AU2021105886A4 - A Smart Social E-cigarette - Google Patents

Abstract

The disclosureclaims a smart social e-cigarette, wherein it comprises a cigarette body with a collision detection area in the middle; an information sending module located inside the cigarette body; a controller located inside the cigarette body to control the information sending module to send the first social information when the obtained collision detection result of the collision detection area meets the first preset collision condition; an information receiving module located inside the cigarette body and connected to the controller to receive the external second social information.According to the disclosure, whether to socialize with others can be judged based on the detection result of the collision detection area of the cigarette body itself, so that the first social information is sent under a certain condition, and the external second social information is received simultaneously to complete the social information transmission, thus solving the problems of near-field judgment misoperation and inaccurate social action detection in the prior art. DRAWINGS 1A 104 104 102 \1B 102 FIG.6 104 1C 102 104 1 D 102 104 1 E 102 FIG7

Description

DRAWINGS

1A 104 104

102 \1B 102 FIG.6

104 1C 102

104 1D 102

104 1E 102

FIG7

SPECIFICATION

A Smart Social E-cigarette

TECHNICAL FIELD

The disclosure relates to the field of e-cigarettes, specifically relating to a smart social

e-cigarette.

BACKGROUND

E-cigarettes can not only replace cigarettes to meet users' smoking needs, but also have

communication functions such as information transmission while smoking and others, so as to

achieve social information interaction to a certain extent. However, due to the application scenarios

and size design of e-cigarettes, e-cigarettes cannot conveniently transmit social information as other

smart terminals (or wearable smart terminals), resulting in poor user experience. For example, (1) In

the prior art, the social information transmission of e-cigarettes is realized by means of distance

detection and NFC near-field communication, but the use of this means will cause two e-cigarettes

to transmit social information once they are close, which will inevitably cause many unnecessary

misoperations; (2) Some other wearable smart terminals have the function of transmitting social

information based on the detection results of body social actions (such as shaking hands, hugging

and kissing), but e-cigarettes cannot accurately detect whether there are body social actions such as

shaking hands, hugging and kissing based on human physiological data as other wearable smart

terminals, so social information transmission cannot be realized.

To sum up, it is an urgent problem in this field to provide a smart social e-cigarette that can

accurately obtain social needs and provide user experience.

SUMMARY

The disclosure aims to overcome the shortcomings of the prior art and provide a smart social

e-cigarette.

The object of the disclosureis realized by means of the following technical solution:

The disclosure provides a smart social e-cigarette, wherein it comprises:

a cigarette body with a collision detection area in the middle;

an information sending module located inside the cigarette body;

a controller located inside the cigarette body to control the information sending module to send

the first social information when the obtained collision detection result of the collision detection

area meets the first preset collision condition;

an information receiving module located inside the cigarette body and connected to the

SPECIFICATION

controller to receive the external second social information. The disclosure has the following beneficial effects: (1) In an exemplary embodiment of the disclosure, whether to socialize with others can be judged based on the detection result of the collision detection area of the cigarette body itself, so that the first social information is sent under a certain condition (that is, the first preset collision condition is met), and the external second social information is received simultaneously to complete the social information transmission, thus solving the problems of near-field judgment misoperation and inaccurate social action detection in the prior art. (2) In another exemplary embodiment of the disclosure, the power source is used as the starting power of the information sending module, and the first switch is controlled by the start/stop signal of the controller. When the controller controls the first switch to be turned on and off, the power source provides power signals to the information sending module, so that the information sending module can work. In this way, the information sending module does not need to be in the normally open state, which can save power to a certain extent. (3) In another exemplary embodiment of the disclosure, the information sending module and the information receiving module are respectively arranged on both sides of the collision detection area along the cigarette body direction, so that the distance between two devices with higher power is relatively long, to ensure that the heat will not be generated in the same range of the e-cigarette, thus improving the service life of the e-cigarette. (4) In another exemplary embodiment of the disclosure, to avoid the false sending of social information due to the false detection caused by other external collisions, the detection information judgment method is adopted. (5) In another exemplary embodiment of the disclosure, because different e-cigarettes have different shapes, in order to avoid inaccurate data transmission caused by large length difference, the first detection information and the second detection information include the distance between the information sending module and the information receiving module of the respective e-cigarettes, so that the module distance information in the first detection information and the second detection information is judged to determine whether it is the same or within a preset proportion while the first detection information and the second detection information are obtain for sequence judgment, and if so, subsequent judgments are made. (6) In another exemplary embodiment of the disclosure, "different time differences control the

