CN111588096A - Portable electronic smoke sprayer - Google Patents

Abstract

The invention discloses a portable electronic smoke device, which relates to the technical field of electronic smoke devices and comprises a shell, wherein the shell is provided with a gas inlet and a mist outlet, the mist outlet is arranged at the top of the shell, the shell is internally provided with a cavity for containing aerosol generating substrates and a first gas flow channel communicated with the gas inlet, the gas inlet end of the cavity is communicated with the first gas flow channel, and the gas outlet end of the cavity is communicated with the mist outlet; a heat generating means for heating the aerosol generating substrate and a gas supply means for supplying gas to the cavity are also provided within the housing, the gas supply means being provided within the first gas flow passage. The portable electronic smog generator can automatically generate aerosol, the application range is expanded, the fog outlet is arranged at the top of the shell, fog can be generated at any angle when the portable electronic smog generator is used, the use condition is not limited, directional fog application can be carried out, and the portable electronic smog generator is small in size and convenient to carry.

Description

Portable electronic smoke sprayer

Technical Field

The invention relates to the technical field of electronic smoke devices, in particular to a portable electronic smoke device.

Background

With the growing concern over physical health and environmental safety, tobacco is recognized as being a significant hazard to the human body, and as a result, products known as "electronic cigarettes" have been produced.

The electronic cigarette is also known as a virtual cigarette and an electronic atomizer. The electronic cigarette is a common simulated cigarette electronic product, mainly generates smoke by atomizing tobacco tar, and compared with the traditional cigarette, the electronic cigarette has similar appearance and taste, and even has more taste than the common traditional cigarette. However, the electronic cigarette liquid or the cigarette oil does not contain harmful substances such as nicotine or tar, so that when a cigarette consumer smokes the electronic cigarette, the harmful substances can be prevented from being absorbed, the smoking habit of people can be met, and the electronic cigarette liquid or the cigarette oil becomes a smoking cessation article or a substitute of cigarettes. In addition, the electronic cigarette is atomized through tobacco tar, the solution containing the tobacco tar and essence is atomized into particles, the particles are absorbed through the lung, and meanwhile simulated smoke is discharged, tar and other harmful ingredients in the cigarette are not contained, no second-hand smoke is generated, and no second-hand smoke is generated or is trapped in a closed space, so that more and more people use the electronic cigarette to replace the traditional cigarette.

Electronic smoke machine among the prior art generally detects user's suction action and controls the on/off of electron cigarette through setting up the sensor near air inlet department in airflow channel, however, electronic smoke machine among the prior art has one of following problem at least, and first sensor sensitivity among the prior art is not high, needs the user comparatively hard to aspirate for airflow in the airflow channel flows and arouses atmospheric pressure change, and the sensor can detect. Second, because the piece that generates heat also is located air current channel and the sensor is located between the piece that generates heat and the inlet port among the prior art for user's suction can receive the hindrance of the piece that generates heat, and user's suction can be tired. Third, the electronic smoke device in the prior art needs the user to generate airflow in a suction manner, and cannot automatically generate airflow, thereby limiting the application range.

Chinese patent CN109330031A discloses an electronic cigarette, which includes an atomizing assembly, a battery assembly, a controller, and an air pressure sensor. Chinese patent CN105935155A discloses an electronic cigarette, which comprises a heating element, a sensor and an airflow channel, wherein the heating element is disposed in the airflow channel. The above two patents disclose that the sensor detects the suction action of the user to control the on/off of the electronic cigarette, and only generates the air flow by means of suction, but not automatically.

Disclosure of Invention

The invention aims to solve at least one technical problem in the prior art and provides a portable electronic smoke device.

The technical solution of the invention is as follows:

the portable electronic smoke sprayer comprises a shell, wherein the shell is provided with a gas inlet and a fog outlet, the fog outlet is arranged at the top of the shell, a cavity for containing aerosol generating substrate and a first gas flow channel communicated with the gas inlet are arranged in the shell, the gas inlet end of the cavity is communicated with the first gas flow channel, and the gas outlet end of the cavity is communicated with the fog outlet; the shell is internally provided with a heating device for heating the aerosol generating substrate and a gas supply device for supplying gas to the cavity, and the gas supply device is arranged in the first gas flow channel.

