wet film assembly 22, and the air outlet end 521 of the volute 52 is communicated with the air guide channel 121 of the second sub-humidification bracket 12. Humidification subassembly 2 establishes in basin 111, and water pump assembly 4 and water tank 3 all establish in basin 111 and are located humidification subassembly 2's leeward side, and water pump assembly 4 is located between humidification subassembly 2 and the water tank 3, and water tank 3 supplies water to in the basin 111. The water pump assembly 4 is arranged adjacent to one end of the humidifying assembly 2 in the width direction, the water tank 3 is provided with the avoiding notch 31, the water pump 41 is accommodated in the avoiding notch 31, the lower end of the water pump 41 is positioned in the water tank 111, the water pump 41 is connected with the first humidifying support 1 through the buckle 241 or the fastener, the water outlet pipe 42 extends towards the humidifying assembly 2, and the water diversion pipe 43 is positioned in a space limited by the water outlet box 23 and the box cover 24.

therefore, when the humidifying device 100 is in operation, the water pump 41 delivers the water in the water tank 111 to the water outlet box 23, and the water is sprayed to the microporous water guide material layer 25 through the second water outlet hole, and the water is downwardly permeated into the wet membrane assembly 22 through the dispersion and water guide effects of the microporous water guide material layer 25. Meanwhile, the water in the water tank 111 extends into the wet film assembly 22 from the bottom of the wet film assembly 22 to the top. The humidifying fan 51 operates to drive the air flow to flow into the air guide channel 121 from the air outlet end 521 of the volute 52, the air flow flowing out of the air guide channel 121 passes through the wet film along the thickness direction of the wet film assembly 22, so that the air flow is humidified, the humidified air flow flows out from the space between the humidifying assembly 2 and the water tank 3, and finally flows out to the indoor environment, so that the indoor environment humidity can be quickly adjusted.

In other embodiments, referring to fig. 17 and 18, the humidifying assembly 2 may have other structures. The humidifying assembly 2 can comprise a wet membrane support 21, a wet membrane assembly 22 and a microporous water guide material layer 25, wherein the wet membrane assembly 22 is arranged in the wet membrane support 21, and the microporous water guide material layer 25 is arranged on the top of the wet membrane assembly 22. Wherein, the wet film support 21 can be a frame structure, and the wet film assembly 22 is fixed with the wet film support 21 by adhesive. When the humidifying device 100 is in operation, the water pump 41 delivers water in the water tank 111 to the microporous water guide material layer 25, and the water is infiltrated into the wet membrane module 22 through the dispersion and water guide effect of the microporous water guide material layer 25. Meanwhile, the water in the water tank 111 extends into the wet film assembly 22 from the bottom of the wet film assembly 22 to the top.

According to some embodiments of the present invention, referring to fig. 12-18, the humidifying assembly 2 comprises: the wet film assembly 22 comprises a wet film support 21 and a wet film assembly 22, the wet film assembly 22 is arranged in the wet film support 21, the wet film assembly 22 comprises a wet film body 221 and a reinforcing structure 222, the reinforcing structure 222 is arranged on the wet film body 221, and at least a part of the reinforcing structure 222 is embedded in the wet film body 221, for example, the whole humidifying structure is embedded in the wet film body 221, or a part of the reinforcing structure 222 is embedded in the wet film body 221. Therefore, the reinforcing structure 222 is arranged on the wet film body 221, so that the overall structural strength of the wet film assembly 22 can be improved, the wet film body 221 can be prevented from being integrally deformed or collapsed after being soaked in water for a long time, and the humidifying efficiency and the attractiveness of the wet film body 221 are ensured. Moreover, by embedding at least a portion of the reinforcing structure 222 into the wet film body 221, the reinforcing structure 222 can be more firmly connected to the wet film body 221, and the structural strength of the wet film body 221 can be better reinforced.

According to some alternative embodiments of the present invention, referring to fig. 17 and 18, the wet film body 221 includes a plurality of stacked wet film sheets 2213, and a reinforcing structure 222 is disposed between two adjacent wet film sheets 2213. From this, through establishing reinforcing structure 222 between two adjacent wet film pieces 2213 of wet film body 221 for the structural strength of the wet film pieces 2213 that are located the reinforcing structure 222 both sides can all be improved, makes the whole structural strength of wet film body 221 evenly improve, can improve the structural strength of wet film body 221 better.

