CN217525881U - Fragrance machine - Google Patents

Abstract

The embodiment disclosed in the application relates to atomizing device technical field, especially relates to a perfume machine, and this perfume machine includes: the device comprises a shell, a partition plate, a plurality of connecting seats, a plurality of air blowing devices and a main control board; the shell is provided with an accommodating space, and the partition board is arranged in the accommodating space and divides the accommodating space into an upper cavity and a lower cavity; the upper cavity is used for arranging the atomizing component; each connecting seat is arranged on one side of the partition plate facing the upper cavity and is used for detachably connecting the atomizing assembly, and each connecting seat is provided with an air channel; each blowing device is arranged in the lower cavity and corresponds to the connecting seat, and each blowing device is provided with an air outlet side communicated with the air channel of the corresponding connecting seat; the main control board is respectively electrically connected with the air blowing devices and is used for opening one or more air blowing devices after receiving the fragrance outputting instruction so as to enable the one or more air blowing devices to blow air. Compared with the related technology, the fragrant incense can play a role in mixing fragrance, and the use requirements of more scenes are met.

Description

Fragrance machine

Technical Field

The embodiment disclosed in the application relates to atomizing device technical field, especially relates to a fragrant atmosphere machine.

Background

An atomizer is an electronic product that atomizes a liquid by heating and generates an atomized material, and the atomizer is widely used in various fields, such as medical fields, home fields, and the like. At present, some atomizers are applied to a fragrance machine, the atomizer is used for atomizing fragrant liquid, and the atomized fragrant liquid is sprayed out along with airflow, so that the taste in the air is changed, and the purpose of inhibiting peculiar smell is achieved.

SUMMERY OF THE UTILITY MODEL

An object of this application embodiment is to provide a fragrant atmosphere machine, can be at the during operation simultaneously with the atomizing medium blowout that a plurality of atomization component atomizing formed, reach the purpose of mixing fragrant to a plurality of atomization component to can satisfy the user demand in more scenes.

To achieve the above object, an embodiment of the present application provides a fragrance machine including:

a housing; the shell is provided with an accommodating space;

the partition board is arranged in the accommodating space and divides the accommodating space into an upper cavity and a lower cavity along a first preset axis direction; the upper cavity is used for arranging an atomizing assembly;

the connecting seats are arranged on one side of the partition plate, which faces the upper cavity; each connecting seat is used for detachably connecting the atomizing assembly and is provided with an air channel;

the plurality of air blowing devices are arranged in the lower cavity; the blowing devices are arranged corresponding to the connecting seats, each blowing device is provided with an air outlet side capable of blowing air, and the air outlet side of each blowing device is communicated with the air outlet channel of the corresponding connecting seat;

the main control board is electrically connected with each air blowing device; the main control panel is used for receiving a fragrance outputting instruction and opening one or more blowing devices after receiving the fragrance outputting instruction so that the one or more blowing devices blow out gas.

The embodiment of this application is for relevant art, because be equipped with the baffle in the accommodation space of fragrance casing, the baffle can be followed first predetermined axis direction and separated into cavity and lower cavity with the accommodation space, wherein, go up the cavity and be used for installing atomization component, and simultaneously, the baffle sets up a plurality of connecting seats towards one side of last cavity, each connecting seat is used for detachably connecting atomization component, and, each connecting seat has the passageway of walking, can make things convenient for atomization component to install through the connecting seat, still be convenient for take out atomization component from last cavity, in addition, be equipped with a plurality of gas blowing device in the lower cavity, and gas blowing device corresponds the setting with the connecting seat, each gas blowing device has the gas side, and, each gas blowing device's the gas side communicates with the passageway of walking of the connecting seat that corresponds. Simultaneously, each gas blowing device still all is connected with the main control board electricity of fragrant atmosphere machine. Therefore, after the main control board receives the fragrance outputting instruction, one or more air blowing devices can be opened according to the received fragrance outputting instruction, so that one or more air blowing devices blow air into the corresponding atomizing assemblies, the atomizing medium formed by atomizing one or more atomizing assemblies is blown out, the purpose of mixing fragrance of a plurality of atomizing assemblies can be achieved, and the fragrance machine can meet the use requirements of more scenes.

