CN115751546A

CN115751546A - Multi-mode intelligent humidifier

Info

Publication number: CN115751546A
Application number: CN202211446740.9A
Authority: CN
Inventors: 王开磊; 张子豪; 顾博闻; 卢宇飞; 华剑
Original assignee: Wuhan University of Technology WUT
Current assignee: Wuhan University of Technology WUT
Priority date: 2022-11-18
Filing date: 2022-11-18
Publication date: 2023-03-07
Anticipated expiration: 2042-11-18
Also published as: CN115751546B

Abstract

The invention discloses a multi-mode intelligent humidifier, which comprises a main air supply pipeline, a fan, a driving switch valve and a humidifier runner module, wherein the fan is arranged at the inlet end of the main air supply pipeline; the humidifier flow channel module comprises a plurality of humidifying pipelines, the inlet end of each humidifying pipeline is in butt joint with the inlet of each flow channel, the conversion pipelines connected with the humidifying pipelines are arranged in different angles and directions, and the conversion pipelines are divided into a plurality of groups and are different in diameter. Make the mode of this humidifier diversified, can produce the smoke ring in a plurality of different position in turn and carry out the humidification, also can produce the different position smoke ring in single fender position and carry out the humidification, also can only produce any one in a plurality of smoke ring spouts and carry out the single mode humidification, or produce different combination humidification modes.

Description

Multi-mode intelligent humidifier

Technical Field

The invention particularly relates to a multi-mode intelligent humidifier.

Background

The existing humidifier has a single working mode, the humidifying mode is mainly the injection of common air flow, and part of the humidifier adopts a smoke ring mode to humidify, but the working mode is only to change different frequencies and humidify in a single smoke ring mode, and the working mode is relatively boring.

Disclosure of Invention

The invention aims to solve the technical problem that the multi-mode intelligent humidifier is provided aiming at the defects in the prior art, so that the working mode of the humidifier is diversified, a plurality of smoke rings in different directions can be alternately generated for humidification, a single smoke ring in different directions can be generated for humidification, any one of a plurality of smoke ring nozzles can be generated for single-mode humidification, or a combined humidification mode with different gears can be generated.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a multi-mode intelligent humidifier comprises a main air supply pipeline, an axial flow fan, a driving switch valve and a humidifier runner module, wherein the axial flow fan is arranged at the inlet end of the main air supply pipeline;

the humidifier flow channel module comprises a plurality of humidification pipelines, the inlet ends of the humidification pipelines are in butt joint with the inlet ends of the flow channels respectively, the outlet end of each humidification pipeline is sequentially connected with a conversion pipeline and a reduction nozzle, the conversion pipelines connected with the humidification pipelines are arranged in different angles and directions, and the conversion pipelines are divided into a plurality of groups and are different in diameter.

According to the technical scheme, the driving switch valve comprises a base, a stepping motor and a pendulum bob assembly, wherein an annular sliding groove is formed in the base, a pendulum bob mounting groove is formed in the center of the annular sliding groove, and a plurality of runner inlets are uniformly distributed in the base along the circumferential direction of the pendulum bob mounting groove;

a plurality of runner switch component moving grooves are distributed on the base along the circumferential direction of the annular sliding groove, the runner switch component moving grooves are distributed along the radial direction of the annular sliding groove and are arranged in one-to-one correspondence with the runner inlets, the inner ends of the runner switch component moving grooves are connected with the corresponding runner inlets, the outer ends of the runner switch component moving grooves are connected with the annular sliding groove, and a runner switch component is arranged in each runner switch component moving groove;

the inner of pendulum assembly sets up in the pendulum mounting groove to with step motor's output shaft, the outer end of pendulum assembly sets up on annular spout, and step motor drives the pendulum assembly and rotates along annular spout, rotates the in-process at the pendulum assembly, and drive runner switch module opens or close corresponding runner entry.

According to the technical scheme, the pendulum assembly comprises a pendulum and a pendulum magnet, the inner end of the pendulum is connected with an output shaft of the stepping motor, the pendulum magnet is arranged at the outer end of the pendulum, and the runner switch assembly is provided with a magnet block; when the pendulum bob rotates to the position above the corresponding runner switch component moving groove, the suction force between the pendulum bob magnet and the magnet block enables the runner switch component to open the corresponding runner inlet.

According to the technical scheme, the flow channel switch assembly comprises a valve and a magnet mounting seat which are sequentially arranged in a flow channel switch assembly moving groove, a flow channel extrusion spring is connected between the valve and the magnet mounting seat, a magnet block is arranged on the magnet mounting seat, a spring mounting rod is connected on the magnet mounting seat, and a driving lug and a flow channel valve guide rail reset spring are sequentially arranged on the spring mounting rod;

a plurality of runner valve guide rail reset spring mounting grooves are formed in the side face of the annular chute, the runner valve guide rail reset spring mounting grooves are arranged in one-to-one correspondence with the spring mounting bars of the magnet mounting seats, and the spring mounting bars are sleeved in the runner valve guide rail reset spring mounting grooves; when the pendulum bob rotates to the corresponding runner switch component motion groove, the magnet of the pendulum bob pulls the magnet block on the magnet mounting seat through magnetic force, so that the magnet mounting seat moves towards the direction far away from the runner inlet along the runner switch component motion groove, then the valve also moves towards the direction far away from the runner inlet along with the magnet mounting seat, and the corresponding runner inlet is opened.

According to the technical scheme, the pendulum includes pendulum pivot, connecting rod and pendulum magnet frame, and pendulum pivot and pendulum magnet frame set firmly respectively in the both ends of connecting rod, still are equipped with the trompil on the connecting rod, and the trompil is arranged on runner entry distribution track, and when the pendulum rotated to corresponding runner switch module motion groove top, trompil and corresponding runner entry coincidence, step motor's output shaft and pendulum pivot are connected, and pendulum magnet sets up in pendulum magnet frame.

