CN112273726A - Main part and electron atomizing device - Google Patents

Main part and electron atomizing device Download PDF

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Publication number
CN112273726A
CN112273726A CN202011140290.1A CN202011140290A CN112273726A CN 112273726 A CN112273726 A CN 112273726A CN 202011140290 A CN202011140290 A CN 202011140290A CN 112273726 A CN112273726 A CN 112273726A
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CN
China
Prior art keywords
atomizer
lens
identification
window
main body
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Pending
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CN202011140290.1A
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Chinese (zh)
Inventor
谭华
明志南
沈丕发
叶校威
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Shenzhen Smoore Technology Ltd
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Shenzhen Smoore Technology Ltd
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Application filed by Shenzhen Smoore Technology Ltd filed Critical Shenzhen Smoore Technology Ltd
Priority to PCT/CN2020/139054 priority Critical patent/WO2021169543A1/en
Publication of CN112273726A publication Critical patent/CN112273726A/en
Pending legal-status Critical Current

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    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • A24F40/51Arrangement of sensors
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/60Devices with integrated user interfaces

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  • Engineering & Computer Science (AREA)
  • Human Computer Interaction (AREA)
  • Spray Control Apparatus (AREA)

Abstract

The invention discloses a main body and an electronic atomization device, wherein the main body is used for being matched with an atomizer provided with an identification pattern, the main body comprises an optical sensor and a control circuit which are electrically connected, and the optical sensor is used for identifying the identification pattern of the atomizer to obtain identification information when the main body is matched with the atomizer; the atomizer is controlled according to the identification information; the optical sensor comprises a lens used for collecting images of the identification patterns and a light transmitting sheet located in the collecting direction of the lens, and when the main body is matched with the atomizer, the identification patterns of the atomizer are located on the light transmitting sheet and are far away from one side of the lens and located in the collecting direction. By the mode, the atomizer can be identified at low cost, and dust can be effectively prevented from reaching the lens.

Description

Main part and electron atomizing device
Technical Field
The present invention relates to electronic atomization, and more particularly, to a main body and an electronic atomization apparatus.
Background
The atomizer is generally detachably connected with the main body of the electronic atomization device, and the atomizer is a replaceable accessory. The atomizer can be replaced when the tobacco tar in the atomizer is exhausted or the atomizer is damaged.
However, since the general electronic atomizer main body is paired with the atomizer, the electronic atomizer main body generally stores the control parameters of the atomizer paired with the electronic atomizer main body, so as to optimize the working effect of the atomizer. On the other hand, the use of counterfeit atomizers may present a safety hazard. In the prior art, part of electronic atomization products adopt the mode of atomizer built-in identification chip to realize the function of atomizer identification, which causes the atomizer identification cost to be high and the application prospect to be limited.
Disclosure of Invention
The invention mainly solves the technical problem of providing a main body and an electronic atomization device, and solves the problem of high identification cost of atomizers.
In order to solve the technical problems, the invention adopts a technical scheme that: providing a body for use with a nebulizer having an identification graphic disposed thereon, the body comprising: the optical sensor is used for identifying the identification pattern of the atomizer to obtain identification information when the main body is matched with the atomizer; the control circuit is electrically connected with the optical sensor and used for controlling the atomizer according to the identification information; wherein, light sensor is including being used for gathering the camera lens of the image of sign figure and being located the ascending printing opacity piece of the collection direction of camera lens, works as the main part with during the atomizer cooperation, the sign figure of atomizer is located the printing opacity piece is kept away from one side of camera lens and is located on the collection direction.
In order to solve the technical problem, the invention adopts another technical scheme that: there is provided an electronic atomising device comprising an atomiser and a body as claimed in any one of the preceding claims wherein the body comprises: the optical sensor is used for identifying the identification pattern of the atomizer to obtain identification information; the control circuit is connected with the optical sensor and used for controlling the atomizer according to the identification information; wherein, light sensor includes the camera lens and is located the ascending printing opacity piece of collection direction of camera lens, the sign figure of atomizer is located the printing opacity piece is kept away from one side of camera lens and is located on the collection direction.
The main body and the electronic atomization device have the beneficial effects that: the optical sensor and the control circuit are arranged on the main body, and the optical sensor is used for identifying the identification pattern of the atomizer to obtain identification information; and the atomizer is controlled by the control circuit according to the identification information. Compared with the mode of a chip and the like, the identification pattern is directly arranged on the atomizer, so that the material cost and the process cost can be effectively reduced, and the atomizer can be identified at low cost. And further, through set up the printing opacity piece on the camera lens in light sensor, can effectually prevent that direct surface of being stained with the camera lens along gathering the direction such as dust from influencing the collection of camera lens to the sign figure.
Drawings
To more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.
FIG. 1 is a schematic structural diagram of an electronic atomizer according to an embodiment of the present invention;
FIG. 2 is a cross-sectional view of FIG. 1;
FIG. 3 is a schematic diagram of the disassembled structure of FIG. 1;
FIG. 4 is a schematic view of the atomizer when vertically positioned;
FIG. 5 is a schematic view of the atomizer when it is laterally positioned;
FIG. 6 is a schematic view of an identification pattern disposed on the bottom surface of the atomizer;
FIG. 7 is a schematic view of a first embodiment of a nebulizer control system of the invention;
FIG. 8 is a schematic view of a second embodiment of a nebulizer control system of the invention;
fig. 9 is a flowchart 1 of a control method of the electronic atomizer of the present invention;
fig. 10 is a flowchart 2 of a control method of the electronic atomizer of the present invention;
fig. 11 is a flowchart 3 of a control method of the electronic atomizer of the present invention;
FIG. 12 is a schematic structural view of one embodiment of a body provided by the present invention;
FIG. 13 is a schematic view of the body of FIG. 12 at an alternate angle;
FIG. 14 is a schematic structural view of an embodiment of an atomizer provided in accordance with the present invention;
FIG. 15 is a schematic cross-sectional view of the body of FIG. 13;
FIG. 16 is a schematic view of another angle of the cross-section of the body of FIG. 15;
FIG. 17 is a schematic structural diagram of an embodiment of an electronic atomizer according to the present invention;
FIG. 18 is a schematic cross-sectional view of the electronic atomizer shown in FIG. 17;
FIG. 19 is a schematic cross-sectional view of the electrospray device of FIG. 18 at another angle;
FIG. 20 is an enlarged schematic view of the detail area A of FIG. 18;
fig. 21 is a schematic flow chart of a control method based on an electronic atomization device provided by the invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The terms "first", "second", etc. in this application are used to distinguish between different objects and not to describe a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.
Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.
The first embodiment is as follows:
referring to fig. 1 to 3, fig. 1 is a schematic view of an electronic atomizer according to the present invention, fig. 2 is a cross-sectional view of fig. 1, and fig. 3 is a schematic view of a disassembled structure of fig. 1, wherein the electronic atomizer includes a main body 1 and an atomizer 2 detachably connected to each other.
