KR101345358B1 - Control unit controlling atomization and portable apparatus of atomization having the same - Google Patents

Abstract

The portable atomization device according to the present invention includes a battery case, an atomizer, a body case, a control unit, and a suction amount control unit. The battery case houses a battery, and the atomizer includes a heating member electrically connected to the battery to generate heat to atomize the source material. The body case is coupled with the battery case and the atomizer between the battery case and the atomizer. In addition, the controller is accommodated in the body case and electrically connected to the battery and the heating member, and receives power from the battery to control the output signal output to the heating member side. In addition, the intake amount adjusting unit opens or shields an air inlet from the outside to the atomizer side to adjust the amount of air introduced into the atomizer side.

Description

Control unit controlling atomization and portable apparatus of atomization having the same

The present invention relates to a portable atomization device, and more particularly, to a atomization control unit for controlling atomization of source material and a portable atomization device having the same.

The portable atomizing device is developed to be easy to carry, and is used as a means for a person to inhale the mist generated in the portable atomizing device to satisfy palatability or to achieve some other purpose. An example of a portable atomization device may be an electronic cigarette, which is used as a means to replace smoking or to assist in quitting smoking. Since the e-cigarette has properties similar to those of ordinary cigarettes, the user may feel the inhalation of the electronic cigarette by smoking the electronic cigarette.

For the purpose of use of the portable atomizing device described above, other factors that determine palatability may include conditions in which the atomizer atomizes the source material, in addition to the material added to the source material. That is, even if the same source material is atomized, when the conditions for atomizing the source material by the portable atomizing device are different, the taste, aroma, and the feeling of inhalation that the user feels while inhaling the mist may be changed. In this case, there may be a case where a user replaces consumable parts such as an atomizer, a cartridge, and a battery, and thus, a problem may arise in that the user additionally costs the use of the portable atomization device.

The technical problem to be achieved by the present invention is to provide an atomization control unit capable of actively controlling atomization conditions in the inhalation of fumes and controlling atomization performance in response to various source components.

Another technical problem to be solved by the present invention is to provide a portable atomizing device including the atomization control unit having the above-described advantages.

In the atomization control unit of a portable atomizing device including an atomizer having a heating member for heating a source material and a battery case accommodating a battery, the atomization control unit for solving the above-described problems of the present invention includes a body case and a control unit. And a suction amount adjusting unit.

The body case is coupled to the battery case on one side, and coupled to the atomizer on the other side. The control unit is accommodated in the body case and electrically connected to the battery and the heating member, and receives a power supply voltage from the battery to control an output signal output to the heating member. In addition, the suction amount control unit adjusts the amount of air introduced into the atomizer side by opening or shielding the air inlet port from the outside to the atomizer side.

The portable atomizing device for solving the above-described technical problem of the present invention includes a battery case, an atomizer, a body case, a control unit, and a suction amount adjusting unit. The battery case houses a battery, and the atomizer includes a heating member electrically connected to the battery to generate heat to atomize the source material. The body case is coupled with the battery case and the atomizer between the battery case and the atomizer.

In addition, the controller is accommodated in the body case and electrically connected to the battery and the heating member, and receives power from the battery to control the output signal output to the heating member side. In addition, the intake amount adjusting unit opens or shields an air inlet from the outside to the atomizer side to adjust the amount of air introduced into the atomizer side.

According to the present invention, the power provided to the heating member side can be kept constant by adjusting the output signal according to the magnitude of the power supply voltage of the battery or the resistance of the heating member. Therefore, the problem that the heating member is disconnected by high power, the mist amount of the portable atomizing device is reduced, or the fragrance and taste of the mist changes as the power decreases can be solved.

Further, according to some embodiments of the present invention, the user may directly control the output signal according to the user's preference. Accordingly, the user can select a mist condition more suitable for his / her preference by the user's operation.

In addition, it is possible to easily adjust the amount of outside air mixed with the atomized source material using the intake amount control unit. Therefore, the user can easily adjust the mist amount by using the suction amount adjustment unit.

In addition, the printed circuit board of the controller may be fastened to the coupling groove of the body case to support the display unit and the switch mounted thereon, and may be directly or indirectly contacted with the battery and the output terminals to be electrically connected to each other. Therefore, the effect that the circuit configuration and mechanical assembly of the portable atomizing device can be easily produced without a separate connecting member or coupling member.

Therefore, it may have an environmentally friendly characteristic according to the exclusion of harmful substances such as lead, and the manufacturing process may be simplified, thereby reducing the manufacturing cost.