According to some optional embodiments of the present invention, referring to fig. 12 to 15, the reinforcing structure 222 is provided on at least one side of the wet film body 221 in the thickness direction, for example, the reinforcing structure 222 may be provided only on one side of the wet film body 221 in the thickness direction, the reinforcing structure 222 may be provided on both sides of the wet film body 221 in the thickness direction, and the air flow is adapted to pass through the wet film body 221 in the thickness direction of the wet film body 221. Thus, by providing the reinforcing structure 222 on at least one side in the thickness direction of the wet film body 221, the mounting of the reinforcing structure 222 to the wet film body 221 is facilitated.

Optionally, the reinforcing structure 222 is provided on the leeward side of the wet film body 221. This reduces the resistance of the reinforcing structure 222 to the airflow, compared to the case where the reinforcing structure 222 is provided on the windward side of the wet film main body 221.

Optionally, the reinforcing structure 222 is embedded into the wet film body 221 to a depth h, which satisfies: h is more than or equal to 0.5 mm. Thereby, a reliable connection of the reinforcing structure 222 with the wet film body 221 can be ensured, and at the same time, the structural strength of the wet film body 221 can be improved better.

According to some alternative embodiments of the present invention, referring to fig. 12-18, the reinforcing structure 222 comprises: and the reinforcing rib plates are arranged along the vertical direction, and a plurality of first air passing holes 2221 arranged at intervals are formed in the reinforcing rib plates. From this, can increase the area of contact of deep floor and wet membrane body 221 to can improve the structural strength of wet membrane body 221 better, through a plurality of first air passing hole 2221 that set up on deep floor, when the wet membrane module 22 was flowed through to the air current, the air current can pass a plurality of first national wind holes, guarantees that the air current smoothly passes wet membrane module 22.

alternatively, the stiffener plates are of a mesh structure, for example the stiffener plates may be of metal mesh. Therefore, the reinforcing rib plate is simple in structure and small in wind resistance.

For example, in the example of fig. 15, the stiffener plates may be metal mesh, the stiffener plates may be formed by criss-cross metal bars, the connection process may be hinge-jointed or welded, and the criss-cross metal bars define first air holes 2221 therebetween.

As another example, the reinforcing plate may be a metal foil (e.g., aluminum foil) on which a plurality of first air passing holes 2221 are punched.

alternatively, referring to fig. 12 and 13, a stiffener plate may be provided on the leeward side of the wet film body 221, and a side of the stiffener plate away from the wet film body 221 is provided with a microporous ventilation material layer. Thus, by providing the reinforcing rib plate on the leeward side of the wet film body 221, the resistance of the reinforcing rib plate to the airflow can be reduced. In addition, the microporous ventilation material layer is arranged on one side, far away from the wet membrane body 221, of the reinforcing rib plate, if water drops blow out of the reinforcing rib plate, the microporous ventilation material layer can prevent the water drops from blowing out and absorb the water drops, the water drops absorbed into the microporous ventilation material layer are uniformly diffused in the microporous ventilation material layer, and then evaporation and humidification are performed under the action of air flow. Wherein, the micropore ventilation material layer can be a PE sponge layer, a PU sponge layer, high-density spray cotton and the like. Therefore, the microporous ventilation material layer has better water absorption and ventilation.

In some optional embodiments of the present invention, in the width direction of the wet film body 221, the wet film body 221 is a fold line extension and the stiffener plate is a fold line extension, the width direction of the wet film body 221 is perpendicular to the thickness direction of the wet film body 221 and perpendicular to the up-down direction, and the air flow is suitable for passing through the wet film body 221 along the thickness direction of the wet film body 221. Thus, by extending the wet film body 221 in a fold line, the volume and humidification area of the wet film body 221 can be increased without increasing the occupied space, the amount of humidification can be increased, and the structural strength of the wet film body 221 can be improved to some extent. In addition, the reinforcing rib plate is extended in a zigzag manner, so that the structural strength of the reinforcing rib plate can be improved, and the structural strength of the wet film body 221 can be further improved.

optionally, the wet film body 221 is attached to a stiffener plate. Thereby, the structure of the wet film module 22 can be made compact, and the structural strength of the wet film body 221 can be improved better.

