CN115264698A - Air treatment system - Google Patents

Abstract

The invention proposes an air treatment system comprising: the air supply equipment comprises a shell, a fan and a first controller, wherein the fan and the first controller are arranged in the shell, and the fan is electrically connected with the first controller; the humidifying device comprises a shell, a humidifying module, a water spraying module and a second controller, wherein the shell is provided with an air inlet and an air outlet, and the humidifying module comprises a water tank, a wet film assembly and a drainage pump which are arranged in the water tank; the water spraying module comprises a water inlet valve and a water sprayer which are connected together, a plurality of water spraying holes for downward water outlet are configured on the water sprayer, and the water sprayer is arranged above the humidifying module; the drainage pump and the water inlet valve are respectively connected with the second controller; the first controller and the second controller are connected in a dry contact signal communication mode, and the first controller is further configured to receive an external control signal. The operation of the humidifying equipment is indirectly controlled by a user through the air supply equipment, and the humidifying equipment is conveniently and uniformly controlled to improve the use convenience.

Description

Air treatment system

Technical Field

The invention relates to the technical field of household appliances, in particular to an air treatment system.

Background

The central humidifying device is a household appliance commonly used in daily life of people, and the central humidifying device installed by hanging a suspended ceiling is widely popularized and used due to strong humidifying capacity. The central humidifying device is usually installed in a hidden way by a suspended ceiling, water is supplied by tap water (part manufacturers need to be provided with water purifiers or water softeners), air is supplied to all areas of a house by air pipes, and the whole house is humidified in a one-stop way.

Chinese patent publication No. CN 214619813U discloses an air conditioning system, which comprises an air supply function device and a humidifier, wherein the air supply function device delivers air into the humidifier, and then the humidifier humidifies the air and outputs the air to the room. The connection mode between the wind function equipment and the humidifier in the air conditioning system is mainly the connection on the gas path. When the user uses, then need control respectively and start air supply function equipment and humidifier, and then cause the use convenience relatively poor.

In view of this, how to design a technology that facilitates unified control to improve convenience of use is a technical problem to be solved by the present invention.

Disclosure of Invention

The invention provides an air treatment system, which realizes that a user indirectly controls a humidifying device to operate through an air supply device, and is convenient to control uniformly so as to improve the use convenience.

In some embodiments of the present application, an air treatment system, comprises:

the air supply device comprises a shell, a fan and a first controller, wherein the fan and the first controller are arranged in the shell, and the fan is electrically connected with the first controller;

the humidifying device comprises a shell, a humidifying module, a water spraying module and a second controller, wherein the shell is provided with an air inlet and an air outlet, and the humidifying module comprises a water tank, a wet film assembly and a drainage pump which are arranged in the water tank; the water spraying module comprises a water inlet valve and a water sprayer which are connected together, a plurality of water spraying holes for discharging water downwards are configured on the water sprayer, and the water sprayer is arranged above the humidifying module; the drainage pump and the water inlet valve are respectively connected with the second controller;

wherein the first controller and the second controller are configured to be connected in signal communication by using a dry contact, and the first controller is further configured to receive an external control signal.

The first controller and the second controller are connected together in a communication mode through the dry contact signal communication mode, a user receives a control signal sent by the user through the first controller in the using process, and the first controller sends a dry contact signal to the second controller to trigger the humidifying equipment to be started or stopped, so that in the actual using process, the user only needs to send a signal to the air supply equipment independently, the humidifying equipment can be indirectly controlled to operate through the air supply equipment, and the unified control is facilitated so as to improve the using convenience.

According to some embodiments of the present application, a first dry contact and a second dry contact are disposed between the first controller and the second controller, the first dry contact is configured to receive on-off operation of a control signal sent by the first controller, and the second dry contact is configured to receive on-off operation of a control signal sent by the second controller.

In some embodiments of the present application, a first water level detector is further disposed in the water tank;

when the humidifying device starts a humidifying function, the second controller is configured to trigger the water inlet valve to be opened when the first water level detector detects that the water level value is smaller than a first water level value, and the second controller is further configured to trigger the water inlet valve to be closed when the first water level detector detects that the water level value is larger than a second water level value.

In some embodiments of the present application, the second controller is further configured to alarm water supply abnormality when the first water level detector detects that the water level value is continuously less than the first water level value and the duration time exceeds the first duration value;

and/or the second controller is further configured to activate the drain pump when the first water level detector detects a water level value continuously greater than a second water level value for a time duration exceeding a second duration value;

and/or the second controller is further configured to perform a water supply abnormity alarm after the first water level detector detects that the water level value is continuously greater than the second water level value and the duration time exceeds a third duration value after the drainage pump is started.

In some embodiments of the present application, the second controller is further configured to alarm the water supply abnormality when the lower level switch detects that the water level value is continuously less than the first water level value and the duration time exceeds the first duration value;

and/or, the second controller is further configured to activate the drain pump when the upper level switch detects a water level value continuously greater than a second water level value for a duration exceeding a second duration value;

and/or the second controller is further configured to perform a water supply abnormity alarm when the upper liquid level switch detects that the water level value is continuously greater than the second water level value and the duration time exceeds a third duration value after the drainage pump is started.

Some embodiments of the present application further comprise an electric heating part disposed in the housing and disposed on a windward side of the wet film, the electric heating part being electrically connected to the second controller;

the central humidifying device is used for switching off a humidifying function, the second controller is further configured to start the electric heating component to dry the wet film after the water level switch detects that the water level value is continuously lower than the first water level value and the duration time exceeds a fourth time length value.

Some embodiments of this application, be provided with wind pressure switch, first temperature sensor, second temperature sensor and humidity transducer in the shell, the wind pressure switch first temperature sensor with humidity transducer arranges air intake department and respectively with the controller electricity is connected, second temperature sensor arranges air outlet department and with the second controller electricity is connected.

In some embodiments of the present application, when the humidifying device starts a humidifying function, the second controller is configured to start the electric heating part when conditions one, two and three are satisfied;

the first condition is that the wind pressure detected by the wind pressure switch is greater than a set wind pressure;

the second condition is that the temperature value detected by the first temperature sensor is lower than a set temperature value;

and the third condition is that the humidity value detected by the humidity sensor is lower than the set humidity value.

In some embodiments of the present application, the second controller is further configured to control the heating power of the electric heating part according to the temperature value detected by the second temperature sensor.

In some embodiments of the present application, the second controller is configured to trigger the drain pump to stop working and perform an overflow alarm when the second water level detector detects that the water level value is continuously greater than the third water level value and the duration exceeds a fifth duration value.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of a humidifying apparatus;

FIG. 2 is a second schematic structural diagram of an embodiment of a humidifying device;

FIG. 3 is an exploded view of one embodiment of a humidifying apparatus;

FIG. 4 is a schematic view of a partial structure of an embodiment of a humidifying apparatus;

FIG. 5 is a schematic view of the structure of the housing in an embodiment of the humidifying device;

FIG. 6 is an exploded view of an embodiment of the humidifying device disassembled from the bottom;

FIG. 7 is a schematic structural diagram of an upper cover module in an embodiment of a humidifying device;

FIG. 8 is a schematic diagram of a humidifying module in an embodiment of a humidifying apparatus;

FIG. 9 is a second schematic structural diagram of a humidifying module in an embodiment of a humidifying apparatus;

FIG. 10 is an assembly view of a water tank and a drain pump in an embodiment of the humidifying apparatus;

FIG. 11 is an enlarged partial view of the area A in FIG. 10;

FIG. 12 is a schematic view of a wet film assembly according to an embodiment of the humidifying apparatus;

FIG. 13 is a second schematic view of the structure of the wet film assembly in an embodiment of the humidifying device;

FIG. 14 is an exploded view of a mounting frame in an embodiment of a humidifying apparatus;

FIG. 15 is a schematic structural diagram of a water spraying module in an embodiment of a humidifying device;

FIG. 16 is a schematic diagram of the configuration of a water shower in an embodiment of a humidification apparatus;

FIG. 17 is a sectional view taken along line B-B of FIG. 16;

FIG. 18 is an exploded view of a water sprayer in an embodiment of a humidification apparatus;

FIG. 19 is an enlarged partial view of the area C of FIG. 18;

FIG. 20 is a schematic diagram of an electronic control module in an embodiment of the humidifier apparatus;

fig. 21 is a schematic structural view of a water pan in an embodiment of the humidifying apparatus;

FIG. 22 is a schematic view showing the structure of a supporting member in an embodiment of the humidifying device;

FIG. 23 is an exploded view of a support member in an embodiment of a humidifying apparatus;

FIG. 24 is a schematic view of an embodiment of an auxiliary heating unit of the humidifying device;

FIG. 25 is a second schematic view of the auxiliary heating element of an embodiment of the humidifying device;

FIG. 26 is a partial cross-sectional view of a wet film assembly in an embodiment of a humidifying apparatus;

fig. 27 is a partially assembled schematic view of a water pan, a humidification module, and a water spray module in an embodiment of a humidification apparatus;

FIG. 28 is a schematic view of FIG. 27;

FIG. 29 is a schematic diagram of an embodiment of an air treatment system.

Reference numerals:

a housing 1; the air conditioner comprises an upper top plate 11, a lower bottom plate 12, a front panel 13, a rear panel 14, a first side vertical plate 15, a second side vertical plate 16, an air inlet flange 17, an air outlet flange 18 and a limiting part 19; a first bottom plate 121, a second bottom plate 122, a first limiting part 191, a second limiting part 192, a first limiting guide part 193, and a second limiting guide part 194; an air inlet 101, an air outlet 102, an installation socket 103, an access hole 104 and an electrical appliance box cover 105.

A humidifying module 2; a water tank 21, a wet film assembly 22, a drain pump 23, an end cover 24, a handle 25, a first water level detector 26, a sliding part 27, and a mounting bracket 28; the main groove body 211, the second connecting clamping groove 2111, the auxiliary groove body 212, the hanging bracket 241, the fixing part 2411, the hanging part 2412 and the shock pad 2413; the mounting frame 221, the wet film 222, the concave structure 223, the first water inlet hole 224, the annular blocking rib 225 and the second water inlet hole 226; a bottom frame 2211, a top plate 2212, a hollow frame 2213 and a vertical plate 2214; a first insertion slot 22111, a rib 22121, a second connecting claw 22122, a tongue 22123, a first strip 22131, a second strip 22132, a second insertion slot 22141, a third connecting slot 22142 and an auxiliary insertion slot 22143; first coupling claws 2201, first coupling grooves 2202, and a corrugated surface 2222.

A water spraying module 3; a water inlet valve 32, a water sprayer 31 and a throttle pipe 33; the water spraying device comprises a lower water spraying plate 311, an upper cover plate 312, a water inlet pipe 313, an annular boss 314, a buffer groove 315, an annular rib 316, an annular slot 317, a connecting plate 318 and a water spraying hole 301.

An electronic control module 4; the electric control board 41, the housing 42, the mounting board 43, the threading hole 44, the routing baffle 45, the wind pressure switch 46, the first temperature sensor 47, the humidity sensor 48, the auxiliary bracket 49, and the second temperature sensor 40.

An air deflector 5; and a hem structure 51.