Wherein the main body 1 is used for matching with the atomizer 2 provided with the identification pattern 21.
The optical sensor 3 is used for identifying the identification pattern 21 to obtain identification information when the main body 1 and the atomizer 2 are connected or matched, and specifically, the optical sensor 3 can identify the identification pattern 21 to obtain the identification information when the main body 1 and the atomizer 2 are electrically connected or mechanically connected; a strip-shaped cavity 11 is formed in the main body 1, when the atomizer 2 is electrically connected with the main body 1, the optical sensor 3 and the identification pattern 21 are respectively positioned at two ends of the cavity 11, the cavity 11 is used for forming the optical path 100 when the optical sensor 3 identifies the identification pattern 21, and the cavity 11 is arranged to avoid light scattering, so that the optical sensor 3 can better identify the identification pattern 21; the control circuit 8 is electrically connected to the optical sensor 3, and is configured to perform operation control on the nebulizer 2 according to the recognition result of the optical sensor 3, specifically, perform operation control on the nebulizer 2 according to the identification information sent by the optical sensor 3. The main body 1 is used for bearing a control circuit 8 and is connected with the atomizer 2, and an atomizing element and a substrate to be atomized, such as tobacco tar, are arranged in the atomizer 2 and are used for atomizing the substrate to be atomized. The atomizer 2 is provided with an identification pattern 21, the identification pattern 21 can be a label of the atomizer 2, and can also be a pattern, a character, a symbol, a bar code or a two-dimensional code and the like arranged on the surface of the atomizer 2, and the setting mode of the identification pattern 21 can be spray painting, laser engraving or printing. The label, pattern, character, symbol, bar code or two-dimensional code includes information on the product and identification of the nebulizer 2, such as the date of manufacture, model, specification, use, type, etc. of the nebulizer 2. The optical sensor 3 is used for identifying the identification pattern 21, so that the atomizers 2 of different types and models are distinguished, and the problem of mismatching between the atomizers 2 and the main body 1 is avoided. The cavity 11 is formed in the main body 1, the optical sensor 3 and the identification pattern 21 are respectively located at two ends of the cavity 11 to form the optical path 100, the focal length of the optical sensor 3 is ensured by utilizing the internal space of the main body 1, zooming control is not needed, and therefore the complexity of a recognition algorithm and the complexity of a sensor mechanism are reduced.
After the optical sensor 3 identifies the identification pattern 21 of the atomizer 2, the identified information is transmitted to the control circuit 8, the control circuit 8 compares the identification information with preset information, if the identification information is matched with the preset information, the atomizer 2 is started, if the identification information is not matched with the preset information, the atomizer 2 is not started, only the atomizer 2 corresponding to the main body 1 can operate, and therefore different atomizers 2 are distinguished and identified.
The main body 1 in the embodiment is internally provided with a battery installation cavity 12 and an atomizer installation cavity 13 which are adjacent; the atomizer mounting cavity 13 is used for accommodating the atomizer 2, and when the atomizer 2 is mounted in the atomizer mounting cavity 13, the identification pattern 21 faces the opening direction of the cavity 11; the optical sensor 3 is disposed on a bottom surface of the cavity 11 opposite to the opening, and is configured to emit light to the identification pattern 21 and receive light reflected by the identification pattern 21, so as to identify the identification pattern 21. The identification pattern 21 is disposed on a side surface or a bottom surface of the atomizer 2, that is, the identification pattern 21 may be disposed on an outer surface of a side portion or an outer surface of a bottom portion of the atomizer 2, and when the atomizer 2 is fixed in the atomizer mounting cavity 13, the position of the identification pattern 21 corresponds to the cavity 11, so that the optical sensor 3 in the cavity 11 can recognize the identification pattern 21. Meanwhile, the identification pattern 21 and the optical sensor 3 are respectively arranged at two end parts of the cavity 11, and a certain distance is formed between the identification pattern 21 and the optical sensor 3. The cavity 11 forms an optical path 100 for diffusing the light emitted by the optical sensor 3, so that the focal length of the optical sensor 3 is ensured, zooming control is not required, and the identification of the atomizer 2 is realized through a simple structure.
The battery 4 and the battery bracket 5 are arranged in the battery mounting cavity 12 in the embodiment, and the cavity 11 is formed by enclosing the inner wall of the battery bracket 5. The battery installation cavity 12 is used for accommodating the battery 4, and the battery 4 supplies power to the electronic atomization device. The battery support 5 is used for supporting the battery 4 to prevent the battery 4 from shaking, and meanwhile, the battery support 5 also forms a cavity 11 for installing and placing the optical sensor 3 and forming the light path 100 inside the main body 1.
The atomizer mounting cavity 13 in the embodiment is internally provided with a connecting part 6 for connecting and fixing the atomizer 2; one side of the connecting part 6 facing the cavity 11 is provided with a window, and the identification pattern 21 is opposite to the opening end of the cavity 11 through the window. The setting position of the window on the connecting part 6 corresponds to the position of the identification pattern 21 on the atomizer 2, and when the atomizer 2 is fixed on the connecting part 6, the identification pattern 21 and the window are both right opposite to the opening end of the cavity 11, so that the optical sensor 3 can identify the identification pattern 21.
The cavity 11 in this embodiment is a space formed by separating the battery installation cavity 12 or the atomizer installation cavity 13, and is set according to different requirements and shapes of the electronic atomization device. When the cavity 11 is disposed in the battery mounting cavity 12, as shown in fig. 4, the length direction of the atomizer 2 is the same as the length direction of the main body 1, and as shown in fig. 6, the identification pattern 21 is disposed on the bottom surface of the atomizer 2 and corresponds to the position of the optical sensor 3 disposed on the lower portion of the main body 1. When the cavity 11 is disposed in the atomizer mounting cavity 13, as shown in fig. 5, the length direction of the atomizer 2 is perpendicular to the length direction of the main body 1, and the identification pattern 21 is disposed on the side surface of the atomizer 2 and corresponds to the optical sensor 3 disposed on one side of the main body 1. The position setting of sign figure 21 is diversified, and the side of locating atomizer 2 or bottom surface all can to also make electronic atomization device's external shape can be diversified, the mode that sets up of atomizer 2 in main part 1 is more nimble.
In this embodiment, the main body 1 is further provided with an infrared recognition lens 7, the infrared recognition lens 7 covers the opening of the cavity 11, and the identification pattern 21 and the optical sensor 3 are respectively located on two sides of the infrared recognition lens 7. The infrared recognition lens 7 is used for allowing the light emitted by the light sensor 3 on one side to pass through and project on the identification pattern 21 on the other side. The infrared recognition lens 7 can be arranged in the atomizer mounting cavity 13 or the battery mounting cavity 12 and covers the opening of the cavity 11, and the connecting part 6 is attached to the upper part of the infrared recognition lens 7. In the enclosed space that infrared identification lens 7 and cavity 11 formed, the light that light sensor 3 sent forms the camera lens visual field passageway, and light sends from light sensor 3, spreads on infrared identification lens 7, utilizes the intrinsic inner space of main part 1 to guarantee the focus, does not need to zoom control.