Alternatively, referring to fig. 14 and 15, an included angle between two adjacent first bent portions 2212 of the wet film body 221 is α, and an included angle between two adjacent second bent portions 2222 of the stiffener plate is β, where α and β satisfy: alpha is more than or equal to 5 degrees and less than or equal to 30 degrees, and beta is more than or equal to 5 degrees and less than or equal to 30 degrees. Therefore, under the condition that the occupied space is not increased, the volume and the humidifying area of the wet film body 221 can be increased, the humidifying capacity is improved, meanwhile, the windage resistance of the windward side of the wet film body 221 can be smaller, and the whole humidifying effect of the wet film assembly 22 can be improved. An included angle α between two adjacent first bending portions 2212 of the wet film body 221 and an included angle β between two adjacent second bending portions 2222 of the stiffener plate may be the same.

In other embodiments of the present invention, referring to fig. 12-15, the reinforcing structure 222 may include a plurality of reinforcing ribs arranged at intervals along the vertical direction, each reinforcing rib penetrates the wet film body 221 along the width direction of the wet film body 221, the width direction of the wet film body 221 is perpendicular to the thickness direction of the wet film body 221 and perpendicular to the vertical direction, and the air flow is suitable for passing through the wet film body 221 along the thickness direction of the wet film body 221. Thus, the reinforcing structure 222 is simple in structure, and the structural strength of the wet film body 221 can be improved well.

According to some embodiments of the present invention, referring to fig. 14, the second air passing holes 2211 are formed on the wet film body 221 at a plurality of intervals, and the aperture of each second air passing hole 2211 is D, where D satisfies: d is more than or equal to 0.5mm and less than or equal to 3 mm. Thus, by forming the plurality of second air passing holes 2211 provided at intervals on the wet film body 221, wind resistance can be reduced. In addition, the aperture D of each second air passing hole 2211 is set within the above range, so that the wind resistance is reduced, and the structural strength of the wet film body 221 itself can be ensured.

According to some embodiments of the present invention, a degerming layer is provided on the reinforcing structure 222. From this, through set up the layer of removing bacteria on additional strengthening 222, after wet membrane body 221 breeds the bacterium under the humid state, the bacterium contacts the layer of removing bacteria after, can kill the bacterium through the layer of removing bacteria. Alternatively, the sterilization layer can be a silver layer or a copper layer, so that the sterilization layer has a good sterilization effect and is safe.

Referring to fig. 1 and 2 in combination with fig. 3 to 18, an air conditioner according to a second aspect of the present invention includes: a cabinet 10, a heat exchanger part 20, a fan part 30, and a humidifying device 100. The air conditioner can be a split floor type air conditioner or a split wall type air conditioner.

Referring to fig. 1 and 2, an air inlet and an air outlet are formed on the casing 10, the heat exchanger component 20 and the fan component 30 are disposed in the casing 10, and the fan component 30 is configured to drive an air flow to enter the casing 10 from the air inlet and to be discharged from the air outlet after exchanging heat with the heat exchanger component 20.

Humidification device 100 is according to the utility model discloses humidification device 100 of above-mentioned first aspect embodiment, humidification device 100 establish in casing 10, and humidification fan subassembly 5 is used for driving the air current and gets into in casing 10 from the air intake to discharge from the air outlet after humidification subassembly 2 humidification.

Therefore, when the air conditioner works, the fan part 30 drives the airflow to enter the shell 10 from the air inlet, exchange heat with the heat exchanger part 20 and then discharge the airflow to the indoor from the air outlet, so that the indoor environment humidity can be adjusted. When the air conditioner starts a humidifying function, the humidifying fan component 5 works to drive air flow to enter the shell 10 from the air inlet, and the air flow is humidified by the humidifying component 2 and then is discharged to the indoor from the air outlet, so that the indoor environment humidity can be adjusted.