A water pan 6; a second water level detector 61, a drain pipe 62, a support member 63, and a seal member 64; mounting part 631, guide part 632, guide plate 633, wear member 634; a first card slot 6321, a second card slot 6322, a first jaw 6341, a second jaw 6342.

An auxiliary heating assembly 7; fixing support 71, electric heating part 72, radiating fin 73, mount 74, upper baffle 75, lower baffle 76.

A heat-insulating assembly 8; a first heat insulating member 81, a second heat insulating member 82, and a third heat insulating member 83; guide surface 821, guide groove 822 and extension 823.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the description of the present application, it is to be understood that the terms "center," "upper," "lower," "front," "back," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present application and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be construed as limiting the present application.

In the description of the present application, it is to be understood that the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless otherwise specified.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

The humidifying equipment adopts a wet film technology, the whole wet film is wetted by conveying water to the wet film, and after air enters the humidifying equipment, the air flowing through is humidified by using the wetted wet film.

As shown in fig. 1 to fig. 3, the present embodiment provides a humidifying apparatus, including:

the air conditioner comprises a shell 1, wherein the shell 1 is provided with an air inlet 101 and an air outlet 102, and the side wall of the shell 1 is also provided with a mounting socket 103;

a humidifying module 2, the humidifying module 2 including a water tank 21, a wet membrane assembly 22, and a drain pump 23, the wet membrane assembly 22 being disposed in the water tank 21, the drain pump being disposed in the water tank 21 and draining water in the water tank 21;

the water spraying module 3 is provided with a plurality of water spraying holes 301 for discharging water downwards;

the electronic control module 4, the electronic control board 41 is configured in the electronic control module 4.

During assembly, the humidifying module 2 is inserted into the shell 1 from the mounting socket 103, the humidifying module 2 divides the interior of the shell 1 into an air inlet cavity and an air outlet cavity, the air inlet 101 is communicated with the air inlet cavity, and the air outlet 102 is communicated with the air outlet cavity; the water spraying module 3 is arranged in the shell and is positioned above the humidifying module 2, the electric control module 4 is also arranged on the shell 1, and the electric control board 41 is used for controlling the operation of electric components in the humidifying device. For example, the electronic control board 41 is electrically connected to the drain pump to control the operation of the drain pump.

In the use, the water spraying module 3 sprays water through the humidifying component in the humidifying module 2 below the water spraying hole 301, and the air current entering the shell 1 from the water inlet utilizes the humidifying component to humidify the air current flowing through when passing through the humidifying component, so as to improve the humidity of the air current, and finally the air current is output to the outdoor from the air outlet 102 to adjust the indoor environment humidity.

In the first embodiment, as shown in fig. 3 to 4, in order to meet the requirement of the compact design of the whole device structure, the length size of the whole device is effectively shortened, and the disassembly and maintenance are convenient to reduce the maintenance difficulty and cost. Then improve the design to the structural layout of each module in shell 1 inside, specifically be: the wet film assembly 22 is extended along the length direction of the water tank 21, and the electronic control module 4 and the drain pump are arranged side by side with the wet film assembly 22 along the width direction of the water tank 21.

Specifically, the wet film assembly 22, the drain pump and the electronic control module 4 are all disposed in the housing 1, and the electronic control module 4, the wet film assembly 22 and the drain pump are arranged along the width direction of the housing 1, so that the modules can be mounted by fully utilizing the width direction of the housing 1.

On one hand, the electronic control module 4 is integrated into the interior of the housing 1 to fully utilize the internal space of the housing 1 for installation, and on the other hand, the water discharge pump is arranged on one side of the wet membrane assembly 22 along the width direction, so that the overall length of the humidifying module 2 is reduced, and the overall length size of the humidifying equipment is reduced as a whole.

Like this, when installing at user's family, then can be better solve because of the limited problem that leads to the installation difficulty and the increase of later stage maintenance degree of difficulty of length size.

Through in with electronic control module embeds in the shell, can reduce the length dimension that electronic control module produced in the shell outside is extra, in addition, inside the shell, electronic control module, wet membrane subassembly and drain pump arrange the setting along the width direction of shell, and the width direction that can be abundant utilizes the shell arranges relevant device in the inside of shell, and then furthest's reduction humidification equipment is holistic length dimension, and then makes things convenient for humidification equipment's field erection.

In some embodiments of the present application, the wet membrane module 22 is sandwiched between the electronic control module 4 and the drain pump, the electronic control module 4 being located on the side of the air inlet 101, and the drain pump being located on the side of the air outlet 102.

Specifically, for the layout mode of planning interior device more rationally, then along the width direction of shell 1, electronic control module 4, wet membrane module 22 and drain pump arrange in proper order, and electronic control module 4 whole appearance is comparatively regularly arranged in place to reduce and cause the interference to the air inlet side at air intake 101, improves the smooth and easy nature that the air current flows.

In another embodiment of the present application, for the humidification module 2 to be inserted into the housing 1 from the mounting socket 103, the exposed end of the humidification module needs to be connected and fixed with the housing 1, and for this purpose, an end cover 24 is disposed at one end of the water tank 21, and a handle 25 is disposed on the end cover 24.

Specifically, after the humidification module 2 is inserted into the housing 1 from the mounting socket 103, the end cap 24 abuts against the outer side wall of the housing 1 and covers the mounting socket 103, and then the end cap 24 is fixedly attached to the housing 1 by screwing the bolt by hand.

When it is necessary to detach the humidification module 2, the hand screw is detached, and the humidification module 2 is pulled out of the housing 1 by pulling the handle 25.

In another embodiment, the electronic control module 4 is integrated inside the housing 1, thereby occupying the internal space of the housing 1 and easily influencing the air intake. In order to increase the air intake of the whole air conditioner, an air deflector 5 is further arranged in the air intake cavity, the air deflector 5 is located between the air intake 101 and the humidification module 2, and the air deflector 5 is configured to guide the airflow entering from the air intake 101 to flow to the wet film assembly 22.

Specifically, the electric control module 4 is positioned in the air inlet cavity, and the drainage pump is positioned in the air outlet cavity; the air guide plate 5 is disposed in the air intake cavity to guide the air flow introduced from the air intake 101. Under the action of the air deflector 5, the airflow introduced by the air inlet 101 is guided to flow to the wet film assembly 22, and the air deflector 5 guides the airflow to flow so as to reduce the random flow of the airflow in the shell 1, further reduce the wind resistance of other parts in the shell 1 to the airflow, and finally improve the air intake of the whole machine.

In some embodiments, in order to facilitate installation and arrangement of the air deflector 5, one end of the air deflector 5 is disposed below the air inlet 101, and the air deflector 5 extends obliquely upward from the air inlet 101 to the wet film assembly 22.

Specifically, one end of the air deflector 5 is arranged below the air inlet 101, and the air deflector 5 extends in the direction of the wet membrane module 22 in an inclined manner, so that the air flow entering from the air inlet 101 can be better guided to flow to the wet membrane module 22 by the inclined air deflector 5.

In some embodiments, the two side portions of the air deflector 5 are respectively provided with a folding structure 51 which is bent upwards.

Specifically, in the process of guiding the air flow through the air guide plate 5, the edge folding structures 51 are distributed on two sides of the air guide plate 5, so that the air flow can be further guided through the edge folding structures 51 to block the air flow from flowing to the outer side of the air guide plate 5, and the air flow introduced from the air inlet 101 flows to the humidification assembly to the maximum extent, so that the air supply efficiency is improved.

In the second embodiment, since the top water spraying module 3 needs to wet the lower wet film assembly 22 during the process of the air flow passing through the wet film assembly 22, however, since a certain gap is formed between the water spraying module 3 and the wet film assembly 22, the air flow can be blown to the top of the wet film assembly 22 via the gap, and then the water distribution at the top of the wet film assembly 22 is affected, especially the water falling to the top of the wet film assembly 22 can be blown to the corner position, and then the water film cannot be uniformly humidified.

In order to solve the above problem, as shown in fig. 8 to 14, a concave structure 223 is formed on the top of the mounting frame 221, a plurality of first water inlets 224 are formed in the concave structure 223, the first water inlets 224 are configured to guide water from above the wet film 222 to a middle area of the wet film 222, an annular blocking rib 225 is further formed in the concave structure 223, and the annular blocking rib 225 surrounds the outside of the first water inlet.

Specifically, the recessed structure 223 is located the below of the water spraying module 3, and the water that the water spraying module 3 sprays out downwards will fall into the recessed structure 223, and the recessed structure 223 covers the top of installation frame 221, like this, at the water spraying in-process, even if the rivers that descend are blown by the air current, also can not have too much water to blow out and enter into the air-out cavity.

More importantly, the plurality of first water inlet holes 224 arranged on the top plate 2212 of the mounting frame 221 are arranged in the middle area, and the plurality of first water inlet holes 224 are surrounded and blocked by the annular blocking rib 225, so that the water sprayed by the water spraying module 3 is firstly stored in the space surrounded by the annular blocking rib 225, and the air flow is blocked by the annular blocking rib 225, so as to ensure that the water stored in the annular blocking rib 225 can be effectively in the wet film 222 below the flow channel of the first water inlet holes 224.

The water supplied from the first water inlet 224 is distributed in the middle of the wet film 222, and the amount of water is sufficient, so that the wet film 222 can diffuse water from the middle to the outside, thereby uniformly humidifying the water film.

Through set up the sunk structure at the top of installation frame, the water that the trickle module drenched down can be collected to the sunk structure, and, still be provided with the annular fender muscle of arranging around first inlet opening in the sunk structure, the annular fender muscle can form an independent region, make the hydroenergy that falls into it enough via the wet membrane of first inlet opening flow direction below, so that the middle part region of wet membrane obtains sufficient water supply, with the whole wet membrane of better infiltration, sunk structure and annular fender muscle mutually support can effectual reduction air current to the uneven influence of moisture distribution, make the humidification that wet membrane can be even, in order to optimize the humidification effect and improve humidification efficiency.

In some embodiments, the edges of the two ends of the concave structure 223 are respectively provided with second water inlet holes 226, and the second water inlet holes 226 are configured to guide water from above the wet film 222 to the end regions of the wet film 222.

Specifically, for better even humidification wet film 222, still set up second inlet opening 226 in sunk structure 223, second inlet opening 226 arranges the border position at sunk structure 223, the module 3 that drenches falls into sunk structure 223 under the water that sprays, the water that is located the annular and keeps off the muscle 225 outside will flow to the second inlet opening 226 of sunk structure 223 tip position department under the effect of air current, second inlet opening 226 will water drainage to the terminal surface of wet film 222, water will be from the inside infiltration of the tip of wet film 222, the water supply of cooperation first inlet opening 224, make inside and outside sufficient and even water supply of obtaining of wet film 222.

Third embodiment, as shown in fig. 8 to 14, for the humidification module 2, it is necessary to mount the wet membrane module 22 and the drain pump to the water tank 21, and in order to facilitate the assembly by the operator, the water tank 21 includes a main tank body 211 and a sub tank body 212, and the main tank body 211 and the sub tank body 212 communicate with each other; the main tank body 211 extends along the length direction of the housing 1, and the auxiliary tank body 212 is arranged on one side of the main tank body 211 along the width direction of the housing 1; wherein the wet membrane module 22 is disposed in the main tank body 211, and the drain pump is disposed above the sub-tank body 212.