The optical sensor 3 in this embodiment includes an infrared recognition lens 31 and an emission lamp 32, light projected by the emission lamp 32 passes through the infrared recognition lens 7 and faces the identification pattern 21, and the infrared recognition lens 31 receives reflected light from the surface of the identification pattern 21. The emitting lamp 32 is located at the side of the infrared recognition lens 31 and is used for projecting light to the identification pattern 21, and the infrared recognition lens 31 is used for receiving the reflected light of the identification pattern 21, recognizing and interpreting the information in the identification pattern 21, and informing the control circuit 8 to read the recognition information.
The electronic atomization device in this embodiment further includes a memory, and the memory stores preset information and stores operation information of the atomizer 2. The preset information includes an attribute parameter and a control parameter, the attribute parameter at least includes at least one of a specification type of the atomizer 2, a production line number, a specification type of a heating element of the atomizer 2, and life information, the control parameter may be a working parameter or working mode information of the atomizer 2, such as a working voltage, a current, a temperature control curve, etc. of the atomizer 2, and the control parameter may include working parameter information of one atomizer 2, and may also include working parameter information of a plurality of atomizers 2. When the atomizer 2 is installed on the main body 1, the optical sensor 3 recognizes the information of the identification pattern 21, and when the recognition information matches with the attribute parameter of the memory, the atomizer 2 is started to operate, so that the main body 1 and the atomizer 2 are prevented from being not corresponding. When the atomizer 2 operates, the control circuit 8 controls the atomizer 2 to operate according to the control parameters in the memory, that is, according to the set operating parameters or operating modes, so that the atomizer 2 reaches the optimal operating state.
In the present embodiment, the attribute parameters further include a pumping time and/or a pumping frequency, and the memory records the accumulated operating time or pumping frequency of the nebulizer 2 for life management. When the accumulated working time or the suction frequency of the atomizer 2 exceeds the life data in the attribute parameters, the control circuit 8 controls the atomizer 2 to stop working, and simultaneously reminds the user to replace the atomizer 2. When a plurality of atomizers 2 are used alternately, the memory records the use data of different atomizers 2 respectively and manages the service lives of different atomizers 2 respectively, so that the use conditions of the atomizers 2 are effectively managed, and the user experience is optimized.
The identification pattern 21 in this embodiment is a bar code or a two-dimensional code, and the information in the identification pattern 21 includes identification information and model information. The setting mode of the identification information can be spray painting, laser engraving or printing, and the identification information comprises information such as production date, model, specification, use mode, category and the like of the atomizer.
The invention also provides an atomizer control device, which is provided with an optical sensor 3 and a control circuit 8, wherein the optical sensor 3 is used for identifying the identification pattern 21 on the atomizer 2 to obtain identification information when the atomizer control device is electrically connected with the atomizer 2; a strip-shaped cavity 11 is formed in the atomizer control device, when the atomizer 2 is electrically connected with the atomizer control device, the optical sensor 3 and the identification pattern 21 are respectively positioned at two ends of the cavity 11, and the cavity 11 is used for forming a light path 100 when the optical sensor 3 identifies the identification pattern 21; the control circuit 8 is electrically connected to the optical sensor 3, and is configured to perform operation control on the nebulizer 2 according to the recognition result of the optical sensor 3. The atomizer control device is provided with the optical sensor 3 to identify the identification pattern 21 of the atomizer 2, so that the atomizer 2 can be started when being matched with the atomizer control device, meanwhile, the cavity 11 is arranged in the atomizer control device to form a view field channel of light of the optical sensor 3, the inherent internal space of the atomizer control device is utilized to ensure the focal length, zooming control is not needed, and the identification structure of the identification pattern 21 is simplified.
The invention also provides an atomizer control system which is applied to the electronic atomization device. As shown in fig. 7, the schematic diagram of a first embodiment of a nebulizer control system is shown, wherein the nebulizer control system includes a light sensor 10, a nebulizer installation identification unit 30, and a control unit 20 connected to the light sensor 10 and the nebulizer installation identification unit 30, wherein the light sensor 10 is configured to receive and interpret an identification image on the nebulizer 2 to obtain identification information; the control unit 20 is configured to start the optical sensor 10 to receive and interpret the identification image on the nebulizer 2 when the nebulizer 2 is electrically connected to the main body 1, read identification information of the optical sensor, and generate a corresponding control instruction according to the identification information to control the operation of the nebulizer 2. The atomizer installation recognition unit 30 is used for recognizing whether the atomizer 2 is installed and connected to the main body, specifically, the recognition mode is to recognize whether the main body 1 and the atomizer 2 form an electrical connection, if the main body 1 and the atomizer 2 form an electrical connection, the atomizer 2 is recognized to be present, and if the main body 1 and the atomizer 2 do not form an electrical connection, the atomizer 2 is recognized to be absent.
The control unit 20 in this embodiment is further configured to match the read identification information with a preset condition, and determine whether the electronic atomization device meets the working condition. The preset working condition of the control unit 20 at least includes one of a working mode set to match with the identification information of the atomizer 2, a model or parameter matching of the identification information with the main body 1, and an identity information matching of the identification information with the main body 1, and if the acquired identification information matches with the preset working condition, it is determined that the working condition for using the atomizer 2 is provided, and the electronic atomization device can be started normally for use. Otherwise, it is determined that the use condition of the atomizer 2 is not satisfied, and the electronic atomization device cannot be normally used.
In the embodiment, the main body 1 of the electronic atomization device is used for installing the atomizer 2, and the atomizer 2 is provided with an atomization element and a substrate to be atomized, such as tobacco tar, for atomization treatment of the substrate to be atomized. When atomizer 2 installs in main part 1, the identification pattern of atomizer 2 is gathered to light sensor 10 to obtain identification information, it is specific, the identification pattern can be for the label of atomizer 2, also can be for locating pattern, characters, symbol, bar code or two-dimensional code etc. on atomizer 2 surface, the setting mode of identification pattern can be spray drawing, radium carving or printing, the identification pattern has contained atomizer 2's relevant product information and identification information, information such as atomizer 2's production date, model, specification, use way, classification.
Be different from prior art, the atomizer control system of this embodiment sets up the sign on 2 surfaces of atomizer, when discerning the atomizer and exist, starts the light sensor discernment sign and obtains identification information, distinguishes the atomizer category through the pattern recognition mode, and the work of control atomizer behind the discernment atomizer category compares the mode through electronic induction discernment among the prior art, and the discernment of atomizer is realized with lower cost through pattern recognition to this embodiment.
Referring to fig. 8, a schematic diagram of a second embodiment of a nebulizer control system is shown, the nebulizer control system includes a control unit 20, and a light sensor 10, a nebulizer installation identification unit 30 and a storage unit 40 connected to the control unit 20.