For example, in the example of fig. 2, the air conditioner is a split floor type air conditioner, the air conditioner includes an air conditioning indoor unit 1000 and an air conditioning outdoor unit, and the air conditioning indoor unit 1000 includes the above-described casing 10, the heat exchanger member 20, the fan member 30, and the humidifying device 100. First installation cavity 101 and second installation cavity 104 that the interval set up about injecing in the casing 10, the air intake is including first air intake 102 and the second air intake of arranging from top to bottom, the air outlet is including first air outlet 103 and the second air outlet 105 of arranging from top to bottom, first installation cavity 101 intercommunication first air intake 102 and first air outlet 103, second installation cavity 104 intercommunication second air intake and second air outlet 105, heat exchanger part 20 and fan part 30 are installed in first installation cavity 101, humidification device 100 installs in second installation cavity 104.

Therefore, when the air conditioner works, the fan component 30 drives the airflow to enter the first installation cavity 101 from the first air inlet 102, exchanges heat with the heat exchanger component 20 and then is discharged to the indoor from the first air outlet 103, and therefore the indoor environment humidity can be adjusted. When the air conditioner starts a humidifying function, the humidifying fan assembly 5 works to drive air flow to enter the second mounting cavity 104 from the second air inlet, and the air flow is humidified by the humidifying assembly 2 and then is discharged to the indoor from the second air outlet 105, so that the indoor environment humidity can be adjusted.

In addition, when the water inlet of the water pump assembly 4 is adapted to communicate with the water tank 111, the amount of humidification of the air conditioner can be adjusted by controlling whether the water pump assembly 4 is operated, so that the ambient humidity is maintained within a comfortable range. For example, when the air conditioner starts the humidification function, if it is detected that the environmental humidity value is large, the humidification fan assembly 5 may be only started, the water pump assembly 4 is closed, and the humidification fan assembly 5 drives the airflow to pass through the wet film assembly 22 through the water-wet film assembly 22 in the water tank 111 to perform the air humidification function; if the detected environment humidity value is small, the humidifying fan assembly 5 and the water pump assembly 4 are both opened, the water in the water tank 111 wets the membrane assembly 22, meanwhile, the water pump assembly 4 conveys water to the top of the wet membrane assembly 22 to wet the wet membrane assembly 22, and the humidifying fan assembly 5 drives air flow to pass through the wet membrane assembly 22 to play a role in humidifying air, so that the humidifying efficiency and the humidifying quantity can be obviously increased. Thus, by controlling whether the water pump assembly 4 is operated or not, the humidification amount of the air conditioner can be adjusted so that the ambient humidity is maintained within a comfortable range.

According to the utility model discloses air conditioner, through setting up foretell humidification device 100, can improve air conditioner's humidification efficiency and humidification volume.

Referring to fig. 19 in conjunction with fig. 1-18, a control method for an air conditioner according to a third aspect of the present invention is an air conditioner according to the second aspect of the present invention, wherein the water tank 3 is adapted to supply water to the water tank 111, the water in the water tank 111 is adapted to permeate into the wet membrane module 22, the water pump module 4 is adapted to deliver the water in the water tank 111 or the water tank 3 to the top of the microporous water guiding material layer 25 to wet the wet membrane module 22, and the control method comprises the following steps:

Starting the air conditioner;

detecting the ambient humidity, for example, an air conditioner may have a humidity sensor, by which the indoor ambient humidity is detected;

Judging the relation between the detected environmental humidity value S ₀ and a first preset value S ₁ and a second preset value S ₂, wherein S ₁ is less than S ₂,

If S ₀ is less than S ₁, the indoor environment humidity is low at the moment, and rapid humidification is needed, and the humidification fan assembly 5 and the water pump assembly 4 can be controlled to be both opened at the moment, so that the humidification efficiency and the humidification quantity are improved, and the indoor environment humidity can rapidly reach a comfortable range;

if S ₁ is less than or equal to S ₀ is less than or equal to S ₂, which indicates that the indoor ambient humidity is within the comfortable range, the humidification apparatus 100 keeps the humidification efficiency and the humidification amount at a low level by controlling the humidification fan assembly 5 to be turned on and the water pump assembly 4 to be turned off, so as to maintain the indoor ambient humidity within the comfortable range.