According to the technical scheme, the front end face of the pendulum bob magnet frame is connected with the connecting rod, and pendulum bob extrusion cambered surfaces are arranged on the left end face and the right end face of the pendulum bob magnet frame; when the pendulum rotates to corresponding runner switch subassembly motion groove top, the drive lug slides in the rear end face of pendulum after earlier with pendulum extrusion cambered surface contact, make the magnet mount pad move to keeping away from runner entry direction, alleviate the runner extrusion spring pressure that the valve received, thereby make runner extrusion spring and valve keep away from the runner entry together, corresponding runner entry is opened, when the pendulum changes from corresponding runner switch subassembly motion groove, the drive lug breaks away from the contact with pendulum magnet frame, magnet mount pad and valve return under runner valve guide rail reset spring and runner extrusion spring's effect.

According to the technical scheme, a pendulum magnet telescopic groove is formed in the pendulum magnet frame, the pendulum magnet is arranged in the pendulum magnet telescopic groove, and a pendulum driving lug acting groove is formed in the rear end face of the pendulum magnet frame along the arc direction of the annular sliding groove;

a pendulum bob reset spring is arranged between the pendulum bob magnet and the pendulum bob magnet telescopic groove, and under the action of the pendulum bob reset spring, the pendulum bob magnet moves towards the direction far away from the flow channel inlet along the pendulum bob magnet telescopic track, so that the outer end of the pendulum bob magnet extends out of the pendulum bob magnet frame from the pendulum bob drive lug action groove;

all correspond a pendulum drive lug on the extension line in every runner switch subassembly motion groove, pendulum drive lug sets up in the side of annular spout, when the pendulum rotates to corresponding runner switch subassembly motion groove, pendulum drive lug penetrates pendulum drive lug effect groove, overcome pendulum reset spring's spring force and impress in the pendulum magnet frame pendulum magnet's upper end, make pendulum magnet move to the runner entry, it is more nearly to make the distance between pendulum magnet and the magnet piece, produce stronger suction, when the pendulum continues to rotate and leave corresponding runner switch subassembly motion groove, pendulum drive lug leaves pendulum drive lug effect groove, the upper end of pendulum magnet is worn out outside pendulum magnet frame from pendulum drive lug effect groove again under pendulum reset spring effect.

According to the technical scheme, be equipped with pendulum magnet track that stretches out and draws back in the pendulum magnet frame, pendulum magnet track that stretches out and draws back arranges in one side in pendulum drive lug effect groove, pendulum magnet arranges on pendulum magnet track that stretches out and draws back, the bottom of pendulum magnet is equipped with pendulum magnet slide rail, pendulum magnet track that stretches out and draws back sets up in pendulum magnet slide rail, pendulum magnet follows pendulum magnet track that stretches out and draws back the round trip movement, make pendulum magnet stretch out or retract to pendulum magnet frame from pendulum drive lug effect groove.

According to the technical scheme, the pendulum bob driving lugs are divided into lugs with different gears, the radians of the lugs with different gears are different, under the condition that the stepping motor rotates at a constant speed, the contact time of the pendulum bob and the lugs with the gears is different, so that the time for the lugs with different gears to extrude the pendulum bob magnets in the pendulum bob magnet frame is different,

the heights of the driving lugs on the runner switch components are different corresponding to the lugs at different gears, the rear end face of the pendulum bob magnet frame is correspondingly provided with a driving lug extrusion table board with a plurality of layers of step surfaces, the length of the cambered surface of the driving lug extrusion table board of each step layer is sequentially reduced, and the driving lugs at different heights are correspondingly contacted with the driving lug extrusion table boards at different layers, so that the time for the pendulum bob magnet frame to extrude the driving lugs on the runner switch components is controlled;

the time for the driving lugs with different heights to extrude the pendulum magnet is different, the contact time for the driving lugs with different heights to extrude the table top is different, and the time for the gear lugs corresponding to the motion groove of the same flow channel switch assembly to extrude the pendulum magnet is the same as the time for the driving lugs corresponding to the motion groove of the same flow channel switch assembly to extrude the table top;

the longer the time that the gear lug extrudes the pendulum magnet and the longer the drive lug of the pendulum magnet frame extrudes the table top to extrude the drive lug, the longer the opening time of the corresponding runner inlet, and the more the airflow entering the conversion pipeline.

According to the technical scheme, the multi-mode intelligent humidifier further comprises a control module, the control module is respectively connected with the axial flow fan and the stepping motor through a driving circuit, the control module is connected with a wireless transmission module, and the control module is connected with a user side through the wireless transmission module; the control module is also connected with a remote controller.

The invention has the following beneficial effects:

1. through the mode of long-range intelligent regulation, can be so that the mode of this humidifier is diversified, can produce the smoke ring in a plurality of different position in turn and carry out the humidification, also can produce single different position smoke ring and carry out the humidification, also can only produce any one in a plurality of smoke ring spouts and carry out the single mode humidification, or produce the combination humidification mode that different fender position kept off the position.

2. More uniform airflow transmission, quick opening and closing of the flow channel: current formula of cutting off cigarette circle produces device, its working method mainly opens and shuts to the runner entry for utilizing the cut-off plate, and the intermittent type opens and shuts and leads to the cut-off plate velocity of motion unable very fast, and then the runner entry is opened gradually, and closes gradually for the air current in the runner is not even column air current, causes certain influence to the production effect of cigarette circle. The device adopts magnetic drive, only when the pendulum bob magnet is just opposite to the opening and closing track, the valve can be opened at a high speed, and when the pendulum bob magnet leaves, the flow channel is closed at a high speed, so that the intercepted air flow in the flow channel is more uniform, crisp and rapid.

