US20230135099A1

US20230135099A1 - Atomizing apparatus

Info

Publication number: US20230135099A1
Application number: US17/653,635
Authority: US
Inventors: Xiang Liu
Original assignee: Shenzhen Buddy Technology Development Co Ltd
Current assignee: Shenzhen Buddy Technology Development Co Ltd
Priority date: 2021-11-04
Filing date: 2022-03-04
Publication date: 2023-05-04
Also published as: CN113966876A

Abstract

Disclosed is an atomizing apparatus, including: an atomizing cup; an atomizing pedestal arranged at a top portion of the atomizing cup; one or more atomizing cores accommodated in the atomizing cup, the one or more atomizing cores are connected with the atomizing pedestal respectively; and a circuit electrically connected with the one or more atomizing cores respectively, the circuit is capable of adjusting parameters of the one or more atomizing cores to adjust temperatures of the one or more atomizing cores.

Description

CROSS-REFERENCE TO RELATED APPLICATION

This application is filed on the basis of Chinese patent application No. 202111298555.5 filed Nov. 4, 2021, and claims priority to and the benefit of this Chinese patent application, the entire contents of which are incorporated herein by reference.

TECHNICAL FIELD

The present disclosure relates to the field of atomizers, and more particularly, to an atomizing apparatus.

BACKGROUND

At present, an atomizer basically has a structure of a single atomizing core or double heating wires integrated in one atomizing core. At present, the atomizer can only control an atomized gas flow, which cannot meet the needs of a user.

SUMMARY

To address the technical problem above and other shortcomings with prior approaches, an embodiment of the present disclosure provides an atomizing apparatus.
An embodiment of the present disclosure provides the atomizing apparatus, which includes an atomizing cup, an atomizing pedestal arranged at a top portion of the atomizing cup, one or more atomizing cores accommodated in the atomizing cup, where one or more two atomizing cores are connected with the atomizing pedestal respectively, and a circuit electrically connected with the two atomizing cores respectively, where the circuit is capable of adjusting parameters of the one or more atomizing cores to adjust temperatures of the one or more atomizing cores.
In some embodiments, the circuit includes a first control portion and a second control portion, the first control portion and the second control portion are exposed outside the atomizing cup, and the atomizing cores include a first atomizing core and a second atomizing core;
The first control portion is electrically connected with the first atomizing core and used for adjusting the temperature of the first atomizing core; and the second control portion is electrically connected with the second atomizing core and used for adjusting the temperature of the second atomizing core.
In some embodiments, the first atomizing core is operated and capable of adjusting the temperature of the first atomizing core to switch between different temperature gears, and the second control portion is operated and capable of adjusting the temperature of the second atomizing core to switch between different temperature gears; and/or, the first control portion and the second control portion are both a key; and/or, the first control portion is electrically connected with the first atomizing core through a first wire, and the second control portion is electrically connected with the second atomizing core through a second wire.
In some embodiments, the circuit further includes a third control portion, and the third control portion is used for starting the atomizing apparatus after the first control portion adjusts the temperature of the first atomizing core and/or the second control portion adjusts the temperature of the second atomizing core.
In some embodiments, the first control portion, the second control portion and the third control portion are arranged side by side, and the third control portion is located between the first control portion and the second control portion.
In some embodiments, the parameters include a voltage and/or a power; and/or, the two atomizing cores are arranged side by side; and/or, each atomizing core includes a ceramic heating element; and/or, the atomizing apparatus further includes two non-woven fabric sleeves corresponding to the two atomizing cores for sleeving the corresponding atomizing cores.
In some embodiments, the atomizing apparatus further includes a base arranged at a bottom portion of the atomizing cup, one ends of the two atomizing cores are connected to the atomizing pedestal, and the other ends of the two atomizing cores are supported through the base.
In some embodiments, a first oil-absorbing cotton is arranged between the base and the bottom portion of the atomizing cup; and/or, the atomizing apparatus further includes a decorative bottom shell sleeved on one side of the atomizing cup close to the bottom portion.
In some embodiments, the atomizing apparatus further includes an atomizing nozzle covered on the top portion of the atomizing cup.
In some embodiments, the atomizing nozzle is opposite to the atomizing pedestal, and a sealing plug and/or a second oil-absorbing cotton are arranged between the atomizing nozzle and the atomizing pedestal; and/or, the atomizing apparatus further includes a decorative ring sleeved on the top portion of the atomizing cup, and one end of the decorative ring is abutted and matched with the atomizing nozzle.
In the technical solutions provided in the embodiments of the present disclosure, the temperatures of the two atomizing cores are respectively adjusted and controlled through the circuit, which ensures an atomizing effect of an atomizer and makes an atomized gas flow meet the needs of a user.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic structural diagram of an atomizing apparatus in an embodiment of the present disclosure.