SPECIFICATION

information sending module to send different types of first social information" can also be converted into "the proximity of the two users", and different types of first social information are transmitted based on the intimacy. For example, the higher the intimacy, the more content in the first social information transmitted. (7) In another exemplary embodiment of the disclosure, the collision detection area is set as a recess, which can not only facilitate the user to search for the collision detection area, that is, accurately find the collision position, but also reduce the probability of being placed at ordinary times or touched by other smart terminals, that is, reduce the collision probability. (8) In another exemplary embodiment of the disclosure, the width of the recess is 1.2-1.5 times the width of the cigarette body. In this way, the collision between the own e-cigarette and the other e-cigarette is more accurate. (9) In another exemplary embodiment of the disclosure, the e-cigarette can also be used for flashing of a specific collision process (i.e., the second preset collision condition), so as to meet another social demand. In another exemplary embodiment, an emergency rescue function may also be provided. The above solution of the disclosure is not only applicable to e-cigarettes, but also applicable to atomizers and other similar electronic devices. BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a structure diagram of a smart social e-cigarette provided in an exemplary embodiment of the disclosure; FIG. 2 is a use process diagram of a smart social e-cigarette provided in an exemplary embodiment of the disclosure; FIG. 3 is a circuit connection diagram of a smart social e-cigarette provided in an exemplary embodiment of the disclosure; FIG. 4 is a circuit connection diagram of a smart social e-cigarette provided in another exemplary embodiment of the disclosure; FIG. 5 is a schematic diagram of positions of an information sending module and an information receiving module of a smart social e-cigarette provided in an exemplary embodiment of the disclosure; FIG. 6 is a use process diagram of the smart social e-cigarette shown in FIG. 5; FIG. 7 is a structure diagram of smart social e-cigarettes with different shapes provided in an

SPECIFICATION

exemplary embodiment of the disclosure; FIG. 8 is a structure diagram of a smart social e-cigarette with a recess provided in an exemplary embodiment of the disclosure; FIG. 9 is a structure diagram of a smart social e-cigarette with a lamp body provided in an exemplary embodiment of the disclosure; In the figures, 1-e-cigarette, 1A-the own e-cigarette, 1B-the other e-cigarette, IC-flat e-cigarette, 1D-cylindrical e-cigarette, 1E-irregular e-cigarette, 101-cigarette body, 101'-middle, 101"-cigarette body direction, 10101-collision detection area, 101011-vibration sensor, 102-information sending module, 103-controller, 104-information receiving module, 105-power source, 106-first switch, 107-second switch, 108-lamp body, 11-smoking side. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS It needs to be noted that the directions or position relationships such as "central", "upper", "lower", "left", "right", "vertical", "horizontal", "inside" and "outside" in the description of the disclosure are based on those on drawings, and are used only for facilitating the description of the disclosure and for simplified description, not for indicating or implying that the target devices or components must have a special direction and be structured and operated at the special direction, thereby they cannot be understood as the restrictions to the disclosure. Moreover, the words "first" and "second" are used only for description, and cannot be understood as indication or implying of relative importance. It needs to be noted in the description of the disclosure that unless otherwise specified or restricted, the words of "installation", "interconnection" and "connection" shall be understood as a general sense. For example, the connection can be fixed connection, removable connection, integrated connection, mechanical connection, electrical connection, direct connection, indirect connection through intermediate media or connection between two components. Persons of ordinary skill in the art of the disclosure can understand the specific meanings of the terms above in the disclosure as the case may be. Refer to FIG. 1. FIG. 1 shows a smart social e-cigarette 1 provided in an exemplary embodiment of the disclosure, wherein it comprises: a cigarette body 101 with a collision detection area 10101 in the middle 101'; an information sending module 102 located inside the cigarette body 101; a controller 103 located inside the cigarette body 101 to control the information sending

