CN110507002A - A kind of atomising device - Google Patents
A kind of atomising device Download PDFInfo
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- CN110507002A CN110507002A CN201910873023.6A CN201910873023A CN110507002A CN 110507002 A CN110507002 A CN 110507002A CN 201910873023 A CN201910873023 A CN 201910873023A CN 110507002 A CN110507002 A CN 110507002A
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- Prior art keywords
- component
- heating
- oil storage
- atomising device
- heating component
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- 238000010438 heat treatment Methods 0.000 claims abstract description 328
- 238000003860 storage Methods 0.000 claims abstract description 93
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims abstract description 31
- 239000007921 spray Substances 0.000 claims description 30
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- 229910052751 metal Inorganic materials 0.000 claims description 9
- 239000002184 metal Substances 0.000 claims description 9
- 238000000889 atomisation Methods 0.000 claims description 7
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- PXHVJJICTQNCMI-UHFFFAOYSA-N Nickel Chemical compound [Ni] PXHVJJICTQNCMI-UHFFFAOYSA-N 0.000 description 4
- 230000002745 absorbent Effects 0.000 description 4
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- 229910000990 Ni alloy Inorganic materials 0.000 description 2
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Abstract
This application involves a kind of atomising devices.The atomising device proposed includes heating component top cover, heating component pedestal and the heating component being set between the heating component top cover and the heating component pedestal.The heating component includes the first heating circuit, has the first opening.The heating component includes oil storage component, with first surface.First heating circuit is set on the first surface of the oil storage component, and a part of the oil storage component extends into first opening.
Description
Technical field
This exposure relates generally to a kind of atomization (vaporization) device and its heating component, in particular to one
Kind provides the electronic device and its heating component of inhalable aerosol (aerosol).
Background technique
A kind of electronic product of electronic cigarette system by nebulizable solution heating atomization and generates aerosol so that user sucks.Closely
Nian Lai, all big enterprises start to produce miscellaneous electronics smoke product.In general, an electronics smoke product includes shell, oil storage
Room, spray chamber, heating component, air inlet, airflow channel, gas outlet, power supply device, sensing device and control device.Oil storage room
For storing nebulizable solution, heating component is used for nebulizable solution heating atomization and generates aerosol.Air inlet and spray chamber
It communicates with each other, provides air to heating component when the wearer inhales the air.Atomization is first generated from by the aerosol of heating component generation
Interior is then inhaled by the user via airflow channel and gas outlet.Electric power needed for power supply device provides heating component, control
User's aspiratory action that device is detected according to sensing device, controls the heating time of heating component.Shell then coats above-mentioned each
A component.
Existing electronics smoke product haves the defects that different.For example, common electronics smoke product uses cotton core and gold
Belong to heating wire as heating component.The heating wire of such heating component only locally wraps up cotton core.If in the fabrication process not especially
In view of the close and degree of heating wire and cotton core, heating wire and cotton core poor contact often will lead to.Poor contact may cause fever
Silk generate heat can not pass to cigarette by.It is excessively high that poor contact may cause heating wire local temperature, and then burns cotton core simultaneously
Generate the smell of burning.The cotton core burnt may also generate the substance being harmful to the human body.
In addition, electronics smoke product in the prior art may cause assembling yield bad to reduce component count.It is existing
There is the electronics smoke product in technology in order to reduce component count instead may increase component manufacturing cost.In addition, the prior art
In electronics smoke product may not consider the high temperature problem of aerosol, the potential collision hazard for causing user to burn.
It is therefore proposed that the atomising device that one kind can solve the above problems.
Summary of the invention
It is proposed a kind of atomising device.The atomising device proposed includes heating component top cover, heating component pedestal and setting
Heating component between the heating component top cover and the heating component pedestal.The heating component includes the first heating electric
Road has the first opening.The heating component includes oil storage component, with first surface.First heating circuit is set
It is placed on the first surface of the oil storage component, and a part of the oil storage component extends into first opening.
It is proposed a kind of atomising device.The atomising device proposed includes heating component top cover, heating component pedestal and heating
Component.The heating component includes: the first heating circuit and oil storage component.First heating circuit is with first surface and again
Several openings.The oil storage component has first surface.First heating circuit is set to described the of the oil storage component
On one surface, and the first surface of first heating circuit and the first surface of the oil storage component are non-coplanar.
Detailed description of the invention
When read in conjunction with the accompanying drawings, from the various aspects described in detail below for being readily appreciated that this exposure.It should be noted that various features
May be not drawn on scale, and the size of various features can for discussion it is clear for the sake of and arbitrarily increase or reduce.
Fig. 1 illustrates the atomising device combination diagram of some embodiments according to this exposure.
Fig. 2A and 2B illustrates the exploded view of a part of atomising device according to some embodiments of the present invention.
Fig. 3 A, 3B and 3C illustrate the heating component schematic diagram of some embodiments according to this exposure.
Fig. 4 A, 4B and 4C illustrate the heating component schematic diagram of some embodiments according to this exposure.
Fig. 5 A and 5B illustrate the sectional view of smoke grenade according to some embodiments of the present invention.
Same or like component is indicated using common reference numerals through schema and detailed description.According to below in conjunction with attached
The characteristics of detailed description that figure is made, this exposure, will become apparent from.
Specific embodiment
Following disclosure provides many different embodiments or reality of the different characteristic for implementing provided subject matter
Example.The particular instance of component and arrangement is described below.Certainly, these are only examples and are not intended to be restrictive.Originally it is taking off
In dew, in the following description to fisrt feature on second feature or on the reference of formation may include fisrt feature and second
Feature directly contacts the embodiment of formation, and also may include additional features can be formed between fisrt feature and second feature from
And the embodiment that fisrt feature and second feature can be not directly contacted with.In addition, this exposure may repeat in various embodiments
Reference label and/or letter.This repeats to be for purposes of simplicity and clarity, and not indicate that discussed various implementations in itself
Relationship between example and/or configuration.