Specifically, for the humidification module 2, the water tank 21 is divided into a main tank body 211 and a sub tank body 212 which are communicated with each other, wherein the sub tank body 212 is arranged at the side of the end part of the main tank body 211 to form an L-shaped tank body structure.

For convenience of installation, the wet membrane module 22 is snap-fitted into the main tank body 211, and the drain pump is installed and disposed above the sub-tank body 212. Thus, when the wet membrane module 22 is assembled, the spatial influence of the installation position of the drain pump on the assembly of the wet membrane module 22 can be reduced.

In order to complete the clamping configuration, the two end portions of the wet film assembly 22 are respectively provided with a first connecting clamping claw 2201, and the two end portions of the main tank 211 are respectively provided with a second connecting clamping groove 2111.

Specifically, when assembling the wet film assembly 22 to the main tank body 211, then put the wet film assembly 22 into the main tank body 211, the width direction of the main tank body 211 matches with the length and width dimension of the uniform wet film assembly 22 in the length direction, so that the wet film assembly 22 can be tightly and compactly inserted into the main tank body 211.

After the wet film 222 is completely pressed into the main slot 211 and assembled in place, the first connecting claws are clamped in the second connecting clamping grooves 2111, so that the wet film assembly 22 is clamped with the main slot 211. And then need not additionally to connect through other auxiliary connection parts, more be favorable to quick equipment on-spot.

The connecting clamping jaws are configured at the two end parts of the wet film component, correspondingly, the water tank is designed into two tank bodies, the main tank body is provided with a connecting clamping groove matched with the connecting clamping jaws, the wet film component is installed in the main tank body conveniently in a clamping mode, and in addition, the drainage pump is arranged and installed on the auxiliary tank body to reduce the influence of the drainage pump on the installation of the wet film component in space, so that the assembling difficulty of the humidification module is reduced, and the assembling efficiency is improved.

In some embodiments, the humidifying module 2 includes a plurality of wet film assemblies 22, and the plurality of wet film assemblies 22 are sequentially arranged side by side along the length direction of the main tank 211.

Specifically, in order to reduce the length of a single wet film assembly 22, a plurality of wet film assemblies 22 are clamped into the main tank body 211 to meet the requirement of air flow humidification.

The wet film assembly 22 comprises a mounting frame 221 and a wet film 222, the wet film 222 is arranged in the mounting frame 221, and two ends of the mounting frame 221 are respectively provided with a first connecting claw and a first connecting groove 2202; wherein, two adjacent wet film assemblies 22, the first connecting claw on one wet film assembly 22 is clamped in the first connecting clamping groove on the other wet film assembly 22; in addition, the first connection claws of the wet film modules 22 located at the outermost ends are caught in the second connection catching grooves 2111 at the corresponding ends.

Specifically, in the assembling process, a plurality of wet film assemblies 22 are placed in the main groove body 211, wherein two adjacent wet film assemblies 22 are mutually matched with the first connecting clamping groove through the first connecting clamping claw so as to realize the assembling and clamping of two adjacent wet films 222. Meanwhile, the outermost wet film assemblies 22 are clamped and connected with the second connecting clamping grooves 2111 through the first connecting clamping claws, and finally, the plurality of wet film assemblies 22 are firmly connected and the plurality of wet film assemblies 22 are integrally clamped in the main groove body 211.

In another embodiment, for the convenience of assembling the wet film assembly 22, the mounting frame 221 includes an underframe 2211, a top plate 2212, two hollowed-out frames 2213 and two vertical plates 2214, the two vertical plates 2214 are disposed on corresponding ends of the underframe 2211, the hollowed-out frames 2213 are disposed on corresponding sides of the underframe 2211, the two hollowed-out frames 2213 and the two vertical plates 2214 are connected to form a side enclosure, the top plate 2212 is disposed on the top of the side enclosure, and the vertical plates 2214 are provided with a first connecting clamping jaw and a first connecting clamping groove.

Specifically, the installation frame 221 adopts a split design, and the two oppositely arranged hollow frames 2213 can limit the wet film 222 in the installation frame 221 on the one hand, and the hollow frames 2213 do not meet the requirement of air flow entering and exiting yet on the other hand.

For convenient assembly, two sides of the bottom frame 2211 are provided with first slots 22111, two sides of the vertical plate 2214 are provided with second slots 22141, the bottom of the hollow frame 2213 is provided with first inserting strips 22131, the end of the hollow frame 2213 is provided with second inserting strips 22132, the first inserting strips are inserted into the first slots 22111, and the second inserting strips are inserted into the second slots; the top plate 2212 is clamped on the two vertical plates 2214.

Specifically, in the installation frame assembly process, the bottom of fretwork frame 2213 is inserted to chassis 2211 through first cutting and first slot 22111 cooperation, and then, the both sides of fretwork frame 2213 rethread second cutting and the cooperation of second slot are in order to link together with riser 2214. The wet film 222 is placed between the two hollow frames 2213, and finally the top plate 2212 is covered on the top of the vertical plate 2214 and the hollow frames 2213 to complete the assembly of the wet film assembly 22.

Two end portions of the top plate 2212 are respectively provided with a second connecting clamping jaw 22122 extending downwards, the vertical plate 2214 is provided with a third connecting clamping groove 22142, and the second connecting clamping jaw is located on the outer side of the vertical plate 2214 on the corresponding side and clamped in the third connecting clamping groove.

Specifically, when installing roof 2212 at last, the both ends of roof 2212 are connected the jack catch through the second and are realized locking fixedly with the cooperation of third connecting slot for the whole equipment screwless design of wet membrane module 22 reduces the screw equipment on the one hand and leads to the equipment degree of difficulty and efficiency to reduce, and on the other hand sparingly uses the screw in order to avoid the later stage screw to be rusted by the water logging bubble, improves and uses the reliability.

In addition, two side portions of the top plate 2212 are respectively provided with a rib 22121 extending downwards, and the rib 22121 is located outside the corresponding side of the hollow frame 2213.

Specifically, the hollow frames 2213 on two sides can be positioned in a limited manner through the flanges 22121, so that the hollow frames 2213 on two sides are limited between the two flanges 22121, and the assembling reliability is improved.

In order to assemble the top plate 2212 more firmly, the lower end of the second connecting jaw is further provided with a tongue 22123, the vertical plate 2214 is further provided with an auxiliary slot 22143, the auxiliary slot is located below the third connecting slot, and the tongue is inserted into the auxiliary slot.

Specifically, when the top cover is assembled, the top plate 2212 can be guided to move downwards by the insertion tongue and the auxiliary slot in an insertion fit manner, so that the second connecting claws can be more accurately clamped into the third connecting groove 22142.

Meanwhile, in another embodiment, in order to improve the versatility, at least one first slot 22111 is further disposed in the middle of the bottom chassis 2211, and at least one second slot is further disposed in the middle of the vertical plate 2214.

Specifically, for the wet films 222 with different thickness dimensions, the hollow frame 2213 may be additionally disposed in the mounting frame 221 to meet the mounting requirements of the wet films 222 with different thickness dimensions, and the use versatility is improved.

In another embodiment, to facilitate mounting of the drain pump, the end cover 24 is provided with a hanging bracket 241, and the drain pump is provided on the hanging bracket 241.

Specifically, the drain pump is suspended above the sub-tank 212, and is fixedly installed through the hanging bracket 241.

The hanging bracket 241 includes a fixing portion 2411 and a hanging portion 2412, the fixing portion 2411 is fixedly disposed on the end cover 24, the hanging portion 2412 extends transversely, and the drain pump is disposed on the hanging portion 2412. The fixing portion 2411 may be fixed to the end cover 24 by screws, and the hanging portion 2412 extends laterally above the sub-tank 212, so that the drain pump is hung above the sub-tank 212.

The suspension bracket 241 may be formed by bending a metal plate into a fixing portion 2411 and a suspending portion 2412, and a damper pad 2413 may be provided between the drain pump and the suspending portion 2412 in order to reduce vibration noise generated by the operation of the drain pump.

In the fourth embodiment, as shown in fig. 5, 8-14, for the humidification module 2, since water needs to be stored in the water tank 21 and the water in the water tank 21 needs to be drained to the outside by the drain pump after reaching a certain water level, the first water level detector 26 is provided in the water tank 21. However, in actual use, the first water level detector 26 may detect a failure and fail to start the drain pump in time, so that the water in the water tank 21 may overflow into the housing 1 and finally into the room.

In order to better improve the use reliability of the humidifying device, the water in the water tank 21 is prevented from overflowing into the housing 1 and overflowing from the housing 1 due to the failure of water level monitoring. The humidifying equipment also comprises a water receiving disc 6; the water pan 6 is arranged in the shell 1 and is positioned below the humidification module 2, a second water level detector 61 is arranged in the water pan 6, a drain pipe 62 is also arranged on the water pan 6, and the drain pipe 62 extends out of the shell 1; wherein the drain pump is configured to drain water from the water tank 21 into the drip tray 6.

In particular, during assembly, the drip tray 6 is also mounted in the housing 1 such that the drip tray 6 is located below the humidification module 2, wherein the lower projection of the humidification module 2 will be entirely located in the drip receiving area formed by the drip tray 6.

In actual use, the water spraying module 3 sprays water to the lower humidification module 2, and excess water flowing down from the wet film assembly 22 is accumulated in the water tank 21. When the water level in the water tank 21 reaches the set upper limit height value, the first water level detector 26 will send a signal to the electronic control board 41 to control the drainage pump to start to drain through the electronic control board 41. The drainage pump is powered on to drain the water in the water tank 21 into the lower water receiving tray 6 until the first water level detector 26 detects that the water level reaches the set lower limit height value, and the electric control board 41 controls the drainage pump to stop working.

However, when the first water level detector 26 malfunctions or when the drain pump malfunctions, the water in the sump 21 cannot be timely drained by the drain pump. At this time, as the water level in the water tank 21 continues to rise, the water in the water tank 21 overflows from the edge, and the water overflowing from the water tank 21 enters the drain pan 6 because the water tank 21 is located above the drain pan 6, so that the overflowing water is collected by the drain pan 6 and discharged through the drain pipe 62.

Through set up the water collector in the shell, the water collector is arranged in the below of humidification module, in normal use, the water that the water drenches the module falls on the wet membrane subassembly of humidification module with the air that the humidification flows through, and unnecessary water then accumulates in the basin, water in the basin is when reaching the settlement water level height, first water level detector will detect the water level height and start in order to trigger the drain pump, through the drain pump with the water suction in the basin to the water collector in, water in the water collector is final to be followed the drain pipe and is discharged, even if under the circumstances of locating first water level detector emergence damage, the water that overflows in the basin can be collected by the water collector of below, and avoid the basin overflow to expose from the shell, realize improving central humidification device's use reliability and in order to reduce to take place to leak and then improve user experience nature.

