CN203689071U - Electronic cigarette case and electronic cigarette case information management system - Google Patents

Abstract

The utility model discloses an electronic cigarette case and an electronic cigarette case information management system. The electronic cigarette case comprises an information transceiver module, a microprocessor and a sliding touch control module. The microprocessor is used for collecting at least one kind of the following data including personal information data, electronic cigarette case data and electronic cigarette data. The sliding touch control module is used for inducting a sliding touch signal of a user, and transmitting the sliding touch signal to the microprocessor. The microprocessor controls the information transceiver module to transmit the data collected by the microprocessor to an external electronic device according to the sliding touch signal. The beneficial effects are that the electronic cigarette case and the system can record all kinds of data related to smoking and transmits data. Thus, the external electronic device can help to analyze the data to obtain smoking habit of a user and provide beneficial help for the user to quit smoking. The electronic cigarette case and the system can conveniently and efficiently unload and share person information, facilitate information collection and social contact, and improve usage experience of the user.

Description

Electronic cigarette case and electronic cigarette case information management system

Technical Field

The utility model relates to an electron cigarette field, more specifically say, relate to an electron cigarette case and electron cigarette case information management system.

Background

The electronic cigarette is a popular electronic device in the market at present, and can assist smokers to quit smoking, so that the electronic cigarette is selected by more people who want to quit smoking. The electronic cigarette case is used for storing electronic cigarettes. For the electronic cigarette which can be charged and used for many times, after the electric quantity of the battery is used up, the built-in battery of the electronic cigarette case can be conveniently used for charging the electronic cigarette.

At present, the electronic cigarette case can only be used for storing the electronic cigarette, charging the electronic cigarette and the like, has a single function, and cannot meet more requirements of users.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to the defect of the above-mentioned electronic cigarette case function singleness of prior art, provide an electronic cigarette case and electronic cigarette case information management system.

The utility model provides a technical scheme that its technical problem adopted is: constructing an electronic cigarette case which comprises an information receiving and transmitting module, a microprocessor and a sliding touch module;

the information receiving and transmitting module and the sliding touch module are respectively connected with the microprocessor; the information receiving and transmitting module is in communication connection with external electronic equipment;

the microprocessor is used for collecting at least one of the following data: personal information data, electronic cigarette case data, electronic cigarette data;

the sliding touch control module is used for sensing a sliding touch signal of a user and transmitting the sliding touch signal to the microprocessor, and the microprocessor is used for controlling the information transceiver module to send data acquired by the microprocessor to the electronic equipment according to the sliding touch signal.

In one embodiment, the electronic cigarette case further comprises a prompt module connected with the microprocessor and used for sending out prompt information.

In one embodiment, the electronic cigarette pack further comprises an RFID card for storing the personal information data;

when the sliding touch module senses a sliding touch signal, the microprocessor controls the information transceiver module to send the personal information data stored in the RFID card to the electronic device.

In one embodiment, the electronic cigarette case further comprises a built-in battery charging management module and a battery pole charging management module which are respectively connected with the microprocessor;

and the microprocessor acquires the data of the electronic cigarette case through the built-in battery charging management module and the battery pole charging management module.

In one embodiment, the information transceiver module comprises a USB interface circuit, an I2C interface circuit, an RS232 interface circuit, an SPI interface circuit, an infrared interface circuit or a radio frequency interface circuit.

In one embodiment, the electronic cigarette case comprises a case body, wherein the case body is provided with an opening for installing the information transceiver module and an opening for installing the prompting module;

the microprocessor is arranged in the box body.

In one embodiment, the information transceiver module is a wifi module, a Zigbee module, a Bluetooth module, an RF module, or an NFC module.

An electronic cigarette case information management system comprising: the electronic cigarette box comprises an electronic cigarette box and an external electronic device in communication connection with the electronic cigarette box;

the electronic cigarette case comprises a microprocessor, an information receiving and transmitting module and a sliding touch module;

wherein the microprocessor collects at least one of the following data: personal information data, electronic cigarette case data, electronic cigarette data;

the sliding touch control module is used for sensing a sliding touch signal of a user and transmitting the sliding touch signal to the microprocessor, and the microprocessor is used for controlling the information receiving and transmitting module of the electronic cigarette case according to the sliding touch signal and transmitting data collected by the microprocessor to external electronic equipment.

In one embodiment, the electronic cigarette pack further comprises an alert module connected to the microprocessor for sending an alert message.

In one embodiment, the system further comprises: an electronic cigarette in communication connection with the electronic cigarette case;

the electronic cigarette comprises a microcontroller and a data transmission module connected with the microcontroller;

the microcontroller collects the data of the electronic cigarette and sends the data of the electronic cigarette to the electronic cigarette case through the data transmission module.

