CN218661280U - Smell controller, smell diffusion system and vehicle - Google Patents

Abstract

The application provides a smell controller, smell system and vehicle of dispersing, the smell controller includes: the rotating core is provided with at least two containing cabins for containing the incense bodies; each containing cabin is provided with an opening which can be communicated with the outside; a frame body including a shielding portion for shielding an opening of a part of the accommodation compartment; the rotary core is rotatable relative to the shielding portion to switch the opening of the accommodation compartment shielded by the shielding portion. The application provides a smell controller, smell disperse system and vehicle sets up two at least holding cabins on rotatory core to the realization loads two at least fragrant bodies that can give off different smells on same rotatory core, and the smell that fragrant body gived off can get into the external world through the opening that holds the cabin, with the air smell that changes this application place environment. The opening of the containing cabin containing the unselected incense bodies is blocked and plugged by the blocking part, so that the opening of the containing cabin containing the currently selected incense bodies is exposed. The process of the application for changing the incense body is simple and convenient to operate and is rich in interestingness.

Description

Smell controller, smell diffusion system and vehicle

Technical Field

The application relates to the technical field of vehicles, in particular to a smell controller, a smell dispersing system and a vehicle.

Background

With the increasing demand of passengers for vehicle comfort, the passengers have individualized demands for the odor of the vehicle interior, and corresponding vehicle-mounted fragrance systems are gradually emerging. In order to meet different requirements of passengers on smells in the vehicle under different conditions, a plurality of fragrance bodies capable of emitting different smells need to be matched with the fragrance system. However, in the related art, since the manner in which the fragrance body is mounted to the fragrance system is complicated, the operation for the occupant to replace the fragrance body is cumbersome and inconvenient.

SUMMERY OF THE UTILITY MODEL

In view of this, this application has proposed a smell controller, smell system and vehicle of dispersing to solve the complicated comparatively inconvenient problem of change fragrant body operation.

In view of the above, the present application provides a scent controller comprising: the rotating core is provided with at least two containing cabins for containing the incense bodies; each accommodating cabin is provided with an opening which can be communicated with the outside; a rack body including a shielding portion for shielding a portion of the opening of the receiving compartment; wherein the rotary core is rotatable relative to the shade portion to switch the opening of the accommodation compartment that is shaded by the shade portion.

Further, the rotary core is movably connected with the shielding part relatively, the rotary core is connected with the shielding part in a clamping mode with multiple gears, and the shielding part shields different openings in different numbers.

Further, the odor controller also comprises a rotating shaft and a revolution shaft which is arranged along the radial direction of the rotating shaft in a staggered way; the rotating core is rotatably connected to the rotating shaft; the rotation shaft can rotate around the revolution shaft to adjust the extending amount of the rotation core relative to the shielding part.

Further, the rack body comprises a first inner wall and a second inner wall which are arranged oppositely, and an accommodating space for accommodating the rotating core is formed between the first inner wall and the second inner wall; the revolution shaft and the revolution shaft are connected end to end through a transition shaft, and one end of the revolution shaft, which is far away from the revolution shaft, is rotationally connected with the first inner wall; the opening set up in the rotatory core is kept away from the one end of revolution axle, the second inner wall form can with opening complex shielding part.

Further, first inner wall is equipped with transition axle spacing groove, the revolution axis with the tank bottom in transition axle spacing groove rotates to be connected, so that rotatory core is being close to shelter from the state of occlusion portion with keep away from switch between the open state of occlusion portion, rotatory core is in under the state of sheltering from, the cell wall in transition axle spacing groove with the transition axle offsets.

When the rotating core is close to the shielding part, the groove wall of the transition shaft limiting groove forms a stop for the transition shaft.

Furthermore, the second inner wall is provided with a rotation shaft guide groove, and the end part of the rotation shaft, which is far away from the revolution shaft, extends into the rotation shaft guide groove.