Drawings

Fig. 1 is a schematic structural diagram of a multi-mode intelligent humidifier in an embodiment of the present invention;

FIG. 2 is a schematic view showing the structure of a pendulum according to an embodiment of the present invention;

FIG. 3 is a schematic view of the structure of a pendulum magnet according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a flow channel switch assembly according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a base in an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a humidification gas conduit in an embodiment of the invention;

FIG. 7 is a schematic diagram of a control system in an embodiment of the present invention;

in the figure, 1-main air supply pipeline, 2-axial flow fan, 3-pendulum assembly, 4-pendulum reset spring, 5-humidifier flow channel module, 6-conversion pipeline, 7-reduction nozzle, 8-stepping motor, 9-base, 10-flow channel switch assembly, 11-flow channel valve, 12-flow channel extrusion spring, 13-flow channel valve guide rail, 14-flow channel valve guide rail reset spring, 15-pendulum and 16-pendulum magnet.

501-a first-gear humidifying pipeline, 502-a second-gear humidifying pipeline I, 503-a second-gear humidifying pipeline II, 504-a third-gear humidifying pipeline I, 505-a third-gear humidifying pipeline II and 506-a third-gear humidifying pipeline III;

901-first-gear lug, 902-second-gear lug I, 903-second-gear lug II, 904-third-gear lug I, 905-third-gear lug II, 906-third-gear lug III, 907-runner valve guide rail return spring installation groove, 908-runner valve guide rail motion groove, 909-runner switch component motion groove, 910-pendulum installation groove and 911-runner inlet;

1101-valve, 1102-magnet block;

1301-drive lug, 1302-spring mounting bar;

1501-motor drive slot, 1502-pendulum shaft, 1503-square opening, 1504-link, 1505-pendulum magnet telescopic slot, 1506-pendulum magnet telescopic rail, 1507-pendulum drive lug action slot, 1508-pendulum squeeze arc, 1509-drive lug squeeze table;

1601-symmetrical cambered surface, 1602-pendulum magnet slide rail, 1603-magnet, 1604-spring mounting groove.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and examples.

Referring to fig. 1 to 7, in an embodiment of the present invention, a multi-mode intelligent humidifier includes a main air supply duct, an axial flow fan, a driving switch valve, and a humidifier channel module, where the axial flow fan is disposed at an inlet end of the main air supply duct, the driving switch valve and the humidifier channel module are sequentially disposed at an outlet end of the main air supply duct, and each channel of the humidifier channel module is respectively butted with each channel inlet of the driving switch valve to open or close each channel inlet;

the humidifier flow channel module comprises a plurality of humidifying pipelines, the inlet ends of the humidifying pipelines are respectively butted with the outlet sides of the flow channel inlets, the outlet end of each humidifying pipeline is sequentially connected with a conversion pipeline and a reduction nozzle, the conversion pipelines connected with the humidifying pipelines are arranged in different angles and directions, and the conversion pipelines are divided into a plurality of groups and are different in diameter; through the mode of long-range intelligent regulation, can be so that the mode of this humidifier is diversified, can produce a plurality of different position and not unidimensional smoke ring in turn and carry out the humidification, also can produce single different position smoke ring and carry out the humidification, also can only produce any one in a plurality of smoke ring spouts and carry out the single mode humidification, perhaps produce the combination humidification mode that different fender position kept off the position. .

Further, the driving switch valve comprises a base 9, a stepping motor 8 and a pendulum assembly 3, wherein an annular sliding groove is formed in the base 9, a pendulum installation groove 910 is formed in the center of the annular sliding groove, and a plurality of flow channel inlets 911 are uniformly distributed in the base 9 along the circumferential direction of the pendulum installation groove 910;

a plurality of runner switch component moving grooves 909 are also distributed on the base 9 along the circumferential direction of the annular sliding groove, the runner switch component moving grooves 909 are distributed along the radial direction of the annular sliding groove and are arranged in one-to-one correspondence with the runner inlets 911, the inner ends of the runner switch component moving grooves 909 are connected with the corresponding runner inlets 911, the outer ends of the runner switch component moving grooves 909 are connected with the annular sliding groove, and a runner switch component 10 is arranged in each runner switch component moving groove 909;

the inner end of pendulum assembly 3 sets up in pendulum mounting groove 910 to with step motor 8's output shaft, the outer end of pendulum assembly 3 sets up on the annular spout, step motor 8 drives pendulum assembly 3 and rotates along the annular spout, and in pendulum assembly 3 rotates the in-process, drive runner switch assembly 10 opens or closes corresponding runner entry 911.

Further, the pendulum assembly 3 comprises a pendulum 15 and a pendulum magnet 16, the inner end of the pendulum 15 is connected with an output shaft of the stepping motor 8, the pendulum magnet 16 is arranged at the outer end of the pendulum 15, and the runner switch assembly is provided with a magnet block 1102; when the bob 15 rotates over the corresponding runner opening and closing assembly moving slot 909, the attraction between the bob magnet 16 and the magnet block 1102 causes the runner opening and closing assembly to open the corresponding runner inlet 911.

