CN117006578A - Scent generator and control method thereof, air treatment device - Google Patents

Abstract

The technical solution of the present invention discloses a fragrance generator, a control method thereof, and an air treatment device. The fragrance generator includes a storage module, a fan module, a driving module, a control module and an identification module. The storage module includes multiple fragrance boxes, and a plurality of fragrance boxes. The spice boxes are respectively provided with ventilation openings; the fan module is provided with a ventilation opening, and the ventilation openings can be connected with the ventilation openings to release the fragrance in the spice box; the driving module is connected to the storage module to drive the storage module to move to make any ventilation opening It can be connected with the vent; the control module is electrically connected to the drive module and the fan module; the identification module is electrically connected to the control module, and the identification module is used to identify the spice box. The identification module can identify the fragrance in each spice box, and the control module controls the drive module to move the storage module so that the ventilation holes of different spice boxes can be connected with the ventilation holes of the fan module to release the fragrance in the spice box, so that the fragrance generator can switch to different fragrance boxes. Scent Purpose.

Description

Fragrance generator, control method thereof and air treatment device

Technical Field

The invention relates to the technical field of odor generators, in particular to an odor generator, a control method thereof and an air treatment device.

Background

Auditory, visual, olfactory, gustatory and tactile are five sensations of humans, with olfactory also being one of the important ways we feel nice life. With the improvement of the quality of life of people, people have also put higher and higher demands on the taste of air in living and working environments. The current fragrance generators on the market can only emit single odor or can only change the perfume by manual operation, so that the fragrance generator has single taste and is troublesome to change.

Disclosure of Invention

The main object of the present invention is to propose a fragrance generator, which aims to switch different fragrances.

According to the technical scheme, the invention provides a fragrance generator, which comprises the following components:

the storage module comprises a plurality of spice boxes, wherein the spice boxes are respectively provided with ventilation openings;

the fan module is provided with a ventilation opening, and the ventilation opening can be communicated with the ventilation opening so as to release fragrance in the spice box;

the driving module is connected with the storage module and used for driving the storage module to move so that any one ventilation port can be communicated with the ventilation port;

The control module is electrically connected with the driving module and the fan module;

the identification module is electrically connected with the control module and used for identifying the spice box.

In an embodiment, the perfume cartridge bottom surface is provided with an electronic label for the recognition of the recognition module.

In an embodiment, the storage module further comprises a storage box, wherein a plurality of partition plates are arranged inside the storage box, a plurality of accommodating cavities are formed by arranging the partition plates at intervals, and the accommodating cavities accommodate the spice boxes.

In an embodiment, a limit groove is formed in the top of the storage box, and the limit groove is formed in two opposite sides of each accommodating cavity; limiting columns matched with the limiting grooves are arranged on two sides of the spice box.

In an embodiment, the drive module includes the mounting bracket, removes box and drive assembly, remove the box install in the mounting bracket, remove the box and can remove in the mounting bracket, remove and install the storage module in the box, remove the box upper surface and be provided with the air vent, the air vent with spices box one-to-one, it still is provided with the baffle to remove the box upper surface, the baffle is used for the shutoff the vent.

In one embodiment, a rack is arranged on one side wall of the movable box; the driving assembly comprises a motor and a gear, the motor is installed on the installation frame, the motor is in driving connection with the gear, and the gear is in connection with the rack to drive the moving box to move on the installation frame.

In an embodiment, the mounting frame comprises two side walls, wherein one side wall is provided with a chute for the rack to move, a yielding port is formed in the bottom of the chute, and the gear penetrates through the yielding port to be connected with the rack.

In an embodiment, the mounting rack further comprises a bottom plate connected with the two side walls, guide rails are arranged on two sides of the bottom plate, the guide rails extend along the extending direction of the sliding grooves, and notch grooves matched with the guide rails for movement are formed on two sides of the bottom surface of the movable box.

In an embodiment, the driving module further comprises a pressing mechanism, the pressing mechanism is mounted at one end of the moving box, the pressing mechanism comprises a pressing buckle, the storage box is provided with a clamping tongue, and the clamping tongue is buckled with the pressing buckle.

In an embodiment, the compressing mechanism further comprises a fastener, the fastener comprises a bolt, a spring and a nut, the bolts are respectively arranged on two sides of the pressing buckle, the bolts penetrate out of the movable box, the nut is connected with one end of the bolts penetrating out of the movable box, the spring is sleeved at the other end of the bolts, one end of the spring is abutted to the nuts of the bolts, and the other end of the spring is abutted to the movable box.

In an embodiment, the fan module comprises an air duct shell and a fan, the fan is connected with the air duct shell, the air duct shell is provided with an air inlet and a ventilation opening, and the air inlet is used for communicating air outside the air duct shell; an air flow channel is further arranged in the air channel shell, and the air inlet is communicated with the ventilation opening through the air flow channel.

In one embodiment, the fan is a centrifugal fan.

The present invention also provides an air treatment device comprising the scent generator, the scent generator comprising:

the storage module comprises a plurality of spice boxes, wherein the spice boxes are respectively provided with ventilation openings;

the fan module is provided with a ventilation opening, and the ventilation opening can be communicated with the ventilation opening so as to release fragrance in the spice box;

the driving module is connected with the storage module and used for driving the storage module to move so that any one ventilation port can be communicated with the ventilation port;

the control module is electrically connected with the driving module and the fan module;

the identification module is electrically connected with the control module and used for identifying the spice box.

The invention also provides a fragrance generator control method, which comprises the following steps:

receiving a specified fragrance release control instruction;

controlling the driving module to drive the spice box to move for a preset distance;

controlling the driving module to stop running;

after the driving module stops running, controlling the identification module to identify the spice box;

and controlling the fan module to start when the perfume information identified by the identification module is matched with the perfume information corresponding to the specified perfume release instruction.

In one embodiment, after the step of controlling the recognition module to recognize the perfume cartridge after the driving module stops operating, the perfume generator control method further includes:

and returning to the step of controlling the driving module to drive the perfume box to move for a preset distance when the perfume information identified by the identification module is not matched with the perfume information corresponding to the specified perfume release instruction.

