CN216165206U - Atomizing structure and corresponding electronic atomizing device - Google Patents

Abstract

The utility model provides an atomization structure which comprises a heating cup assembly, a cup cover assembly and an atomizer support. The both ends of heating cup subassembly bottom are connected with first arch and second arch respectively, and the heating cup subassembly is used for heating the cigarette cream to make the cigarette cream form the flue gas. The cup cover component is connected to the upper end of the heating cup component and used for sealing the heating cup component. The atomizer support is connected to the lower end of the heating cup assembly and comprises an accommodating part and a supporting part which are connected with each other. The middle part of the containing part is provided with a containing groove which is used for containing the display lamp, one end of the supporting part is provided with a first connecting surface, and the other end of the supporting part is provided with a second connecting surface. The first connecting surface is fixedly connected with the first bulge, and the second connecting surface is fixedly connected with the second bulge. The atomization structure is applied to an electronic atomization device.

Description

Atomizing structure and corresponding electronic atomizing device

Technical Field

The utility model relates to the field of electronic cigarettes, in particular to an atomization structure and a corresponding electronic atomization device.

Background

In modern society, an electronic cigarette mainly comprises a smoke tube containing nicotine solution, an evaporation device and a battery. The atomizer can convert the liquid nicotine in the cartridge into a mist by battery power. By screwing the screw hole into the inner cavity of the atomization device, the existing electronic cigarette can fix the heating cup assembly on the fixing device. Because there is the gap between screw and the screw, flue gas and tobacco tar leak from atomizing device easily, and flue gas and tobacco tar cause the pollution to other parts of electron cigarette easily. Therefore, the existing electronic cigarette has the technical problem of easy oil leakage and air leakage.

Therefore, it is desirable to provide an atomizing structure and a corresponding electronic atomizing device to solve the above-mentioned technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides an atomization structure and a corresponding electronic atomization device, which effectively solve the technical problems of easy oil leakage and air leakage of the existing electronic cigarette.

The present invention provides an atomizing structure, which includes:

the two ends of the bottom of the heating cup component are respectively connected with a first bulge and a second bulge which are used for heating the tobacco paste to form smoke;

the cup cover assembly is connected to the upper end of the heating cup assembly and used for sealing the heating cup assembly;

an atomizer support connected to the lower end of the heating cup assembly and including an accommodating portion and a supporting portion connected to each other, the middle part of the accommodating part is provided with an accommodating groove for accommodating the display lamp, one end of the supporting part is provided with a first connecting surface, the other end of the supporting part is provided with a second connecting surface, the first connecting surface is fixedly connected with the first bulge, the second connecting surface is fixedly connected with the second bulge and is used for fixedly connecting the heating cup assembly with the atomizer bracket through the bulge, so that the user does not need to screw the bottom of the heating cup assembly to fix the heating cup assembly, therefore, the atomizer support can be used for better sealing the heating cup assembly, the heating cup assembly is prevented from having the risks of oil leakage and air leakage, and the atomizer support can be used for better fixing and sealing the heating cup assembly at the same time.

Furthermore, the supporting part comprises a first supporting piece and a second supporting piece which are arranged oppositely, the first supporting piece and the second supporting piece are connected with the accommodating part, the first connecting surface is located at one end of the first supporting piece, the second connecting surface is located at one end of the second supporting piece, the second supporting piece is connected with the second connecting surface, a first supporting surface is arranged at the upper end of the first supporting piece, a second supporting surface is arranged at the upper end of the second supporting piece, and the first supporting surface and the second supporting surface are connected with the heating cup assembly and used for better supporting and limiting the heating cup assembly.

Furthermore, the supporting part comprises a connecting piece which is in a groove shape, the connecting piece is connected between the first supporting piece and the second supporting piece, a third supporting surface is arranged at the upper end of the connecting piece, and the third supporting surface is connected with the heating cup assembly and used for increasing the strength of the supporting pieces.

Further, the heating cup assembly includes:

the atomization base is connected to the upper end of the atomizer support, and a first limiting groove is formed in the middle of the atomization base;

the atomizer base is connected in the first limiting groove, and a second limiting groove is formed in the middle of the atomizer base;

one end of the electrode fixing component is connected with the bottom end of the first limiting groove, the other end of the electrode fixing component is connected with the bottom end of the second limiting groove, and a first fixing groove and a second fixing groove are formed in the electrode fixing component;

an electrode assembly disposed in the first and second fixing grooves and connected to the electrode holder assembly;

the ceramic heat insulation seat is arranged at the upper end of the electrode fixing component and is connected with the atomizer base;

the heating sheet is connected to the upper end of the ceramic heat insulation seat and is electrically connected with the electrode assembly;

the cup body is connected to the upper end of the heating sheet and is positioned in the second limiting groove;

and the cup body fixing ring is connected between the cup body and the atomizer base.