Further, the flow channel switch assembly 10 comprises a valve 1101 and a magnet mounting seat which are sequentially arranged in a flow channel switch assembly moving groove 909, a flow channel extrusion spring 12 is connected between the valve 1101 and the magnet mounting seat, a magnet block 1102 is arranged on the magnet mounting seat, a spring mounting rod 1302 is connected on the outer side end of the magnet mounting seat, and a driving lug 1301 and a flow channel valve guide rail return spring 14 are sequentially arranged on the spring mounting rod 1302;

a plurality of runner valve guide rail return spring mounting grooves 907 are formed in the side face of the annular chute, the runner valve guide rail return spring mounting grooves 907 are arranged in one-to-one correspondence with the spring mounting rods 1302 of the magnet mounting seats, and the spring mounting rods 1302 are sleeved in the runner valve guide rail return spring mounting grooves 907; when the bob 15 rotates to the corresponding runner switch assembly moving groove 909, the bob magnet 16 pulls the magnet block 1102 on the magnet mount by magnetic force, so that the magnet mount moves along the runner switch assembly moving groove 909 in a direction away from the runner inlet 911, and then the valve 1101 also moves with the magnet mount in a direction away from the runner inlet 911 and opens the corresponding runner inlet 911, when the bob 15 rotates away from the corresponding runner switch assembly moving groove 909, the magnetic force between the bob magnet 16 and the magnet block 1102 on the magnet mount disappears, the magnet mount and the valve 1101 return under the action of the runner valve guide return spring 14 and the runner pressing spring 12, and the valve 1101 closes the corresponding runner inlet 911.

Further, pendulum 15 includes pendulum pivot 1502, connecting rod 1504 and pendulum magnet frame, pendulum pivot 1502 and pendulum magnet frame set firmly respectively in the both ends of connecting rod 1504, still be equipped with the trompil on the connecting rod 1504, the trompil is arranged on runner entry 911 distributes the orbit, when pendulum 15 rotates to corresponding runner switch subassembly motion groove 909 top, the trompil and corresponding runner entry 911 coincidence, step motor's output shaft and pendulum pivot 1502 are connected, pendulum magnet 24 sets up in the pendulum magnet frame.

Furthermore, the front end face of the pendulum bob magnet frame is connected with the connecting rod 1504, and pendulum bob extrusion arc surfaces 1508 are arranged on the left end face and the right end face of the pendulum bob magnet frame; when the pendulum bob 15 rotates to a position above the corresponding runner switch assembly moving groove 909, the driving lug 1301 firstly contacts with the pendulum bob extrusion arc 1508 and then slides into the rear end surface of the pendulum bob 15, so that the magnet mounting seat moves towards a direction away from the runner inlet 911, the pressure of the runner extrusion spring 12 on the valve 1101 is reduced, the runner extrusion spring 12 and the valve 1101 are further away from the runner inlet 911 together, the corresponding runner inlet 911 is opened, when the pendulum bob 15 rotates away from the corresponding runner switch assembly moving groove 909, the driving lug 1301 is separated from contact with the pendulum bob magnet frame, and the magnet mounting seat and the valve 1101 return under the action of the runner valve guide rail return spring 14 and the runner extrusion spring 12.

Furthermore, a pendulum magnet telescopic groove 1505 is arranged in the pendulum magnet frame, a pendulum magnet 16 is arranged in the pendulum magnet telescopic groove 1505, and a pendulum driving lug acting groove 1507 is arranged on the rear end face of the pendulum magnet frame along the arc direction of the annular sliding groove;

a pendulum bob reset spring 4 is arranged between the pendulum bob magnet 16 and the pendulum bob magnet telescopic groove 1505, and under the action of the pendulum bob reset spring 4, the pendulum bob magnet 16 moves towards the direction far away from the runner inlet 911 along the pendulum bob magnet telescopic rail 1506, so that the outer end of the pendulum bob magnet 16 extends out of the pendulum bob magnet frame from the pendulum bob driving lug action groove 1507;

each runner switch assembly movement slot 909 corresponds to a pendulum driving protrusion on an extension line thereof, the pendulum driving protrusion is disposed at a side of the annular sliding slot, the pendulum driving protrusion and the pendulum driving protrusion action slot 1507 are disposed on the same cross section of the base, that is, the distances between the pendulum driving protrusion and the pendulum driving protrusion from the ground of the base are the same, when the pendulum 15 rotates to the corresponding runner switch assembly movement slot 909, the pendulum driving protrusion penetrates into the pendulum driving protrusion action slot 1507, the upper end of the pendulum magnet 16 is pressed into the pendulum magnet frame against the spring force of the pendulum return spring 4, the pendulum magnet moves toward the runner inlet 909, the distance between the pendulum magnet 16 and the magnet block 1102 is closer, stronger suction force is generated, when the pendulum 15 continues to rotate and leaves the corresponding runner switch assembly movement slot 909, the pendulum driving protrusion leaves the pendulum driving protrusion action slot 1507, and the upper end of the pendulum magnet 16 under the action of the pendulum return spring 4 passes through the pendulum driving protrusion action slot 1507 to the outside the pendulum magnet frame again.

Further, be equipped with pendulum magnet flexible track 1506 in the pendulum magnet frame, pendulum magnet flexible track 1506 arranges in one side of pendulum drive lug effect groove 1507, pendulum magnet 16 arranges on pendulum magnet flexible track 1506, pendulum magnet 16's bottom is equipped with pendulum magnet slide rail 1602, pendulum magnet flexible track 1506 sets up in pendulum magnet slide rail 1602, pendulum magnet 16 moves back and forth along pendulum magnet flexible track 1602, make pendulum magnet 16 stretch out or retract to pendulum magnet frame from pendulum drive lug effect groove 1507.