In one embodiment, the driving module comprises a movable box for mounting the storage module, and a baffle plate is arranged on the upper surface of the movable box and used for blocking the ventilation opening;

When the perfume information identified by the identification module is confirmed to be matched with the perfume information corresponding to the specified perfume release instruction, the method for controlling the perfume generator further comprises the following steps:

receiving a fragrance release stopping control instruction;

according to the received fragrance stopping release control instruction, controlling the driving module to drive the fragrance box to move, so that the baffle plate seals the ventilation opening;

and controlling the fan module to stop running.

In one embodiment, the scent generator control method includes the steps of, prior to the step of receiving a specified scent release control instruction:

receiving an initializing control instruction of a fragrance generator;

controlling the driving module to drive the spice box to move for a preset distance;

controlling the driving module to stop running;

after the driving module stops running, the identification module is controlled to identify the spice boxes one by one;

storing the fragrance information of the fragrance box;

issuing said stored fragrance information;

and receiving a perfume information confirmation instruction, and finishing initialization.

According to the technical scheme, the storage module is provided with the plurality of spice boxes, the identification module can identify various fragrances in the spice boxes, and the control module controls the driving module to move the storage module so that the ventilation openings of different spice boxes can be communicated with the ventilation openings of the fan module to release the fragrances in the spice boxes, so that the purpose that the fragrance generator can switch different fragrances is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic perspective view of a scent generator;

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is a schematic perspective view of the memory module of FIG. 2;

FIG. 4 is an exploded view of FIG. 3;

FIG. 5 is a schematic perspective view of the driving module in FIG. 2;

FIG. 6 is an exploded view of FIG. 5;

FIG. 7 is a schematic perspective view of the blower module of FIG. 2;

FIG. 8 is an exploded view of FIG. 6;

FIG. 9 is a schematic flow chart of a process for releasing a specific fragrance;

FIG. 10 is a schematic flow chart of stopping fragrance release;

fig. 11 is a schematic flow chart of the initialization of the fragrance generator.

Reference numerals illustrate:

reference numerals	Name of the name	Reference numerals	Name of the name
				01	Fragrance generator	32	Storage box
10	Control module	321	Accommodating chamber
				20	Identification module	322	Limiting groove
30	Memory module	323	Clamping tongue
				31	Spice box	312	Electronic label
311	Spacing post	313	Ventilation port
				40	Driving module	42	Mobile box
41	Mounting rack	421	Vent opening
				411	Sliding chute	422	Baffle plate
412	Abdication port	423	Rack bar
				413	Guide rail	431	Press button
414	Notch groove	432	Bolt
				43	Compressing mechanism	433	Spring
44	Driving assembly	434	Nut
				441	Motor with a motor housing	511	Air inlet
442	Gear wheel	512	Vent opening
				50	Fan module	52	Blower fan
51	Air ductShell body	53	Air flow channel

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the case where a directional instruction is involved in the embodiment of the present invention, the directional instruction is merely used to explain the relative positional relationship, movement condition, etc. between the components in a specific posture, and if the specific posture is changed, the directional instruction is changed accordingly.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, if the meaning of "and/or" is presented throughout this document, it is intended to include three schemes in parallel, taking "a and/or B" as an example, including a scheme, or B scheme, or a scheme where a and B meet simultaneously. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

Referring to fig. 1 to 8, the present invention proposes a scent generator 01, wherein the scent generator 01 includes a storage module 30, a fan module 50, a driving module 40, a control module 10 and an identification module 20, the storage module 30 includes a plurality of scent cartridges 31, and the plurality of scent cartridges 31 are respectively provided with ventilation openings 313; the blower module 50 is provided with a vent 512, which vent 512 may communicate with the air vent 313 to release the scent in the scent cartridge 31; the driving module 40 is connected to the storage module 30, and is used for driving the storage module 30 to move so that any one ventilation opening 313 can be communicated with the ventilation opening 512; the control module 10 is electrically connected with the driving module 40 and the fan module 50; the identification module 20 is electrically connected to the control module 10, and the identification module 20 is used for identifying the perfume box 31. The bottom surface of the fragrance box 31 is provided with an electronic label 312 for recognition by the recognition module 20. The storage module 30 further includes a storage case 32, and a plurality of partitions are disposed inside the storage case 32, and the partitions are arranged at intervals to form a plurality of accommodating chambers 321, and the accommodating chambers 321 accommodate the fragrance cartridges 31. The top of the storage box 32 is provided with a limit groove 322, and the limit groove 322 is arranged on two opposite sides of each accommodating cavity 321; limiting columns 311 matched with the limiting grooves 322 are arranged on two sides of the spice boxes 31. The driving module 40 comprises a mounting frame 41, a moving box 42 and a driving assembly 44, the moving box 42 is mounted on the mounting frame 41, the moving box 42 can move in the mounting frame 41, the storage module 30 is mounted in the moving box 42, the upper surface of the moving box 42 is provided with air vents 421, the air vents 421 are in one-to-one correspondence with the spice boxes 31, the upper surface of the moving box 42 is also provided with baffle plates 422, and the baffle plates 422 are used for sealing the air vents 512. A rack 423 is arranged on one side wall of the movable box 42; the driving assembly 44 includes a motor 441 and a gear 442, the motor 441 is mounted on the mounting frame 41, the motor 441 drives the connecting gear 442, and the gear 442 is connected with the rack 423 to drive the moving box 42 to move on the mounting frame 41. The mounting frame 41 comprises two side walls, wherein one side wall is provided with a sliding groove 411 for the rack 423 to move, the bottom of the sliding groove 411 is provided with a yielding port 412, and the gear 442 passes through the yielding port 412 to be connected with the rack 423. The mounting frame 41 further comprises a bottom plate connected with the two side walls, guide rails 413 are arranged on two sides of the bottom plate, the guide rails 413 extend along the extending direction of the sliding grooves 411, and notch grooves 414 which are matched with the guide rails 413 to move are formed on two sides of the bottom surface of the moving box 42. The driving module 40 further includes a pressing mechanism 43, the pressing mechanism 43 is mounted at one end of the moving box 42, the pressing mechanism 43 includes a pressing button 431, the storage box 32 is provided with a latch 323, and the latch 323 is buckled with the pressing button 431. The pressing mechanism 43 further comprises a fastener, the fastener comprises a bolt 432, a spring 433 and a nut 434, the bolt 432 is respectively arranged on two sides of the pressing buckle 431, the bolt 432 penetrates out of the moving box 42, the nut 434 is connected with one end of the bolt 432 penetrating out of the moving box 42, the spring 433 is sleeved at the other end of the bolt 432, one end of the spring 433 abuts against a nut of the bolt 432, and the other end of the spring 433 abuts against the moving box 42. The fan module 50 comprises an air duct shell 51 and a fan 52, the fan 52 is connected with the air duct shell 51, the air duct shell 51 is provided with an air inlet 511 and an air vent 512, and the air inlet 511 is used for communicating air outside the air duct shell 51; an airflow channel 53 is further disposed in the air duct housing 51, and the airflow channel 53 communicates the air inlet 511 with the air vent 512. The fan 52 is a centrifugal fan 52.