Implement the utility model discloses an electronic cigarette case and electronic cigarette case information management system has following beneficial effect: various data related to smoking can be recorded and transmitted, so that the data can be analyzed by means of electronic equipment to obtain the smoking habit of a user, and beneficial help is provided for the user to quit smoking; the information such as use and battery maintenance suggestions can be provided for the user, so that the service life of the battery is prolonged, and the use cost is saved for the user; personal information can be conveniently and quickly saved and shared, information collection and social contact are facilitated, and use experience of users is improved.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

fig. 1 is a block diagram of an electronic cigarette case according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an electronic cigarette case according to an embodiment of the present invention;

fig. 3 is a circuit diagram of a built-in battery charging management module according to an embodiment of the present invention;

fig. 4 is a circuit diagram of a battery pole charge management module according to an embodiment of the present invention;

fig. 5 is a block diagram of an electronic cigarette according to an embodiment of the present invention;

fig. 6 is a circuit diagram of an electronic cigarette according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of an electronic cigarette case information management system according to an embodiment of the present invention;

fig. 8 is a flowchart of an electronic cigarette box information management method according to an embodiment of the present invention.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a block diagram of an electronic cigarette box according to an embodiment of the present invention. The utility model discloses electronic cigarette case includes microprocessor 11 and information transceiver module 12. Preferably, the electronic cigarette box of the embodiment of the present invention further includes a memory 13, a charging interface 14, a prompting module 15, a built-in battery charging management module 16, a battery rod charging management module 17, an input module 18, a built-in battery 19, and a sliding touch module 101. The information transceiver module 12, the memory 13, the charging interface 14, the prompting module 15, the built-in battery charging management module 16, the battery pole charging management module 17, the input module 18, the built-in battery 19 and the sliding touch module 101 are all connected with the microprocessor 11. The built-in battery 19 is also connected to the built-in battery charge management module 16 and the battery pole charge management module 17. The information transceiver module 12 is communicatively connected to the external electronic device 2.

The microprocessor 11 is used for collecting at least one of the following data: personal information data, electronic cigarette case data, electronic cigarette data. Wherein the personal information data includes at least one of: name, age, contact. The electronic cigarette data at least comprises one of the following data: the time of collecting the smoking signal each time, the duration of the smoking signal collected each time, the voltage value of the smoking signal and the residual electric quantity of the power supply battery of the electronic cigarette. The data of the electronic cigarette box at least comprises one of the following data: the charging frequency of the electronic cigarette case, the discharging frequency of the electronic cigarette case, the charging and discharging capacity of the electronic cigarette case, the charging frequency of the electronic cigarette, the charging time interval of the electronic cigarette and the residual electric quantity of a battery in the electronic cigarette case.

The personal information data can be transmitted to the electronic cigarette box through the electronic device 2 and stored by the electronic cigarette box. Further, the personal information data may be set by the input module 18, written and stored by an RFID card, or the like.

The data of the electronic cigarette case (the charging times of the electronic cigarette case, the discharging times of the electronic cigarette case, the charging and discharging capacity of the electronic cigarette case, the charging times of the electronic cigarette, the charging time interval of the electronic cigarette, and the remaining capacity of the battery in the electronic cigarette case) are acquired by the microprocessor 11 through the built-in battery charging management module 16 and the battery pole charging management module 17.

The data of the electronic cigarette (the time of collecting the smoking signal each time, the duration of the smoking signal collected each time, the voltage value of the smoking signal, and the remaining capacity of the power supply battery of the electronic cigarette) are obtained by performing data interaction collection through the electronic cigarette 3.

The memory 13 may be a Flash memory chip or an EEPROM memory chip. The memory 13 is used for storing information such as personal information data, electronic cigarette box data, electronic cigarette data, the model number of a battery rod supported by the electronic cigarette box, and the specification of the battery rod. The specifications of the battery rod are, for example, 650mah, 900mah, 1100mah, etc. (mah is a unit of measurement of the battery capacity).

The sliding touch module 101 is configured to sense a sliding touch signal of a user and transmit the sliding touch signal to the microprocessor 11; the microprocessor 11 controls the information transceiver module 12 to send the data collected by the microprocessor 11 to the electronic device 2 according to the sliding touch signal, and the electronic device 2 analyzes and processes the data to obtain the use behavior data of the user. If the information transceiver module 12 transmits data in a wired manner, the information transceiver module 12 may be configured as a USB interface circuit, an I2C interface circuit, an RS232 interface circuit, or an SPI interface circuit, so that an external electronic device can be connected to the information transceiver module 12 of the electronic cigarette pack through a data line or the like to obtain data. If the information transceiver module 12 transmits data wirelessly, the information transceiver module 12 includes a transceiver circuit. The transceiver circuit includes an antenna, a filter circuit, an impedance matching circuit, and the like. The information transceiver module 12 may be a wifi module, a Zigbee module, a Bluetooth module, an NFC module, an infrared interface circuit, an RF module, or a radio frequency interface circuit that performs data transmission using frequencies of 315MHz, 433MHz, 900MHz, and the like.

In addition, the microprocessor 11 may also control the information transceiver module 12 to receive information sent by the electronic device 2 according to the sliding touch signal, for example: the information transceiver module 12 can receive the prompt information sent by the electronic device 2, and the microprocessor 11 controls the prompt module 15 to send out a prompt according to the prompt information.

The microprocessor 11 may be an MCU or a CPU, for example, a chip of model MSP430F5529 may be selected as the microprocessor.