In addition, the user may drive the portable atomization device by using a touch type switch such as an electric switch. Therefore, when the portable atomizing device is applied to the electronic cigarette, the portable atomizing device can be driven by simply holding the body of the portable atomizing device on which the electric shock switch is placed, even if the portable atomizing device is not pressed like a normal button. Can be improved.

1A is an exploded perspective view of a portable atomizing device according to an embodiment of the present invention.
FIG. 1B is a front view of the portable atomization device shown in FIG. 1A.
FIG. 2A is a cross-sectional view illustrating a portion cut along line II ′ in FIG. 1B.
FIG. 2B is an enlarged view of the suction amount adjusting unit illustrated in FIG. 1A.
FIG. 2C is a view illustrating an operation of the suction amount adjusting unit illustrated in FIG. 2B.
3 is a cross-sectional view illustrating a portion cut along II-II ′ of FIG. 2C.
4A and 4B are enlarged views of information displayed on the display unit illustrated in FIG. 1A.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The embodiments of the present invention are described in order to more fully explain the present invention to those skilled in the art, and the following embodiments may be modified into various other forms, It is not limited to the embodiment. Rather, these embodiments are provided so that this disclosure will be more faithful and complete, and will fully convey the scope of the invention to those skilled in the art.

In the drawings, the thickness and size of each layer are exaggerated for convenience and clarity of description, and the same reference numerals refer to the same elements in the drawings. As used herein, the term "and / or" includes any and all combinations of one or more of the listed items.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the singular forms "a," "an," and "the" include singular forms unless the context clearly dictates otherwise. Also, " comprise "and / or" comprising "when used herein should be interpreted as specifying the presence of stated shapes, numbers, steps, operations, elements, elements, and / And does not preclude the presence or addition of one or more other features, integers, operations, elements, elements, and / or groups.

Hereinafter, embodiments of the present invention will be described with reference to the drawings schematically showing ideal embodiments of the present invention. In the drawings, for example, the size and shape of the members may be exaggerated for convenience and clarity of description, and in actual implementation, variations of the illustrated shape may be expected. Accordingly, embodiments of the present invention should not be construed as limited to the specific shapes of the regions shown herein.

FIG. 1A is an exploded view of a portable atomizing device 200 according to an embodiment of the present invention, and FIG. 1B is a front view of the portable atomizing device 200 shown in FIG. 1A.

1A and 1B, the portable atomizer 200 atomizes source material to generate mist, and the user inhales the mist as a means for achieving a predetermined purpose such as a person's preference or treatment. Device. For example, the portable atomizer 200 may be used to replace smoking of general cigarettes, such as electronic cigarettes, in which case the source material may be a liquid material including nicotine. However, the portable atomization device 200 of the present invention is not limited to the embodiment of the electronic cigarette. For example, the portable atomizer 200 may be applied to a smoking cessation device that generates mist by atomizing a liquid material that does not contain nicotine, and health that atomizes a source material containing health-effective ingredients such as herbal extracts. It may also be applied as an auxiliary device. Alternatively, by atomizing and inhaling a source material containing a pharmacologically active effect on respiratory diseases such as bronchitis and pneumonia, for example, bentorin or pulcancan, the portable atomizer 200 may also be used for treatment. May be used. These examples are merely illustrative, and the present invention is not limited thereto, and it is apparent that the use of the portable atomizing device 200 may be changed depending on the components of the source material.

The portable atomizer 200 includes a battery case 150, a battery cap 190, an atomizer 50, a suction mouthpiece 10, and an atomization control unit (ACU). The battery case 150 may have a hollow hollow shape to accommodate the battery BT. In some embodiments, the interior of the battery case 150 may have a structure in communication with the body case 110 of the atomization control unit (ACU) such that the electrodes of the exposed battery BT, for example the anode, are directly atomized. In contact with the electrode pad provided in the control unit (ACU) it can be electrically connected. In this case, the other electrode of the battery BT, for example, the negative electrode, contacts the battery case 150, so that the body case 110 and the battery case 150 of the atomization control unit ACU are fastened. It can be electrically connected to the control unit (ACU) to form a circuit. However, this is exemplary and the battery BT may be concealed in the battery case 150. In some embodiments, one end of battery case 150 may be covered by battery cap 190.

In some embodiments, portions of the battery case 150, the battery cap 190, and the body case 110 that are fastened to each other may be formed with threads to be coupled to each other. Accordingly, the user can easily detach and combine the battery case 150 or the battery cap 190 from the portable atomization device 200, so that the user may periodically replace the battery BT at the end of life.

