CN214276021U - Intelligence air humidifying dust pelletizing system - Google Patents

Abstract

The utility model discloses an intelligent air humidifying and dust removing system, which comprises a humidifying device, a control box and a humidity acquisition node; the humidifying device comprises a cuboid shell, an axial flow fan, a spraying humidifying mechanism and a water mist control mechanism; a main controller, a main wireless communication module and a motor driving circuit are arranged in the control box; the humidity acquisition node comprises a node shell, a humidity sensor and an elastic binding belt. The intelligent air humidifying and dedusting system can perform front-back side relative spraying humidification on the air flow flowing through the left cavity by using the spraying humidification mechanism, and provides enough air volume through the axial flow fan, so that the humidifying requirement of a large workshop can be met; the air output of the humidifying device can be adjusted according to the feedback value by utilizing the feedback control of the control box and the humidity acquisition node.

Description

Intelligence air humidifying dust pelletizing system

Technical Field

The utility model relates to a humidification device, especially an intelligence air humidifying dust pelletizing system.

Background

At present, in many workshops generating process, there is a large amount of dust, influences producers 'health, adopts humidification device can purify the dust, but current humidifying equipment all is miniature basically, and can't adjust and control the discharged water smoke volume, is difficult to satisfy the humidification and the humidity control needs in large-scale workshop. Therefore, an intelligent air humidification and dust removal system is needed to be designed, which can meet the humidification requirement of large-scale workshops and can adjust the water mist discharge amount according to the requirement.

Disclosure of Invention

Utility model purpose: the intelligent air humidifying and dedusting system can meet the humidifying and purifying requirements of large workshops and can adjust the water mist discharge amount according to the requirements.

The technical scheme is as follows: the utility model discloses an intelligent air humidification dust pelletizing system, which comprises a humidifying device, a control box and a humidity acquisition node; the humidifying device comprises a cuboid shell, an axial flow fan, a spraying humidifying mechanism and a water mist control mechanism; a main controller, a main wireless communication module and a motor driving circuit are arranged in the control box; a display screen, a humidity increasing button, a humidity decreasing button, a starting button and a stopping button are arranged on the side surface of the control box; the humidity acquisition node comprises a node shell, a humidity sensor and an elastic binding belt; a slave controller and a slave wireless communication module are arranged in the node shell;

the inner part of the cuboid shell is vertically provided with a partition plate which is used for dividing the inner part of the cuboid shell into a left cavity and a right cavity; the axial flow fan is fixedly arranged in the right cavity, and a right air inlet of the axial flow fan is communicated to the outside of the right end face of the cuboid shell through a right air inlet pipe; a driving motor of the axial flow fan is fixedly arranged at the top of the cuboid shell and drives the axial flow fan to rotate and work through a driving belt; a ventilation window is arranged on the partition plate, and a left air outlet of the axial flow fan is installed on the ventilation window in a butt joint mode through a conical fan cover; the bottom of the cuboid shell is provided with a supporting footing;

the spraying and humidifying mechanism comprises two branch spraying mechanisms which are fixedly arranged on the inner walls of the front side and the rear side of the left cavity respectively, and each branch spraying mechanism comprises a vertical communicating pipe, a water drop collecting tank, at least one transverse communicating pipe and a spraying head which is arranged on each transverse communicating pipe at intervals; a longitudinal communicating pipe is communicated between the vertical communicating pipes of the two branch spraying mechanisms, the front end part of the longitudinal communicating pipe penetrates through the front side wall of the cuboid shell, and a butt joint mounting flange is arranged on the penetrating end part; the transverse communicating pipe is transversely and fixedly arranged on the inner wall of the corresponding side of the left cavity; the water droplet collecting tank is fixedly arranged on the inner bottom of the left cavity and is used for collecting water droplets sprayed by each spray header; a drain pipe extending out of the cuboid shell is communicated with the bottom of the water drop collecting tank;

an air outlet window is arranged on the left end face of the cuboid shell, and an air outlet conical cover is arranged on the air outlet window; the water mist control mechanism is arranged at the outlet of the air outlet conical cover and is used for controlling the water mist amount in the air flow;

the control box is fixedly arranged on the cuboid shell; the main controller is electrically connected with the main wireless communication module, the motor driving circuit, the display screen, the humidity increasing key, the humidity decreasing key, the starting key and the stopping key respectively; the motor driving circuit is electrically connected with the driving motor; the humidity sensor is fixedly arranged at the top of the node shell, and the slave controller is electrically connected with the humidity sensor and the slave wireless communication module respectively; the elastic binding belt is provided with positioning holes at intervals, and two ends of the elastic binding belt penetrate through the positioning holes at corresponding positions through two positioning bolts and are respectively fixed on the left side surface and the right side surface of the node shell; the master wireless communication module wirelessly communicates with the slave wireless communication module.