In one embodiment of the present application, since the bottom of the humidification module 2 is provided with the water receiving tray 6, in order to better support the humidification module 2 above, a support member 63 may be further provided in the water receiving tray 6, wherein the water tank 21 abuts against the top of the support member 63, and the drain pump is configured to discharge water in the water tank 21 into the water receiving tray 6.

Specifically, by providing the water receiving tray 6 with the support member 63, the humidification module 2 above is supported and guided by the support member 63. Thus, when the humidification module 2 is mounted, the humidification module 2 is inserted into the housing 1 from the mounting socket 103, and the bottom of the humidification module 2 slides the supported member 63 in a supporting and guiding manner.

In some embodiments, two support members 63 arranged in parallel are provided on the water-tray 6, the support members 63 comprise a mounting member 631 and a guide member 632, the mounting member 631 is provided in the water-tray 6, the guide member 632 is provided on the mounting member 631, and the guide member 632 extends along the length direction of the water-tray 6; the water tank 21 is slidably provided on the guide member 632 and is configured to slide back and forth in the longitudinal direction of the guide member 632.

Specifically, the support member 63 is fixedly attached to the water receiving tray 6 by the attachment member 631, and the guide member 632 is supported by the water receiving tray 6 by the attachment member 631. And the supporting member 63 supports and guides the humidification module 2 inserted into the housing 1 to guide the humidification module 2 to be slidably inserted into the inner wall of the housing 1.

In the actual use process, guide component 632 guides humidification module 2 smoothly and accurately, and humidification module 2 is further supported by water pan 6.

In another embodiment, the humidifying module 2 is provided with a sliding member 27 at the bottom of the water tank 21, the sliding member 27 extends along the length direction of the drip tray 6, and the sliding member 27 is configured to abut against the guide member 632 to support the water tank 21 to slide back and forth along the guide member 632.

Specifically, in order to support and guide the humidification module 2, a sliding member 27 is disposed at the bottom of the water tank 21, and is slidably guided and supported by a support member 63 in the water tray 6.

In some embodiments, the guide member 632 is provided at a side thereof with guide plates 633 arranged upright, and a sliding limit space is formed between the two guide plates 633, the sliding limit space being configured to limit the water tank 21 from sliding between the two guide plates 633.

Specifically, after the humidification module 2 is inserted into the housing 1 through the insertion opening 103, the guide plates 633 on both sides allow the sliding member 27 at the bottom of the water tank 21 to smoothly slide onto the guide member 632, and further, the guide plates 633 can further restrict the sliding member 27 from shaking on both sides, so that the sliding member 27 can smoothly slide along the guide member 632.

In addition, during the use, the guide plate 633 can also limit the sliding component 27, so as to prevent the humidification module 2 from shaking due to the influence of the air flow, and the assembly reliability is higher.

And guide plate 633 forms an outer fold (not labeled) towards the end of mounting socket 103, and guide member 632 extends obliquely downwards towards the end of mounting socket 103.

Specifically, a bell-mouth structure is formed between the folded edges of the two guide plates 633, so that the humidification module 2 can more easily slide into the inner sides of the guide plates 633 to accurately slide on the guide members 632.

In another embodiment, to improve the service life, the support member 63 further includes a wear member 634, the wear member 634 is disposed on a guide surface formed by the guide member 632, and the slide member 27 abuts against the wear member 634.

Specifically, since the sliding member 27 slides relative to the guide member 632 during the process of attaching and detaching the humidification module 2, friction is generated between the two members during the sliding process, and noise is generated. By providing the wear-resistant member 634 on the guide member 632, the wear-resistant member 634 can be made of a wear-resistant material to protect the guide member 632 and reduce wear thereof, and the wear-resistant material has a low noise characteristic (such as polyetheretherketone) to reduce noise generated by sliding friction.

Wherein, the wear-resistant part 634 is a plate-shaped structure, and the wear-resistant part 634 is detachably disposed on the guide part 632.

Specifically, the wear member 634 having a plate-like structure covers the upper portion of the guide member 632, and the wear member 634 can be replaced and repaired as needed. For example: the wear-resistant part 634 is provided with a jaw, the guide part 632 is provided with a slot matched with the jaw, and the wear-resistant part 634 is clamped in the slot through the jaw to be matched with the guide part 632 in a clamping manner.

Adopt jack catch and draw-in groove complex mode for wearing parts 634 clamps to guide part 632 on, when later maintenance is changed, only need relieve the jack catch and draw-in groove between be connected, alright in order to detach wearing parts 634 from guide part 632.

In addition, for firm clamping and fixing, the jaws include a first jaw 6341 and a second jaw 6342, the edge of the guide part 632 is provided with a first clamping groove 6321, the side wall of the guide part 632 is provided with a second clamping groove 6322, the first jaw is transversely and longitudinally arranged and clamped in the first clamping groove, and the second jaw is vertically arranged and clamped in the second clamping groove.

Specifically, during the assembly process, the first latch is clamped in a first slot disposed at the edge of the guide member 632 to achieve the upper positioning and fixing, and the second latch is clamped in a second slot disposed at the side wall of the guide member 632 to achieve the positioning and fixing of the wear-resistant members 634 distributed at the side portions of the guide member 632.

In another embodiment, a sealing member 64 is also provided in the drip tray 6, the sealing member 64 extending along the length of the drip tray 6, the sealing member 64 being arranged such that the sealing member 64 abuts against the side of the sliding member 27 after the humidification module 2 is assembled into the housing 1.

Specifically, after the humidification module 2 is inserted into the housing 1, the interior of the housing 1 is divided into an air inlet cavity and an air outlet cavity, and in order to reduce the air flow in the air inlet cavity from crossing the humidification module 2 and directly entering the air outlet cavity, the sliding member 27 at the windward side of the humidification module 2 may be sealed by the sealing member 64 disposed in the water pan 6, so as to prevent the air flow in the air inlet cavity from flowing into the air outlet cavity from the bottom gap of the humidification module 2, thereby improving the humidification efficiency.

Wherein, for two parallel sliding parts 27 arranged at the bottom of the water tank 21, the sealing part 64 abuts against the sliding part 27 adjacent to the air inlet 101 side.

The sealing member 64 has a C-shaped longitudinal section, the sealing member 64 is provided on the inner wall of the drip tray 6, the sealing member 64 forms two upper and lower strip-shaped sealing contact portions, and at least one strip-shaped sealing contact portion is in contact with the sliding member 27.

Specifically, the seal member 64 having a C-shaped longitudinal section can seal by closely contacting the sliding member 27 with a strip-shaped seal contact portion formed at the edge thereof.

In some embodiments, the outer wall of the drip tray 6 is further provided with an insulating layer (not labeled), which is disposed on the bottom and the peripheral side wall of the drip tray 6.

Specifically, the heat insulation layer wraps the water pan 6 to realize heat insulation between the water pan 6 and the shell 1, and therefore condensation at the bottom of the shell 1 caused by too low water temperature in the water pan 6 is reduced.

In the fifth embodiment, the electronic control module 4 is embedded in the housing 1, and the following structural design is performed on the electronic control module 4 in order to meet the design requirement of the compact structure.

As shown in fig. 3, 4 and 20, the electronic control module 4 includes a housing 42 and an electronic control board 41, wherein two side portions of the housing 42 are respectively provided with a bent mounting plate 43, the mounting plates 43 are disposed on an inner side wall of the housing 1, an appliance cavity is formed between the housing 42 and the housing 1, and the electronic control board 41 is disposed on the housing 42 and located in the appliance cavity.

Specifically, the electronic control module 4 is matched with the housing 1 through the cover 42 to form a relatively independent electric appliance cavity, and the electronic control board 41 is installed in the electric appliance cavity. Because an independent electrical box is not required to be configured, the electronic control module 4 and the shell 1 are effectively integrated together, and the design of compact structure is realized.

The cover shell of the electric control module is arranged inside the shell, an electric appliance cavity is formed between the cover shell and the shell, the electric control board is arranged in the electric appliance cavity to be isolated from external devices, the electric control module is integrally and internally arranged in the shell, on one hand, the integral structure is more compact, the integral volume of the central humidifier is more favorably reduced, cables connected with the electric control board on the other hand are connected with related electric devices from internal wiring of the shell, the damage caused by the fact that the cables are exposed outside the shell is avoided, the electric control module is integrated in the shell, and the compact design of the central humidifier is achieved, and the use reliability is improved.

In some embodiments, to facilitate the routing, a threading hole 44 is disposed on one of the mounting plates 43, and the cable connected to the electronic control board 41 extends out of the electrical appliance cavity through the threading hole 44.

Specifically, the cables connected to the electric control board 41 extend out of the electric appliance cavity through the threading holes 44 formed in the mounting board 43 to connect with external electric appliance components.

The mounting plate 43 provided with the threading hole 44 is further provided with a wiring baffle 45, a wiring channel is formed between the wiring baffle 45 and the mounting plate 43, and the cable extends and is wired along the wiring channel towards the lower bottom plate of the housing 1.

Specifically, the cable led out from the cavity of the electric appliance is shielded and protected through the wiring baffle 45, so that the cable can extend and be wired along the wiring baffle 45, and the cable is prevented from being led out from the threading hole 44 and being tilted due to self stress influence.

In some embodiments, in order to facilitate an operator to maintain the electronic control board 41, an access opening 104 may be further disposed on a side wall of the housing 1, the access opening 104 is communicated with the electrical appliance cavity, and a detachable electrical appliance box cover 105 is further disposed on the access opening 104.

Specifically, through being provided with access hole 104 at the lateral wall of shell 1, when needs maintenance, then with electrical apparatus lid 105 from access hole 104 dismantlement down, alright in order to carry out maintenance operation to automatically controlled board 41 in the electrical apparatus cavity.

In one embodiment, the electronic control module 4 further includes a wind pressure switch 46, the wind pressure switch 46 is disposed on the housing 42 and located outside the electrical appliance cavity, the wind pressure switch 46 is disposed at one side of the wind inlet 101, and the wind pressure switch 46 is electrically connected to the electronic control board 41.

Specifically, the wind pressure switch 46 is installed by using the housing 42, thereby saving an additional installation support member in the housing 1, and making the internal structure more compact. The cover 42 is disposed in the air intake cavity, and the cover 42 is disposed at a side of the air intake 101, and the cover 42 serves as a mounting member to support the wind pressure switch 46.

In another embodiment, the electronic control module 4 further comprises a first temperature sensor 47 and a humidity sensor 48, which are electrically connected to the electronic control board 41, respectively, and are disposed at one side of the air inlet 101.

Specifically, the first temperature sensor 47 and the humidity sensor 48 are disposed at the air inlet 101 to detect the temperature and humidity of the air flow at the air inlet 101, so as to facilitate control of humidification and temperature adjustment. Wherein, the shell 1 is provided with an auxiliary support 49, the auxiliary support is positioned at one side of the air inlet 101, and the temperature sensor and the humidity sensor are arranged on the auxiliary support.

In an embodiment six, in order to further adjust the outlet air temperature of the outlet, as shown in fig. 3, fig. 7, fig. 24 and fig. 25, an auxiliary heating assembly 7 may be further configured, where the auxiliary heating assembly 7 is disposed between the inlet 101 and the humidification module 2, and the auxiliary heating assembly 7 is configured to heat the air introduced by the inlet 101.