The embodiment of this exposure is discussed in detail below.It will be appreciated, however, that provide can be diversified specific for this exposure
The many applicable concepts implemented in situation.Discussed specific embodiment is merely illustrative and is not intended to limit this exposure
Range.
Fig. 1 illustrates the schematic diagram of atomising device according to some embodiments of the present invention.
Atomising device 100 may include smoke grenade (cartridge) 100A and main body 100B.In certain embodiments, smoke grenade
100A and main body 100B may be designed as an entirety.In certain embodiments, smoke grenade 100A and main body 100B may be designed to separate
Two components.In certain embodiments, smoke grenade 100A is with may be designed to removable in conjunction with main body 100B.In some embodiments
In, when smoke grenade 100A is in conjunction with main body 100B, a part of smoke grenade 100A is accommodated in main body 100B.
It may include a variety of components in main body 100B.May include although not drawn in Fig. 1, in main body 100B it is conductive play needle,
Sensor, circuit board, leaded light component, Buffer Unit, power supply module (such as, but not limited to battery or rechargeable battery), power supply group
Required component when part bracket, motor, charging panel etc. are for the operation of atomising device 100.Main body 100B can provide power to cigarette
Play 100A.The nebulizable material being stored in smoke grenade 100A can be heated by the power supply that main body 100B is provided to smoke grenade 100A.It can
Atomizing material can be a kind of liquid.Nebulizable material can be a kind of solution.In this exposure subsequent paragraph, nebulizable material
Also referred to as tobacco tar.Tobacco tar system is edible.
Fig. 2A and 2B illustrates the exploded view of a part of atomising device according to some embodiments of the present invention.
Smoke grenade 100A includes cigarette holder cover (mouthpiece) 1, smoke grenade shell 2, seal assembly (seal member) 3, heating
Component top cover 4, heating component 5, heating component pedestal 6 and smoke grenade pedestal 7.
In certain embodiments, cigarette holder cover 1 can be two components separated with smoke grenade shell 2.In certain embodiments,
Cigarette holder cover 1 can be integrally formed with smoke grenade shell 2.Cigarette holder cover 1 has hole 1h.The some in hole 1h composition aerosol channel.Atomization
The aerosol that device 100 generates can be sucked via hole 1h by user.
Seal assembly 3 can be placed on the pipe 4t1 of heating component top cover 4.The pipe of seal assembly 3 and heating component top cover 4
4t1 has similar external form.In certain embodiments, seal assembly 3 has cyclic annular external form.In certain embodiments, seal assembly 3
There can be other external forms.Seal assembly 3 can have pliability.Seal assembly 3 can have ductility.In some embodiments
In, seal assembly 3 may include silica gel material.
In certain embodiments, seal assembly 3 can have the hardness between 20 to 40.In certain embodiments, sealing group
Part 3 can have the hardness between 40 to 60.In certain embodiments, seal assembly 3 can have the hardness between 60 to 75.Herein
The stiffness units used is shore hardness A type (Shore Hardness A;HA).In certain embodiments, seal assembly 3 is hard
Degree can be not limited to above range.
The side of heating component top cover 4 has hole 4h.The other side of heating component top cover 4 also has hole.Heating component top
Lid 4 may include plastic material.In certain embodiments, heating component top cover 4 may include polypropylene (PP), high pressure polyethylene
(LDPE), the materials such as high density polyethylene (HDPE) (HDPE).In certain embodiments, heating component top cover 4 may include silica gel material.
Heating component top cover 4 can be used identical material with seal assembly 3 and be made.Heating component top cover 4 and seal assembly 3
Different materials can be used to be made.Heating component top cover 4 and seal assembly 3 may include different materials.In certain embodiments,
The hardness of heating component top cover 4 can be greater than the hardness of seal assembly 3.In certain embodiments, heating component top cover 4 can have
Hardness between 65 to 75.In certain embodiments, heating component top cover 4 can have the hardness between 75 to 85.In certain realities
It applies in example, heating component top cover 4 can have the hardness between 85 to 90.In certain embodiments, the hardness of heating component top cover 4
It can be not limited to above range.
The both ends of heating component 5 can extend beyond hole 4h.The both ends of heating component 5 can be exposed by hole 4h.
In certain embodiments, heating component 5 may include cotton core material.In certain embodiments, heating component 5 can be with
Include non-woven fabrics material.In certain embodiments, heating component 5 may include ceramic material.In certain embodiments, heating group
Part 5 may include the composition of cotton core, non-woven fabrics or ceramics.
Heating component 5 includes heating line 51.Heating line 51 can wind some of heating component 5.Heating line
51 can wind the central part of heating component 5.Power supply is provided via to heating line 51, atomising device 100 can make heating group
5 temperature of part rises.
Heating line 51 may include metal material.In certain embodiments, heating line 51 may include silver.In certain implementations
In example, heating line 51 may include platinum.In certain embodiments, heating line 51 may include palladium.In certain embodiments, it heats
Route 51 may include nickel.In certain embodiments, heating line 51 may include nickel alloy material.
Heating component pedestal 6 includes groove 6r.Heating component 5 can be set on groove 6r.Heating component 5 can be recessed
Slot 6r support.Heating component 5 can be fixed between heating component top cover 4 and groove 6r.Heating component pedestal 6 includes hole 6h1
And 6h2.Hole 6h1 and 6h2 extends into heating component pedestal 6.Hole 6h1 and 6h2 run through heating component pedestal 6.
