Method for adjusting working mode and electronic atomization device, readable storage medium

By introducing an angle sensing module and a heating module into the electronic atomizing device, the working mode of the atomizing coil can be switched with one hand, solving the problem of cumbersome traditional plug-and-play operation and improving the user experience and product practicality.

CN115670011BActive Publication Date: 2026-07-14SHENZHEN INNOKIN TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
SHENZHEN INNOKIN TECHNOLOGY CO LTD
Filing Date
2021-07-31
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Traditional electronic atomizing devices require plugging and unplugging atomizers to switch between different flavors, which is cumbersome, requires two hands, and is inconvenient.

Method used

By incorporating an angle sensing module into the electronic atomizing device, rotation information is detected and the heating module is switched on and off, enabling one-handed rotation to change the working mode of the atomizing coil. The angle sensing module detects the rotation angle of the electronic atomizing device and controls the on and off of the heating module to switch the heating state of different atomizing coils.

Benefits of technology

It enables one-handed operation to switch atomizer coils, enhancing the user's choice of options and the product's practicality, while simplifying the operation process.

✦ Generated by Eureka AI based on patent content.

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Abstract

The embodiment of the application discloses a working mode adjusting method and an electronic atomization device and a computer readable storage medium thereof, which are used for switching work between two atomization cores in the same atomizer by changing the rotation angle of the electronic atomization device, realizing different use experiences, one-hand operation, simplicity and convenience, and improving the practicability of the product. The adjusting method is applied to the electronic atomization device in a power-on state, and the adjusting method comprises receiving angle rotation information sensed by an angle sensing module when the electronic atomization device is rotated; judging whether the rotation angle in the angle rotation information is greater than a preset angle; if yes, disconnecting a first heating module, and connecting a second heating module, the first heating module being used for heating a first heating body, the second heating module being used for heating a second heating body, the first heating body being located in a first atomization core, the second heating body being located in a second atomization core, and the first heating body and the second heating body each being at least one.
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Description

Technical Field

[0001] This application relates to the field of electronic atomization, and more particularly to a method for adjusting a working mode, an electronic atomization device thereof, and a computer-readable storage medium. Background Technology

[0002] Traditional electronic atomizing devices typically have an atomizer with a liquid reservoir inside, providing the user with a type of atomized liquid. The atomized liquid is stored in the liquid reservoir inside the atomizer, and the atomizer core and atomizer used to heat and atomize the atomized liquid are also separate components.

[0003] An electronic atomizing device with two atomizers has emerged, each with a reservoir for storing a different flavor of atomized liquid. This electronic atomizing device can switch between the two atomizers by plugging and unplugging them, allowing users to switch between different flavors using the same device and relieving olfactory fatigue.

[0004] However, switching between controlling the two atomizers to heat and atomize at different times by plugging and unplugging is cumbersome, requiring the user to use both hands to plug and unplug the atomizers of the electronic atomizer. Summary of the Invention

[0005] This application provides a method for adjusting the working mode, an electronic atomizing device, and a computer-readable storage medium. It can switch between two atomizing coils in the same atomizer by changing the rotation angle of the electronic atomizing device, thereby achieving different user experiences. It is easy and convenient to operate with one hand, improving the practicality of the product.

[0006] A first aspect of this application provides a method for adjusting an operating mode, the method being applied to an electronic atomizing device in a power-on state. The method includes:

[0007] The angle sensing module receives angle rotation information when the electronic atomizing device undergoes angular rotation.

[0008] Determine whether the rotation angle in the rotation information is greater than a preset angle;

[0009] If so, the first heating module is disconnected and the second heating module is connected. The first heating module is used to heat the first heating element, and the second heating module is used to heat the second heating element. The first heating element is located inside the first atomizing core, and the second heating element is located inside the second atomizing core. There is at least one first heating element and at least one second heating element.

[0010] Optionally, the preset angle is greater than or equal to 0 degrees and less than 180 degrees.

[0011] Optionally, the preset angle is greater than or equal to 90 degrees and less than 180 degrees.

[0012] Optionally, the angular rotation information is the angular rotation information along the longitudinal axis of the electronic atomizing device.

[0013] Optionally, the switching module is a buck-boost converter module, the first heating module includes a first switch, and the second heating module includes a second switch.

[0014] Optionally, the resistance values ​​of the first heating element and the second heating element are different.

[0015] Optionally, the resistance value of the first heating element and the resistance value of the second heating element are the same.

[0016] Optionally, after determining whether the rotation angle in the rotation information is greater than a preset angle, the adjustment method further includes:

[0017] If not, the first heating module remains connected, and the second heating module remains disconnected. Optionally, the angular rotation information is the angular rotation information of the rotation along the horizontal axis perpendicular to the vertical axis of the electronic atomizing device.