The atomization control unit (ACU) includes a controller (100 in FIG. 2A) having a body case 110 and a display unit 90, and a suction amount adjusting unit 80. The body case 110 has a hollow shape, the inside thereof communicates with the battery case 150, and accommodates a control unit (100 of FIG. 2A) therein. 1A and 1B, the display unit 90 is shown among the components of the controller, and the display unit 90 is exposed to the outside through an opening formed in a part of the body case 110. The display unit 90 may include a self-light emitting or non-light emitting display device such as a liquid crystal, an organic light emitting device, and a vacuum fluorescent display.

Suction amount adjusting unit 80 is coupled to one end of the body case 110, the air inlet for communicating with the outside and the atomizer 50 in the state in which the body case 110 and the atomizer 50 (Fig. 2a Open or shield H2). Therefore, the amount of mist that is atomized in the atomizer 50 and discharged to the outside through the suction mouthpiece 10 may be changed according to a state in which the suction amount adjusting unit 80 opens or shields the air inlet.

In some embodiments, the suction amount adjusting unit 80 may have a ring shape that is coupled to an end of the body case 110 in which the air inlet is formed. In this case, the suction amount adjusting unit 80 may move in the long axis direction at the end of the body case 110 to open or shield the inlet while passing over the air inlet. The structure and function of the above-described suction amount adjusting unit 80 will be described later in more detail with reference to FIGS. 2B and 2C.

The atomizer 50 is coupled to the atomization control unit (ACU) to face the battery case 150 with the atomization control unit (ACU) in between. The atomizer 50 is electrically connected to the battery BT through the atomization control unit ACU, and atomizes the source material to generate mist. In some embodiments, the atomizer 50 may be coupled with the atomization control unit (ACU) through a threaded engagement portion 40 on its inner surface, such that the user may attach the atomizer 50 to the portable atomizer 200. It can be easily removed and replaced from. Therefore, when the performance of the atomizer 50 decreases with the use of a long time, a user can replace the atomizer 50 easily.

Suction mouthpiece 10 is coupled to one end of the atomizer 50, the mist generated in the atomizer 50 may be discharged to the outside through the suction mouthpiece (10). That is, the user may suck the mist generated in the atomizer 50 through the suction mouthpiece 10. In some embodiments, the suction mouthpiece 10 may be formed of a material having excellent durability, such as a metal material, or may be formed of a material having flexibility, such as a silicone polymer resin, to improve a user's feeling of use. Hereinafter, the internal structure of the portable atomizer 200 will be described in more detail with reference to FIGS. 2A and 2B.

FIG. 2A is a cross-sectional view illustrating a portion cut along the line II ′ of FIG. 1B, and FIG. 2B is an enlarged view of the suction amount adjusting unit 80 shown in FIG. 1A, and FIG. 2C is shown in FIG. 2B. It is a figure for demonstrating the function of the suction amount adjustment part 80. FIG. Reference may be made to the above-described disclosure as long as there is no contradiction with respect to components shown with the same reference numerals as those of the previous figures.

2A to 2C, the body case 110 of the atomization control unit (ACU) includes an output terminal 88 and a first coupling part 115. The output terminal 88 is disposed at a portion where the body case 110 and the atomizer 50 are connected, and receives power from the controller 100.

The first coupling part 115 extends from one end of the body case 110 toward the atomizer 50, and has a hollow shape in which an upper portion thereof is opened to surround the output terminal 88. Part of the output terminal 88 may be exposed through the first coupling unit 115. In addition, one or a plurality of (at least one or more) air inlets H2 communicating with the outside are formed on the sidewall of the first coupling part 115, and the second coupling part 40 of the atomizer 50 is formed on an inner surface thereof. The first screw thread S1 coupled to the third screw thread S3 and a second screw thread S2 coupled to the suction amount adjusting unit 80 are formed on the outer surface thereof. According to the structure of the first coupling unit 115 described above, the second coupling unit 40 of the atomizer 50 is inserted and coupled to the inside of the first coupling unit 115, and the atomization control unit (ACU) and The atomizer 50 may be fastened to each other.

In addition, air holes H1 penetrating the second coupling part 40 are formed in the second coupling part 40, and one or a plurality of vent holes H3 are formed at an end of the atomizer case 20. Can be. Therefore, the outside air may pass through the vent holes H3, the air inlets H2, and the air holes H1 in order to be provided into the atomizer 50.

