阅读说明：本技术 一种基于物联网的智能加湿装置 (Intelligent humidifying device based on Internet of things ) 是由 游华清 于 2020-06-24 设计创作，主要内容包括：一种基于物联网的智能加湿装置,包括外壳、空气压缩机、抽液装置、过滤筒和输气管；外壳上设有湿度传感器,外壳内部分为处理仓、储水仓和安装仓；处理仓内的第一安装罩和第二安装罩分别通过输气管连接空气压缩机的进气端以及通过连接管连接过滤筒的出气端口；过滤筒内设有第一分流板和第二分流板；第一分流板和第二分流板将过滤筒内部依次分为用于与空气压缩机出气端连通的进风仓、用于与抽液装置出液端连通的进水仓以及用于和第二安装罩内部连通的出雾仓；安装仓内设有用于控制连接抽液装置和空气压缩机以及通信连接压力传感器的物联网控制组件。本发明操作简单使用方便能有效的对现场环境进行加湿。(An intelligent humidifying device based on the Internet of things comprises a shell, an air compressor, a liquid pumping device, a filter cylinder and a gas conveying pipe; the shell is provided with a humidity sensor, and the interior of the shell is divided into a processing bin, a water storage bin and an installation bin; the first mounting cover and the second mounting cover in the treatment bin are respectively connected with the air inlet end of the air compressor through air conveying pipes and connected with the air outlet port of the filter cartridge through connecting pipes; a first splitter plate and a second splitter plate are arranged in the filter cylinder; the first flow dividing plate and the second flow dividing plate divide the interior of the filter cartridge into an air inlet bin communicated with the air outlet end of the air compressor, a water inlet bin communicated with the liquid outlet end of the liquid pumping device and a mist outlet bin communicated with the interior of the second mounting cover in sequence; and an internet of things control assembly used for controlling and connecting the liquid pumping device, the air compressor and the communication connection pressure sensor is arranged in the mounting bin. The invention has simple operation and convenient use and can effectively humidify the field environment.)

1. An intelligent humidifying device based on the Internet of things is characterized by comprising a shell (1), a water adding pipe (12), a first mounting cover (14), an air compressor (16), a liquid pumping device (17), a filter cartridge (18), a gas conveying pipe (19) and a second mounting cover (20);

a humidity sensor and a water filling hole (27) are arranged on the shell (1), and a first partition plate (2) and a second partition plate (3) are arranged in the shell (1); the second partition plate (3) and the first partition plate (2) are distributed side by side and used for sequentially dividing the interior of the shell into a treatment bin (13), a water storage bin (11) and a mounting bin (4) from top to bottom; wherein, the water adding hole (27) is connected with a pipe orifice at one end of the water adding pipe; the other end pipe orifice of the water adding pipe (12) extends into the water storage bin (11);

the first mounting cover (14) is connected with the inner wall of the processing bin (13), and a first hollow bin is enclosed between the first mounting cover (14) and the inner wall of the processing bin (13); a plurality of groups of air inlets (15) are uniformly formed in the shell (1) of the first hollow bin, and the first hollow bin is connected with an air inlet end of an air compressor (16) through an air conveying pipe (19); a filter cylinder (18) for filtering and purifying air is arranged on the air pipe (19);

the second mounting cover (20) is connected with the inner wall of the treatment bin; a second hollow bin is defined by the second mounting cover (20) and the inner wall of the processing bin (13); a plurality of groups of exhaust holes (21) are uniformly arranged on the shell of the second hollow bin;

a first flow dividing plate (241) and a second flow dividing plate (242) are arranged in the filter cylinder (18); the first flow dividing plate (241) and the second flow dividing plate (242) are distributed side by side so as to divide the interior of the filter cylinder (18) into an air inlet bin (243) communicated with an air outlet end of the air compressor (16), a water inlet bin (244) communicated with a liquid outlet end of the liquid pumping device (17) and a mist outlet bin (246) communicated with the interior of the second mounting cover (20) in sequence, and the first flow dividing plate (241) and the second flow dividing plate (242) are respectively and uniformly provided with a plurality of groups of flow dividing holes; wherein, a water pipe arranged at the liquid inlet end of the liquid pumping device (17) extends into the water storage bin (11); the fog outlet bin is connected with the second hollow bin through a connecting pipe;

an internet of things control assembly used for controlling and connecting the liquid pumping device (17) and the air compressor (16) and being in communication connection with the pressure sensor is arranged in the installation bin (4).

