阅读说明：本技术 口味可调的电子烟及其调味控制方法 (Electronic cigarette with adjustable taste and seasoning control method thereof ) 是由 姚正沧 于 2020-05-28 设计创作，主要内容包括：本发明适用于电子烟领域,提供了一种口味可调的电子烟及其调味控制方法。电子烟包括烟弹夹和安装在所述烟弹夹中的至少两个子烟弹,至少两个子烟弹的烟油仓用于存放不同的烟油；烟弹夹具有一个总出烟口,各子烟弹分别具有子出烟口,各子出烟口均连通至总出烟口；电子烟还包括：至少两个加热单元,与至少两个子烟弹一一对应设置；接收单元,用于接收设置的各烟油雾化比例信息；吸气检测单元,用于检测用户是否有抽吸动作；控制单元,用于在吸气检测单元检测到有抽吸动作时,根据各烟油雾化比例信息控制各加热单元进行加热。本发明提供的电子烟使得同样种类的烟油可以组合产生各种不同的口味,大大提升了电子烟口感的多样化。(The invention is applicable to the field of electronic cigarettes, and provides an electronic cigarette with adjustable taste and a seasoning control method thereof. The electronic cigarette comprises a cigarette cartridge clip and at least two sub-cigarettes arranged in the cigarette cartridge clip, wherein the tobacco tar bins of the at least two sub-cigarettes are used for storing different tobacco tar; the cigarette cartridge clamp is provided with a main cigarette outlet, each sub cigarette cartridge is respectively provided with a sub cigarette outlet, and each sub cigarette outlet is communicated with the main cigarette outlet; the electron cigarette still includes: the at least two heating units are arranged in one-to-one correspondence with the at least two sub-cartridges; the receiving unit is used for receiving the set tobacco tar atomization proportion information; the inspiration detection unit is used for detecting whether a user has suction action; and the control unit is used for controlling each heating unit to heat according to the tobacco tar atomization ratio information when the suction detection unit detects that the suction action exists. The electronic cigarette provided by the invention can combine the same kind of tobacco tar to produce various tastes, and greatly improves the diversification of the tastes of the electronic cigarette.)

1. The electronic cigarette with the adjustable taste is characterized by comprising a cigarette cartridge clip and at least two sub-cigarettes mounted in the cigarette cartridge clip, wherein the tobacco tar bins of the at least two sub-cigarettes are used for storing different tobacco tar; the cigarette bullet clamp is provided with a main cigarette outlet, each sub cigarette bullet is provided with a sub cigarette outlet, and each sub cigarette outlet is communicated with the main cigarette outlet; the electronic cigarette further comprises:

the at least two heating units are arranged in one-to-one correspondence to the at least two sub-cartridges and used for heating tobacco tar in the corresponding sub-cartridges;

the receiving unit is used for receiving the set tobacco tar atomization proportion information;

the inspiration detection unit is used for detecting whether a user has suction action;

and the control unit is connected with the at least two heating units, the receiving unit and the air suction detection unit and is used for controlling the heating units to heat according to the tobacco tar atomization ratio information when the air suction detection unit detects that suction action exists.

2. The flavor-adjustable electronic cigarette according to claim 1, wherein the control unit is specifically configured to sequentially control the heating units according to the preset atomization ratio information of the tobacco tar to heat the tobacco tar in the corresponding sub-cigarette cartridge for a heating time period corresponding to the ratio according to the preset atomization sequence.

3. The flavor-adjustable electronic cigarette as claimed in claim 2, further comprising a battery and a single-pole multi-throw switch, wherein the control end of the electronic cigarette is connected to the control unit, the stationary contact of the electronic cigarette is connected to the battery, and the moving contacts of the electronic cigarette are respectively connected to the loops where the heating units are located.

4. The flavor-adjustable electronic cigarette according to claim 1, wherein the control unit is specifically configured to control the heating units to heat the tobacco tar in the corresponding sub-cartridges according to the information of the atomization ratio of the tobacco tar, and the heating time duration corresponding to the proportion of the heating units.

5. The flavor-adjustable electronic cigarette according to claim 4, further comprising a battery and a plurality of switches, wherein the control end of each switch is connected to the control unit, the first end of each switch is connected to the battery, and the second end of each switch is connected to the loop where the corresponding heating unit is located.