Further, the odor controller further comprises an urging device capable of corresponding to the accommodation compartment which is not covered by the shielding part, so as to accelerate the volatilization of the aroma body in the accommodation compartment.

Further, the smell controller also comprises a rotation shaft, the rotation core is rotatably connected with the rotation shaft, and the hair-inducing device is connected with the rotation shaft and is close to one end, far away from the shielding part, of the rotation core.

Based on the same inventive concept, the application also provides a scent dispersion system, which comprises a fragrance bomb internally containing a fragrance body, and a scent controller; the fragrance bomb detachable connect in hold the cabin, just the fragrance bomb be equipped with inside and the hold the cabin open-ended volatilization passageway.

Further, the odor controller further comprises an urging means; an inner contact is arranged in the accommodating cabin, the fragrance bomb comprises a heating assembly, and the heating assembly is connected with the inner contact when the fragrance bomb is connected into the accommodating cabin; the triggering device is provided with a triggering outer contact, and when the rotating core is close to the shielding part, the triggering outer contact is connected with the inner contact of the containing cabin which is not shielded by the shielding part, so that the heating component of the fragrance bomb in the containing cabin heats the fragrance body.

Furthermore, a suction body is arranged in the containing cabin and/or the fragrance bomb so that the fragrance bomb is connected in the containing cabin in a suction mode.

Based on the same inventive concept, the application also provides a vehicle comprising the odor controller or the odor emission system.

The application provides a smell controller, smell disperse system and vehicle sets up two at least holding cabins on rotatory core to the realization loads two at least fragrant bodies that can give off different smells on same rotatory core, and the smell that fragrant body gived off can get into the external world through the opening that holds the cabin, with the air smell that changes this application place environment. The opening of the containing cabin containing the incense bodies which are not selected is blocked and plugged by the blocking part arranged on the frame body, and only the opening of the containing cabin containing the incense bodies which are selected at present is exposed. When the fragrance body selected currently needs to be changed, the rotating core can be shifted to rotate, so that the currently exposed opening gradually moves to the shielding part and is shielded and blocked, meanwhile, the originally shielded opening of the new accommodating cabin is gradually exposed, and the odor emitted by different fragrance bodies in the new accommodating cabin enters the outside through the newly exposed opening so as to replace the air odor of the current environment. The process of this application transform fragrant body is easy and simple to handle, and the study threshold is low, and is rich in the interest.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic view of an odor controller of an embodiment of the present application;

FIG. 2 is an exploded view of the odor controller of an embodiment of the present application;

FIG. 3 is a schematic end view of a rotary core of an odor controller in accordance with an embodiment of the present application;

FIG. 4 is a schematic view of a rotary core of an odor controller of an embodiment of the present application as it approaches a shield portion;

FIG. 5 is a schematic view of a rotary core of the odor controller of an embodiment of the present application as it moves away from the cover;

FIG. 6 is a schematic view of an odor dispensing system according to an embodiment of the present application;

fig. 7 is an exploded view of an odor dispensing system in accordance with an embodiment of the present application.

Description of reference numerals:

1. rotating the core; 11. a housing compartment; 111. an opening; 112. an inner contact;

2. a frame body; 21. a first inner wall; 211. a transition shaft limiting groove; 22. a second inner wall; 221. a spinning shaft guide groove; 23. an accommodating space;

3. a rotation shaft; 4. a revolution axis; 5. a transition shaft; 6. a dispensing device;

7. fragrance bomb; 71. and (4) volatilizing the channel.

Detailed Description

In order that the above-mentioned objects, features and advantages of the present application may be more clearly understood, the solution of the present application will be further described below. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways than those described herein; it is to be understood that the embodiments described in this specification are only some embodiments of the present application and not all embodiments.

