CN218073483U - Atomizing device with ceramic core - Google Patents

Abstract

An atomizing device with a ceramic core relates to the technical field of atomization. It contains the casing and sets up airflow sensor, atomizer and the battery in the casing, and casing one end is provided with the cigarette mouthpiece portion, and the atomizer includes: the liquid storage bin is provided with an air inlet and a smoke outlet; the gas guide pipe is arranged in the liquid storage bin, the middle part of the gas guide pipe is provided with a first gas passage communicated with the gas inlet and the smoke outlet, and the side wall of the gas guide pipe close to the bottom of the liquid storage bin is provided with a liquid inlet hole communicated with the first gas passage and the liquid storage bin; the pin of the heating element of the ceramic heating core is arranged outside the liquid storage bin in a penetrating way; the liquid guide cotton sleeve is sleeved outside the ceramic heating core and covers the liquid inlet hole. Adopt above-mentioned technical scheme to have simple structure, the operating personnel of being convenient for equipment atomizing device has simultaneously and starts preheating the liquid of atomizer and reduce the liquid of the cotton cover of liquid guide's of being convenient for drain and increase the advantage of the experience sense of user's smoking through the suction.

Description

Atomizing device with ceramic core

Technical Field

The utility model relates to an atomizing technology field, concretely relates to atomizing device with ceramic core.

Background

Electronic atomization device is generally by the shell, be provided with the suction nozzle on the shell, be provided with atomizer and air current sensor in the shell and for the battery of atomizer and air current sensor power supply, the atomizer is the stock solution storehouse usually, set up the oil storage cotton in the stock solution storehouse, set up the tubular metal resonator in the oil storage cotton, set up in the tubular metal resonator and the pin wear to locate the outer heat-generating body of main part of stock solution storehouse one side for heliciform or flaky metal, the winding is outer and partly wears to locate the other part of tubular metal resonator and the cotton contact of oil storage and is located the oil silver of leading between heat-generating body and the tubular metal resonator at the outer body that generates heat, and the other end that one end and stock solution storehouse are connected is located the fine pipe of glass of leading oil silver top grafting with the tubular metal resonator. Lead oily silver and the heat-generating body of metal in above-mentioned scheme and need carry out the winding through the manual work usually, lead oily silver winding and need the parallel and level simultaneously with the heat-generating body concentric parallel and level at winding in-process, the equipment is complicated, consequently, remains to be improved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide an atomizing device with ceramic core, have simple structure, the operating personnel of being convenient for equipment atomizing device has simultaneously and preheats the liquid of atomizer and reduces the liquid of the liquid in the atomizer through the suction start-up and the viscidity of liquid is convenient for lead the liquid of drain cotton cover and increase the advantage of the experience sense of user's smoking.

In order to achieve the purpose, the utility model adopts the technical proposal that: the utility model provides an atomizing device with ceramic core, includes the casing and set up in airflow sensor, atomizer and battery in the casing, casing one end is provided with the mouthpiece portion, the atomizer includes: the liquid storage bin is provided with an air inlet and a smoke outlet; the gas guide pipe is arranged in the liquid storage bin, a first gas passage communicated with the gas inlet and the smoke outlet is arranged in the middle of the gas guide pipe, and a liquid inlet hole communicated with the first gas passage and the liquid storage bin is arranged on the side wall, close to the bottom of the liquid storage bin, of the gas guide pipe; a ceramic heating core with a heating body embedded in, wherein a pin of the heating body of the ceramic heating core penetrates through the outer side of the liquid storage bin; and the liquid guide cotton sleeve is sleeved outside the ceramic heating core and covers the liquid inlet hole.

The liquid storage bin comprises a bin body with a liquid storage space arranged therein, the top of the bin body is provided with an inserting hole communicated with the liquid storage space, and the inner side of the bin body is provided with a limiting hole for inserting one end of the gas guide tube;

the sealing element is arranged at the top of the bin body, the sealing element is provided with a raised insertion part which is inserted into the insertion hole and is in sealing connection with the inner side wall of the insertion hole, and the smoke outlet is arranged on the sealing element and is communicated with the limiting hole; and the air inlet is arranged on the sealing sleeve and communicated with the mounting groove, and the bottom of the mounting groove is provided with a threading hole for the pins of the ceramic heating core to be inserted and connected.