6. The flavor-tunable electronic cigarette of claim 1, wherein the receiving unit comprises a bluetooth communication module for receiving the information of the atomization ratio of the tobacco tar set on the client.

7. The flavor-tunable electronic cigarette of claim 1, wherein the receiving unit comprises a manual adjustment structure capable of outputting an adjustable electrical signal, and the output electrical signal carries the atomization ratio information of each tobacco tar.

8. The electronic cigarette seasoning control method is characterized by being applicable to an electronic cigarette comprising a cigarette cartridge clip and at least two sub-cigarettes, wherein the tobacco tar bins of the at least two sub-cigarettes are used for storing different tobacco tar; the cigarette bullet clamp is provided with a main cigarette outlet, each sub cigarette bullet is provided with a sub cigarette outlet, and each sub cigarette outlet is communicated with the main cigarette outlet; each sub-cartridge is correspondingly provided with a heating unit;

the electronic cigarette seasoning control method comprises the following steps:

detecting whether a user has a pumping action;

and if the suction action is detected, controlling each heating unit to heat according to preset tobacco tar atomization ratio information.

9. The electronic cigarette flavoring control method of claim 8, wherein the controlling of the heating units according to the preset tobacco tar atomization ratio information comprises:

and according to the tobacco tar atomization proportion information, sequentially controlling each heating unit according to a preset atomization sequence to heat the tobacco tar in the corresponding sub-cartridge by the heating time length corresponding to the proportion.

10. The electronic cigarette flavoring control method of claim 8, wherein the controlling of the heating units according to the preset tobacco tar atomization ratio information comprises:

and simultaneously controlling each heating unit to heat the tobacco tar in the corresponding sub-cartridge according to the tobacco tar atomization ratio information and the heating duration corresponding to the proportion.

Technical Field

The invention belongs to the field of electronic cigarettes, and particularly relates to an electronic cigarette with adjustable taste and a seasoning control method thereof.

Background

The electronic cigarette is an electronic product simulating cigarettes, has the same appearance, smoke, taste and feeling as the cigarettes, changes nicotine and the like into smoke for users to inhale by means of atomization and the like, and is healthier and has wider market prospect compared with the traditional cigarettes.

Present electron cigarette has a cigarette bullet and atomizing core heater strip that is used for the oil storage, has leaded to the user to enjoy the tobacco tar that uses a taste only, and the taste is single, can't experience diversified taste, arouses taste fatigue easily.

Disclosure of Invention

The technical problem to be solved by the invention is how to realize diversified mouthfeel of the electronic cigarette.

In order to solve the technical problem, the invention provides an electronic cigarette with adjustable taste, which is characterized by comprising a cigarette cartridge holder and at least two sub-cigarettes mounted in the cigarette cartridge holder, wherein the tobacco tar bins of the at least two sub-cigarettes are used for storing different tobacco tar; the cigarette bullet clamp is provided with a main cigarette outlet, each sub cigarette bullet is provided with a sub cigarette outlet, and each sub cigarette outlet is communicated with the main cigarette outlet; the electronic cigarette further comprises:

the at least two heating units are arranged in one-to-one correspondence to the at least two sub-cartridges and used for heating tobacco tar in the corresponding sub-cartridges;

the receiving unit is used for receiving the set tobacco tar atomization proportion information;

the inspiration detection unit is used for detecting whether a user has suction action;

and the control unit is connected with the at least two heating units, the receiving unit and the air suction detection unit and is used for controlling the heating units to heat according to the tobacco tar atomization ratio information when the air suction detection unit detects that suction action exists.

Further, the control unit is specifically configured to successively control, according to the information of the atomization ratio of each tobacco tar, each heating unit to heat the tobacco tar in the corresponding sub-cartridge for a heating time corresponding to the ratio according to a preset atomization sequence.

Furthermore, the electronic cigarette also comprises a battery and a single-pole multi-throw switch, wherein the control end of the electronic cigarette is connected with the control unit, the static contact of the electronic cigarette is connected with the battery, and the moving contacts of the electronic cigarette are respectively connected to a loop where each heating unit is located.

Further, the control unit is specifically configured to control each heating unit to heat the tobacco tar in the corresponding sub-cartridge for a heating duration corresponding to the occupied proportion according to the information of the atomization proportion of each tobacco tar.

Furthermore, the electronic cigarette further comprises a battery and a plurality of switches, the control end of each switch is connected with the control unit, the first end of each switch is connected with the battery, and the first end of each switch is respectively connected to a loop where the corresponding heating unit is located.