In some embodiments, the fragrance machine further comprises: the power supply module is electrically connected with the main control board; each of the air blowing devices includes:

the fan assembly is arranged in the lower cavity; the fan assembly is provided with an air outlet channel, the air outlet channel extends towards the direction of the partition plate, and one side of the air outlet channel, which faces the partition plate, is the air outlet side;

the metal contact is arranged on the connecting seat and is used for being electrically connected with the atomizing assembly arranged on the connecting seat;

the fan assembly and the metal contact of each air blowing device are electrically connected with the main control board, and the main control board is used for electrically conducting the fan assembly of the air blowing device with the power supply module when the metal contact of any one air blowing device is electrically connected with the atomization assembly.

In some embodiments, the metal contact is a spring contact.

In some embodiments, the fan assembly comprises:

the air collecting cover is connected with the connecting seat and is provided with the air outlet channel;

the fan is used for blowing air to the air outlet channel of the air collecting cover; the fan is electrically connected with the main control board.

In some embodiments, the air outlet channel is coaxially disposed with the corresponding connecting seat, and the air outlet channel includes:

the rectifying channel is communicated with the air passing channel of the connecting seat and formed by extending towards the direction far away from the connecting seat;

the expansion channel is formed by expanding and extending from one end, far away from the connecting seat, of the rectifying channel to the direction far away from the rectifying channel.

In some embodiments, the connection receptacle comprises:

the annular bearing part is opposite to and parallel to the partition plate; the annular bearing part is provided with an inner side and an outer side opposite to the inner side;

an annular supporting part formed by bending and extending the outer side of the annular bearing part towards the direction of the partition plate;

the annular bulge is formed by bending and extending the inner side of the annular bearing part in the direction away from the partition plate;

the annular bulge surrounds the air passing channel and is inserted into the air collecting cover part, and the metal contact is arranged on one side, far away from the partition plate, of the annular bearing part.

In some embodiments, the inner side surface of the annular protrusion is an annular slope so that the air passage gradually expands and extends toward the partition;

the part of the air collecting cover inserted into the air passage is attached to the inner side surface of the annular convex part.

In some embodiments, the atomization assembly comprises:

a core body; the core comprises, around a second predetermined axis direction: the device comprises an outer wall, an inner wall opposite to the outer wall, and an annular connecting wall for connecting the inner wall and the outer wall; an accommodating cavity capable of accommodating a liquid medium is formed between the outer wall and the inner wall, the inner wall surrounds the second preset axis direction to form an air duct, one end of the air duct in the second preset axis direction is an air inlet end communicated with the air outlet side of the air blowing device, and the other end of the air duct is an air outlet end;

and the electric connecting piece is arranged on one side of the annular connecting wall, which is far away from the containing cavity, and is used for being electrically connected with the metal contact.

In some embodiments, the electrical connector comprises:

the mounting ring and the annular connecting wall are arranged opposite to each other along the direction of the second preset axis;

the metal connecting piece is arranged on one side of the annular connecting wall, which is far away from the containing cavity; the metal connecting piece is also connected with the mounting ring and is partially exposed on one side of the mounting ring away from the annular connecting wall to form a metal terminal;

the first magnetic part is arranged on one side, away from the annular connecting wall, of the mounting ring, and the first magnetic part is connected with the connecting seat in a magnetic mode.

In some embodiments, the atomizing assembly further comprises:

the liquid suction heating device is arranged at the air inlet end and is electrically connected with the electric connecting piece; the liquid suction heating device is used for sucking the liquid medium in the containing cavity;

when the electric connecting piece of the atomizing assembly is electrically connected with the metal contact of any one of the air blowing devices, the main control board is used for electrically communicating the power supply module with the liquid suction heating device through the metal contact of the air blowing device after receiving an aroma outlet instruction.

In some embodiments, the liquid-imbibing heating device comprises:

the supporting cover is arranged at the air outlet end along the direction of the second preset axis; the support cover is also provided with an air outlet hole communicated with the air outlet end and a liquid suction hole communicated with the accommodating cavity along the second preset axis direction;

the liquid absorbing material is arranged on one side of the supporting cover, which is far away from the air outlet end, and covers the air outlet hole; at least part of the liquid absorbing material penetrates through the liquid absorbing hole to enter the containing cavity and is used for absorbing the liquid medium in the containing cavity;

the heating component is arranged on one side of the supporting cover, which is far away from the air outlet end; wherein the heating element is wrapped by the wicking material at the vent, the heating element further electrically connected to the electrical connector.