The atomizer 50 includes a second coupling part 40, an atomizer case 20, a cartridge 21, an electrode tube 45, a wick 35, a heating member 30, and a central tube 25. do. The second coupling part 40 is disposed at one end of the atomizer case 20. The second coupling part 40 has a hollow shape surrounding the periphery of the electrode tube 45 with an upper portion thereof open, and as described above, the second coupling part 40 is formed by the first coupling part 115. When inserted therein, the electrode tube 45 may be in contact with the output terminal 88 and electrically connected to the output terminal 88.

The cartridge 21 is disposed inside the atomizer case 20, and the source material TL is accommodated in the cartridge 21. In some embodiments, the source material TL may be liquid, and the components of the source material TL may be determined according to the use of the portable atomization device 200. In addition, the inside of the cartridge 21, the atomization chamber 28, which is isolated from the source material TL, is located, and in the atomization chamber 28, the wick 35, the heating member 30 which winds the outside of the wick 35, and electrodes The tube 45 is arranged. The electrode tube 45 is formed of a conductive material and electrically connected to the output terminal 88, and a part of the wick 35 is exposed to the source material TL so that the source material TL is sucked by the wick 35. And provided to the heating member 30 side.

The heating member 30 may be a conductive coil such as a filament, and the heating member 30 receives an output signal, for example, a controlled voltage signal or a current signal, from the output terminal 88 to generate heat. The output signal may be DC or AC or pulse, and preferably, DC for easy power control. In the case of the pulse, power control may be performed by controlling the magnitude or width of the pulse. When the output signal is applied to the heating member 30, the heating member 30 is heated, and the source material TL penetrated to the wick 35 wound by the heating member 30 is atomized to atomize the chamber 28. ) Is filled with haze.

In addition, a central tube 25 is disposed inside the cartridge 21, one end of the central tube 25 is connected to the suction tube 5 of the suction mouthpiece 10, and the other end of the central tube 25 is an atomization chamber. Connected with 28. Therefore, when the liquid source material TL is atomized and the atomization chamber 28 is filled with mist, and a person inhales the suction mouthpiece 10, the atomization chamber 28 is provided through the central pipe 25 and the suction pipe 5. You can inhale mist filled in).

In another embodiment, the portable atomizer 200 may include an atomizer having a different structure instead of the atomizer 50 operated in a heated manner. For example, the portable atomizing device 200 may include an atomizer that generates mist by an ultrasonic vibrating method including a vibrator.

The suction amount adjusting unit 80 has a shape of a ring surrounding an outer surface of the first coupling unit 115, and a thread (not shown) coupled to the second thread S2 is formed on an inner surface of the first coupling unit 115. 115). Therefore, when the user rotates the suction amount adjusting unit 80, the suction amount adjusting unit 80 can move in the first direction D1 or the second direction D2 to completely open the air inlets H2. Or partially open or shield. For example, in FIG. 2B, the suction amount adjusting unit 80 is moved to the maximum in the second direction D2. In this case, the suction amount adjusting unit 80 does not overlap with the air inlets H2. The air inlets H2 are thus fully open.

On the contrary, in FIG. 2C, the suction amount adjusting unit 80 is rotated along the second thread S2 to move in the first direction D1. In this case, the suction amount adjusting unit 80 overlaps approximately half of the air inlet H2 and shields about half of the air inlet H2. Therefore, assuming that the amount of air provided from the outside to the atomization chamber 28 side from the outside through the air inlets H2 at the position of the suction amount adjusting unit 80 shown in FIG. 2C is the first amount, it is shown in FIG. 2B. In the position of the suction amount adjusting unit 80, the amount of air provided from outside to the atomization chamber 28 through the air inlets H2 becomes a second amount larger than the first amount.

Therefore, assuming that the user inhales the suction mouthpiece 10 at the same pressure, it is more preferable at the position of the suction amount adjusting unit 80 shown in FIG. 2B than at the position of the suction amount adjusting unit 80 shown in FIG. 2C. A large amount of fumes can be inhaled. This means that the user can easily adjust the amount of fumes to inhale by adjusting the position of the suction amount adjusting unit 80.