Further, the receiving unit comprises a bluetooth communication module for receiving the tobacco tar atomization ratio information set on the client.

Furthermore, the receiving unit comprises a manual adjusting structure capable of outputting adjustable electric signals, and the output electric signals carry the atomization proportion information of the tobacco tar.

The invention also provides an electronic cigarette seasoning control method, which is suitable for an electronic cigarette comprising a cigarette cartridge clip and at least two sub-cigarettes, wherein the tobacco tar bins of the at least two sub-cigarettes are used for storing different tobacco tar; the cigarette bullet clamp is provided with a main cigarette outlet, each sub cigarette bullet is provided with a sub cigarette outlet, and each sub cigarette outlet is communicated with the main cigarette outlet; each sub-cartridge is correspondingly provided with a heating unit; the electronic cigarette seasoning control method comprises the following steps:

detecting whether a user has a pumping action;

and if the suction action is detected, controlling each heating unit to heat according to preset tobacco tar atomization ratio information.

Further, the heating is carried out according to each heating unit of predetermined tobacco tar atomizing ratio information control, including: and according to the tobacco tar atomization proportion information, sequentially controlling each heating unit according to a preset atomization sequence to heat the tobacco tar in the corresponding sub-cartridge by the heating time length corresponding to the proportion.

Further, the heating is carried out according to each heating unit of predetermined tobacco tar atomizing ratio information control, including: and simultaneously controlling each heating unit to heat the tobacco tar in the corresponding sub-cartridge according to the tobacco tar atomization ratio information and the heating duration corresponding to the proportion.

The electronic cigarette provided by the invention contains various tobacco tar, a user can experience various tastes at one time, the self-regulation of the tastes of the user is supported, and the heating atomization of various tobacco tar is controlled according to the atomization proportion of the tobacco tar set by the user, so that the same type of tobacco tar can be combined to generate various tastes, and the diversification of the tastes of the electronic cigarette is greatly promoted.

Drawings

Figure 1 is a block diagram of a taste-adjustable e-cigarette according to a first embodiment of the present invention;

figure 2 is a block diagram of a taste-modifying e-cigarette according to a second embodiment of the present invention;

FIG. 3 is a schematic diagram of a time-division multiplexing heating method for the tobacco tar of each sub-cartridge according to a second embodiment of the present invention;

figure 4 is a block diagram of a taste-modifying e-cigarette according to a third embodiment of the present invention;

fig. 5 is a schematic diagram of the control of the simultaneous heating of the tobacco tar of each sub-cartridge according to the third embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Fig. 1 shows a structure of an electronic cigarette with adjustable taste according to a first embodiment of the present invention, which includes a cigarette cartridge holder 1 and a cigarette rod 2, wherein at least two sub-cartridges are installed in the cigarette cartridge holder 1, a cigarette oil bin of each sub-cartridge is used for storing different cigarette oils, a main circuit of the electronic cigarette is disposed in the cigarette rod 2, for example, a heating unit may be disposed in the cigarette cartridge holder 1, and other circuits except the heating unit are disposed in the cigarette rod 2. For dismantling the connection between tobacco rod 2 and the cigarette cartridge holder 1, when the tobacco tar of certain sub-cigarette cartridge was used up, can dismantle the back with this sub-cigarette cartridge and change, when cigarette cartridge holder 1 was pegged graft with tobacco rod 2, the circuit line in the heating unit access tobacco rod 2 in the cigarette cartridge holder 1 just can further come the control heating unit to just heat for the tobacco tar in the sub-cigarette cartridge through the part on the operation tobacco rod 2 again.

The cartridge holder has a main outlet 13, each sub cartridge has a sub outlet, each sub outlet is connected to the main outlet 13. In fig. 1, only two sub-cartridges, namely, a first sub-cartridge 11 and a second sub-cartridge 12, are taken as an example, wherein a tobacco tar a is stored in a tobacco tar bin of the first sub-cartridge 11, a tobacco tar B is stored in a tobacco tar bin of the second sub-cartridge 12, the first sub-cartridge 11 has a first sub-outlet 111, the second sub-cartridge 12 has a second sub-outlet 121, and both the first sub-outlet 111 and the second sub-outlet 121 are communicated with a main outlet 13, so that the smoke generated by heating and atomizing the tobacco tar a and the smoke generated by heating and atomizing the tobacco tar B can be inhaled by a user through the main outlet 13.