Further, the water mist control mechanism comprises a U-shaped vent pipe and four water mist filtering units arranged on the U-shaped vent pipe; the water mist filtering unit comprises a rectangular mounting plate, a steel mesh inserting plate, a sealing plate and a sealing pressure spring; the pipe orifices at two ends of the U-shaped vent pipe are arranged upwards, and the pipe orifice at one end is communicated with the air outlet of the air outlet conical cover through a connecting air pipe; the rectangular mounting plates of the four water mist filtering units are respectively installed on two upward pipelines of the U-shaped breather pipe in a cutting mode in pairs, and the middle of the rectangular mounting plates is provided with ventilating round holes convenient for ventilating the U-shaped breather pipe; a water drain pipe is communicated and arranged on the pipe wall below the bent part of the U-shaped vent pipe; a rectangular jack is arranged on the side face of the edge of the rectangular mounting plate and extends to the ventilation round hole; the steel mesh inserting plate is inserted into the rectangular inserting hole, a water mist filtering window is arranged on the steel mesh inserting plate and at a position corresponding to the ventilation round hole, and a filtering steel mesh is fixedly arranged on the water mist filtering window; a sealing jack is arranged on the plate surface of the rectangular mounting plate and close to the insertion port of the rectangular jack, and the sealing jack is vertically communicated with the rectangular jack; the sealing plate is inserted in the sealing insertion hole and used for sealing the rectangular insertion hole after the steel mesh insertion plate is pulled away; an Jiong-shaped bracket consisting of a cross bar and two short upright posts is arranged on the side surface of the rectangular mounting plate; the sealing compression spring is elastically supported between the outer side edge of the sealing plate and the cross rod.

Furthermore, an inclined stay bar is arranged between the U-shaped vent pipe and the air outlet conical cover.

Furthermore, a supporting short column is arranged in the water drop collecting tank, and a water drop filter screen is horizontally arranged on the supporting short column and is paved in the water drop collecting tank; an access window is arranged on the front side surface of the cuboid-shaped shell, an access door is hinged to the access window, and the locking side edge of the access door is fixedly arranged on the cuboid-shaped shell through a fixing bolt.

Furthermore, an air filter plate is installed on the right air inlet pipe in a cutting mode; an air inlet window facilitating air inlet of the air inlet pipe on the right side is arranged in the middle of the air filter plate; the side edge of the air filter plate is provided with a filter plate jack which extends to the air inlet window, and an air filter screen plate is inserted into the filter plate jack and is used for filtering the air flow at the air inlet window.

Furthermore, a sealing shield is arranged at the position where the driving belt penetrates through the cuboid shell, and the driving belt wheel on the output shaft of the driving motor and the external driving belt are both positioned in the sealing shield.

Furthermore, the left side and the right side of the bottom of the node shell are respectively provided with an installation side lug, and the installation side lugs are provided with shell fixing holes; two ends of the elastic binding belt respectively penetrate through the two mounting side ears.

Compared with the prior art, the utility model, its beneficial effect is: the spraying and humidifying mechanism can be used for carrying out front-back side relative spraying and humidifying on the air flow flowing through the left cavity, and an axial flow fan is used for providing enough air quantity, so that the humidifying requirement of a large workshop can be met; the water mist control mechanism can be used for filtering the water mist of the humidified airflow discharged by the air outlet conical cover, so that the discharged water mist amount is controlled, and the effective control on the humidification degree is realized; the water drops can be collected by the aid of the water drop collecting tank and the water drainage pipe, recycling is facilitated, and waste of water resources is avoided; the main wireless communication module is in wireless communication with the slave wireless communication module, so that the actually measured humidity value is fed back to the main controller, and the main controller controls the rotating speed of the driving motor according to the relation between the actually measured humidity value and the set humidity value, so that the intelligent and stable control of the humidity is realized; the elastic binding belt and the two positioning bolts are matched for installation, so that the node shell can be conveniently bound and fixed.