In some embodiments, the heating part is a heating wire, and the support cover includes: the side wall surrounds the supporting plate to form an accommodating area for accommodating the liquid absorbing material, and the supporting plate is provided with the liquid absorbing hole and the air outlet hole;

the side wall is provided with a clamping groove for clamping the heating wire, and parts of the heating wire extend out of the accommodating area through the clamping groove and are bent and extended towards the direction of the air inlet end.

Drawings

FIG. 1 is a schematic view of the internal structure of a fragrance machine according to some embodiments of the present application, wherein only a portion of the fragrance machine is shown;

FIG. 2 is an enlarged view of a portion of FIG. 1 at B;

FIG. 3 is a schematic view of an assembly of a fragrance machine and atomizing assembly according to some embodiments of the present application;

FIG. 4 is a block diagram of system modules of a fragrance machine according to some embodiments of the present application;

FIG. 5 is a schematic diagram of the atomizing assembly of the fragrance machine in some embodiments of the present application;

FIG. 6 is a schematic view of the combination of the blowing unit and the atomizing assembly of the fragrance machine according to some embodiments of the present application;

FIG. 7 is a schematic diagram of the atomizing assembly of the fragrance machine in some embodiments of the present application;

FIG. 8 is a schematic view of the assembly of the blowing assembly and atomizing assembly of the fragrance machine of some embodiments of the present application;

FIG. 9 is a schematic top view of an atomizing assembly of a fragrance machine of some embodiments of the present application with the cover removed;

FIG. 10 is a block diagram of system modules of a fragrance machine according to some embodiments of the present application.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present application more clear, the embodiments of the present application will be described in detail below with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that numerous technical details are set forth in various embodiments of the present application in order to provide a better understanding of the present application. However, the technical solution claimed in the present application can be implemented without these technical details and various changes and modifications based on the following embodiments.

When the fragrance machine is used, atomizing assemblies with different fragrance types can be adopted according to different scenes, so that atomizing gas with different fragrances can be sprayed when the fragrance machine works, but the fragrance machine only can atomize the liquid medium in the currently installed atomizing assembly when the fragrance machine works. Meanwhile, the atomizing component has a plurality of different fragrance types, but the fragrance types are still few, so that the use scene is still limited.

In order to overcome the above problems, some embodiments of the present application provide a fragrance machine, as shown in fig. 1, the fragrance machine includes a housing 1, a partition plate 2, a plurality of air blowing devices 3, a plurality of connecting seats 5, and a main control panel 4.

As shown in fig. 1 and fig. 3, the housing 1 has an accommodating space 11, the partition board 2 is disposed in the accommodating space 11, and the partition board 2 divides the accommodating space 11 into an upper cavity 111 and a lower cavity 112 along a first predetermined axial direction a. Wherein, the upper chamber 111 is used for arranging the atomizing assembly 10. As shown in fig. 1, each connecting seat 5 is disposed on one side of the partition board 2 facing the upper cavity 111, and each connecting seat 5 is used for detachably connecting the atomizing assembly 10, and each connecting seat 5 has an air passage 52. It should be noted that the first predetermined axial direction a mentioned above is the central axial direction of the whole fragrance machine.

As shown in FIG. 1, each blowing device 3 is disposed in the lower cavity 112, the blowing devices 3 are disposed corresponding to the connecting bases 5, each blowing device 3 has an air outlet side 31 capable of blowing air, and the air outlet side 31 of each blowing device 3 is communicated with the air passage 52 of the corresponding connecting base 5.

As shown in fig. 4, a main control board 4 is electrically connected to each air blowing device 3, and the main control board 4 is configured to receive a fragrance emission command and to turn on one or more air blowing devices 3 after receiving the fragrance emission command, so that the one or more air blowing devices 3 blow air.