In the embodiment of the present invention, the microprocessor 11 can also control the prompt module 15 to display the collected data (for example, the remaining capacity of the battery in the electronic cigarette box, the remaining capacity of the battery for supplying power to the electronic cigarette, etc.).

The utility model discloses electronic cigarette case accessible following communication process receives or sends personal information data: personal information data (including name, age, contact information, etc.) transmitted from the electronic device 2 is collected and stored. The electronic cigarette box transmits the personal information data to other devices (e.g., another electronic cigarette box, a mobile terminal, etc.) through the information transceiving module 12. Preferably, the electronic cigarette pack can utilize RFID technology for close range transmission of personal information data. Specifically, an RFID card may be provided in the electronic cigarette pack, and personal information data may be stored in the card. When the sliding touch module 101 senses a sliding touch signal, the microcontroller 11 controls the information transceiver module 12 to transmit the personal information data stored in the RFID card to the electronic device 2, so that the electronic device 2 can acquire the personal information data stored in the electronic cigarette packet. The RFID card arranged in the electronic cigarette case can be active RFID or passive RFID. In addition, the electronic cigarette box may also transmit the personal information data stored in the memory to the electronic device 2 by other means (e.g., wifi, bluetooth, etc.). Therefore, the utility model discloses but electronic cigarette case convenient and fast's realization personal information's unloading and sharing make things convenient for information collection and social contact, promote user's use and experience.

In the embodiment of the present invention, the sliding touch module 101 can adopt sliding touch chips of models such as BF6910A, BF6911A, BF6921A, and the like. The sliding touch signal may be a touch signal such as a point touch, a slider, or the like.

Fig. 2 is a schematic structural diagram of an electronic cigarette case according to an embodiment of the present invention. In fig. 2, 101 is a sliding touch module, and 102 is a receiving groove for receiving an electronic cigarette. The electronic cigarette case comprises an opening end used for taking and placing the electronic cigarette. The user can transmit and/or receive data by operating the sliding touch module 101. In the embodiment of the present invention, the sliding touch module 101 can be set to be used for sensing the sliding touch signal of the user toward the opening end of the electronic cigarette case, so that the effect of simulating the sending of data can be generated when the user slides toward the opening end. For example, when the device is used for sliding towards the opening end, the personal data information is sent to other electronic equipment, so that an image sending effect is generated, and the user experience is improved.

The utility model discloses electronic cigarette case still includes the box body, offers the opening that is used for installing USB interface circuit, I2C interface circuit, RS232 interface circuit, SPI interface circuit, infrared interface circuit or radio frequency interface circuit on the box body. And the box body is provided with an opening for installing the prompt module 15. The microprocessor 11 is arranged in the box body.

The following describes, with reference to fig. 3 and 4, a process of collecting the number of times of charging the electronic cigarette box, the number of times of discharging the electronic cigarette box, the charge/discharge capacity of the electronic cigarette box, the number of times of charging the electronic cigarette, the charging time interval of the electronic cigarette, and the remaining power of the battery in the electronic cigarette box.

Fig. 3 is a circuit diagram of a built-in battery charging management module according to an embodiment of the present invention. The internal battery charge management module 16 includes a charge management chip U1, model HB 6293A.

Referring to fig. 3, in the internal battery charging management module 16 according to the embodiment of the present invention: the first pin of the charge management chip U1 is connected to an I/O pin of the microprocessor 11 (e.g., the P6.4/CB4/A4 pin of a chip model MSP430F 5529); the second pin of the charge management chip U1 is connected to an I/O pin of the microprocessor 11 (e.g., the P6.7/CB7/A7 pin of a chip model MSP430F 5529); the third pin of the charging management chip U1 is grounded through a capacitor C3 and is connected to the positive electrode (i.e., the VCC terminal shown in fig. 3) of the external power supply 500 through a resistor R1; the fourth pin of the charging management chip U1 is connected with the gate of the MOS tube Q1; the fifth pin is grounded; the sixth pin of the charging management chip U1 is grounded through a capacitor C5; the seventh pin of the charging management chip U1 is connected to the positive electrode (i.e., the B + terminal shown in fig. 3) of the internal battery 19; the eighth pin of the charge management chip U1 is grounded through the capacitor C6 and connected to one end of the inductor L1; the ninth pin of the charging management chip U1 is grounded through a resistor R5; the tenth pin of the charge management chip U1 is connected to ground through a resistor R4. In addition, the VCC terminal of the external power supply 500 is connected to the anode of the diode D1 through the resistor R1; the cathode of the diode D1 is grounded through a capacitor C1 and a capacitor C2 respectively, and is connected with the source of the MOS transistor Q1; the drain of the MOS transistor Q1 is connected to one end of the inductor L1 and the cathode of the diode D2, and is grounded through the resistor R2 and the capacitor C4 connected in series; the other end of the inductor L1 is connected with the eighth pin of the charging management chip U1 and the positive electrode of the built-in battery 19 through a resistor R3.