Smoke grenade pedestal 7 includes column structure 7p1 and 7p2.Column structure 7p1 can be extended into the 6h1 of hole.Column structure
7p1 can be with hole 6h1 mechanical couplings.Column structure 7p2 can be extended into the 6h2 of hole.Column structure 7p2 can be with hole 6h2
Mechanical couplings.Smoke grenade pedestal 7 can be fixed to heating component pedestal 6 by column structure 7p1 and 7p2.Smoke grenade pedestal 7 includes hole
7h1 and hole 7h2.The some in hole 7h1 composition aerosol channel.Heating line 51 extend through via hole 7h2 with be set to main body
The conductive component 11 of 100B forms electrical connection.Smoke grenade pedestal 7 includes absorbent module 7m.Absorbent module 7m may include metal material.
Absorbent module 7m can be set to the magnet assembly 12 of main body 100B with magnetic couplings.Absorbent module 7m can be set to master
Couple to 12 removable property of magnet assembly of body 100B.
Fig. 3 A, 3B and 3C illustrate the heating component schematic diagram of some embodiments according to this exposure.
Fig. 3 A shows heating component 500.The heating component 500 that Fig. 3 A is shown can be used as the heating shown in Fig. 2A and 2B
The replacement assemblies of component 5.The heating component top cover 4 and heating component pedestal 6 shown in Fig. 2A and 2B can be with heating component 500
External form accordingly modify.
Heating component 500 may include heating circuit 52.Heating component 500 may include oil storage component 53.Heating circuit 52 can
With plurality of openings.In certain embodiments, heating circuit 52 may include nickel metal.In certain embodiments, heating circuit
52 may include chromium metal.In certain embodiments, heating circuit 52 may include titanium.In certain embodiments, heating circuit
52 may include aluminum metal.In certain embodiments, heating circuit 52 may include ferrous metal.In certain embodiments, heating circuit
52 may include nichrome.In certain embodiments, heating circuit 52 may include iron-nickel alloy.In certain embodiments, it generates heat
Circuit 52 may include fe-cr-ni alloy.In certain embodiments, heating circuit 52 may include Aludirome.In some embodiments
In, heating circuit 52 may include stainless steel.
Heating circuit 52 can have length 52L and width 52W.In certain embodiments, heating circuit 52 can have rectangle
External form.In certain embodiments, length 52L can be greater than width 52W.In certain embodiments, length 52L and width 52W
Ratio can be between 1 to 10.
Heating circuit 52 can be made of a plurality of metal wires.Heating circuit 52 can be interwoven by a plurality of metal wires.Hair
Heater circuit 52 may include 30 microns of line footpath (micrometer) to 50 microns of metal wire.Heating circuit 52 can be by with line footpath 30
The metal wire of micron (micrometer) to 50 microns is constituted.
Heating circuit 52 can expose a part of 53 upper surface 53s1 of oil storage component.Heating circuit 52 can cover oil storage
A part of 53 upper surface 53s1 of component.Heating circuit 52 can expose about the 20% to 28% of 53 upper surface 53s1 of oil storage component
Area.Heating circuit 52 can expose about 28% to 33% area of 53 upper surface 53s1 of oil storage component.Heating circuit 52 can be with
About 33% to 40% area of exposure 53 upper surface 53s1 of oil storage component.
In certain embodiments, heating circuit 52 can have 20% to 28% aperture opening ratio.In certain embodiments, it generates heat
Circuit 52 can have 28% to 33% aperture opening ratio.In certain embodiments, heating circuit 52 can have 33% to 40% to open
Mouth rate.The aperture opening ratio of heating circuit 52, can be via 52 total open area of heating circuit compared with the gross area of heating circuit 52
It obtains.
In certain embodiments, oil storage component 53 may include non-woven fabrics.In certain embodiments, oil storage component 53 may include
Blotting paper.In certain embodiments, oil storage component 53 may include cotton.In certain embodiments, heating component 500 may include list
The oil storage component 53 of layer.In certain embodiments, oil storage component 53 may include multilayered structure.In certain embodiments, oil storage
Component 53 may include two layers of blotting paper.In certain embodiments, oil storage component 53 may include two layers of cotton.In certain implementations
In example, oil storage component 53 may include two layers of non-woven fabrics.
In certain embodiments, oil storage component 53 may include multi-layer compound structure.In certain embodiments, oil storage component 53
It may include the composite construction being made of non-woven fabrics and cotton.In certain embodiments, oil storage component 53 may include by non-woven fabrics and
The composite construction of blotting paper composition.In certain embodiments, oil storage component 53 may include be made of cotton and blotting paper it is compound
Structure.
Heating circuit 52 can be bonded to each other with oil storage component 53 via hot pressing technology.Heating circuit 52 and oil storage component 53
It can be bonded to each other via adhesive agent.Heating circuit 52 and oil storage component 53 can via additional fastening assembly (not shown) that
This is combined.
Though not showing in Fig. 3 A, heating component 500 can further comprise the conductive component being electrically connected with heating circuit 52.Mist
Makeup, which sets 100, to provide power to heating component 500 by conductive component.
Fig. 3 B shows the sectional view of heating component 500.Fig. 3 B shows the heating electric being bonded to each other via hot pressing technology
Road 52 and oil storage component 53.In certain embodiments, 52 portion concave of heating circuit is in oil storage component 53.In some embodiments
In, oil storage component 53 is partially extended into the opening 52o of heating circuit 52.In certain embodiments, oil storage component 53 can portion
It protrudes from the opening 52o of heating circuit 52 with dividing.
As shown in Figure 3B, oil storage component 53 has upper surface 53s1, and heating circuit 52 has upper surface 52s1.Certain
In embodiment, upper surface 52s1 and upper surface 53s1 can be substantially coplanar.In certain embodiments, upper surface 52s1 with it is upper
Surface 53s1 can be with non-co-planar.In certain embodiments, upper surface 53s1 can protrude from upper surface 52s1.In certain implementations
In example, upper surface 53s1 can be lower than upper surface 52s1.