Furthermore, the pendulum bob driving lugs are divided into lugs with different gears, the radians of the lugs with different gears are different, under the condition that the stepping motor 8 rotates at a constant speed, the contact time of the pendulum bob 15 and the lugs with different gears is different, so that the time for the lugs with different gears to extrude the pendulum bob magnet 16 in the pendulum bob magnet frame is different,

the heights of the driving lugs 1301 on the runner switch assemblies 10 are different corresponding to lugs with different gears, the rear end faces of the pendulum magnet frames are correspondingly provided with driving lug extrusion table tops 1509 with multiple layers of stepped surfaces, the length of cambered surfaces of the driving lug extrusion table tops 1509 of the stepped layers is sequentially reduced, and the driving lugs 1301 with different heights are correspondingly contacted with the driving lug extrusion table tops 1509 of the driving lugs with different layers, so that the time for the pendulum magnet frames to extrude the driving lugs 1301 on the runner switch assemblies 10 is controlled;

in an embodiment, the driving bump pressing table 1509 has three stepped surfaces corresponding to three driving bumps 1301 with different heights.

The pendulum magnets are extruded by different gear lugs at different time, the contact time of the driving lugs 1301 with different heights and the driving lug extrusion table-board 1509 of the pendulum magnet frame is different, and the time for extruding the pendulum magnets by the gear lugs corresponding to the motion groove 909 of the same runner switch assembly is the same as the time for extruding the table-board by the driving lugs 1301 corresponding to the motion groove 909 of the same runner switch assembly;

the longer the gear lug presses the pendulum magnet and the longer the drive lug of the pendulum magnet frame presses the table top to press the drive lug 1301, the longer the opening time of the runner inlet corresponding thereto, and the more airflow enters the transfer duct 6.

Further, the number of the pendulum bob driving convex blocks is 6, the pendulum bob driving convex blocks are divided into three grades, specifically, a first grade convex block 901, a second grade convex block 902, a second grade convex block 903, a third grade convex block 904, a third grade convex block second 905 and a third grade convex block third 906 are respectively arranged, the arc size of the first grade convex block 901 is largest, the sizes of the second grade convex block 902 and the second grade convex block 903 are the second largest, and the sizes of the third grade convex block 904, the third grade convex block second 905 and the third grade convex block third 906 are the smallest. Therefore, under the condition that the stepping motor 8 rotates at a constant speed, the contact time of the pendulum bob 15 and the convex blocks of each gear is different, the time that the first-gear convex block 901 extrudes the pendulum bob magnet 16 is longest, the opening time of the flow channel inlet 911 caused by the contact is also longest, and further, more air flows enter the conversion pipeline 6 of the corresponding humidification pipeline, and the requirement of the length-diameter ratio of the air flow column when the smoke ring is generated can be met because the size diameter of the conversion pipeline 6 corresponding to the first-gear convex block 901 is the largest. The sizes of the second-

gear projections

902 and 903 are the second largest, and the sizes of the corresponding conversion channels 6 are also the second largest, so that the length of time for the pendulum bob to contact with the second-

gear projections

902 and 903 to open the channel valve 11 can meet the requirement for generating the length-diameter ratio of the airflow columns of the corresponding conversion channels 6. The third-gear bumps 904-906 have the smallest size, the size corresponding to the conversion pipeline 6 is also the smallest, the opening time of the runner inlet 911 is also the shortest, the conversion runner with the large diameter is arranged in the middle, and the conversion runner with the small diameter is arranged around the conversion runner with the large diameter. Through the mode of long-range intelligent regulation, can make the mode of this humidifier diversified, can produce three fender position in turn, six different position, different position of cigarette circle carry out the humidification, also can produce the different position cigarette circle of single fender position and carry out the humidification, also can further only produce any one in six cigarette circle spouts and carry out the single mode humidification, or produce the combination humidification mode that different fender positions.

Furthermore, the multi-mode intelligent humidifier also comprises a control module, the control module is respectively connected with the axial flow fan and the stepping motor through a driving circuit, the control module is connected with a wireless transmission module, and the control module is connected with a user side through the wireless transmission module;

the control module is also connected with a remote controller which is an RF remote controller, the control module is connected with an RF control module, and the control module is connected with the RF remote controller through the RF control module.

The working principle of the invention is as follows: referring to fig. 1, in the multi-mode intelligent humidifier provided by the present invention, initially, an ultrasonically atomized air flow is pumped into a main air supply duct 1 by an axial flow fan 2. When the pendulum assembly 3 is in the non-flow path switch assembly moving groove 909 of the base 9, the flow path valve 11 closes the flow path inlet 911 by the flow path pressing spring 12 and the flow path valve guide return spring 14, and the valve 1101 is in pressing contact with the plane of the pendulum mounting groove 910.

At this time, the step motor 8 drives the pendulum assembly 3 to rotate, when the pendulum extrusion arc 1508 of the pendulum 15 in the pendulum assembly 3 contacts with the driving lug 1301, the driving lug 1301 drives the runner valve guide rail 13 to move along the spring mounting bar 1302 towards the direction away from the motor driving groove 1501 under the action of the arc 1508, and simultaneously extrudes the runner valve guide rail return spring 14, at this time, the runner extrusion spring 12 is no longer in a compression stress state, and the runner valve 11 is no longer extruded. When the pendulum bob of the pendulum bob 15 presses the arc surface 1508 to contact with the different blocking protrusions 901 to 906, the different blocking protrusions 901 to 906 on the base 9 also pass through the pendulum bob driving protrusion acting groove 1507 of the pendulum bob 15 to contact with the symmetrical arc surface 1601 of the pendulum bob magnet 16, and under the action of the arc surface pressing, the pendulum bob magnet 16 extends out of the pendulum bob magnet slot 1505 of the pendulum bob 15 along the direction of the pendulum bob magnet slide rail 1602, at this time, the pressing force acting on the flow channel valve 11 disappears, and the distance between the magnet block 1102 and the magnet 1603 is shortened, so that the magnetic force is enhanced, and therefore, the flow channel valve 11 moves along the spring mounting rod 1302 to the direction far away from the motor moving groove 1501 under the action of magnetic attraction, so that the flow channel inlet 911 is opened.