Referring to fig. 1 and 2, a scent generator 01, the scent generator 01 includes a storage module 30, a fan module 50, a driving module 40, a control module 10, and an identification module 20. The storage module 30 is used for storing perfume, the storage module 30 comprises a storage box 32 and a perfume box 31, the storage box 32 can simultaneously place a plurality of perfume boxes 31, each perfume box 31 is respectively provided with a ventilation opening 313, and perfume is emitted from the ventilation opening 313. The fan module 50 is provided with a ventilation opening 512, the ventilation opening 512 can be communicated with the ventilation opening 313, the fragrance in the fragrance box 31 is emitted from the ventilation opening 313, enters the fan module 50 through the ventilation opening 512, and then releases the fragrance from the air outlet of the fan module 50. The driving module 40 is connected with the storage module 30, and the driving module 40 is started to drive the storage module 30 to move, so that any ventilation opening 313 can be communicated with the ventilation opening 512. When the displacement of the storage module 30 is different, the ventilation opening 512 is communicated with different ventilation openings 313, so that different fragrances are released. The control module 10 is electrically connected to the driving module 40 and the fan module 50, and the control module 10 can control the driving module 40 and the fan module 50 to be started and closed. The control module 10 can control the driving module 40 to drive the storage module 30 to move, so that different ventilation openings 313 are communicated with the ventilation openings 512, and the purpose of switching different fragrances is achieved. The control module 10 may control the activation and deactivation of the blower module 50, the blower module 50 being activated, the scent being released from the scent generator 01 into the air, the blower module 50 being deactivated, the scent generator 01 ceasing to release scent. The identification module 20 is electrically connected to the control module 10. The storage module 30 is displaced under the driving of the driving module 40, the identification module 20 can identify the fragrance of each fragrance box 31, the identification module 20 is electrically connected with the control module 10, the identification module 20 identifies the fragrance of the fragrance box 31 with the current ventilation opening 313 being communicated with the ventilation opening 512, the control module 10 drives the storage module 30 to move until the fragrance of the fragrance box 31 with the current ventilation opening 313 being communicated with the ventilation opening 512 is the user-specified fragrance, the storage module 30 stops moving, the control module 10 controls the fan module 50 to start, the fragrance in the fragrance box 31 is emitted from the ventilation opening 313, enters the fan module 50 through the ventilation opening 512, and then releases the fragrance from the air outlet of the fan module 50. The fragrance generator 01 can complete the switching of fragrance and release fragrance.

Referring to fig. 4, an electronic label 312 for recognition by the recognition module 20 is disposed on the bottom surface of the perfume box 31. The fragrance box 31 has a box shape, and the bottom surface of the fragrance box 31 can be opened and closed. Fragrances of different fragrances may be placed into the fragrance cartridge 31 from the bottom surface of the fragrance cartridge 31 and an electronic label 312 is affixed to the bottom surface of the fragrance cartridge 31 to mark the fragrance within the current fragrance cartridge 31. When the storage module 30 is moved, the electronic label 312 on the fragrance box 31 with the air vent 313 in communication with the air vent 512 can be recognized by the recognition module 20. The control module 10 can start the fan module 50 to release the fragrance according to the requirement of the user, or control the driving module 40 to drive the storage module 30 to move until the ventilation opening 313 of the spice box 31 conforming to the fragrance specified by the user is communicated with the ventilation opening 512, the driving module 40 stops running, the storage module 30 stops moving, the fan module 50 is started, and the specified fragrance starts to be released.

Referring to fig. 3, the storage module 30 further includes a storage box 32, wherein a plurality of partitions are disposed inside the storage box 32, and the partitions are arranged at intervals to form a plurality of accommodating cavities 321, and the accommodating cavities 321 are used for accommodating the perfume cartridges 31. Each accommodating cavity 321 can accommodate perfume cartridges 31 with different fragrances, and only one storage cartridge 32 is needed to accommodate multiple fragrances. The fragrance generator 01 can select more fragrances, and a user can select different fragrances and can switch the fragrances at any time according to requirements.

Referring to fig. 3 and 4, a limit groove 322 is provided at the top of the storage box 32, and the limit groove 322 is provided at two opposite sides of each accommodating cavity 321; limiting columns 311 matched with the limiting grooves 322 are arranged on two sides of the spice boxes 31. Limiting grooves 322 are respectively formed in two opposite sides of each accommodating cavity 321, the limiting grooves 322 are formed in the upper portion of the side wall of the storage box 32, and the notch of each limiting groove 322 is upward. Limiting columns 311 are arranged on two sides of each spice box 31, and when the spice boxes 31 are placed in the accommodating cavities 321, the limiting columns 311 extend into the limiting grooves 322 to be matched with the limiting grooves 322. The storage box 32 and the spice box 31 are respectively provided with a limiting groove 322 and a limiting column 311, and the limiting groove 322 is matched with the limiting column 311, so that the spice box 31 can be conveniently placed and taken out. When the spice box 31 is placed, the limiting columns 311 can be placed along the limiting grooves 322, so that the situation that the spice box 31 is inconvenient to operate when the accommodating cavity 321 is limited in space can be avoided. When the spice box 31 is taken out, the whole spice box 31 can be taken out only by pushing out the limiting column 311 upwards from the position of the limiting groove 322. Meanwhile, the limiting groove 322 is tightly matched with the limiting column 311, so that the spice box 31 is difficult to shake, and the spice box 31 is prevented from colliding with an adjacent partition plate. The spacing post 311 sets up in the both sides of spices box 31, and spacing post 311 can set up to flush with the upper surface of spices box 31, also can set up in the both sides of spices box 31 but be less than the position of the upper surface of spices box 31, and the degree of depth of spacing groove 322 sets up along with the position of spacing post 311 for spices box 31 can not exceed storage box 32.