[0018] Optionally, the switching module is a buck-boost converter module, the first heating module includes a first switch, and the second heating module includes a second switch.

[0019] Optionally, the resistance values ​​of the first heating element and the second heating element are different.

[0020] Optionally, the resistance value of the first heating element and the resistance value of the second heating element are the same.

[0021] Optionally, after determining whether the rotation angle in the rotation information is greater than a preset angle, the adjustment method further includes:

[0022] If not, keep the first heating module connected and keep the second heating module disconnected.

[0023] Optionally, the angular rotation information is angular rotation information along a third axis perpendicular to the plane formed by the longitudinal and transverse axes of the electronic atomizing device.

[0024] A second aspect of this application provides an electronic atomizing device, including an atomizer, a control device, an angle sensing module, a receiving module, a judging module, a switching module, a first heating module, and a second heating module. The atomizer includes a first atomizing core and a second atomizing core. The control device controls the atomizer, the angle sensing module, the judging module, the switching module, the first heating module, and the second heating module.

[0025] The receiving module is used to receive the angle rotation information sensed by the angle sensing module when the electronic atomizing device undergoes an angle rotation.

[0026] The judgment module is used to determine whether the angle rotation information is greater than a preset angle;

[0027] The switch module is used to disconnect the first heating module and connect the second heating module when it is determined that the angle rotation information is greater than the preset angle. The first heating module is used to heat the first heating element, and the second heating module is used to heat the second heating element. The first heating element is located inside the first atomizing core, and the second heating element is located inside the second atomizing core. There is at least one first heating element and at least one second heating element.

[0028] Optionally, the preset angle is greater than or equal to 0 degrees and less than 180 degrees.

[0029] Optionally, the preset angle is greater than or equal to 90 degrees and less than 180 degrees.

[0030] Optionally, the angular rotation information is the angular rotation information along the longitudinal axis of the electronic atomizing device.

[0031] Optionally, the switching module is a buck-boost converter module, the first heating module includes a first switch, and the second heating module includes a second switch.

[0032] Optionally, the first resistance of the first heating element and the second resistance of the second heating element are different.

[0033] Optionally, the first resistance of the first heating element and the second resistance of the second heating element are the same.

[0034] Optionally, the switch module is further configured to, when determining that the angular rotation information is less than or equal to the preset angle, keep the first heating module connected and keep the second heating module disconnected. Optionally, the angular rotation information is the angular rotation information of the rotation along the horizontal axis perpendicular to the vertical axis of the electronic atomizing device.

[0035] Optionally, the switching module is a buck-boost converter module, the first heating module includes a first switch, and the second heating module includes a second switch.

[0036] Optionally, the first resistance of the first heating element and the second resistance of the second heating element are different.

[0037] Optionally, the first resistance of the first heating element and the second resistance of the second heating element are the same.

[0038] Optionally, the switch module is further configured to keep the first heating module connected and the second heating module disconnected when it is determined that the angular rotation information is less than or equal to the preset angle.

[0039] Optionally, the angular rotation information is angular rotation information along a third axis perpendicular to the plane formed by the longitudinal and transverse axes of the electronic atomizing device.

[0040] A third aspect of this application provides a computer-readable storage medium storing a computer program that, when executed by a processor, implements the steps of the operating mode adjustment method provided in the first aspect.

[0041] As can be seen from the above technical solutions, the adjustment method of the working mode in this application embodiment has the following advantages: This adjustment method is applied to an electronic atomizing device when the electronic atomizing device is in a power-on state. When the electronic atomizing device rotates at an angle, the angle sensing module installed in the electronic atomizing device can sense the angle rotation information. The angle sensing module sends the angle rotation information to the control device. The control device then determines whether the rotation angle in the angle rotation information is greater than or equal to a preset angle. When the control device determines that the rotation angle in the angle rotation information is greater than the preset angle, it disconnects the first heating module and connects the second heating module. The first heating module is used to heat the first heating element, and the second heating module is used to heat the second heating element. The first heating element is located inside the first atomizing core, and the second heating element is located inside the second atomizing core. Thus, the second heating element in the second heating module heats and atomizes the atomized liquid in the second atomizing core, while the first heating module... Because the block is disconnected, the first heating element cannot heat and atomize the atomizing liquid in the first atomizing core. Therefore, when the electronic atomizer is powered on, it can determine whether the rotation angle of the electronic atomizer exceeds a preset angle. If it does, it switches from the mode where the first heating element heats and atomizes the atomizing liquid in the first atomizing core to the mode where the second heating element heats and atomizes the atomizing liquid in the second atomizing core. Through this mode-switching method, even when using the electronic atomizer with one hand, users can switch the atomizing core's operation simply by changing the angle of the electronic atomizer to exceed a certain preset threshold. Thus, users can switch between different types or volumes of atomized liquid according to their needs and preferences, increasing the diversity of user experience and the product's practicality. Furthermore, the ability to switch the atomizer's operating mode with just one hand makes the electronic atomizer simpler and more convenient to use. Attached Figure Description