Reference numeral description:
1 refers to atomizing cup; 2 refers to atomizing pedestal; 3 refers to atomizing core; 31 refers to first atomizing core; 32 refers to second atomizing core; 4 refers to circuit; 41 refers to first control portion; 42 refers to second control portion; 43 refers to third control portion; 5 refers to first wire; 6 refers to second wire; 7 refers to non-woven fabric sleeve; 8 refers to base; 9 refers to first oil-absorbing cotton; 10 refers to decorative bottom shell; 20 refers to atomizing nozzle; 30 refers to sealing plug; 40 refers to second oil-absorbing cotton; and 50 refers to decorative ring.

DETAILED DESCRIPTION

Example technical solutions in the embodiments of the present disclosure are described with reference to the accompanying drawings in the embodiments of the present disclosure. The described embodiments are only some but not all of the embodiments of the present disclosure. Based on the embodiments in the present disclosure, all other embodiments obtained by those skilled in the art without going through any creative work should fall within the scope of protection of the present disclosure.
It should be noted that any of the embodiments described herein may be combined.
Referring to FIG. 1 , an embodiment of the present disclosure provides an atomizing apparatus 100, and the atomizing apparatus 100 may include an atomizing cup 1, an atomizing pedestal 2, atomizing cores 3 and a circuit 4, where the atomizing pedestal 2 is arranged at a top portion of the atomizing cup 1. The atomizing cores 3 are accommodated in the atomizing cup 1, and two atomizing cores 3 are provided and connected with the atomizing pedestal 2 respectively; and The circuit 4 is electrically connected with the two atomizing cores 3 respectively, and the circuit 4 in the embodiment of the present disclosure is capable of adjusting parameters of the two atomizing cores 3 to adjust temperatures of the two atomizing cores 3.
According to the atomizing apparatus 100 in some embodiments of the present disclosure, the temperatures of the two atomizing cores 3 are respectively adjusted and controlled through the circuit 4, which ensures an atomizing effect of an atomizer and makes an atomized gas flow meet the needs of a user.
The atomizing cup 1 may be made of a metal material or other materials, such as plastic.
A cross section of the atomizing cup 1 may be a circle, an oval or other shapes.
The atomizing pedestal 2 in an embodiment of the present disclosure may be sealed at the top portion of the atomizing cup 1.
The atomizing pedestal 2 may include two mounting portions for mounting the two atomizing cores 3 respectively.
In some embodiments, the two atomizing cores 3 are arranged side by side, so that an inner space of the atomizing cup 1 includes the two atomizing cores 3.
Each atomizing core 3 includes a ceramic heating element. The atomizing core 3 may also be any other type of atomizing core.
The atomizing apparatus 100 further may include two non-woven fabric sleeves 7 corresponding to the two atomizing cores 3 for sleeving the corresponding atomizing cores 3. In some embodiments, after wrapped with non-woven fabrics respectively, two ceramic heating elements are mounted in the two mounting portions to assembly into core heating parts of the two atomizing cores.
Voltages and/or powers of the two atomizing cores 3 may be adjusted through the circuit 4 to adjust the temperatures of the two atomizing cores 3. For example, in some embodiments, the voltages of the two atomizing cores 3 may be adjusted through the circuit 4 to adjust the temperatures of the two atomizing cores 3. In other embodiments, the powers of the two atomizing cores 3 may be adjusted through the circuit 4 to adjust the temperatures of the two atomizing cores 3. In other embodiments, the voltages and the powers of the two atomizing cores 3 may be adjusted through the circuit 4 to adjust the temperatures of the two atomizing cores 3.
The circuit 4 may be arranged inside the atomizing cup 1.
Referring to FIG. 1 , the circuit 4 in an embodiment of the present disclosure may include a first control portion 41 and a second control portion 42, and the first control portion 41 and the second control portion 42 may be exposed outside the atomizing cup 1. The atomizing core 3 may include a first atomizing core 31 and a second atomizing core 32. The first control portion 41 may be electrically connected with the first atomizing core 31 and may be used for adjusting the temperature of the first atomizing core 31. The second control portion 42 may be electrically connected with the second atomizing core 32 and may be used for adjusting the temperature of the second atomizing core 32. Specifically, the first control portion 41 may be operated and may adjust the parameters of the first atomizing core 31 to adjust the temperature of the first atomizing core 31. The second control portion 42 may be operated and adjust the parameters of the second atomizing core 32 to adjust the temperature of the second atomizing core 32.