2. The intelligent humidifying device based on the Internet of things is characterized in that the projections of the first mounting cover (14) and the second mounting cover (20) are both annular.

3. The intelligent humidifying device based on the Internet of things as claimed in claim 1, further comprising a water injection barrel (22); wherein, the water adding hole (27) is positioned on the upper end surface of the shell (1);

the shell (1) is connected to water injection section of thick bamboo (22), and water filling hole (27) are connected to the one end of water injection section of thick bamboo (22), and the inside and the water filling hole (27) of water injection section of thick bamboo (22) communicate, and the other end of water injection section of thick bamboo (22) is equipped with sealed lid.

4. The intelligent humidification device based on the internet of things of claim 1, wherein the filter cartridge (18) comprises a cylinder body, a multi-layer filter screen (182) and activated carbon particles (184);

one end of the cylinder is connected with an air inlet port of an air compressor (16) through an air conveying pipe (19), and the other end of the cylinder is provided with an end cover (181); the end cover (181) is provided with an end hole which is communicated with the first mounting cover (14) through a gas transmission pipe (19);

a filter element (183) is arranged in the cylinder body; the filter element (183) is provided with a plurality of groups of through holes (185) along the gas flowing direction; an adsorption bin for filling activated carbon particles (184) is formed between one end, far away from the end cover (181), of the filter element (183) and the inner wall of the barrel, and a filtering bin for mounting a plurality of layers of filtering nets (182) is formed between one end, facing the end cover (181), of the filter element (183) and the inner wall of the barrel; the end surface of the multi-layer filter screen (182) compresses the inner end surface of the end cover (181).

5. The intelligent humidifying device based on the Internet of things according to claim 4, wherein filter screens are arranged between the filter element (183) and the activated carbon particles (184) and between the activated carbon particles (184) and the bottom surface of the cylinder body.

6. The intelligent humidification device based on the internet of things of claim 1, comprising a rotating shaft (245); the rotating shaft (245) is positioned in the water inlet bin (244), the central axis of the rotating shaft (245) is superposed with the central axis of the atomizing cylinder (24), two ends of the rotating shaft (245) are respectively and rotatably connected with the first splitter plate (241) and the second splitter plate (242), and a plurality of groups of fan blades are arranged on the rotating shaft (245).

7. The intelligent humidifying device based on the Internet of things of claim 6, wherein the apertures of the multi-component flow holes of the first flow dividing plate (241) are smaller than the apertures of the multi-component flow holes of the second flow dividing plate (242).

8. The intelligent humidification device based on the internet of things of claim 1, wherein the aperture of each group of branch flow holes is gradually reduced along the flow direction of fluid in each group of branch flow holes.

9. The intelligent humidifying device based on the Internet of things of claim 1, wherein the Internet of things control assembly comprises a circuit board (6), a data processing module (7), a central controller (8), a power supply module (9), a conversion module, a data receiving module and an Internet of things wireless module for communication connection with a monitoring terminal; the wireless module of the Internet of things is in communication connection with the central controller (8);

the data processing module (7), the central controller (8), the conversion module and the data receiving module are all arranged on the circuit board (6); the circuit board (6) is connected with the inner wall of the mounting bin (4);

the central controller (8) is respectively connected with the liquid pumping device (17) and the air compressor (16) in a control way; the central controller (8), the data processing module (7), the conversion module and the data receiving module are sequentially in communication connection; the data receiving module is in communication connection with the humidity sensor;

the power supply module (9) is respectively and electrically connected with the data processing module (7), the central controller (8), the conversion module, the data receiving module, the Internet of things wireless module, the humidity sensor, the liquid pumping device (17) and the air compressor (16).

10. The intelligent humidifying device based on the internet of things as claimed in claim 9, further comprising a plurality of sets of heat conducting plates (5) and a plurality of sets of heat dissipation columns (10); wherein, the installation bin (4) is provided with a plurality of groups of heat dissipation holes on the shell (1);

a plurality of groups of heat conducting plates (5) are uniformly arranged on the inner wall of the installation bin (4); the heat dissipation columns (10) are respectively arranged in the heat dissipation holes, and the heat dissipation columns (10) are respectively connected with the heat conduction plates (5).