[0042] To more clearly illustrate the technical solutions in the embodiments of this application, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. The drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0043] Figure 1 A schematic diagram of the electronic atomizing device provided in the embodiments of this application;

[0044] Figure 2 Another structural schematic diagram of the electronic atomizing device provided in the embodiments of this application;

[0045] Figure 3 A flowchart illustrating a method for adjusting the working mode provided in an embodiment of this application;

[0046] Figure 4Another structural schematic diagram of the electronic atomizing device provided in this application embodiment;

[0047] Figure 5 Another structural schematic diagram of the electronic atomizing device provided in the embodiments of this application;

[0048] Figure 6 Another structural schematic diagram of the electronic atomizing device provided in the embodiments of this application.

[0049] The following are the labeling elements in the figure:

[0050] 100, 600, Electronic atomizing device; 101, Control device; 102, Angle sensing module; 103, Receiving module; 104, Judgment module; 105, Switch module; 106, First heating module; 107, Second heating module; 200, Atomizer; 201, 201', First atomizing core; 202, 202', Second atomizing core; 607, First heating element; 608, Second heating element; XX, Horizontal axis; YY, Vertical axis; ZZ, Third axis; K1, First switch; K2, Second switch; RL1, RL1', First resistor; RL2, RL2', Second resistor. Detailed Implementation

[0051] This application provides a method for adjusting the working mode, an electronic atomizing device, and a computer-readable storage medium, which allows switching between two atomizing coils in the same atomizer by changing the rotation angle of the electronic atomizing device, achieving different user experiences, single-handed operation, simplicity and convenience, and improving the practicality of the product.

[0052] The technical solutions in the embodiments of this application will now be described with reference to the accompanying drawings.

[0053] The terminology used in the embodiments of this application is for the purpose of describing particular embodiments only and is not intended to be limiting of this application. The singular forms “a,” “the,” and “the” used in the embodiments of this application and the appended claims are also intended to include the plural forms unless the context clearly indicates otherwise. It should also be understood that the term “and / or” as used herein refers to and includes any or all possible combinations of one or more of the associated listed items.

[0054] Please see Figure 1 , Figure 2 , Figure 5 , Figure 6As shown, this application embodiment provides an electronic atomizing device 100, which includes an atomizer 200, a control device 101, an angle sensing module 102, a receiving module 103, a judging module 104, a switch module 105, a first heating module 106, and a second heating module 107, wherein, as Figure 2 As shown, the atomizer 200 includes a first atomizing core 201 and a second atomizing core 202. The control device 101 is used to control the atomizer, the angle sensing module 102, the judgment module 104, the switch module 105, the first heating module 106, and the second heating module 107.

[0055] Based on the above structure of the electronic atomizing device 100, please refer to the following. Figure 3 This application provides a method for adjusting the working mode, applied to an electronic atomizing device 100. In this application embodiment, the method for adjusting the working mode is applied to the electronic atomizing device 100 when the power is on.

[0056] The method for adjusting the working mode provided in this application embodiment may include:

[0057] 301. The angle sensing module receives angle rotation information when the electronic atomizing device undergoes angular rotation;

[0058] In this embodiment of the application, when the electronic atomizing device 100 is in the power-on state, when the user holds the electronic atomizing device 100 and rotates it at a certain angle, the angle sensing module 102 set on the control device 101 can sense that the electronic atomizing device 100 has rotated at an angle. Then, the angle sensing module 102 will send the angle rotation information sensed when the electronic atomizing device 100 rotates at an angle to the control device 101.

[0059] It should be noted that, see Figure 1 The angular rotation information of the electronic atomizing device 100 can be the angular rotation information along the longitudinal axis YY of the electronic atomizing device 100 (see...). Figure 1 The arrow pointing in the direction of rotation along the vertical axis YY can also be the rotation angle information along the horizontal axis XX, which is perpendicular to the vertical axis YY of the electronic atomizing device 100 (see [link]). Figure 1 The arrow pointing in the direction of rotation along the horizontal axis XX can also indicate rotation angle information along the third axis ZZ, which is perpendicular to the plane formed by the vertical axis YY and the horizontal axis XX of the electronic atomizing device 100 (see [reference]). Figure 5 The direction of the arrow rotating along the third axis ZZ is not specified here.