SPECIFICATION

module 102 to send the first social information when the obtained collision detection result of the collision detection area 10101 meets the first preset collision condition; an information receiving module 104 located inside the cigarette body 101 and connected to the controller 103 to receive the external second social information. Specifically, for the convenience of explanation, it is defined that the e-cigarette 1 has a smoking side 11. The specific application method of the e-cigarette 1 in this exemplary embodiment is as follows: when it is necessary to socialize with others, as shown in FIG. 2, the user preferably holds one end of the cigarette body 101 of the own e-cigarette 1A close to the smoking side 11 (or one end far away from the smoking side 11), and collides the collision detection area 10101 of the own e-cigarette 1A with the collision detection area 10101 of the other e-cigarette 1B. When the controller 103 of the own e-cigarette 1A controls the information sending module 102 to send the first social information when the obtained collision detection result of the collision detection area 10101 meets the first preset collision condition, and at this time, the information receiving module 104 of the other e-cigarette lB can receive the first social information. Meanwhile, the other e-cigarette 1B also performs the same action based on the detection result, so that the information receiving module 104 of the own e-cigarette 1A can receive the second social information sent by the other e-cigarette 1B. With the e-cigarette provided in this exemplary embodiment, whether to socialize with others can be judged based on the detection result of the collision detection area 10101 of the cigarette body 101 itself, so that the first social information is sent under a certain condition (that is, the first preset collision condition is met), and the external second social information is received simultaneously to complete the social information transmission, thus solving the problems of near-field judgment misoperation and inaccurate social action detection in the prior art. The collision detection area 10101 can be provided in any form that can realize collision detection, for example, a collision sensor and/or a vibration sensor 101011 can be provided. The preset collision condition may include one or a combination of time, number of times, strength and other restrictions. For example, in an exemplary embodiment, the first preset collision condition is a collision. In addition, if the e-cigarette 1 is flat in the exemplary embodiment in the figure, the collision detection area 10101 can be set as two wide surfaces convenient for the user to hold. If the e-cigarette 1 is cylindrical not shown in the figure, a ring can be arranged in the middle 101' of the cigarette body 101. The social information can include electronic business cards and other

SPECIFICATION

information that needs to be sent. Preferably, in an exemplary embodiment, the smart social e-cigarette 1 further comprises: a power source 105; a first switch 106 located between the information sending module 102 and the power source 105 and turned on and off based on the control information sent by the controller 103. In this exemplary embodiment, the circuit connection diagram of modules of the smart social e-cigarette 1 is shown in FIG. 3. The power source 105 is used as the starting power of the information sending module 102, and the first switch 106 is controlled by the start/stop signal of the controller 103. When the controller 103 controls the first switch 106 to be turned on and off, the power source 105 provides power signals to the information sending module 102, so that the information sending module 102 can work. In this way, the information sending module 102 does not need to be in the normally open state, which can save power to a certain extent. In one of the exemplary embodiments, the generation condition of the start/stop signal is when the collision detection result of the collision detection area 10101 obtained by the controller 103 meets the first preset collision condition. In other exemplary embodiments, the controller 103 may also send a start/stop signal when the information sending module 102 is required to send other types of data. In addition, in other exemplary embodiments, the power source 105 may also provide power to one or more of the controller 103, the information receiving module 104 and the vibration sensor 101011, which can be set according to actual conditions. Moreover, a second switch 107 similar to the first switch 106 may also be provided, as shown in FIG. 4. The second switch 107 is used to control the opening and closing of the information receiving module 104. Meanwhile, the power source 105 includes a power source body and a voltage conversion device, so that the output voltage can meet the voltage of different components. Preferably, in an exemplary embodiment, the information sending module 102 and the information receiving module 104 are respectively arranged on both sides of the collision detection area 10101 along the cigarette body direction 101". Refer to FIG. 5, in this exemplary embodiment, the information sending module 102 and the information receiving module 104 are respectively arranged on both sides of the collision detection area 10101 along the cigarette body direction 101", so that the distance between two devices with higher power is relatively long, to ensure that the heat will not be generated in the same range of the

SPECIFICATION

e-cigarette 1, thus improving the service life of the e-cigarette 1.

In the exemplary embodiment of FIG. 5, the information sending module 102 is close to the

smoking side 11, while the information receiving module 104 is far away from the smoking side. In

another exemplary embodiment (not shown in the figure), the information sending module 102 is

close to the smoking side 11, while the information receiving module 104 is far away from the

smoking side. The following exemplary embodiments are all based on the schematic structure in

FIG. 5.

Preferably, based on the exemplary embodiment that "the information sending module 102 and

the information receiving module 104 are respectively arranged on both sides of the collision

detection area 10101 along the cigarette body direction 101"", in another exemplary embodiment,

the controller 103 controls the information sending module 102 to send the first detection

information when the obtained collision detection result of the collision detection area 10101 meets

the first preset collision condition; the information receiving module 104 is also used to receive the

first detection information and the external second detection information;

if the controller 103 judges that the time point when the information receiving module 104

receives the second detection information is earlier than the time point when the information

receiving module 104 receives the first detection information, it controls the information sending

module 102 to send the first social information.