The optical sensor 10 is used for recognizing the identification pattern on the atomizer 2 to obtain identification information, and the optical sensor 10 is operated in a manner that the identification pattern is recognized and the identification information is interpreted according to a signal indication of the control unit 20, and then the control unit 20 is informed to read the interpreted information.
The control unit 20 is configured to control the optical sensor 10 to collect identification information of the atomizer 2 when the atomizer 2 is electrically connected to the main body, and generate a corresponding control instruction according to the identification information to control the operation of the atomizer 2.
The atomizer installation recognition unit 30 is connected to the control unit 20, and is configured to recognize whether the atomizer 2 exists, specifically, whether the main body 1 and the atomizer 2 form an electrical connection. Specifically, the nebulizer installation identification unit 30 includes a resistance identification circuit for identifying whether the nebulizer 2 is electrically connected to the main body 1. When the resistance recognition circuit recognizes that the nebulizer 2 is electrically connected to the main body 1, information is fed back to the control unit 20. Be equipped with the heat-generating body resistance in the atomizer 2, when atomizer 2 installed on main part 1, heat-generating body resistance and resistance identification circuit intercommunication can discern that atomizer 2 and main part 1 have formed the electricity and be connected this moment, and later the control unit 20 starts the identification information that light sensor 10 gathered atomizer 2.
The storage unit 40 is configured to store attribute parameters of the atomizer 2, where the attribute parameters at least include at least one of specification type, production line number, specification type of a heating element, and life information; when identification information and attribute parameter match, the control unit 20 output control signal starts the electronic atomization device, and when identification information and attribute parameter did not match, the electronic atomization device did not start to guarantee main part 1 and atomizer 2's correspondence, only can use when atomizer 2 and main part 1 match, make atomizer 2's use more reasonable, avoid producing the potential safety hazard, reach anti-fake effect simultaneously.
Optionally, in another embodiment, the storage unit 40 further stores a control parameter corresponding to the attribute parameter, and the control unit 20 is further configured to control the operation of the atomizer 2 by using the control parameter matching with the identification information. The control parameter may be a working parameter or working mode information of the atomizer 2, such as working voltage, current, temperature, etc. of the atomizer 2, and the control parameter may include working parameter information of one kind of the atomizer 2, and may also include working parameter information of a plurality of kinds of the atomizers 2, so as to control different atomizers 2 to work under a preset working parameter, thereby achieving an optimal use effect.
As shown in fig. 6, the present application further provides an atomizer 2, and the atomizer 2 can be specifically used in combination with the main body 1 in any of the above embodiments. This atomizer 2 is provided with identification pattern 21, and identification pattern 21 is used for when atomizer 2 and main part 1 cooperate, is discerned by the light sensor 3 of main part 1 and obtains identification information, and then makes the control circuit 8 of main part 1 control atomizer 2 according to identification information.
In an alternative embodiment, the identification pattern 21 may be specifically disposed on the side of the atomizer 2.
In another alternative embodiment, the identification pattern 21 may also be provided on the bottom surface of the atomizer 2.
Optionally, the identification pattern 21 may be a pattern, a character, a bar code, a two-dimensional code, or a dot code.
The present application also provides an electronic atomization device including the main body 1 in any of the embodiments described above and the atomizer 2 in any of the embodiments. The optical sensor 3 is used for identifying the identification pattern 21 when the main body 1 is connected with the atomizer 2 to obtain identification information; the control circuit 8 is electrically connected to the optical sensor 3, and is configured to perform operation control on the nebulizer 2 according to the identification information.
As shown in fig. 21, the present application further provides a control method based on an electronic atomization device, where the control method of the electronic atomization device in the foregoing embodiment includes:
s11, recognizing the identification pattern by the optical sensor to obtain identification information.
Identification information is obtained by recognizing the identification pattern 21 of the nebulizer 2 with the optical sensor 3.
And S12, controlling the atomizer by using the control circuit according to the identification information.
The control circuit 8 is then used to control the atomizer in accordance with the identification information.
The invention also provides a control method of the electronic atomization device, which is applied to the electronic atomization device, wherein the electronic atomization device comprises a main body and an atomizer which are detachably connected, and the surface of the atomizer is provided with a mark. Referring to fig. 9 to 11, fig. 9 to 11 are flowcharts of a control method of an electronic atomization device, the control method includes:
step 1: the main control unit judges whether the atomizer is installed and connected.
Step 11: judge whether the mode of the connection of installation of atomizer is discernment the main part with whether the atomizer forms the electricity and connects, main control unit can pass through heat-generating body resistance identification circuit discernment atomizer whether with main part installation connection. Determining that the nebulizer is installed if the body and the nebulizer form an electrical connection; otherwise, judging that the installation is not carried out. Step 2: if the atomizer is installed and connected, the main control unit starts the optical sensor to identify the identifier on the atomizer, and the identifier information of the atomizer is obtained.
Step 21: the step of starting the optical sensor to identify the identifier on the atomizer specifically includes:
a marking that emits light onto the nebulizer;
receiving the reflected light of the mark to form an optical signal;
and reading the identification information on the atomizer according to the optical signal.
Step 22: the acquiring of the identification information of the nebulizer is specifically that the control unit acquires the identification information of the nebulizer from the optical sensor. And after receiving the instruction of the main control unit, the optical sensor receives and decodes the identification code information and informs the main control unit to read the decoding information.
And step 3: the main control unit matches the acquired atomizer identification information with preset conditions and judges whether the operating conditions of the electronic atomization device are met or not;
if the working conditions of the electronic atomization device are met, unlocking the electronic atomization device to work normally; otherwise, locking the electronic atomization device to prevent the electronic atomization device from working normally.
Step 31: the atomizer works normally specifically by starting a corresponding working mode according to the acquired atomizer identification information.
And 4, step 4: and the main control unit generates a corresponding control instruction according to the identification information so as to control the work of the atomizer.
Step 41: the main control unit generates a corresponding control instruction, specifically, if the corresponding control instruction meets the working conditions of the electronic atomization device, the corresponding control instruction is generated according to the acquired atomizer identification information, a corresponding working mode is started, and the electronic atomization device is unlocked to normally work in the corresponding working mode.
Step 42: controlling the work of the atomizer specifically to acquire a control parameter matched with the attribute parameter when the identification information is matched with the stored attribute parameter;
and controlling the work of the atomizer by utilizing the attribute parameters and the control parameters.
The above steps will be specifically described below. In the control method of the invention, it is first recognized whether the nebulizer 2 is already connected. Specifically, if the main body 1 and the nebulizer 2 are identified to be electrically connected, the nebulizer 2 is identified to be mounted and connected, and if the main body 1 and the nebulizer 2 are identified to be not electrically connected, the nebulizer 2 is identified to be not mounted and connected. Whether main part 1 and atomizer 2 form the electricity and connect depends on whether atomizer 2 installs the preset position on main part 1, if atomizer 2 installs on the preset position on main part 1, then discern that main part 1 and atomizer 2 have formed the electricity and connect, control atomizer 2 and start, if when atomizer 2 did not install on the preset position on main part 1, then discern that not form the electricity and connect between main part 1 and the atomizer 2, do not start atomizer 2. The identification method is to detect the resistance of the heating element in the atomizer 2 by providing a resistance identification circuit, and identify that the atomizer 2 has been mounted at a preset position on the main body 1 when the resistance of the heating element is communicated with the resistance identification circuit.