Specifically, the auxiliary heating assembly 7 includes a fixing bracket 71, an electric heating member 72, and a heat dissipating fin 73, the fixing bracket 71 surrounds and forms a ventilation opening (not labeled), the heat dissipating fin 73 is disposed on the fixing bracket 71 and disposed in the ventilation opening, the electric heating member 72 is thermally connected to the heat dissipating fin 73, and the fixing bracket 71 is disposed on an upper top plate of the housing 1 and located between the air inlet 101 and the humidification module 2.

In the practical use process, the airflow introduced from the air inlet 101 flows towards the direction of the vent, and because the heat dissipation fins 73 are arranged in the vent, the wind resistance of the heat dissipation fins 73 to the airflow is small, so that the requirement of smooth flow of the airflow can be met.

When the air flow needs to be heated, the electric control board 41 controls the electric heating part 72 to be electrified for heating, and the heat generated by the electric heating part 72 is transferred to the heat dissipation fins 73, so that the air flow flowing through is efficiently heated by the heat dissipation fins 73.

Through set up the vent on the fixed bolster, and set up radiating fin in the vent, thus, the heat transfer that the electric heating part produced dispels the heat on the radiating fin, and the air that enters into in the shell from the air intake will flow to humidification module through the vent, when needs heat the air, the circular telegram of electric heating part produces the heat, the heat transfer that the electric heating part produced is to radiating fin, in order to utilize radiating fin and the air of flowing through to carry out the heat exchange, radiating fin effectual increase with the air between area of contact, and then realize improving the heat exchange area of humidification device and air in order to improve heating efficiency.

In some embodiments, the top of the fixing bracket 71 is fixedly disposed on the upper top plate 11, the mounting seats 74 are disposed on two side portions of the fixing bracket 71, and the heat dissipating fins 73 are disposed between the two mounting seats 74.

Specifically, in order to facilitate the installation of the heat dissipating fins 73, the mounting seats 74 are disposed on both sides of the fixing bracket 71, the vent hole is located between the two mounting seats 74, and the heat dissipating fins 73 straddle the vent hole via the mounting seats 74.

Wherein, the mounting seat 74 is provided with a slot (not labeled), and the end of the heat dissipation fin 73 is inserted into the slot on the corresponding side.

In addition, as the electric heating member 72, an electric heating tube, a PTC rod, or the like can be used. The electric heating part 72 is integrally of a long strip structure, and the end part of the electric heating part 72 is also inserted into the slot on the corresponding side, so that the electric heating part 72 is convenient to mount and fix on one hand, and on the other hand, the electric heating part 72 can be attached to the radiating fin 73 more firmly to ensure good heat conduction.

In some embodiments, in order to guide the airflow through the fixing bracket 71, an upper baffle plate 75 may be disposed on the fixing bracket 71, the upper baffle plate 75 extends toward the air inlet 101, and the upper baffle plate 75 is disposed on the upper portion of the ventilation opening.

Specifically, the upper baffle plate 75 is disposed on the upper portion of the vent, and can guide the airflow to pass through the vent below under the action of the upper baffle plate 75, so as to improve the heat exchange efficiency.

Similarly, a lower baffle plate 76 may be further provided on the fixing bracket 71, the lower baffle plate 76 extending toward the humidification module 2, and the lower baffle plate 76 being provided above the ventilation opening.

Specifically, the air flow output from the vent is guided upward by the lower deflector 76 toward the wet film module 22, thereby improving the air supply efficiency.

The seventh embodiment, because the humidifying device is composed of a plurality of components, in order to facilitate the modularized rapid assembly in the factory stage, the modularized split design is realized without taking a complete housing as an assembly foundation, specifically as follows.

As shown in fig. 3 to 7, the housing 1 includes an upper top plate 11, a lower bottom plate 12, and a surrounding plate disposed between the lower bottom plate 12 and the upper top plate 11, and the surrounding plate includes a front panel 13, a rear panel 14, a first side standing plate 15, and a second side standing plate 16. The front panel 13, the second side vertical plate 16, the rear panel 14 and the first side vertical plate 15 are connected in sequence.

In order to meet the requirement of modular assembly, the following modular design is carried out:

the upper top plate 11 and the water spraying module 3 are assembled in advance to form an upper cover module, the rear panel 14 is provided with an air inlet flange 17 to form a rear cover module, the front panel 13 is provided with an air outlet flange 18 to form a front cover module, and the lower bottom plate 12, the first side vertical plate 15, the second side vertical plate 16, the humidifying module 2 and the electric control module 4 are independently installed; wherein the first side vertical plate 15 is provided with a mounting socket 103.

The upper top plate 11 is arranged above the lower bottom plate 12, the front panel 13 and the rear panel 14 are oppositely arranged and arranged between the upper top plate 11 and the lower bottom plate 12, the first side vertical plate 15 is arranged between the upper top plate 11, the lower bottom plate 12 and the front panel 13, an access opening 104 is formed between the first side vertical plate 15 and the rear panel 14, the second side vertical plate 16 is arranged between the upper top plate 11, the lower bottom plate 12, the front panel 13 and the rear panel 14, the humidifying module 2 is inserted into the installation socket 103 and is positioned below the water spraying module 3, and the housing 42 is arranged between the first side vertical plate 15 and the rear panel 14.

Specifically, in the actual assembly process, the upper cover module, the rear cover module, the front cover module, the humidifying module 2 and the electric control module 4 are assembled in advance in a modularized manner. On the assembly bus, the operator mounts the rear cover module, the front cover module, the first side riser 15 and the second side riser 16 on the lower base plate 12 to complete the mounting of the main support members, and then mounts the upper cover module on top.

The rear cover module and the front cover module are connected with the lower bottom plate 12 mainly through the front panel 13 and the rear panel 14, the whole assembling process is convenient and simple, and the upper cover module is connected with the front panel 13, the rear panel 14 and the two side vertical plates mainly through the upper top plate 11, so that the time and the process of assembling field parts into the shell 1 are effectively reduced.

Through functional unit and the functional mode with the formation shell in advance with the plate body of preassembleing in order to form the modularized design, when whole equipment is assembled, then only need carry out the on-the-spot connection with each plate body of constituteing the casing, like this, alright with need not to carry out the on-the-spot equipment in the shell, and then can effectual reduction equipment degree of difficulty, make things convenient for each module of operating personnel on-the-spot fast assembly in order to form humidification equipment, and then improve the packaging efficiency.

In another embodiment, the auxiliary heating assembly 7 can be further integrally mounted on the upper top plate 11 for the upper cover module, so that the upper cover module integrates a plurality of functional modules, the number of field workers which are mounted into the shell 1 one by one is reduced, and the assembly difficulty is reduced.

Eighth embodiment, during use by a user, the wet membrane module 22 in the humidifying module 2 needs to be periodically maintained, and for this reason, the humidifying module 2 needs to be detached from the housing 1. When actual installation, there is the user in the house top lateral space less, like this, when just can leading to later maintenance humidification module 2, the operation degree of difficulty that pulls out humidification module 2 from installation socket 103 increases, for solving the relatively poor and great problem of the maintenance degree of difficulty of maintenance convenience, carries out following institutional advancement.

As shown in figure 6, the lower base plate 12 is detachably arranged at the lower part of the enclosing plate, the water pan 6 is arranged on the lower base plate 12, and the water tank 21 is detachably arranged on the end cover 24.

Specifically, in the actual use process, when maintenance of the humidification module 2 is required, the water tank 21 and the wet film assembly 22 can be separately detached from the housing 1 from the bottom of the housing 1, in addition to pulling out the humidification module 2 from the housing 1 through the mounting socket 103.

When it is necessary to remove maintenance from the bottom of the housing 1, the lower base plate 12 is removed from the enclosure to expose the humidification module 2 inside the housing 1, and then the water tank 21 is removed from the cover plate separately, at which time the wet membrane module 22 will be removed independently following the water tank 21, and the drain pump is still fixedly connected to the end cap 24 of the housing 1.

Through set up the installation socket on the bounding wall of shell, in order to satisfy and pull out the whole requirement of maintaining wet membrane module in order to satisfy the change of following the installation socket with the humidification module, meanwhile, to under the limited circumstances of side operating space, can also dismantle the lower plate of shell from the bounding wall down, then, with the wet membrane module of basin intercommunication detached alone from the end cover down, in order to satisfy the requirement of maintaining wet membrane module of change, like this, alright not receive installation space's restriction, select the maintenance mode as required, realize improving the maintenance convenience of humidifier and reduce the maintenance degree of difficulty.

In some embodiments, to facilitate the removal of the water tank 21, the end cap 24 is provided with a mounting bracket 28, the mounting bracket 28 is provided on the inner surface of the end cap 24, and the sliding member 27 is detachably mounted on the mounting bracket 28.

Specifically, the end cap 24 is provided with the mounting bracket 28, and the mounting bracket 28 protrudes from the inner surface of the end cap 24, thereby facilitating the connection from the bottom of the water tank 21 to the mounting bracket 28 through the sliding member 27. The connection mode can adopt a detachable mode such as a screw and the like.

For example: the mounting bracket 28 is provided with a mounting surface extending laterally, the slide member 27 is provided with a mounting hole, the mounting surface is provided with a coupling hole, and a fastening screw passes through the mounting hole from below and is screwed in the coupling hole.

In some embodiments, since the water-receiving tray 6 is further disposed below the humidification module 2, for the water-receiving tray 6, for convenience of assembly and disassembly, one edge of the water-receiving tray 6 may be connected to the front panel 13, and the other edge of the water-receiving tray 6 may be connected to the fixing bracket 71 in the auxiliary heating assembly 7.

Specifically, in the actual assembly process, the water pan 6 is fixedly connected to the lower portions of the front panel 13 and the fixing bracket 71 by screws. When maintenance of the humidification module 2 is required, the lower plate 12 and the drip tray 6 are removed, and then the water tank 21 is removed from the end cover 24.

One end of the air deflector 5 is arranged on the back panel of the enclosing plate and is positioned below the air inlet 101, and the other end of the air deflector 5 is lapped on the edge of the water pan 6 and is clamped between the air deflector 5 and the fixed support 71.

In another embodiment, in order to facilitate the detachment of the lower plate 12, the lower plate 12 is designed in a split manner, that is, the lower plate 12 includes a first plate 121 and a second plate 122, the first plate 121 is located below the electronic control module 4 and near the air inlet 101, the second plate 122 is located below the water-receiving tray 6 and near the air outlet 102, the first plate 121 and the second plate 122 are respectively detachably disposed at the lower portion of the enclosing plate, and the second plate 122 overlaps the first plate 121.

Specifically, when the humidification module 2 needs to be maintained, the second bottom plate 122 is detached from the housing 1, so that the water pan 6 and the water tank 21 can be sequentially detached, and the whole bottom plate 12 does not need to be detached, which is more favorable for reducing the difficulty of detachment and maintenance.

Ninth embodiment, in the use, the shell produces the condensation because of the difference in temperature easily inside and outside, and the condensation just can produce the condensation water droplet and fall to user's family after gathering certain degree on the shell, and then leads to the user to use the experience relatively poor. In order to solve the above technical problem, the following modifications are made to the housing 1.