Drawings

Fig. 1 is a schematic structural view of a humidifying device of the present invention;

FIG. 2 is a schematic view of a humidity collection node structure of the present invention;

fig. 3 is a schematic diagram of a system circuit structure of the present invention;

fig. 4 is a schematic view of a partial sectional structure of the humidifying device of the present invention;

fig. 5 is a schematic structural view of the water mist filtering unit of the present invention.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings, but the scope of the present invention is not limited to the embodiments.

Example 1:

as shown in fig. 1-5, the utility model discloses an intelligence air humidifying dust pelletizing system includes: a humidifying device, a control box 34 and a humidity acquisition node; the humidifying device comprises a cuboid shell 1, an axial flow fan 32, a spraying humidifying mechanism and a water mist control mechanism; a main controller, a main wireless communication module and a motor driving circuit are arranged in the control box 34; a display screen 35, a humidity increasing button 36, a humidity decreasing button 37, a starting button 38 and a stopping button 39 are arranged on the side surface of the control box 34; the humidity acquisition node comprises a node shell 40, a humidity sensor 45 and an elastic binding belt 43; a slave controller and a slave wireless communication module are provided in the node case 40;

a partition plate 30 is vertically installed inside the cuboid housing 1 and is used for dividing the inside of the cuboid housing 1 into a left cavity and a right cavity; the axial flow fan 32 is fixedly arranged in the right side cavity, and a right side air inlet of the axial flow fan 32 is communicated to the outside of the right side end surface of the cuboid shell 1 through the right side air inlet pipe 19; the driving motor 17 of the axial flow fan 32 is fixedly arranged at the top of the cuboid shell 1, and drives the axial flow fan 32 to rotate and work through a driving belt 33; a ventilation window is arranged on the partition plate 30, and a left air outlet of the axial flow fan 32 is installed on the ventilation window in a butt joint mode through a conical fan cover 31; a supporting foot 2 is arranged at the bottom of the cuboid shell 1;

the spraying and humidifying mechanism comprises two branch spraying mechanisms which are fixedly arranged on the inner walls of the front side and the rear side of the left cavity respectively, and each branch spraying mechanism comprises a vertical communicating pipe 23, a water drop collecting tank 27, at least one transverse communicating pipe 25 and a spraying head 26 which is arranged on each transverse communicating pipe 25 at intervals; a longitudinal communication pipe 24 is communicated between the vertical communication pipes 23 of the two branch spraying mechanisms, the front end part of the longitudinal communication pipe 24 penetrates through the front side wall of the cuboid shell 1, and a butt joint mounting flange 16 is arranged on the penetrating end part; the transverse communicating pipe 25 is transversely and fixedly arranged on the inner wall of the corresponding side of the left cavity; a water drop collecting tank 27 is fixedly arranged on the inner bottom of the left cavity and is used for collecting water drops sprayed by each spray header 26; the bottom of the water drop collecting tank 27 is communicated with a drain pipe 5 extending out of the cuboid shell 1;

an air outlet window is arranged on the left end face of the cuboid shell 1, and an air outlet conical cover 6 is arranged on the air outlet window; the water mist control mechanism is arranged at the outlet of the air outlet conical cover 6 and is used for controlling the water mist amount in the air flow;

the control box 34 is fixedly arranged on the cuboid shell 1; the main controller is electrically connected with the main wireless communication module, the motor driving circuit, the display screen 35, the humidity increasing button 36, the humidity decreasing button 37, the starting button 38 and the stopping button 39 respectively; the motor driving circuit is electrically connected with the driving motor 17; the humidity sensor 45 is fixedly arranged at the top of the node shell 40, and the slave controller is electrically connected with the humidity sensor 45 and the slave wireless communication module respectively; the elastic binding band 43 is provided with positioning holes at intervals, and two ends of the elastic binding band 43 penetrate through the positioning holes at corresponding positions through two positioning bolts 44 and are respectively fixed on the left side surface and the right side surface of the node shell 40; the master wireless communication module wirelessly communicates with the slave wireless communication module.

The front side and the rear side of the airflow flowing through the left cavity can be relatively sprayed and humidified by the spraying and humidifying mechanism, and sufficient air volume is provided by the axial flow fan 32, so that the humidifying and purifying requirements of large-scale workshops can be met; the water mist control mechanism can be used for filtering the water mist of the humidified airflow discharged by the air outlet conical cover 6, so that the discharged water mist amount is controlled, and the effective control on the humidification degree is realized; the water drops can be collected by the aid of the water drop collecting tank 27 and the drain pipe 5, recycling is facilitated, and waste of water resources is avoided; the main wireless communication module is in wireless communication with the slave wireless communication module, so that the actually measured humidity value is fed back to the main controller, and the main controller controls the rotating speed of the driving motor 17 according to the relation between the actually measured humidity value and the set humidity value, thereby realizing intelligent and stable control of the humidity; the joint housing 40 can be conveniently bound and fixed by means of the matched installation of the elastic binding band 43 and the two positioning bolts 44.

