CN214594159U - Atomizing device and smoke generator - Google Patents

Abstract

The utility model relates to an atomizing device and fog generator that can heat the cigarette cream and can satisfy heating tobacco tar demand again. The utility model discloses the scheme that adopts is: the utility model provides an atomizing device, is including suction end, air inlet, the intercommunication that has the outlet flue the inlet channel of air inlet, oil storage pipe, air duct and atomization component, the air duct intercommunication outlet flue and inlet channel, the air duct intercommunication the outlet flue forms out the cigarette passageway, atomization component includes oil absorption spare and heating element, the air duct is located in the oil storage pipe and will the inner space of oil storage pipe separates out both ends open-ended oil storage storehouse, suction end and atomization component are just sealed respectively and are located one of two openings in oil storage storehouse, the oil absorption spare has the orientation the oil absorption face and the orientation in oil storage storehouse the atomizing face of inlet channel, heating element locates the atomizing face, follow the air that inlet channel got into arrives follow behind the atomizing face the outlet flue flows.

Description

Atomizing device and smoke generator

Technical Field

The utility model relates to a traditional cigarette substitute technical field, in particular to atomizing device and fog generator.

Background

In recent years, electronic cigarettes are accepted and favored by more and more smokers due to the characteristics of convenience in use, safety, health and the like as substitutes of cigarettes. The electronic cigarette has the appearance of a common cigarette and generally consists of an atomizing device for heating a smoking substance to generate smoke and a battery assembly for supplying power to the atomizing device. When the electronic cigarette is used, smoke can be directly sucked out to meet the smoking requirement of a user, and when the electronic cigarette is not used, the electronic cigarette can be directly stored and put into a pocket or a backpack.

The prior art atomizing devices, which generally include the types of conventional tobacco-heating, tobacco tar-heating and tobacco paste-heating, include an atomizing member for generating an aerosol, and are mainly classified into an upper air intake mode and a lower air intake mode. The upper intake air means that the air inlet is provided at an end close to the suction nozzle, and the lower intake air means that the air inlet is provided at an end close to the battery module. In the realization of the utility model discloses an in-process, the inventor discovers that the atomizer of heating tobacco tar and the atomizer's of heating cigarette cream structural scheme is inequality among the prior art, and the atomizer of same structural scheme can not adapt to the demand of heating cigarette cream and heating tobacco tar simultaneously.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an atomizing device and smoke generator that can heat the cigarette cream and can satisfy heating tobacco tar demand again.

In order to achieve the above purpose, the present invention adopts the following technical solutions.

This technical scheme provides an atomizing device for form smoke generator with power supply combination, its including suction end, air inlet, the intercommunication that has the outlet flue the inlet channel, oil storage pipe, air duct and atomization component of air inlet, the air duct intercommunication outlet flue and inlet channel, the air duct intercommunication the outlet flue forms the outlet flue, atomization component includes the heating element that inhales oil piece and this oil absorption piece of contact, the air duct is located in the oil storage pipe and will the inner space of oil storage pipe separates out both ends open-ended oil storage storehouse, its characterized in that: the suction end and the atomization assembly are respectively and hermetically arranged at one of two openings of the oil storage bin, the oil absorption piece is provided with an oil absorption surface facing the oil storage bin and an atomization surface facing the air inlet channel, the heating element is arranged on or close to the atomization surface, and air entering the air inlet channel reaches or approaches the atomization surface and then flows out of the smoke outlet channel.

Preferably, the atomization assembly is sleeved on the air guide pipe, the oil absorption piece is made of a ceramic material, and the thickness of the oil absorption piece is selected to be 1.3-3.5 mm.

Preferably, the atomization assembly is sleeved on the air duct, one end of the air duct sleeved with the atomization assembly penetrates through the atomization surface, a through hole is formed in the side face of the penetrating end of the air duct, at least one part of the penetrating end is in a closed state after the through hole, the through hole is communicated with the air inlet channel and the smoke outlet channel, air entering from the air inlet channel enters the air duct through the through hole, and finally flows out from the smoke outlet.