As shown in fig. 3, fig. 5 and fig. 7, the humidifying device further includes a heat preservation assembly 8, the heat preservation assembly 8 includes a first heat preservation member 81 and a second heat preservation member 812, the first heat preservation member 81 is a plate structure, the second heat preservation member 82 is a strip structure, the first heat preservation member 81 is disposed on the upper top plate 11 and/or the lower bottom plate 12, and the second heat preservation member 82 is disposed below the air outlet 102 on the enclosing plate.

Specifically, first heat preservation 81 is the heat preservation plate structure and tiling on lower plate 12 and on last roof 11, and then carries out heat preservation treatment at the upper and lower surface of shell 1 to reduce and form the condensation at the surface of shell 1.

And the second heat preservation member 82 is arranged below the air outlet 102 and covers the connecting part between the enclosing plate and the lower base plate 12,

through set up the subassembly that keeps warm in the shell, first heat preservation piece can keep warm to the last roof and the lower plate of shell and handle, and then reduce the condensation influence that the inside air current of shell caused last roof and lower plate, in order to reduce the production of comdenstion water, in addition, the second heat preservation piece will be to the further heat preservation of going forward of the lower part of air outlet and handle, the condensation that the bounding wall region that the second heat preservation piece on the one hand can reduce air outlet department produced, can also be further carry out sealing process to the position is connected with air outlet department bounding wall to the lower plate, take place in order to reduce the condition that the air leakage appears, the realization reduces central humidification equipment's shell surface and produces the condensation, in order to improve user experience nature.

In some embodiments, the second insulating member 82 covers the connecting portion between the enclosing plate and the lower base plate 12, and the upper surface of the second insulating member 82 forms a flow guiding surface 821 that extends obliquely downward along the direction from the air inlet 101 to the air outlet 102 and is configured to guide the water flow into the water tray.

Specifically, for the second heat insulating member 82, the flow guide surface formed on the upper surface thereof can guide the condensed water formed at the air outlet 102 to flow into the lower water receiving tray 6 through the flow guide surface. The condensed water is effectively guided by the inclined guide surface, so that the condensed water is reduced from flowing to the outside of the shell 1.

The flow guide surface is further provided with a plurality of flow guide grooves 822, and the flow guide grooves extend downwards along the direction from the air inlet 101 to the air outlet 102 in an inclined manner. The obliquely arranged diversion trenches can better collect the condensed water, and the condensed water can be quickly drained to the water pan 6 under the guiding action of the diversion trenches 822.

In some embodiments, for the second insulating member 82, an extension 823 is provided at the upper part thereof, and a free end of the extension extends to the upper part of the water pan 6, and a diversion surface is formed on the extension.

Specifically, the second heat insulating member 82 forms the extension portion 823 at the upper portion, so that the edge of the extension portion can extend above the water collector 6, and further, the condensed water guided to flow from the flow guide surface can reliably flow into the water collector 6.

In some embodiments, the first heat preservation member 81 disposed on the upper top plate 11 is further provided with a groove configured to accommodate the water conveying pipe of the water spraying module 3.

Specifically, the groove formed by the first heat preservation member 81 can accommodate the water delivery pipe of the water spraying module 3, so that the arrangement and the positioning of the water channel are convenient.

In one embodiment of the present application, the heat insulation assembly 8 includes a third heat insulation member 83, the third heat insulation member 83 is in a plate structure and is disposed at a side portion of the enclosing plate, and a surface structure of the third heat insulation member 83 matches an outer contour of a corresponding end portion of the humidification module 2.

In particular, for the shroud, it is provided with a third insulating member 83 to effect a side wall insulating treatment to reduce the formation of condensation in the side wall region of the casing 1.

Meanwhile, the surface of the third heat-insulating part 83 forms a surface structure matched with the outer contour of the corresponding end part of the humidifying module 2, so that after the humidifying module 2 is assembled in place, the end face of the humidifying module 2 can be attached to the third heat-insulating part 83 more tightly, the size of a gap between the end face of the humidifying module and the gap between the end face of the third heat-insulating part is reduced, airflow flows through the gap between the end face of the humidifying module and the gap between the end face of the third heat-insulating part and the gap between the end face of the humidifying module and the gap between the humidifying module and the air flow, and the humidifying efficiency is improved more favorably.

In the tenth embodiment, one end of the humidification module 2 is fixed to the side wall of the housing 1 by the end cap 24, and the other end is in a suspended state, depending on the installation manner of the humidification module 2. And in the in-service use in-process, on the one hand humidification module 2 receives the effect of air current, produces the vibration easily and appears the noise in casing 1 inside, and on the other hand humidification module 2 rocks easily in casing 1 and causes the damage in the transportation. In order to solve the above technical problem, the mounting structure of the humidification module 2 is designed to be improved as follows.

As shown in fig. 3-5, a limiting space is further provided on the enclosing plate, and the limiting space is arranged opposite to the mounting socket 103; the stopper space is configured to stopper an end portion of the humidification module 2 inserted through the mounting socket 103.

Specifically, after assembling humidification module 2 in place, humidification module 2's tip will be arranged in spacing space to carry out spacingly for the tip to humidification module 2 through spacing space, so that after humidification module 2 was assembled, both ends all obtained effectual restriction, in order to alleviate it and take place to rock.

Wherein the limiting space is configured to limit the humidifying module 2 from moving in the width and height directions of the housing 1. Specifically, the position of the humidifying module 2 in the width direction and the height direction is limited by the limiting space, so that the humidifying module 2 cannot shake up and down and back and forth.

For the limiting space, the limiting space may be embodied as a limiting groove formed on the enclosing plate, and the end of the humidifying module 2 is located in the limiting groove to form the limiting space.

Alternatively, in some embodiments, two limiting parts 19 are provided on the enclosing plate, a limiting space is formed between the two limiting parts 19, and the end of the sliding part 27 is matched with the corresponding supporting part 63 for limiting.

Specifically, after the humidification module 2 is inserted into the housing 1, the corresponding end of the slide member 27 will be located between the two stopper members 19 to be stopped by the stopper members 19.

The limiting component 19 has a first limiting portion 191 and a second limiting portion 192, the first limiting portion 191 is vertically arranged, the second limiting portion 192 is horizontally arranged, the first limiting portion 191 is located outside the sliding component 27, and the second limiting portion 192 is located above the sliding component 27. The two oppositely arranged first limiting parts 191 will limit the two sliding parts 27 from moving back and forth, and at the same time, the second limiting part 192 will limit the sliding parts 27 from shaking upwards.

In order to allow the slide member 27 to be accurately inserted into the half-surrounded structure formed by the first stopper portion 191 and the second stopper portion 192, a first stopper guide portion 193 bent outward is provided at a free end portion of the first stopper portion 191, and a second stopper guide portion 194 bent upward is provided at a free end portion of the second stopper portion 192.

In another embodiment, the third thermal insulation member 83 is provided with an avoiding hole (not labeled) matching with the limiting member 19, and the limiting member 19 passes through the avoiding hole.

Eleventh, because the different water spraying holes are different from the water inlet of the water spraying module 3, the water yield of the water spraying holes at different positions is different, and the humidification effect is poor. In order to solve the above technical problem, the following improvement design is performed for the water spraying module 3.

As shown in fig. 15-19, the water spraying module 3 includes a water inlet valve 32 and a water sprayer, the water sprayer 31 includes a lower water spraying plate 311, an upper cover plate 312 and a water inlet pipe 313, a plurality of water spraying holes 301 are provided along the length direction on the lower water spraying plate 311, the upper cover plate 312 is provided on the lower water spraying plate 311, a water inlet cavity is formed between the upper cover plate 312 and the lower water spraying plate 311, the water spraying holes 301 are communicated with the water inlet cavity, and the water inlet pipe 313 is also communicated with the water inlet cavity; wherein, the lower water spraying plate 311 is provided with an annular boss 314 configured corresponding to the water spraying hole 301, the annular boss 314 surrounds the periphery of the water spraying hole 301, and the water inlet pipe 313 is connected with the water inlet valve 32.

Specifically, the annular boss 314 is arranged on the lower water spraying plate 311 around each water spraying hole 301, so that after the water inlet pipe 313 injects water into the water inlet cavity, the water level in the water inlet cavity exceeds the annular boss 314, and the water flows into the area surrounded by the annular boss 314 and is output from the water spraying hole 301. Like this, alright different with the effectual reduction because of the water spray hole 301 causes the water yield of different positions to spray hole 301 different from the distance of inlet tube 313, through set up annular boss 314 around spraying the water hole on water spray plate 311 down to make water evenly distributed to the water spray hole 301 of each position department, improve the water spraying distribution homogeneity of water spray module 3, in order to optimize humidification effect and improve humidification efficiency.

Through set up annular boss respectively around each hole of drenching on the water spray board down, the water level in the cavity of intaking just can flow in the hole of drenching that corresponds and finally carries out the trickle treatment to the humidification module of below after being higher than annular boss, like this, alright in order to make the even distribution water yield in the hole of drenching of different positions department that distributes on the water spray board down, and then realize the even trickle of humidification module to the below, improve the trickle distribution homogeneity of trickle module, in order to optimize the humidification effect and improve humidification efficiency.

In some embodiments, the upper cover plate 312 is further provided with a buffer groove 315, the buffer groove 315 is disposed above the annular boss 314 at a corresponding position, and a space is formed between the buffer groove 315 and the annular boss 314.

Specifically, the buffer groove 315 forms a concave space to meet the requirement that the annular boss 314 protrudes upward, and the buffer groove 315 can also play a role in buffering water flow impact, so that water can be uniformly discharged from each of the water spraying holes 301.

In another embodiment, a water storage cavity with a U-shaped cross section is formed between the upper cover plate 312 and the lower shower plate 311.

Specifically, a strip-shaped groove (not marked) is formed in the water spraying plate, the water spraying holes 301 are arranged at the bottom of the strip-shaped groove, the upper cover plate 312 forms a downward convex structure (not marked), the downward convex structure is arranged in the strip-shaped groove, and a water storage cavity is formed between the downward convex structure and the strip-shaped groove. The water storage chamber of U type can reduce its water storage capacity, and then makes the hydroenergy that inlet tube 313 got into fill the water storage chamber of U type fast, and then realizes outwards passing through the hole 301 that drenches fast and go out water.

In order to assemble the water sprayer 31 conveniently, the lower water spraying plate 311 is provided with annular ribs 316 around the strip-shaped grooves, the upper cover plate 312 is provided with annular slots 317 around the lower convex structure, and the annular ribs 316 are inserted into the annular slots 317. The annular ribs 316 are inserted into the annular insertion grooves 317 to accomplish the assembly of the lower shower plate 311 and the upper cover plate 312, and the annular ribs 316 may be bonded in the annular insertion grooves 317 to improve sealability.

In addition, the water inlet pipe 313 and the lower water sprinkling plate 311 are of an integrated structure, so that the injection molding and the integral molding are convenient. In addition, for convenience of installation and fixation, the lower shower plate 311 is further provided with connection plates 318 at both ends thereof, and the connection plates 318 may be fixed to the upper top plate 11 of the housing 1 by screws.