Because the arc size of the first-level bump 901 is the largest, the sizes of the second-level bump 902 and the second-level bump 903 are the second largest, and the sizes of the third-level bump 904, the third-level bump 905 and the third-level bump 906 are the smallest. Therefore, under the condition that the stepping motor 8 rotates at a constant speed, the contact time of the pendulum bob 15 and the convex blocks of each gear is different, the time that the first-gear convex block 901 extrudes the pendulum bob magnet 16 is longest, the opening time of the runner inlet 911 caused by the contact is also longest, and further, more air flows enter the conversion pipeline 6, and the size and the diameter of the conversion pipeline 6 corresponding to the first-gear convex block 901 are the largest, so that the requirement of the length-diameter ratio of the air flow column when the smoke ring is generated can be met. The sizes of the second-

gear bumps

902 and 903 are the second largest, and the sizes of the corresponding conversion flow channels 6 are also the second largest, so that the length of time for the pendulum bob to contact with the second-

gear bumps

902 and 903 to open the flow channel valve 11 can meet the requirement for generating the length-diameter ratio of the airflow columns of the corresponding conversion pipelines 6. The third-gear bumps 904-906 have the smallest size, which corresponds to the size of the switching pipeline 6, and the opening time of the runner inlet 911 is also the shortest.

When the pendulum 15 slides over the respective stop cams, the flow gate 11 closes the flow gate 911 under the action of the flow gate guide return spring 14 and the flow gate compression spring 12, and the air flow of the individual flow gates in the humidifier flow gate module 5 is interrupted. The flow channel inlet controlled by the first-level bump 901 corresponds to the first-level flow channel 501, the flow channel inlets controlled by the second-level bump 902 and the second-level bump 903 correspond to the first second-level flow channel 502 and the second-level flow channel 503 respectively, and the flow channel controlled by the third-level bump 904, the third-level bump 905 and the third-level bump 906 correspond to the first third-level flow channel 504, the second third-level flow channel 505 and the third-level flow channel 506 respectively. The outlets of the third-level flow channels are uniformly distributed at the outer side, and the outlets of the second-level flow channels are distributed at two sides of the first-level flow channel and are slightly shorter than the first-level flow channel. Can effectively prevent the smoke ring from interfering with other flow passages in the process of propagation after production. And the cigarette circle of this device is single production, only produces a cigarette circle once, and not produce a plurality of cigarette circles simultaneously, also can effectively prevent the cigarette circle distance too closely and the mutual interference that leads to, influence each other.

The user can set the starting point, the ending point and the rotating angle of the motor through remote control, and further can control the opening and closing of flow channels generated by different smoke rings, the combination of multiple modes can select to only generate any one of six smoke rings including a first-gear smoke ring, a second-gear smoke ring I, a second-gear smoke ring II, a third-gear smoke ring I, a third-gear smoke ring II and a third-gear smoke ring III, single-mode directional humidification, and the combination of double-smoke-ring modes can also be selected, such as a first-gear smoke ring and a second-gear smoke ring I, a second-gear smoke ring I and a second-gear smoke ring II, a second-gear smoke ring II and a third-gear smoke ring I, a third-gear smoke ring II and a third-gear smoke ring III, and a first-gear smoke ring. In the same way, three smoke ring modes, four smoke ring modes, five smoke ring modes and fully-opened six smoke ring modes which generate different adjacent combinations can be selected, 31 different smoke ring humidifying modes are calculated in total, the smoke ring generating frequency can be adjusted by regulating three different rotating speeds of the axial flow fan 2 and the rotating speed of the stepping motor 8, and 93 different smoke ring combinations and different humidifying modes of generating frequency can be generated in total.

A user is connected with an Ethernet (mobile network or WiFi) through a user side (a mobile phone or a computer) and sends a control signal to an intelligent gateway, the intelligent gateway transmits the control signal to an MCU (micro control unit) connected with a motor and a fan through a wireless transmission module, and the MCU outputs a signal to one of the electromagnetic relays after judging and processing according to the input control signal to control the rotating speeds of the motor and the fan or control the operations of the starting position, the ending position, the reciprocating rotating angle and the like of the motor under the condition of keeping the rotating speed of the fan unchanged; the user can also wirelessly communicate with the RF radio frequency control module through the RF radio frequency remote controller equipped in the humidifier, the RF radio frequency control module transmits a control signal to the main control module, and can also control the rotation speed of the motor and the fan or control the operations of the starting position, the ending position, the reciprocating rotation angle and the like of the motor under the condition of keeping the rotation speed of the fan unchanged.