In some embodiments, portable atomization device 200 may further include an elastic member 85. The elastic member 85 may have conductivity and elasticity, such as a spring formed of a metallic material. The elastic member 85 is interposed between the output terminal 88 and the printed circuit board 70 to secure an electrical connection between the output terminal 88 and the printed circuit board 70, while the output terminal 88 and the electrode tube ( Correct the contact of 45). The output terminal 88 may be electrically connected to the battery BT through the printed circuit board 70. More specifically, the elastic member 85 is in contact with the output terminal 88 and the second conductive layer C2 of the printed circuit board 70, and the first conductive layer C1 of the printed circuit board 70 is In contact with the terminal of the battery BT, the power supply voltage of the battery BT may be output to the output terminal 88 through the printed circuit board 70.

As such, the conductive layers are formed on the printed circuit board 70 itself, and the atomizer is formed only by the contact between the battery BT and the printed circuit board 70 and the contact between the printed circuit board 70 and the electrode tube 45. Since the circuit for supplying power to 50 is configured, electrical connection can be achieved only by fastening the atomizer 50, the atomization control unit (ACU), and the battery case 150. As a result, according to one embodiment of the present invention, a circuit arrangement can be simplified, and an atomization device that can be easily manufactured and assembled can be provided without complicated conductive members such as wires.

Further, the atomizer 50 is often detached and coupled from the portable atomizer 200 to fill the source material TL in the cartridge 21, so that in the absence of the elastic member 85, the portable atomizer 200 is provided. As the use time of E increases, a gap is generated between the output terminal 88 and the second conductive layer C2, so that the electrical connection between the output terminal 88 and the second conductive layer C2 may become unstable. However, according to the embodiment of the present invention, even if a gap is generated between the output terminal 88 and the second conductive layer C2, the elastic member 85 between the output terminal 88 and the second conductive layer C2. The reliability of the electrical connection can be improved.

3 is a cross-sectional view illustrating a portion cut along II-II ′ of FIG. 2C.

Referring back to FIG. 2A together with FIG. 3, the controller 100 is housed inside the body case 110. The controller 100 is electrically connected to the battery BT and the heating member 30, and receives electric power from the battery BT and outputs the electrical output, for example, the magnitude of the output voltage, to the heating member 30. To control.

The control unit 100 controls the printed circuit board 70, the resistance measuring unit 71, the voltage correcting unit 74, the microcomputer element 72, the electric switch 75, the light source 95, and the display unit 90. Include. The printed circuit board 70 is inserted into the coupling groove 112 formed on the inner surface of the body case 110 to be accommodated in the body case 110 and electrically connected to the battery BT and the heating member 30. . More specifically, the first conductive layer C1 is formed on one side of the printed circuit board 70 adjacent to the battery case 150, and the first conductive layer C1 is electrically connected to the terminal of the battery BT. Is connected. In addition, a second conductive layer C2 is formed on the other side of the printed circuit board 70 adjacent to the atomizer 50, and the second conductive layer C2 is connected to the output terminal through the conductive elastic member 85. It may be in contact with 88 and electrically connected to the heating member 30. The first and second conductive layers C1 and C2 may be soldering layers or printed conductive pads formed on the side of the printed circuit board 70.

According to the above-described structure, the printed circuit board 70 may be electrically connected to the battery BT and the heating member 30 by the first and second conductive layers C1 and C2 without a separate wire or soldering. Can be. Therefore, it may have an environmentally-friendly characteristic according to the exclusion of harmful substances such as lead, and the manufacturing process may be simplified to reduce the manufacturing cost.

The resistance measuring unit 71, the voltage correcting unit 74, the microcomputer element 72, the electric switch 75, the light source 95, and the display unit 90 are mounted on the printed circuit board 70. In some embodiments, the resistance measuring unit 71 may include an electric circuit formed on the printed circuit board 70 to sense the resistance of the heating member 30, and the voltage compensating unit 74 may be a constant voltage circuit or a boost. The circuit may include an electric circuit that outputs a power signal by correcting the magnitude of the power voltage of the battery BT. In addition, in another embodiment, the resistance measuring unit 71 and the voltage correcting unit 74 may be embedded in the microcomputer device 72.

According to the above-described configuration, according to the specifications of the atomizer 50 or the reliability of the product, the resistance of the heating member 30 is set to a preset value, for example, the power condition to be applied to the atomizer set by the user as suitable for him. When the resistance value is smaller than the resistance value, the resistance measuring unit 71 detects the resistance of the heating member 30, and the voltage corrector 74 adjusts the output voltage based on the sensed resistance value of the heating member 30. You can calibrate below the preset value. Thus, irrespective of the resistance value of the heating member 30, power having a regulated set value can be constantly provided to the heating member 30 side, for example, the same power is supplied to the atomizer, so that the atomization performance and The amount of mist resulting can be kept the same. In addition, since the amount of power provided according to the size of the resistor can be adjusted, the phenomenon that the heating member 30 is disconnected to a high voltage can be prevented.