The improved cigarette holder is characterized in that a placing groove is formed in the top of the sealing element, an air inlet through hole communicated with the air inlet is formed in the bottom of the shell, a condensation cotton block is arranged in the placing groove, the cigarette holder is located at the top of the shell, the airflow sensing is fixed in the shell through the microphone fixing seat, the battery is limited in the shell through the fixing support, the condensation cotton block is arranged in the atomizer, the fixing support and the microphone fixing seat are sequentially arranged in the shell from top to bottom, the battery is arranged in the fixing groove of the fixing support, a communicating hole and an auxiliary air hole are formed in the microphone fixing seat, and the airflow sensor is arranged in the mounting hole.

The ceramic heating device is characterized in that a charging interface is arranged on the shell, a control module is further arranged in the shell, the battery, the ceramic heating core and the airflow sensor are all connected with the control module, and the charging interface is connected with the battery through a charging management circuit.

The shell is provided with an indicator light capable of emitting different light rays, and the indicator light is connected with the control module through a first circuit.

The airflow sensor is respectively connected with the battery and the control module through an input detection circuit; the battery is connected with the control module through the charging management circuit; the ceramic heating core is respectively connected with the control module and the battery through an output circuit.

The control module includes: control treater U2, electric capacity C5 and resistance R13, resistance R13 one end is connected the battery other end is connected respectively electric capacity C5 one end with control treater U2's 1 stitch, GND is connected to the electric capacity C5 other end, GND is connected to control treater U2's 10 stitches.

The first circuit includes: resistance R7, resistance R8 and resistance R9, resistance R7 one end with 2 stitch connection, the other end of control treater U2 with 4 stitch connection of pilot lamp, resistance R8 one end with 7 stitch connection, the other end of control treater U2 with 3 stitch connection of pilot lamp, resistance R9 one end with 6 stitch connection, the other end of control treater U2 with 1 stitch connection of pilot lamp, 2 stitches of pilot lamp with the battery is connected.

The input detection circuit includes: resistance R10, electric capacity C4, resistance R11 and resistance R12, resistance R10 one end with the battery is connected, the other end is connected with 1 stitch and electric capacity C4 one end of airflow sensor respectively, 2 stitch connections of GND and airflow sensor are connected respectively to the electric capacity C4 other end, resistance R11 one end is connected 4 stitches of control treater U2, the other end respectively connecting resistance R12 one end with 3 stitch connections of airflow sensor, GND is connected to the resistance R12 other end.

The output circuit includes: resistance R14, field effect transistor Q1, resistance R16, resistance R17, diode D3 and resistance R15, resistance R14 one end respectively with the battery, field effect transistor Q1's source electrode and resistance R16 one end is connected, the other end respectively with field effect transistor Q1's drain electrode diode D3 one end resistance R15 one end and a pin of ceramic heating core is connected, the resistance R16 other end respectively with control processor U2's 9 stitches with resistance R17 one end is connected, the resistance R17 other end with field effect transistor Q1's grid connection, the diode D3 other end is connected respectively another pin and the GND of ceramic heating core, the resistance R15 other end with control processor U2's 8 stitches are connected.

After the technical scheme is adopted, the utility model discloses beneficial effect does: an atomizing device with a ceramic core includes a housing, an airflow sensor, an atomizer, and a battery. Airflow sensor, atomizer and battery set up in the casing, and casing one end is provided with the cigarette mouthpiece portion, and for the realization carries out atomizing function to the liquid in the atomizer, the atomizer includes: a liquid storage bin, an air guide pipe, a ceramic heating core and a liquid guide cotton sleeve. The liquid storage bin is provided with an air inlet and a smoke outlet. The casing bottom is provided with the air inlet through-hole that communicates with the air inlet, the air duct sets up in the stock solution storehouse, the air duct middle part is provided with the first air flue that communicates first air flue and stock solution storehouse, be provided with the feed liquor hole of intercommunication first air flue and stock solution storehouse on the lateral wall near stock solution storehouse bottom on the air duct, during the equipment atomizing core, need not the user and will lead the winding of oil silver on piece or heater, also need not use tools with hardware pipe fixed then will twine the both hands and install into the air vent of hardware pipe with the heat-generating body of leading the oil silver, delete fine pipe of glass simultaneously, make the structure of atomizing core simpler, when the equipment atomizing core, only need directly to lead the cotton ways of liquid on the pottery core that generates heat, then adjust the position of liquid cotton ways on the pottery core that generates heat once, then the pottery that will overlap and be equipped with the cotton cover that generates heat the core and pegs graft in the first air flue of air duct, make the cotton cover of liquid guide cover on the feed liquor hole again, so that the cotton ways leads the liquid in the stock solution storehouse to lead to the pottery core to generate heat the atomizing core, be convenient for pottery atomizing core, make the equipment of atomizing core convenient for pottery atomizing core that the pottery generates heat, thereby make the equipment atomizing core more simple.