When judging that atomizer 2 has installed the connection, get into step 2, the main control unit starts the sign on the optical sensor discernment atomizer 2, obtains additional identification information on the sign, and the acquisition mode can be optical sensor discernment, and the sign of atomizer 2 can be for the label, locate pattern, characters, symbol, bar code or two-dimensional code etc. on atomizer 2 surface, and the mode of setting up of sign can be air brushing, radium carving or printing. The identification information includes information on the product and identification of the nebulizer 2, such as the date of manufacture, model, specification, usage, and type of the nebulizer 2. The identification information is read after the identification information of the atomizer 2 is collected, the acquired identification information of the atomizer 2 is matched with the preset condition, whether the working condition of the electronic atomization device is met is judged, namely whether the electronic atomization device has the working condition of the atomizer 2 is judged, if yes, the electronic atomization device is unlocked to normally work, and otherwise, the atomizer 2 is not started. And generating a control instruction corresponding to the identification information according to the identification information, and starting a corresponding working mode, for example, adopting different operation modes for different types of atomizers 2, and correspondingly controlling the atomizers 2, so as to effectively identify the different atomizers 2, distinguish the atomizers 2 with different models and specifications, and adopt different operation modes for the different atomizers 2.
The method for identifying the mark on the atomizer 2 is as follows: a marking that emits light onto the nebulizer; receiving the reflected light of the mark to form an optical signal; and reading the identification information on the atomizer according to the optical signal. Specifically, after receiving the indication of the main control unit, the optical sensor receives reflected light of the identifier, reads and recognizes the identifier information, and notifies the main control unit to read the reading information, and the main control unit obtains the identifier information of the atomizer from the optical sensor.
After acquiring the atomizer identification information, the main control unit matches with preset operating conditions to judge whether the operating conditions of the electronic atomization device are met, and specifically, the main control unit starts a corresponding operating mode according to the acquired atomizer identification information. The main control unit is internally stored with an atomizer working mode corresponding to and adapted to the main body, and when the atomizer is matched with the main body, the corresponding working mode is started, so that the atomizer runs according to a preset mode, and the preset working mode at least comprises working parameters such as working voltage, current, temperature and the like. .
The control unit controls the atomizer to work according to the acquired atomizer identification information to generate a control instruction, in this embodiment, a corresponding control instruction is generated according to the identification information, so as to control the atomizer 2 to work, including: when the identification information is matched with the stored attribute parameters, acquiring control parameters matched with the attribute parameters; the operation of the atomizer 2 is controlled by means of the property parameters and the control parameters. The attribute parameters at least include at least one of specification type, production line number, heating element specification type and service life information, and the control parameters include operating parameters such as operating voltage, current, temperature and the like of the atomizer 2. The control method of the invention judges whether to start the atomizer 2 by identifying whether the identification information is matched with the attribute parameters, starts the atomizer 2 when the identification information is matched with the preset attribute parameters, and does not start the atomizer 2 when the identification information is not matched with the preset attribute parameters, thereby realizing the identification of the atomizer 2. After the atomizer 2 is started, the atomizer 2 is controlled through the control parameters, so that the atomizer 2 operates in a preset working mode or working parameters, and the optimal use effect is achieved.
The control method in the embodiment further includes storing the usage data of the nebulizer 2 after the nebulizer 2 is started to operate, and terminating the operation of the nebulizer 2 when the usage data of the nebulizer 2 does not match the attribute parameter. The using data of the atomizer 2 comprises the suction time and/or the suction times, the attribute parameters comprise the service life information of the atomizer 2, and when the using data of the atomizer 2 exceeds the service life information, an instruction is sent to stop the work of the atomizer 2 and prompt a user to replace the atomizer 2. Of course, if a plurality of atomizers 2 are used in one main body 1, the use data of the plurality of atomizers 2 is recorded, and the life of each of the plurality of atomizers 2 is managed.
By using the main body and the electronic atomization device, the atomizer types are distinguished in a pattern recognition mode by arranging the marks on the surface of the atomizer, so that the recognition cost is low; the main part is provided with the optical sensor and the cavity structure, the cavity structure forms a light path, identification information is identified through the optical sensor, and the atomizer is identified through the internal structure of the main part.
Example two:
referring to fig. 12-20, the present invention further provides a main body 1, wherein the main body 1 includes a light sensor 3 and a control circuit 8 electrically connected to each other. The body 1 can be used in particular in conjunction with an atomizer 2 provided with a marking pattern 21 on its side. And the atomizer 2 can be detachably assembled on the main body 1, and the side surface of the atomizer 2 is provided with an identification pattern.
The optical sensor 3 is used for recognizing the identification pattern 21 on the side surface of the atomizer 2 to obtain identification information when the main body 1 is matched with the atomizer 2.
Optionally, the identification pattern 21 may be a label of the atomizer 2, or may also be a pattern, a character, a symbol, a bar code, a two-dimensional code, a dot code, or the like, which is provided on the surface of the atomizer 2, and the setting mode of the identification pattern 21 may be spray painting, laser engraving, or printing. The label, pattern, character, symbol, bar code, two-dimensional code or dot code, etc. include information on the product and identification information of the nebulizer 2, such as the date of manufacture, model, specification, usage, type, etc. of the nebulizer 2. The optical sensor 3 is used to recognize the identification pattern 21, thereby obtaining model information of the nebulizer 2 and the like.
The control circuit 8 may then be configured to receive the identification information from the light sensor 3 and control the nebulizer 2 based on the identification information.
Optionally, the identification information may specifically include model information and specification information, and the control circuit 8 may control the nebulizer 2 according to the model information and the specification information in the identification information. In specific scene, can compare model information and preset information, if compare the failure, then this main part 1 does not start the atomizer, can not supply power to atomizer 2 if specifically on the circuit, or make atomizer 2 can't buckle each other with main part 1 and cooperate etc. mechanically. If the comparison is successful, the atomizer 2 may be further controlled based on the specification information, specifically, since the heating curves of different atomizers 2 may be different, the main body 1 may provide the corresponding power supply for the atomizer 2 according to the corresponding specification information, and the like, which are not limited herein.
As shown in fig. 12, 15 and 19, the main body 1 further includes an atomizer mounting cavity 13, a side surface of the atomizer mounting cavity 13 is provided with an identification window 131, and the atomizer mounting cavity 13 can be specifically used for mounting the atomizer 2. And when the atomizer mounting chamber 13 is fitted to the atomizer 2, the identification pattern 21 of the atomizer 2 can be exposed through the identification window 131. The exposure here means that the identification pattern 21 can be seen when viewed from the side of the identification window 131 away from the identification pattern 21 toward the identification window 131.