The cigarette cartridge clip 1 further comprises at least two heating units, wherein the at least two heating units are arranged in one-to-one correspondence with the at least two sub-cigarette cartridges and used for heating the tobacco tar in the corresponding sub-cigarette cartridges. The heating unit 112 in fig. 1 is used to heat and atomize the tobacco tar a in the corresponding first sub-cartridge 11, and the heating unit 122 is used to heat and atomize the tobacco tar B in the corresponding second sub-cartridge 12.

A receiving unit 21, an inspiration detection unit 22 and a control unit 23 are further arranged in the tobacco rod 2, wherein the receiving unit 21 is used for receiving set tobacco tar atomization ratio information, for example, the user sets the atomization ratio of tobacco tar a to tobacco tar B to be 2: 1. The inhalation detection unit 22 is used to detect whether the user has a suction action. The control unit 23 is connected with the at least two heating units, the receiving unit 21 and the air suction detection unit 22, and is used for controlling each heating unit to heat according to the tobacco tar atomization ratio information when the air suction detection unit 22 detects that the suction action is performed.

Because each tobacco tar atomization ratio information can be set by the user by oneself, consequently the user can come from adjusting the taste according to the hobby of oneself, realizes that disposable suction can experience multiple taste, has promoted the diversification of electron cigarette taste greatly. During the concrete implementation, receiving element 21 can include a bluetooth communication module for each tobacco tar atomization proportion information that the receiving user set up on the client and transmit to the control unit 23, receiving element 21 can also include a manual regulation structure, this manual regulation structure can produce the adjustable signal of telecommunication under user's manual regulation, the signal of telecommunication of output carries each tobacco tar atomization proportion information, for example, manual regulation structure can adopt potentiometre etc. the different electric potential values of setting correspond different tobacco tar atomization proportions.

Fig. 2 shows a structure of an electronic cigarette with adjustable taste according to a second embodiment of the present invention, in this embodiment, a "time division multiplexing" manner is adopted to heat the tobacco tar in each sub-cartridge based on the first embodiment, and in this embodiment, the control unit 23 is specifically configured to successively control each heating unit according to the preset atomization ratio information of each tobacco tar and according to the preset atomization sequence, so as to heat the tobacco tar in each corresponding sub-cartridge for a heating time period corresponding to the occupied ratio. Specifically, a minimum heating time period t can be set, and the heating time period of each tobacco tar is controlled to be a corresponding multiple of t.

Fig. 2 likewise shows two sub-cartridges as an example. In this embodiment, the two heating units are respectively implemented by an atomizing core heating wire a and an atomizing core heating wire B, and the electronic cigarette further includes a battery and a single-pole multi-throw switch S, where the single-pole multi-throw switch S has a control end, a stationary contact o, and a plurality of moving contacts abc. Specifically, the positive electrode of the battery is connected with one end of the atomizing core heating wire A and one end of the atomizing core heating wire B. The control end of the single-pole multi-throw switch S is connected with the control unit 23, the stationary contact is connected with the cathode of the battery, each movable contact is respectively connected to a loop where each heating unit is located, and two movable contacts a and B in the figure 2 are respectively connected with the other end of the atomizing core heating wire A and the other end of the atomizing core heating wire B. The control principle is as follows: when the user has no pumping action, the control unit 23 controls the single-pole multi-throw switch S to throw on the movable contact c, and when the user has pumping action, the control unit 23 controls the single-pole multi-throw switch S to throw between the movable contacts a and b in turn.

Further, the atomization ratio information of each tobacco tar set by the user through the receiving unit 21 also includes the total smoke amount information, for example, the total smoke amount of the plurality of tobacco tars may be set to a certain percentage of the maximum value. Fig. 3 shows a control manner of time-sharing energization heating of the tobacco tar a and the tobacco tar B, wherein the total smoke amount is 75% of the maximum value, the smoke amount ratio of the tobacco tar a to the tobacco tar B is 2:1, and the whole heating process is circulated in a manner of heating the tobacco tar a for 2 minimum heating periods t, heating the tobacco tar B for 1 minimum heating period t, and stopping heating for 1 minimum heating period.