The shell is provided with a charging interface, the shell is internally provided with a control module, the battery, the ceramic heating core and the airflow sensor are all connected with the control module, and the charging interface is connected with the battery through a charging management circuit. The control module is a programmable control module. Be provided with the pilot lamp that can send different light on the casing, the pilot lamp is connected with control module through first circuit. Realize user's accessible suction action alright realize that the pottery generates heat the liquid of core in to the atomizer and preheat, and the viscidity that reduces the liquid in the atomizer is convenient for the drain of drain cotton cover and increases the advantage of the experience sense of user's smoking.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a first exploded schematic view of the present invention;

fig. 3 is a second exploded view of the present invention;

fig. 4 is a third exploded schematic view of the present invention;

fig. 5 is a fourth explosion diagram of the present invention;

fig. 6 is a cross-sectional view of the present invention;

FIG. 7 is a circuit schematic of the control module;

FIG. 8 is a schematic diagram of an input detection circuit;

FIG. 9 is a schematic diagram of a first circuit;

FIG. 10 is a schematic diagram of an output circuit;

FIG. 11 is a schematic diagram of a charge management circuit;

fig. 12 is a circuit schematic of the charging interface.

Description of the reference numerals: 1. a housing; 11. a mouthpiece portion; 2. an airflow sensor; 3. an atomizer; 4. a battery; 31. a liquid storage bin; 311. a bin body; 312. a seal member; 313. sealing sleeves; 32. an air duct; 33. a ceramic heating core; 331. a pin; 34. a liquid guide cotton sleeve; a. an air inlet; b. a smoke outlet; c. a first air passage; d. a liquid inlet hole; e. inserting holes; f. a limiting hole; g. mounting grooves; h. threading holes; 314. a bearing part; i. a placement groove; 12. condensing the cotton blocks; 5. a microphone fixing seat; 6. fixing a bracket; j. mounting holes; k. auxiliary air holes; 61. a positioning part; m, positioning a groove; 7. a circuit substrate; 8. a charging interface; 9. an indicator light; n, air inlet through holes; 315. a plug-in part.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The specific embodiments are only for explaining the present invention, and it is not a limitation to the present invention, and those skilled in the art can make modifications without contribution to the present embodiments as required after reading the present specification, but all the embodiments are protected by patent law within the scope of the present invention.

The present embodiment relates to an atomizing device with a ceramic core, as shown in fig. 1 to 6, including a housing 1, an airflow sensor 2, an atomizer 3, and a battery 4.

Airflow sensor 2, atomizer 3 and battery 4 set up in casing 1, and 1 one end of casing is provided with mouthpiece 11, and for the realization carries out the atomizing function to the liquid in the atomizer 3, atomizer 3 includes: a liquid storage bin 31, an air duct 32, a ceramic heating core 33 and a liquid guiding cotton sleeve 34.