As shown in fig. 1, 2 and 4, embodiments of the present application provide a scent controller comprising: the rotary core 1 is provided with at least two containing cabins 11 for containing the incense body; each of the accommodation compartments 11 is provided with an opening 111 capable of communicating with the outside; a rack body 2 including a shielding portion for shielding a part of the opening 111 of the receiving compartment 11; wherein the rotary core 1 is rotatable with respect to the shielding portion to switch the opening 111 of the accommodation compartment 11 shielded by the shielding portion.

Optionally, the rotating core 1 is rotatably connected to the frame body 2, and the frame body 2 is used for supporting the rotating core 1 and enabling the rotating core 1 and the shielding portion to keep a preset relative position. Of course, the rotary core 1 may be connected to the vehicle interior through another mounting structure (e.g., an adhesive structure) instead of being connected to the frame body 2, and the frame body 2 is used only for maintaining the relative position between the shielding portion and the rotary core 1.

Alternatively, when the fragrance body is solid, it may be directly loaded into the holding chamber 11, or may be loaded into the holding chamber 11 together with the casing after being loaded into the casing. When the fragrance is a liquid, the fragrance is contained in a container (such as a housing or a bottle) and is loaded into the receiving compartment 11 together with the container.

When the incense body is loaded into the accommodation compartment 11 of the rotary core 1, the rotary core 1 can be rotated by being pushed so that the opening 111 of the empty accommodation compartment 11 is exposed, and at this time, the opening 111 of the empty accommodation compartment 11 is not shielded by the shielding part. Then, the incense body is loaded into the empty containing cabin 11 from the opening 111, and the loading work of the incense body into the containing cabin 11 can be completed. If other empty containing cabins 11 are arranged on the rotary core 1 and the incense bodies with different smells need to be loaded, the rotary core 1 can be continuously rotated to switch the opening 111 of other empty containing cabins 11 from the state of being shielded by the shielding part to the exposed state, and different incense bodies can be loaded into the empty containing cabins 11 through the opening 111, and so on.

When the opening 111 of the containing compartment 11 is not blocked by the blocking portion, the odor emitted from the incense body contained therein enters the outside through the opening 111 to change the air odor in the current environment. Similarly, when the air odor in the current environment needs to be replaced, the rotating core 1 is turned, the rotating core 1 rotates to gradually shield the currently exposed opening 111 by the shielding part, and the originally shielded opening 111 adjacent to the opening 111 is gradually exposed. Since the accommodation chamber 11 corresponding to the newly exposed opening 111 is loaded with different scent bodies, the new scent emitted from the new scent body enters the outside through the newly exposed opening 111 to replace the air scent in the current environment.

The odor controller provided by the embodiment of the application is provided with at least two containing cabins 11 on the rotating core 1, so that at least two fragrance bodies capable of emitting different odors are loaded on the same rotating core 1, and the odors emitted by the fragrance bodies can enter the outside through the opening 111 of the containing cabins 11, so that the air odor of the environment where the odor controller of the embodiment is located can be changed. The opening 111 of the containing cabin 11 containing the unselected incense bodies is blocked and plugged by the blocking part arranged on the frame body, and only the opening 111 of the containing cabin 11 containing the currently selected incense bodies is exposed. When the fragrance body selected currently needs to be changed, the rotating core 1 can be shifted to rotate, so that the currently exposed opening 111 gradually moves to the shielding part and is shielded and blocked, meanwhile, the originally shielded opening 111 of the new containing cabin 11 is gradually exposed, and the odor emitted by different fragrance bodies in the new containing cabin 11 enters the outside through the newly exposed opening 111 to replace the air odor of the current environment. The process of loading and changing the fragrance body of the odor controller of the embodiment is simple and convenient to operate, low in learning threshold and rich in interestingness.

As shown in fig. 4 and 5, in some embodiments, the rotary core 1 is movably connected to the shielding portion, the rotary core 1 is connected to the shielding portion in a multi-shift-position snap-fit manner, and the shielding portion shields the openings 111 in different shift positions in different numbers.