Preferably, the atomizing subassembly cup joints on the air duct, the cover is in the air duct the one end of atomizing subassembly passes the atomizing face, the side of air duct is equipped with the intercommunication inlet channel and the through-hole that goes out the cigarette passageway, a part of through-hole by the oil absorption piece covers another part and is located the end of passing of air duct, should pass the end be in at least partly closed state behind the through-hole, follow the air that inlet channel got into through behind the through-hole get into the air duct, follow at last the outlet flue flows out.

Preferably, atomization component cup joints on the air duct, the air duct cup joints atomization component's one end is equipped with the opening, the open-ended set up highly with the atomizing face flushes or is close to the atomizing face, the opening intercommunication inlet channel and play cigarette passageway, follow the air current that inlet channel got into gets into behind the opening the air duct, follow at last the outlet flue flows.

Preferably, still including connecting the electricity connection end of oil storage pipe, the electricity connection end is suitable for can dismantle the connection power supply, the air inlet is located on the electricity connection end, inlet channel locates in the electricity connection end.

Preferably, the electric connection end comprises a first electrode and a second electrode which are insulated from each other, the heating element is electrically connected with the first electrode and the second electrode, the first electrode is connected with the oil storage tube, and the air inlet is formed in the first electrode or/and the second electrode.

Preferably, the electric connection end is arranged below the atomization assembly and is abutted against the atomization assembly, and a sealing ring is arranged at the connection position of the electric connection end and the oil storage pipe.

Preferably, oil absorption cotton is further paved in the electric connection end, and is arranged below the atomization surface and does not block the air inlet channel.

Preferably, still including connecting the electricity link of oil storage pipe, the electricity link is located atomizing subassembly is with one end, atomizing subassembly cup joints on the air duct, cup joint in the air duct atomizing subassembly's one end is passed atomizing face and fixed connection become the encapsulated situation behind the electricity link, this air duct pass the end with clearance between the electricity link forms inlet channel, the air inlet is located the electricity link is equipped with the intercommunication on should passing the side of end inlet channel and play cigarette passageway's through-hole, follow the air process that inlet channel got into get into behind the through-hole the air duct follows at last the play cigarette mouth flows.

Preferably, still including connecting the electricity link of oil storage pipe, the electricity link is located atomizing subassembly is with one end, atomizing subassembly cup joints on the air duct, cup joint in the air duct atomizing subassembly's one end is passed atomizing face back fixed connection the electricity link, should pass the end and be in at least partly be the enclosed state behind the through-hole, this air duct pass the end with clearance between the electricity link forms inlet channel, the air inlet is located the electricity link is equipped with the intercommunication on the side of this end inlet channel and play cigarette passageway's through-hole follows inlet channel gets into behind the through-hole the air duct, follows at last the play cigarette mouth flows.

Preferably, still including connecting the electricity link of oil storage pipe, the electricity link is located atomizing subassembly is with one end, atomizing subassembly cup joints on the air duct, cup joint in the air duct atomizing subassembly's one end is passed atomizing face and fixed connection become closed state behind the electricity link, this air duct pass the end with clearance between the electricity link forms inlet channel, be equipped with the intercommunication on the side of air duct inlet channel and the through-hole of play cigarette passageway, partly quilt of through-hole the oil absorption piece covers another part and is located the end of passing of air duct, follow the air warp that inlet channel got into get into behind the through-hole the air duct, follow at last the play cigarette mouth flows.

Preferably, still including connecting the electricity link of oil storage pipe, the electricity link is located atomizing subassembly is with one end, atomizing subassembly cup joints on the air duct, cup joint in the air duct atomizing subassembly's one end is passed fixed connection behind the atomizing face electricity link should pass the end and be in at least partly closed state behind the through-hole, this air duct pass the end with clearance between the electricity link forms inlet channel, be equipped with the intercommunication on the side of air duct inlet channel and the through-hole of play cigarette passageway, a part quilt of through-hole oil absorption piece covers another part and is located the end of passing of air duct, follow the air that inlet channel got into passes through the through-hole back gets into the air duct, follow at last the play cigarette mouth flows.

Preferably, the electricity connect is suitable for and can dismantle the connection power supply, the electricity connect includes looks insulating first electrode and second electrode, first electrode connection the oil storage pipe, it connects to pass the end the second electrode, heating element electricity is connected first electrode and second electrode, the air inlet is located on the first electrode.