Netted heating circuit 52 is presented to have many advantages.Netted heating circuit 52, which is presented, can increase and oil storage component
53 contact area.The reticular structure of heating circuit 52 can come into full contact with the adsorbed tobacco tar of oil storage component 53.Heating circuit
52 reticular structure can reduce the probability of smell of burning generation.The reticular structure of heating circuit 52 can reduce thermal loss.Heating circuit
52 reticular structure can accelerate aerosol and generate speed.Faster aerosol, which generates speed, will bring preferable user to experience.
It is had many advantages via hot pressing technology combination heating circuit 52 with oil storage component 53.Heating circuit 52 and oil storage
Component 53 can have similar area.It can make heating circuit 52 via hot pressing technology combination heating circuit 52 and oil storage component 53
It is come into full contact with oil storage component 53.
Fig. 3 C shows the sectional view of heating component 501.The heating component 501 that Fig. 3 C is shown can be used as in Fig. 2A and 2B and show
The replacement assemblies for the heating component 5 shown.The heating component top cover 4 and heating component pedestal 6 shown in Fig. 2A and 2B can be with adding
The external form of hot component 501 is accordingly modified.
Heating component 501 may include heating circuit 52a, heating circuit 52b and be set to heating circuit 52a and heating circuit
Oil storage component 53 between 52b.Heating circuit 52a may be disposed on the surface 53s1 of oil storage component 53.Heating circuit 52b can be set
It is placed on the surface 53s2 of oil storage component 53.In certain embodiments, heating component 501 may include more layers and stack the hair set
Heater circuit.In certain embodiments, heating component 501 may include more layers and stack the oil storage component set.
The relativeness of the surface 53s2 of heating circuit 52b and oil storage component 53 can be similar to shown in Fig. 3 B.At certain
In a little embodiments, the surface of heating circuit 52b can be substantially coplanar with the surface 53s2 of oil storage component 53.In certain implementations
In example, the surface of heating circuit 52b can be with the surface 53s2 non-co-planar of oil storage component 53.In certain embodiments, it generates heat
The surface of circuit 52b can be depressed in the surface 53s2 of oil storage component 53.
Heating circuit 52a, oil storage component 53 and heating circuit 52b can be bonded to each other via hot pressing technology.Heating circuit
52a can be bonded to each other with oil storage component 53 via adhesive agent.Heating circuit 52b can be tied each other with oil storage component 53 via adhesive agent
It closes.In certain embodiments, heating circuit 52a, oil storage component 53 and heating circuit 52b can be via additional fastening assembly (figures
In do not show) be bonded to each other.
Though not showing in Fig. 3 C, heating component 501 can further comprise the conduction being electrically connected with heating circuit 52a and 52b
Component.Atomising device 100 can provide power to heating component 501 by conductive component.
Fig. 4 A, 4B and 4C illustrate the heating component schematic diagram of some embodiments according to this exposure.
Fig. 4 A shows the schematic diagram of heating component 502.The heating component 502 that Fig. 4 A is shown can be used as in Fig. 2A and 2B and show
The replacement assemblies for the heating component 5 shown.The heating component top cover 4 and heating component pedestal 6 shown in Fig. 2A and 2B can be with adding
The external form of hot component 502 is accordingly modified.
Heating component 502 may include heating circuit 52 and oil storage component 53.Heating component 502 can be via will be shown in Fig. 3 A
Heating component 500 crimps.Although not drawing in Fig. 4 A, a part of oil storage component 53 may extend into heating circuit 52
In opening.
Heating circuit 52 may include first part 52d1 and second part 52d2.Oil storage component 53 may include first part
53d1 and second part 53d2.As shown in Figure 4 A, the first part 53d1 of oil storage component 53 may be disposed at the of heating circuit 52
Between a part of 52d1 and second part 52d2.As shown in Figure 4 A, the second part 52d2 of heating circuit 52 may be disposed at oil storage
Between the first part 53d1 and second part 53d2 of component 53.
The structure of heating component 502 can increase the contact area of heating circuit 52 Yu oil storage component 53.Heating component 502
Structure can increase the contact forces of heating circuit 52 Yu oil storage component 53.For example, the second part of heating circuit 52
52d2 can be contacted with the first part 53d1 of oil storage component 53 and second part 53d2 simultaneously.For example, oil storage component 53
First part 53d1 can be contacted with the first part 52d1 of heating circuit 52 and second part 52d2 simultaneously.
Heating component 502 can further comprise conductive component 52p1 and conductive component 52p2.Conductive component 52p1 and fever
Circuit 52 is electrically connected.Conductive component 52p2 is electrically connected with heating circuit 52.Power supply module in main body 100B can be via conductive group
Part 52p1 and conductive component 52p2 is to 502 output power of heating component.
Fig. 4 B shows the schematic diagram of heating component 503.The heating component 503 that Fig. 4 B is shown can be used as in Fig. 2A and 2B and show
The replacement assemblies for the heating component 5 shown.The heating component top cover 4 and heating component pedestal 6 shown in Fig. 2A and 2B can be with adding
The external form of hot component 503 is accordingly modified.
Heating component 503 may include heating circuit 52 and oil storage component 53.Oil storage component 53 can have cylindrical shape.In
In some embodiments, oil storage component 53 can have cuboid external form.Oil storage component 53 can have circumference 53c.
As shown in Figure 4 B, heating circuit 52 can surround oil storage component 53.In certain embodiments, heating circuit 52 can be complete
Around circumference 53c.Oil storage component 53 can have one side wall 53w.Side wall 53w can have the smooth surface of essence.Side wall 53w can
With rough surface.