Optionally, the atomizer mounting cavity 13 is a cavity with an opening, and the bottom surface of the atomizer mounting cavity 13 away from the opening direction is provided with the fixing element 132, and the atomizer 2 may also be provided with a fitting piece engaged with the fixing element 132, and after the atomizer 2 enters the atomizer mounting cavity 13 from the opening, the fitting piece may be engaged and fixed with the fixing element 132, so that the atomizer 2 is well clamped in the atomizer mounting cavity 13. Alternatively, the fixing member 132 may be a magnet. Since the housing of the nebulizer 2 is made of metal or has a metal bottom surface, the housing may be integrally or the bottom surface may serve as a fitting member, and the fitting member may be magnetically fitted to the fixing member 132 to fix the nebulizer 2.
Alternatively, when the atomizer 2 is fixed in the atomizer mounting chamber 13, the identification pattern 21 of the atomizer 2 may correspond to the identification window 131 of the atomizer mounting chamber 13, so as to be exposed from the identification window 131. Wherein, can set up corresponding fool-proof piece on atomizer 2 and the atomizer installation cavity 13 to guarantee that atomizer 2 can only enter into atomizer installation cavity 13 according to predetermined gesture, and then guarantee that the sign figure 21 of atomizer 2 can correspond with the sign window 131 of atomizer installation cavity 13.
In an alternative embodiment, the light sensor 3 may be adapted to emit light through the identification window 131 to the identification pattern 21 and receive light reflected from the identification pattern 21, thereby recognizing the identification pattern 21.
As shown in fig. 2, the optical sensor 3 includes an infrared recognition lens 31 and an emission lamp for transmitting light toward the identification pattern 21, and the infrared recognition lens 31 receives reflected light from the surface of the identification pattern 21.
In an alternative embodiment, the light sensor 3 may further include a light-transmissive sheet 33, and the light-transmissive sheet 33 may be disposed between the infrared recognition lens 31 and the identification window 131. The emission lamp transmits light toward the identification pattern 21 through the light-transmitting sheet 33. Subsequently, the infrared recognition lens 31 receives the reflected light from the surface of the identification pattern 21.
In an alternative embodiment, the light-transmitting sheet 33 may be a thin sheet made of glass or plastic and capable of transmitting light.
Optionally, the transparent sheet 33 may be attached to the identification window 131 for setting, and the projection of the identification window 131 on the plane where the transparent sheet 33 is located is smaller than the transparent sheet 33, so that the transparent sheet 33 may block the identification window 131, and the transparent sheet 33 may also be directly clamped in the identification window 131, thereby blocking the identification window 131. In one aspect, the unwanted wavelengths may be filtered to reduce light interference, and optionally, the wanted wavelengths of the infrared recognition lens 31 may be in a range of 850 ± 100nm, specifically, 750nm, 850nm, or 950nm, and the unwanted wavelengths may be filtered by the transparent sheet 33 to improve recognition accuracy and reduce recognition difficulty. On the other hand, it is possible to prevent the fog from being unrecognizable due to the fact that the generated gray or the like enters the infrared recognition lens 31 through the identification window 131 during the assembly of the atomizer 2, and the condensation or the like occurs on the infrared recognition lens 31 during the generation of smoke from the atomizer 2.
As shown in fig. 15, the main body 1 further includes a PCB board receiving cavity 110 and a PCB board 111 received in the PCB board receiving cavity 110. The PCB accommodating cavity 110 may be specifically disposed at an end of the atomizer mounting cavity 13 away from the opening direction.
The control circuit 8 may be specifically disposed on the PCB 111.
As shown in fig. 15, the main body 1 further includes a main body cavity 120, and the main body cavity 120 is specifically located on one side of the atomizer mounting cavity 13 close to the optical sensor 3 and on one side of the PCB board accommodating cavity 110.
As shown in fig. 5, the atomizer mounting chamber 13 and the PCB board receiving chamber 110 are sequentially disposed along the length direction of the atomizer mounting chamber 13, and the atomizer mounting chamber 13 and the PCB board receiving chamber 110 are disposed with the main body chamber 120 at one side along the length direction of the atomizer mounting chamber 13. The main body chamber 120 is longer, and is partially located at one side of the atomizer mounting chamber 13 and partially located at one side of the PCB receiving chamber 110.
Optionally, the main body cavity 120 includes an optical sensor mounting cavity 121 and a cell accommodating cavity 122, the optical sensor mounting cavity 121 is located on one side of the atomizer mounting cavity 13 and corresponds to the identification window 131, and the optical sensor 3 is disposed in the optical sensor mounting cavity 121. The cell accommodating cavity 122 is located at one side of the PCB board accommodating cavity 110, and optionally, a portion of the cell accommodating cavity 122 may also be located at one side of the atomizer mounting cavity 13. The cell receiving cavity 122 may be used for detachably mounting a battery.
Through the above layout, can effectual combination light sensor installation cavity 121, the electric core holds chamber 122, atomizer installation cavity 13 and PCB board hold the volume and the shape of chamber 110, thereby reach the purpose that reduces whole main part 1 volume, and further, because electric core holds chamber 122 direct and light sensor installation cavity 121, the PCB board holds chamber 110, atomizer installation cavity 13 all has the contact, thereby make electric core hold electric core in chamber 122 and sensor installation cavity 121 in sensor 13, the PCB board holds PCB board 111 in chamber 110, atomizer 2 in the atomizer installation cavity 13 all can directly carry out the line, the convenience of line is walked in very big improvement.
As shown in fig. 19, the main body 1 further includes a display screen 151 located on a side of the optical sensor mounting cavity 121 away from the cell accommodating cavity 122, and a touch screen 152 located on a side of the main body cavity 120 away from the PCB board accommodating cavity 110.
In an alternative embodiment, the main body 1 further includes a housing, and the display screen 151 and the touch screen 152 are disposed on an outer wall of the housing for displaying information and receiving information. Such as the display screen 151, may specifically display information of the nebulizer 2, etc. And the touch screen 152 may be used to receive information on control of the entire body 1 or control of the nebulizer 2, and the like.
And optionally, the display screen 151 is arranged on the side, away from the electric core accommodating cavity 122, of the optical sensor mounting cavity 121, the touch screen 152 is arranged on the side, away from the PCB board accommodating cavity 110, of the main body cavity 120, that is, the plane where the display screen 151 is located is perpendicular to the plane where the touch screen 152 is located, and the holding direction of the user's hand and the direction of the eyes when the user uses the main body 1 are met, so that the operation experience of the user when the user uses the main body 1 can be improved, and the operation of the main body 1 can be facilitated.
As shown in fig. 14, the present application also provides an atomizer 2, and the atomizer 2 can be used with the main body 1 in any of the above embodiments.
Wherein, the side of this atomizer 2 is provided with sign figure 21, and when this atomizer 2 and main part 1 cooperate, sign figure 21 is used for being discerned by the light sensor 3 of main part 1 and makes light sensor 3 obtain identification information, and then makes the control circuit 8 of main part 1 control atomizer 2 according to identification information.