It can be seen from the above description that, since the partition plate 2 is disposed in the accommodating space 11 of the housing 1 of the fragrance machine, the accommodating space 11 can be divided into the upper cavity 111 and the lower cavity 112 along the first preset axis direction a by the partition plate 2, wherein the upper cavity 111 is used for installing the atomizing assembly 10, the partition plate 2 is provided with a plurality of connecting seats 5 facing one side of the upper cavity 11, each connecting seat 5 is used for detachably connecting the atomizing assembly 10, and each connecting seat 5 has an air outlet channel 52, which facilitates the installation of the atomizing assembly 10 and also facilitates the taking out of the atomizing assembly 10 from the upper cavity 111 through the connecting seat 5, in addition, the lower cavity 112 is provided with a plurality of air blowing devices 3, and the air blowing devices 3 are disposed corresponding to the connecting seats 5, each air blowing device 3 has an air outlet side 31, and the air outlet side 31 of each air blowing device 3 is communicated with the air outlet channel of the corresponding connecting seat 5, and each air blowing device 3 is also electrically connected with the main control board 4 of the fragrance machine. Therefore, after the main control board 4 receives the fragrance outputting instruction, one or more air blowing devices 3 can be opened according to the received fragrance outputting instruction, so that the one or more air blowing devices 3 respectively blow air into the corresponding atomization assemblies 10, thereby blowing out the atomized media formed by atomization in the one or more atomization assemblies 10, and the atomized media blown out from the atomization assemblies 10 can be mixed in the upper cavity 111 of the shell 1, so as to achieve the purpose of fragrance mixing, and the fragrance machine can meet the use requirements of more scenes.

Additionally, in some embodiments, as shown in connection with fig. 4, the fragrance machine may further include a power module 20 electrically connected to the main control board 4. As shown in fig. 1, each of the air blowing devices 3 includes: a fan assembly 32 and metal contacts 33. The fan assembly 32 is disposed in the lower cavity 112, and the fan assembly 32 has an air outlet channel 321, the air outlet channel 321 is formed by extending towards the direction of the partition board 2, and one side of the air outlet channel 321 facing the partition board 2 is an air outlet side 31. In the present embodiment, as shown in fig. 1, the metal contact 33 is provided on the connection holder 5 and electrically connected to the atomization assembly 10 mounted on the connection holder 5. Wherein, the fan assembly 32 and the metal contact 33 of each air blowing device 3 are electrically connected with the main control board 4. Therefore, in some embodiments, as shown in fig. 4, when the metal contact 33 of any one of the air blowing devices 3 is electrically connected to the atomizing assembly 10, the air blowing device 3 can directly output an electrical signal to the main control board 4, so that the main control board 4 can directly control the fan assembly 32 of the air blowing device 3 to be electrically connected to the power module 20, so that the air blowing device 3 can be switched to a standby state, and thus the main control board 4 can effectively control the on/off of the air blowing device 3.

In order to realize the electric connection between the atomizing assembly 10 and the metal contact 33 on the connecting base 5, and at the same time, in order to enable the fan assembly 32 of the air blowing device 3 to blow out the atomized medium formed in the atomizing assembly 10. In some embodiments, as shown in fig. 5, the atomizing assembly 10 may include: core 101 and electrical connector 102. The atomization assembly 10 can also include a barrel 103 having a barrel opening, and a barrel cap 105. The cylinder cover 105 seals the cylinder opening of the cylinder 103 along the second preset axis direction, and the cylinder cover 105 is provided with a mist outlet 1051. As an example, the core 101 and the electrical connector 102 are both disposed in the cylinder 103 along a second predetermined axis direction. It should be noted that the second predetermined axial direction mentioned above is a central axial direction of the entire atomizing assembly 10, and is parallel to the first predetermined axial direction a.

In some embodiments, as shown in fig. 5, the core 101 includes, about the second predetermined axial direction, an outer wall 1011, an inner wall 1012 opposite the outer wall 1011, and an annular connecting wall 1013 connecting the inner wall 1012 and the outer wall 1011. An accommodating cavity 1014 is formed between the outer wall 1011 and the inner wall 1012, the inner wall 1012 surrounds the second predetermined axis direction to form an air duct 1015, one end of the air duct 1015 along the second predetermined axis direction is an air inlet end 10151 for connecting with the air outlet side 31 of the air blowing device 3, and the other end is an air outlet end 10152. As shown in fig. 5, the electrical connector 102 is disposed on a side of the annular connecting wall 1013 away from the receiving cavity 1014, and the electrical connector 102 is used for electrically connecting with the metal contact 33. When the atomizing assembly 10 is mounted on the connecting socket 5 of the air blowing device 3, the electrical connector 102 on the atomizing assembly 10 can be electrically connected with the metal contact 33 on the connecting socket 5.