Technical Field

The invention relates to the technical field of Internet of things, in particular to an intelligent humidifying device based on the Internet of things.

Background

The internet of things is that any object or process needing monitoring, connection and interaction is collected in real time through various devices and technologies such as various information sensors, radio frequency identification technologies, global positioning systems, infrared sensors and the like, various required information such as sound, light, heat, electricity, mechanics, chemistry, biology, position and the like is collected, and the ubiquitous connection of objects and people is realized through various possible network accesses, so that the intelligent sensing, identification and management of the objects and the process are realized; in a storage environment with a requirement on humidity, the environment humidity is often monitored at any time and a humidifier is used for humidifying the environment as required, but the existing humidifying function is often manually controlled, and after an operator monitors that the humidity in the environment is lower than a humidity required value through a humidity meter, the humidifier arranged in the environment is opened for humidifying, so that the operation is complicated and the labor intensity of the operator is greatly increased; therefore, an intelligent humidifying device based on the Internet of things is provided in the application.

Disclosure of Invention

Objects of the invention

In order to solve the technical problems in the background art, the invention provides the intelligent humidifying device based on the Internet of things.

(II) technical scheme

In order to solve the problems, the invention provides an intelligent humidifying device based on the internet of things, which comprises a shell, a water adding pipe, a first mounting cover, an air compressor, a liquid pumping device, a filter cartridge, a gas pipe and a second mounting cover, wherein the water adding pipe is arranged on the shell;

the shell is provided with a humidity sensor and a water filling hole, and a first partition plate and a second partition plate are arranged in the shell; the second partition plate and the first partition plate are distributed side by side and used for sequentially dividing the interior of the shell into a treatment bin, a water storage bin and an installation bin from top to bottom; wherein, the water filling hole is connected with a pipe orifice at one end of the water filling pipe; the pipe orifice at the other end of the water adding pipe extends into the water storage bin;

the first mounting cover is connected with the inner wall of the treatment bin, and a first hollow bin is defined between the first mounting cover and the inner wall of the treatment bin; the first hollow bin is uniformly provided with a plurality of groups of air inlets on the shell and is connected with the air inlet end of the air compressor through an air delivery pipe; the gas transmission pipe is provided with a filter cartridge for filtering and purifying air;

the second mounting cover is connected with the inner wall of the treatment bin; a second hollow bin is defined by the second mounting cover and the inner wall of the processing bin; a plurality of groups of exhaust holes are uniformly formed in the shell of the second hollow bin;

a first splitter plate and a second splitter plate are arranged in the filter cylinder; the first flow dividing plate and the second flow dividing plate are distributed side by side so as to divide the interior of the filter cylinder into an air inlet bin communicated with the air outlet end of the air compressor, a water inlet bin communicated with the liquid outlet end of the liquid extracting device and a mist outlet bin communicated with the interior of the second mounting cover in sequence, and the first flow dividing plate and the second flow dividing plate are respectively and uniformly provided with a plurality of groups of flow dividing holes; wherein, a water pipe arranged at the liquid inlet end of the liquid pumping device extends into the water storage bin; the fog outlet bin is connected with the second hollow bin through a connecting pipe;

and an internet of things control assembly used for controlling and connecting the liquid pumping device, the air compressor and the communication connection pressure sensor is arranged in the mounting bin.

Preferably, the projections of the first mounting cover and the second mounting cover are both annular.

Preferably, the device also comprises a water injection barrel; wherein, the water filling hole is positioned on the upper end surface of the shell;

the shell is connected to the water injection section of thick bamboo, and the hole that adds is connected to the one end of water injection section of thick bamboo, the inside and the hole intercommunication that adds of water injection section of thick bamboo, the other end of water injection section of thick bamboo are equipped with sealed lid.