To avoid the false sending of social information due to the false detection caused by other

external collisions, the detection information judgment method is adopted. Specifically, in this

exemplary embodiment, when the user of the own e-cigarette 1A and the user of the other

e-cigarette lB are ready to transmit social information, first, the two users hold the cigarette body

101 close to the smoking side 11 and collide with each other with the collision detection area 10101,

and at this time, the two e-cigarettes 1 are in a cross shape as shown in FIG. 6; then, when the

collision detection result of the collision detection area 10101 obtained by the controllers 103 of the

two e-cigarettes 1 meets the first preset collision condition, the controller 103 of the own e-cigarette

1A controls the information sending module 102 to send the first detection information, and

meanwhile, the controller 103 of the other e-cigarette lB controls the information sending module

102 to send the first detection information. At this time, since the first distance (the distance

between the information receiving module 104 of the own e-cigarette 1A and the information

sending module 102 of the other e-cigarette 1B) is smaller than the second distance (the distance

SPECIFICATION

between the information receiving module 104 of the own e-cigarette 1A and the information

sending module 102 of the own e-cigarette 1A), the information receiving module 104 of the own

e-cigarette 1A will receive the second detection information and the first detection information

successively. At this time, the controller 103 of the own e-cigarette 1A judges that the social

information is transmitted, and thus controls the information sending module 102 to send the first

social information. The other e-cigarette 1B is the same.

If the own e-cigarette 1A is placed or touched by other smart terminals, after the collision

detection result of the collision detection area 10101 meets the first preset collision condition, the

controller 103 controls the information sending module 102 to send the first detection information.

However, since the second detection information is not sent from the outside, the information

receiving module 104 of the own e-cigarette 1A only receives the first detection information, so the

first social information will not be sent. That is to say, even if the external smart terminal has a

module that can send and receive information, it will not receive the first social information, so as

to avoid the false sending of social information due to the false detection caused by other external

collisions.

In addition, in this exemplary embodiment, it can be further judged that if the own e-cigarette

1A and the other e-cigarette lB collide in a non-crossing state (i.e., collide in parallel, for example,

the same user has two e-cigarettes 1 and they are placed in parallel, so there is no need to socialize

with others) or collide in the same direction (one of the e-cigarettes 1 is held back, and the two users

do not need to transmit social information at this time), the need of social information transmission

is not met. At this time, due to the first distance and the second distance, the condition that the first

distance is smaller than the second distance is not met, so the two e-cigarettes 1 will not transmit

social information.

Preferably, in an exemplary embodiment, the first detection information and the second

detection information include the distance between the information sending module 102 and the

information receiving module 104 of the respective e-cigarettes; when the controller 103 receives

the first detection information and the second detection information, it first judges whether the

distance between the information sending module 102 and the information receiving module 104 of

the two e-cigarettes 1 is the same or within a preset proportion, and if so, it makes subsequent

judgments.

Specifically, in this exemplary embodiment, because different e-cigarettes have different

SPECIFICATION

shapes (even the same brand has different models), such as the flat e-cigarette IC, the cylindrical e-cigarette ID and other irregular e-cigarettes 1E shown in FIG. 7, in order to avoid inaccurate data transmission caused by large length difference, the first detection information and the second detection information include the distance (straight-line distance L) between the information sending module 102 and the information receiving module 104 of the respective e-cigarettes 1, so that the module distance information in the first detection information and the second detection information is judged to determine whether it is the same or within a preset proportion while the first detection information and the second detection information are obtain for sequence judgment, and if so, subsequent judgments are made. Preferably, in an exemplary embodiment, if the controller 103 judges that the second time point when the information receiving module 104 receives the second detection information is earlier than the first time point when the information receiving module 104 receives the first detection information, it further judges the time difference between the second time point and the first time point, and controls the information sending module 102 to send different types of first social information based on different time differences. Specifically, in this exemplary embodiment, when the collision detection area 10101 of the own e-cigarette 1A collides with the collision detection area 10101 of the other e-cigarette 1B, the two e-cigarettes 1 have different angles, and when the angles are different, the difference between the first distance (the distance between the information receiving module 104 of the own e-cigarette 1A and the information sending module 102 of the other e-cigarette 1B) and the second distance (the distance between the information receiving module 104 of the own e-cigarette 1A and the information sending module 102 of the own e-cigarette 1A) will also be different, which will lead to different time differences between the second time point and the first time point. The main reason for different angles is that the positions of the own e-cigarette 1A and the other e-cigarette lB are different, that is, the proximity of the two users is different, and the proximity of the two users also represents the intimacy. In this exemplary embodiment, "different time differences control the information sending module 102 to send different types of first social information" can also be converted into "the proximity of the two users", and different types of first social information are transmitted based on the intimacy. For example, the higher the intimacy, the more content in the first social information transmitted. Therefore, in this exemplary embodiment, different types of first social information can be