[0060] Specifically, when the electronic atomizing device 100 rotates along its vertical axis YY, it can rotate clockwise or counterclockwise along the vertical axis YY; the specific direction is not limited here. Similarly, when the electronic atomizing device 100 rotates along its horizontal axis XX, it can rotate clockwise or counterclockwise along the horizontal axis XX; the specific direction is not limited here. Alternatively, when the electronic atomizing device 100 rotates along its third axis ZZ, it can rotate clockwise or counterclockwise along the third axis ZZ; the specific direction is not limited here.

[0061] 302. Determine whether the rotation angle in the rotation information is greater than the preset angle;

[0062] In this embodiment of the application, after the control device 101 receives the angle rotation information sensed by the angle sensing module 102 when the electronic atomizing device 100 rotates at an angle, it can then determine whether the rotation angle in the angle rotation information is greater than a preset angle. If yes, then step 303 is executed; if no, then step 304 is executed.

[0063] In this embodiment, the preset angle refers to the angle preset in the storage module 108 for comparison and determination with the actual rotation angle of the electronic atomizing device 100. It is the angle formed by the posture of the electronic atomizing device 100 after rotation and any two of its own longitudinal axis YY, horizontal axis XX, or a plane perpendicular to the plane formed by the longitudinal axis YY and the horizontal axis XX. It should be noted that the preset angle can be greater than or equal to 0 degrees and less than 180 degrees; preferably, the preset angle can be greater than or equal to 90 degrees and less than 180 degrees. The preset angle information can be set in the storage module 108 of the electronic atomizing device 100, and the control device 101 is electrically connected to the storage module 108. Specifically, when the control device 101 receives the angle rotation information sent by the angle sensing module 102 through the receiving module 103, the control device 101 will call the preset angle information in the storage module 108 and compare the rotation angle of the angle rotation information with the preset angle of the preset angle information.

[0064] Furthermore, the angle sensing module 102 can be an angle sensor or a triaxial accelerometer, which is not limited here.

[0065] 303. Disconnect the first heating module and connect the second heating module;

[0066] When the control device 101 determines that the rotation angle in the angle rotation information is greater than the preset angle in the preset angle information, the control switch module 105 disconnects the first heating module 106 and connects the second heating module 107. The first heating module 106 is used for the first heating element, and the second heating module 107 is used for heating the second heating element. The first heating element 607 ( Figure 6 The second heating element 608 is located inside the first atomizing core 109. Figure 6 The first heating element and the second heating element are both located within the second atomizing core 110, and there is at least one of each. Since the first heating module 106 is disconnected by the switch module 105, only the second heating module 107 is connected by the switch module 105. Therefore, only the second heating element heats the atomizing liquid, and only the second atomizing core 110 is working.

[0067] In other words, prior to step 303, while the electronic atomizing device 100 was powered on, only the first heating module 106 was heating and atomizing the atomizing liquid, while the second heating module 107 had not yet heated and atomized the atomizing liquid before this step. Therefore, if the first liquid storage cup 609 is present in the electronic atomizing device... Figure 6 ) and second reservoir cup 610 ( Figure 6 These two liquid storage cups are connected as follows: the first atomizing core 109 is connected to the first liquid storage cup 609, and the second atomizing core 110 is connected to the second liquid storage cup 610. Different types of atomizing liquids are filled in the two liquid storage cups respectively. Then, the user can switch from one atomizing core to another, and from heating and atomizing one type of atomizing liquid to heating and atomizing another type of atomizing liquid, simply by rotating the electronic atomizing device 100 at a certain angle. This allows the user to obtain different user experiences by simply holding the electronic atomizing device with one hand.

[0068] In this embodiment, the electronic atomizing device 100 may also have only one liquid reservoir. The electronic atomizing device 100 controls the switch module 105 via the control device 101, causing the first atomizing core 109 and the second atomizing core 110 to connect to the liquid reservoir at different time intervals, heating and atomizing the liquid flowing from the liquid reservoir into one of the atomizing cores. In this case, for example, the first heating element 607 can be set to one, and the second heating element 608 can be set to two. Therefore, the first heating element 607 heats and atomizes less liquid in the same amount of time than the second heating element 608 heats and atomizes less liquid. With this structure of the electronic atomizing device 100, users can choose between a larger vapor production mode or a smaller vapor production mode by rotating the electronic atomizing device 100 with one hand, according to their needs and preferences. This allows users to easily and conveniently use and experience two different atomized liquids through the same electronic atomizing device 100, thus improving the diversity and practicality of the product.

[0069] 304. Keep the first heating module connected and keep the second heating module disconnected.

[0070] In contrast to step 303, when the control device 101 determines that the rotation angle in the angle rotation information is less than the preset angle in the preset angle information, the control switch module 105 continues to keep the first heating module 106 connected and continues to keep the second heating module 107 disconnected.