Additionally, it should be noted that in some embodiments, as shown in fig. 6, the electrical connector 102 may include a mounting ring 1021 and a metal connector 1022. As shown in fig. 5, the mounting ring 1021 and the annular connecting wall 1013 are disposed opposite to each other along the second predetermined axial direction, the metal connecting element 1022 is disposed on a side of the annular connecting wall 1013 away from the receiving cavity 1014 along the second predetermined axial direction, the metal connecting element 1022 is further connected to the mounting ring 1021, and, as shown in fig. 6, a part of the metal connecting element 1022 is exposed on a side of the mounting ring 1021 away from the annular connecting wall 1013 to form the metal terminal 10221. Therefore, when the atomizing assembly 10 is mounted on the connecting seat 5, the mounting ring 1021 can be connected to the connecting seat 5 along the second predetermined axis direction, so that the electrical contact between the metal terminal 10221 and the metal contact 33 can be realized, the fan assembly 32 of the corresponding air blowing device 3 can be electrically conducted to the power module 20, the power-on operation of the air blowing device 3 can be completed, and the air blowing device 3 can be ensured to be in the standby state.

In order to further improve the reliability and stability of the electrical contact between the metal terminal 10221 and the metal contact 33, as shown in fig. 6, the electrical connector 102 may further include a first magnetic attraction part 1023, and the first magnetic attraction part 1023 is disposed on the mounting ring 1021. Corresponding to first magnetism and inhale part 1023, be provided with on the connecting seat 5 and inhale the second magnetism that is connected with first magnetism and inhale part 1023 and inhale the part (not mark in the figure) to make accessible first magnetism part 1023 and second magnetism inhale the part between collar 1021 and the connecting seat 5 and realize magnetism to inhale fixedly, thereby ensured the stability and the reliability of electrical property butt between metal terminal 10221 and the metal contact 33. In addition, in some embodiments, the metal contact 33 may be an elastic contact, so that when the atomization assembly 10 is mounted on the connection seat 5, the metal contact 33 may be closely attached to the metal terminal 10221, thereby further improving the stability of the electrical connection between the connection seat 5 and the atomization assembly 10.

In some embodiments, as shown in FIG. 1, the fan assembly 32 may include a wind-collection hood 322 and a fan 323. Wherein, the air collecting cover 322 is connected with the connecting base 5, and the air collecting cover 322 has an air outlet channel 321. The fan 323 is used to blow air into the air outlet channel 321 of the air collecting cover 322, and, as shown in fig. 4, the fan 323 is also electrically connected to the main control board 4, so that the fan 323 can be turned on or off under the control of the main control board 4. When the blower 323 is turned on, air can be blown into the air outlet channel 321 directly, and air is blown into the air channel 1015 of the atomizing assembly 10 through the air outlet channel 321 via the air outlet channel 52 of the connecting seat 5, so as to blow out the atomized medium in the atomizing assembly 10.

In addition, in some embodiments, as shown in fig. 1, the air outlet channel 321 may be coaxially disposed with the corresponding connection seat 5, and the air outlet channel 321 may include a rectification channel 3211 and an expansion channel 3212. The rectifying passage 3211 is communicated with the air passage 52 of the connecting seat 5 and extends vertically in a direction away from the connecting seat 5, and the expanding passage 3212 extends from one end of the rectifying passage 3211, which is away from the connecting seat 5, in a direction away from the rectifying passage 3211. Therefore, when the airflow enters the rectifying channel 3211 through the expanding channel 3212, the flow velocity of the airflow gradually increases along with the gradual decrease of the inner diameter of the expanding channel 3212, and therefore, the problem that the thrust of the airflow gradually decreases due to the gradual distance of the airflow from the fan 323 can be solved well, so that the flow velocity of the atomized medium sprayed from the atomizing assembly 10 is not affected by the length of the air outlet channel 321, and the atomized medium sprayed from the atomizing assembly 10 can maintain a beam shape, and can be better dissolved in the external environment.