The diode D1 is used to prevent the external power supply 500 from being reversed; the charging management chip U1 can control the on/off of the MOS transistor Q1 by controlling the output voltage of the fourth pin, so as to implement the functions of overvoltage protection and charging management. The first pin and the second pin of the charging management chip U1 are used to send signals of the built-in battery 700 being fully charged and being charged to the microprocessor 11, respectively, to implement charging management. Therefore, the microprocessor 11 can count the number of times of charging the electronic cigarette box by recording the number of times of the signal of full charge or charging sent by the charging management chip U1.

Referring to fig. 3, in the internal battery charging management module 16 according to the embodiment of the present invention: one end of the seventh resistor R6 is connected to the positive electrode of the internal battery 19, and the other end is connected to the first AD pin (for example, the P6.5/CB6/A6 pin of the MSP430F5529 chip) of the microprocessor 11 and one end of the resistor R7; one end of the resistor R7 is connected to the first AD pin of the microprocessor 11, and the other end is connected to the fifteenth pin of the microprocessor 11; one end of the capacitor C9 is connected to the first AD pin of the microprocessor 11, and the other end of the capacitor C9 is connected to one end of the resistor R7 and ground. One end of the capacitor C7 is connected with the positive electrode of the built-in battery 19, and the other end of the capacitor C7 is grounded; one end of the capacitor C8 is connected to the positive electrode of the internal battery 19, and the other end of the capacitor C8 is grounded. Therefore, the internal battery charging management module 16 of the embodiment of the present invention can provide a detection function for calculating the remaining power of the internal battery 19 of the electronic cigarette case and protecting the internal battery 19 from low voltage.

Specifically, the charging voltage of the built-in battery 19 is sampled through the voltage dividing resistors R6 and R7, and the residual capacity of the built-in battery 19 of the electronic cigarette case can be obtained according to the charging voltage. The memory 13 stores a correspondence relationship between the remaining capacity and the charging voltage value in advance. After detecting the charging voltage of the built-in battery 19 of the electronic cigarette case, the microprocessor 11 queries and obtains the corresponding residual capacity according to the charging voltage value.

Fig. 4 is a circuit diagram of a battery pole charging management module according to an embodiment of the present invention. OUT + and OUT-in FIG. 4 are the two terminals of the charging interface 14. The utility model discloses battery pole charge management module 17 includes chip U2, triode Q2, triode Q3, diode D3 that steps up. The model of the boost chip U2 is CP 2121. The first pin of the boost chip U2 is SW pin, the second pin is GND pin, the third pin is FB pin, and the fourth pin is

The pin, the fifth pin are OVP pins, and the sixth pin is VIN pin. Wherein,

the pin is connected with an I/O pin (for example, a P6.6/CB6/A6 pin of a chip with the model of MSP430F 5529) of the microprocessor 11 and is connected with the base electrode of a triode Q3 through a resistor R10; the base of the triode Q3 is also grounded through a resistor R9; the emitter of the triode Q3 is grounded; the collector of the triode Q3 is connected with the gate of the MOS transistor Q2, and is connected with the source of the MOS transistor Q2 and the positive electrode (i.e., the B + terminal) of the internal battery 19 through the resistor R8; the drain electrode of the MOS transistor Q2 is connected with a VIN pin of a boosting chip U2 and is connected with one end of an inductor L2 through a resistor R11; one end of the inductor L2 is connected with the SW pin of the boosting chip U2 and the anode of the diode D3; the cathode of the diode D3 is connected with one end of the capacitor C10 and the OUT + end; one end of the resistor R13 is connected with the cathode and the OUT + end of the diode D3, and the other end is connected with the FB pin of the boosting chip U2 and one end of the resistor R12; the other end of the resistor R12 is grounded; another of the capacitor C10One end is grounded; the GND pin of the boosting chip U2 is grounded; one end of the capacitor C11 is grounded, and the other end of the capacitor C11 is connected with the cathode of the diode D3 and the OUT + end; one end of the capacitor C12 is grounded, and the other end of the capacitor C12 is connected to the cathode of the diode D3 and the OUT + terminal. The OUT-terminal is connected to ground.

When in contact with

When the pin-connected I/O pin of the microprocessor 11 outputs a high level, the transistor Q3 is turned on, the MOS transistor Q2 is turned on, and the boost chip U2

The pin is at a high level, and the boost chip U2 starts to operate to boost the charging voltage of the internal battery 19 and then charge the electronic cigarette inserted into the charging interface 14. When in contact with

When the pin-connected I/O pin of the microprocessor 11 outputs a low level, the transistor Q3 is turned off, the MOS transistor Q2 is turned off, and the boost chip U2

The pin is low, the boost chip U2 is not active (i.e., turned off), and charging of the e-cigarette is stopped.

The microprocessor 11 controls and

the pin-connected I/O pin outputs a high level or a low level, so that the transistor Q3 and the MOS transistor Q2 in the voltage boost circuit 302 are turned on or off to charge the electronic cigarette or stop charging the electronic cigarette.