Further, the water mist control mechanism comprises a U-shaped vent pipe 8 and four water mist filtering units arranged on the U-shaped vent pipe 8; the water mist filtering unit comprises a rectangular mounting plate 10, a steel mesh inserting plate 11, a sealing plate 14 and a sealing pressure spring 15; the pipe orifices at the two ends of the U-shaped vent pipe 8 are all arranged upwards, and the pipe orifice at one end is communicated with the air outlet of the air outlet conical cover 6 through a connecting air pipe; the rectangular mounting plates 10 of the four water mist filtering units are respectively installed on two upward pipelines of the U-shaped breather pipe 8 in a cutting way in pairs, and the middle part of the rectangular mounting plate 10 is provided with a ventilating round hole which is convenient for ventilating the U-shaped breather pipe 8; a water drain pipe 9 is communicated with the pipe wall below the bent part of the U-shaped vent pipe 8; a rectangular jack 22 is arranged on the side face of the edge of the rectangular mounting plate 10, and the rectangular jack 22 extends to the ventilation circular hole; the steel mesh inserting plate 11 is inserted into the rectangular inserting hole 22, a water mist filtering window is arranged on the steel mesh inserting plate 11 and at a position corresponding to the ventilation circular hole, and a filtering steel mesh is fixedly arranged on the water mist filtering window; a sealing jack is arranged on the plate surface of the rectangular mounting plate 10 and close to the insertion port of the rectangular jack 22, and the sealing jack is vertically communicated with the rectangular jack 22; the sealing plate 14 is inserted into the sealing insertion hole and used for sealing the rectangular insertion hole 22 after the steel mesh insertion plate 11 is pulled away; an Jiong-shaped bracket consisting of a cross bar 12 and two short upright posts 13 is arranged on the side surface of the rectangular mounting plate 10; a sealing compression spring 15 is resiliently supported between the outer side edge of the sealing plate 14 and the cross bar 12. Four water mist filtering units are arranged on the U-shaped vent pipe 8, so that the air flow passing through is subjected to water mist filtering, and water drops formed by water mist filtering downwards flow to the bent part of the U-shaped vent pipe 8 and are discharged from the water drain pipe 9 for recycling; the filtering times of the water mist are adjusted by pulling out or inserting the steel mesh inserting plate 11, so that the discharged water mist amount is adjusted according to the requirement; the rectangular insertion hole 22 can be closed in time by pulling out the steel mesh insert plate 11, and the reverse/positive air flow can be leaked in the middle by the sealing structure formed by the sealing plate 14, the Jiong-shaped bracket and the sealing pressure spring 15.

Furthermore, an inclined stay bar 7 is arranged between the U-shaped vent pipe 8 and the air outlet conical cover 6. The installation structural strength of the U-shaped vent pipe 8 can be effectively enhanced by utilizing the inclined stay bars 7.

Further, a support short column 28 is arranged in the water drop collecting tank 27, and a water drop filter screen 29 is horizontally arranged on the support short column 28 and laid in the water drop collecting tank 27; an access window is arranged on the front side surface of the cuboid shell 1, an access door 3 is hinged to the access window, and the locking side edge of the access door 3 is fixedly arranged on the cuboid shell 1 through a fixing bolt 4. The water drop filter screen 29 can be used for filtering impurities in the water drops, so that the spray header 26 is prevented from being blocked during recycling; the water drop filter screen 29 can be conveniently cleaned during maintenance by using the access door 3.

Further, an air filter plate 20 is installed on the right air inlet pipe 19 in a cutting mode; an air inlet window convenient for the air inlet of the right air inlet pipe 19 is arranged in the middle of the air filter plate 20; the side edge of the air filter plate 20 is provided with filter plate insertion holes extending to the air inlet window, and the air filter plate 21 is inserted into the filter plate insertion holes and used for filtering the air flow at the air inlet window. The incoming airflow can be filtered by means of the arrangement of air filter panels 20 and air filter screen panels 21.

Further, a sealed housing 18 is provided at a position where the drive belt 33 penetrates the rectangular parallelepiped case 1, and the drive pulley on the output shaft of the drive motor 17 and the external drive belt 33 are both located inside the sealed housing 18. The sealing shield 18 is utilized to provide both sealing and safety.