As a preferred technical scheme, a first control device is further arranged in the shell, and the first control device is connected with the heating device and the air supply device and used for controlling the starting and stopping of the heating device and the air supply device.

As a preferred technical scheme, a second air flow channel and a second control device are further arranged in the shell, the air inlet end of the second air flow channel is communicated with the air inlet, and the air outlet end of the second air flow channel is communicated with the cavity; the second control device is communicated with the first air flow channel and the second air flow channel, the second control device is connected with the heating device and used for controlling the heating device to start and stop, and when the air flow or/and the air pressure entering the shell is larger than a threshold value preset by the second control device, the second control device can control the heating device to start.

As a preferred technical scheme, still be provided with first controlling means in the shell, first controlling means with the device generates heat, the air feeder is connected and is used for controlling the device generates heat with the start-stop of air feeder, the second controlling means with first controlling means connects, the second controlling means can monitor and get into gas flow or/and the atmospheric pressure data in the shell and transmit to first controlling means, first controlling means can adjust according to the gas flow or/and the atmospheric pressure data that receive the gas supply volume of air feeder, first controlling means and/or second controlling means can monitor the length of time of use of surplus aerosol emergence matrix in the cavity.

As a preferred technical scheme, the intelligent control system further comprises a communication module, the first control device and the second control device are in communication connection with the outside through the communication module, and the first control device and the second control device can transmit the operation data to the outside through the communication module and can receive and execute the control instruction of the outside.

Preferably, the first control device and/or the second control device can control a heating temperature of the heat generating device.

As a preferred technical scheme, the gas supply device is an air exhaust device and/or a gas storage device, a power supply device used for providing a power supply for the heating device is further arranged in the shell, and the power supply device is connected with the heating device.

As a preferred technical scheme, a gas purification device is further arranged in the shell, a gas inlet end of the gas purification device is communicated with the gas inlet, and a gas outlet end of the gas purification device is communicated with the cavity.

As a preferable technical scheme, a mixed air flow channel is further arranged in the cavity, an air inlet end of the mixed air flow channel is communicated with the first air flow channel, an air outlet end of the mixed air flow channel is communicated with the mist outlet, a through hole is formed in the side wall of the mixed air flow channel, and the aerosol generating substrate in the cavity can enter the mixed air flow channel through the through hole.

As a preferred technical scheme, one end of the heating device is arranged in the mixed airflow channel, and the other end of the heating device penetrates through the through hole and is arranged in the cavity; the heating device is provided with an adsorption carrier for adsorbing the aerosol generating substrate, one end of the adsorption carrier is arranged in the mixed gas flow channel, and the other end of the adsorption carrier is arranged in the cavity and is in contact with the aerosol generating substrate.

As a preferred technical scheme, two sealing blocks are arranged in the housing, each sealing block is arranged at intervals along the gas flowing direction in the housing, and the cavity is formed between each sealing block and the housing.

As a preferred technical scheme, the upper end and the lower end of the mixed gas flow channel penetrate through the sealing block and are arranged in the cavity, and the upper end and the lower end of the mixed gas flow channel are fixed through the sealing block; and a shockproof block is also arranged in the shell and is arranged at the gas inlet.

The invention has the beneficial effects that:

1. the portable electronic smoke device can automatically generate aerosol, the application range of the smoke device is greatly expanded, the fog outlet is arranged at the top of the shell, compared with the handheld atomizer in the prior art, the portable electronic smoke device can only horizontally fog, so that the use condition is limited, the portable electronic smoke device can fog at any angle when in use, the use condition is not limited, the use range is expanded, and directional fog application can be performed, such as skin surface atomization and the like; the smoke sprayer is small in size and convenient to carry.