In some embodiments, the voltage and/or the power of the first atomizing core 31 may be adjusted through the first control portion 41 to adjust the temperature of the first atomizing core 31, and the voltage and/or the power of the second atomizing core 32 may be adjusted through the second control portion 42 to adjust the temperature of the second atomizing core 32.
The voltage of the first atomizing core 31 may be positively correlated with the temperature of the first atomizing core 31, that is, the higher the voltage of the first atomizing core 31 is, the higher the temperature of the first atomizing core 31 is. The power of the first atomizing core 31 may be positively correlated with the temperature of the first atomizing core 31, that is, the higher the power of the first atomizing core 31 is, the higher the temperature of the first atomizing core 31 is. Correspondingly, the voltage of the second atomizing core 32 may be positively correlated with the temperature of the second atomizing core 32, that is, the higher the voltage of the second atomizing core 32 is, the higher the temperature of the second atomizing core 32 is. The power of the second atomizing core 32 may be positively correlated with the temperature of the second atomizing core 32, that is, the higher the power of the second atomizing core 32 is, the higher the temperature of the second atomizing core 32 is.
For example, in some embodiments, the first control portion 41 may be operated and capable of adjusting the temperature of the first atomizing core 31 to switch between different temperature gears. The second control portion 42 may be operated and capable of adjusting the temperature of the second atomizing core 32 to switch between different temperature gears.
The temperature gears of the first atomizing core 31 and the temperature gears of the second atomizing core 32 may be different or the same. Illustratively, the first control portion 41 controls the temperature of the first atomizing core 31 to switch among 180° C., 190° C., 200° C., 210° C. and 220° C. in sequence, and the second control portion 42 controls the temperature of the second atomizing core 32 to switch among 180° C., 190° C., 200° C., 210° C. and 220° C. in sequence too. The user may manually operate the first control portion 41 and the second control portion 42 according to the needs, so that the temperature gears of the first atomizing core 31 and the second atomizing core 32 may be adjusted to any temperature.
The first control portion 41 and the second control portion 42 may be a key, a rotary knob or other types of control portions. As illustrated, the first control portion 41 and the second control portion 42 are both keys. The temperature of the first atomizing core 31 is capable of being adjusted to switch between different temperature gears by pressing the first control portion 41. The temperature of the second atomizing core 32 is capable of being adjusted to switch between different temperature gears by pressing the second control portion 42.
Referring to FIG. 1 , the first control portion 41 may be electrically connected with the first atomizing core 31 through a first wire 5, and the second control portion 42 may be electrically connected with the second atomizing core 32 through a second wire 6. However, in other embodiments, the first control portion 41 may be contacted with the first atomizing core 31 to implement electrical connection, and the second control portion 42 may be contacted with the second atomizing core 32 to implement electrical connection.
Referring to FIG. 1 , the circuit 4 in an embodiment of the present disclosure may further include a third control portion 43, and the third control portion 43 may be used for starting the atomizing apparatus after the first control portion 41 adjusts the temperature of the first atomizing core 31 and/or the second control portion 42 adjusts the temperature of the second atomizing core 32. The first control portion 41 adjusts and controls the temperature of the first atomizing core 31, and the second control portion 42 adjusts and controls the temperature of the second atomizing core 32. After finishing adjustment of the parameters of the first atomizing core 31 and the parameters of the second atomizing core 32, the third control portion 43 may be operated to start atomization, so that the temperature of the first atomizing core 31 and the temperature of the second atomizing core 32 are adjusted to the required temperatures.