Preferably, still include the electricity connection end, the electricity connection end is including first electrode and the second electrode of looks insulation, first electrode is connected the oil storage pipe, the air inlet is located on the second electrode, atomization component cup joints on the air duct, the air duct cup joints atomization component's one end is passed atomizing face back fixed connection the second electrode, should pass and be equipped with two rows of through-holes from top to bottom on the side of end, be equipped with separation structure between two rows of through-holes from top to bottom of this air duct in order to separate two rows of through-holes from top to bottom, be close to the lower through-hole of air inlet be used for the intercommunication the air inlet with pass the clearance between end and the electricity connection end in order to form inlet channel, be close to the last through-hole of atomizing face be used for the intercommunication inlet channel and play cigarette passageway, from the air that the air inlet got into through the through-hole down, pass the clearance between end and the electricity connection end, And the smoke enters the air duct after passing through the upper through hole and finally flows out of the smoke outlet.

Preferably, oil absorption cotton is further paved in the electric connection end, and is arranged below the atomization surface and does not block the air inlet channel.

Preferably, the electric connection end is arranged below the atomization assembly and is abutted against the atomization assembly, and a sealing ring is arranged at the connection position of the electric connection end and the oil storage pipe.

Preferably, the oil suction piece is provided with at least one groove extending from the oil suction surface to the atomization surface.

Preferably, the thickness from the bottom surface of the groove to the atomization surface is selected to be greater than 0.7 mm or in the range of 0.7 mm to 1.2 mm.

This technical scheme still provides a fog generator, including atomizing device and power supply, power supply be used for the atomizing device power supply, atomizing device is the atomizing device of any one of above-mentioned technical scheme's description.

Compared with the existing atomization device and the existing smoke generator, the technical scheme is that the suction end and the atomization assembly are separately arranged at two open ends of the oil storage bin and seal the oil storage bin, the oil absorption piece is provided with an oil absorption surface facing the oil storage bin and an atomization surface facing the air inlet channel, and the heating element is arranged on or close to the atomization surface to heat the atomization surface to generate smoke; when the tobacco tar is stored in the oil storage bin, the heating element quickly heats the tobacco tar absorbed by the oil absorption surface in the oil absorption piece to generate smoke.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings required to be used in the description of the embodiments will be briefly described below, and 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 any creative effort.

Fig. 1 is a perspective view of an atomization device according to a first embodiment of the present invention.

Fig. 2 is a sectional view of an atomization device according to a first embodiment of the present invention.

Fig. 3 is an exploded view of an atomizing device according to a first embodiment of the present invention.

Fig. 4 is a perspective view of a first viewing angle of an atomization assembly according to a first embodiment of the present invention.

Fig. 5 is a perspective view of a second perspective view of an atomization assembly according to a first embodiment of the present invention.

Fig. 6 is an assembly diagram of the atomization assembly and the air duct according to a first embodiment of the present invention.

Fig. 7 is a cross-sectional view of a first structural modification of the first embodiment of the present invention.

Fig. 8 is a cross-sectional view of a second structural modification of the first embodiment of the present invention.

Fig. 9 is a cross-sectional view of a third structural modification of the first embodiment of the present invention.

Fig. 10 is a modified cross-sectional view of a fourth structure according to a first embodiment of the present invention.

Fig. 11 is a front view of a smoke generator according to a second embodiment of the present invention.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following embodiments and drawings are combined to further explain the present invention in detail. It should be understood that the detailed description and specific examples, while indicating the embodiments of the invention, are given by way of illustration only.