In addition, in order to realize the connection between the connection socket 5 and the wind collecting cover 322, as shown in fig. 2, the connection socket 5 may include an annular receiving portion 54, an annular supporting portion 51, and an annular protruding portion 53. The annular receiving portion 54 is disposed opposite to and parallel to the partition plate 2, and the annular receiving portion 54 has an inner side and an outer side opposite to the inner side. The annular support portion 51 is formed by bending and extending the outer side of the annular receiving portion 54 in the direction of the partition plate 2. The annular protrusion 53 is formed by bending and extending the inner side of the annular receiving portion 54 in a direction away from the partition plate 2, and the annular protrusion 53 surrounds the air passage 52 and can be partially inserted into the air collection cover 322. Accordingly, in some embodiments, as shown in fig. 1 and 2, the metal contact 33 may be disposed on a side of the annular receiving portion 54 away from the partition 2, so that the annular receiving portion 54 can receive the atomizing assembly 10, and at least a portion of the annular protruding portion 53 may be inserted into the air channel 1015 of the atomizing assembly 10. Therefore, it can be easily found that the air flow passage 52 surrounded by the annular protrusion 53 can make the fan 323 smoothly generate the air flow entering the atomizing assembly 10 during the operation, and at the same time, the annular protrusion 53 can also play a role in positioning the installation of the atomizing assembly 10.

It should be noted that, in some embodiments, as shown in fig. 1 and fig. 2, the inner side surface of the annular protrusion 53 is an annular slope, so that the air passage 52 gradually expands and extends toward the partition 2, and the portion of the air collection cover 322 inserted into the air passage 52 is attached to the inner side surface of the annular protrusion 53. Therefore, it is easy to find that the sealing performance of the wind-collecting cover 322 when being connected with the connecting seat 5 can be further improved by the inclined plane matching between the wind-collecting cover 322 and the annular protrusion 53, so that the atomized medium sprayed from the atomization assembly 10 can have a better beam shape.

In some embodiments, the connecting seats 5 may be disposed around the first predetermined axis a at equal intervals, so that when the atomizing assemblies 10 are mounted on each connecting seat 5, the atomizing media sprayed from each atomizing assembly 10 can be fully mixed in the upper cavity 111 of the housing 1, and the fragrance machine has a smaller volume and a more compact overall structure.

In some embodiments, in order to enable each atomizer assembly 10 to mix fragrance in the upper cavity 111 of the housing 1, the volatilizable liquid medium in at least one atomizer assembly 10 is different from the volatilizable liquid medium in the other atomizer assemblies 10. Of course, in some embodiments, the volatizable liquid medium in each atomization assembly 10 may be the same, thereby increasing the intensity of a fragrance, such that the fragrance machine may meet the needs of a large space.

In some embodiments, as shown in fig. 7, the atomizing assembly 10 may further include a liquid-absorbing heating device 104 not shown in fig. 5, the liquid-absorbing heating device 104 is disposed at the air inlet end 10151 of the air duct 1015, and the liquid-absorbing heating device 104 is electrically connected to the electrical connector 102, the liquid-absorbing heating device 104 is used for absorbing the liquid medium in the receiving cavity 1014 and performing thermal atomization on the absorbed liquid medium, and compared with the atomizing assembly 10 shown in fig. 5, the atomizing assembly shown in fig. 7 accelerates the atomization of the liquid medium, so that the atomizing assembly 10 has a better atomizing effect.

In addition, as shown in fig. 10, when the electrical connector 102 of the atomizing assembly 10 is electrically connected to the metal contact 33 of any one of the air blowing devices 3, the main control board 4 is further configured to electrically connect the power module 20 and the liquid suction heating device 104 through the metal contact 33 of the air blowing device 3 after receiving an instruction of giving out fragrance, so that the liquid suction heating device 104 generates heat. And, after liquid medium is being absorbed by imbibition heating device 104, the atomizing speed of liquid medium can be accelerated through the heat that imbibition heating device 104 produced, simultaneously, constantly blow in air duct 1015 through gas blowing device 3, can make the atomizing medium that liquid medium formed after the atomizing spout in atomizing subassembly 10 fast, consequently, can not increase air humidity in, still can not cause the jam of fragrant atmosphere machine for atomizing medium can be fine dissolve in external environment.

Additionally, in some embodiments, as shown in fig. 7, the liquid-absorbent heating apparatus 104 can include a support cap 1041, a liquid-absorbent material 1042, and a heating element. The supporting cover 1041 is disposed at the air outlet end 10152 of the air duct 1015 along the second predetermined axial direction, and as shown in fig. 9, the supporting cover 1041 is further disposed with an air outlet hole 10411 communicating with the air outlet end 10152 and a liquid suction hole 10412 communicating with the accommodating cavity 1014 along the second predetermined axial direction. In addition, as shown in fig. 7, a liquid absorbing material 1042 is disposed on a side of the support cap 1041 facing away from the gas outlet end 10152, and the liquid absorbing material 1042 covers the gas outlet hole 10411. At least a portion of the liquid absorbent material 1042 passes through the liquid intake hole 10412 and into the housing chamber 1014 such that the liquid absorbent material 1042 can be used to draw liquid medium within the housing chamber 1014.