Further, the inboard of cup retaining ring lateral wall is provided with the fixed block, the fixed block with the solid fixed ring integrated into one piece of cup for the solid fixed ring of cup is connected more firmly with the cup.

Further, the heating cup assembly further comprises a temperature sensor, one end of the temperature sensor is connected with the heating sheet, the other end of the temperature sensor is connected with the atomizing base, and the temperature sensor is used for controlling the temperature of the heating sheet.

Further, the electrode assembly comprises an upper electrode and a lower electrode which are connected with each other, the electrode fixing assembly comprises an electrode fixing seat and an electrode insulating seat, the electrode fixing seat is connected to the bottom end of the atomizer base, the electrode insulating seat is connected to the bottom end of the atomization base, the first fixing groove is located inside the electrode fixing seat, the second fixing groove is located inside the electrode insulating seat, the upper electrode is connected with the first fixing groove, and the lower electrode is connected with the second fixing groove.

Further, the bowl cover subassembly includes:

the ceramic pressure ring is connected to the upper end of the cup body and used for insulating heat of the cup body;

the cover body is detachably connected to the upper end of the ceramic compression ring, and an air passage is arranged inside the cover body;

and the silica gel plug is connected to the upper end of the air passage and is provided with a through hole.

Further, the lower extreme of pottery clamping ring is connected with the fixture block, the upper end of cup is provided with the draw-in groove, the fixture block with the draw-in groove buckle is connected for pottery clamping ring is connected with the cup and is firm.

An electronic atomization device, comprising:

the side wall of the shell is connected with a lug, and a third limiting groove is formed in the lug;

one end of the atomization structure is connected to the inside of the third limiting groove, and the other end of the atomization structure protrudes out of the third limiting groove;

one end of the glass cigarette holder is positioned in the shell, the other end of the glass cigarette holder protrudes out of the shell, and the glass cigarette holder is communicated with the heating cup component and used for guiding out the smoke;

and the power supply assembly is arranged in the shell and is electrically connected with the heating cup assembly.

Compared with the prior art, the utility model has the beneficial effects that: the utility model provides an atomization structure which comprises a heating cup assembly, a cup cover assembly and an atomizer support. The both ends of heating cup subassembly bottom are connected with first arch and second arch respectively, but heating cup subassembly heating cigarette cream to make the cigarette cream form the flue gas. The cup cover component is connected to the upper end of the heating cup component and can seal the heating cup component. The atomizer support is connected to the lower end of the heating cup assembly and comprises an accommodating part and a supporting part which are connected with each other. The middle part of the containing part is provided with a containing groove which can contain the display lamp. One end of the supporting part is provided with a first connecting surface, and the other end of the supporting part is provided with a second connecting surface. The first connecting surface is fixedly connected with the first bulge, and the second connecting surface is fixedly connected with the second bulge. Because the heating cup assembly is fixedly connected with the atomizer support through the protrusions, a user does not need to screw the screw holes at the bottom of the heating cup assembly, the atomizer support can be fixed with the heating cup assembly, and no gap exists between the atomizer support and the heating cup assembly. Therefore, the setting of atomizer support can form better sealedly to heating cup subassembly, avoids heating cup subassembly to have the risk of oil leak and gas leakage, and the atomizer support can be fixed better simultaneously and sealed heating cup subassembly. The technical problems of easy oil leakage and air leakage of the existing electronic cigarette are effectively solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required in the embodiments are briefly introduced below, and the drawings in the following description are only corresponding to some embodiments of the present invention.

Fig. 1 is a perspective view of an atomizing structure and an electronic atomizing device according to an embodiment of the present invention.

Fig. 2 is a front view of an atomizing base of an embodiment of an atomizing structure and a corresponding electronic atomizing device of the present invention.

Fig. 3 is a structural diagram of an atomizer bracket according to an embodiment of an atomizing structure and an electronic atomizing device of the present invention.

Fig. 4 is a second structural diagram of an atomizer bracket according to an embodiment of the present invention.

Fig. 5 is a structural diagram of an electronic atomization device according to an embodiment of an atomization structure and a corresponding electronic atomization device of the utility model.

Fig. 6 is a top view of an electronic atomization device according to an embodiment of an atomization structure and a corresponding electronic atomization device of the utility model.

Fig. 7 is a sectional view a-a' of an atomizing structure and a corresponding electronic atomizing device according to an embodiment of the present invention.

Fig. 8 is an enlarged view at B of fig. 7.

Fig. 9 is an exploded view of an electronic atomization device according to an embodiment of a atomization structure and a corresponding electronic atomization device of the utility model.