For example, the rotary core 1 and the shielding portion include a first shift position close to each other and a second shift position far away from each other, and the rotary core 1 can be respectively connected with the shielding portion in a clamping manner when in the first shift position and the second shift position so as to keep the relative positions of the two. The rotary core 1 is capable of switching activity back and forth between a first gear and a second gear.

For example, when the rotary core 1 is in the second shift position, the shielding portion shields the opening 111 by a number a, and when the rotary core 1 is in the first shift position, the shielding portion shields the opening 111 by a number b, where a is smaller than b.

Alternatively, the whole rotary core 1 can be moved close to or away from the shielding portion by moving along a straight line, turning over or moving along a curved track in the axial direction or the radial direction.

When the rotary core 1 is located at the first gear position, that is, close to the shielding portion, the shielding portion can shield most of the openings 111 of the accommodating compartment 11, and only one opening 111 is left to be exposed, so that the odor emitted by the fragrance body in the accommodating compartment 11 corresponding to the opening 111 can independently enter the outside. The odor emitted by different incense bodies loaded in different containing cabins 11 can be prevented from entering the outside simultaneously due to the simultaneous exposure of a plurality of openings 111, so that the air odor in the environment can be prevented from being mixed.

When the rotary core 1 is located at the second shift position, i.e. away from the shielding portion, most or all of the openings 111 of the accommodating compartments 11 are exposed, so that a user can load different incense bodies into each accommodating compartment 11 quickly.

As shown in fig. 1, 4 and 5, in some embodiments, the odor controller further comprises a rotation shaft 3 and a revolution shaft 4 arranged along the radial direction of the rotation shaft 3; the rotating core 1 is rotatably connected to the rotating shaft 3; the rotation shaft 3 can rotate around the revolution shaft 4 to adjust the protruding amount of the rotation core 1 relative to the shielding part.

Comparing fig. 4 and 5, when the rotation shaft 3 rotates around the revolution shaft 4, the rotation core 1 connected to the rotation shaft 3 moves along a curved track to realize the switching activity between different gears, and when the rotation core 1 is located at different gears, the protruding amount of the rotation core 1 relative to the shielding part is different. For example, when the rotary core 1 is in the first shift position, only one opening 111 is left to expose the shielding portion, and thus the amount of protrusion thereof with respect to the shielding portion is small; when the rotary core 1 is in the second position, most or all of the openings 111 expose the shielding portion, and thus the amount of protrusion thereof with respect to the shielding portion is large. Compared with other moving modes of the rotary core 1, the moving mode along the curved track can ensure that the space occupied by the movement of the rotary core 1 is smaller, and the rotary core is suitable for smaller spaces such as a vehicle cabin. At the same time, the odor controller of this embodiment can also be made more compact.

As shown in fig. 1, 2, 4 and 5, in some embodiments, the frame body 2 includes a first inner wall 21 and a second inner wall 22 which are oppositely arranged, and a receiving space 23 for receiving the rotary core 1 is formed between the first inner wall 21 and the second inner wall 22; the revolution shaft 3 and the revolution shaft 4 are connected end to end through a transition shaft 5, and one end of the revolution shaft 4, far away from the revolution shaft 3, is rotatably connected with the first inner wall 21; the opening 111 of the containing compartment 11 is disposed at one end of the rotating core 1 far away from the revolution axis 4, and the second inner wall 22 forms the shielding portion capable of cooperating with the opening 111.

Alternatively, the openings 111 of the containing compartments 11 are evenly spaced along the circumference of the rotary core 1.

Optionally, the frame body 2 is provided with mounting structure to enable the odour controller of this embodiment to be secured in its environment.