In alternative embodiments, the identification pattern 21 may be specifically a pattern, a character, a symbol, a bar code, a two-dimensional code, a dot code, or the like. The lattice code is a pattern that can be used to display Chinese characters in a lattice manner.
As shown in fig. 17 and 18, the present application further provides an electronic atomizer 200, where the electronic atomizer 200 includes the main body 1 in any one of the above embodiments and the atomizer 2 in any one of the above embodiments.
The main body 1 comprises an optical sensor 3 and a control circuit 8, wherein the optical sensor 3 is used for identifying an identification pattern 21 on the side surface of the atomizer 2 to obtain identification information; the control circuit 8 is electrically connected to the optical sensor 3, and is configured to control the nebulizer 2 according to the identification information.
As shown in fig. 21, the present application further provides a control method based on an electronic atomization device, where the control method is the electronic atomization device 200 in the foregoing embodiment, and the method includes:
s11, recognizing the identification pattern by the optical sensor to obtain identification information.
Identification information is obtained by recognizing the identification pattern 21 of the nebulizer 2 with the optical sensor 3.
And S12, controlling the atomizer by using the control circuit according to the identification information.
The control circuit 8 is then used to control the atomizer in accordance with the identification information.
Example three:
referring to fig. 12-20, the present application provides a body 1 for use with a nebulizer 2 provided with an identification pattern 21. The main body 1 includes a photosensor 3 and a control circuit 8 electrically connected to each other.
The optical sensor 3 is used for recognizing the identification pattern 21 on the side surface of the atomizer 2 to obtain identification information when the main body 1 is matched with the atomizer 2. The control circuit 8 is used for controlling the atomizer 2 according to the identification information.
The optical sensor 3 further includes a lens 34 and a light transmissive sheet 33. The lens 34 may be configured to capture an image of the identification pattern 21, and specifically, the lens 34 includes a capture direction, and when the identification pattern 21 is located in the capture direction of the lens 34, the lens 34 may capture the image of the identification pattern 21. The light-transmitting sheet 33 is also disposed in the collecting direction of the lens 34.
Optionally, the lens 34 may be the infrared recognition lens 31 in the above embodiment, or may be another lens based on another collection principle, which is not limited herein.
When the main body 1 is matched with the atomizer 2, the identification pattern 21 of the atomizer 2 is located on the side of the light-transmitting sheet 33 away from the lens 34 and in the collecting direction. I.e. when the body 1 is fitted to the nebuliser 2, the light-transmitting sheet 33 is located between the lens 34 and the logo 21.
In a specific scenario, since the capture direction of the lens 34 is empty, when the nebulizer 2 is installed, some dust directly sticks to the surface of the lens 34 along the capture direction.
In the above embodiment, the light-transmitting sheet 33 is disposed in the collecting direction of the lens 34, so that dust and the like can be effectively prevented from directly adhering to the surface of the lens 34 along the collecting direction to affect the collection of the identification pattern 21 by the lens 34.
In an alternative embodiment, the light-transmitting sheet 33 may be a thin sheet made of glass or plastic and capable of transmitting light.
In an alternative embodiment, the light transmissive sheet 33 may be a glass sheet, and in another embodiment, the light transmissive sheet 33 may be a filter.
Alternatively, by providing the light-transmitting sheet 33 as a filter, the wavelength can be effectively filtered, so that the lens 34 collects the desired wavelength. As in the alternative embodiment, the wavelength required by the lens 34 may be in the range of 850 ± 100nm, specifically 750nm, 850nm, 950nm, or the like, and the unnecessary wavelength may be filtered out by the light-transmitting sheet 33, so as to improve the accuracy of the acquisition and reduce the difficulty of the acquisition.
As shown in fig. 16 and 20, the main body 1 further includes a plurality of cavity walls 14, the cavity walls 14 may enclose to form an atomizer mounting cavity 13, and the atomizer mounting cavity 13 may be specifically used for mounting the atomizer 2. Optionally, the cavity wall 14 is provided with an identification window 131 located in the collecting direction of the lens 34, and when the nebulizer 2 is fixed in the nebulizer installation cavity 13, the identification pattern 21 of the nebulizer 2 may correspond to the identification window 131 of the nebulizer installation cavity 13, that is, may be exposed from the identification window 131. The exposure here means that the identification pattern 21 can be seen when viewed from the side of the identification window 131 away from the identification pattern 21 toward the identification window 131.
Alternatively, since the identification pattern 21 may be disposed on a side surface or a bottom surface of the atomizer 2, and correspondingly, the identification window 131 may be disposed on a side surface or a bottom surface of the atomizer mounting chamber 13 so as to correspond to the identification pattern 21, which is not limited herein.
In alternative embodiments, the light-transmitting sheet 33 may be attached to the outer surface of the side of the cavity wall 14 near the lens 34 where the identification window 131 is disposed, or attached to the inner surface of the side of the cavity wall 14 far from the lens 34 where the identification window 131 is disposed, or disposed in the identification window 131 to close the identification window 131.
That is, optionally, the cavity wall 14 is provided with the identification window 131, and for the cavity wall 14 where the identification window 131 is located, the side close to the lens 34 is an outer wall or an outer surface, and the side far away from the lens 34 is an inner wall or an outer surface. The transparent sheet 33 may be attached to an outer wall or an outer surface, or attached to an inner wall or an inner surface, or directly disposed in the identification window 131, so that the identification window 131 may be sealed, that is, dust and the like may be prevented from being attached to the surface of the lens 34 from the identification window 131. And further, through the complete shutoff to sign window 131, on the one hand can improve the protective effect to camera lens 34, and the dust that atomizer installation cavity 13 produced when installing atomizer 2 can all be kept apart in atomizer installation cavity 13 by printing opacity piece 33, can not float on camera lens 34 promptly, can also further prevent that the backward flow of flue gas from leading to influencing the effect of gathering or discerning at the surperficial condensation of camera lens 34 when atomizer 2 is at the during operation.
Optionally, the projection of the indicia window 131 onto the plane of the surface of the light-transmissive sheet 33 is located within the surface of the light-transmissive sheet 33. That is, the transparent sheet 33 is larger than or equal to the area of the mark window 131, i.e., the mark window 131 can be completely covered or sealed.
In alternative embodiments, the light transmissive sheet 33 is fixed by glue/adhesive on the outer wall or surface of the cavity wall 14 on the side close to the lens 34 or on the inner wall or surface of the cavity wall 14 on the side away from the lens 34 or in the logo window 131.
In an alternative embodiment, the cavity wall 14 provided with the identification window 131 is provided with a containing groove on the outer wall or the outer surface of the side close to the lens 34 or the inner wall or the inner surface of the cavity wall 14 provided with the identification window 131 side far from the lens 34 to contain the light-transmitting sheet 33. Optionally, the groove depth of the accommodating groove may be matched with the thickness of the light-transmitting sheet 33, so that the light-transmitting sheet 33 is completely accommodated in the accommodating groove.