Fig. 4 shows a structure of an electronic cigarette with adjustable taste according to a third embodiment of the present invention, in this embodiment, a "simultaneous heating" manner is adopted to heat the tobacco tar in each sub-cartridge based on the first embodiment, and in this embodiment, the control unit 23 is specifically configured to control each heating unit to heat the tobacco tar in each corresponding sub-cartridge according to the information of the atomization ratio of the tobacco tar, and at the same time, the heating unit controls each heating unit to heat the tobacco tar in each corresponding sub-cartridge for a heating time period corresponding to the occupied ratio. And similarly, a minimum heating time period t can be set, and the heating time period of each tobacco tar is controlled to be a corresponding multiple of t.

Fig. 4 likewise shows two sub-cartridges as an example. In this embodiment, the two heating units are also implemented by using an atomizing core heating wire a and an atomizing core heating wire B, respectively, the electronic cigarette further includes a battery and a plurality of switches, two switches Sa and Sb are shown as examples in fig. 4, and the switches Sa and Sb have a control end, a first end, and a second end. Specifically, the positive electrode of the battery is connected with one end of the atomizing core heating wire A and one end of the atomizing core heating wire B. The control ends of the switches Sa and Sb are connected with the control unit 23, the first ends of the switches Sa and Sb are connected with the negative electrode of the battery, the second ends of the switches Sa and Sb are respectively connected to loops where the corresponding heating units are located, and the second ends of the switches Sa and Sb in the figure 4 are respectively connected with the other end of the atomizing core heating wire A and the other end of the atomizing core heating wire B. The control principle is as follows: when the user has no suction action, the control unit 23 controls the switches Sa and Sb to be turned off, and when the user has a suction action, the control unit 23 controls the switches Sa and Sb to be turned on.

Fig. 5 shows a control manner for simultaneously heating the tobacco tar a and the tobacco tar B by electrifying, wherein the total smoke amount is 75% of the maximum value, the smoke amount ratio of the tobacco tar a to the tobacco tar B is 2:1, the heating process of the tobacco tar a and the heating process of the tobacco tar B are parallel, wherein the heating of the tobacco tar a is circulated in a manner of heating for 6 minimum heating time periods t to stopping heating for 2 minimum heating time periods, and the heating of the tobacco tar B is circulated in a manner of heating for 3 minimum heating time periods t to stopping heating for 5 minimum heating time periods.

Considering that the smoking effect of each tobacco tar atomization ratio set by the user is satisfied by the user and the energy efficiency is not good, a memory can be arranged in the control unit 23 and used for storing each tobacco tar atomization ratio set by the user each time, a plurality of evaluation keys connected with the control unit 23 are arranged on the tobacco rod 2, the user can perform comment through the evaluation keys after smoking, and the control unit 23 stores the comment information and the set information of each tobacco tar atomization ratio into the memory in a correlation mode after receiving the comment operation of the user. The user can look up the associated information to know the taste preference of the user, and the associated information is used as a reference for subsequent setting, for example, the user looks up and finds that the previously set smoke oil atomization ratio information in the M is more suitable for the taste of the user, and the smoke oil atomization ratio can be directly set to be the same smoke oil atomization ratio again at this time.

Based on the foregoing embodiments, a fourth embodiment of the present invention provides a method for controlling electronic cigarette flavoring, which is applicable to an electronic cigarette including a cigarette cartridge clip and at least two sub-cartridges, where the tobacco tar bins of the at least two sub-cartridges are used for storing different tobacco tar; the cigarette cartridge clamp is provided with a main cigarette outlet, each sub cigarette cartridge is respectively provided with a sub cigarette outlet, and each sub cigarette outlet is communicated with the main cigarette outlet; each sub-cartridge is correspondingly provided with a heating unit. The electronic cigarette seasoning control method comprises the following steps:

step S1, detecting whether the user has pumping action;

and step S2, if the suction action is detected, controlling each heating unit to heat according to preset tobacco tar atomization ratio information.

Further, step S2 may include: and according to the tobacco tar atomization proportion information, sequentially controlling each heating unit according to a preset atomization sequence to heat the tobacco tar in the corresponding sub-cartridge by the heating time length corresponding to the proportion.

Further, step S2 may also include controlling each heating unit to heat the tobacco tar in the corresponding sub-cartridge for a heating time period corresponding to the proportion according to the information of the atomization proportion of each tobacco tar.

The implementation principle of the step S2 is described in the above embodiments, and is not described herein again.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.