Detailed description of the preferred embodiment

Referring to fig. 1 and 11, the present embodiment provides an atomization device 100 for use in combination with a power supply 200 to form a smoke generator 300, wherein the atomization device 100 is configured to be supplied with air by a downward air supply scheme. As shown in fig. 2 and 3, the atomization device 100 includes a suction end 110 having a smoke outlet 111, an oil storage tube 120, an electrical connection end 130, an air inlet 131, an air inlet channel 140 communicating with the air inlet 131, an atomization assembly 150, and an air duct 160, wherein the air duct 160 communicates with the smoke outlet 111 and the air inlet channel 140, the air duct 160 communicates with the smoke outlet 111 to form a smoke outlet channel 170, and the air inlet channel 140 and the smoke outlet channel 170 together form an air flow channel. The air duct 160 is located in the oil storage tube 120 and divides the inner space of the oil storage tube 120 into an annular oil storage chamber 121 with two open ends, the suction end 110 and the atomizing assembly 150 are respectively arranged at one of the two openings 122 of the oil storage chamber 121, and the suction end 110 and the atomizing assembly 150 separately seal the two openings 122 to form the sealed oil storage chamber 121. Specifically, the suction end 170 is detachably connected to the air duct 160 through a detachable connection structure, so that the user can fill the oil storage chamber 121 with smoking materials (including cigarette paste or tobacco tar); the electrical connection terminal 130 is hermetically connected to the oil storage tube 120, and the electrical connection terminal 130 is located at the same end of the atomizing assembly 150 (i.e., at an end opposite to the suction end 110). The electrical connection end 130 is disposed below the atomizing assembly 150 and abuts against the oil suction member 151 in the atomizing assembly 150, and a sealing ring 135 is disposed at a connection position of the electrical connection end 130 and the oil storage tube 120 (in fig. 3, both sides of the main member connected in series by the dotted line are flexible sealing members, and the flexible sealing members disposed on the main member can be regarded as a part of the whole main member).

As shown in fig. 2, the air inlet 131 is located at the lower end of the atomizing assembly 150, the air inlet 131 is disposed on the electrical connection end 130, and the electrical connection end 130 is provided with a connection thread for detachably connecting the power supply 200. As shown in fig. 2 and 3, the suction end 170 and the atomizing assembly 150 are sealed with the oil storage chamber 121 by using a sealing ring (or a sealant). In this embodiment, the suction end 110 is made into a nozzle structure for facilitating suction of a user, the oil storage tube 120 is made of a transparent material, and the air guide tube 160 is made of a metal material, such as a glass material.

In this embodiment, the expressions of the vertical orientation relationship that the electrical connection terminal 130 is disposed below the atomizing assembly 150, and the air inlet 131 is located at the lower end of the atomizing assembly 150 refer to the position relationship of the relevant structure in the axial direction when the atomizing device 100 is in the vertical state.

As shown in fig. 4 and 5, the atomizing assembly 150 includes an oil sucking member 151 and a heating element 152, and the heating element 152 is disposed in the oil sucking member 151. The oil absorbing member 151 has an oil absorbing surface 1511 facing the oil storage bin 121 and an atomizing surface 1512 facing the air intake channel 140, and the heating element 152 is disposed on (or close to) the atomizing surface 1512 to heat the atomizing surface 1512, so that the smoke substance sucked by the oil absorbing member 151 at the atomizing surface 1512 is atomized to generate smoke. Air entering from the air inlet channel 140 reaches the atomizing surface 1512 or approaches the atomizing surface 1512 and then flows out of the smoke outlet channel 170 with smoke.

As shown in fig. 5 and 6, the atomizing assembly 150 is sleeved on the air duct 160, the oil absorbing member 151 is made of a ceramic material, and at least one groove 153 extending from the oil absorbing surface 1511 to the atomizing surface 1512 is formed in the oil absorbing member 151. The thickness from the bottom surface of the groove 153 to the atomizing surface 1512 is selected to be greater than 0.7 mm or in the range of 0.7 mm to 1.2 mm. When the oil absorbing member 151 is not provided with the groove 153, the thickness of the oil absorbing member 151 is preferably selected to be 1.3 mm to 3.5 mm.

As shown in fig. 2 and 6, after the atomizing assembly 150 is sleeved on the air duct 160, one end of the air duct 160 sleeved with the atomizing assembly 150 penetrates through the atomizing surface 1512 and is fixedly connected to the electrical connection end 130, so as to form a closed state. The side surface of the air duct 160 is provided with a through hole 161, and the through hole 161 is located below the atomizing surface 1512 (as shown in fig. 9, a part of the through hole 161 may be covered by the atomizing assembly 150, and another part of the through hole 161 is located below the atomizing surface 1512, that is, close to the atomizing surface 1512). The gap between the through end 162 of the air tube 160 and the electrical connection end 130 forms the air inlet channel 140, i.e. the air inlet channel 140 is located in the electrical connection end 130. A through hole 161 is located on the side of the penetration end 162, and the through hole 161 communicates the air intake passage 140 and the smoke exhaust passage 170. The air entering from the air inlet channel 140 enters the air duct 160 through the through hole 161 and finally flows out from the smoke outlet 111.