Based on the above technical solution, optionally, as shown in fig. 26 to 28, the top surface of the wet film forms a corrugated surface 2222, the water spraying module further includes a throttle pipe 333, and the throttle pipe 333, the water inlet valve 32 and the water sprayer 31 are sequentially connected.

Specifically, in the use process, the water inlet valve 32 controls the on-off of water supply, when water is supplied, the inlet water flows through the throttle pipe 33 to control the total flow in the pipe within a certain range (for example, 300 +/-50 mL of domestic water pressure), and then the water flow is distributed to the wet membrane module 22 below through the water spraying holes 301 according to the requirement. And the water flows downward in the depression 223 through the first and second water inlet holes 224 and 225.

The water flowing down from the first water inlet 224 is uniformly distributed through the corrugated surface 2222, so that the humidifying wet membrane is uniformly soaked and washed, and the service life of the humidifying wet membrane is prevented from being shortened due to overlarge flushing water amount while better water supply uniformity is achieved. And since the first water inlet hole 224 is disposed at the center, the protrusions and grooves formed for the corrugated surface 2222 extend in the length direction of the wet film 222 to allow water to be uniformly distributed.

More importantly, because humidification equipment adopts the furred ceiling to hang the installation, in the installation, then the circumstances of front and back slope can appear, and the solution that can be better through configuration corrugated surface 2222 leads to rivers to distribute unevenly because of installation error, utilizes corrugated surface 2222 to lead to rivers for water can be along wet membrane 222's length direction evenly distributed.

In addition, the branched water is also stored in the water tank 21 for humidification, thereby achieving an effect of securing a water replenishing speed of the water tank 21 while limiting the amount of flush water supplied to the wet film 222.

The entity of the throttle pipe 33 can be a water pipe structure with throttle function in the conventional technology, which is not limited and described herein.

Through increasing the throttle pipe in the trickle module, utilize the throttle pipe to come to carry out the throttle processing to the discharge of input, thus, in the water supply process, alright sharp change because of water pressure fluctuation causes discharge in effectual reduction, and simultaneously, the reposition of redundant personnel of cooperation trickle hole and first inlet opening is handled, can be better supply with water evenly distributed, in addition, form the ripple face through the top surface with wet membrane, utilize the ripple face for guide rivers direction, and then can ensure evenly to soak, wash the wet membrane of humidification, avoid the life-span of the wet membrane of humidification because of the too big result of the flushing volume to subtract short when reaching better water supply homogeneity, realize the water supply flow of convenient control humidification equipment and improve the wet membrane homogeneity, in order to improve the humidification effect.

In order to meet the requirement of automatic control, a second controller (such as a singlechip and the like) is integrated in the electric control board. The specific control method is that when the humidifying device starts the humidifying function, the second controller is configured to trigger the water inlet valve 32 to open when the first water level detector 26 detects that the water level value is smaller than the first water level value, and the second controller is further configured to trigger the water inlet valve 32 to close when the first water level detector 26 detects that the water level value is larger than the second water level value.

Specifically, in the humidification apparatus performing the humidification mode, the on/off of the water supply is controlled according to the water level in the water tank 21. The first water level detector 26 sends a water level value signal to the second controller, and the water inlet valve 32 correspondingly controlled by the second controller opens or closes to cut off water supply, so that the wet film 222 can be well and uniformly wetted on one hand, and on the other hand, the excessive water in the water tank 21 is also avoided.

In another embodiment, in the using process, under the condition that the electrical components have faults, the situation that water cannot enter or water cannot be shut down further occurs.

To this end, the control method further includes: the second controller is further configured to alarm for water supply abnormality when the first water level detector 26 detects that the water level value is continuously less than the first water level value and the duration exceeds the first duration value.

Specifically, in the humidification mode, after the second controller controls the water inlet valve 32 to open the water supply, if the first water level detector 26 detects that the water level value is continuously smaller than the first water level value, it indicates that no water is supplied to the humidification module 2, and at this time, an abnormal water supply alarm is performed. The alarm mode can adopt conventional alarm modes such as sound, light, electricity and the like, and is not limited and described herein.

In another embodiment, the second controller is further configured to activate the drain pump when the first water level detector 26 detects that the water level value is continuously greater than the second water level value for a time period exceeding a second time period value.

Specifically, in the humidification mode, after the second controller controls the water inlet valve 32 to open the water supply, if the second water level value of the water tank 21 is exceeded, the water inlet valve 32 should be closed. When the water inlet valve 32 is in fault, the drainage pump is started to drain water under the condition that the water level in the water tank 21 continuously exceeds the second water level value and the duration time exceeds the second duration value. In this case, the water supply abnormality alarm can be started.

Further, the second controller is further configured to alarm the water supply abnormality after the first water level detector 26 detects that the water level value is continuously greater than the second water level value and the duration time exceeds the third duration value after the drain pump is activated.

Specifically, in the humidification mode, when the drainage of the drainage pump is started, if the second water level value and the duration time exceed a third time length value, it indicates that the drainage pump has a fault, and a water supply abnormality alarm needs to be given in time.

In another embodiment, after the humidifying device is turned off, since a certain amount of water still exists in the water tank 21, in order to prevent the wet film 222 from mildewing due to soaking in water for a long time, the water in the water tank 21 needs to be drained timely.

To this end, the control method further includes that the second controller is further configured to activate the electric heating part to dry the wet film after activating the drain pump to drain the water in the water tank into the water receiving tray and after the first water level detector detects that the water level value is continuously lower than the first water level value and the duration time exceeds a fourth time length value.

Specifically, after the humidifying device turns off the humidifying function, the second controller will start the draining pump to drain the water in the water tank 21 to the lower water receiving tray 6. The water level in the water tank 21 drops below the first water level value, and after the first water level detector detects that the water level value continues to be lower than the first water level value and the duration time exceeds the fourth time length value, indicating that the water in the water tank 21 is completely drained, the electric heating part 72 may be activated to dry the wet film 222.

Meanwhile, after the first water level detector detects that the water level value continues to be lower than the first water level value for a time period exceeding the fourth time period value, the second controller simultaneously turns off the drain pump 23.

In some embodiments, the first water level detector 26 includes a lower level switch 261 and an upper level switch 262, the lower level switch having a height lower than that of the upper level switch, the lower level switch and the upper level switch being electrically connected to the second controller, respectively.

Specifically, in order to accurately detect the water level in the water tank 21, two level switches arranged up and down are used to detect the water level. The lower level switch 261 is used to match a first water level value during testing and the upper level switch 262 is used to match a second water level value during testing.

In some embodiments, in order to facilitate uniform assembly, a support rod (not shown) is disposed in the water tank, and the lower liquid level switch and the upper liquid level switch are disposed on the support rod.

Specifically, in the assembling process, the lower liquid level switch and the upper liquid level switch are both mounted on a support rod, and then a floating ball is further arranged on the support rod and floats according to the liquid level in the water tank 21 to trigger the conduction action of the lower liquid level switch and the upper liquid level switch. When the lower floater of the water level in the water tank 21 descends to the position of the lower liquid level switch, the lower liquid level switch is triggered to be switched ON through the floater, the lower liquid level switch can start the ON working state, and the water supply waterway can start to supply water. When the water level in the water tank rises, the floating ball correspondingly rises to the position of the upper liquid level switch, the upper liquid level switch is triggered to be switched ON through the floating ball, the upper liquid level switch can start the ON working state, and the water supply waterway stops supplying water.

Through utilizing integrative high low level floater, realize the inside water demand of basin, when humidification system stopped the humidification, the drainage will be opened to the water pump in the aqua storage tank, with the inside surplus water volume of aqua storage tank arrange the water collector in.

In another embodiment, the water in the water tank 21 is kept clean during use to improve the humidifying effect. Then under the humidification mode, after equipment continuous operation sets for the duration, equipment will wash and trade water operation, specifically do: the controller is configured to trigger the drainage pump to drain all water in the water tank 21 after the device is continuously operated for a set operation time period, and automatically trigger the water inlet valve 32 to open for continuously performing water spraying cleaning on the water film 222 in the drainage process because the water level in the water tank 21 is lower than the first water level value. The controller turns off the drain pump and controls the water level in the water tank 21 between the first and second water level values by means of the first water level detector after performing the above-described operation process for a set maintenance time period, so that the water film 222 continues to humidify.

Through carrying out thorough effectual change to the water in the basin 21 to the cooperation is drenched the water module and is carried out the trickle and wash the wet film, and the quality of water in the basin 21 becomes bad and causes the humidification effect to reduce after solving the long-time continuous operation of equipment. After the above operation is performed, the water tank 21 can be replaced with new water, and the wet film 222 can be cleaned to obtain a good humidification effect.

In one embodiment, a second water level detector 61 is disposed in the water pan, the second water level detector is electrically connected to the second controller, and the second controller is configured to trigger the drain pump to stop working and alarm for water overflow when the second water level detector detects that the water level value is continuously greater than a third water level value and the duration time exceeds a fifth duration value.

Specifically, the second water level detector 61 is provided in the drip tray 6 to detect the level of water in the drip tray 6 by the second water level detector 61. In the case where the drain pipe smoothly drains, the water drained from the drain pump 23 into the drain pan 6 is automatically drained to the outside through the drain pipe 62.

When the drain pipe 62 is blocked to cause poor drainage, the water level in the drip tray 6 is gradually raised. When the second water level detector 61 detects that the water level is higher than the third water level value and the duration time exceeds the fifth duration value, it indicates that the drain pipe 62 of the water pan 6 is blocked to cause the water pan 6 to fail to drain or the upper level switch 262 in the water tank 21 fails to cause the water channel to supply water all the time and overflow from the water tank 21 occurs. At this time, the drainage pump 23 is triggered to stop working and an overflow alarm is carried out.

In one embodiment, the second water level detector 61 may be an overflow float installed in the drip tray 6. The working principle of the overflow floating ball is that when the drainage pump 23 in the water tank 21 drains water into the water receiving tray 6, the second controller stops the drainage of the drainage pump 23 in the water tank 21 after the overflow floating ball is triggered by the rising of the buoyancy of the water in the water receiving tray 6, so that the humidification system is protected to prevent overflow risks.

Through the combination of utilizing high-low level floater and overflow floater, can realize the system according to the required control that carries out the water yield water level of humidification volume, can realize again that drainage overflow risk is reported to the police, the practicality is strong, and the security is high.

In another embodiment, a wind pressure switch 46, a first temperature sensor 47, a second temperature sensor 40 and a humidity sensor 48 are disposed in the housing, the wind pressure switch, the first temperature sensor and the humidity sensor are disposed at the air inlet and electrically connected with the second controller, respectively, and the second temperature sensor is disposed at the air outlet and electrically connected with the second controller.

Specifically, after the humidifying device starts the humidifying function, the second controller detects relevant starting parameters according to the wind pressure switch 46, the first temperature sensor 47 and the humidity sensor 48 to determine whether the starting conditions are met, and then starts the water inlet valve 32 to open for humidifying operation.