Preferably, the filter cartridge comprises a cylinder body, a plurality of layers of filter screens and activated carbon particles;

one end of the cylinder is connected with an air inlet port of the air compressor through an air conveying pipe, and the other end of the cylinder is provided with an end cover; the end cover is provided with an end hole which is used for being communicated with the first mounting cover through a gas pipe;

a filter element is arranged in the cylinder body; the filter element is provided with a plurality of groups of through holes along the gas flowing direction; an adsorption bin for filling activated carbon particles is formed between one end of the filter element, which is far away from the end cover, and the inner wall of the barrel, and a filtering bin for mounting a plurality of layers of filtering nets is formed between one end of the filter element, which faces the end cover, and the inner wall of the barrel; the end face of the multi-layer filter screen compresses the inner end face of the end cover.

Preferably, filter screens are arranged between the filter element and the activated carbon particles and between the activated carbon particles and the bottom surface of the cylinder body.

Preferably, comprises a rotating shaft; the pivot is located the storehouse of intaking, and the axis of pivot and the coincidence of the axis of an atomizing section of thick bamboo, the both ends of pivot rotate respectively and connect first splitter plate and second splitter plate, are equipped with the multiunit flabellum in the pivot.

Preferably, the apertures of the multi-component flow holes on the first flow distribution plate are smaller than the apertures of the multi-component flow holes on the second flow distribution plate.

Preferably, the bore diameter of each set of branch flow holes decreases gradually in the direction of fluid flow therein.

Preferably, the internet of things control assembly comprises a circuit board, a data processing module, a central controller, a power module, a conversion module, a data receiving module and an internet of things wireless module for communication connection with the monitoring terminal; the wireless module of the Internet of things is in communication connection with the central controller;

the data processing module, the central controller, the conversion module and the data receiving module are all arranged on the circuit board; the circuit board is connected with the inner wall of the mounting bin;

the central controller is respectively connected with the liquid pumping device and the air compressor in a controlling way; the central controller, the data processing module, the conversion module and the data receiving module are sequentially in communication connection; the data receiving module is in communication connection with the humidity sensor;

the power module is respectively and electrically connected with the data processing module, the central controller, the conversion module, the data receiving module, the Internet of things wireless module, the humidity sensor, the liquid pumping device and the air compressor.

Preferably, the heat-conducting plate also comprises a plurality of groups of heat-conducting plates and a plurality of groups of heat-radiating columns; wherein, the mounting bin is provided with a plurality of groups of heat dissipation holes on the shell;

a plurality of groups of heat conducting plates are uniformly arranged on the inner wall of the mounting bin; the multiple groups of heat dissipation columns are respectively installed in the multiple groups of heat dissipation holes, and the multiple groups of heat dissipation columns are respectively connected with the multiple groups of heat conduction plates.

The technical scheme of the invention has the following beneficial technical effects:

when the humidity sensor is used, the humidity of the external environment is monitored through the arranged humidity sensor, and when the humidity is lower than a set value, the humidity signal monitored by the humidity sensor is sent to the Internet of things control assembly by the humidity sensor; the Internet of things control assembly controls the liquid pumping device and the air compressor to operate; the liquid pumping device operates to convey water in the water storage bin to the water inlet bin in the atomizing cylinder; the air compressor operates to suck outside air into the first mounting cover from the plurality of groups of air inlets, the outside air is compressed by the air compressor after being filtered and purified by the filter cartridge, and the compressed air is conveyed into the air inlet bin in the atomizing cartridge; the compressed air is divided by the second flow dividing plate to form a small airflow which enters the water inlet bin to be contacted with water; the compressed air mixed with water passes through the first flow distribution plate to be distributed and atomized to form water mist, the water mist enters the second mounting cover and is discharged from the groups of exhaust holes to humidify the external environment, the spraying and humidifying range is large, the requirement for environment humidification is completely met, the operation is simple, the use is convenient, and the air can be purified; in addition, this device can also effectually dispel the heat with the high temperature that the operation of thing networked control subassembly produced in the installation storehouse, improves thing networked control subassembly's performance greatly.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent humidification device based on the internet of things.

Fig. 2 is a front view of an intelligent humidification device based on the internet of things.

Fig. 3 is a schematic view of an installation structure of a first installation cover in the intelligent humidification device based on the internet of things.

Fig. 4 is a schematic view of an installation structure of a second installation cover in the intelligent humidification device based on the internet of things.