As exemplified by the structure shown in fig. 1, the revolution axis 4 is rotatably connected to the first inner wall 21, and the frame body 2 can provide support for the rotary core 1 through the first inner wall 21. When the rotary core 1 is close to the shielding part formed by the second inner wall 22, as shown in fig. 4, the shielding part shields most of the openings 111, and only one opening 111 is exposed, so that the odor emitted by a single incense body can independently enter the outside. When the rotation shaft 3 drives the rotation core 1 to rotate around the revolution shaft 4, the rotation core 1 is far away from the shielding part formed by the second inner wall 22, as shown in fig. 5, at least part of the rotation core 1 is screwed out of the accommodating space 23, and most of the opening 111 of the accommodating chamber 11 is exposed, so that a user can load or replace the incense body in the accommodating chamber 11.

The odor controller of this embodiment through support body 2 can vertically place (rotating core 1 vertical rotation promptly) or the level is placed (rotating core 1 horizontal rotation promptly) to support rotating core 1 through first inner wall 21, form the shielding part through second inner wall 22, realize mutually supporting between shielding part and the rotating core 1.

As shown in fig. 2 and 5, in some embodiments, the first inner wall 21 is provided with a transition shaft limiting groove 211, and the revolution shaft 4 is rotatably connected to a groove bottom of the transition shaft limiting groove 211, so that the rotary core 1 is switched between a shielding state close to the shielding portion and an open state far away from the shielding portion, and in the shielding state of the rotary core 1, a groove wall of the transition shaft limiting groove 211 abuts against the transition shaft 5.

When the rotating core 1 is close to the shielding part, the groove wall of the transition shaft limiting groove 211 forms a stop for the transition shaft 5.

Alternatively, the central axis of the spinning shaft 3 (see the chain line c in fig. 1) and the central axis of the revolution shaft 4 (see the chain line d in fig. 1) are parallel, and the central axis of the transition shaft 5 (see the chain line e in fig. 1) is perpendicular to each other.

The transition shaft limiting groove 211 can at least accommodate part of the transition shaft 5, when the rotating core 1 moves to a position far away from the shielding part and approaches the shielding part along a curve track around the revolution shaft 4, when most of the openings 111 are shielded by the shielding part and only one opening 111 is left to be exposed, the transition shaft 5 is abutted against the groove wall of the transition shaft limiting groove 211, and the rotating core 1 does not move continuously under the blocking effect of the groove wall of the transition shaft limiting groove 211 to keep the current position. Through set up transition axle spacing groove 211 on first inner wall 21, can the person of facilitating the use will keep away from the rotatory core 1 of shielding portion and remove the position that is close to the shielding portion, avoid carrying out many times adjustment to the position of rotatory core 1 at above-mentioned in-process.

As shown in fig. 1 and 2, in some embodiments, the second inner wall 22 is provided with a rotation shaft guide groove 221, and an end of the rotation shaft 3 far from the rotation shaft 4 extends into the rotation shaft guide groove 221.

Alternatively, the moving track of the rotation shaft 3 moving around the revolution shaft 4 is a curved track, and the extending shape of the rotation shaft guide groove 221 matches with the curved track.

In the case of incorporating a plurality of fragrance bodies, the rotary core 1 is heavy, and since the first inner wall 21 supports the rotary core 1 only from one end thereof, there is a possibility that the end of the rotary core 1 remote from the first inner wall 21 may be inclined downward. In order to avoid this, the second inner wall 22 is provided with a rotation shaft guide groove 221, and the end of the rotation shaft 3 remote from the revolution shaft 4 is extended out of the rotation core 1 and into the rotation shaft guide groove 221. In this way, the groove wall of the spinning shaft guide groove 221 can support the spinning shaft 3 during the approach of the spinning core 1 to the shielding portion and during the use of the odor controller of the present embodiment.

As shown in fig. 1 and 2, in some embodiments, the scent controller further comprises an urging device 6, which can correspond to the containing compartment 11 that is not covered by the covering portion when the rotary core 1 is close to the covering portion, so as to accelerate the volatilization of the scent body in the containing compartment 11.

Optionally, when the triggering device 6 corresponds to the accommodating compartment 11, volatilization of the fragrance body can be accelerated by heating the fragrance body in the accommodating compartment 11 or by blowing air into the accommodating compartment 11, so that the fragrance gas emitted by the fragrance body can enter the external environment through the opening 111 more quickly, and the air odor of the current environment can be changed more quickly.