Fig. 10 is a structural diagram of a cup body structure of a heating cup and a corresponding zinc-plated upper shell of an embodiment of an electronic atomization device.

Fig. 11 is a structural diagram of a cup body structure of a heating cup and a cup body fixing ring of an embodiment of a corresponding electronic atomization device.

Fig. 12 is a structural diagram of a cup body structure of a heating cup and a corresponding cup body of an embodiment of an electronic atomization device according to the present invention.

Fig. 13 is a structural diagram of a ceramic pressure ring of an embodiment of a cup body structure of a heating cup and a corresponding electronic atomization device of the utility model.

In the figure, 10, an electronic atomization device; 11. an atomizing structure; 111. a heating cup assembly; 1111. an atomizing base; 11111. a first limit groove; 11112. a first protrusion; 11113. a second protrusion; 1112. an atomizer base; 11121. a second limit groove; 1113. an electrode fixing assembly; 11131. an electrode holder; 11132. an electrode insulating base; 11133. a first fixing groove; 11134. a second fixing groove; 1114. an electrode assembly; 11141. an upper electrode; 11142. a lower electrode; 1115. a ceramic heat insulation seat; 11151. a clamping block; 1116. a heat generating sheet; 1117. a cup body; 11171. a card slot; 1118. a cup body fixing ring; 11181. a fixed block; 1119. a temperature sensor; 112. a cup cover assembly; 1121. a silica gel plug; 11211. a through hole; 1122. a cover body; 11221. an airway; 1123. a ceramic pressure ring; 11231. a clamping block; 1124. hanging a rope by silica gel; 1125. a silica gel fixing ring; 113. an atomizer mount; 1131. an accommodating portion; 11311. a containing groove; 1132. a support portion; 11321. a first support member; 11322. a first connection face; 11323. a second support member; 11324. a second connection face; 11325. a connecting member; 11326. a first support surface; 11327. a second support surface; 11328. a third support surface; 114. a heat insulation silica gel sleeve; 12. a housing; 121. a plastic shell; 122. a zinc-plated upper shell; 1221. a bump; 1222. a third limiting groove; 1223. a fourth limit groove; 1224. a glass fixing seat; 123. a shell leather sheath; 124. a plastic base; 125. an anti-slip silica gel pad; 126. a plastic pallet; 13. a glass cigarette holder; 14. a power supply component; 141. a battery; 142. a main board; 143. a battery protection plate; 144. a charging connector; 145. a battery holder; 146. a wireless charging assembly; 147. pressing a key; 148. key silica gel; 15. an atomized silica gel seat; 16. an air duct; 17. a temperature indicator light; 18. cushion blocks; 19. a display lamp; 191. a display lamp panel; 192. a lamp bead silica gel sleeve; 193. display lamp plastic plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the present invention, directional terms such as "up", "down", "front", "back", "left", "right", "inner", "outer", "side", "top" and "bottom" are used only with reference to the orientation of the drawings, and the directional terms are used for illustration and understanding of the present invention, and are not intended to limit the present invention.

The terms "first," "second," and the like in the terms of the utility model are used for descriptive purposes only and not for purposes of indication or implication relative importance, nor as a limitation on the order of precedence.

Referring to fig. 1 to 13, fig. 1 is a perspective view of an atomizing structure and an electronic atomizing device according to an embodiment of the present invention; fig. 2 is a front view of an atomizing base of an embodiment of an atomizing structure and a corresponding electronic atomizing device of the present invention. FIG. 3 is a schematic diagram of an atomizer holder according to an embodiment of the present invention; FIG. 4 is a second structural diagram of an atomizer holder according to an embodiment of the present invention; FIG. 5 is a schematic diagram of an electronic atomizer according to an embodiment of the present invention; FIG. 6 is a top view of an electronic atomizer according to an embodiment of the present invention; FIG. 7 is a cross-sectional view taken along line A-A' of an exemplary atomizing structure and an exemplary electronic atomizing device according to the present disclosure; fig. 8 is an enlarged view at B of fig. 7; FIG. 9 is an exploded view of an electronic atomizer according to an embodiment of the present invention; FIG. 10 is a schematic diagram of a cup body structure of a heating cup and a zinc-plated upper shell of an embodiment of an electronic atomizing device according to the present invention; FIG. 11 is a schematic view of a cup structure of a heating cup and a cup retaining ring of an embodiment of an electronic atomizing device according to the present invention; FIG. 12 is a structural diagram of a cup body structure of a heating cup and a corresponding cup body of an embodiment of an electronic atomizing device according to the present invention; fig. 13 is a structural diagram of a ceramic pressure ring of an embodiment of a cup body structure of a heating cup and a corresponding electronic atomization device of the utility model.