In certain embodiments, heating circuit 52 can be not extend on side wall 53w.Side wall can be completely exposed in heating circuit 52
53w.In certain embodiments, heating circuit 52 may extend on side wall 53w.In certain embodiments, heating circuit 52 can cover
At least part of lid side wall 53w.
The structure of heating component 503 can increase the contact area of heating circuit 52 Yu oil storage component 53.Heating component 503
Structure can increase the contact forces of heating circuit 52 Yu oil storage component 53.
Heating component 503 can further comprise conductive component 52p1 and conductive component 52p2.Conductive component 52p1 and fever
Circuit 52 is electrically connected.Conductive component 52p2 is electrically connected with heating circuit 52.Power supply module in main body 100B can be via conductive group
Part 52p1 and conductive component 52p2 is to 503 output power of heating component.
Fig. 4 C shows the schematic diagram of heating component 504.The heating component 504 that Fig. 4 C is shown can be used as in Fig. 2A and 2B and show
The replacement assemblies for the heating component 5 shown.The heating component top cover 4 and heating component pedestal 6 shown in Fig. 2A and 2B can be with adding
The external form of hot component 504 is accordingly modified.
As shown in Figure 4 C, heating circuit 52 can have an opening 52n.Heating circuit 52 can surround a part of circumference 53c.
In certain embodiments, opening 52n can expose a part of circumference 53c.
The opening 52n of heating circuit 52 has many advantages.Opening 52n can reduce the manufacture difficulty of heating circuit 52.It opens
Mouth 52n can reduce the metal wire volume of heating circuit 52.Opening 52n can reduce heating circuit 52 and the assembling of oil storage component 53 is difficult
Degree.
Fig. 5 A and 5B illustrate the sectional view of smoke grenade according to some embodiments of the present invention.
Smoke grenade shell 2 and heating component top cover 4 define holding bay 30.Volatile material can be stored in holding bay 30.
Volatile liquid can be stored in holding bay 30.Volatile material can be a kind of liquid.Volatile material can be
A kind of solution.In the application subsequent paragraph, volatile material is also referred to as tobacco tar.Tobacco tar system is edible.
2 inner wall of smoke grenade shell has rib 2r1,2r2,2r3 and 2r4.Rib 2r1 and the interval rib 2r2 are arranged.Rib 2r1 and rib 2r4
Interval setting.Rib 2r2 and the interval rib 2r3 are arranged.Rib 2r1,2r2,2r3 and 2r4 can be set in parallel each other.In some embodiments
In, non-parallel setting can be presented in rib 2r1,2r2,2r3 and 2r4.
In certain embodiments, 2 inner wall of smoke grenade shell can have more a plurality of rib.In certain embodiments, in smoke grenade shell 2
Wall can have less rib.In certain embodiments, 2 inner wall of smoke grenade shell can have totally 6 ribs.
Rib 2r1,2r2,2r3 and 2r4 extending partially towards heating component top cover 4 by adjacent pores 1h from smoke grenade shell 2.Rib
One end of 2r1,2r2,2r3 and 2r4 are directly contacted with heating component top cover 4.One end of rib 2r1,2r2,2r3 and 2r4 are pressed on
The some of heating component top cover 4.As shown in Fig. 4 A virtual coil A, rib 2r3 is pressed on some of heating component top cover 4.Rib
2r1,2r2,2r3 and 2r4 can avoid heating component top cover 4 and separate with heating component pedestal 6.
Rib 2r1,2r2,2r3 and 2r4 can strengthen the rigidity of smoke grenade shell 2.Rib 2r1,2r2,2r3 and 2r4 can avoid smoke grenade
Shell 2 is deformed because external force squeezes.Rib 2r1,2r2,2r3 and 2r4 can avoid the tobacco tar in holding bay 30 and overflow because external force squeezes
Out.
Heating component top cover 4 and heating component pedestal 6 define spray chamber 40.Spray chamber 40 can for heating component top cover 4 with
Cavity between heating component pedestal 6.
Heating component 5 has length 5L.Spray chamber 40 has maximum width 4L1.The length 5L of heating component 5 is greater than atomization
The maximum width 4L1 of room 40.
The some of heating component 5 is set in spray chamber 40.The both ends of heating component 5 are from the hole of heating component top cover 4
4h is extended into holding bay 30.The some of the exposure heating component 5 of heating component top cover 4.The exposure heating of heating component top cover 4
The both ends part of component 5.The both ends of heating component 5 are exposed in holding bay 30.Tobacco tar in holding bay 30 can be via heating group
5 both ends of part are heated the absorption of component 5.The tobacco tar adsorbed in heating component 5 is after the heating of heating line 51 in spray chamber 40
Generate aerosol.Aerosol can be sucked via the airflow channel 100t that pipe 4t2, pipe 2t and pipe 1t are formed by user.
In certain embodiments, heating component 5 can the heating component 500 shown in Fig. 3 A replace.In certain implementations
Example in, heating component 5 can the heating component 501 shown in Fig. 3 C replace.In certain embodiments, heating component 5 can be with
The heating component 502 shown in Fig. 4 A replaces.In certain embodiments, heating component 5 can heat shown in Fig. 4 B
Component 503 replaces.
In certain embodiments, cigarette holder cover 1 can be integrally formed with smoke grenade shell 2, and pipe 2t and pipe 1t is identical group at this time
Part.
The airflow channel 100t that pipe 4t2, pipe 2t and pipe 1t are formed can have smooth internal diameter.Airflow channel 100t internal diameter in
Pipe 1t and the joint pipe 2t do not have apparent segment difference.Airflow channel 100t internal diameter is in pipe 2t with the joint pipe 4t2 without bright
Aobvious segment difference.Airflow channel 100t internal diameter does not have apparent interface in pipe 1t and the joint pipe 2t.Airflow channel 100t internal diameter
Do not have apparent interface in pipe 2t and the joint pipe 4t2.