As shown in fig. 1 and 2, in some embodiments, the urging device 6 is connected to the rotation shaft 3 and is close to one end of the rotation core 1 far away from the shade.

Optionally, the trigger device 6 is fixedly connected to the spinning shaft 3.

The device 6 of forcing out is close to rotatory core 1, can make the smell controller structure of this embodiment compacter on the one hand, and on the other hand also can make the device 6 of forcing out correspond with holding cabin 11 on the rotatory core 1 better, further improves the volatile efficiency of fragrant body.

Based on the same inventive concept and in combination with the description of the odor controllers of the above embodiments, the present embodiment provides an odor dispersion system, which has the corresponding technical effects of the odor controllers of the above embodiments, and will not be described herein again.

As shown in fig. 6 and 7, a scent dispersion system includes a fragrance cartridge 7 having a fragrance body contained therein, and a scent controller according to any of the above embodiments; the fragrance bomb 7 is detachably connected in the containing cabin 11, and the fragrance bomb 7 is provided with a volatilization channel 71 which is communicated with the inside of the containing cabin 11 and the opening 111.

Optionally, the body is solid or liquid. When the perfume body is liquid, in order to avoid the perfume body from overflowing the perfume bomb 7 through the volatilization channel 71, a film body which is permeable to air and impermeable to liquid is arranged in the volatilization channel 71, such as a microporous film or a polytetrafluoroethylene waterproof breathable film.

The provision of the fragrance bodies within the fragrance cartridge 7 on the one hand provides protection for the fragrance bodies and on the other hand also helps to simplify the loading of the fragrance bodies into the receiving compartment 11.

As shown in fig. 3 and 7, in some embodiments, an inner contact 112 is disposed in the accommodation compartment 11, and the fragrance bomb 7 includes a heating element, and the heating element is connected with the inner contact 112 when the fragrance bomb 7 is connected in the accommodation compartment 11; the forcing device 6 is provided with a forcing outer contact which is connected with the inner contact 112 of the containing cabin 11 which is not shielded by the shielding part when the rotating core 1 approaches the shielding part, so that the heating component of the fragrance bomb 7 in the containing cabin 11 heats the fragrance body.

Optionally, the inner contact 112 and the triggering outer contact are both conductive metal contacts.

The outer contact points can provide electric energy for the heating component of the fragrance bomb 7 through the inner contact points 112, so that the heating component works to heat the fragrance body contained in the fragrance bomb 7, and the effect of accelerating the volatilization of the fragrance body is achieved.

As shown in fig. 6 and 7, in some embodiments, a suction body is provided in the accommodating compartment 11 and/or the fragrance bomb 7, so that the fragrance bomb 7 is connected in the accommodating compartment 11 in a suction manner. The assembly process of the fragrance bomb 7 in the containing cabin 11 is simplified.

Optionally, the magnetic attraction body is a magnetic attraction piece, such as a magnet or an electromagnet.

For example, a magnetic member is arranged on the inner wall of the accommodating chamber 11, and a magnetic metal is arranged on the fragrance bomb 7, so that the fragrance bomb 7 is connected in the accommodating chamber 11 in a suction manner.

For another example, a magnetic metal is arranged on the inner wall of the accommodating chamber 11, and a magnetic attraction piece is arranged on the fragrance bomb 7 to realize that the fragrance bomb 7 is attracted and connected in the accommodating chamber 11.

For another example, magnetic attraction pieces are arranged on the inner wall of the accommodating cabin 11 and the fragrance bomb 7 to realize that the fragrance bomb 7 is attracted and connected in the accommodating cabin 11.

Based on the same inventive concept, in combination with the description of the odor controller and the odor emission system of the above embodiments, this embodiment provides a vehicle having the corresponding technical effects of the odor controller and the odor emission system of the above embodiments, which are not described herein again.