In the drawings, elements having similar structures are denoted by the same reference numerals.

Referring to fig. 1, 2 and 3, an atomizing structure 11 is provided in the present invention. The atomizing structure 11 includes a heating cup assembly 111, a cup cover assembly 112, and an atomizer support 113, and the atomizing structure 11 is applied to an electronic atomizing device 10. The atomizer holder 113 is coupled to a lower end of the heating cup assembly 111, and the atomizer holder 113 includes a receiving portion 1131 and a supporting portion 1132 coupled to each other. The receiving portion 1131 has a receiving groove 11311 at the middle portion thereof, and the receiving groove 11311 is used for receiving the display lamp 19. One end of the support portion 1132 is provided with a first connection surface 11322, and the other end of the support portion 1132 is provided with a second connection surface 11324. The first connecting surface 11322 is fixedly connected to the first protrusion 11112, and the second connecting surface 11321 is fixedly connected to the second protrusion 11113.

Referring to fig. 4, the supporting portion 1132 includes a first supporting member 11321 and a second supporting member 11323 disposed oppositely. The first support 11321 and the second support 11323 are connected to the receiving portion 1131, the first connecting surface 11322 is located at one end of the first support 11321, and the second connecting surface 11324 is located at one end of the second support 11323. The first support 11321 is provided with a first support surface 11326 at an upper end thereof, and the second support 11323 is provided with a second support surface 11327 at an upper end thereof. The first support surface 11326 and the second support surface 11327 are connected to the heating cup assembly 111, and the first support 11321 and the second support 11323 can support and limit the heating cup assembly 111 better. Since the first support 11321 and the second support 11323 can limit the position of the heating cup assembly 111, the position of the heating cup assembly 111 is better fixed. Therefore, there is little gap between the heating cup assembly 111 and the first and second supports 11321 and 11323, and the heating cup assembly 111 is also less prone to be loosened on the support portion 1132, so that the heating cup assembly 111 can be connected to the support portion 1132 more stably.

Referring to fig. 4, the supporting portion 1132 includes a connecting member 11325, and the connecting member 11325 has a groove shape. The connecting member 11325 is connected between the first support member 11321 and the second support member 11323, and the upper end of the connecting member 11325 is provided with a third supporting surface. The third support surface 11328 is coupled to the heating cup assembly 111, and the connector 11325 can increase the strength of the support. The connecting member 11325 can provide a supporting force for the first support 11321 and the second support 11323, so that the first support 11321 and the second support 11323 are difficult to be damaged during the long-term use of the atomizer bracket 113.

Referring to fig. 1, the heating cup assembly 111 may be fixedly connected to the atomizer support 113 through a protrusion, so that a user does not need to screw a screw hole at the bottom of the heating cup assembly 111 to fix the heating cup assembly 111. Therefore, the atomizer support 113 can better seal the heating cup assembly 111, avoid the heating cup assembly 111 from having the risk of oil and gas leakage, and the atomizer support 113 can better fix and seal the heating cup assembly 111 at the same time.

Referring to fig. 7 and 8 in conjunction with fig. 1 and 6, a first protrusion 11112 and a second protrusion 11113 are respectively connected to both ends of the bottom of the heating cup assembly 111. The heating cup assembly 111 may heat the tobacco smoke, causing the tobacco smoke to form smoke. The heating cup assembly 111 includes an atomizing base 1111, an atomizer base 1112, an electrode fixing assembly 1113, an electrode assembly 1114, a ceramic heat insulation base 1115, a heat generating sheet 1116, a cup 1117, and a cup fixing ring 1118. Atomizing base 1111 connects in the upper end of atomizer support 113, and atomizing base 1111's middle part is provided with first spacing groove 11111. The atomizer base 1112 is connected to the first stopper groove 11111, and a second stopper groove 11121 is disposed in the middle of the atomizer base 1112.

Referring to fig. 8 and 9, one end of the electrode fixing member 1113 is connected to the bottom end of the first limiting groove 11111, and the other end of the electrode fixing member 1113 is connected to the bottom end of the second limiting groove 11121. The inside of the electrode fixing assembly 1113 is provided with first and second fixing grooves 11133 and 11134, the electrode assembly 1114 is disposed in the first and second fixing grooves 11133 and 11134, and the electrode assembly 11114 is coupled to the electrode fixing assembly 1113. The electrode assembly 1114 includes an upper electrode 11141 and a lower electrode 11142 connected to each other, and the electrode fixing assembly 1113 includes an electrode fixing base 11131 and an electrode insulating base 11132. The electrode holder 11131 is connected to the bottom of the atomizer holder 1112, and the electrode insulator 11132 is connected to the bottom of the atomizing base 1111. The first fixing groove 11133 is positioned inside the electrode fixing holder 11131, and the second fixing groove 11134 is positioned inside the electrode insulating holder 11132. The upper electrode 11141 is connected to the first fixing groove 11133, and the lower electrode 11142 is connected to the second fixing groove 11134.