[0071] For example, when the control device 101 receives information from the angle sensing module 102 that the electronic atomizing device 100 has rotated to a 90-degree angle along the longitudinal axis YY, the control device 101 compares the preset angle of 90 degrees stored in the storage module 108 with the actual 90-degree rotation angle of the electronic atomizing device 100 along the longitudinal axis YY. If the control device 101 determines that the rotation angle in the angle rotation information is equal to the preset angle, then the control device 101 controls the switch module 105 to keep the first heating module 106 connected and the second heating module 107 disconnected. In other words, when the user holds the electronic atomizing device 100 and rotates it, if the rotation angle in the angle rotation information is less than the preset angle in the preset angle information, the working mode of the electronic atomizing device will not change, and it will continue to work according to the working mode before rotation.

[0072] As can be seen from the above, when the electronic atomizing device 100 is in the power-on state, when the judgment module 104 determines that the actual rotation angle in the angle rotation information sensed by the angle sensing module 102 is greater than the preset angle stored in the preset angle information in the storage module 108, the first heating module 106 is disconnected and the second heating module 107 is connected to achieve the switching of the working mode of the atomizer 200. The mode switches from heating the atomized liquid with the first heating element 607 in the first atomizing core 109 to heating the atomized liquid with the second heating element in the second atomizing core 110. With this method of switching working modes, even when using the electronic atomizer 100 with one hand, users can switch the working mode of the atomizer coil simply by changing the angle of the electronic atomizer 100 so that the rotation angle exceeds a certain preset threshold. Therefore, users can switch to experience different types or volumes of atomized liquid according to their needs and preferences, which improves the diversity of user choices and the practicality of the product. Furthermore, the working mode of the atomizer 200 can be switched by simply rotating the electronic atomizer 100 with one hand, making the use of the electronic atomizer 100 simpler and more convenient.

[0073] The above describes in detail the method for adjusting the working mode of the electronic atomizing device and some structures of the electronic atomizing device in the embodiments of this application. The electronic atomizing device in the embodiments of this application will be described in detail below.

[0074] Please see Figure 1 , Figure 2 , Figure 5 , Figure 6 The electronic atomizing device 100 provided in this embodiment, as described above, includes an atomizer 200, a control device 101, an angle sensing module 102, a receiving module 103, a judging module 104, a switching module 105, a first heating module 106, and a second heating module. The atomizer 200 includes a first atomizing core 201 and a second atomizing core 202. The control device includes a processing unit for controlling the atomizer, the angle sensing module 102, the judging module 104, the switching module 105, the first heating module 106, and the second heating module 107.

[0075] The receiving module 103 is used to receive the angle rotation information sensed by the angle sensing module 102 when the electronic atomizing device 100 undergoes an angle rotation;

[0076] The judgment module 104 is used to determine whether the rotation angle in the angle rotation information is greater than the preset angle;

[0077] The switch module 105 is used to disconnect the first heating module 106 and connect the second heating module 107 when the rotation angle in the angle rotation information determined by the judgment module 104 is greater than a preset angle. The first heating module 106 is used to heat the first heating element 607, and the second heating module 107 is used to heat the second heating element 608. The first heating element 607 is located in the first atomizing core 201, and the second heating element 608 is located in the second atomizing core 202. Both the first heating element 607 and the second heating element 608 are at least one.

[0078] In this embodiment of the application, the preset angle can be greater than or equal to 0 degrees and less than 180 degrees. Preferably, the preset angle can be greater than or equal to 90 degrees and less than or equal to 180 degrees.

[0079] In this embodiment, the angular rotation information can be angular rotation information along the vertical axis YY of the electronic atomizing device 100, angular rotation information along the horizontal axis XX perpendicular to the vertical axis YY of the electronic atomizing device 100, or angular rotation information along the third axis ZZ perpendicular to the plane formed by the vertical axis YY and the horizontal axis XX of the electronic atomizing device 100 (see [link to relevant documentation]). Figure 5 The direction of the arrow rotating along the third axis ZZ is not specified here.

[0080] In addition, the switch module 105 can be a buck-boost converter module 405 ( Figure 4 The first heating module 106 may include a first switch K1. Figure 6 The second heating module 107 may include a second switch K2. Figure 6 ).

[0081] It should be noted that the resistance value of the first heating element 607 may be different from or the same as that of the second heating element 608; no specific limitation is made here.

[0082] In this embodiment of the application, the switch module 105 is further configured to keep the first heating module 106 connected and the second heating module 107 disconnected after the judgment module 104 determines that the rotation angle in the angle rotation information is less than or equal to the preset angle.