SPECIFICATION

transmitted based on the time differences. Preferably, in an exemplary embodiment, as shown in FIG. 8, the position of the cigarette body 101 corresponding to the collision detection area 10101 is a recess 101012. Specifically, in this exemplary embodiment, the collision detection area 10101 is set as a recess 101012, which can not only facilitate the user to search for the collision detection area 10101, that is, accurately find the collision position, but also reduce the probability of being placed at ordinary times or touched by other smart terminals, that is, reduce the collision probability. Preferably, in an exemplary embodiment, the width of the recess 101012 is 1.2-1.5 times the width of the cigarette body 101. In this way, the collision between the own e-cigarette 1A and the other e-cigarette lB is more accurate. Preferably, in an exemplary embodiment, as shown in FIG. 9, the smart social e-cigarette further comprises: a lamp body 108 located on the cigarette body and connected to the controller 103; the controller 103 controls the lamp body 108 to perform the preset action when the obtained collision detection result of the collision detection area 10101 meets the second preset collision condition. Specifically, in this exemplary embodiment, the e-cigarette 1can also be used for flashing of a specific collision process (i.e., the second preset collision condition), so as to meet another social demand. In one of the embodiments, the second preset collision condition is two consecutive collisions. Preferably, in an exemplary embodiment, the controller 103 controls the information sending module 102 to send the first emergency rescue information when the obtained collision detection result of the collision detection area 10101 meets the third preset collision condition; the information receiving module 104 is also used to receive the external second emergency rescue information. Specifically, in this exemplary embodiment, the e-cigarette 1 may also provide an emergency rescue function. When emergency rescue is required, the third preset collision condition (three consecutive collisions in an exemplary embodiment) is performed, and the first emergency rescue information is sent through the information sending module 102. Meanwhile, the second emergency rescue information sent by the other e-cigarette lB is also received.

Claims (10)

1. A smart social e-cigarette, wherein it comprises:

a cigarette body with a collision detection area in the middle;

an information sending module located inside the cigarette body;

a controller located inside the cigarette body to control the information sending module to send

the first social information when the obtained collision detection result of the collision detection

area meets the first preset collision condition;

an information receiving module located inside the cigarette body and connected to the

controller to receive the external second social information.

2. The smart social e-cigarette according to claim 1, wherein it further comprises:

a power source;

a first switch located between the information sending module and the power source and

turned on and off based on the control information sent by the controller.

3. The smart social e-cigarette according to claim 1, wherein the information sending module

and the information receiving module are respectively arranged on both sides of the collision

detection area along the cigarette body direction.

4. The smart social e-cigarette according to claim 3, wherein the controller controls the

information sending module to send the first detection information when the obtained collision

detection result of the collision detection area meets the first preset collision condition; the

information receiving module is also used to receive the first detection information and the external

second detection information;

if the controller judges that the time point when the information receiving module receives the

second detection information is earlier than the time point when the information receiving module

receives the first detection information, it controls the information sending module to send the first

social information.

5. The smart social e-cigarette according to claim 4, wherein thefirst detection information and

the second detection information include the distance between the information sending module and

the information receiving module of the respective e-cigarettes; when the controller receives the

first detection information and the second detection information, it first judges whether the distance

between the information sending module and the information receiving module of the two

e-cigarettes is the same or within a preset proportion, and if so, it makes subsequent judgments.

6. The smart social e-cigarette according to claim 4, wherein if the controller judges that the

second time point when the information receiving module receives the second detection information is earlier than the first time point when the information receiving module receives the first detection information, it further judges the time difference between the second time point and the first time point, and controls the information sending module to send different types of first social information based on different time differences. 7. The smart social e-cigarette according to any one of claims 1 to 6, wherein the position of the cigarette body corresponding to the collision detection area is a recess. 8. The smart social e-cigarette according to claim 7, wherein the width of the recess is 1.2-1.5 times the width of the cigarette body.

9. The smart social e-cigarette according to claim 1, wherein it further comprises: a lamp body located on the cigarette body and connected to the controller; the controller controls the lamp body to perform the preset action when the obtained collision detection result of the collision detection area meets the second preset collision condition.

10. The smart social e-cigarette according to claim 1, wherein the controller controls the information sending module to send the first emergency rescue information when the obtained collision detection result of the collision detection area meets the third preset collision condition; the information receiving module is also used to receive the external second emergency rescue information.