Referring to fig. 8, 9 and 11, a ceramic heat insulating base 1115 is disposed at an upper end of the electrode fixing assembly 1113, and the ceramic heat insulating base 1115 is connected to the atomizer base 1112. Heating plate 1116 is connected to the upper end of ceramic heat insulation seat 1115, heating plate 1116 is electrically connected with electrode assembly 1114, and heating plate 1116 can be used for heating cup 1117. The cup 1117 is connected to the upper end of the heating plate 1116, and the cup 1117 is located in the second limiting groove 11121. The cup retaining ring 1118 is coupled between the cup 1117 and the atomizer base 1112, and the cup retaining ring 1118 may be used to retain the cup 1117, thereby preventing the cup 1117 from easily wobbling inside the second retaining groove 11121. The fixed block 11181 is arranged on the inner side of the side wall of the cup body fixing ring 1118, the fixed block and the cup body fixing ring are integrally formed, and the fixed block 11181 is connected with the cup body 1117. The heating cup assembly 111 further comprises a temperature sensor 1119, one end of the temperature sensor 1119 is connected to the heating plate 1116, the other end of the temperature sensor 1119 is connected to the atomizing base 1111, and the temperature sensor 1119 can be used to control the temperature of the heating plate 1116. The temperature sensor 1119 is electrically connected to the main board 142 of the power module 14, and the temperature sensor 1119 can transmit the temperature information of the cup 1117 to the main board 152, so that the main board 152 controls the temperature of the heat generating sheet 1116. The temperature sensor 1119 can control the temperature of the heating sheet 1116 through the main board 152, and the temperature control deviation of the temperature sensor 1119 is small.

Referring to fig. 8, a lid assembly 112 is connected to the upper end of the heating cup assembly 111, and the lid assembly 112 is adapted to seal the heating cup assembly 111. Lid assembly 112 includes ceramic ring 1123, lid 1122, and silicone stopper 1121. Ceramic clamping ring 1123 is connected in the upper end of cup 1117, and ceramic clamping ring 1123 can insulate against heat cup 1117, and ceramic clamping ring 1123's outside cover is equipped with the solid fixed ring 1125 of silica gel. The cover body 1122 is detachably connected to the upper end of the ceramic pressure ring 1123, and an air passage 11221 is formed inside the cover body 1122. The silicone plug 1121 is connected to the upper end of the air passage 11221, and a through hole 11211 is formed in the silicone plug 1121, and the through hole 11211 can introduce air into the heating cup assembly 111. The cup cover assembly 112 further includes a silica gel hanging rope 1124, one end of the silica gel hanging rope 1124 is connected to the cover body 1122, and the other end of the silica gel hanging rope 1124 is connected to the heating cup assembly 111.

Referring to fig. 12 and 13, a fixture block 11231 is connected to the lower end of the ceramic pressure ring 1123, and a clamping groove 11171 is formed in the upper end of the cup 1117. The fixture block 11231 is in snap connection with the clamping groove 11171, and the ceramic pressing ring 1113 is firmly connected with the cup 1117. The ceramic pressing ring 1123 and the cup 1117 are connected to the clamping groove 11171 through the clamping blocks 11231, so that the cup 1117 can be well fixed when the user cleans the cup 1117, thereby preventing the cup 1117 from easily rotating in the second limiting groove 11121. Because the cup 1117 is difficult to rotate during cleaning, the user can clean the cup 1117 conveniently, and the time required for cleaning the cup 1117 can be saved.

Referring to fig. 5, 8 and 9, the electronic atomization device 10 includes a housing 12, an atomization structure 11, a glass mouthpiece 14 and a power supply assembly 15. The side wall of the housing 12 is connected with a projection 1221, and the projection 1221 is provided with a third limit groove 1222. The housing 12 includes a plastic housing 121 and a zinc-plated gold upper shell 122, a housing leather sheath 123 is further sleeved outside the plastic housing 121, and the housing leather sheath 123 can be used for preventing the plastic housing 121 from slipping. The gilt zinc upper shell 122 is sleeved on the upper end of the plastic housing 121, and the bump 1221 is connected to the sidewall of the gilt zinc upper shell 122. The middle part of the zn-au plating upper shell 122 is provided with a fourth limiting groove 1223, and a glass fixing seat 1224 is connected in the fourth limiting groove 1223. The housing 122 further includes a plastic base 124 and an anti-slip silicone gasket 125, the plastic base 124 is connected to the lower end of the plastic housing 121, and the plastic base 124 can be used to seal the plastic housing 121. The anti-slip silica gel pad 125 is connected to the lower end of the plastic base 124, and the anti-slip silica gel pad 125 can be used for preventing slipping of the electronic atomization device 10.