The third control portion 43 may be a key, a rotary knob or other types of control portions. Illustratively, the third control portion 43 is the key. After finishing adjustment of the parameters of the first atomizing core 31 and the parameters of the second atomizing core 32, the third control portion 43 may be pressed to start atomization, so that the temperature of the first atomizing core 31 and the temperature of the second atomizing core 32 are adjusted to the required temperatures.
In some embodiments, the first control portion 41, the second control portion 42 and the third control portion 43 are arranged side by side, and the third control portion 43 is located between the first control portion 41 and the second control portion 42, which facilitate operation by the user.
Referring to FIG. 1 , the atomizing apparatus in an embodiment of the present disclosure may further include a base 8 arranged at a bottom portion of the atomizing cup 1, one ends of the two atomizing cores 3 are connected to the atomizing pedestal 2, and the other ends of the two atomizing cores are supported through the base 8.
A first oil-absorbing cotton 9 may be arranged between the base 8 and the bottom portion of the atomizing cup 1 to prevent or reduce a chance of an atomized material in the atomizing cup 1 from leaking, and the atomized material may be a liquid or a solid or a combination of the two.
Referring to FIG. 1 , the atomizing apparatus in an embodiment of the present disclosure may further include a decorative bottom shell 10, and the decorative bottom shell 10 is sleeved on one side of the atomizing cup 1 close to the bottom portion, which may improve an aesthetic appearance of the atomizing apparatus.
Referring to FIG. 1 , the atomizing apparatus in an embodiment of the present disclosure may further include an atomizing nozzle 20, and the atomizing nozzle 20 is covered on the top portion of the atomizing cup 1. In some embodiments, the atomizing nozzle 20 may be opposite to the atomizing pedestal 2, and a sealing plug 30 and/or a second oil-absorbing cotton 40 are arranged between the atomizing nozzle 20 and the atomizing pedestal 2. As shown in FIG. 1 , the sealing plug 30 and the second oil-absorbing cotton 40 are arranged between the atomizing nozzle 20 and the atomizing pedestal 2, where the sealing plug 30 may be sealed at the top portion of the atomizing pedestal 2, and the second oil-absorbing cotton 40 may be arranged between the sealing plug 30 and the atomizing nozzle 20.
The sealing plug 30 may be a silicone plug or a sealing plug made of other materials.
Further, referring to FIG. 1 , the atomizing apparatus in an embodiment of the present disclosure may further include a decorative ring 50, the decorative ring 50 is sleeved on the top portion of the atomizing cup 1, and one end of the decorative ring 50 is abutted and matched with the atomizing nozzle 20, which may improve an aesthetic appearance of the atomizing apparatus.
During assembly of the atomizing apparatus in the embodiment of the present disclosure, the assembled atomizing pedestal 2 may be pressed into the base 8, and then the assembled atomizing pedestal 2 may be put inside the atomizing cup 1. The decorative ring 50 may be sleeved on an outer side wall at the top portion of the atomizing cup 1, the atomizing nozzle 20 may be put into the second oil-absorbing cotton 40 to form an assembly with the sealing plug 30, and then the assembled atomizing nozzle assembly may be pressed into the top portion of the atomizing cup 1 to implement sealing.
The above embodiments are only used to illustrate the technical solutions of the present disclosure, rather than limiting the present disclosure. Although the present disclosure has been described in detail with reference to the foregoing embodiments, those of ordinary skills in the art should understand that: the technical solutions described in the foregoing embodiments can be still modified or some of the technical features therein can be equivalently replaced. However, these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions of the embodiments of the present disclosure.