The main control module adopts an MCU micro control unit. And is connected with the wireless transmission module. The wireless transmission module adopts a high-integration 2.4G wireless transceiver chip, an on-chip integrated transmitter, a receiver, a frequency synthesizer and a GFSK modem. The transmitter supports adjustable power, and the receiver adopts a digital extension communication mechanism, so that excellent transceiving performance can be achieved under the condition of strong interference. The peripheral circuit is simple, and only the MCU and a few peripheral passive devices are needed to be matched. The receiver adopts a low intermediate frequency structure. Digital channel energy detection can monitor channel quality at any time. The transmit receive FIF0 register on the chip may communicate with the MCU, store the data, and then transmit over the air. It has built-in CRC, FEC, auto-ack and retransmission mechanism, can simplify the system design and optimize the performance greatly. The digital baseband supports 4-wire SPI and 2-wire I2C interfaces and three digital interfaces of Reset, pkt _ flag and Fifo _ flag. The wireless transmission module is connected with the intelligent gateway. The intelligent gateway comprises a microprocessor, a serial module, an RF communication module, a storage module and a network module, wherein the microprocessor is respectively connected with the serial module, the RF communication module, the storage module and the network module, the serial module comprises a console interface and a serial interface, the console interface provides a channel for debugging equipment, the network module comprises a 2.4G wireless transmission module for transmitting data in a wireless mode and an Ethernet interface for transmitting data in a wired mode, and the storage module comprises an RAM and a FLASH. The intelligent gateway is connected with other intelligent hardware and Ethernet. The touch buttons are capacitance touch buttons, and the touch driving module is an ANMG08 capacitance touch chip. The ANMG08 capacitive touch chip has the following characteristics: serial interface/parallel output. The operation mode of the selectable output is single output/multiple output. 256 levels of sensitivity can be adjusted. Little external components are required. Low current consumption. Embedded common and normal noise cancellation circuitry. The user is connected with the Ethernet mobile network or the WiFi through a user side mobile phone or a computer to be connected with the intelligent gateway, and the intelligent gateway binding motor is arranged.

The above is only a preferred embodiment of the present invention, and certainly, the scope of the present invention should not be limited thereby, and therefore, the present invention is not limited by the scope of the claims.

Claims

1. A multi-mode intelligent humidifier is characterized by comprising a main air supply pipeline, an axial flow fan, a driving switch valve and a humidifier runner module, wherein the axial flow fan is arranged at the inlet end of the main air supply pipeline;

the humidifier runner module comprises a plurality of humidification pipelines, the inlet ends of the humidification pipelines are in butt joint with the inlet ends of the runners respectively, the outlet end of each humidification pipeline is sequentially connected with a conversion pipeline and a reduction nozzle, and the conversion pipelines connected by the humidification pipelines are arranged in different angles and directions.

2. The multi-mode intelligent humidifier according to claim 1, wherein the driving switch valve comprises a base (9), a stepping motor (8) and a pendulum assembly (3), an annular sliding groove is formed in the base (9), a pendulum installation groove (910) is formed in the center of the annular sliding groove, and a plurality of flow channel inlets (911) are uniformly distributed in the base (9) along the circumferential direction of the pendulum installation groove (910);

a plurality of runner switch component moving grooves (909) are also distributed on the base (9) along the circumferential direction of the annular sliding groove, the runner switch component moving grooves (909) are arranged along the radial direction of the annular sliding groove and are arranged in one-to-one correspondence with the runner inlets (911), the inner ends of the runner switch component moving grooves (909) are connected with the corresponding runner inlets (911), the outer ends of the runner switch component moving grooves (909) are connected with the annular sliding groove, and a runner switch component (10) is arranged in each runner switch component moving groove (909);

the inner of pendulum assembly (3) sets up in pendulum mounting groove (910) to with the output shaft of step motor (8), the outer end of pendulum assembly (3) sets up on the annular spout, step motor (8) drive pendulum assembly (3) and rotate along the annular spout, rotate the in-process at pendulum assembly (3), drive runner switch module (10) are opened or are closed corresponding runner entry (911).

3. The multi-mode intelligent humidifier according to claim 1, wherein the pendulum assembly (3) comprises a pendulum (15) and a pendulum magnet (16), the inner end of the pendulum (15) is connected with the output shaft of the stepping motor (8), the pendulum magnet (16) is arranged at the outer end of the pendulum (15), and the runner switch assembly is provided with a magnet block (1102); when the bob (15) rotates over the corresponding runner switch assembly moving slot (909), the attraction between the bob magnet (16) and the magnet block (1102) causes the runner switch assembly to open the corresponding runner inlet (911).

4. The multi-mode intelligent humidifier according to claim 3, wherein the flow channel switch assembly (10) comprises a valve (1101) and a magnet mounting seat which are sequentially arranged in a flow channel switch assembly moving groove (909), a flow channel extrusion spring (12) is connected between the valve (1101) and the magnet mounting seat, a magnet block (1102) is arranged on the magnet mounting seat, a spring mounting rod (1302) is connected on the magnet mounting seat, and a driving lug (1301) and a flow channel valve guide rail return spring (14) are sequentially arranged on the spring mounting rod (1302);

a plurality of runner valve guide rail reset spring installation grooves (907) are formed in the side face of the annular sliding groove, the runner valve guide rail reset spring installation grooves (907) are arranged in one-to-one correspondence with the spring installation rods (1302) of the magnet installation seats, and the spring installation rods (1302) are sleeved in the runner valve guide rail reset spring installation grooves (907); when the pendulum bob (15) rotates to the corresponding runner switch assembly moving groove (909), the pendulum bob magnet (16) pulls the magnet block (1102) on the magnet mounting seat through magnetic force, so that the magnet mounting seat moves towards the direction far away from the runner inlet (911) along the runner switch assembly moving groove (909), then the valve (1101) also moves towards the direction far away from the runner inlet (911) along with the magnet mounting seat, the corresponding runner inlet (911) is opened, when the pendulum bob (15) rotates to leave the corresponding runner switch assembly moving groove (909), the magnetic force between the pendulum bob magnet (16) and the magnet block (1102) on the magnet mounting seat disappears, the magnet mounting seat and the valve (1101) return under the action of the runner valve guide return spring (14) and the runner extrusion spring (12), and the valve (1101) closes the corresponding runner inlet (911).