2. The portable electronic smog generator has two working modes, wherein in one working mode, when a user sucks at a smog outlet, outside air enters the shell through the air inlet, when the second control device detects that the air flow or/and the air pressure entering the shell are/is larger than a preset threshold value, the second control device controls the heating device to be started, the power supply device supplies power to the heating device, the heating device generates high temperature after being electrified to heat and atomize aerosol generating substrates, and the atomized aerosol generating substrates enter the mixed air flow channel to be mixed with the air to form aerosol; when the user stops sucking or the air flow or/and the air pressure entering the shell through sucking is smaller than or equal to the preset threshold value of the second control device, the second control device controls the heating device to be turned off, and the power supply device stops supplying power to the heating device, namely aerosol is stopped being generated. In the other working mode, a user starts the first control device, the first control device controls the air supply device and the heating device to be started, the power supply device provides power for the air supply device and the heating device, the air supply device is electrified to introduce air into the mixed airflow channel, in the working mode, when the air entering the shell is larger than a preset threshold value of the second control device, the second control device is triggered to control the heating device to be started, the heating device is electrified to generate high temperature to heat and atomize the aerosol generating substrate, the atomized aerosol generating substrate enters the mixed airflow channel to be mixed with the air to form aerosol, the user stops the first control device, and the first control device controls the air supply device and the heating device to be stopped to stop generating the aerosol. Therefore, the portable electronic aerosol device not only can automatically generate aerosol by supplying gas through the gas supply device, but also can generate aerosol in a way of being sucked by a user, the user can select different working modes according to the requirement, the use is convenient and flexible, and when the power supply device has insufficient electric quantity, the user can select the sucking mode to generate aerosol so as to save the electric quantity; when the user wants to save effort, the user can choose to generate the aerosol. In addition, the second mode is that air enters through the first air flow channel and the second air flow channel, and the generation amount of aerosol can be increased.

3. According to the portable electronic smog device, the adsorption carrier is arranged on the heating device, and the aerosol generating substrate is adsorbed by the adsorption carrier, so that the heating device can be fully contacted with the aerosol generating substrate, the heating effect of the heating device on the aerosol generating substrate is improved, and the heating device is only arranged in the mixed airflow channel at the middle section, so that the blockage of air flowing in the mixed airflow channel can be avoided or reduced.

Drawings

Fig. 1 is a schematic structural diagram of a portable electronic aerosolizer provided in this embodiment 1;

FIG. 2 is an exploded view of FIG. 1;

fig. 3 is a first cross-sectional view of a portable electronic aerosolizer in accordance with embodiment 1 of the present invention;

fig. 4 is a second cross-sectional view of the portable electronic aerosolizer provided in embodiment 1 of the present invention;

fig. 5 is a functional block diagram of a portable electronic aerosolizer provided in embodiment 1 of the present invention;

fig. 6 is a cross-sectional view of a portable electronic aerosolizer provided in embodiment 2 of the present invention;

the following are marked in the figure:

10. a housing; 101. an upper cover; 102. a middle shell; 103. a lower cover; 11. a cavity; 12. a gas inlet; 13. a first air flow passage; 14. a second airflow channel; 15. a mixed gas flow channel; 16. a mist outlet; 17. a sponge; 18. a sealing block; 19. a shock-proof block;

20. a heat generating device;

30. a gas supply device;

40. a first control device;

50. a second control device;

60. a power supply device;

70. a gas purification device;

80. a communication module;

90. and (4) a client.