As shown in fig. 2, the electrical connection terminal 130 includes a first electrode 132 and a second electrode 133 that are insulated from each other, the heating element 152 electrically connects the first electrode 132 and the second electrode 133, the first electrode 132 is connected to the oil storage tube 120, and the first electrode 132 is provided with a thread connected to the power supply 200. The gas inlet 131 is disposed on the first electrode 132 and connected to the second electrode 133 through the end 162.

As an alternative to the first embodiment, in other embodiments, the through hole 161 may be partially covered by the oil absorbing member 151, and the other part is located at the penetrating end 162 (see fig. 9). At this time, there is an intersection between the through hole 161 and the oil suction member 151, that is, the through hole 161 is located below the oil suction surface 1511 (the highest surface of the through hole 161 is lower than the oil suction surface 1511) and does not communicate with the oil storage bin 121. In this embodiment, to prevent oil leakage, the through holes 161 are preferably located near the atomizing surface 1512 (i.e., away from the oil-attracting surface 1511).

As an alternative to the first embodiment, in other embodiments, as shown in fig. 7, the air inlet 131 may be disposed on the second electrode 133 instead, an oil absorbent cotton 134 may be laid in the electrical connection end 130, the sealing between the atomizing assembly 150 and the oil storage tube 120 is selected as a sealant 155, and the oil absorbent cotton 134 is used to absorb the smoke substances dropping from the oil absorbent member 150 (atomizing surface 1512). Specifically, the oil absorbent cotton 134 is disposed below the atomizing surface 1512 and does not obstruct the air intake passage 140. The electrical connection end 130 comprises a first electrode 132 and a second electrode 133 which are insulated from each other, the first electrode 132 is connected with the oil storage tube 120, the atomizing assembly 150 is sleeved on the air duct 160, one end of the air duct 160 sleeved on the atomizing assembly 150 passes through the atomizing surface 1512 and is fixedly connected with the second electrode 133, the side surface of the penetrating end 162 is provided with an upper row of through holes 1611 and a lower row of through holes 1612, a blocking structure 1613 is arranged between the upper through hole 1611 and the lower through hole 1612 to separate the upper row of through holes 1611 and the lower row of through holes 1612, the lower through hole 1612 close to the air inlet 131 is used for communicating the air inlet 131 with a gap between the penetrating end 162 and the electric connecting end 130 to form an air inlet channel 140, the upper through hole 1611 close to the atomizing surface 1512 is used for communicating the air inlet channel 140 with the smoke outlet channel 170, air entering from the air inlet 131 enters the air guide tube 160 through the lower through hole 1612, the gap between the penetrating end 162 and the electric connecting end 130 and the upper through hole 1611, and finally flows out from the smoke outlet 111.

As an alternative to the first embodiment, in other embodiments, as shown in FIG. 8, the through end 162 may be eliminated when the atomizing assembly 150 is designed to be thicker for the purpose of securing one end of the airway tube 160. Specifically, the atomizing assembly 150 is sleeved on the air duct 160, an opening 164 is arranged at one end of the air duct 160, which is sleeved on the atomizing assembly 150, the opening 164 is flush with the atomizing surface 1512 or close to the atomizing surface 1512, the opening 164 is used for communicating the air inlet channel 140 with the smoke outlet channel 170, the air flow entering from the air inlet channel 140 enters the air duct 160 through the opening 164, and finally flows out from the smoke outlet 111.