Claims

What is claimed is:

1. An atomizing apparatus, comprising:

an atomizing cup;

an atomizing pedestal arranged at a top portion of the atomizing cup;

one or more atomizing cores accommodated in the atomizing cup, wherein the one or more atomizing cores are connected with the atomizing pedestal; and

a circuit electrically coupled to the one or more atomizing cores,

wherein the circuit is capable of adjusting parameters of the one or more atomizing cores to adjust temperatures of the one or more atomizing cores.

2. The atomizing apparatus of claim 1, wherein the circuit comprises a first control portion and a second control portion, the first control portion and the second control portion are exposed outside the atomizing cup, and the one or more atomizing cores comprise a first atomizing core and a second atomizing core;

the first control portion is electrically connected with the first atomizing core and used for adjusting the temperature of the first atomizing core; and the second control portion is electrically connected with the second atomizing core and used for adjusting the temperature of the second atomizing core.

3. The atomizing apparatus of claim 2, wherein the first atomizing core is operated and capable of adjusting the temperature of the first atomizing core to switch between different temperature gears, and the second control portion is operated and capable of adjusting the temperature of the second atomizing core to switch between different temperature gears; and/or,

the first control portion and the second control portion are both a key; and/or,

the first control portion is electrically connected with the first atomizing core through a first wire, and the second control portion is electrically connected with the second atomizing core through a second wire.

4. The atomizing apparatus of claim 2, wherein the circuit further comprises a third control portion, and the third control portion is used for starting the atomizing apparatus after the first control portion adjusts the temperature of the first atomizing core and/or the second control portion adjusts the temperature of the second atomizing core.

5. The atomizing apparatus of claim 4, wherein the first control portion, the second control portion and the third control portion are arranged side by side, and the third control portion is located between the first control portion and the second control portion.

6. The atomizing apparatus of claim 1, wherein at least one of: the parameters comprise at least one of a voltage or a power;

the one or more atomizing cores comprise two atomizing cores arranged side by side;

each atomizing core comprises a ceramic heating element; or

the atomizing apparatus further comprises two non-woven fabric sleeves corresponding to the two atomizing cores for sleeving the corresponding atomizing cores.

7. The atomizing apparatus of claim 1, wherein the atomizing apparatus further comprises a base arranged at a bottom portion of the atomizing cup, one ends of the one or more atomizing cores are connected to the atomizing pedestal, and the other ends of the one or more atomizing cores are supported through the base.

8. The atomizing apparatus of claim 7, wherein a first oil-absorbing cotton is arranged between the base and the bottom portion of the atomizing cup; and/or,

the atomizing apparatus further comprises a decorative bottom shell sleeved on one side of the atomizing cup close to the bottom portion.

9. The atomizing apparatus of claim 1, wherein the atomizing apparatus further comprises an atomizing nozzle covered on the top portion of the atomizing cup.

10. The atomizing apparatus of claim 9, wherein the atomizing nozzle is opposite to the atomizing pedestal, and a sealing plug and/or a second oil-absorbing cotton are arranged between the atomizing nozzle and the atomizing pedestal; and/or,

the atomizing apparatus further comprises a decorative ring sleeved on the top portion of the atomizing cup, and one end of the decorative ring is abutted and matched with the atomizing nozzle.