Detailed Description

The present invention will be described in further detail with reference to the following examples, but the present invention is not limited to the following examples.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

Example 1

As shown in fig. 1 to 4, the portable electronic smoke sprayer in this embodiment includes a housing 10, the housing 10 has a gas inlet 12 and a mist outlet 16, the mist outlet 16 is disposed at the top of the housing 10, a cavity 11 for accommodating an aerosol generating substrate and a first gas flow channel 13 communicated with the gas inlet 12 are disposed in the housing 10, a gas inlet end of the cavity 11 is communicated with the first gas flow channel 13, and a gas outlet end is communicated with the mist outlet 16; in this embodiment, the outer case 10 includes a middle case 102 and a lower cover 103 disposed at the bottom of the middle case 102 for sealing the middle case 102; a cavity 11 for accommodating an aerosol generating substrate is formed in the middle shell 102, specifically, sealing blocks 18 are arranged in the middle shell 102 at intervals along the gas flowing direction, the sealing blocks 18 are in contact and sealed with the inner wall of the middle shell 102, so that the cavity 11 is formed between the sealing blocks 18 and the middle shell 102, and in this embodiment, the sealing blocks 18 are made of silica gel. The sealing block 18 is provided at both the bottom and top with a sponge 17 sealed in contact with the inner wall of the middle shell 102, the aerosol generating substrate in the cavity 11 being further prevented from escaping by the sponge 17. The aerosol generating substrate may be tobacco tar. The lower cover 103 is provided with a gas inlet 12 communicated with the cavity 11 for gas to enter the middle shell 102, the middle shell 102 is provided with a mist outlet 16 communicated with the cavity 11 for discharging aerosol, in the embodiment, the mist outlet 16 is arranged at the top of the middle shell 102, so that the portable electronic smoke device can be used for spraying mist at any angle, and a cigarette holder is arranged on the mist outlet 16, so that a user can conveniently suck the mist; the portable electronic aerosol sprayer also comprises an upper cover 101 arranged at the top of the middle shell 102, and the upper cover 101 covers the fog outlet 16 and is used for preventing the fog outlet 16 from being polluted by contacting with the outside when the portable electronic aerosol sprayer is stored. Be provided with mixed gas flow channel 15 in mesochite 102, mixed gas flow channel 15's inlet end and gas inlet 12 intercommunication, give vent to anger the end and go out fog mouth 16 intercommunication, in this embodiment, mixed gas flow channel 15 is glass fiber pipe, and glass fiber pipe sets up in cavity 11 to glass fiber pipe's both ends are fixed through sealed piece 18, have at least two through-holes that communicate with cavity 11 on glass fiber pipe's the lateral wall, and aerosol takes place the matrix and can get into in the mixed gas flow channel 15 through the through-hole. The middle shell 102 is also provided with a first air flow channel 13 and a second air flow channel 14, wherein the air inlet ends of the first air flow channel 13 and the second air flow channel 14 are communicated with the air inlet 12, and the air outlet ends are communicated with the mixed air flow channel 15. Also provided within the housing 10 are a heat generating means 20 for heating the aerosol-generating substrate and a gas supply means 30 for supplying gas to the cavity 11, the gas supply means 30 being provided within the first gas flow passage 13, the heat generating means 20 being provided within the cavity 11 for heating the aerosol-generating substrate; in the present embodiment, the gas supply device 30 is disposed in the middle shell 102, and the gas inlet end of the gas supply device 30 is communicated with the gas inlet 12, and the gas outlet end is communicated with the mixed gas flow channel 15, in the present embodiment, the gas supply device 30 is disposed in the first gas flow channel 13 for supplying gas to the mixed gas flow channel 15, in other embodiments, the gas supply device 30 may also be disposed in the second gas flow channel 14; the gas supply device 30 can be a gas pumping device, such as a gas pump, in other embodiments, the gas supply device 30 can also be a gas storage device, such as an airbag, and the gas supply device 30 can also be used together with the gas storage device, and can be flexibly selected by those skilled in the art according to the actual situation. In this embodiment, the gas provided in the gas supply device 30 is air, and in practical application, the gas may be other gases, and a person skilled in the art may select the gas flexibly according to actual situations. In this embodiment, the heating device 20 is a heating wire, and two ends of the heating wire penetrate through the through hole on the sidewall of the glass fiber tube, so that the middle section of the heating wire is disposed in the mixed airflow channel 15, and two ends of the heating wire are disposed in the cavity 11. The heating device 20 is provided with an adsorption carrier for adsorbing aerosol generating substrate, one end of the adsorption carrier is arranged in the mixed gas flow channel 15, the other end of the adsorption carrier is arranged in the cavity 11 and contacts with the aerosol generating substrate, in this embodiment, the adsorption carrier is heating cotton, and specifically, the heating cotton can be wound on the heating wire. In other embodiments, the heat generating device 20 may also be in other shapes, such as a sheet shape, and the heat generating device 20 may also be an element that is made of a magnetic conductive material and generates heat by electromagnetic induction, which can be flexibly selected by a person skilled in the art according to actual situations.