A vehicle comprising a scent controller or scent diffusion system of the above embodiments.

The odor controller or the odor diffusing system is mounted on the instrument panel or the sub-instrument panel, and can improve the luxurious feeling and delicate feeling of the vehicle interior.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising one of 8230; \8230;" 8230; "does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

Claims (12)

1. A scent controller, comprising:

the rotating core is provided with at least two containing cabins for containing the incense bodies; each accommodating cabin is provided with an opening which can be communicated with the outside;

a rack body including a shielding portion for shielding a portion of the opening of the receiving compartment;

wherein the rotary core is rotatable relative to the shade portion to switch the opening of the accommodation compartment that is shaded by the shade portion.

2. The odor controller as claimed in claim 1, wherein said rotary core is movably connected to said shielding portion, said rotary core is connected to said shielding portion by multi-step locking, and said shielding portion shields said openings in different steps in different numbers.

3. The odor controller as claimed in claim 2, further comprising a rotation shaft and a revolution shaft disposed offset in a radial direction of said rotation shaft; the rotating core is rotatably connected to the rotating shaft; the rotation shaft can rotate around the revolution shaft to adjust the extending amount of the rotation core relative to the shielding part.

4. The odor controller of claim 3 wherein said housing includes first and second oppositely disposed interior walls defining a receiving space therebetween for receiving said rotatable core;

the revolution shaft and the revolution shaft are connected end to end through a transition shaft, and one end of the revolution shaft, which is far away from the revolution shaft, is rotationally connected with the first inner wall; the opening set up in the rotatory core is kept away from the one end of revolution axle, the second inner wall form can with opening complex shielding part.

5. The odor controller as claimed in claim 4, wherein said first inner wall is provided with a transition shaft limiting groove, said revolution shaft being rotatably connected to a groove bottom of said transition shaft limiting groove to switch said rotary core between a shielding state close to said shielding portion and an open state far from said shielding portion, said rotary core being in said shielding state with a groove wall of said transition shaft limiting groove abutting against said transition shaft.

6. The odor controller as claimed in claim 4, wherein said second inner wall is provided with a spinning shaft guide groove, and an end of said spinning shaft remote from said spinning shaft is projected into said spinning shaft guide groove.

7. The odor controller as claimed in claim 1, further comprising an urging means capable of corresponding to said holding compartment which is not shielded from said opening by said shielding portion to accelerate volatilization of said fragrance body in said holding compartment.

8. The odor controller as claimed in claim 7, further comprising a rotation shaft, said rotation core being rotatably connected to said rotation shaft, said triggering device being connected to said rotation shaft and being located near an end of said rotation core remote from said blocking portion.

9. A scent dispersal system comprising a fragrance cartridge having a fragrance body contained therein, and a scent controller as claimed in any one of claims 1 to 8; the fragrance bullet detachable connect in hold the cabin in, just the fragrance bullet be equipped with inside the intercommunication with hold the cabin the open-ended channel of volatilizing.

10. The scent diffusion system of claim 9 wherein said scent controller further comprises an urging means;

an inner contact is arranged in the accommodating cabin, the fragrance bomb comprises a heating assembly, and the heating assembly is connected with the inner contact when the fragrance bomb is connected into the accommodating cabin; the hair-forcing device is provided with a hair-forcing outer contact, and when the rotating core is close to the shielding part, the hair-forcing outer contact is connected with the inner contact of the accommodating cabin which is not shielded by the shielding part, so that the heating component of the fragrance bomb in the accommodating cabin heats the fragrance body.

11. The scent diffusion system of claim 9 wherein said holding compartment and/or said fragrance cartridge is provided with a suction attachment to allow said fragrance cartridge to be snap-fit into said holding compartment.

12. A vehicle comprising an odour controller as claimed in any one of claims 1 to 8 or an odour dispensing system as claimed in any one of claims 9 to 11.

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