The liquid storage chamber 31 is provided with an air inlet a and a smoke outlet b. The 1 bottom of casing is provided with the through-hole n that admits air with air inlet an intercommunication, air duct 32 sets up in liquid storage tank 31, air duct 32 middle part is provided with the first air duct c with air inlet a and outlet flue b intercommunication, be provided with the feed liquor hole d of intercommunication first air duct c and liquid storage tank 31 on the lateral wall that is close to liquid storage tank 31 bottom on the air duct 32, feed liquor hole d is provided with a plurality of, a plurality of feed liquor hole d is the annular setting on air duct 32, in this embodiment, outlet flue b and air inlet a. A heating body is embedded in the ceramic heating core 33, and the pin 331 of the heating body of the ceramic heating core 33 is arranged outside the liquid storage bin 31 in a penetrating way. The liquid guide cotton sleeve 34 is sleeved outside the ceramic heating core 33 and covers the liquid inlet hole d. The ceramic heating core 33 is cylindrical, the liquid guide cotton sleeve 34 is cylindrical, transverse grains or vertical grains are arranged on the liquid guide cotton sleeve 34, the liquid guide cotton sleeve 34 is made of non-woven fabrics or flax, and since the non-woven fabrics with the same gram weight absorb oil for 2-3S and the flax is 4-5S, in order to ensure the oil guide speed of the liquid guide cotton sleeve 34 and reduce the effect of pasting the core by the atomizer 3, in the embodiment, the liquid guide cotton sleeve 34 is made of non-woven fabrics. The liquid guide cotton sleeve 34 is provided with 1 layer, 2 layers or three layers. Airway tube 32 is made of metal or glass, and in this embodiment airway tube 32 is made of stainless steel. In this embodiment, the main body of the heating element is a heating sheet or a spiral heating wire.

When the atomizing core is assembled, the user is not required to wind the oil guide cotton strip on the heating sheet or the heating wire, the hardware tube is fixed without using tools, then the heating body wound with the oil guide cotton strip is installed into the ventilation hole of the hardware tube by two hands, and meanwhile, the glass fiber tube is deleted, so that the structure of the atomizing core is simpler, when the atomizing core is assembled, only the liquid guide cotton sleeve 34 is directly sleeved on the ceramic heating core 33, then the position of the liquid guide cotton sleeve 34 on the ceramic heating core 33 is adjusted, then the ceramic heating core 33 sleeved with the liquid guide cotton sleeve 34 is inserted into the first air channel c of the air guide tube 32, the liquid guide cotton sleeve 34 covers the liquid inlet hole d again, so that the liquid in the liquid storage bin 31 is guided to the ceramic heating core 33 by the liquid guide cotton sleeve 34, so that the ceramic heating core 33 atomizes, the structure with the simplified atomizing core simultaneously facilitates the assembly of the atomizing core, and the assembly of the atomizer 3 and the atomizing device is simpler.

Preferably, in order to realize that the atomizing core is stably installed in the liquid storage tank 31 and simultaneously realize the liquid storage function of the liquid storage tank 31 to avoid liquid leakage, the liquid storage tank 31 comprises a tank body 311, a sealing element 312 and a sealing sleeve 313. A liquid storage space is arranged in the bin body 311, an inserting hole e communicated with the liquid storage space is formed in the top of the bin body 311, and a limiting hole f for inserting one end of the air guide pipe 32 is formed in the inner side of the bin body 311. The sealing member 312 is disposed on the top of the bin body 311, the sealing member 312 is provided with a protruding insertion portion 315 which is inserted into the insertion hole e and is hermetically connected with the inner side wall of the insertion hole e, and the smoke outlet b is disposed on the sealing member 312 and is communicated with the limiting hole f. The sealing member 312 is made of silicone rubber. The sealing sleeve 313 is inserted into an opening at the bottom of the bin body 311 and is hermetically connected with the inner side wall of the bin body 311, a mounting groove g is formed in the sealing sleeve 313, and the sealing sleeve 313 is made of silica gel. The air duct 32 is far away from one end of the sealing element 312, is inserted into the mounting groove g and is connected with the inner side wall of the mounting groove g in a sealing mode, the air inlet a is arranged on the sealing sleeve 313 and is communicated with the mounting groove g, the bottom of the mounting groove g is located on the outer side of the air inlet a and is provided with two threading holes h for inserting the pins 331 of the ceramic heating core 33, and the threading holes h are arranged. In this embodiment, the bottom of the mounting groove g is provided with a bearing portion 314 in a protruding manner, the air inlet a penetrates through the bearing portion 314, when the ceramic heating core 33 is mounted, the bottom of the ceramic heating core 33 contacts with the top of the bearing portion 314, and the bearing portion 314 is located between the two threading holes h.