Alternatively to the first embodiment, in other embodiments, as shown in fig. 9, when the atomizing assembly 150 is designed to be thicker for the purpose of fixing one end of the airway tube 160, the second electrode 133 may not be connected to the penetrating end 162; in addition, the air inlet 131 is instead disposed on the second electrode 133, the upper end surface of the through hole 161 is covered by the oil sucking member 151, the lower end surface is located below the atomizing surface 1512 and on the penetrating end 162 (i.e., there is an intersection between the through hole 161 and the oil sucking member 151), and the seal between the atomizing assembly 150 and the oil storage tube 120 is selected as a sealant. Specifically, the atomizing assembly 150 is sleeved on the air duct 160, one end of the air duct 160 sleeved with the atomizing assembly 150 passes through the atomizing surface 1512, a through hole 161 is formed in the side surface of the through end 162 of the air duct 160, the through end 162 is in a closed state after the through hole 161, the through hole 161 is located below the oil suction surface 1511 (the through hole 161 is not communicated with the oil storage bin 121), one part of the through hole 161 is covered by the oil suction member 151, the other part of the through hole is located at the through end 162, the through end 162 is in a closed state after the through hole 161, the through hole 161 is communicated with the air inlet channel 140 and the smoke outlet channel 170, air entering from the air inlet channel 140 enters the air duct 160 after passing through the through hole 161, and finally flows out from the smoke outlet 111.

In another embodiment, as a modification of the embodiment shown in fig. 9, as shown in fig. 10, the air inlet 131 is disposed on the first electrode 132, the thickness of the oil absorbing member 151 is selected to be 4mm, the thickness from the bottom surface of the recess 153 to the atomizing surface 1512 is selected to be 0.8 mm, the upper end surface of the through hole 161 is flush with the atomizing surface 1512, and the seal between the atomizing assembly 150 and the oil storage tube 120 is selected to be a sealing ring. When the oil absorbing member 151 is relatively thick, it is preferable to use the fitting groove 153. Specifically, the atomizing assembly 150 is sleeved on the air duct 160, one end of the air duct 160 sleeved with the atomizing assembly 150 penetrates through the atomizing surface 1512, a through hole 161 is formed in the side surface of the end 162 of the air duct 160, the end 162 penetrates after the through hole 161 is in a closed state, the through hole 161 is communicated with the air inlet channel 140 and the smoke outlet channel 170, air entering from the air inlet channel 140 enters the air duct 160 through the through hole 161, and finally flows out from the smoke outlet 111.

Because the suction end 110 and the atomizing assembly 150 are separately disposed at the two openings 122 of the oil storage bin 121 and seal the oil storage bin 121, the oil absorbing member 151 has an oil absorbing surface 1511 facing the oil storage bin 121 and an atomizing surface 1512 facing the air intake passage 140, and the heating element 152 is disposed at or near the atomizing surface 1512 to heat the atomizing surface 1512 to generate smoke, when the oil in the oil storage bin 121 contains smoke paste, the temperature of the atomizing surface 1512 is higher to generate smoke when the heating element 152 is operated, the temperature of the oil absorbing surface 1511 is lower to melt the smoke paste to obtain smoke oil, and the smoke oil is absorbed by the oil absorbing member 151 to be heated and atomized by the heating element 152; when the oil storage bin 121 stores the tobacco tar, the heating element 152 will heat the tobacco tar sucked by the oil suction surface of the oil suction member 151 quickly to generate smoke.

It should be noted that, because the densities of the tobacco tar and the tobacco paste are different, the concentrations of different tobacco tar are different, and the adaptation requirements on the porosity (oil absorption parameter) of the oil absorption piece are also different, when the atomization device using the tobacco paste is used for sucking the tobacco tar with low concentration, a user is recommended to suck for a short time to meet the suction requirement of the user at this time, and the tobacco tar with low concentration is not recommended to be stored for a long time to prevent an oil leakage event after the oil absorption piece absorbs supersaturated tobacco tar in a vibration environment.

Detailed description of the invention

As shown in fig. 11, the present embodiment discloses an aerosol generator 300, which includes an atomizing device 100 for forming aerosol and a power supply 200 for supplying power to the atomizing device 100, wherein the atomizing device 100 and the power supply 200 are connected by a screw thread, and the atomizing device 100 is the atomizing device described in the first embodiment.

The above-described embodiments are merely preferred embodiments of the present invention for aiding understanding of the present invention, and should not be construed as limiting the present invention. It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention, such as any minor or equivalent changes in the form or construction of the invention.