[0083] In other words, when the electronic atomizing device 100 is powered on, the first heating module 106 is initially powered on, the first atomizing core 201 is in working condition, while the second heating module 107 is powered off, and the second atomizing core 202 is not in working condition. When the electronic atomizing device 100 determines through the judgment module 104 that the rotation angle in the angle rotation information is less than or equal to the preset angle stored in the storage module 108, the control device 101 will keep the first heating module 106 powered on, and the first atomizing core 201 will continue to work, atomizing and heating the atomizing liquid. At the same time, the control device 101 will keep the second heating module 107 powered off, and the second atomizing core 202 will remain disconnected and will not be in working condition, i.e., it will not atomize and heat the atomizing liquid.

[0084] It should be noted that in this embodiment, the electronic atomizing device 100 can be provided with two liquid storage cups or one liquid storage cup; the specific configuration is not limited here. When two liquid storage cups are provided, one liquid storage cup can hold one type of atomizing liquid, and the other liquid storage cup can hold another type of atomizing liquid. For example, one liquid storage cup can hold an atomizing liquid containing nicotine, and the other liquid storage cup can hold an atomizing liquid without nicotine. When only one liquid storage cup is provided, the first heating element in the first atomizing core 201 can be provided with two elements, and the second heating element in the second atomizing core 202 can be provided with one element. Alternatively, the resistance values ​​of the first heating element in the first atomizing core 201 and the second heating element in the second atomizing core 202 can be different; the specific configuration is not limited here.

[0085] In this embodiment, when the electronic atomizing device 100 is powered on, if the judgment module 104 determines that the actual rotation angle in the angle rotation information sensed by the angle sensing module 102 is greater than the preset angle stored in the preset angle information in the storage module 108, the control device 101 disconnects the first heating module 106 and connects the second heating module 107 through the switch module 105. This allows the atomizer 200 to switch its working mode, changing from heating the atomized liquid with the first heating element 607 in the first atomizing core 201 to heating the atomized liquid with the second heating element 608 in the second atomizing core 202. In this way, the user can change the rotation angle of the electronic atomizing device 100 with one hand, and easily switch to another atomizing core when the rotation angle exceeds the preset angle value. Therefore, it not only increases the experience of different atomized liquids, but also makes the operation simple, improving the diversity of user choices and the practicality and fun of the product.

[0086] Please refer to the following: Figure 4 , Figure 4In a specific embodiment of the electronic atomizing device 100 of this application, a power supply 401 is connected to a USB interface 402, which is externally connected to the electronic atomizing device 100. The power supply 401 supplies power to the control device 403 and the triaxial accelerometer 404. The control device 403 determines whether the actual rotation angle of the electronic atomizing device 100, sensed by the triaxial accelerometer 404, is greater than that of the storage module (not stored in the memory). Figure 4 The preset angle stored in the preset angle information (as indicated by the label) controls the buck-boost converter module 405 to turn on and off the NMOS transistors Q1 and Q2, which act as switching elements. When Q1 is on and Q2 is off, the resistor RL1, which acts as the first heating module, heats and atomizes the atomizing liquid, and the first atomizing core 201 operates. When Q1 is off and Q2 is on, the resistor RL2, which acts as the second heating module, heats and atomizes the atomizing liquid, and the second atomizing core 202 operates.

[0087] It should be noted that, in the embodiments of this application, a PMOS transistor can also be used as a switching element of the circuit, and no specific limitation is made here.

[0088] This application embodiment also provides another electronic atomizing device 600, which includes a processor 601, a memory 602, an angle sensor 603, a switching circuit 604, a first heating circuit 605, a second heating circuit 606, a first atomizing core 201', a second atomizing core 202', and a bus;

[0089] The processor 601, memory 602, angle sensor 603, and switching circuit 604 are respectively connected to the bus, and the first heating circuit 605 and the second heating circuit 606 are respectively connected to the switching circuit 604.

[0090] The processor 601 can be used to receive angle rotation information sensed by the angle sensor 603 when the electronic atomizing device 600 rotates at an angle when the electronic atomizing device 600 is in the power-on state, and determine whether the rotation angle in the angle rotation information is greater than the preset angle in the preset angle information stored in the memory 602. If so, the first heating circuit 605 is disconnected through the switch circuit 604 and the second heating circuit 606 is connected. The first heating circuit 605 can be used to heat the first heating element 607, and the second heating circuit 606 can be used to heat the second heating element 608. The first heating element 607 is located in the first atomizing core 201', and the second heating element 608 is located in the second atomizing core 202'. There is at least one first heating element 607 and at least one second heating element 608.

[0091] Specifically, the first heating circuit 605 may include a first switch K1, the second heating circuit 606 may include a second switch K2, and the processor 601 is specifically used to control the connection and disconnection of the first switch K1 and the second switch K2 through the switch circuit 604.

[0092] Furthermore, the switching circuit 604 is a buck-boost conversion circuit.