In this embodiment, as shown in fig. 7 and 8, a heating element can be disposed on a side of the support cap 1041 facing away from the outlet end 10152, and the heating element is wrapped by the liquid absorbent material 1042 at the outlet hole 10411, the heating element also being electrically connected to the electrical connector 102.

In some embodiments, as shown in fig. 8 in combination, the heating element may be a heating wire 1043, and, as shown in fig. 7 and 9, the support cover 1041 may include a support plate 10413 disposed along the second predetermined axial direction, a side wall 10414 circumferentially disposed around the support plate 10413, and the side wall 10414 encloses a containing area 10418 containing the absorbent material 1042 around the support plate 10413, and the support plate 10413 is further provided with a liquid sucking hole 10412 and an air outlet hole 10411. In addition, in order to fix the heating wire 1043 and enable the heating wire 1043 to be electrically connected with the metal connector 1022, as shown in fig. 9, the side wall 10414 may be provided with a clamping groove 10415 for clamping the heating wire 1043, and, as shown in fig. 8, a portion of the heating wire 1043 may extend out of the accommodating area 10418 through the clamping groove 10415 and be formed by bending and extending in the direction of the annular connecting wall 1013, so that the heating wire 1043 may be electrically connected with the metal connector 1022 of the electrical connector 102. In addition, in order to improve the fixing performance of the heater strip 1043, as shown in fig. 8, the outer wall 1011 of the core 101 may be provided with an insertion groove 1016 along the second predetermined axis direction, so that the heater strip 1043 may be directly inserted into the insertion groove 1016 after being bent and extended in the direction of the annular connecting wall 1013, and the insertion groove 1016 may be used to fix the heater strip 1043, thereby improving the fixing performance of the heater strip 1043 on the core 101.

Moreover, in order to improve the fixing performance of the support cap 1041 on the liquid absorbing material 1042, as shown in fig. 7 and 9, a part of the support plate 10413 protrudes in the direction away from the air outlet end 10152 along the second preset axis direction to form a snap seat 10416, and a mounting groove 10417 is further provided on the side of the snap seat 10416 away from the support plate 10413, so that the part of the heating wire 1043 wound by the liquid absorbing material 1042 can be directly snapped into the mounting groove 10417 of the snap seat 10416.

It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific embodiments for carrying out the present application, and that various changes in form and details may be made therein without departing from the spirit and scope of the present application in practice.

Claims (12)

1. A fragrance machine, comprising:

a housing; the shell is provided with an accommodating space;

the partition plate is arranged in the accommodating space and divides the accommodating space into an upper cavity and a lower cavity along a first preset axis direction; the upper cavity is used for arranging an atomizing assembly;

the connecting seats are arranged on one side, facing the upper cavity, of the partition plate; each connecting seat is used for detachably connecting the atomizing assembly and is provided with an air channel;

the blowing devices are arranged in the lower cavity; the blowing devices are arranged corresponding to the connecting seats, each blowing device is provided with an air outlet side capable of blowing air, and the air outlet side of each blowing device is communicated with the air outlet channel of the corresponding connecting seat;

the main control board is electrically connected with each air blowing device; the main control panel is used for receiving a fragrance outputting instruction and opening one or more blowing devices after receiving the fragrance outputting instruction so that the one or more blowing devices blow out gas.

2. The fragrance machine of claim 1, further comprising: the power supply module is electrically connected with the main control board; each of the air blowing devices includes:

the fan assembly is arranged in the lower cavity; the fan assembly is provided with an air outlet channel, the air outlet channel extends towards the direction of the partition plate, and one side of the air outlet channel, which faces the partition plate, is the air outlet side;

the metal contact is arranged on the connecting seat and is used for being electrically connected with the atomizing assembly arranged on the connecting seat;

the fan assembly and the metal contact of each air blowing device are electrically connected with the main control board, and the main control board is used for electrically conducting the fan assembly of the air blowing device with the power supply module when the metal contact of any one air blowing device is electrically connected with the atomizing assembly.