Claims (20)

1. The utility model provides an atomizing device for form smoke generator with power supply combination, its is including suction end, air inlet, the intercommunication that has the outlet flue the inlet channel, oil storage pipe, air duct and the atomization component of air inlet, the air duct intercommunication outlet flue and inlet channel, the air duct intercommunication the outlet flue forms the outlet flue, the atomization component includes the oil absorption piece and contacts this oil absorption piece's heating element, the air duct is located in the oil storage pipe and will the inner space of oil storage pipe separates out both ends open-ended oil storage storehouse, its characterized in that: the suction end and the atomization assembly are respectively and hermetically arranged at one of two openings of the oil storage bin, the oil absorption piece is provided with an oil absorption surface facing the oil storage bin and an atomization surface facing the air inlet channel, the heating element is arranged on or close to the atomization surface, and air entering the air inlet channel reaches or approaches the atomization surface and then flows out of the smoke outlet channel.

2. The atomizing device of claim 1, wherein: the atomization assembly is sleeved on the air guide pipe, the oil absorption piece is made of ceramic materials, and the thickness of the oil absorption piece is selected to be 1.3-3.5 mm.

3. The atomizing device of claim 1, wherein: the atomization component is sleeved on the air guide tube, one end of the atomization component is sleeved in the air guide tube and penetrates through the atomization surface, a through hole is formed in the side face of the penetrating end of the air guide tube, at least one part of the penetrating end is in a closed state after the through hole, the through hole is communicated with the air inlet channel and the smoke outlet channel, air entering the air inlet channel passes through the through hole and then enters the air guide tube, and finally the air guide tube flows out of the smoke outlet.

4. The atomizing device of claim 1, wherein: the atomization component is sleeved on the air guide tube, one end of the atomization component penetrates through the atomization surface, the side surface of the air guide tube is provided with a through hole communicated with the air inlet channel and the smoke outlet channel, one part of the through hole is covered by the oil absorption piece, the other part of the through hole is located at the penetrating end of the air guide tube, at least one part of the penetrating end is in a closed state after the through hole, air entering from the air inlet channel enters the air guide tube after passing through the through hole, and finally flows out from the smoke outlet.

5. The atomizing device of claim 1, wherein: the atomization component is sleeved on the air guide tube, an opening is formed in one end of the atomization component, the opening is formed in the height, flush with or close to the atomization surface, of the atomization surface, the opening is communicated with the air inlet channel and the smoke outlet channel, air flow entering the air inlet channel enters the air guide tube after passing through the opening, and finally flows out of the smoke outlet.

6. The atomizing device of claim 1, 2, 3, 4, or 5, wherein: still including connecting the electricity link of oil storage pipe, the electricity link is suitable for to dismantle the connection power supply, the air inlet is located on the electricity link, inlet channel locates in the electricity link.

7. The atomizing device of claim 6, wherein: the electric connection end comprises a first electrode and a second electrode which are insulated mutually, the heating element is electrically connected with the first electrode and the second electrode, the first electrode is connected with the oil storage pipe, and the air inlet is arranged on the first electrode or/and the second electrode.

8. The atomizing device of claim 6, wherein: the electric connection end is arranged below the atomization assembly and is abutted against the atomization assembly, and a sealing ring is arranged at the connection position of the electric connection end and the oil storage pipe.

9. The atomizing device of claim 6, wherein: oil absorption cotton is further paved in the electric connection end, and is arranged below the atomization surface and does not block the air inlet channel.

10. The atomizing device of claim 1, wherein: still including connecting the electricity link of oil storage pipe, the electricity link is located atomizing subassembly is with one end, atomizing subassembly cup joints on the air duct, cup joint in the air duct atomizing subassembly's one end is passed atomizing face and fixed connection become closed state behind the electricity link, this air duct pass the end with clearance between the electricity link forms inlet channel, the air inlet is located the electricity link is equipped with the intercommunication on the side of should passing the end inlet channel and the through-hole of play cigarette passageway follow the air warp that inlet channel got into get into behind the through-hole the air duct follows at last the play cigarette mouth flows.