Wherein the control method further comprises, in the case where the humidifying apparatus starts the humidifying function, the second controller is configured to start the electric heating part if conditions one, two, and three are satisfied; the first condition is that the wind pressure detected by the wind pressure switch is greater than a set wind pressure; the second condition is that the temperature value detected by the first temperature sensor is lower than a set temperature value; and the third condition is that the humidity value detected by the humidity sensor is lower than the set humidity value.

Specifically, the humidifier starts to humidify, and the system detects whether the air pressure switch meets a first set condition, so that when the air volume is low or no air volume exists, the electric heating part 72 is prevented from being dried, and the reliability of electric heating is ensured; when the condition is met, the first temperature sensor detects whether the temperature of the air inlet dry bulb meets a second set condition, and when the air inlet temperature is too high, the electric heating part 72 is prohibited to be started in order to protect the electric heating part 72 and surrounding plastic parts from being too high and influence the reliability of the product; when the second condition is met, the humidity sensor 48 detects whether the temperature of the inlet air wet bulb meets the third setting condition, when the temperature is higher than the third setting condition, the electric heating element 72 is turned on to increase the humidification amount, and when the air with high temperature and high humidity passes through the normal temperature air duct, condensation is possibly caused, so that the reliability of the product is affected, and the electric heating element 72 is prohibited to be turned on.

When the third condition is satisfied, the second controller is further configured to control the heating power of the electric heating part according to the temperature value detected by the second temperature sensor. The system detects the air-out temperature, and according to air-out temperature and the difference of air-in temperature, opens electric heating part 72 in grades, guarantees that the air-out temperature is in human comfortable temperature range. When the conditions are not met, the initial conditions are returned to for re-detection until the conditions are met.

In another embodiment, since a certain amount of water is stored in the water tank 21 during use, when the water tank is operated in a low-temperature environment, the temperature value detected by the first temperature sensor is detected to determine the outdoor environment temperature, and when the temperature value detected by the first temperature sensor is lower than the anti-freezing temperature value, the controller triggers the drain pump to start and close the water inlet valve to drain the water in the water tank 21, so as to prevent the water in the water tank 21 from being thawed to cause damage to the wet film, so that the device has strong anti-freezing capability and the use reliability is improved.

As shown in fig. 29, the present invention also provides an air processing system including the air supply device 100 and the humidifying device 200 in the above embodiment. The air inlet of the humidifying equipment is connected with the fresh air inlet of the air supply equipment, and the first controller in the air supply equipment is in communication connection with the second controller in the humidifying equipment in a dry contact communication mode.

Specifically, the air supply device 100 and the humidifying device 200, wherein fresh air output by the air supply device 100 enters the humidifying device 200, and input air is humidified by the humidifying device 200 according to needs. The humidifying equipment 200 can humidify the air blown out by the air supply equipment and improve the moisture content of the supplied air. The air supply equipment can be a fresh air ventilator, an air duct machine or an air duct with a fan and the like.

The air supply device 100 and the humidifying device 200 are connected by dry contact communication. The air supply device 100 is provided with a temperature and humidity sensor, and when the humidification state needs to be controlled, the first controller transmits a switch signal to the second controller of the humidification device 200 through the first dry contact point so as to control the humidification device 200 to be turned on or turned off. When the humidifying device 200 is turned on, the second controller transmits a switch signal to the first controller through the second dry contact, and can transmit the on state to the air supply device 100, and the first controller of the air supply device 100 displays the humidifying state. When the humidifying device 200 is in fault, an alarm signal can be transmitted to the air supply device 100, the air supply device 100 displays the fault of the humidifying device 200, and a user is reminded or a maintenance person is informed to carry out maintenance.

Wherein, the control signal adopts the first dry contact point to transmit the signal, and the status signal and the alarm signal can adopt the second dry contact point, therefore only adopt 2 dry contact point signals to realize the control and the alarm of humidification equipment 200. When the humidifying device 200 is in normal humidifying operation, the second dry contact outputs a high level signal, which indicates that the humidifying device 200 is in normal operation without failure. When the humidifying device 200 fails, the second dry contact outputs a low level, which indicates that the humidifying device 200 fails and needs to be repaired. When the connection between the humidifying equipment 200 and the air supply equipment 100 is abnormal or the humidifying equipment 200 is powered off, the air supply equipment 100 alarms because the second dry contact can not output signals and also processes according to low level, and a user or a maintainer can know that the humidifying equipment 200 is abnormal to carry out maintenance. Simple control communication has been realized through 2 dry contact signals, the wiring of easy to assemble maintenance.

In the humidification process, carry out the moisturizing through the inlet valve, send water to the wet film from the hydrophone, after the air passes through the wet film, become humid air by dry air, the water that is not taken away by the air continues to flow to basin 21 in, because the wet film soaks in the aquatic of basin 21, can continue the humidification through capillary action absorption moisture, the water that leaves from the wet film continues to utilize the using water wisely. After the humidification is completed, the water in the water tank 21 is discharged by the drain pump, and the humidification is stopped.

In the humidification process, the states of the upper liquid level switch and the lower liquid level switch are checked. When the lower liquid level switch detects OFF, the water level in the water tank 21 is low, and at the moment, a water inlet valve is opened for water supplement; and the water level rises along with continuous water inlet, when the upper liquid level switch detects ON, the water level is indicated to reach the upper liquid level position, the water inlet valve is closed at the moment, and water supplement is stopped, so that a water supplement process is completed.

When the water supply is abnormal, such as the water supply is stopped in the user's home, or the water pressure is too low to supply water, the judgment is made based on the state of the lower level switch of the humidifying device 200. After the water inlet valve is opened to supply water for more than 5min, the lower liquid level switch is still not conducted, so that no water supply or insufficient water supply is indicated, and after the water level state is determined, an alarm is sent out by a dry contact and displayed on air supply equipment.

When the water inlet valve is damaged, the water inlet valve is leaked, the humidifying equipment 200 is always in a water supply state, an alarm needs to be given at the moment, and a user is prompted to inform a maintainer of repairing. If the water tank 21 is always full of water and the upper level switch is always in a high level state, the water supply amount is larger than the humidification amount, water overflows from the water tank 21 to cause waste, and at this time, a dry contact point gives an alarm to be displayed on the air supply equipment 100.

Through the control connection of the dry contact point mode, the humidifying equipment 200 can be controlled by the first controller of the air supply equipment without independently operating the controller by a user, so that the humidifying equipment 200 is convenient for the user to use, and meanwhile, the split structure is convenient for upgrading and updating the humidifying equipment 200 in the follow-up process.

In addition, the air supply device 100 uses the dry contact communication to control the operation of the humidifying device 200 by the first dry contact of the operation signal, and the humidifying device 200 uses the dry contact communication to feed back the fault to the air supply device 100 by the second dry contact of the alarm signal to trigger the shutdown.

Meanwhile, because the humidifying device 200 cannot synchronously drain water after stopping operation, the stored water can continuously humidify the fresh air with small humidification quantity to compensate the humidity taken away by the air exhaust of the room, and because the humidifying device 200 does not operate, the energy consumption is also saved.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. However, any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention will still fall within the protection scope of the technical solution of the present invention.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention in any way, so that any person skilled in the art can make modifications or changes in the technical content disclosed above. However, any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention will still fall within the protection scope of the technical solution of the present invention.

Claims (10)

1. An air treatment system, comprising:

the air supply device comprises a shell, a fan and a first controller, wherein the fan and the first controller are arranged in the shell, and the fan is electrically connected with the first controller;

the humidifying device comprises a shell, a humidifying module, a water spraying module and a second controller, wherein the shell is provided with an air inlet and an air outlet, and the humidifying module comprises a water tank, a wet film assembly and a drainage pump which are arranged in the water tank; the water spraying module comprises a water inlet valve and a water sprayer which are connected together, a plurality of water spraying holes for discharging water downwards are configured on the water sprayer, and the water sprayer is arranged above the humidifying module; the drainage pump and the water inlet valve are respectively connected with the second controller;

wherein the first controller and the second controller are configured to be connected in signal communication by using a dry contact, and the first controller is further configured to receive an external control signal.

2. The humidification apparatus of claim 1, wherein a first dry contact and a second dry contact are disposed between the first controller and the second controller, the first dry contact is configured to receive a control signal on-off operation sent by the first controller, and the second dry contact is configured to receive a control signal on-off operation sent by the second controller.

3. The humidifying apparatus according to claim 1 or 2, wherein a first water level detector is further provided in the water tank;

when the humidifying device starts a humidifying function, the second controller is configured to trigger the water inlet valve to be opened when the first water level detector detects that the water level value is smaller than a first water level value, and the second controller is further configured to trigger the water inlet valve to be closed when the first water level detector detects that the water level value is larger than a second water level value.

4. The humidifying apparatus of claim 3, wherein the second controller is further configured to alarm for an abnormal water supply when the first water level detector detects that the water level value is continuously less than the first water level value and the duration time exceeds a first time length value;

and/or the second controller is further configured to activate the drain pump when the first water level detector detects a water level value continuously greater than a second water level value for a time duration exceeding a second duration value;

and/or the second controller is further configured to perform a water supply abnormity alarm after the first water level detector detects that the water level value is continuously greater than the second water level value and the duration time exceeds a third duration value after the drainage pump is started.

5. The humidification apparatus of claim 4, wherein the second controller is further configured to alarm for an abnormal water supply if the lower level switch detects that the water level value is continuously less than the first water level value and the duration time exceeds the first time length value;

and/or, the second controller is further configured to activate the drain pump when the upper level switch detects a water level value continuously greater than a second water level value for a duration exceeding a second duration value;

and/or the second controller is further configured to perform a water supply abnormity alarm when the upper liquid level switch detects that the water level value is continuously greater than the second water level value and the duration time exceeds a third time length value after the drainage pump is started.

6. The central humidification apparatus as claimed in claim 4 further comprising an electrical heating element disposed in the housing and disposed on the windward side of the wet film, the electrical heating element being electrically connected to the second controller;

the central humidifying device is used for switching off a humidifying function, the second controller is further configured to start the electric heating component to dry the wet film after the water level switch detects that the water level value is continuously lower than the first water level value and the duration time exceeds a fourth time length value.

7. The central humidification apparatus as claimed in claim 6 wherein a wind pressure switch, a first temperature sensor, a second temperature sensor and a humidity sensor are provided in the housing, the wind pressure switch, the first temperature sensor and the humidity sensor are arranged at the air inlet and electrically connected with the controller respectively, and the second temperature sensor is arranged at the air outlet and electrically connected with the second controller.

8. The central humidification apparatus of claim 7 wherein the humidification apparatus activates a humidification function and the second controller is configured to activate the electrical heating component if conditions one, two and three are met;

the first condition is that the wind pressure detected by the wind pressure switch is greater than a set wind pressure;

the second condition is that the temperature value detected by the first temperature sensor is lower than a set temperature value;

and the third condition is that the humidity value detected by the humidity sensor is lower than the set humidity value.

9. The central humidification apparatus of claim 7 wherein the second controller is further configured to control the heating power of the electric heating component in accordance with a temperature value detected by the second temperature sensor.

10. The central humidification apparatus as claimed in claim 3 wherein the second controller is configured to trigger the drain pump to stop and alarm water overflow when the second water level detector detects a water level value continuously greater than a third water level value and a duration exceeding a fifth duration value.

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