Referring to fig. 5 and 6, the driving module 40 includes a mounting frame 41, a moving box 42 and a driving assembly 44, the moving box 42 is mounted on the mounting frame 41, the moving box 42 can move in the mounting frame 41, the storage module 30 is mounted in the moving box 42, the upper surface of the moving box 42 is provided with air vents 421, the air vents 421 are in one-to-one correspondence with the perfume boxes 31, the upper surface of the moving box 42 is further provided with a baffle 422, and the baffle 422 is used for sealing the air vents 512. The fragrance cartridge 31 is mounted in the storage module 30, and the storage module 30 is mounted to the moving cartridge 42, and the fragrance cartridge 31 moves with the mounting frame 41 when the moving cartridge 42 moves within the mounting frame 41. The upper surface of the movable box 42 is provided with air vents 421, and the air vents 421 are in one-to-one correspondence with the spice boxes 31. The movable cartridges 42 are provided with air vents 421 above each fragrance cartridge 31, and fragrance of each fragrance cartridge 31 can escape from the air vents 421 after being emitted from the air vents 313. The upper surface of the moving box 42 is further provided with a baffle 422, and the baffle 422 may be disposed at any position on the upper surface of the moving box 42, for example, between any adjacent vents 421, and the baffle 422 may also have one side flush with one end of the moving box 42 and the other side close to the last vent 421. I.e. a plurality of vents 421 are arranged in sequence, the baffle 422 being located beside the last vent 421. The baffle 422 serves to block the vent 512 and, therefore, the baffle 422 should be larger than the vent 512 of the fan module 50. When fragrance is desired to be released, the fragrance is released in a one-to-one correspondence with the air vent 313 on the fragrance cartridge 31, the air vent 421 on the moving cartridge 42, and the air vent 512 on the fan module 50. When the fragrance is not released, it is the flap 422 on the moving cartridge 42 that is in communication with the vent 512, the flap 422 completely closes the vent 512 and the fragrance in the fragrance cartridge 31 cannot be released from the fan module 50 through the vent 512.

A rack 423 is provided on one side wall of the movable case 42, and the rack 423 extends in the longitudinal direction of the movable case 42. The driving assembly 44 includes a motor 441 and a gear 442, the motor 441 is mounted on the mounting frame 41, the motor 441 drives the connecting gear 442, and the gear 442 is connected with the rack 423 to drive the moving box 42 to move on the mounting frame 41. The motor 441 is started, the gear 442 starts to rotate, the gear 442 is connected with the rack 423, the moving box 42 starts to move forwards or backwards under the drive of the gear 442 until the spice box 31 conforming to the specification of the user reaches the position communicated with the ventilation opening 512, the motor 441 stops working, and the gear 442 stops rotating. The motor 441 drives the gear 442 to drive the moving box 42 and the spice box 31 in the moving box 42 to move on the mounting frame 41, so that the fragrance generator 01 can switch different fragrances.

The mounting frame 41 includes two side walls, one of which is provided with a slide slot 411 for movement of the rack 423, the slide slot 411 extending in the movement direction of the movement box 42. The slot 411 slot bottom is provided with a yielding port 412, and the gear 442 passes through the yielding port 412 and is connected with the rack 423. The motor 441 and the gear 442 are disposed outside the side wall of the mounting frame 41, a part of the gear 442 passes through the abdication port 412 to be connected with the rack 423, the gear 442 is spaced from the edge of the abdication port 412, and the gear 442 cannot interfere with or wear with the side wall of the mounting frame 41 under the rotation of the gear 442, so that the service life of the gear 442 can be prolonged.

The mounting frame 41 further comprises a bottom plate connected with the two side walls, guide rails 413 are arranged on the two sides of the bottom plate, the guide rails 413 are arranged on the bottom plate and close to the connection position of the bottom plate and the side walls, the guide rails 413 are upwards-protruding long strips, and the guide rails 413 extend along the extending direction of the sliding grooves 411. The two sides of the bottom surface of the movable box 42 are provided with notch grooves 414 which are matched with the guide rails 413 for movement. The moving box 42 is mounted on the mounting frame 41, the notch groove 414 is matched with the guide rail 413, the moving box 42 moves along the extending direction of the guide rail 413 under the driving of the driving assembly 44, and the guide rail 413 plays a role in guiding the moving box 42.

The driving module 40 further includes a pressing mechanism 43, the pressing mechanism 43 is mounted at one end of the moving box 42, the pressing mechanism 43 includes a pressing button 431, the storage box 32 is provided with a latch 323, and the latch 323 is buckled with the pressing button 431. The storage module 30 is placed in the moving box 42, the storage box 32 is pressed, the clamping tongue 323 is matched with the pressing buckle 431, the pressing buckle 431 clamps the clamping tongue 323, and the clamping tongue 323 is buckled with the pressing buckle 431. The storage module 30 is installed in the moving box 42, and when the moving box 42 is moved under the driving of the driving module 40, the storage module 30 moves together with the moving box 42, and the storage module 30 cannot slip from the moving box 42 due to the snap 323 and the press button 431 being snapped together.

The pressing mechanism 43 further comprises a fastener, the fastener comprises a bolt 432, a spring 433 and a nut 434, the bolt 432 is respectively arranged on two sides of the pressing buckle 431, the bolt 432 penetrates out of the moving box 42, the nut 434 is connected with one end of the bolt 432 penetrating out of the moving box 42, the spring 433 is sleeved at the other end of the bolt 432, one end of the spring 433 abuts against a nut of the bolt 432, and the other end of the spring 433 abuts against the moving box 42. The nut 434 is engaged with the bolt 432 penetrating out of the moving case 42 outside the moving case 42, and the nut 434 can not only fix the bolt 432 on the moving case 42 but also adjust the length of the bolt 432 in the moving case 42. The clamping tongue 323 and the pressing buckle 431 are matched, the pressing buckle 431 clamps the clamping tongue 323, the clamping tongue 323 can generate certain displacement in the front-back direction at the buckling position of the pressing buckle 431, the storage module 30 can shake in the front-back direction when being mounted on the moving box 42, and the bolt 432 plays a role in fixedly pressing the storage module 30 under the action of the spring 433. The memory module 30 moves in the direction of the pressing mechanism 43 in the moving case 42, the spring 433 compresses, and the memory module 30 stops moving in the direction of the pressing mechanism 43 by the reaction force of the compression of the spring 433. The storage module 30 is mounted in the moving case 42, and the storage module 30 is displaced forward, and the bolts 432 and the springs 433 give the storage module 30 a buffer to prevent the storage module 30 from striking the moving case 42. The storage module 30 is displaced backward, the locking tongue 323 is locked with the pressing button 431, and the storage module 30 cannot slip from the moving box 42.