As a preferred embodiment of the present invention, it may also have the following technical features:

the middle shell 102 is further provided with a first control device 40, and the first control device 40 is connected with the heating device 20 and the air supply device 30 and is used for controlling the start and stop of the heating device 20 and the air supply device 30. The power supply device 60 is further disposed in the housing 10, and the power supply device 60 is disposed in the middle case 102 for supplying power to the heat generating device 20, the air supply device 30, the first control device 40, and the second control device 50. In this embodiment, the power supply device 60 is a lithium battery module. The first control device 40 is connected with the power supply device 60, the first control device 40 is supplied with power through the power supply device 60, the first control device 40 is sequentially connected with the heating device 20, the air supply device 30 and the power supply device 60 to form a first closed loop, the first control device 40 is used for controlling the opening and closing of the heating device 20 and the air supply device 30, specifically, the first control device 40 is arranged in the middle shell 102, a button connected with the first control device 40 is arranged on the middle shell 102, the first control device 40 is opened through the button, the switch is closed, namely, all components in the first closed loop are communicated, the power supply device 60 is used for supplying power to the air supply device 30 and the heating device 20, the air supply device 30 and the heating device 20 start to work, gas is supplied into the cavity 11 through the air supply device 30, the aerosol generating substrate is heated through the heating device 20, so that the portable electronic smoke device can automatically generate aerosol; when the aerosol needs to be shut down, the first control device 40 is shut down by pressing a key, that is, each component in the first closed loop is disconnected, and the portable electronic smoke device can stop generating the aerosol. In this embodiment, the button is a hall switch or a contact switch having the functions of preventing misoperation and triggering, the hall switch and the contact switch reach the corresponding positions, that is, are locked, and the user can work only by pressing the button or touching the button, and the structure of the hall switch or the contact switch and the connection mode between the hall switch or the contact switch and the first control unit 40 are the prior art, and are not described in detail in this embodiment.

The middle shell 102 is further internally provided with a second control device 50, the second control device 50 is connected with the power supply device 60, the power supply device 60 is used for providing power for the second control device 50, the second control device 50 is sequentially connected with the heating device 20 and the power supply device 60 to form a second closed loop, the second control device 50 is used for controlling the heating device 20 to be turned on or turned off, specifically, when the gas flow entering the middle shell 102 is greater than the gas flow threshold preset by the second control device 50 and the gas pressure entering the middle shell 102 is greater than the gas pressure threshold preset by the second control device 50, the second closed loop is closed, all components in the second closed loop are communicated, the power supply device 60 is used for providing power for the heating device 20, the heating device 20 starts to work, and the aerosol generating substrate is heated by the heating device 20; when the gas flow and the gas pressure entering the portable electronic smoke device are smaller than or equal to the preset threshold value of the second control device 50, the second control device 50 can control the heating device 20 to be turned off, namely the second closed loop is opened, the power supply device 60 is disconnected with the heating device 20, the heating device 20 stops working, and the system stops generating aerosol. In this embodiment, the second control device 50 is an integrated microphone control device, and the integrated microphone control device includes an airflow sensor and an air pressure sensor, so that the integrated microphone control device has the advantages of high sensitivity, and in practical applications, the integrated microphone control unit may also be only an airflow sensor or an air pressure sensor, so that the second closed loop is closed only when the air flow entering the middle shell 102 is greater than the air flow threshold preset by the second control unit 50, or the air pressure entering the middle shell 102 is greater than the air pressure threshold preset by the second control unit 50, and a person skilled in the art can select the integrated microphone control device flexibly according to actual situations; and the second control device 50 is arranged at the gas inlet 12, so that the gas entering the first gas flow channel 13 and the second gas flow channel 14 can pass through the second control device 50 and be detected by the second control device 50, the second control device 50 controls the on or off of the heating device 20 according to the sum of the gas flow and the gas pressure entering the first gas flow channel 13 and the second gas flow channel 14, the second control device 50 is arranged at the gas inlet 12, and the system is more sensitive and accurate because the air volume at the gas inlet 12 is not dispersed and the air volume is maximum; meanwhile, the situation that the second control device 50 is arranged in the first air flow channel 13 and the second air flow channel 14 to cause the air flow to be blocked is avoided, and the suction effort and difficulty of a user are avoided. In practical applications, the second control device 50 may be disposed at other positions, and the skilled person may determine the actual situation.