The airflow channel 100t that pipe 4t2, pipe 2t and pipe 1t are formed can have inner diameter size heterogeneous.For example, it manages
2t can have internal diameter 2L1 and 2L2, and internal diameter 2L1 is greater than 2L2.Pipe 1t has internal diameter 1L1 and 1L2, and internal diameter 1L1 is greater than 1L2.
In certain embodiments, the airflow channel that pipe 4t2, pipe 2t and pipe 1t are formed can have uniform internal diameter.
Refering to Fig. 4 B, heating component top cover 4 can have two parts.A part of heating component top cover 4 has larger width.
40 inner wall of spray chamber can have uneven width.For example, 40 inner wall of spray chamber has because of the external form of heating component top cover 4
Width 4L2 and maximum width 4L1.Width 4L2 is less than width 4L1.
Seal assembly 3 is set between the pipe 2t of smoke grenade shell 2 and the pipe 4t1 of heating component top cover 4.Seal assembly 3
Hardness can be less than the hardness of smoke grenade shell 2.The hardness of seal assembly 3 can be less than the hardness of heating component top cover 4.Sealing group
Part 3 can increase the closed intensity between pipe 2t and pipe 4t1.Seal assembly 3 can reduce the tolerance of pipe 2t Yu pipe 4t1.
Seal assembly 3 can reduce the manufacture difficulty of smoke grenade shell 2 Yu heating component top cover 4.Seal assembly 3 can be to avoid smoke grenade shell
2 generate damage with heating component top cover 4 in an assembling process.
The pipe 4t2 of heating component top cover 4 can have the internal diameter less than pipe 4t1.The pipe 4t2 of heating component top cover 4 can have
Less than the outer diameter of pipe 4t1.The pipe 4t2 of heating component top cover 4 extends into spray chamber 40.The pipe 4t2 of heating component top cover 4 extends
To spray chamber 40.The pipe 4t2 of heating component top cover 4 extends towards the direction opposite with hole 1h.Pipe 4t2 can make airflow channel more
Close to heating component 5.Pipe 4t2 can be such that the aerosol generated in spray chamber 40 is more completely discharged from airflow channel.Pipe 4t2 can avoid
The aerosol generated in spray chamber 40 is in from the air gap leakage between sealing element 3 and heating component top cover 4 to holding bay 30.
Refering to Fig. 4 B.When user is from hole 1h air-breathing, air-flow 100f is generated in smoke grenade 100A.Air-flow 100f leading portion includes
Enter the fresh air in spray chamber 40 by the hole 7h1 of smoke grenade pedestal 7.Air-flow 100f back segment includes to be generated by heating component 5
Aerosol.Fresh air enters spray chamber 40 via hole 7h1, and the aerosol that heating component 5 generates is along airflow channel 100t from reaching hole
1h1 discharge.
Air-flow 100f generates temperature change between heating component 5 and pipe 4t2.The aerosol that heating component 5 generates reaches
Temperature is generated before pipe 4t2 to change.
The uneven width of 40 inner wall of spray chamber can be changed with the temperature of strengthening airflow 100f.The unevenness of 40 inner wall of spray chamber
Even width can accelerate the temperature of air-flow 100f to change.Temperature declines when air-flow 100f flow to 4L2 from width 4L1.And have
The spray chamber of uniform inner wall width is compared, and temperature declines by a big margin when air-flow 100f flow to 4L2 from width 4L1, at a temperature of
Fast speed drops.By adjustment 40 inner wall width of spray chamber, the aerosol temperature that user draws from hole 1h can control.Certain
In embodiment, spray chamber 40 can also have substantially the same inner wall width.
After air-flow 100f enters spray chamber 40 from hole 7h1, the heated heating of component 5 generates a temperature and rises Tr.At certain
In a little embodiments, temperature rises Tr can be in the range of 200 DEG C to 220 DEG C.In certain embodiments, temperature rise Tr can be with
In the range of 240 DEG C to 260 DEG C.In certain embodiments, temperature rising Tr can be in the range of 260 DEG C to 280 DEG C.In
In some embodiments, temperature rises Tr can be in the range of 280 DEG C to 300 DEG C.In certain embodiments, temperature rising Tr can
In the range of 300 DEG C to 320 DEG C.In certain embodiments, temperature rising Tr can be in the range of 200 DEG C to 320 DEG C.
The air-flow flowed out from spray chamber 40 can produce temperature decline Tf before reaching hole 1h.In certain embodiments,
Temperature declines Tf can be in the range of 145 DEG C to 165 DEG C.In certain embodiments, temperature decline Tf can be at 165 DEG C extremely
In the range of 185 DEG C.In certain embodiments, temperature decline Tf can be in the range of 205 DEG C to 225 DEG C.In certain implementations
In example, temperature declines Tf can be in the range of 225 DEG C to 245 DEG C.In certain embodiments, temperature decline Tf can be 245
DEG C in the range of 265 DEG C.In certain embodiments, temperature decline Tf can be in the range of 145 DEG C to 265 DEG C.
Airflow channel 100t can have non-uniform internal diameter.The internal diameter of airflow channel 100t from from the heating component 5 to
The hole direction 1h becomes larger.Larger interior diameter at adjacent pores 1h can make aerosol volume become larger.
By adjustment 40 inner wall width of spray chamber and the internal diameter width of airflow channel 100t, user can control from hole
The aerosol temperature that 1h is drawn.By adjustment 40 inner wall width of spray chamber and the internal diameter width of airflow channel 100t, can control
The aerosol volume that user draws from hole 1h.
Control aerosol temperature can be scalded to avoid user by aerosol.Control aerosol volume can promote the air-breathing body of user
It tests.