Referring to fig. 7 and 8, the fan module 50 includes an air duct housing 51 and a fan 52, the fan 52 is connected to the air duct housing 51, the air duct housing 51 is provided with an air inlet 511 and a ventilation opening 512, and the air inlet 511 is used for communicating air outside the air duct housing 51; an airflow channel 53 is further disposed in the air duct housing 51, and the airflow channel 53 communicates the air inlet 511 with the air vent 512. The duct housing 51 includes a housing body and a top plate, which are covered with an airflow passage 53 formed therebetween. The bottom surface of the housing body is provided with a vent 512, and the vent 512 can be communicated with the ventilation opening 313 or blocked by a top plate. The side of the shell body is provided with an air inlet 511, and air outside the fragrance generator 01 can enter the shell body from the air inlet 511. The air inlet 511 may also be provided on the top plate. The air inlet 511 and the air vent 512 are communicated with the air flow channel 53, and the air coming in from the air inlet 511 and the fragrance emitted from the air vent 512 are mixed in the air flow channel 53, and then the air with the fragrance is released from the fan module 50. The fan module 50 further includes a fan 52, the housing body is provided with a through hole, the fan 52 is connected with the housing body, the fan 52 is disposed at the through hole, and the fan 52 is communicated with the airflow channel 53. The blower 52 is started, and the air with fragrance in the air flow channel 53 is released to the outside of the fragrance generator 01 through the blower 52.

The fan 52 is a centrifugal fan 52. The centrifugal fan 52 accelerates the gas by using an impeller rotating at a high speed according to the principle of converting kinetic energy into potential energy, then decelerates and changes the flow direction, converts kinetic energy into potential energy (pressure), increases the pressure of the gas, and discharges the gas. The centrifugal fan 52 has the advantages of good ventilation effect, strong wind power, low noise, stable operation, firmness, durability, capability of changing wind direction and the like. The centrifugal fan 52 has good ventilation effect and strong wind power, can discharge the air with fragrance to a place farther away, and can fill the room with fragrance in a shorter time. The centrifugal fan 52 has low noise, the centrifugal fan 52 adopts a reasonable impeller angle design according to air flow mechanics, no mechanical friction exists during operation, and the noise is reduced due to a reasonable blade shape line; the noise generated by the centrifugal fan 52 is high-frequency noise, and sound insulation is possible as long as there is an obstacle. The centrifugal fan 52 runs steadily, the impeller with optimized design reduces the axial force to a low level, and the impeller is provided, and the whole machine runs steadily through static and dynamic balance correction, so that the bearing amplitude is smaller under the condition of not adding any vibration damper. The centrifugal fan 52 is firm and durable, and the shell and the impeller are made of steel plates, so that the fan 52 is firmer, the surface of the whole machine is subjected to spray coating treatment, the oxidation resistance is high, and the fan is not easy to rust. The centrifugal fan 52 can also change the wind direction, and the direction of the wind can be changed by adjusting the centrifugal fan 52 to change the wind opening direction, so that the fragrance can be released in multiple directions.

According to the invention, a plurality of spice boxes 31 can be simultaneously placed in the storage box 32, different spices are placed in the spice boxes 31, and each spice box 31 is stuck with an electronic label 312 for marking different spices. The storage box 32 having the plurality of fragrance boxes 31 is mounted in the moving box 42, and the gear 442 drives the moving box 42 and the storage box 32 mounted in the moving box 42 to move together in the mounting frame 41 under the driving of the motor 441. The air duct housing 51 is mounted on the mounting frame 41, and the air duct housing 51 is provided with a ventilation opening 512. When the moving case 42 moves to the ventilation opening 313 of the fragrance case 31 to communicate with the ventilation opening 512, the moving case 42 pauses the movement. The fragrance in the fragrance box 31 sequentially enters the air flow channel 53 through the air ventilation opening 313 on the fragrance box 31, the air ventilation opening 421 on the moving box 42 and the air ventilation opening 512 on the air duct shell 51, and is mixed with the air entering from the air inlet in the air flow channel 53, the air with fragrance is discharged from the fan 52 under the rotation of the fan 52, and the fragrance in the fragrance generator 01 is released. The scent generator 01 is also provided with an identification module 20, which identification module 20 can identify whether the scent in the scent cartridge 31 currently in communication with the vent 512 is a user-specified scent by identifying the electronic label 312 on the scent cartridge 31. When the fragrance in the fragrance box 31 communicating with the ventilation opening 512 is a fragrance designated by the user, the movement of the moving box 42 is stopped, and the fan 52 is started to release the fragrance. When the fragrance in the fragrance box 31 communicating with the ventilation opening 512 is not the fragrance designated by the user, the fan 52 is not operated, and the moving box 42 continues to move until the fragrance in the fragrance box 31 communicating with the ventilation opening 512 is the fragrance designated by the user, and the moving box 42 stops moving, and the fan 52 is started to release the fragrance. When the user wants to turn off the scent generator 01, the blower 52 is turned off and the moving box 42 is moved back, at which point the vent 512 is completely blocked by the flap 422 of the moving box 42. The flavor generator 01 provided by the technical scheme of the invention has various flavor types and can switch different flavors according to the requirements of users.