[0093] In this embodiment, the first resistance RL1' of the first heating element 607 and the second resistance RL2' of the second heating element 608 may be different. Further, in this case, the electronic atomizing device 600 may also include a first reservoir 609 and a second reservoir 610. The first reservoir 609 stores the first atomizing liquid, and the second reservoir 610 stores the second atomizing liquid. The first atomizing core 201' is used to heat and atomize the first atomizing liquid, and the second atomizing core 202' is used to heat and atomize the second atomizing liquid. Alternatively, in this case, the electronic atomizing device 600 may also include only one reservoir (not shown), which stores the atomizing liquid. The first atomizing core 201' and the second atomizing core 202' are used to heat and atomize the atomizing liquid at different time periods. In the case where the electronic atomizing device 600 is equipped with only one liquid storage cup, since the first resistor RL1' and the second resistor RL2' are different, although it contains only one type of atomizing liquid, the amount of smoke produced per unit time is different because different resistors are used alternately to heat the atomizing liquid at different time periods. This can meet the user's needs to use high power and large amount of smoke sometimes and low power and small amount of smoke sometimes.

[0094] In this embodiment, the first resistor RL1' of the first heating element 607 and the second resistor RL2' of the second heating element 608 can also be the same. In this case, the electronic atomizing device 600 may include a first liquid reservoir 609 and a second liquid reservoir 610. The first liquid reservoir 609 stores the first atomizing liquid, and the second liquid reservoir 610 stores the second atomizing liquid. The first atomizing core 201' is used to heat and atomize the first atomizing liquid, and the second atomizing core 202' is used to heat and atomize the second atomizing liquid.

[0095] It should be noted that in this case, since the first resistor RL1' and the second resistor RL2' are the same, the amount of vapor produced by alternating use of RL1' and RL2' at different time periods is the same. Therefore, the electronic atomizing device 600 does not have a situation where only one liquid storage cup is provided.

[0096] As can be seen from the above, when the electronic atomizing device is powered on, and the processor 601 determines that the actual rotation angle in the angle rotation information sensed by the angle sensor 603 is greater than the preset angle stored in the memory, it disconnects the first heating circuit 605 and connects the second heating circuit 606 to achieve the alternating switching of the working modes between the first atomizing core 201' and the second atomizing core 202'. In this way, even if the user uses the electronic atomizing device 600 with one hand, as long as the angle of the electronic atomizing device 600 is changed so that the rotation angle exceeds a certain preset threshold, the atomizing core can be switched. Thus, the user can switch to experience different types or volumes of atomized liquid according to their own preferences and needs, which improves the diversity of user choices and the practicality of the product. Moreover, the working mode of the atomizer can be switched by simply rotating the electronic atomizing device 600 with one hand, making the use of the electronic atomizing device 600 simpler and more convenient.

[0097] In the several embodiments provided in this application, it should be understood that the disclosed apparatus and methods can be implemented in other ways. For example, the apparatus embodiments described above are merely illustrative; for instance, the division of modules is only a logical functional division, and in actual implementation, there may be other division methods. For example, multiple modules or components may be combined or integrated into another system, or some features may be ignored or not executed. Furthermore, the coupling or direct coupling or communication connection shown or discussed may be through some interfaces; the indirect coupling or communication connection between apparatuses or modules may be electrical, mechanical, or other forms.

[0098] The modules described as separate components may or may not be physically separate. The components shown as modules may or may not be physical modules. Some or all of the modules can be selected to achieve the purpose of this embodiment according to actual needs.

[0099] Furthermore, the functional modules in the various embodiments of this application can be integrated into the processing unit of the control device, or each module can exist physically separately, or two or more modules can be integrated into one module. The integrated modules can be implemented in hardware or as software functional modules. The processing unit can be a Central Processing Unit (CPU), or other general-purpose processors, digital signal processors (DSPs), application-specific integrated circuits (ASICs), field-programmable gate arrays (FPGAs), or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, etc. The general-purpose processor can be a microprocessor or any conventional processing unit, etc.

[0100] If the integrated module is implemented as a software functional module and sold or used as an independent product, it can be stored in a computer-readable storage medium. The storage medium can be an internal storage unit of the electronic atomizing device, such as the hard drive or memory of the electronic atomizing device. The storage medium can also be an external storage device of the electronic atomizing device, such as a plug-in hard drive, Smart Media Card (SMC), Secure Digital (SD) card, or Flash Card equipped on the electronic atomizing device. Furthermore, the storage medium can include both internal storage units and external storage devices of the electronic atomizing device. The storage medium is used to store computer programs and other programs and data required by the electronic atomizing device. The storage medium can also be used to temporarily store data that has been output or will be output.