The electric shock switch 75 is mounted on the printed circuit board 70 by being supported by a supporting member 73 such as silicon and exposed to the outside through the opening 111 formed in the body case 110 to respond to a touch event. To generate an input signal. The input signal generated by the electrostatic switch 75 is input to the microcomputer element 72, which will be described later, and used to control the overall operation of the portable atomizer 200. In other embodiments, the electrostatic switch 75 may be replaced with a touch type switch that operates in other ways, such as a capacitive switch and a pressure sensitive switch.

The microcomputer 72 uses a large integrated circuit (LSI) that integrates a large number of electronic circuits, and has a central arithmetic circuit, a memory circuit, and an input / output control circuit to perform simple arithmetic and logical calculations. Provided can control the overall operation of the portable atomization device 200. For example, in some embodiments, the microcomputer element 72 controls the power of the portable atomizer 200 to be turned on or off in response to the input signal, or the power of the battery is provided to the heating member 30 side. Alternatively, the operation mode of the portable atomizer 200 may be changed or the magnitude of the power may be adjusted according to the operation mode.

More specifically, when the user touches the electrostatic switch 75 a plurality of times, the microcomputer device 72 may turn on the power of the portable atomizer 200. Further, after the power is turned on, while the user touches the electrostatic switch 75, the microcomputer element 72 may be provided with the power to the heating member 30 side to initiate atomization of the source material.

In addition, after the portable atomizer 200 is turned on, the user touches the electric shock switch 75 in a preset manner, and the microcomputer element 72 responds to the touch in the operation mode of the portable atomizer 200. May be set to a first operation mode in which the magnitude of power is automatically controlled. In this case, the power applied to the atomizer 50 may be kept constant or changed by the functions of the voltage corrector 74 and the resistance measurer 71 described above.

In addition, after the portable atomizer 200 is turned on, the user touches the electrostatic switch 75 in a different manner, and the microcomputer device 72 operates in response to the touch. The mode may be set to a second operation mode in which the magnitude of power is controlled by a user's manual operation. For example, in this case, the microcomputer device 72 may manually control the magnitude of the power according to the number of touch events of the user. Thus, the user can easily increase or decrease the power in accordance with the preference for smoking smoke.

In some embodiments, the microcomputer device 72 may detect a power supply voltage of the power supply of the battery BT and adjust the magnitude of the output voltage to a default value according to the sensed power supply voltage. For example, assuming that the default value of the output voltage is 5.1V and the power supply voltage of the power source of the battery BT is 3.7V, the microcomputer element 72 detects the power supply voltage, and the output voltage is the default value. The output voltage may be corrected using the voltage corrector 74 to be equal to the value.

The display unit 90 is mounted on the printed circuit board 70 and exposed to the outside through the opening 111 formed in the body case 150, and receives the light from the light source 95 to drive the portable atomizer 200. Information of each kind is displayed. In some embodiments, the display unit 90 may include the magnitude of the power supply voltage, the magnitude of the output voltage, the magnitude of the resistance of the heating member 30, the residual amount of the power source of the battery BT, the warning display according to the residual amount, and the heating element. Information such as the temperature of 30, a warning display according to the temperature, the first operation mode, and the second operation mode may be displayed.

As described above, the resistance measuring unit 71, the voltage correcting unit 74, the microcomputer element 72, the electric switch 75, the light source 95, and the display unit 90 are disposed on the printed circuit board 70. When the printed circuit board 70 is fastened to the coupling groove 112 formed on the inner surface of the body case 110, the circuit configuration of the above-described components mounted on the printed circuit board 70 is facilitated. In addition, the printed circuit board 70 may serve to mechanically support the electric shock switch 75 and the display unit 90. Thus, the overall circuit configuration and mechanical assembly of the portable atomization device can be produced an effect that can be facilitated.

4A and 4B are enlarged views of information displayed on the display unit 90 shown in FIG. 1. Referring first to FIG. 4A, the display unit 90 includes various types of information on which the portable atomizer is driven. Is displayed. In more detail, the display unit 90 includes a first display window DP1 and a second display window DP2, and the first display window DP1 includes a picture or text indicating the first operation mode, that is, the automatic mode. Can be displayed.