Fig. 5 is a schematic structural diagram of a filter cartridge in an intelligent humidification device based on the internet of things according to the present invention.

Fig. 6 is a schematic structural diagram of an atomizing cylinder in the intelligent humidifying device based on the internet of things.

Reference numerals: 1. a housing; 2. a first separator; 3. a second separator; 4. installing a bin; 5. a heat conducting plate; 6. a circuit board; 7. a data processing module; 8. a central controller; 9. a power supply module; 10. a heat-dissipating column; 11. a water storage bin; 12. a water feeding pipe; 13. a processing bin; 14. a first mounting cover; 15. an air inlet; 16. an air compressor; 17. a liquid pumping device; 18. a filter cartridge; 181. an end cap; 182. a plurality of layers of filter screens; 183. a filter element; 184. activated carbon particles; 185. a through hole; 19. a gas delivery pipe; 20. a second mounting cover; 21. an exhaust hole; 22. a water injection barrel; 24. an atomizing cylinder; 241. a first splitter plate; 242. a second splitter plate; 243. an air inlet bin; 244. a water inlet bin; 245. a rotating shaft; 246. a fog outlet bin; 25. a display screen; 26. an observation window; 27. and (4) a water filling hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-6, the intelligent humidification device based on the internet of things provided by the invention comprises a housing 1, a water adding pipe 12, a first mounting cover 14, an air compressor 16, a liquid pumping device 17, a filter cylinder 18, an air conveying pipe 19 and a second mounting cover 20;

the shell 1 is provided with a humidity sensor and a water feeding hole 27, and the shell 1 is internally provided with a first clapboard 2 and a second clapboard 3; the second partition plate 3 and the first partition plate 2 are distributed side by side and used for sequentially dividing the interior of the shell 1 into a treatment bin 13, a water storage bin 11 and an installation bin 4 from top to bottom; wherein, the water feeding hole 27 is connected with a pipe orifice at one end of the water feeding pipe 12; the other end of the water adding pipe 12 extends into the water storage bin 11;

the water storage bin 11 is provided with an observation window 26 for observing the water quantity in the water storage bin 11 on the shell 1;

the first mounting cover 14 is connected with the inner wall of the processing bin 13, and a first hollow bin is defined between the first mounting cover 14 and the inner wall of the processing bin 13; a plurality of groups of air inlets 15 are uniformly arranged on the shell 1 of the first hollow bin, and the first hollow bin is connected with an air inlet end of an air compressor 16 through an air conveying pipe 19; the air pipe 19 is provided with a filter cylinder 18 for filtering and purifying air; wherein, the plurality of groups of air inlet holes 15 are all positioned on the peripheral surface of the shell 1; a dustproof filter screen is arranged in each group of air inlet holes 15; the dustproof filter screen in the air inlet hole 15 filters large particle impurities in the air entering the air inlet hole 15;

further, the projection of the first mounting cover 14 is annular, so that air can be exhausted at three hundred and sixty degrees;

the second mounting cover 20 is connected with the inner wall of the processing bin 13; a second hollow bin is defined between the second mounting cover 20 and the inner wall of the processing bin 13; a plurality of groups of exhaust holes 21 are uniformly arranged on the shell 1 of the second hollow bin; wherein, the plurality of groups of exhaust holes 21 are all positioned on the upper end surface of the shell 1; each group of exhaust holes 21 is internally provided with a dustproof filter screen; the dustproof filter screen in the exhaust hole 21 prevents external impurities from entering the exhaust hole 21 to block the exhaust hole 21;

further, the projection of the second mounting cover 20 is annular, so that air carrying water mist can be sprayed at three hundred sixty degrees to humidify the air in the external environment;

a first splitter plate 241 and a second splitter plate 242 are arranged in the filter cylinder 18; the first flow dividing plate 241 and the second flow dividing plate 242 are distributed side by side to divide the interior of the filter cartridge 18 into an air inlet chamber 243 communicated with the air outlet end of the air compressor 16, an air inlet chamber 244 communicated with the liquid outlet end of the liquid extracting device 17 and an air outlet chamber 246 communicated with the interior of the second mounting cover 20 in sequence; wherein, the air inlet chamber 243 communicated with the air outlet end of the air compressor 16 is connected through a group of air pipes 19; the water inlet bins 244 communicated with the liquid outlet end of the liquid pumping device 17 are connected through a water pipe; the fog outlet bin 246 is connected with the second hollow bin through a connecting pipe;