In certain embodiments, it can have the temperature lower than 65 DEG C via the aerosol that through-hole 1h is inhaled by the user.In
In some embodiments, the temperature lower than 55 DEG C can have via the aerosol that through-hole 1h is inhaled by the user.In some embodiments
In, it can have the temperature lower than 50 DEG C via the aerosol that through-hole 1h is inhaled by the user.In certain embodiments, via through-hole
The aerosol that 1h is inhaled by the user can have the temperature lower than 45 DEG C.In certain embodiments, via through-hole 1h by user
The aerosol of sucking can have the temperature lower than 40 DEG C.In certain embodiments, the aerosol being inhaled by the user via through-hole 1h
It can have the temperature lower than 30 DEG C.
As used herein, spatially relative term, for example, " under ", " lower section ", " lower part ", " top ", " top ",
" lower part ", " left side ", " right side " and fellow can be used to describe simple to describe one as illustrated in FIG. herein
The relationship of component or feature and another component or feature.Other than orientation discribed in figure, spatially relative term is intended to contain
The device of lid in use or operation is differently directed.Equipment can orient in other ways (to be rotated by 90 ° or in other fixed
To), and space relative descriptors used herein equally can be explained correspondingly.It should be understood that when a component is referred to as
When " being connected to " or " being coupled to " another component, it can be connected or coupled to another component, or intermediate module may be present.
As used herein, term " approximatively ", " substantially ", " basic " and " about " is for describing and considering small change
Change.When being used in combination with event or situation, the term can refer to the example that event or situation accurately occur and event or
The example that situation pole approximatively occurs.As used herein in relation to given value or range, term " about " generally means
In ± 10%, ± 5%, ± 1% or ± the 0.5% of given value or range.Range can be denoted herein as from an endpoint
To another endpoint or between the two endpoints.Unless specified otherwise herein, otherwise all ranges disclosed herein include endpoint.Art
Language " substantially coplanar " can refer to along two in a few micrometers (μm) the surface that same plane positions, for example, along same plane
Positioning in 10 μm, in 5 μm, in 1 μm or in 0.5 μm.When with reference to " substantially " identical numerical value or characteristic, term be can refer to
Value in ± 10%, ± 5%, ± 1% or ± 0.5% of average value in described value.
As used herein, term " approximatively ", " substantially ", " basic " and " about " is for describing and explaining small change
Change.When being used in combination with event or situation, the term can refer to the example that event or situation accurately occur and event or
The example that situation pole approximatively occurs.For example, when being used in combination with numerical value, term can refer to be less than or equal to the numerical value
± 10% variation range, for example, be less than or equal to ± 5%, be less than or equal to ± 4%, be less than or equal to ± 3%, be less than
Or it is equal to ± 2%, is less than or equal to ± 1%, is less than or equal to ± 0.5%, is less than or equal to ± 0.1%, or be less than or equal to
± 0.05%.For example, if difference between two values be less than or equal to the average value of described value ± 10% (for example,
Less than or equal to ± 5%, be less than or equal to ± 4%, be less than or equal to ± 3%, be less than or equal to ± 2%, being less than or equal to ±
1%, it is less than or equal to ± 0.5%, is less than or equal to ± 0.1%, or is less than or equal to ± 0.05%), then it is assumed that described
Two values " substantially " or " about " identical.For example, can " substantially " refer in parallel relative to 0 ° be less than or equal to ±
10 ° of angle change range, for example, being less than or equal to ± 5 °, being less than or equal to ± 4 °, be less than or equal to ± 3 °, be less than or wait
In ± 2 °, be less than or equal to ± 1 °, be less than or equal to ± 0.5 °, be less than or equal to ± 0.1 °, or be less than or equal to ± 0.05 °.
For example, it " substantially " can vertically refer to the angle change range for being less than or equal to ± 10 ° relative to 90 °, for example, being less than
Or be equal to ± 5 °, be less than or equal to ± 4 °, be less than or equal to ± 3 °, be less than or equal to ± 2 °, be less than or equal to ± 1 °, be less than or
Equal to ± 0.5 °, be less than or equal to ± 0.1 °, or be less than or equal to ± 0.05 °.
For example, if displacement between two surfaces be equal to or less than 5 μm, equal to or less than 2 μm, be equal to or less than
1 μm or be equal to or less than 0.5 μm, then two surfaces be considered it is coplanar or substantially coplanar.If surface phase
5 μm are equal to or less than for the displacement between any two point of plane on the surface, is equal to or less than 2 μm, equal to or less than 1
μm or be equal to or less than 0.5 μm, then it is considered that surface is plane or substantially planar.
As used herein, term " conductive (conductive) ", " conductive (electrically conductive) "
" conductivity " refers to the ability of transfer current.Conductive material, which is indicated generally at, is presented those of few or zero confrontation to electric current flowing
Material.One measurement of conductivity is Siemens/rice (S/m).In general, conductive material is conductivity greater than approximatively 104S/m
(for example, at least 105S/m or at least 106S/m a kind of material).The conductivity of material can change with temperature sometimes.Unless
It dictates otherwise, otherwise the conductivity of material measures at room temperature.
As used herein, unless context is in addition clearly stipulate that otherwise singular references " one (a/an) " and " described "
It may include plural referents.In the description of some embodiments, the component for being provided in another component "upper" or " top " can be covered
Previous component is directly on latter component (for example, with latter assemblies physical contact) the case where and one or more intermediate modules
The case where between previous component and latter component.
Unless specified otherwise herein, otherwise for example " top ", " lower section ", "upper", "left", "right", "lower", " top ", " bottom ",
" vertical ", "horizontal", " side ", " being higher than ", " being lower than ", " top ", " ... on ", " ... under ", " downward " etc.
Spatial description is indicated relative to orientation shown in figure.It should be understood that spatial description used herein is merely for saying
Bright purpose, and the actual implementation scheme of structure described herein can by it is any orientation or in a manner of be spatially arranged,
On condition that the advantages of embodiment of this exposure is that will not have deviation because of such arrangement.