Referring to fig. 8 and 10, one end of the atomizing structure 11 is connected to the inside of the third retaining groove 1222, and the other end of the atomizing structure 11 protrudes out of the second retaining groove 11121. One end of the glass mouthpiece 13 is located inside the housing 12, and the other end of the glass mouthpiece 13 protrudes from the housing 12. The glass mouthpiece 13 is in communication with the heated cup assembly 111, and the glass mouthpiece 13 may be used to channel smoke. This atomizing structure 11 still includes atomizing silica gel seat 15, and this atomizing silica gel seat 15 is connected in the lower extreme of atomizing base 1111.

Referring to fig. 7 and 9, the power supply assembly 14 is disposed inside the housing 12, and the power supply assembly 14 is electrically connected to the heating cup assembly 111. The power supply assembly 14 includes a battery 141, a main board 142, a battery protection board 143, a charging connector 144, a battery holder 145, and a wireless charging assembly 146. The wireless charging assembly 146 is connected to the lower end inside the plastic housing 121, and the main board 142 is connected to the upper end of the wireless charging assembly 146. The wireless charging assembly 146 is electrically connected to the battery protection board 143, and the wireless charging assembly 146 can wirelessly charge the battery 141. The main board 142 is electrically connected to the battery protection board 143, the battery holder 145 is connected to the upper end of the main board 142, and the battery holder 145 is further connected to the plastic housing 121. The battery 141 is connected to the upper end of the battery holder 145, and the battery 141 is electrically connected to the battery protection plate 143. The charging connector 144 is connected to the inner side of the sidewall of the plastic housing 121, and the charging connector 144 is electrically connected to the main board 142. The power module 14 further includes a button 147, the button 147 is connected to the inner side of the sidewall of the plastic casing 121, and the button 147 is protruded from the plastic casing 121. The button 147 is electrically connected to the main board 142, the button 147 can be used to control the electronic atomization device 10 to be turned on or off, and one end of the button 147 is connected to a button silica gel 148.

Referring to fig. 9, the electronic atomizer 10 further includes an air duct 16. One end of the air duct 16 is connected to the glass mouthpiece 13 through the glass fixing seat 1224, and the other end of the air duct 16 is connected to the atomizing structure 11, so that the glass mouthpiece 13 is communicated with the atomizing structure 11. The electronic atomizer 10 further includes a temperature indicator lamp 17 and a spacer 18. The temperature indicating lamp 17 is connected to the inside of the plastic housing 121, and the temperature indicating lamp 17 is located at the upper end of the battery 141. The temperature indicator lamp 17 is electrically connected to the main board 142, and the temperature indicator lamp 17 can be used to indicate whether the electronic atomization device 10 operates at a normal temperature. When the temperature indicator lamp 17 is in a normally on state, the electronic atomization device 10 operates at a normal temperature. When the temperature indicator lamp 17 is in the flashing state, the electronic atomization device 10 does not work at the normal temperature. The glass mouthpiece 13 is of a transparent structure, light emitted by the temperature indicator 17 can be transmitted to the glass mouthpiece 13 through the glass fixing seat 1224 and the plastic supporting plate 126 at the upper end of the plastic housing 121, and the glass mouthpiece 13 can display the light emitted by the temperature indicator 17, so that a user can know whether the electronic atomization device 10 is working at a normal temperature more conveniently.

Referring to fig. 9, the plastic supporting plate 126 is connected to the upper end of the plastic housing 121, and the plastic supporting plate 126 is located between the glass fixing seat 1224 and the plastic housing 121. The plastic pallet 126 may be used to transmit light emitted from the temperature indicator light 17, and the plastic pallet 126 may also protect the temperature indicator light. The cushion block 18 is connected between the temperature indicator light 17 and the battery 141, and the cushion block 18 is made of EVA material. The EVA is ethylene-vinyl acetate copolymer, and the arrangement of the cushion block 18 can avoid the battery 141 and the temperature indicator lamp 17 from being easily loosened. The electronic atomizer 10 further includes a display lamp 19, and the display lamp 19 is connected to the atomizer support 113. The display lamp 19 is electrically connected to the main board 142, and the turning on and off of the display lamp 19 can display the turning on and off of the electronic atomization device 10. The display lamp 19 lights and shows that the electronic atomization device 10 is opened, the display lamp 19 lights and shows that the electronic atomization device 10 is closed, and the display lamp 19 comprises a display lamp plate 191, a lamp bead silica gel sleeve 192 and a display lamp plastic plate 193. The atomizing structure 11 further includes a heat insulation silicone sleeve 114, and the heat insulation silicone sleeve 114 is sleeved on the outer side of the atomizer base 1112.