When the atomizer 3 is assembled, pin 331 of the atomizing core that will assemble is pegged graft in the through wires hole h on seal cover 313, the gap between sealed through wires hole h of rethread fixed foot and pin 331, then have air duct 32 again and peg graft into mounting groove g in feed liquor hole d one end, make ceramic generate heat 33 bottoms spacing on supporting part 314, then peg graft seal cover 313 in the storehouse body 311 and make the air duct 32 other end peg graft in spacing hole f, operating personnel accessible plug-in holes e is to interior notes liquid of storehouse body 311, then peg graft grafting portion 315 on sealing member 312 in plug-in holes e, thereby accomplish the equipment of atomizer 3, it is few to have the equipment step, the equipment is simple.

In this embodiment, for making the stable installation of battery 4, sealing member 312 top is provided with standing groove i, be provided with the cotton piece of condensation 12 in the standing groove i, cigarette holder portion 11 is located casing 1 top, airflow sensing passes through miaow head fixing base 5 and fixes in casing 1, battery 4 is spacing in casing 1 through fixed bolster 6, the cotton piece of condensation 12, atomizer 3, fixed bolster 6, miaow head fixing base 5 sets gradually in casing 1 from the top down, battery 4 sets up in fixed bolster 6's fixed slot, be provided with the mounting hole j and the supplementary gas pocket k of intercommunication air inlet hole n on miaow head fixing base 5, airflow sensor 2 sets up in mounting hole j. In this embodiment, the top and the bottom of the fixing support 6 are both provided with a raised positioning portion 61, and the bottom of the sealing sleeve 313 and the top of the microphone fixing seat 5 are respectively provided with positioning grooves m which are respectively in one-to-one insertion connection with the positioning portions 61 on the upper and lower sides of the fixing support 6. During the equipment, fixed bolster 6 assembles battery 4 and miaow head fixing base 5 and atomizer 3 into a whole to in operating personnel installs atomizer 3, battery 4 and airflow sensor 2 in casing 1. Be provided with on miaow head fixing base 5 with the installation gas pocket and the supplementary gas pocket k of air inlet hole n intercommunication, airflow sensor 2 installs in the installation gas pocket. Facilitating the function of achieving air flow communication of the atomizer 3 inside the housing 1. In some embodiments, the bottom of the bin 311 is provided with a fastening groove, and the top of the fixing bracket 6 is provided with a fastener fastened with the fastening groove.

In this embodiment, the housing 1 is composed of a bottom case and an upper cover, the mouthpiece 11 is disposed on the upper cover, the assembled atomizer 3, the battery 4, the fixing bracket 6, the microphone fixing seat 5 and the airflow sensor 2 are placed into the bottom case from the opening of the bottom case, then liquid is injected into the insertion hole e on the cabin 311 in the bottom case, then the insertion part 315 on the sealing member 312 is inserted into the insertion hole e, then the condensed cotton block 12 is placed in the placing groove i, and then the upper cover is covered on the opening of the bottom case, thereby completing the assembly of the atomizer.

Preferably, as shown in fig. 7 to 12, in order to realize the function of starting the suction of the user, a charging interface 8 is arranged on the housing 1, a control module is further arranged in the housing 1, the battery 4, the ceramic heating core 33 and the airflow sensor 2 are all connected with the control module, and the charging interface 8 is connected with the battery 4 through a charging management circuit. Be provided with circuit substrate 7 in the casing 1, charge interface 8, airflow sensor 2 and pass through the paster or welded fastening on circuit substrate 7, in this embodiment, circuit substrate 7 passes through on the purple fixed bolster 6 bottom of screw fixation. The control module is a programmable control module.

Preferably, as shown in fig. 1, an indicator light 9 capable of emitting different light rays is arranged on the housing 1, and the indicator light 9 is connected with the control module through a first circuit. In some embodiments, the indicator light 9 is embedded in the bottom case, in some embodiments, a light-transmitting window is formed in the bottom case, and the indicator light 9 is disposed in the bottom case and located inside the light-transmitting window. The indicator lamp 9 is electrically connected to the circuit board 7 by a wire. The charging management circuit, the first circuit and the control module are integrated on the circuit substrate 7.