Referring to fig. 9 to 11, the present invention further provides a method for controlling a scent generator, which includes the following steps: receiving a specified fragrance release control instruction; the control driving module 40 drives the spice box 31 to move a preset distance; control the drive module 40 to stop running; after the driving module 40 stops operating, the control recognition module 20 recognizes the perfume cartridge 31; upon confirming that the fragrance information identified by the identification module 20 matches the fragrance information corresponding to the specified fragrance release instruction, the blower module 50 is controlled to be activated. After the step of controlling the recognition module 20 to recognize the perfume cartridge 31 after the driving module 40 stops operating, the perfume generator control method further includes: when it is confirmed that the perfume information identified by the identification module 20 does not match the perfume information corresponding to the specified perfume release instruction, the step of controlling the driving module 40 to drive the perfume cartridge 31 to move a preset distance is returned. The driving module comprises a movable box for installing the storage module, a baffle 422 is arranged on the upper surface of the movable box 42, and the baffle 422 is used for blocking the ventilation opening 512; upon confirming that the perfume information identified by the identification module 20 matches the perfume information corresponding to the specified perfume release instruction, the perfume generator control method further includes the steps of, after the step of controlling the blower module 50 to start: receiving a fragrance release stopping control instruction; according to the received fragrance stopping release control instruction, the driving module 40 is controlled to drive the fragrance box 31 to move, so that the baffle 422 seals the ventilation opening 512; the fan module 50 is controlled to stop operating. The fragrance generator control method includes the steps of, before the step of receiving a specified fragrance release control instruction: receiving an initialization control instruction of the fragrance generator 01; the control driving module 40 drives the spice box 31 to move a preset distance; control the drive module 40 to stop running; after the driving module 40 stops operating, the control identifying module 20 identifies the spice boxes 31 one by one; storing the perfume information of the perfume box 31; issuing stored perfume information; and receiving a perfume information confirmation instruction, and finishing initialization.

Referring to fig. 2 and 9, a method for controlling a fragrance generator is applied to a fragrance generator 01, wherein the fragrance generator 01 comprises a storage module 30, a fan module 50, a driving module 40, a control module 10 and an identification module 20, the storage module 30 comprises a plurality of fragrance boxes 31, and the fragrance boxes 31 are respectively provided with ventilation; the blower module 50 is provided with a vent 512, which vent 512 may communicate with the air vent 313 to release the scent in the scent cartridge 31; the driving module 40 is connected to the storage module 30, and is used for driving the storage module 30 to move so that any one ventilation opening 313 can be communicated with the ventilation opening 512; the control module 10 is electrically connected with the driving module 40 and the fan module 50; the identification module 20 is electrically connected to the control module 10, and the identification module 20 is used for identifying the perfume box 31.

The fragrance generator control method comprises the following steps:

receiving a specified fragrance release control instruction;

the storage module 30 of the fragrance generator 01 comprises a plurality of fragrance cartridges 31, each fragrance cartridge 31 can be provided with fragrances different from the other fragrance cartridges 31, and a user can select different fragrances according to own needs. And after the user sends out the instruction for releasing the specified fragrance, receiving the instruction for controlling the release of the specified fragrance.

The control driving module 40 drives the spice box 31 to move a preset distance;

the driving module 40 includes a mounting frame 41, a moving box 42, and a driving assembly 44, the perfume box 31 is placed in the moving box 42, and the moving box 42 moves in the mounting frame 41 under the driving of the driving assembly 44. The driving assembly 44 includes a motor 441 and a gear 442, and the moving case 42 is provided with a rack 423, and the moving case 42 moves a distance equal to the circumference of the gear 442 when the gear 442 rotates one turn. The preset distance for the perfume cartridges 31 to move should be the distance between two adjacent limit posts 311 on the same side of two adjacent perfume cartridges 31, and the ventilation opening 313 of the perfume cartridge 31 communicated with the ventilation opening 512 of the fan module 50 is switched from the ventilation opening 313 of the previous perfume cartridge 31 to the ventilation opening 313 of the next perfume cartridge 31 every time the perfume cartridges 31 move by one preset distance. According to the distance between two adjacent limiting posts 311 on the same side of two adjacent spice boxes 31, the moving length of the corresponding rack 423 is converted into the number of turns of the gear 442, and each time the spice boxes 31 communicated with the ventilation openings 512 of the fan module 50 are switched, the gear 442 needs to rotate for a corresponding number of turns.

Control the drive module 40 to stop running;

when the gear 442 rotates for a corresponding number of turns, the driving module 40 drives the spice box 31 to move for a preset distance, and the driving module 40 stops running. Alternatively, after the gear 442 rotates for a corresponding number of turns, the air vent 313 of the spice box 31 communicates with the air vent 512 of the fan module 50, and the driving module 40 stops operating when receiving a signal that the air vent 313 communicates with the air vent 512.

After the driving module 40 stops operating, the control recognition module 20 recognizes the perfume cartridge 31;

at this time, the ventilation opening 313 of the fragrance box 31 is communicated with the ventilation opening 512 of the fan module 50, and the identification module 20 identifies the fragrance information of the current fragrance box 31 through the electronic label 312 on the fragrance box 31.

Upon confirming that the fragrance information identified by the identification module 20 matches the fragrance information corresponding to the specified fragrance release instruction, the blower module 50 is controlled to be activated.

When the identification module 20 identifies that the perfume information of the current perfume box 31 and the perfume information corresponding to the specified perfume release instruction are the same perfume through the electronic label 312 on the perfume box 31, the blower module 50 is started, and the perfume in the perfume box 31 enters the blower module 50 through the ventilation opening 313 and the ventilation opening 512 and then releases the specified perfume from the blower module 50.

After the step of controlling the recognition module 20 to recognize the perfume cartridge 31 after the driving module 40 stops operating, the perfume generator control method further includes: when it is confirmed that the perfume information identified by the identification module 20 does not match the perfume information corresponding to the specified perfume release instruction, the step of controlling the driving module 40 to drive the perfume cartridge 31 to move a preset distance is returned.

When the identification module 20 identifies that the perfume information of the current perfume box 31 and the perfume information corresponding to the specified perfume release instruction are not the same perfume through the electronic label 312 on the perfume box 31, the step of controlling the driving module 40 to drive the perfume box 31 to move for a preset distance is returned. The fragrance box 31 is moved a preset distance again, i.e. the fragrance box 31 of the air vent 313 in communication with the air vent 512 of the fan module 50 is switched from the current fragrance box 31 to the next fragrance box 31. After the driving module 40 stops operating, the control identifying module 20 identifies the perfume information of the perfume box 31 again, when the identifying module 20 identifies that the perfume information of the current perfume box 31 and the perfume information corresponding to the specified perfume releasing instruction are the same perfume through the electronic label 312 on the perfume box 31, the blower module 50 is started, and after the perfume in the perfume box 31 enters the blower module 50 through the ventilation opening 313 and the ventilation opening 512, the specified perfume is released from the blower module 50. If the identification module 20 identifies that the perfume information of the current perfume box 31 and the perfume information corresponding to the specified perfume release instruction are not the same perfume through the electronic label 312 on the perfume box 31, repeating the above steps until the perfume information of the perfume box 31 of the ventilation opening 313 communicated with the ventilation opening 512 of the fan module 50 and the perfume information corresponding to the specified perfume release instruction are the same perfume.