The working principle of the utility model is as follows: when the user uses the electronic atomization device 10, the user opens the cover 1122 of the lid assembly 112 and puts the cigarette smoke into the cup 1117 of the heating cup assembly 111. Because the cup fixing ring 1117 fixes the cup 1117 by the fixing block 11181, the cup 1117 is stably connected to the cup fixing ring 11118, and the cup fixing ring 1117 is connected between the cup and the atomizer base. Then, the user closes the cover 1122, and at this time, the cover 1122 is connected to the ceramic pressure ring 1123. Because ceramic pressure ring 1123 and cup 1117 are connected to notch 11171 by fixture 11231, ceramic pressure ring 1123 and cup 1117 are more securely connected. When the user turns on the electronic atomizer 10 through the button 147, the power supply 14 supplies power to the heat generating sheet 1116 through the upper electrode 11141 and the lower electrode 11142, and the power supply 14 supplies power to the temperature sensor 1119 through the wire. The power supply unit 14 may supply power to the indicator light 19 in the receiving groove 11311 through a wire, so that the indicator light 19 on the atomizer support 113 is in a normally on state. The upper electrode 11141 is positioned in the first fixing groove 11133 of the electrode fixing base 11131, and the lower electrode 11142 is positioned in the second fixing groove 11134 of the electrode insulating base 11132.

Subsequently, the heating plate 1116 in the atomizing structure 11 heats the cup 1117, and air can enter the heating cup assembly 111 from the through hole 11211 of the silicone plug 1121 and the air passage 11221 of the cover 1122, so that the atomizing structure 11 can atomize the smoke paste into smoke. The ceramic heat insulation base 1115 at the upper end of the electrode fixing assembly 1113 can insulate the cup 1117, thereby avoiding the over-temperature of the cover 1122. One end of the air duct 16 is connected with the glass cigarette holder 13, and the other end of the air duct 16 is connected with the atomizing base 1111. The atomizing base 1111 is located in the third position-limiting groove 1222 on the projection 1221, and since the two ends of the bottom of the atomizing base 1111 are respectively connected with the first protrusion 11112 and the second protrusion 11113, the first connecting surface 11322 of the first support 11321 is fixedly connected with the first protrusion 11112, and the second connecting surface 11324 of the second support 11323 is fixedly connected with the second protrusion 11113. Since the connecting member 11325 is connected between the first support 11321 and the second support 11323, the strength of the support portion 1132 of the atomizer holder 113 is large. The user then draws air from the mouthpiece 13 and smoke passes through the airway 16 into the mouthpiece 13 from which it can then be drawn out of the mouthpiece 13. The user may inhale the smoke and the user is finished using the electronic atomization device 10.

The utility model provides an atomization structure 11, and the atomization structure 11 comprises a heating cup assembly 111, a cup cover assembly 112 and an atomizer support 113. The first protrusion 11112 and the second protrusion 11113 are respectively connected to two ends of the bottom of the heating cup assembly 111, and the heating cup assembly 111 can heat the cigarette paste, so that the cigarette paste forms smoke. Lid assembly 112 is attached to the upper end of heating cup assembly 111, and lid assembly 112 may seal heating cup assembly 111. The atomizer holder 113 is coupled to a lower end of the heating cup assembly 111, and the atomizer holder 113 includes a receiving portion 1131 and a supporting portion 1132 coupled to each other. The receiving groove 11311 is disposed in the middle of the receiving portion 1131, and the receiving groove 11311 can receive the display lamp 19. One end of the support portion 1132 is provided with a first connection surface 11322, and the other end of the support portion 1132 is provided with a second connection surface 11324. The first connecting surface 11322 is fixedly connected to the first protrusion 11112, and the second connecting surface 11324 is fixedly connected to the second protrusion 11113. Since the heating cup assembly 111 is fixedly connected with the atomizer support 113 through the protrusion, a user does not need to screw holes on the bottom of the heating cup assembly 111, and the atomizer support 113 can fix the heating cup assembly 111, no gap exists between the atomizer support 113 and the heating cup assembly 111. Therefore, the atomizer support 113 can better form a seal for the heating cup assembly 111, the heating cup assembly 111 is prevented from having the risk of oil leakage and air leakage, and the atomizer support 113 can better fix and seal the heating cup assembly 111 at the same time. The technical problems of easy oil leakage and air leakage of the existing electronic cigarette are effectively solved.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, therefore, the scope of the present invention shall be determined by the appended claims.