Further, the left side and the right side of the bottom of the node shell 40 are respectively provided with an installation side lug 41, and the installation side lugs 41 are provided with shell fixing holes 42; both ends of the elastic ligature band 43 penetrate through the two mounting side ears 41 respectively. Utilize two installation side ears 41 can be convenient for carry on spacingly to the both ends of elasticity ligature area 43, can also carry out fixed installation through casing fixed orifices 42 when elasticity ligature area 43 can't use simultaneously.

In the intelligent air humidifying and dedusting system disclosed by the utility model, the master controller and the slave controller both adopt the existing single chip microcomputer controller module, such as the STM32 single chip microcomputer module, for realizing coordination control; the display screen 35 is an existing display screen and is used for displaying a real-time humidity value; the master wireless communication module and the slave wireless communication module both adopt the existing wireless communication module, such as a Zigbee module or a Bluetooth module; the humidity sensor 45 may be an existing humidity sensor.

When the intelligent air humidifying and dedusting system is used, the set value of the humidity is adjusted by the humidity increasing button 36 and the humidity decreasing button 37, and the set value of the humidity is displayed by the display screen 35; after the start button 38 is pressed, the main controller controls the driving motor 17 to work through the motor driving circuit; after the stop button 39 is pressed, the driving motor 17 is controlled to stop working through the motor driving circuit; the temperature sensor 45 acquires humidity at the acquisition point in real time, the acquired actual measurement humidity value is sent to the main controller from the slave controller through the slave wireless communication module and the master wireless communication module, and the main controller controls the display screen 35 to display the actual measurement humidity value and controls the rotating speed of the driving motor 17 in a feedback mode according to the size relation between the set value and the actual measurement humidity value.

As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. The utility model provides an intelligence air humidifying dust pelletizing system which characterized in that: comprises a humidifying device, a control box (34) and a humidity acquisition node; the humidifying device comprises a cuboid shell (1), an axial flow fan (32), a spraying humidifying mechanism and a water mist control mechanism; a main controller, a main wireless communication module and a motor driving circuit are arranged in the control box (34); a display screen (35), a humidity increasing button (36), a humidity decreasing button (37), a starting button (38) and a stopping button (39) are arranged on the side surface of the control box (34); the humidity acquisition node comprises a node shell (40), a humidity sensor (45) and an elastic binding belt (43); a slave controller and a slave wireless communication module are arranged in the node shell (40);

a partition plate (30) is vertically arranged in the cuboid shell (1) and is used for dividing the cuboid shell (1) into a left cavity and a right cavity; the axial flow fan (32) is fixedly arranged in the right side cavity, and a right side air inlet of the axial flow fan (32) is communicated to the outside of the right side end surface of the cuboid shell (1) through a right side air inlet pipe (19); a driving motor (17) of the axial flow fan (32) is fixedly arranged at the top of the cuboid shell (1) and drives the axial flow fan (32) to rotate and work through a driving belt (33); a ventilation window is arranged on the partition plate (30), and a left air outlet of the axial flow fan (32) is installed on the ventilation window in a butt joint mode through a conical fan cover (31); a supporting foot (2) is arranged at the bottom of the cuboid shell (1);

the spraying and humidifying mechanism comprises two branch spraying mechanisms which are fixedly arranged on the inner walls of the front side and the rear side of the left cavity respectively, and each branch spraying mechanism comprises a vertical communicating pipe (23), a water drop collecting tank (27), at least one transverse communicating pipe (25) and spraying heads (26) which are arranged on the transverse communicating pipes (25) at intervals; a longitudinal communication pipe (24) is communicated between the vertical communication pipes (23) of the two branch spraying mechanisms, the front end part of the longitudinal communication pipe (24) penetrates through the front side wall of the cuboid shell (1), and a butt joint mounting flange (16) is arranged on the penetrating end part; the transverse communicating pipe (25) is transversely and fixedly arranged on the inner wall of the corresponding side of the left cavity; the water drop collecting tank (27) is fixedly arranged on the inner bottom of the left cavity and is used for collecting water drops sprayed by each spray head (26); a drain pipe (5) extending out of the cuboid shell (1) is communicated with the bottom of the water drop collecting tank (27);

an air outlet window is arranged on the left end face of the cuboid shell (1), and an air outlet conical cover (6) is arranged on the air outlet window; the water mist control mechanism is arranged at an outlet of the air outlet conical cover (6) and is used for controlling the water mist amount in the air flow;