11. The atomizing device of claim 1, wherein: still including connecting the electricity link of oil storage pipe, the electricity link is located atomizing subassembly is same end, atomizing subassembly cup joints on the air duct, cup joint in the air duct atomizing subassembly's one end is passed fixed connection behind the atomizing surface electricity link, this air duct pass the end with clearance between the electricity link forms inlet channel, the air inlet is located the electricity link is equipped with the intercommunication on the side of should passing the end inlet channel and the through-hole of play cigarette passageway should pass the end and be in at least partly be the encapsulated situation after the through-hole, follow the air warp that inlet channel got into get into behind the through-hole the air duct, follow at last the play cigarette mouth flows.

12. The atomizing device of claim 1, wherein: still including connecting the electricity link of oil storage pipe, the electricity link is located atomizing subassembly is with one end, atomizing subassembly cup joints on the air duct, cup joint in the air duct atomizing subassembly's one end is passed atomizing face and fixed connection become closed state behind the electricity link, this air duct pass the end with clearance between the electricity link forms inlet channel, be equipped with the intercommunication on the side of air duct inlet channel and the through-hole of play cigarette passageway, partly quilt of through-hole oil absorption piece covers another part and is located the end of passing of air duct follows the air warp that inlet channel got into behind the through-hole the air duct follows the outlet flue flows.

13. The atomizing device of claim 1, wherein: still including connecting the electricity link of oil storage pipe, the electricity link is located atomizing subassembly is with one end, atomizing subassembly cup joints on the air duct, cup joint in the air duct atomizing subassembly's one end is passed fixed connection behind the atomizing face electricity link, this air duct pass the end with clearance between the electricity link forms inlet channel, be equipped with the intercommunication on the side of air duct inlet channel and the through-hole of play cigarette passageway, a part quilt of through-hole oil absorption piece covers another part and is located the end of passing of air duct, should pass the end and be in at least a part is the enclosed condition behind the through-hole, follows the air that inlet channel got into passes through get into behind the through-hole the air duct, follow at last the play cigarette mouth flows.

14. The atomizing device of claim 10, 11, 12, or 13, wherein: the electricity connection end is suitable for and can dismantle the connection power supply, the electricity connection end is including looks insulating first electrode and second electrode, first electrode connection the oil storage pipe, it connects to pass the end the second electrode, heating element electricity is connected first electrode and second electrode, the air inlet is located on the first electrode.

15. The atomizing device of claim 1, wherein: still include the electricity connection end, the electricity connection end is including insulated first electrode and second electrode mutually, first electrode is connected the oil storage pipe, the air inlet is located on the second electrode, atomization component cup joints on the air duct, the air duct cup joints atomization component's one end is passed fixed connection behind the atomizing face second electrode should pass and be equipped with two rows of through-holes from top to bottom on the side of end, be equipped with separation structure between two rows of through-holes from top to bottom of this air duct in order to separate two rows of through-holes from top to bottom, be close to the lower through-hole of air inlet be used for the intercommunication the air inlet with pass the clearance between end and the electricity connection end in order to form inlet channel, be close to the last through-hole of atomizing face is used for the intercommunication inlet channel and play cigarette passageway, follow the air that the air inlet got into passes through the lower through-hole, pass the clearance between end and the electricity connection end, the electricity connection end, And the smoke enters the air duct after passing through the upper through hole and finally flows out of the smoke outlet.

16. The atomizing device of claim 10, 11, 12, 13, or 15, wherein: oil absorption cotton is further paved in the electric connection end, and is arranged below the atomization surface and does not block the air inlet channel.

17. The atomizing device of claim 10, 11, 12, 13, or 15, wherein: the electric connection end is arranged below the atomization assembly and is abutted against the atomization assembly, and a sealing ring is arranged at the connection position of the electric connection end and the oil storage pipe.

18. The atomizing device of claim 1, 2, 3, 4, or 5, wherein: the oil suction piece is provided with at least one groove extending from the oil suction surface to the atomization surface.

19. The atomizing device of claim 18, wherein: the thickness from the bottom surface of the groove to the atomization surface is selected to be larger than 0.7 mm or in the range of 0.7 mm-1.2 mm.

20. A smoke generator, includes atomizing device and power supply, power supply is used for giving atomizing device power supply, its characterized in that: the atomizing device is as claimed in any one of claims 1 to 19.

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