It should be noted that, in some embodiments, when the airflow sensor 2 detects that the user continuously sucks for 3 times within 5 seconds, the control module controls the indicator light 9 to emit red light, then the control module controls the ceramic heating core 33 to generate heat to preheat the liquid in the bin body 311, meanwhile, the control module controls the indicator light 9 to stop emitting red light and emit blue light, 15S later, the control module controls the indicator light 9 to stop emitting blue light and emit green light to remind the user of smoking, so that the liquid in the bin body 311 is preheated to reduce the viscosity of the liquid in the bin body 311 in the process that the user sucks the electronic cigarette, so that the smoke is more during the smoking of the user, and the experience of the user is increased; stop the smoking, when ceramic heating core 33 was in the state of generating heat and pilot lamp 9 was in the state of sending green light, airflow sensor 2 detected the user in 5 seconds and smoked 3 times in succession, control module control ceramic heating core 33 stopped to generate heat and control pilot lamp 9 to stop sending green light and send red light simultaneously, and pilot lamp 9 extinguishes behind 1S. In some embodiments, during the preheating process, when the user sucks for 3 times in 5S continuously and sucks for the third time in 5S, the control module controls the ceramic heating core 33 to stop preheating and controls the indicator lamp 9 to emit red light. When the airflow sensor 2 detects that the time of a single smoking of the user is 10S, the control module controls the ceramic heating core 33 to stop heating and controls the indicator lamp 9 to be turned off.

Preferably, the airflow sensor 2 is connected to the battery 4 and the control module, respectively, through an input detection circuit. The battery 4 is connected with the control module through a charging management circuit. The ceramic heating core 33 is respectively connected with the control module and the battery 4 through an output circuit.

Preferably, as shown in fig. 7, the control module includes: control treater U2, electric capacity C5 and resistance R13, 1 stitch of electric capacity C5 one end and control treater U2 is connected respectively to the battery 4 other end to resistance R13 one end, and the GND is connected to the electric capacity C5 other end, and GND is connected to the 10 stitch of control treater U2. In the present embodiment, as shown in fig. 11 and 12, the charge management circuit includes: the charging management circuit comprises a resistor R1, a resistor R2, a resistor R3, a resistor R4, a capacitor C1, a capacitor C2, a capacitor C3, a charging management chip U1 and a diode D1, wherein one end of the resistor R1 is respectively connected with a pin B9 of a charging interface 8, one end of the resistor R2, one end of the capacitor C2 and 4 pins of the charging management chip U1, the other end of the resistor R1 is respectively connected with 3 pins of a control processor U2 and one end of the resistor R4, the other end of the resistor R2 is connected with one end of the capacitor C3, the other end of the resistor R4 is respectively connected with the other end of the capacitor C2 and GND, two ends of the resistor R3 are respectively connected with 5 pins and GND of the charging management chip U1, 1 pin 1 of the charging management chip U1 is connected with 5 pins of the control processor U2, 2 pins of the charging management chip U1 are respectively connected with one end of the capacitor C1 and GND, 3 pins of the charging management chip U1 are respectively connected with the other end of the capacitor C1, one end of the diode D1 and one end of the GND, and the other end of the battery 4 are respectively connected with the GND. The charging management circuit is connected with the control module to realize the functions of low-current protection and short-circuit protection of the power supply. When the voltage of the battery 4 is less than 3.2V, the control module controls the indicator lamp 9 to flash for three times and then extinguish to remind a user of charging. In this embodiment, when the user charges the atomizing device through the interface 8 that charges, control module control pilot lamp 9 sends red light, and when the atomizing device was fully charged, control module control pilot lamp 9 extinguished.

Preferably, the control module controls the indicator light 9 to emit different light according to different states of the atomization device. As shown in fig. 9, the first circuit includes: resistance R7, resistance R8 and resistance R9, 2 pin connections of resistance R7 one end and control processor U2, the other end and the 4 pin connections of pilot lamp 9, 7 pin connections of resistance R8 one end and control processor U2, the other end and the 3 pin connections of pilot lamp 9, 6 pin connections of resistance R9 one end and control processor U2, the other end and the 1 pin connection of pilot lamp 9, 2 pin and the battery 4 of pilot lamp 9 are connected.