When the light transmissive sheet 33 is disposed on the inner surface of the cavity wall 14, that is, the light transmissive sheet 33 is disposed on the surface close to the atomizer mounting cavity 13, since the inner surface may collide when the atomizer 2 is mounted, the light transmissive sheet 33 may be damaged, and thus the light transmissive sheet 33 may be fixed and protected by disposing the accommodating groove to accommodate the light transmissive sheet 33.
In an alternative embodiment, the main body 1 further includes a lens housing 140, and the lens housing 140 includes a lens mounting cavity 146. The lens housing 140 includes a lens window 141 corresponding to the identification window 131. Optionally, the lens window 141 is also located in the capture direction of the lens 34.
Similarly, the light-transmitting sheet 33 is attached to an outer wall or an outer surface of the lens housing 140 provided with the lens window 141 on a side close to the logo window 131, or attached to an inner wall or an inner surface of the lens housing 140 provided with the lens window 141 on a side far from the logo window 131, or disposed in the lens window 141 to close the lens window 141.
Optionally, the lens window 141 and the identification window 131 are both located in the capturing direction of the lens 34, so that the effect of preventing dust and condensation can be achieved no matter the lens window 141 is blocked by the light-transmitting sheet 33 or the identification window 131 is blocked.
As shown in fig. 20, the lens housing 140 specifically includes a bracket 142 and a lens holder 143 clamped in the bracket 142, wherein the lens 34 is fixed in the lens holder 143.
The holder 142 may be an integral or assembled by a plurality of sub-holders, the holder 142 may enclose to form a holder cavity, the lens holder 143 is located in the holder cavity, and further, the lens holder 143 further includes a lens cavity for mounting the lens 34.
The outer surface of the lens 34 and the inner surface of the lens holder 143 are adapted to each other, so that the lens 34 can be well fixed in the lens holder 143 without shaking relative to the lens holder 143. Further, a limiting groove 144 is formed in a side wall of the lens holder body 143, the limiting groove 144 is communicated with the lens cavity, a limiting portion 35 matched with the limiting groove 144 is arranged on the lens 34, and the limiting portion 35 is clamped in the limiting groove 144 to limit the movement of the lens 34 relative to the lens holder body 143 of the lens holder body 143 along the collecting direction. Alternatively, since the lens 34 generally has a relatively stable focal length, and the distance from the lens 34 to the identification pattern 21 is set in advance according to the focal length, if the lens 34 moves along the capturing direction, the recognition or capturing effect is likely to be affected. Therefore, by arranging the limiting portion 35 to fit the limiting groove 144, the lens 34 can be ensured to maintain a stable distance from the identification pattern 21.
In an alternative embodiment, the main body 1 further includes a buffer (not shown) disposed between the lens 34 and the lens holder 143. Specifically, the buffer member may be foam.
Since the lens 34 and the lens holder body 143 are both rigid, there is a high possibility that the lens 34 may be damaged by colliding with each other when the main body 1 is shaken. Through set up buffer memory piece between camera lens 34 and lens pedestal 143, can protect camera lens 34 on the one hand, on the other hand can prevent that camera lens 34 from gathering the ascending rocking of orientation along the perpendicular to relatively lens pedestal 143 to guarantee to gather or the discernment effect.
The lens housing 140 of the above embodiment has a simple structure, and can stabilize the lens 34 well, thereby effectively reducing material cost and facilitating assembly.
As shown in fig. 17, the present application further provides an electronic atomization device 200, where the electronic atomization device 200 includes an atomizer 2 and the main body 1 according to any of the embodiments described above.
The main body 1 includes: the main body 1 identifies the identification pattern 21 of the atomizer 2 to obtain identification information; the control circuit 8 is connected with the optical sensor 3 and used for controlling the atomizer 2 according to the identification information; the optical sensor 3 comprises a lens 34 and a light-transmitting sheet 33 positioned in the collecting direction of the lens, and the identification pattern 21 of the atomizer 2 is positioned on one side of the light-transmitting sheet 33 far away from the lens and positioned in the collecting direction.
The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A body for use with a nebulizer having an identification pattern, the body comprising:
the optical sensor is used for identifying the identification pattern of the atomizer to obtain identification information when the main body is matched with the atomizer;
the control circuit is electrically connected with the optical sensor and used for controlling the atomizer according to the identification information;
wherein, light sensor is including being used for gathering the camera lens of the image of sign figure and being located the ascending printing opacity piece of the collection direction of camera lens, works as the main part with during the atomizer cooperation, the sign figure of atomizer is located the printing opacity piece is kept away from one side of camera lens and is located on the collection direction.
2. The body of claim 1, wherein the light transmissive sheet is a glass sheet or a filter.
3. The body of claim 1, wherein the body comprises a plurality of cavity walls that enclose a nebulizer mounting cavity;
the atomizer mounting piece is provided with an identification window positioned in the collecting direction;
wherein, the atomizer installation cavity is used for installing the atomizer, and when the atomizer installation cavity with the atomizer cooperation, the sign figure of atomizer is followed the sign window reveals.
4. The main body of claim 3, wherein the light-transmitting sheet is attached to an outer surface of a side, close to the lens, of the cavity wall provided with the identification window, or attached to an inner surface of a side, far away from the lens, of the cavity wall provided with the identification window, or disposed in the identification window to close the identification window.
5. The body of claim 4, wherein a projection of the indicia window onto a plane of the surface of the light-transmissive sheet is located within the surface of the light-transmissive sheet.
6. The body of claim 4, wherein the outer surface or the inner surface of the cavity wall provided with the identification window is provided with a receiving groove for receiving the light-transmitting sheet.
7. The body of claim 3, further comprising a lens housing, wherein the lens housing comprises a lens mounting cavity, and the lens housing is provided with a lens window corresponding to the logo window;
the light-transmitting sheet is attached to the outer surface of one side, close to the mark window, of the lens shell provided with the lens window, or attached to the inner surface of one side, far away from the mark window, of the lens shell provided with the lens window, or arranged in the lens window to seal the lens window.
8. The main body of claim 7, wherein the lens housing comprises a holder and a lens holder clamped in the holder, and the lens is fixed in the lens holder;
the side wall of the lens seat body is provided with a limiting groove, the lens is provided with a limiting part matched with the limiting groove, and the limiting part is clamped in the limiting groove to limit the movement of the lens along the collecting direction.
9. The body of claim 8, further comprising a buffer element disposed between the lens and the lens holder.
10. An electronic atomization device comprising an atomizer and the body of any one of claims 1-9, wherein the body comprises:
the optical sensor is used for identifying the identification pattern of the atomizer to obtain identification information;
the control circuit is connected with the optical sensor and used for controlling the atomizer according to the identification information;
wherein, light sensor includes the camera lens and is located the ascending printing opacity piece of collection direction of camera lens, the sign figure of atomizer is located the printing opacity piece is kept away from one side of camera lens and is located on the collection direction.
CN202011140290.1A 2020-02-25 2020-10-22 Main part and electron atomizing device Pending CN112273726A (en)

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