In the embodiment of the present invention, the microprocessor 11 controls andpin connected I/O pin output high levelOr the low level may be achieved in one of two ways:

(1) when the electronic cigarette is inserted into the charging interface 14, that is, when the power supply battery of the electronic cigarette is connected to the charging interface 14, the charging path is turned on, and the microprocessor 11 controls and controls the electronic cigarette

The pin-connected I/O pin outputs a high level to initiate the charging process, otherwise outputs a low level.

(2) The electronic cigarette case is provided with a detection module which is respectively connected with the microprocessor 11 and the charging interface 14 and is used for detecting that the electronic cigarette is inserted into or pulled out of the charging interface. For example, the detection module may be a hall sensor, and when the electronic cigarette is inserted into the charging interface 14, the hall sensor sends a signal to the microprocessor 11, and the microprocessor 11 controls and controls the electronic cigarette

The pin-connected I/O pin outputs a high level to initiate the charging process. It should be understood that the detection module may also be other elements (e.g., pressure sensors, etc.) as long as the detection function is achieved.

Thus, the microprocessor 11 can control and operate each time the start of the charging process is detected

When the I/O pin connected to the pin outputs a high level), one count is performed, thereby obtaining the number of times the electronic cigarette is charged. In addition, the microprocessor 11 may obtain the charging time interval of the electronic cigarette by recording the time when the charging process is detected to start each time and performing a difference operation on the time when the charging process is detected to start each time.

In the second mode, the detection module can count the times of the electronic cigarette case being pulled out by the electronic cigarette by detecting the electronic cigarette being inserted into or pulled out of the charging interface.

In addition, the charging and discharging capacity of the electronic cigarette case can be calculated according to the magnitude of the charging current (the current for constant current charging of the power supply battery of the electronic cigarette) and the charging time.

Therefore, the utility model discloses the electronic cigarette case can acquire the residual capacity of built-in battery 19, the number of times of charging of electronic cigarette case, the number of times of discharging of electronic cigarette case, the number of times of charging of electronic cigarette, the electronic cigarette charge time interval and the charge-discharge capacity of electronic cigarette case through built-in battery charge management module 16 and battery pole charge management module 17. The charging times of the electronic cigarette are equal to the discharging times of the electronic cigarette case. After obtaining the data, the microprocessor 11 can control the prompt module 15 to perform processing such as displaying the data, so that the user can clearly know the proper data such as the residual capacity and the charging frequency of the built-in battery.

The following describes, with reference to fig. 5 and fig. 6, the time of each smoking signal acquisition, the duration of each smoking signal acquisition, the voltage value of the smoking signal, and the remaining capacity of the power supply battery of the electronic cigarette.

Fig. 5 is a block diagram of an electronic cigarette according to an embodiment of the present invention. The utility model discloses electron cigarette 3 includes: microcontroller 31, data transmission module 32, smoking signal detection module 33, memory 34, heating wire 35, power supply battery 36, switch circuit 37. The power supply battery 36, the smoking signal detection module 33, the memory 34, the data transmission module 32 and the switch circuit 37 are all connected with the microcontroller 31. The switch circuit 37 is also connected to the power supply battery 36 and the heating wire 35, respectively. The microcontroller 31 controls the on and off of the switching circuit 37, and when the switching circuit 37 is turned on, the power supply battery 36 supplies power to the heating wire 35, and when the switching circuit 37 is turned off, the power supply battery 36 stops supplying power to the heating wire 35.

The smoking signal detection module 33 is used for detecting a smoking signal and transmitting the smoking signal to the microcontroller 31. The smoking signal detection module 33 is a sensor or an input module. The input module can be a key input module or a touch screen input module. The sensor can adopt an air pressure sensor or an air flow sensor and the like.

The microcontroller 31 is configured to record, after receiving the smoking signal of the smoking signal detection module, a time for acquiring the smoking signal each time and a duration of the smoking signal acquired each time.

Wherein, the duration of the smoking signal collected each time is the duration of each smoking. The time interval between every two smoking signals is the smoking interval. The number of times the microcontroller 31 acquires the smoking signal is the number of smoking openings. In addition, the number of the smoking openings can also be calculated according to the residual capacity of the battery built in the electronic cigarette and the consumed capacity of each time (per opening) of smoking. The electric quantity consumed by each (mouth of) smoking corresponds to the specification of the electronic cigarette.

If the smoking signal detection module 33 is an air pressure sensor, the number of deep puffs and the number of shallow puffs can be obtained by the magnitude of the voltage signal (i.e., the voltage value of the smoking signal) of the air pressure sensor. Specifically, a voltage value is preset, the voltage value of the smoking signal is compared with the preset voltage value, and if the voltage value is larger than the preset voltage value, the deep smoking is judged, otherwise, the shallow smoking is judged. This makes it possible to obtain the number of deep draws and the number of shallow draws. It should be understood that the number of deep draws, the number of light draws, etc. may be calculated by the microcontroller 31 of the electronic cigarette and sent to the electronic cigarette case, and sent to the external electronic device by the electronic cigarette case, or calculated by the electronic device according to the voltage value of the smoking signal.

The memory 34 is used for storing the electronic cigarette data. The memory 34 may be a Flash memory chip or an EEPROM memory chip.