further, the liquid pumping device 17 and the air compressor 16 are both arranged in the impurity treatment bin 13; a noise reduction layer is arranged on the inner wall of the treatment bin 13 to avoid noise pollution caused by the operation of the liquid pumping device 17 and the air compressor 16;

the first splitter plate 241 and the second splitter plate 242 are respectively and uniformly provided with a plurality of groups of splitter holes; wherein, the liquid inlet end of the liquid pumping device 17 is provided with a water pipe which extends into the water storage bin 11; the water pipe extends into the position below the liquid level in the water storage bin 11;

an internet of things control assembly for controlling and connecting the liquid pumping device 17 and the air compressor 16 and communicating and connecting the pressure sensor is arranged in the installation bin 4;

further, a walking assembly which is in control connection with the internet of things control assembly is arranged on the bottom surface of the shell 1; through the walking of thing networked control subassembly intelligent control walking subassembly along certain orbit to the improvement is to environment humidification efficiency, the walking subassembly is for current drive the rotatory device in order to remove shell 1 of walking wheel through the motor to this does not explain in detail.

When the humidity sensor is used, the humidity of the external environment is monitored through the arranged humidity sensor, and when the humidity is lower than a set value, the humidity signal monitored by the humidity sensor is sent to the Internet of things control assembly by the humidity sensor; the Internet of things control assembly controls the liquid pumping device 17 and the air compressor 16 to operate; the liquid pumping device 17 operates to convey water in the water storage bin 11 to the water inlet bin 244 in the atomizing cylinder 24; the air compressor 16 operates to draw outside air into the first mounting cover 14 through the plurality of groups of air inlet holes 15, the outside air is compressed by the air compressor 16 after being filtered and purified by the filter cartridge 18, and the compressed air is conveyed into the air inlet bin 243 in the atomizing cylinder 24; the compressed air is divided by the second flow dividing plate 242 to form a small airflow, and the small airflow enters the water inlet bin 244 to be contacted with water; the compressed air mixed with water passes through the first flow distribution plate 241 to be distributed and atomized to form water mist, and the water mist enters the second mounting cover 20 and is discharged from the plurality of groups of exhaust holes 21 to humidify the external environment; the atomizing is carried out after ventilating through the compression and mixing of water, improves the atomization effect to liquid water greatly, and then improves the humidification efficiency to the environment, above-mentioned process easy operation, this device convenient to use, in addition, can also carry out purifying effect to inspiratory air, help people's health.

In an alternative embodiment, a water injection cartridge 22 is also included; wherein, the water adding hole 27 is positioned on the upper end surface of the shell 1;

the shell 1 is connected to water injection section of thick bamboo 22, and the hole 27 that adds is connected to the one end of water injection section of thick bamboo 22, and the inside and the hole 27 intercommunication that adds of water injection section of thick bamboo 22, the other end of water injection section of thick bamboo 22 are equipped with sealed lid.

In an alternative embodiment, the filter cartridge 18 includes a cylinder, a multi-layer filter screen 182, and activated carbon granules 184;

one end of the cylinder is connected with an air inlet port of the air compressor 16 through an air pipe 19, and the other end of the cylinder is provided with an end cover 181; the end cover 181 is provided with an end hole which is used for communicating the first mounting cover 14 through a gas pipe 19;

a filter element 183 is arranged in the cylinder body; the filter element 183 is provided with a plurality of groups of through holes 185 along the gas flow direction; an adsorption bin for filling activated carbon particles 184 is formed between one end of the filter element 183, which is far away from the end cover 181, and the inner wall of the cylinder, and a filtering bin for mounting a plurality of layers of filtering nets 182 is formed between one end of the filter element 183, which faces the end cover 181, and the inner wall of the cylinder; the end surface of the multi-layer filter screen 182 compresses the inner end surface of the end cover 181; the pore diameter of the multi-layer filter 182 along the airflow direction gradually decreases;

the outside air is firstly subjected to primary dust removal and filtration through the multi-layer filter screen 182 and then subjected to secondary dust removal and filtration through the filter element 183; the air after dust removal and the activated carbon particles 184 act to perform adsorption purification, and the purified air enters the air compressor 16.