Preferably, in order to realize that the control module judges the working state of the atomization device according to different air flow data detected by the air flow sensor 2 and controls the received feedback data to control the light-emitting state of the indicator light 9 and the heat-emitting state of the ceramic heat-emitting core 33. As shown in fig. 8, the input detection circuit includes: resistance R10, electric capacity C4, resistance R11 and resistance R12, resistance R10 one end is connected with battery 4, the other end is connected with 1 stitch and electric capacity C4 one end of airflow sensor 2 respectively, 2 stitch connections of GND and airflow sensor 2 are connected respectively to the electric capacity C4 other end, 4 stitches of resistance R11 one end connection control treater U2, the other end is connected 3 stitch connections of resistance R12 one end and airflow sensor 2 respectively, GND is connected to the resistance R12 other end.

Preferably, as shown in fig. 10, the output circuit includes: the resistance R14, the field effect transistor Q1, the resistance R16, the resistance R17, the diode D3 and the resistance R15, one end of the resistance R14 is respectively connected with the battery 4, the source electrode of the field effect transistor Q1 and one end of the resistance R16, the other end of the resistance R14 is respectively connected with the drain electrode of the field effect transistor Q1, one end of the diode D3, one end of the resistance R15 and one pin 331 of the ceramic heating core 33, the other end of the resistance R16 is respectively connected with the pin 9 of the control processor U2 and one end of the resistance R17, the other end of the resistance R17 is connected with the grid electrode of the field effect transistor Q1, the other end of the diode D3 is respectively connected with the other pin 331 and GND of the ceramic heating core 33, and the other end of the resistance R15 is connected with the pin 8 of the control processor U2. In this embodiment, first circuit, input detection circuit, control module and output circuit are all integrated on circuit substrate 7, and control processor U2 is CSU32PB10 chip, and pilot lamp 9 is for sharing positive LED, and the management chip U1 that charges is WSCY6065, and the interface 8 that charges is Type-c interface 8 that charges.

The above description is only for the purpose of illustration and not limitation, and other modifications or equivalent replacements made by those skilled in the art to the technical solution of the present invention should be covered by the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides an atomizing device with ceramic core, include casing (1) and set up in air current sensor (2), atomizer (3) and battery (4) in casing (1), casing (1) one end is provided with cigarette mouthpiece portion (11), its characterized in that, atomizer (3) include: the liquid storage bin (31), wherein the liquid storage bin (31) is provided with an air inlet (a) and a smoke outlet (b);

the gas guide pipe (32) is arranged in the liquid storage bin (31), the middle part of the gas guide pipe (32) is provided with a first gas passage (c) communicated with the gas inlet (a) and the smoke outlet (b), and the side wall of the gas guide pipe (32) close to the bottom of the liquid storage bin (31) is provided with a liquid inlet hole (d) communicated with the first gas passage (c) and the liquid storage bin (31);

a ceramic heating core (33) with a heating body embedded in, wherein a pin (331) of the heating body of the ceramic heating core (33) penetrates through the outer side of the liquid storage bin (31); and a (C) and (D) and,

the liquid guide cotton sleeve (34) is sleeved outside the ceramic heating core (33) and covers the liquid inlet hole (d).

2. The atomizing device with a ceramic core according to claim 1, wherein the liquid storage tank (31) comprises a tank body (311) having a liquid storage space therein, the top of the tank body (311) is provided with an insertion hole (e) communicated with the liquid storage space, and a limiting hole (f) for inserting one end of the gas guide tube (32) is arranged inside the tank body (311);

the sealing element (312) is arranged at the top of the bin body (311), the sealing element (312) is provided with a convex insertion part (315) which is inserted into the insertion hole (e) and is hermetically connected with the inner side wall of the insertion hole (e), and the smoke outlet (b) is arranged on the sealing element (312) and is communicated with the limiting hole (f); and a process for the preparation of a coating,

peg graft in storehouse body (311) bottom opening part and with the seal cover (313) of storehouse body (311) inside wall sealing connection, be provided with mounting groove (g) on the seal cover (313), air duct (32) are kept away from sealing member (312) one end peg graft in mounting groove (g) and with mounting groove (g) inside wall sealing connection, air inlet (a) set up in on the seal cover (313) and with mounting groove (g) intercommunication, mounting groove (g) bottom is located the air inlet (a) outside is provided with the confession through wires hole (h) that pin (331) of pottery heating core (33) were pegged graft.