5. The multi-mode intelligent humidifier according to claim 4, wherein the pendulum (15) comprises a pendulum rotating shaft (1502), a connecting rod (1504) and a pendulum magnet frame, the pendulum rotating shaft (1502) and the pendulum magnet frame are fixedly arranged at two ends of the connecting rod (1504) respectively, the connecting rod (1504) is further provided with openings, the openings are arranged on the distribution track of the flow channel inlets (911), when the pendulum (15) rotates to the position above the corresponding flow channel switch assembly moving groove (909), the openings coincide with the corresponding flow channel inlets (911), the output shaft of the stepping motor is connected with the pendulum rotating shaft (1502), and the pendulum magnet (24) is arranged in the pendulum magnet frame.

6. The multi-mode intelligent humidifier according to claim 5, wherein the front end face of the pendulum magnet frame is connected with a connecting rod (1504), and pendulum extrusion cambered surfaces (1508) are arranged on the left end face and the right end face of the pendulum magnet frame; when the pendulum bob (15) rotates to the position above the corresponding runner switch assembly moving groove (909), the driving lug (1301) firstly contacts with the pendulum bob extrusion arc surface (1508) and then slides into the rear end surface of the pendulum bob (15), so that the magnet mounting seat moves towards the direction far away from the runner inlet (911), the pressure of the runner extrusion spring (12) borne by the valve (1101) is reduced, the runner extrusion spring (12) and the valve (1101) are further away from the runner inlet (911) together, the corresponding runner inlet (911) is opened, when the pendulum bob (15) rotates away from the corresponding runner switch assembly moving groove (909), the driving lug (1301) is separated from contact with the pendulum bob magnet frame, and the magnet mounting seat and the valve (1101) return under the action of the runner valve guide rail return spring (14) and the runner extrusion spring (12).

7. The multi-mode intelligent humidifier according to claim 6, wherein a pendulum magnet slot (1505) is arranged in the pendulum magnet frame, the pendulum magnet (16) is arranged in the pendulum magnet slot (1505), and a pendulum driving lug action slot (1507) is arranged on the rear end surface of the pendulum magnet frame along the arc direction of the annular sliding slot;

a pendulum bob reset spring (4) is arranged between the pendulum bob magnet (16) and the pendulum bob magnet telescopic groove (1505), and under the action of the pendulum bob reset spring (4), the pendulum bob magnet (16) moves towards the direction far away from the runner inlet (911) along the pendulum bob magnet telescopic track (1506), so that the outer end of the pendulum bob magnet (16) extends out of the pendulum bob magnet frame from the pendulum bob drive lug action groove (1507);

when the pendulum (15) rotates to the corresponding runner switch component motion groove (909), the pendulum driving lug penetrates into the pendulum driving lug acting groove (1507), the upper end of the pendulum magnet (16) is pressed into the pendulum magnet frame by overcoming the spring force of the pendulum reset spring (4), the pendulum magnet moves towards the runner inlet (909), the distance between the pendulum magnet (16) and the magnet block (1102) is closer, stronger suction force is generated, when the pendulum (15) continues to rotate and leaves the corresponding runner switch component motion groove (909), the pendulum driving lug leaves the pendulum driving lug acting groove (1507), and the upper end of the pendulum magnet (16) penetrates out of the pendulum magnet frame from the pendulum driving lug acting groove (1507) again under the action of the pendulum reset spring (4).

8. A multi-mode intelligent humidifier according to claim 7, wherein a pendulum magnet telescopic rail (1506) is provided in the pendulum magnet frame, the pendulum magnet telescopic rail (1506) is disposed on one side of the pendulum drive tab action slot (1507), the pendulum magnet (16) is disposed on the pendulum magnet telescopic rail (1506), a pendulum magnet slide rail (1602) is provided at the bottom of the pendulum magnet (16), the pendulum magnet telescopic rail (1506) is disposed in the pendulum magnet slide rail (1602), the pendulum magnet (16) moves back and forth along the pendulum magnet telescopic rail (1602), so that the pendulum magnet (16) extends from the pendulum drive tab action slot (1507) or retracts to the pendulum magnet frame.

9. The multi-mode intelligent humidifier according to claim 1, wherein each switching duct is divided into a plurality of groups of different diameters, the plurality of pendulum bob driving protrusions are divided into different gear protrusions, the radians of the different gear protrusions are different, and under the condition that the stepping motor (8) rotates at a constant speed, the contact time of the pendulum bob (15) and the protrusion of each gear is different, so that the time for the different gear protrusions to press the pendulum bob magnets (16) in the pendulum bob magnet frame is different,

the heights of the driving lugs (1301) on the runner switch components (10) are different corresponding to lugs with different gears, the rear end face of the pendulum magnet frame is correspondingly provided with a driving lug extrusion table top (1509) with a plurality of layers of stepped surfaces, the length of the cambered surface of the driving lug extrusion table top (1509) of each stepped layer is sequentially reduced, and the driving lugs (1301) with different heights are correspondingly contacted with the driving lug extrusion table tops (1509) of different layers, so that the time for the pendulum magnet frame to extrude the driving lugs (1301) on the runner switch components (10) is controlled;

the pendulum magnets are extruded by different gear lugs at different time, the contact time of the driving lugs (1301) with different heights and the driving lug of the pendulum magnet frame on the table top (1509) is different, and the time for extruding the pendulum magnets by the gear lugs corresponding to the same runner switch component motion groove (909) is the same as the time for extruding the table top by the driving lugs (1301) corresponding to the same runner switch component motion groove (909);

the longer the gear lug presses the pendulum magnet and the longer the drive lug of the pendulum magnet frame presses the table top to press the drive lug (1301), the longer the opening time of the corresponding runner inlet, and the more airflow enters the conversion pipeline (6).

10. The multi-mode intelligent humidifier according to claim 1, further comprising a control module, wherein the control module is connected with the axial flow fan and the stepping motor through a driving circuit, the control module is connected with a wireless transmission module, and the control module is connected with a user side through the wireless transmission module; the control module is also connected with a remote controller.