In addition, the second display window DP2 may display a numerical value of the output voltage provided to the heating member (30 in FIG. 2A), or a picture indicating the magnitude of the output voltage. Therefore, the user can easily determine that the portable atomizer 200 is currently driven in the automatic mode and the output voltage is 5.1V based on the information displayed on the first and second display windows DP1 and DP2.

Referring to FIG. 4B, information indicating the second operation mode described above may be displayed on the display unit 90. For example, a picture or text indicating the second operation mode, that is, the manual mode, may be displayed on the third display window DP3, and an output provided to the heating member 30 in FIG. 2A on the second display window DP2. The voltage can be displayed. Accordingly, the user can easily determine that the portable atomizer 200 is currently driven in the manual mode and the output voltage is 4.1V based on the information displayed on the second and third display windows DP2 and DP3. In addition, in the second operation mode, when the user touches the electrostatic switch (75 in FIG. 3), the user may directly increase or decrease the output voltage at 4.1 V through the second display window DP2. You can check it.

In another embodiment, the microcomputer element 72 of FIG. 3 may be designed such that the power of the portable atomizer is turned on or off depending on the time of the touch made to the electrostatic switch 75 of FIG. 3. For example, the electrostatic switch may be turned on three or five times within 0.5 seconds to prevent the portable atomizer from being turned on for an unintended touch of the user, for example, a touch generated when the portable atomizer is held. In the case of continuous touch, it may be designed to turn on or off the power supply using the menu mode and the same.

Further, in another embodiment, in addition to the output voltage, such as the remaining amount of power of the battery (BT in FIG. 2A), the size of the heating element (30 in FIG. 2A), the temperature of the heating element or a warning indication related to the temperature The species information may be displayed on the display unit 90. The above-described information may be simultaneously displayed on the display unit 90, or may be displayed separately from each other according to display modes that are changed according to the number of times the electric switch is touched. In addition, in addition to the various types of information displayed on the display unit 90 described above, other information related to the driving of the portable atomizer such as the number of suctions and a method of displaying the same may vary depending on the design of the microcomputer device and the display unit 90. can be changed.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be clear to those who have knowledge.

10: suction mouthpiece 50: atomizer
80: suction amount control unit 90: display unit
100: control unit 150: battery case
TL: Tobacco Liquid 28: Atomization Chamber
30: heating member 88: output terminal
70: printed circuit board C1: first conductive layer
C2: second conductive layer 85: elastic member
75: electric shock switch 72: microcomputer element
BT: battery 200: portable atomizer
ACU: atomization control unit

Claims (23)