[0101] The above-described embodiments are only used to illustrate the technical solutions of this application, and are not intended to limit them. Although this application has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this application.

Claims

1. A method for adjusting a working mode, characterized in that, The adjustment method is applied to an electronic atomizing device in a power-on state, the electronic atomizing device including a first atomizing core and a second atomizing core, and the adjustment method includes: The angle sensing module receives angle rotation information when the electronic atomizing device rotates at an angle. The angle rotation information is the angle rotation information along the longitudinal axis of the electronic atomizing device, or the angle rotation information along the transverse axis perpendicular to the longitudinal axis of the electronic atomizing device, or the angle rotation information along a third axis perpendicular to the plane formed by the longitudinal axis and the transverse axis of the electronic atomizing device. Determine whether the rotation angle in the rotation information is greater than a preset angle; If so, the control switch module disconnects the first heating module and connects the second heating module, thereby enabling one-handed switching between the two atomizing cores. The first heating module is used to heat the first heating element, and the second heating module is used to heat the second heating element. The first heating element is located inside the first atomizing core, and the second heating element is located inside the second atomizing core. There is at least one first heating element and at least one second heating element.

2. The adjustment method according to claim 1, characterized in that, The preset angle is greater than or equal to 0 degrees and less than 180 degrees.

3. The adjustment method according to claim 2, characterized in that, The preset angle is greater than or equal to 90 degrees and less than 180 degrees.

4. The adjustment method according to any one of claims 1 to 3, characterized in that, The switching module is a step-up / step-down conversion module, the first heating module includes a first switch, and the second heating module includes a second switch.

5. The adjustment method according to claim 4, characterized in that, The resistance values ​​of the first heating element and the second heating element are different.

6. The adjustment method according to claim 4, characterized in that, The resistance value of the first heating element is the same as that of the second heating element.

7. The adjustment method according to claim 4, characterized in that, After determining whether the rotation angle in the rotation information is greater than a preset angle, the adjustment method further includes: If not, keep the first heating module connected and keep the second heating module disconnected.

8. The adjustment method according to any one of claims 1 to 3, characterized in that, The angular rotation information refers to the angular rotation information along a third axis perpendicular to the plane formed by the longitudinal and transverse axes of the electronic atomizing device.

9. An electronic atomizing device, characterized in that, The device includes an atomizer, a control device, an angle sensing module, a receiving module, a judgment module, a switch module, a first heating module, and a second heating module. The atomizer includes a first atomizing core and a second atomizing core. The control device controls the atomizer, the angle sensing module, the judgment module, the switch module, the first heating module, and the second heating module. The receiving module is used to receive the angle rotation information sensed by the angle sensing module when the electronic atomizing device rotates at an angle. The angle rotation information is the angle rotation information along the longitudinal axis of the electronic atomizing device, or the angle rotation information along the horizontal axis perpendicular to the longitudinal axis of the electronic atomizing device, or the angle rotation information along a third axis perpendicular to the plane formed by the longitudinal axis and the horizontal axis of the electronic atomizing device. The judgment module is used to determine whether the angle rotation information is greater than a preset angle; The switch module is used to disconnect the first heating module and connect the second heating module when it is determined that the angle rotation information is greater than the preset angle. The first heating module is used to heat the first heating element, and the second heating module is used to heat the second heating element. The first heating element is located inside the first atomizing core, and the second heating element is located inside the second atomizing core. There is at least one first heating element and at least one second heating element.

10. The electronic atomizing device according to claim 9, characterized in that, The preset angle is greater than or equal to 0 degrees and less than 180 degrees.

11. The electronic atomizing device according to claim 10, characterized in that, The preset angle is greater than or equal to 90 degrees and less than 180 degrees.

12. The electronic atomizing device according to any one of claims 9 to 11, characterized in that, The switching module is a step-up / step-down conversion module, the first heating module includes a first switch, and the second heating module includes a second switch.

13. The electronic atomizing device according to claim 12, characterized in that, The first resistance of the first heating element and the second resistance of the second heating element are different.

14. The electronic atomizing device according to claim 12, characterized in that, The first resistance of the first heating element and the second resistance of the second heating element are the same.

15. The electronic atomizing device according to claim 12, characterized in that, The switch module is also used to keep the first heating module connected and the second heating module disconnected when it is determined that the angular rotation information is less than or equal to the preset angle.

16. The electronic atomizing device according to any one of claims 9 to 11, characterized in that, The angular rotation information refers to the angular rotation information along a third axis perpendicular to the plane formed by the longitudinal and transverse axes of the electronic atomizing device.

17. A computer-readable storage medium storing a computer program, characterized in that, When the computer program is executed by the processor, it implements the steps of the method for adjusting the operating mode as described in any one of claims 1 to 8.