And a data transmission module 32 for transmitting the smoking data stored in the memory 34 and the remaining power of the power supply battery to an external device (e.g., an electronic cigarette pack). Specifically, the data transmission module 32 may be in communication connection with the information transceiver module 12 of the electronic cigarette case 1 to transmit the electronic cigarette data to the electronic cigarette case 1. The electronic cigarette case 1 stores the electronic cigarette data after receiving the electronic cigarette data, and sends the electronic cigarette data to the electronic device 2 and other devices through the information transceiver module 12 as required.

The data collection and transmission process of the e-cigarette will be described in detail with reference to fig. 6. Fig. 6 is a circuit diagram of an electronic cigarette according to an embodiment of the present invention. The microcontroller 31 is model SN8P 2711. The smoking signal detection module 33 is an air pressure sensor. The switching circuit 37 includes a MOS transistor Q01. Wherein, the first pin (VDD pin) of the microcontroller 31 is grounded through the filter capacitor C02; the first pin (i.e. power supply input) of the microcontroller 31 is also connected to the positive pole of the power supply battery 36; a second pin (P0.2/Xout pin) of the microcontroller 31 is connected to the output of the air pressure sensor 33; a third pin (P0.4/RST/Vpp pin) of the microcontroller 31 is connected to one end of the resistor R03 and the drain of the MOS transistor Q01; the other end of the resistor R03 is connected with the positive electrode of the power supply battery 36; the fourth pin (P5.3/BZ1/PWM1 pin) of the microcontroller 31 is connected with the gate of the MOS transistor Q01; a ninth pin (pin P4.4/AIN 4) of the microcontroller 31 is connected with the drain of the MOS transistor Q01; the tenth pin (VSS pin) of the microcontroller 31 is grounded; the source electrode of the MOS tube Q01 is connected with the negative electrode of the power supply battery 36; the power supply end of the air pressure sensor 33 is connected with the positive electrode of the power supply battery 36, and the grounding end is grounded; one end of the heating wire 35 is connected to the positive electrode of the power supply battery 36, and the other end is connected to the drain of the MOS transistor Q01.

By detecting the voltage at the first pin of the microcontroller 31, the supply voltage of the supply battery 36 can be obtained. The correspondence relationship between the remaining power amount and the power supply voltage value is stored in advance in the memory 34 (not shown in fig. 6). After the microcontroller 31 detects the power supply voltage, the remaining power of the corresponding power supply battery is obtained by querying according to the power supply voltage value.

Because the second pin of the microcontroller 31 is connected to the output end of the air pressure sensor 33, the time of the voltage signal received by the second pin of the microcontroller 31 is the time of acquiring the smoking signal, the duration of the voltage signal is the duration of the smoking signal acquired each time, and the deep pumping or the shallow pumping can be determined according to the magnitude of the voltage signal. Therefore, the length of each smoking, the number of the smoking openings, the deep smoking times, the shallow smoking times and the smoking intervals can be obtained.

In the embodiment of the present invention, the data transmission module 32 is connected to the microcontroller 31 for transmitting the data of the electronic cigarette to the external device. The data transmission module 32 may be a wifi module, a Zigbee module, a Bluetooth module, an NFC module, an infrared interface circuit, or a radio frequency interface circuit, etc. The radio frequency interface circuit can adopt 315MHz, 433MHz or 900MHz frequency to transmit data. The data transmission module 32 may also be a USB interface circuit, an I2C interface circuit, an RS232 interface circuit, an SPI interface circuit, etc.

It should be understood that the microcontroller 31 of the embodiment of the present invention may also adopt a chip with model number MSP430F 5529.

In the embodiment of the present invention, the electronic cigarette 3 can transmit the electronic cigarette data to the electronic cigarette case 1, and the electronic cigarette case 1 performs further processing. Preferably, a USB interface circuit for both charging and data transmission can be provided on the electronic cigarette case 1. When the electronic cigarette 3 is inserted into the interface, data transmission can be performed, so that the electronic cigarette data can be transmitted to the electronic cigarette case 1. Thus, the electronic cigarette packet 1 can acquire electronic cigarette data.

The utility model discloses various data relevant with the smoking can be gathered and recorded to the electronic cigarette case to data transmission, from this, can carry out the analysis with the help of outside electronic equipment to data, obtain user's smoking habit, provide useful help for the user quits smoking. The analysis process of the data by the external electronic device will be specifically described below.

Fig. 7 is a schematic structural diagram of an electronic cigarette case information management system according to an embodiment of the present invention. The system comprises: the electronic cigarette case 1 and an external electronic device 2 which is connected with the electronic cigarette case 1 in a communication way.

The electronic cigarette case 1 comprises a microprocessor 11, an information transceiver module 12 and a sliding touch module 101. Wherein, the microprocessor 11 collects at least one of the following data: personal information data, electronic cigarette case data, electronic cigarette data; the sliding touch module 101 senses a sliding touch signal of a user and transmits the sliding touch signal to the microprocessor 11, and the microprocessor 11 controls the information transceiver module 12 of the electronic cigarette box according to the sliding touch signal to transmit data collected by the microprocessor 11 to the external electronic device 2 and/or receive data transmitted by the external electronic device 2.