3. The fragrance machine of claim 2 wherein said metal contact is a spring contact.

4. The fragrance machine of claim 2, wherein the fan assembly comprises:

the air collecting cover is connected with the connecting seat and is provided with the air outlet channel;

the fan is used for blowing air to the air outlet channel of the air collecting cover; the fan is electrically connected with the main control board.

5. The fragrance machine of claim 4, wherein the air outlet channel is coaxially disposed with the corresponding connecting seat, and the air outlet channel comprises:

the rectifying channel is communicated with the air passing channel of the connecting seat and formed by extending towards the direction far away from the connecting seat;

the expansion channel extends and forms from one end, far away from the connecting seat, of the rectifying channel to the direction far away from the rectifying channel.

6. The fragrance machine of claim 5, wherein the connection base comprises:

the annular bearing part is opposite to and parallel to the partition plate; the annular bearing part is provided with an inner side and an outer side opposite to the inner side;

an annular support portion formed by bending and extending the outer side of the annular receiving portion in the direction of the partition plate;

the annular bulge part is formed by bending and extending the inner side of the annular bearing part in a direction away from the partition plate;

the annular bulge surrounds the air passing channel and is inserted into the air collecting cover part, and the metal contact is arranged on one side, far away from the partition plate, of the annular bearing part.

7. The fragrance machine as claimed in claim 6, wherein the inner side surface of the annular projection is an annular slope to gradually expand the air passage toward the partition;

the part of the air collecting cover inserted into the air passage is attached to the inner side surface of the annular protruding part.

8. The fragrance machine of claim 2, wherein the atomizing assembly comprises:

a core body; the core comprises, around a second predetermined axis direction: an outer wall, an inner wall opposite to the outer wall, and an annular connecting wall connecting the inner wall and the outer wall; an accommodating cavity capable of accommodating a liquid medium is formed between the outer wall and the inner wall, the inner wall surrounds the second preset axis direction to form an air duct, one end of the air duct in the second preset axis direction is an air inlet end communicated with the air outlet side of the air blowing device, and the other end of the air duct is an air outlet end;

and the electric connecting piece is arranged on one side of the annular connecting wall, which is far away from the accommodating cavity, and the electric connecting piece is used for being electrically connected with the metal contact.

9. The fragrance machine of claim 8 wherein said electrical connection comprises:

the mounting ring and the annular connecting wall are arranged opposite to each other along the second preset axial direction;

the metal connecting piece is arranged on one side, far away from the accommodating cavity, of the annular connecting wall; the metal connecting piece is also connected with the mounting ring and is partially exposed on one side of the mounting ring away from the annular connecting wall to form a metal terminal;

the first magnetic part is arranged on one side, away from the annular connecting wall, of the mounting ring, and the first magnetic part is connected with the connecting seat in a magnetic mode.

10. The fragrance machine of claim 8, wherein the atomizing assembly further comprises:

the liquid suction heating device is arranged at the air inlet end and is electrically connected with the electric connecting piece; the liquid suction heating device is used for sucking the liquid medium in the containing cavity;

when the electric connecting piece of the atomizing assembly is electrically connected with the metal contact of any one of the air blowing devices, the main control board is used for electrically connecting the power supply module and the liquid suction heating device through the metal contact of the air blowing device after receiving an aroma emitting instruction.

11. The fragrance machine of claim 10 wherein said wicking heating device comprises:

the supporting cover is arranged at the air outlet end along the direction of the second preset axis; the support cover is also provided with an air outlet hole communicated with the air outlet end and a liquid suction hole communicated with the accommodating cavity along the second preset axis direction;

the liquid absorbing material is arranged on one side of the supporting cover, which is far away from the air outlet end, and covers the air outlet hole; at least part of the liquid absorbing material penetrates through the liquid absorbing hole to enter the containing cavity and is used for absorbing the liquid medium in the containing cavity;

the heating component is arranged on one side of the supporting cover, which is far away from the air outlet end; wherein the heating element is wrapped by the wicking material at the air vent, the heating element further electrically connected to the electrical connector.

12. The fragrance machine of claim 11, wherein said heating element is a heating wire, said support cover comprising: the side wall surrounds the supporting plate to form an accommodating area for accommodating the liquid absorbing material, and the supporting plate is provided with the liquid absorbing hole and the air outlet hole;

the side wall is provided with a clamping groove for clamping the heating wire, and parts of the heating wire extend out of the accommodating area through the clamping groove and are bent and extended towards the direction of the air inlet end.

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