In this embodiment, a shock-proof block 19 is further disposed in the middle housing 102, the shock-proof block 19 is disposed at the gas inlet 12, and in this embodiment, the shock-proof block 19 is a shock-proof sponge for reducing shock generated by gas entering the portable electronic cigarette lighter.

In this embodiment, a communication module 80 is further disposed on the housing 10, the first control device 40 and the second control device 50 are in communication connection with the outside through the communication module, the first control device 40 and the second control device 50 can transmit the operation data to the outside through the communication module, and can receive and execute the control instruction of the outside, in this embodiment, the outside is a client 90, and the first control device 40 and the second control device 50 are connected with the client 90 through the communication module, so that the first control device 40 and the second control device 50 can transmit the operation data to the client 90 through the communication module for displaying and storing, and the first control device 40 and the second control device 50 can also be controlled through the client 90. The system is convenient to manage through remote control.

In this embodiment, the second control device 50 is connected to the first control device 40, the second control device 50 can monitor the gas flow or/and the gas pressure data entering the housing 10 and transmit the data to the first control device 40, and the first control device 40 can adjust the gas supply amount of the gas supply device 30 according to the received gas flow or/and gas pressure data, so as to adjust the aerosol generation amount.

In this embodiment, the first control device 40 and the second control device 50 can monitor the usage duration of the aerosol-generating substrate remaining in the cavity 11, specifically: the total usable time of the aerosol generating substrate is calculated according to the total volume in the cavity, the time of generating the aerosol each time is monitored by the first control device 40 and the second control device 50, the used time is subtracted from the time, namely the remaining use time is obtained, and a user is reminded of supplementing the aerosol generating substrate in time.

In this embodiment, the first control device 40 and the second control device 50 can control the heating temperature of the heat generating device 20, specifically, a temperature sensor connected to the heat generating device 20 is further disposed in the housing, the temperature sensor monitors the temperature of the heat generating device 20, and can transmit temperature data to the first control device 40 and the second control device 50, and the first control device 40 and the second control device 50 can control the on or off of the heat generating device 20 according to the temperature of the heat generating device 20, thereby realizing the adjustment of the heating temperature.

In this embodiment, the housing 10 is further provided with an aerosol generation substrate identification code, which may be a two-dimensional code or a barcode, and a user can know the type of the aerosol generation substrate required by the system by scanning the identification code, which is helpful for the user to avoid the situation that the added aerosol generation substrate is not in accordance with the required aerosol generation substrate.