If S ₀ is greater than S ₂, the indoor environment is high in humidity at the moment, humidification is not needed, and the humidification fan assembly 5 and the water pump assembly 4 are controlled to be turned off.

According to the control method of the air conditioner, the humidifying efficiency and the humidifying quantity of the air conditioner can be improved; and, according to the indoor environment humidity value that detects, whether control humidification fan subassembly 5 and water pump assembly 4 work, can adjust the humidification volume of air conditioner for the environment humidity keeps in comfortable within range.

Optionally, the S ₁ is 40%, and the S ₂ is 60%, so that by controlling the humidifying device 100, the indoor ambient humidity can be kept in the range of 40% -60%, and the indoor ambient humidity can be kept in the comfortable feeling range.

optionally, when the environmental humidity S ₀ is less than the environmental humidity S ₁, the water yield of the water pump assembly 4 per unit time is in negative correlation with the water yield of S ₀, the lower the current environmental humidity value is, the higher the water yield of the water pump assembly 4 per unit time is, the higher the current environmental humidity value is, the lower the water yield of the water pump assembly 4 per unit time is, so that when the environmental humidity S ₀ is less than the environmental humidity S ₁, the water yield of the water pump assembly 4 per unit time is adjusted in real time according to the current environmental humidity value, and the indoor environmental humidity can be adjusted more accurately.

The control of the water yield of the water pump assembly 4 in unit time can be realized by arranging a control valve at the water outlet of the water pump assembly 4, the opening degree of the control valve is adjustable, and the control valve is electrically connected with a controller of the air conditioner. Alternatively, the water output of the water pump unit 4 per unit time may be controlled by directly controlling the rotational speed of the water pump 41 of the water pump unit 4, or the like.

in the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims

1. A humidification device, comprising:

A humidifying support having a water tank;

The humidifying component is arranged in the water tank and comprises a wet membrane component and a microporous water guide material layer, and the microporous water guide material layer is arranged at the top of the wet membrane component;

the water tank is arranged on the humidifying bracket;

The water pump assembly is arranged on the humidifying bracket and is suitable for conveying water in the water tank or the water tank to the top of the microporous water guide material layer so as to wet the wet membrane assembly;

And the humidifying fan assembly is used for driving the airflow to flow to the wet film assembly.

2. The humidifying device according to claim 1, wherein the dimension of the microporous water guide material layer in the up-down direction is d, and d satisfies: d is more than or equal to 3 mm.

3. The humidifying device of claim 1, wherein the microporous water conducting material layer has a porosity of n, wherein n satisfies: n is between 30 and 80 percent.

4. The humidifying device according to claim 3, wherein the dimension of the microporous water guide material layer in the up-down direction is d, and d satisfies: d is more than or equal to 3mm and less than or equal to 9mm, and n satisfies: n is between 30 and 50 percent.

5. The humidifying device of claim 1, wherein the water tank is adapted to supply water to the water tank, the water in the water tank is adapted to permeate onto the wet membrane assembly, and the water pump assembly is adapted to deliver the water in the water tank or the water tank to the top of the microporous water conducting material layer to wet the wet membrane assembly.

6. The humidifying device of claim 1, wherein the humidifying fan assembly drives an airflow to pass through the wet membrane assembly in a thickness direction of the wet membrane assembly, the water pump assembly is arranged adjacent to one end of the wet membrane assembly in a width direction, and the width direction of the wet membrane assembly is perpendicular to the thickness direction of the wet membrane assembly and perpendicular to the up-down direction.

7. The humidifying device according to claim 6, wherein the air outlet end of the humidifying fan assembly and the water pump assembly are respectively located on two sides of the wet membrane assembly in the thickness direction.

8. The humidifying device according to claim 7, wherein the water tank and the water pump assembly are located on the same side in a thickness direction of the wet membrane assembly, and the water pump assembly is located between the water tank and the humidifying assembly.