the control box (34) is fixedly arranged on the cuboid shell (1); the main controller is electrically connected with the main wireless communication module, the motor driving circuit, the display screen (35), the humidity increasing key (36), the humidity decreasing key (37), the starting key (38) and the stopping key (39) respectively; the motor driving circuit is electrically connected with the driving motor (17); the humidity sensor (45) is fixedly arranged at the top of the node shell (40), and the slave controller is electrically connected with the humidity sensor (45) and the slave wireless communication module respectively; the elastic binding belt (43) is provided with positioning holes at intervals, and two ends of the elastic binding belt (43) penetrate through the positioning holes at corresponding positions through two positioning bolts (44) and are respectively fixed on the left side surface and the right side surface of the node shell (40); the master wireless communication module wirelessly communicates with the slave wireless communication module.

2. The intelligent air humidification dust removal system of claim 1, wherein: the water mist control mechanism comprises a U-shaped vent pipe (8) and four water mist filtering units arranged on the U-shaped vent pipe (8); the water mist filtering unit comprises a rectangular mounting plate (10), a steel mesh inserting plate (11), a sealing plate (14) and a sealing pressure spring (15); the pipe orifices at two ends of the U-shaped vent pipe (8) are arranged upwards, and the pipe orifice at one end is communicated with the air outlet of the air outlet conical cover (6) through a connecting air pipe; the rectangular mounting plates (10) of the four water mist filtering units are respectively installed on two upward pipelines of the U-shaped vent pipe (8) in a cutting way in pairs, and the middle part of the rectangular mounting plate (10) is provided with a vent round hole convenient for the vent of the U-shaped vent pipe (8); a drain pipe (9) is communicated with the pipe wall below the bent part of the U-shaped vent pipe (8); a rectangular jack (22) is arranged on the side face of the edge of the rectangular mounting plate (10), and the rectangular jack (22) extends to the ventilation round hole; the steel mesh inserting plate (11) is inserted into the rectangular inserting hole (22), a water mist filtering window is arranged on the steel mesh inserting plate (11) and at a position corresponding to the ventilation circular hole, and a filtering steel mesh is fixedly arranged on the water mist filtering window; a sealing jack is arranged on the plate surface of the rectangular mounting plate (10) and close to the insertion port of the rectangular jack (22), and the sealing jack is vertically communicated with the rectangular jack (22); the sealing plate (14) is inserted in the sealing insertion hole and used for sealing the rectangular insertion hole (22) after the steel mesh insertion plate (11) is pulled away; an Jiong-shaped bracket consisting of a cross bar (12) and two short upright posts (13) is arranged on the side surface of the rectangular mounting plate (10); the sealing pressure spring (15) is elastically supported between the outer side edge of the sealing plate (14) and the cross rod (12).

3. The intelligent air humidification dust removal system of claim 2, wherein: an inclined stay bar (7) is arranged between the U-shaped vent pipe (8) and the air outlet conical cover (6).

4. The intelligent air humidification dust removal system of claim 1, wherein: a support short column (28) is arranged in the water drop collecting tank (27), and a water drop filter screen (29) is horizontally arranged on the support short column (28) and is paved in the water drop collecting tank (27); an access window is arranged on the front side surface of the cuboid shell (1), an access door (3) is hinged to the access window, and the locking side edge of the access door (3) is fixedly arranged on the cuboid shell (1) through a fixing bolt (4).

5. The intelligent air humidification dust removal system of claim 1, wherein: an air filter plate (20) is installed on the right air inlet pipe (19) in a cutting mode; an air inlet window convenient for the air inlet of the right air inlet pipe (19) is arranged in the middle of the air filter plate (20); the side edge of the air filter plate (20) is provided with a filter plate jack extending to the air inlet window, and an air filter screen plate (21) is inserted into the filter plate jack and is used for filtering air flow at the air inlet window.

6. The intelligent air humidification dust removal system of claim 1, wherein: a sealing shield (18) is arranged at the position where the driving belt (33) penetrates through the cuboid shell (1), and a driving belt wheel on an output shaft of the driving motor (17) and the external driving belt (33) are both positioned in the sealing shield (18).

7. The intelligent air humidification dust removal system of claim 1, wherein: the left side and the right side of the bottom of the node shell (40) are respectively provided with an installation side lug (41), and the installation side lugs (41) are provided with shell fixing holes (42); two ends of the elastic bandage (43) respectively penetrate through the two mounting side ears (41).

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