Although the specific embodiment for having referred to this exposure describes and illustrate this exposure, these descriptions and instructions are simultaneously unlimited
Make this exposure.Those skilled in the art can be clearly understood from, and not depart from originally taking off as defined by the appended patent claims
In the case where the true spirit and range of dew, various changes can be carried out, and equivalent elements can be replaced in embodiment.Diagram may
It is not necessarily drawn to scale.The variable etc. being attributed in manufacturing process, can between the art recurring and physical device in this exposure
It can be distinct.There may be the other embodiments of not this exposure of certain illustrated.This specification and schema should be considered as
Bright property and it is non-limiting.It can modify, so that particular condition, material, material composition, substance, method or process are suitable for
Target, the spirit and scope of this exposure.All such modifications are intended in this scope of the appended claims.Although having joined
It examines the specific operation being performed in a specific order and describes method disclosed herein, it should be appreciated that this exposure can not departed from
These operations are combined, segment or resequenced in the case where teaching to form equivalent method.Therefore, unless referring in particular to herein
Show, the order otherwise operated and the limitation for being grouped not this exposure.
Feature in terms of several embodiments and details of this exposure of foregoing general description.Embodiment described in this exposure can be easy
Ground is used as designing or modifying the basis of other processes and for executing same or similar purpose and/or being incorporated herein
In embodiment same or similar advantage structure.Such equivalent constructions without departing from this exposure spirit and scope, and
It can be variously modified, substitute and change in the case where not departing from the spirit and scope of this exposure.
Claims (20)
1. a kind of atomising device comprising:
Heating component top cover;
Heating component pedestal;And
The heating component being set between the heating component top cover and the heating component pedestal;
The heating component includes:
First heating circuit has the first opening;And
Oil storage component, with first surface, first heating circuit is set to the first surface of the oil storage component
On, and a part of the oil storage component extends into first opening.
2. atomising device according to claim 1, the heating component pedestal and the heating component top cover define atomization
Room, wherein the first part of the heating component is located in the spray chamber, and the second part of the heating component is exposed to
Outside the spray chamber.
3. atomising device according to claim 1, first heating circuit includes first part and second part, described
Oil storage component includes first part and second part, wherein the second part of first heating circuit is located at the oil storage
Between the first part and the second part of component.
4. atomising device according to claim 3, wherein the first part of the oil storage component is located at described first
Between the first part and the second part of heating circuit.
5. atomising device according to claim 1 further comprises being set on the second surface of the oil storage component
Second heating circuit, second heating circuit has the second opening, and a part of the oil storage component extends into described the
In two openings.
6. atomising device according to claim 1, wherein the oil storage component is with cylindrical shape and has circumference, institute
State a part of the first heating circuit around the circumference.
7. atomising device according to claim 1, wherein the oil storage component has side wall, and first heating circuit
The side wall is completely exposed.
8. atomising device according to claim 2, wherein the spray chamber has first part and a second part, described the
The width of a part is greater than the width of the second part.
9. atomising device according to claim 8, wherein the first part of the heating component and the spray chamber
The distance between be less than the heating component and the spray chamber the distance between the second part.
10. atomising device according to claim 1 further comprises shell and seal assembly, the seal assembly setting
Between the pipe in the heating component top cover and the shell, the hardness of the seal assembly is less than the heating component top cover
Hardness.
11. atomising device according to claim 1, wherein the heating component pedestal has groove, the heating component
It is set between the groove and the heating component top cover.
12. a kind of atomising device comprising:
Heating component top cover;
Heating component pedestal;And
Heating component, the heating component includes:
First heating circuit, with first surface and plurality of openings;And
Oil storage component, with first surface, first heating circuit is set to the first surface of the oil storage component
On, and the first surface of first heating circuit and the first surface of the oil storage component are non-coplanar.
13. atomising device according to claim 12, wherein one of described oil storage component extend partially into it is described a plurality of
In at least one of opening.
14. atomising device according to claim 12, first heating circuit includes first part and second part, institute
Stating oil storage component includes first part and second part, wherein the second part of first heating circuit is located at the storage
Between the first part and the second part of oily component.
15. atomising device according to claim 14, wherein the first part of the oil storage component is located at described the
Between the first part and the second part of one heating circuit.
16. atomising device according to claim 12 further comprises being set on the second surface of the oil storage component
The second heating circuit, second heating circuit has first surface, and the first surface of second heating circuit
It is depressed in the second surface of the oil storage component.
17. atomising device according to claim 12, wherein first heating circuit has 28% to 33% opening
Rate.
18. atomising device according to claim 12, wherein first heating circuit includes a plurality of metal wires, it is described
The line footpath of each of a plurality of metal wires is in the range of 30 microns (micrometer) are to 50 microns.
19. atomising device according to claim 12, the heating component pedestal and the heating component top cover define mist
Change room, wherein some of the heating component is exposed to outside the spray chamber.
It further comprise the first conductive component and the second conductive component 20. atomising device according to claim 12, it is described
Atomising device is via first conductive component and second conductive component to the heating component output power.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201910873023.6A CN110507002A (en) | 2019-09-16 | 2019-09-16 | A kind of atomising device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201910873023.6A CN110507002A (en) | 2019-09-16 | 2019-09-16 | A kind of atomising device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN110507002A true CN110507002A (en) | 2019-11-29 |
Family
ID=68631102
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201910873023.6A Pending CN110507002A (en) | 2019-09-16 | 2019-09-16 | A kind of atomising device |
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| Country | Link |
|---|---|
| CN (1) | CN110507002A (en) |
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| CN111035064A (en) * | 2019-12-30 | 2020-04-21 | 深圳雾芯科技有限公司 | Atomization device |
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