9. The humidifying device of claim 8, wherein a side of the water tank adjacent the humidifying assembly is formed with an escape notch, and at least a portion of the water pump assembly is received in the escape notch.

10. The humidifying device according to claim 1, wherein a control valve with adjustable opening degree is arranged at the water outlet of the water pump assembly.

11. humidifying apparatus as claimed in any one of claims 1-10, wherein the water pump assembly comprises:

The water pump is arranged on the humidifying bracket;

the water outlet pipe is connected with the water pump;

The water distribution pipe is connected with one end, far away from the water pump, of the water outlet pipe and is located above the microporous water guide material layer, and a plurality of first water outlet holes are formed in the bottom of the water distribution pipe at intervals.

12. The humidifying device according to claim 11, wherein the extension direction of the water diversion pipe is consistent with the width direction of the wet film assembly, the first water outlet holes are arranged at intervals along the extension direction of the water diversion pipe, and the width direction of the wet film assembly is perpendicular to the thickness direction of the wet film assembly and perpendicular to the up-down direction.

13. The humidification device of claim 12, wherein the humidification assembly comprises: the water outlet box is arranged at the top of the microporous water guide material layer, the top of the water outlet box is open, at least one part of the water distribution pipe is positioned in the water outlet box, and a plurality of second water outlet holes arranged at intervals are formed at the bottom of the water outlet box.

14. The humidifying device according to claim 13, wherein the humidifying fan assembly drives the airflow to pass through the wet film assembly along a thickness direction of the wet film assembly, a cross-sectional area of the second water outlet hole in the middle of the water outlet box is larger than cross-sectional areas of the second water outlet holes at two ends of the water outlet box in a width direction of the wet film assembly, and the width direction of the wet film assembly is perpendicular to the thickness direction of the wet film assembly and perpendicular to the up-down direction.

15. the humidifying device according to claim 13, wherein a partition is provided in the outlet box, a first water tank and a second water tank are defined between the outlet box and the partition, the first water tank and the second water tank are arranged in the thickness direction of the wet film assembly, the partition is spaced from the bottom wall of the outlet box to form a communication passage for communicating the first water tank with the second water tank, the water distribution pipe is located in the first water tank, the second water outlet holes are formed in the bottom wall of the first water tank and the bottom wall of the second water tank, and the cross-sectional area of the second water outlet hole located in the first water tank is smaller than the cross-sectional area of the second water outlet hole located in the second water tank.

16. The humidifying device according to claim 13, wherein the humidifying assembly comprises a wet film support, the wet film assembly is arranged in the wet film support, a mounting groove is formed in the top of the wet film support, the bottom and the top of the mounting groove are both open, and the water outlet box and the microporous water guide material layer are both arranged in the mounting groove.

17. The humidifying device as claimed in claim 16, wherein the inner side wall of the mounting groove is formed with inwardly extending flanges defining a water passage opening therebetween, and the microporous water guiding material layer is supported on the flanges and opposite to the water passage opening.

18. The humidification device of claim 13, wherein the humidification assembly further comprises: the box cover is arranged at the open end of the water outlet box, and the water distribution pipe is positioned in a space limited by the water outlet box and the box cover.

19. The humidifying device of claim 18, wherein one of the outlet box and the box cover is formed with a snap, and the other of the outlet box and the box cover is formed with a snap hole which is matched with the snap.

20. The humidifying device of claim 18, wherein the cover has a positioning rib formed thereon for positioning the shunt tube, the positioning rib having a positioning groove for engaging with the shunt tube.

21. An air conditioner, comprising:

the air conditioner comprises a shell, a fan and a fan, wherein an air inlet and an air outlet are formed in the shell;

The heat exchanger component and the fan component are arranged in the shell, and the fan component is used for driving airflow to enter the shell from the air inlet, exchange heat with the heat exchanger component and then discharge from the air outlet;

The humidifying device according to any one of claims 1 to 20, wherein the humidifying device is arranged in the casing, and the humidifying fan assembly is used for driving airflow to enter the casing from the air inlet and to be discharged from the air outlet after being humidified by the humidifying assembly.