The external electronic device 2 performs statistical analysis on the received data, and may also transmit the result of the statistical analysis to a related device (e.g., a designated mobile terminal, computer, etc.), or generate prompt information according to the result of the statistical analysis and transmit the prompt information to the related device.

The utility model discloses electronic cigarette case information management system still includes: and the electronic cigarette 3 is in communication connection with the electronic cigarette case 1. The electronic cigarette 3 collects the electronic cigarette data and sends the electronic cigarette data to the electronic cigarette case 1. The electronic cigarette data includes: the time of collecting the smoking signal each time, the duration of the smoking signal collected each time, the voltage value of the smoking signal and the residual electric quantity of the power supply battery of the electronic cigarette.

The embodiment of the present invention provides a statistical analysis performed by the electronic device 2, including: and comparing the received data with a preset threshold value of the data, and acquiring the use behavior data of the user according to the received data.

By comparing the received data with the preset threshold of the data, it can be analyzed whether each data is within a preset range, for example, the number of charging times of the electronic cigarette box is preset to be 100 times, and when the number of charging times of the electronic cigarette box is greater than 100 times, a prompt message can be sent to the electronic cigarette box 1. The electronic cigarette package 1 includes a reminder module 15. The information transceiver module 12 receives the prompt information, and the prompt module 15 displays the prompt information sent by the electronic device 2 and/or sends a prompt according to the prompt information to inform the user.

Furthermore, the utility model discloses a prompt message of embodiment still includes the residual capacity of built-in battery 19, the number of times of charging of electron cigarette case, the number of times of discharging of electron cigarette case, the number of times of charging of electron cigarette, electron cigarette charging time interval, the charge-discharge capacity of electron cigarette case, charge instruction etc.. The prompt module 15 issues a prompt according to the information.

The usage behavior data includes at least one of: the number of smoking openings in preset time, the smoking duration of each time, the deep smoking times, the shallow smoking times, the smoking intervals, the charging and discharging times of the built-in battery of the electronic cigarette case and the charging and discharging times of the power supply battery of the electronic cigarette. The number of the smoking openings in the preset time is obtained according to the time of acquiring the smoking signal in each time in the electronic cigarette data. Specifically, for example, if the preset time is 1 hour (12: 00 to 13:00), the number of smoking ports in the 1 hour can be obtained according to the time of acquiring the smoking signal each time. The acquisition of the smoking time length is carried out according to the following modes: a time length is preset, and when the interval between two times of smoking signals is longer than the preset time length, another smoking is represented. Therefore, the smoking duration can be obtained according to the time of acquiring the smoking signal every time and the preset duration. The smoking interval is obtained according to the time of acquiring smoking signals at two intervals. The deep drawing times and the shallow drawing times are acquired in the following mode: and presetting a voltage value, comparing the voltage value of the smoking signal with the preset voltage value, judging that the deep pumping is carried out when the voltage value is larger than the preset voltage value, and otherwise, judging that the shallow pumping is carried out.

In the embodiment of the present invention, when the external electronic device 2 receives the data sent by the electronic cigarette box 1, it performs analysis processing to provide useful information for the user to stop smoking. Specifically, the deep pumping and the shallow pumping are related to the power supply voltage and are also related to the smoking fluid inhaled by the user, so that the statistics of the deep pumping times and the shallow pumping times can provide support for the user to know the smoking habit of the user and adjust the smoking so as to be beneficial to health. The number of the smoking openings in the preset time, the smoking time and the smoking interval are related to the use frequency of the user, so that the user can know the use condition of the user and support for adjusting the use frequency by counting the three data. The service conditions of the built-in battery and the power supply battery are analyzed according to the charging frequency of the electronic cigarette case and the discharging frequency of the electronic cigarette case (as well as the charging and discharging capacity of the electronic cigarette case, the charging frequency of the electronic cigarette, the charging time interval of the electronic cigarette, the residual electric quantity of the built-in battery of the electronic cigarette case, the residual electric quantity of the power supply battery of the electronic cigarette and the like), the service life of the battery and the like can be further obtained, information such as use and battery maintenance suggestions and the like is provided for a user, the service life of the battery is prolonged, and the use cost is saved for.

Fig. 8 is a flowchart of an information management method for an electronic cigarette package according to an embodiment of the present invention. The method comprises the following steps:

step S01, the microprocessor of the electronic cigarette case collects at least one of the following data: personal information data, electronic cigarette case data, electronic cigarette data.

And S02, the sliding touch module of the electronic cigarette case senses a sliding touch signal of a user and transmits the sliding touch signal to the microprocessor, and the microprocessor controls the information transceiver module of the electronic cigarette case according to the sliding touch signal to send data collected by the microprocessor to external electronic equipment.

The utility model discloses electronic cigarette case information management method still includes: the external electronic equipment performs statistical analysis on the received data and sends the statistical analysis result to the related equipment, or generates prompt information according to the statistical analysis result and sends the prompt information to the related equipment; wherein the statistical analysis comprises: comparing the received data with a preset threshold value of the data, and acquiring the use behavior data of a user according to the received data; the usage behavior data includes at least one of: the number of smoking openings in preset time, the smoking duration of each time, the deep smoking times, the shallow smoking times, the smoking intervals, the charging and discharging times of the built-in battery of the electronic cigarette case and the charging and discharging times of the power supply battery of the electronic cigarette.