Claims (10)

1. An atomizing structure, characterized in that it comprises:

the two ends of the bottom of the heating cup component are respectively connected with a first bulge and a second bulge which are used for heating the tobacco paste to form smoke;

the cup cover assembly is connected to the upper end of the heating cup assembly and used for sealing the heating cup assembly;

the atomizer support, connect in the lower extreme of heating cup subassembly, its holding part and the support portion that includes interconnect, the middle part of holding part is provided with the storage tank, the storage tank is used for the holding display lamp, the one end of support portion is provided with first connection face, the other end of support portion is provided with the second and connects the face, first connection face with first protruding fixed connection, the second connect the face with the protruding fixed connection of second.

2. The atomizing structure of claim 1, wherein the supporting portion includes a first supporting member and a second supporting member disposed opposite to each other, the first supporting member and the second supporting member are both connected to the accommodating portion, the first connecting surface is located at one end of the first supporting member, the second connecting surface is located at one end of the second supporting member of the second connecting surface, the first supporting surface is disposed at an upper end of the first supporting member, the second supporting surface is disposed at an upper end of the second supporting member, and the first supporting surface and the second supporting surface are both connected to the heating cup assembly.

3. The atomizing structure according to claim 2, wherein the supporting portion includes a connecting member having a groove shape, the connecting member is connected between the first supporting member and the second supporting member, and a third supporting surface is provided at an upper end of the connecting member, and the third supporting surface is connected to the heating cup assembly.

4. An atomizing structure in accordance with claim 1, wherein said heating cup assembly comprises:

the atomization base is connected to the upper end of the atomizer support, and a first limiting groove is formed in the middle of the atomization base;

the atomizer base is connected in the first limiting groove, and a second limiting groove is formed in the middle of the atomizer base;

one end of the electrode fixing component is connected with the bottom end of the first limiting groove, the other end of the electrode fixing component is connected with the bottom end of the second limiting groove, and a first fixing groove and a second fixing groove are formed in the electrode fixing component;

an electrode assembly disposed in the first and second fixing grooves and connected to the electrode fixing assembly;

the ceramic heat insulation seat is arranged at the upper end of the electrode fixing component and is connected with the atomizer base;

the heating sheet is connected to the upper end of the ceramic heat insulation seat and is electrically connected with the electrode assembly;

the cup body is connected to the upper end of the heating sheet and is positioned in the second limiting groove;

and the cup body fixing ring is connected between the cup body and the atomizer base.

5. The atomizing structure according to claim 4, wherein a fixing block is provided on an inner side of a side wall of the cup body fixing ring, and the fixing block is integrally formed with the cup body fixing ring.

6. The atomizing structure of claim 4, wherein the heating cup assembly further comprises a temperature sensor, one end of the temperature sensor is connected to the heat generating sheet, the other end of the temperature sensor is connected to the atomizing base, and the temperature sensor is used for controlling the temperature of the heat generating sheet.

7. The atomizing structure according to claim 4, wherein the electrode assembly includes an upper electrode and a lower electrode connected to each other, the electrode fixing assembly includes an electrode fixing base and an electrode insulating base, the electrode fixing base is connected to the bottom end of the atomizer base, the electrode insulating base is connected to the bottom end of the atomizing base, the first fixing groove is located inside the electrode fixing base, the second fixing groove is located inside the electrode insulating base, the upper electrode is connected to the first fixing groove, and the lower electrode is connected to the second fixing groove.

8. The atomizing structure of claim 4, wherein the cap assembly includes:

the ceramic pressure ring is connected to the upper end of the cup body and used for insulating heat of the cup body;

the cover body is detachably connected to the upper end of the ceramic compression ring, and an air passage is arranged inside the cover body;

and the silica gel plug is connected to the upper end of the air passage and is provided with a through hole.

9. The atomizing structure according to claim 8, wherein a clamping block is connected to the lower end of the ceramic pressing ring, a clamping groove is formed in the upper end of the cup body, and the clamping block is connected with the clamping groove in a clamping manner.

10. An electronic atomizer device, comprising:

the side wall of the shell is connected with a lug, and a third limiting groove is formed in the lug;

an atomizing structure as set forth in any one of claims 1 to 9, wherein one end is connected to the inside of said third limiting groove, and the other end protrudes from said third limiting groove;

one end of the glass cigarette holder is positioned in the shell, the other end of the glass cigarette holder protrudes out of the shell, and the glass cigarette holder is communicated with the heating cup component and used for guiding out the smoke;

and the power supply assembly is arranged in the shell and is electrically connected with the heating cup assembly.

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