Referring to fig. 2, 6 and 10, the driving module includes a moving box for mounting the storage module, a baffle 422 is disposed on the upper surface of the moving box 42, and the baffle 422 is used for blocking the ventilation opening 512; when the movable box 42 is moving, the baffle 422 on the movable box 42 also moves, the relative positions of the baffle 422 and the ventilation opening 512 are also changed, and when the positions of the baffle 422 and the ventilation opening 512 are the same, the baffle 422 seals the ventilation opening 512, the ventilation opening 313 of any spice box 31 and the ventilation opening 512 are blocked, and the fragrance in the spice box 31 cannot be released through the fan module 50.

Upon confirming that the perfume information identified by the identification module 20 matches the perfume information corresponding to the specified perfume release instruction, the perfume generator control method further includes the steps of, after the step of controlling the blower module 50 to start: receiving a fragrance release stopping control instruction; according to the received fragrance stopping release control instruction, the driving module 40 is controlled to drive the fragrance box 31 to move, so that the baffle 422 seals the ventilation opening 512; the fan module 50 is controlled to stop operating.

Before receiving the fragrance stopping release control command, the fragrance generator 01 is in an operating state, the driving module 40 is in a stopping operation state, the ventilation opening 313 of the fragrance box 31 for specifying fragrance is communicated with the ventilation opening 512 of the fan module 50, and the fan module 50 is in operation. After receiving the fragrance stopping release control command, the driving module 40 starts and drives the fragrance box 31 to move, so that the baffle 422 seals the ventilation opening 512. The blower module 50 may stop operating at any time after receiving the scent stop release control command.

Referring to fig. 2 and 11, before the step of receiving a specified scent release control instruction, the scent generator control method includes the steps of: receiving an initialization control instruction of the fragrance generator 01; the control driving module 40 drives the spice box 31 to move a preset distance; control the drive module 40 to stop running; after the driving module 40 stops operating, the control identifying module 20 identifies the spice boxes 31 one by one; storing the perfume information of the perfume box 31; issuing stored perfume information; and receiving a perfume information confirmation instruction, and finishing initialization.

After receiving the control instruction of initializing the fragrance generator 01, the control driving module 40 drives the fragrance box 31 to move for a preset distance, the ventilation opening 512 of the fan module 50 is communicated with the ventilation opening 313 of the fragrance box 31, at this time, the control driving module 40 stops running, the control identifying module 20 identifies the current fragrance box 31 fragrance information and stores the fragrance information of the fragrance box 31, the control driving module 40 continues running, the ventilation opening 313 driving the fragrance box 31 to move to the next fragrance box 31 is communicated with the ventilation opening 512 of the fan module 50, the control driving module 40 stops running, the control identifying module 20 identifies the current fragrance box 31 fragrance information and stores the fragrance information of the fragrance box 31 until all the fragrance information of the fragrance boxes 31 is identified and stored, and the identified and stored fragrance information is issued for a user to confirm whether the fragrance information is correct or not. When the received perfume information confirms that the instruction is yes, the initialization is completed. When the perfume information confirmation instruction is received, the step of controlling the driving module 40 to drive the perfume cartridges 31 to move for a preset distance is returned, and perfume information of all perfume cartridges 31 is sequentially recognized and stored for confirmation by the user until the initialization of the perfume generator 01 is completed.

Referring to fig. 11, the present invention proposes a fragrance generator 01 and a control method thereof, wherein after the fragrance generator 01 uses or replaces the fragrance inside the fragrance box 31 for the first time, the fragrance generator 01 triggers an initialization program, and the driving module 40 is controlled to drive the fragrance box 31 to move a preset distance, so as to sequentially identify and store the fragrance information of each fragrance box 31, and after a user confirms that the fragrance information is correct, i.e. consistent with the actual fragrance information, the fragrance generator 01 completes initialization. If the feedback perfume information of the user is inconsistent with the actual perfume information, the perfume generator 01 starts the initialization program again until the user confirms that the perfume information is correct, and the perfume generator 01 completes initialization.

Referring to fig. 9, when a user needs to release the fragrance or switch the specified fragrance, the fragrance generator 01 starts the specified fragrance release program, the motor 441 of the driving module 40 starts, the gear 442 drives the moving box 42 to move a preset distance, and then the motor 441 stops moving, at this time, the moving box 42 stops moving, the identification module 20 provides the electronic label 312 on the fragrance box 31 to identify the fragrance information of the fragrance box 31, and if the fragrance information identified by the identification module 20 is different from the fragrance information corresponding to the specified fragrance release instruction, the motor 441 is started to move the moving box 42 to switch the next fragrance box 31 to communicate with the ventilation opening 512 to identify the fragrance information of the current fragrance box 31 again until the fragrance information identified by the identification module 20 is consistent with the fragrance information corresponding to the specified fragrance release instruction. When the perfume information identified by the identification module 20 is consistent with the perfume information corresponding to the specified perfume release instruction, the blower module 50 is activated, and air enters the air flow channel 53 from the air inlet 511. At this time, the ventilation opening 313 of the fragrance box 31, the ventilation opening 421 of the moving box 42 and the ventilation opening 512 of the fan module 50 are communicated, and the fragrance in the fragrance box 31 enters the airflow channel 53 via the ventilation opening 313, the ventilation opening 421 and the ventilation opening 512 to be mixed with the air, and the air with fragrance is released from the fan 52.

Referring to fig. 10, after receiving the fragrance stopping release control command, the motor 441 of the driving module 40 is started, and the gear 442 drives the moving box 42 to move, so that the shutter 422 closes the ventilation opening 512. The passage of the fragrance in the fragrance cartridge 31 into the air flow channel 53 is blocked and its fragrance cannot be released. The blower module 50 may stop operating at any time after receiving the scent stop release control command.