The utility model discloses electronic cigarette case information management method still includes: the information receiving and sending module of the electronic cigarette case receives the prompt information; and a prompt module of the electronic cigarette case displays the prompt information and/or sends out a prompt.

The utility model discloses electronic cigarette case information management method of embodiment: the microcontroller of the electronic cigarette collects data of the electronic cigarette and sends the data of the electronic cigarette to the electronic cigarette case through the data transmission module of the electronic cigarette.

The utility model discloses electronic cigarette case information management method of embodiment: storing the personal information data into the RFID card; when the sliding touch control module senses a sliding touch signal, the microprocessor controls the information receiving and sending module to send personal information data stored in the RFID card to the electronic equipment.

The electronic cigarette case and the electronic cigarette case information management system of the embodiment of the utility model can realize the data transmission between the electronic cigarette case and the external electronic equipment, so as to send the data reflecting the smoking habit of the user to the external equipment; the external equipment can send the result to the electronic cigarette case after performing statistical analysis on the data, and the electronic cigarette case displays or sends prompt information, so that a user can master the use condition and smoking condition of the user through the electronic cigarette case; and can provide information such as use and battery maintenance suggestions and the like for users, so as to prolong the service life of the battery and save the use cost for the users; on the other hand, through the utility model discloses electronic cigarette case can realize convenient and fast's unloading, share personal information, makes things convenient for information collection and social contact, promotes user's use and experiences.

It should be understood that, in the above embodiments of the present invention, the electronic device 2 may be a hardware device with various operating systems, such as a mobile phone, a tablet computer, a personal digital assistant, and a desktop computer.

While the embodiments of the present invention have been described with reference to the accompanying drawings, the present invention is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many modifications may be made by one skilled in the art without departing from the spirit and scope of the present invention as defined in the appended claims.

Claims (10)

1. An electronic cigarette case is characterized by comprising an information transceiving module, a microprocessor and a sliding touch module;

the information receiving and transmitting module and the sliding touch module are respectively connected with the microprocessor; the information receiving and transmitting module is in communication connection with external electronic equipment;

the microprocessor is used for collecting at least one of the following data: personal information data, electronic cigarette case data, electronic cigarette data;

the sliding touch control module is used for sensing a sliding touch signal of a user and transmitting the sliding touch signal to the microprocessor, and the microprocessor is used for controlling the information transceiver module to send data acquired by the microprocessor to the electronic equipment according to the sliding touch signal.

2. The electronic cigarette package of claim 1, further comprising a reminder module coupled to the microprocessor for sending a reminder message.

3. The electronic cigarette package of claim 1, further comprising an RFID card for storing the personal information data;

when the sliding touch module senses a sliding touch signal, the microprocessor controls the information transceiver module to send the personal information data stored in the RFID card to the electronic device.

4. The electronic cigarette package of claim 1, further comprising a built-in battery charge management module and a battery stick charge management module respectively connected to the microprocessor;

and the microprocessor acquires the data of the electronic cigarette case through the built-in battery charging management module and the battery pole charging management module.

5. The e-cigarette pack of any one of claims 1-4, wherein the messaging module comprises a USB interface circuit, an I2C interface circuit, an RS232 interface circuit, an SPI interface circuit, an infrared interface circuit, or a radio frequency interface circuit.

6. The electronic cigarette case according to claim 5, wherein the electronic cigarette case comprises a case body, the case body is provided with an opening for installing the information transceiver module and an opening for installing the prompt module;

the microprocessor is arranged in the box body.

7. The electronic cigarette case of any one of claims 1-4, wherein the information transceiver module is a wifi module, a Zigbee module, a Bluetooth module, an RF module, or an NFC module.

8. An electronic cigarette case information management system, comprising: the electronic cigarette box comprises an electronic cigarette box and an external electronic device in communication connection with the electronic cigarette box;

the electronic cigarette case comprises a microprocessor, an information receiving and transmitting module and a sliding touch module;

wherein the microprocessor collects at least one of the following data: personal information data, electronic cigarette case data, electronic cigarette data;

the sliding touch control module is used for sensing a sliding touch signal of a user and transmitting the sliding touch signal to the microprocessor, and the microprocessor is used for controlling the information receiving and transmitting module of the electronic cigarette case according to the sliding touch signal and transmitting data collected by the microprocessor to external electronic equipment.

9. The electronic cigarette pack information management system of claim 8, wherein the electronic cigarette pack further comprises an alert module coupled to the microprocessor for emitting an alert.

10. The electronic cigarette pack information management system of claim 8, further comprising: an electronic cigarette in communication connection with the electronic cigarette case;

the electronic cigarette comprises a microcontroller and a data transmission module connected with the microcontroller;

the microcontroller collects the data of the electronic cigarette and sends the data of the electronic cigarette to the electronic cigarette case through the data transmission module.

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