An atomizer electrically connected to a battery as a power source and including a heating member for generating heat to atomize the source material;
A body case respectively coupled between the battery and the atomizer; And
A control unit which is accommodated in the body case and electrically connected to the battery and the heating member, and receives an electric power from the battery and controls an output signal outputted to the heating member.
The control unit,
Sensing the magnitude of the resistance of the heating element, controlling the output signal based on the sensed magnitude of the resistance of the heating element,
A printed circuit board accommodated in the body case and electrically connected to the battery and the heating member; And
A portable device mounted on the printed circuit board and including one or a combination of a resistance measuring unit measuring a resistance of the heating member and a microcomputer element and a voltage compensating unit for controlling the output signal from values of the resistance measuring unit. Atomization device. The apparatus of claim 1,
And the output signal is controlled to keep the power provided to the heating member side constant. The apparatus of claim 1,
When the magnitude of the resistance of the heating member is larger than a preset value, the magnitude of the output voltage of the output signal is increased,
And when the magnitude of the resistance of the heating member is smaller than a predetermined value, the magnitude of the output voltage of the output signal is reduced. The portable atomizer of claim 1, wherein the controller detects a magnitude of a power supply voltage of the battery and controls the output signal based on the sensed magnitude of the power supply voltage. 5. The method of claim 4,
The control unit boosts the power supply voltage when the magnitude of the power supply voltage is smaller than a preset value,
And when the magnitude of the power supply voltage is greater than a predetermined value, dropping the power supply voltage. The method of claim 1,
And a suction amount adjusting unit configured to control the amount of air flowing into the atomizer side by opening or shielding an air inlet port from the outside to the atomizer side. The apparatus of claim 1,
A switch mounted on the printed circuit board and exposed to the outside of the body case and generating an input signal in response to a touch event; And
It is mounted on the printed circuit board and exposed to the outside through an opening formed in the body case, the magnitude of the power supply voltage, the magnitude of the voltage of the output signal, the magnitude of the resistance of the heating member, the amount of charge of the battery, the amount of charge of the battery Further comprising a display for displaying at least one of a warning display according to, the temperature of the heating member, a warning display according to the temperature, and the operation mode,
And the microcomputer device controls the output signal in response to the input signal. The method of claim 7, wherein the operation mode is divided into a first operation mode or a second operation mode according to the input signal,
The output signal is controlled based on a magnitude of the power supply voltage or a magnitude of a resistance of the heating member in the first operation mode,
And the microcomputer device controls the output signal in response to the input signal in the second operation mode. The portable atomizer of claim 1, wherein the resistance measuring unit and the voltage correcting unit are embedded in the microcomputer device. The apparatus of claim 1, wherein the body case includes an output terminal disposed at a portion coupled to the atomizer and transmitting the output signal.
Wherein the printed circuit board includes:
A first conductive layer formed on one side adjacent to the battery case and electrically connected to a terminal of the battery; And
And a second conductive layer formed on the other side portion adjacent to the atomizer and electrically connected to the output terminal. 11. The portable atomizer as recited in claim 10 wherein the first conductive layer is in direct contact with the terminal of the battery and the second conductive layer is in direct contact with the output terminal. 11. The method of claim 10,
And an elastic member having conductivity and elasticity, and interposed between the output terminal and the second conductive layer to electrically connect the output terminal to the second conductive layer.
And the first conductive layer is in direct contact with the battery terminal, and the elastic member is in direct contact with the output terminal and the second conductive layer. The method according to claim 6,
The body case,
A coupling portion extending from one end and coupled to the atomizer, and having an air inlet formed at a sidewall thereof;
Portable suction device, characterized in that the suction amount adjustment unit moves in the longitudinal direction of the coupling portion to open or shield the air inlet. The portable atomization device according to claim 1, wherein the source material is a liquid material for an electronic cigarette. A atomizing control unit of a portable atomizing device comprising a atomizer and a battery having a heating member for heating a source material, the atomizing control unit comprising:
A body case coupled to the battery at one side and coupled to the atomizer at the other side; And
A control unit which is accommodated in the body case and electrically connected to the battery and the heating member, receives a power voltage from the battery and controls an output signal output to the heating member.
Sensing the magnitude of the resistance of the heating element, controlling the output signal based on the sensed magnitude of the resistance of the heating element,
A printed circuit board accommodated in the body case and electrically connected to the battery and the heating member; And
The atomizer is mounted on the printed circuit board and includes one or a combination of a resistance measuring unit measuring a resistance of the heating member and a microcomputer element and a voltage compensating unit for controlling the output signal from values of the resistance measuring unit. Control unit. 16. The apparatus of claim 15,
And the output signal is controlled to keep the power provided to the heating member side constant. The atomization control unit of claim 15, wherein the controller senses the magnitude of the power supply voltage and controls the output signal based on the sensed magnitude of the power supply voltage. The atomization control unit of claim 15,
And an intake amount adjusting unit configured to control the amount of air flowing into the atomizer side by opening or shielding the air inlet port from the outside to the atomizer side. 16. The apparatus of claim 15,
A switch mounted on the printed circuit board and exposed to the outside of the body case and generating an input signal in response to a touch event; And
Mounted on the printed circuit board and exposed to the outside through an opening formed in the body case, and according to the magnitude of the power voltage, the magnitude of the voltage of the output signal, the magnitude of the resistance of the heating member, the amount of charge of the battery, and the amount of charge And a display configured to display at least one of a warning display, a temperature of the heating member, a warning display according to the temperature, and an operation mode.
And the microcomputer element controls the output signal in response to the input signal. The method of claim 19, wherein the operation mode is divided into a first operation mode or a second operation mode according to the input signal.
The output signal is controlled based on a magnitude of the power supply voltage or a magnitude of a resistance of the heating member in the first operation mode,
And the microcomputer device controls the output signal in response to the input signal in the second operation mode. The method of claim 15, wherein the printed circuit board,
A first conductive layer formed on one side adjacent to the battery case and electrically connected to a terminal of the battery; And
And a second conductive layer formed on the other side portion adjacent to the atomizer and electrically connected to the atomizer. The atomization control unit as claimed in claim 15, wherein the resistance measuring unit and the voltage correcting unit are built in the microcomputer device. The method of claim 18, wherein the body case,
Extends from one end, the air inlet is formed on a sidewall, and includes a coupling part coupled to the atomizer;
And the suction amount adjusting part moves in the longitudinal direction of the coupling part to open or shield the air inlet.

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