In an alternative embodiment, a filter screen is disposed between the filter element 183 and the activated carbon granules 184 and between the activated carbon granules 184 and the bottom surface of the cylinder.

In an alternative embodiment, a shaft 245 is included; the rotating shaft 245 is positioned in the water inlet bin 244, the central axis of the rotating shaft 245 is overlapped with the central axis of the atomizing cylinder 24, two ends of the rotating shaft 245 are respectively and rotatably connected with the first splitter plate 241 and the second splitter plate 242, and a plurality of groups of fan blades are arranged on the rotating shaft 245;

the flabellum is rotatory under rivers and compressed air's effect to break up the liquid that gets into in the storehouse 244, and further mix compressed air and water, in order to improve the atomizing effect of water.

In an alternative embodiment, the apertures of the multi-component flow holes of first flow plate 241 are smaller than the apertures of the multi-component flow holes of second flow plate 242.

In an alternative embodiment, the bore diameter of each set of branch orifices decreases progressively in the direction of fluid flow therein.

In an optional embodiment, the internet of things control assembly comprises a circuit board 6, a data processing module 7, a central controller 8, a power supply module 9, a conversion module, a data receiving module and an internet of things wireless module for communication connection with the monitoring terminal; the wireless module of the internet of things is in communication connection with the central controller 8; the monitoring terminal comprises a smart phone, a computer or a tablet;

further, the internet of things wireless module block comprises a 2G network module, a 3G network module, a 4G network module and a 5G network module;

the data processing module 7, the central controller 8, the conversion module and the data receiving module are all arranged on the circuit board 6; the circuit board 6 is connected with the inner wall of the mounting bin 4;

the central controller 8 is respectively connected with the liquid pumping device 17 and the air compressor 16 in a control way; the central controller 8, the data processing module 7, the conversion module and the data receiving module are sequentially in communication connection; the data receiving module is in communication connection with the humidity sensor;

the power supply module 9 is respectively and electrically connected with the data processing module 7, the central controller 8, the conversion module, the data receiving module, the internet of things wireless module, the humidity sensor, the liquid pumping device 17 and the air compressor 16;

further, the device also comprises a display screen 25 and a key module; the key module is mounted on the display screen 25; the display screen 25 and the key module are both in communication connection with the central controller 8;

the data receiving module receives humidity information monitored by the humidity sensor, the humidity information is processed by the conversion module and the data processing module 7 in sequence, and when the central controller 8 receives that the humidity value of the external environment is lower than a set value, the central controller 8 controls the liquid pumping device 17 and the air compressor 16 to operate so as to humidify the external environment; the central controller 8 can be intelligently issued control instructions through the monitoring terminal;

in addition, it should be noted that, the central controller 8 is connected with the network through the wireless module of the internet of things to acquire weather information according to the fact, and the humidification degree of the field environment is adjusted according to the weather information, so that the intelligent control system is more intelligent.

In an optional embodiment, the heat-conducting plate further comprises a plurality of groups of heat-conducting plates 5 and a plurality of groups of heat-radiating columns 10; wherein, the mounting bin 4 is provided with a plurality of groups of heat dissipation holes on the shell 1;

a plurality of groups of heat conducting plates 5 are uniformly arranged on the inner wall of the mounting bin 4, wherein heat conducting silica gel layers are arranged on the circuit board 6 connected with the heat conducting plates 5 and the power supply module 9;

the multiple groups of heat-radiating columns 10 are respectively arranged in the multiple groups of heat-radiating holes, and the multiple groups of heat-radiating columns 10 are respectively connected with the multiple groups of heat-conducting plates 5; the high temperature generated by the operation of the circuit board 6 and the power supply module 9 is transmitted to the heat conducting plate 5; the heat energy on the heat conducting plate 5 is transferred to a plurality of groups of radiating columns 10; the multiple sets of heat dissipation columns 10 are in contact with the external environment to dissipate heat energy thereon to the external environment, thereby dissipating heat from the electrical equipment components in the installation bin 4.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.