The portable electronic cigarette atomizer in the embodiment has two working modes, wherein in one working mode, when a user sucks the aerosol through the mist outlet 16, outside air enters the portable electronic cigarette atomizer through the air inlet 12, when the second control device 50 detects that the air flow and the air pressure entering the portable electronic cigarette atomizer are larger than preset threshold values, the second control device 50 controls the heating device 20 to be started, the power supply device 60 supplies power to the heating device 20, the heating device 20 generates high temperature after being electrified to heat and atomize aerosol generating substrates, and the atomized aerosol generating substrates enter the mixed air flow channel 15 to be mixed with the air to form aerosol; when the user stops the suction, or the air flow and the air pressure entering the portable electronic aerosol dispenser by suction are less than or equal to the preset threshold values of the second control device 50, the second control device 50 controls the heating device 20 to be turned off, that is, the power supply device 60 stops supplying power to the heating device 20, and the portable electronic aerosol dispenser stops generating aerosol. In another working mode, a user turns on the first control device 40, the first control device 40 controls the air supply device 30 and the heating device 20 to be turned on, the power supply device 60 supplies power to the air supply device 30 and the heating device 20, the air supply device 30 is electrified to introduce air into the mixed airflow channel 15, in this working mode, when the air entering the portable electronic smoke device is larger than a preset threshold value of the second control device 50, the second control device 50 is also triggered to control the heating device 20 to be turned on, the heating device 20 is electrified to generate high temperature to heat and atomize aerosol generating substrates, the atomized aerosol generating substrates enter the mixed airflow channel 15 to be mixed with the air to form aerosol, the user turns off the first control device 40, and the first control device 40 controls the air supply device 30 and the heating device 20 to be turned off to stop generating the aerosol.

The portable electronic smoke device in the embodiment can generate aerosol in a suction mode and can also automatically generate aerosol, a user can select different working modes according to requirements, the use is convenient and flexible, and when the power supply device 60 is insufficient in power, the user can select the suction mode to generate aerosol so as to save the power; when the user wants to save labor, the user can choose to generate aerosol; the mode of portable electron smog ware automatic generation aerosol has greatly enlarged the range of application of this system to go out fog mouth 16 setting in this embodiment at the top of portable electron smog ware, compare the hand-held type atomizer among the prior art and can only horizontally go out fog, service conditions are restricted, portable electron smog ware in this embodiment can adopt any angle to go out fog when using, do not have the restriction to service conditions, enlarged application range, can orient and apply fog, for example can give skin surface atomizing etc.. In addition, the second mode is to enter air through two air paths of the first air flow channel 13 and the second air flow channel 14, which can increase the generation amount of aerosol. Through setting up the adsorption carrier on device 20 generates heat in this embodiment, take place the matrix through adsorption carrier absorption aerosol to make device 20 and the aerosol of generating heat take place the matrix and fully contact, thereby improved device 20 and generated the matrix heating effect to the aerosol, and device 20 only middle one section sets up in air mixing channel 15 generates heat, can avoid blockking the air flow in air mixing channel 15.

Example 2

As shown in fig. 5, in this embodiment, a gas purification device 70 is added to embodiment 1, and the gas purification device 70 is disposed in the middle shell 102 and is used for purifying the gas entering the middle shell 102. In this embodiment, the gas purifying device 70 is disposed between the cavity 11 and the gas supply device 30, a gas inlet end of the gas purifying device 70 is respectively communicated with the first gas flow channel 13 and the second gas flow channel 14, and a gas outlet end is communicated with the mixed gas flow channel 15, so that the gas coming out from the first gas flow channel 13 and the second gas flow channel 14 can be purified, and the aerosol can be ensured to be more sanitary. In other embodiments, the purification device 70 may also be disposed at the gas inlet 12, as the skilled person may decide on the actual basis.

The above are merely characteristic embodiments of the present invention, and do not limit the scope of the present invention in any way. All technical solutions formed by equivalent exchanges or equivalent substitutions fall within the protection scope of the present invention.

Claims (10)

1. The portable electronic smoke sprayer is characterized by comprising a shell (10), wherein a gas inlet (12) and a mist outlet (16) are formed in the shell (10), the mist outlet (16) is arranged at the top of the shell (10), a cavity (11) for containing aerosol generating substrate and a first gas flow channel (13) communicated with the gas inlet (12) are formed in the shell (10), the gas inlet end of the cavity (11) is communicated with the first gas flow channel (13), and the gas outlet end of the cavity is communicated with the mist outlet (16); the shell (10) is also internally provided with a heating device (20) for heating the aerosol generating substrate and a gas supply device (30) for supplying gas to the cavity (11), and the gas supply device (30) is arranged in the first gas flow channel (13).