According to the technical scheme of the invention, by providing the fragrance generator 01 and the control method thereof, the storage module 30 is provided with the plurality of fragrance boxes 31, the identification module 20 can identify various fragrances in the fragrance boxes 31, and the control module 10 controls the driving module 40 to move the storage module 30 so that the ventilation openings 313 of different fragrance boxes 31 can be communicated with the ventilation openings 512 of the fan module 50, so that the fragrance in the fragrance boxes 31 is released, and the purpose that the fragrance generator 01 can switch different fragrances is achieved.

The invention also provides an air treatment device which can be an air conditioner, a purifier, a humidifier, a fan and the like. The air treatment device comprises the fragrance generator 01, and the specific structure of the fragrance generator 01 refers to the above embodiments, and because the air treatment device adopts all the technical schemes of all the above embodiments, the air treatment device at least has all the beneficial effects brought by the technical schemes of the above embodiments, and the details are not repeated here.

The foregoing description is only of the optional embodiments of the present invention, and is not intended to limit the scope of the invention, and all equivalent structural modifications made by the present description and accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the present invention.

Claims (17)

1. A scent generator, the scent generator comprising:

the storage module comprises a plurality of spice boxes, wherein the spice boxes are respectively provided with ventilation openings;

the fan module is provided with a ventilation opening, and the ventilation opening can be communicated with the ventilation opening so as to release fragrance in the spice box;

the driving module is connected with the storage module and used for driving the storage module to move so that any one ventilation port can be communicated with the ventilation port;

the control module is electrically connected with the driving module and the fan module;

the identification module is electrically connected with the control module and used for identifying the spice box.

2. A fragrance generator according to claim 1, wherein the fragrance cartridge bottom surface is provided with an electronic label for recognition by the recognition module.

3. The scent generator of claim 1 wherein said storage module further comprises a storage case having a plurality of baffles disposed therein, said plurality of baffles being spaced apart to form a plurality of receiving cavities, said receiving cavities receiving said scent cartridges.

4. A fragrance generator according to claim 3, wherein the top of the storage box is provided with limit grooves which are arranged on opposite sides of each containing cavity; limiting columns matched with the limiting grooves are arranged on two sides of the spice box.

5. The scent generator of claim 1 wherein said drive module comprises a mounting frame, a removable cartridge and a drive assembly, said removable cartridge being mounted to said mounting frame, said removable cartridge being removable within said mounting frame, said removable cartridge being mounted with a storage module, said removable cartridge having an upper surface provided with vents, said vents being in one-to-one correspondence with said scent cartridges, said removable cartridge upper surface further being provided with a baffle for sealing said vents.

6. The scent generator of claim 5 wherein a rack is provided on a side wall of the moving case; the driving assembly comprises a motor and a gear, the motor is installed on the installation frame, the motor is in driving connection with the gear, and the gear is in connection with the rack to drive the moving box to move on the installation frame.

7. The scent generator of claim 6 wherein said mounting bracket includes two side walls, one of said side walls being provided with a chute for movement of said rack, a relief opening being provided in a bottom of said chute, said gear being connected to said rack through said relief opening.

8. The scent generator of claim 7 wherein said mounting frame further comprises a bottom plate connecting said two side walls, said bottom plate being provided with rails on both sides thereof, said rails extending along said chute extension, said moving box bottom surface being provided on both sides thereof with notched grooves for movement in cooperation with said rails.

9. The scent generator of claim 5 wherein said drive module further comprises a hold down mechanism mounted to one end of said moving case, said hold down mechanism comprising a push button, said storage case being provided with a tab, said tab snap-fitting with said push button.

10. The scent generator of claim 9 wherein the hold-down mechanism further comprises a fastener, the fastener comprising a bolt, a spring and a nut, the bolts being disposed on opposite sides of the hold-down button, the bolts passing out of the moving case, the nuts being connected to one end of the bolts that pass out of the moving case, the spring being sleeved on the other end of the bolts, one end of the spring abutting the nut of the bolt, the other end abutting the moving case.

11. The scent generator of claim 1 wherein said fan module comprises a duct housing and a fan, said fan being connected to said duct housing, said duct housing having an air inlet for communicating air outside of said duct housing and a vent; an air flow channel is further arranged in the air channel shell, and the air inlet is communicated with the ventilation opening through the air flow channel.

12. The scent generator of claim 11 wherein said fan is a centrifugal fan.

13. An air treatment device comprising a flavour generator as claimed in any one of claims 1 to 12.

14. A method of controlling a fragrance generator according to claim 1, comprising the steps of:

receiving a specified fragrance release control instruction;

controlling the driving module to drive the spice box to move for a preset distance;

controlling the driving module to stop running;

after the driving module stops running, controlling the identification module to identify the spice box;

and controlling the fan module to start when the perfume information identified by the identification module is matched with the perfume information corresponding to the specified perfume release instruction.

15. The scent generator control method of claim 14, wherein after the step of controlling the recognition module to recognize the scent cartridge after the driving module stops operating, the scent generator control method further comprises:

and returning to the step of controlling the driving module to drive the perfume box to move for a preset distance when the perfume information identified by the identification module is not matched with the perfume information corresponding to the specified perfume release instruction.

16. The scent generator control method of claim 15, wherein the drive module comprises a removable box for mounting the storage module, the removable box having a baffle disposed on an upper surface thereof, the baffle configured to block the vent;

when the perfume information identified by the identification module is confirmed to be matched with the perfume information corresponding to the specified perfume release instruction, the method for controlling the perfume generator further comprises the following steps:

receiving a fragrance release stopping control instruction;

according to the received fragrance stopping release control instruction, controlling the driving module to drive the fragrance box to move, so that the baffle plate seals the ventilation opening;

And controlling the fan module to stop running.

17. The scent generator control method as set forth in claim 14, wherein prior to said step of receiving a specified scent release control instruction, said scent generator control method further comprises the step of:

receiving an initializing control instruction of a fragrance generator;

controlling the driving module to drive the spice box to move for a preset distance;

controlling the driving module to stop running;

after the driving module stops running, the identification module is controlled to identify the spice boxes one by one;

storing the fragrance information of the fragrance box;

issuing said stored fragrance information;

and receiving a perfume information confirmation instruction, and finishing initialization.