3. The atomizing device with a ceramic core according to claim 2, wherein a placement groove (i) is provided at the top of the sealing member (312), an air inlet through hole (n) communicating with the air inlet (a) is provided at the bottom of the housing (1), a cotton condensation block (12) is provided in the placement groove (i), the mouthpiece portion (11) is located at the top of the housing (1), the airflow sensor is fixed in the housing (1) through a microphone fixing seat (5), the battery (4) is limited in the housing (1) through a fixing bracket (6), the cotton condensation block (12), the atomizer (3), the fixing bracket (6) and the microphone fixing seat (5) are sequentially disposed in the housing (1) from top to bottom, the battery (4) is disposed in the fixing groove of the fixing bracket (6), a mounting hole (j) and an auxiliary air hole (k) communicating with the air inlet through hole (n) are provided on the microphone fixing seat (5), and the airflow sensor (2) is disposed in the mounting hole (j).

4. The atomizing device with a ceramic core according to claim 3, characterized in that a charging interface (8) is provided on the housing (1), a control module is further provided in the housing (1), the battery (4), the ceramic heating core (33) and the airflow sensor (2) are all connected with the control module, and the charging interface (8) is connected with the battery (4) through a charging management circuit.

5. A ceramic core atomising device as in claim 4, characterised in that the housing (1) is provided with an indicator light (9) able to emit different light rays, the indicator light (9) being connected to the control module by a first electric circuit.

6. Atomizing device with ceramic core according to claim 5, characterized in that said air flow sensor (2) is connected to said battery (4) and to said control module, respectively, through input detection circuits; the battery (4) is connected with the control module through the charging management circuit; the ceramic heating core (33) is respectively connected with the control module and the battery (4) through an output circuit.

7. The atomizing device with a ceramic core of claim 6, wherein the control module includes: control treater U2, electric capacity C5 and resistance R13, resistance R13 one end is connected battery (4) other end is connected respectively electric capacity C5 one end with control treater U2's 1 stitch, GND is connected to the electric capacity C5 other end, GND is connected to control treater U2's 10 stitches.

8. The atomizing device with a ceramic core of claim 7, wherein the first electrical circuit comprises: resistance R7, resistance R8 and resistance R9, resistance R7 one end with 2 stitch connections of control treater U2, the other end with 4 stitch connections of pilot lamp (9), resistance R8 one end with 7 stitch connections of control treater U2, the other end with 3 stitch connections of pilot lamp (9), resistance R9 one end with 6 stitch connections of control treater U2, the other end with 1 stitch connection of pilot lamp (9), 2 stitch of pilot lamp (9) with battery (4) are connected.

9. The atomizing device with a ceramic core of claim 7, wherein the input detection circuit includes: resistance R10, electric capacity C4, resistance R11 and resistance R12, resistance R10 one end with battery (4) are connected, the other end is connected with 1 stitch and electric capacity C4 one end of airflow sensor (2) respectively, 2 stitch connections of GND and airflow sensor (2) are connected respectively to the electric capacity C4 other end, resistance R11 one end is connected 4 stitches, the other end of control treater U2 respectively connecting resistance R12 one end with 3 stitch connections of airflow sensor (2), GND is connected to the resistance R12 other end.

10. An atomising device with a ceramic core according to claim 8 or 9, characterised in that the output circuit comprises: the solar energy heating device comprises a resistor R14, a field effect tube Q1, a resistor R16, a resistor R17, a diode D3 and a resistor R15, wherein one end of the resistor R14 is respectively connected with the battery (4), a source electrode of the field effect tube Q1 and one end of the resistor R16, the other end of the resistor R14 is respectively connected with a drain electrode of the field effect tube Q1, one end of the diode D3, one end of the resistor R15 and one pin (331) of the ceramic heating core (33), the other end of the resistor R16 is respectively connected with 9 pins of the control processor U2 and one end of the resistor R17, the other end of the resistor R17 is connected with a grid electrode of the field effect tube Q1, the other end of the diode D3 is respectively connected with the other pin (331) and GND of the ceramic heating core (33), and the other end of the resistor R15 is connected with 8 pins of the control processor U2.

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