2. The portable electronic aerosolizer of claim 1, wherein a first control device (40) is further disposed within the housing (10), wherein the first control device (40) is connected to the heat generating device (20) and the gas supply device (30) for controlling the start and stop of the heat generating device (20) and the gas supply device (30).

3. The portable electronic aerosolizer of claim 1, wherein a second airflow channel (14) and a second control device (50) are further disposed within the housing (10), an inlet end of the second airflow channel (14) being in communication with the gas inlet (12) and an outlet end being in communication with the cavity (11); the second control device (50) is communicated with the first air flow channel (13) and the second air flow channel (14), the second control device (50) is connected with the heating device (20) and used for controlling the heating device (20) to start and stop, and when the air flow or/and the air pressure entering the shell (10) are/is larger than a preset threshold value of the second control device (50), the second control device (50) can control the heating device (20) to start.

4. A portable electronic aerosolizer according to claim 3, wherein a first control device (40) is further disposed within the housing (10), the first control device (40) is connected to the heat generating device (20) and the gas supply device (30) for controlling the start and stop of the heat generating device (20) and the gas supply device (30), the second control device (50) is connected to the first control device (40), the second control device (50) is capable of monitoring the gas flow or/and pressure data entering the housing (10) and transmitting the data to the first control device (40), the first control device (40) is capable of adjusting the gas supply of the gas supply device (30) according to the received gas flow or/and pressure data, and the first control device (40) and/or the second control device (50) is capable of monitoring the usage duration of the aerosol-generating substrate remaining in the cavity (11).

5. The portable electronic aerosolizer of claim 4, further comprising a communication module (80), wherein the first control device (40) and the second control device (50) are in communication connection with the outside world through the communication module (80), and wherein the first control device (40) and the second control device (50) are capable of transmitting operational data to the outside world through the communication module (80) and receiving and executing control commands from the outside world.

6. The portable electronic aerosolizer of claim 4, wherein the first control device (40) and/or the second control device (50) are capable of controlling a heating temperature of the heat generating device (20).

7. The portable electronic aerosolizer of claim 1, wherein a power supply (60) is further disposed within the housing (10) for providing power to the heat generating device (20), the power supply (60) being connected to the heat generating device (20); the gas purification device (70) is further arranged in the shell (10), the gas inlet end of the gas purification device (70) is communicated with the gas inlet (12), and the gas outlet end of the gas purification device is communicated with the cavity (11).

8. The portable electronic aerosolizer of claim 1, wherein a mixture flow channel (15) is further disposed in the cavity (11), an air inlet end of the mixture flow channel (15) is in communication with the first flow channel (13), an air outlet end of the mixture flow channel is in communication with the mist outlet (16), a side wall of the mixture flow channel (15) has a through hole, and the aerosol generating substrate in the cavity (11) can enter the mixture flow channel (15) through the through hole.

9. The portable electronic aerosolizer of claim 8 wherein one end of said heat generating device (20) is disposed within said mixture airflow channel (15) and the other end is disposed within said cavity (11) through said through-hole; the heating device (20) is provided with an adsorption carrier for adsorbing the aerosol generating substrate, one end of the adsorption carrier is arranged in the mixed gas flow channel (15), and the other end of the adsorption carrier is arranged in the cavity (11) and is in contact with the aerosol generating substrate.

10. The portable electronic aerosolizer of claim 9, wherein two sealing blocks (18) are disposed within the housing (10), each sealing block (18) being spaced apart along a direction of gas flow within the housing (10), the cavity (11) being formed between each sealing block (18) and the housing (10), the upper end and the lower end of the mixed gas flow channel (15) being disposed within the cavity (11) through the sealing blocks (18), and the upper end and the lower end of the mixed gas flow channel (15) being secured by the sealing blocks (18); and a shockproof block (19) is also arranged in the shell (10), and the shockproof block (19) is arranged at the gas inlet (12).

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