CN108135260A - The manufacturing method and atomization unit of atomization unit - Google Patents

Abstract

A kind of manufacturing method of atomization unit, including：Resistance heater is configured along the spiral-shaped slot or protrusion for the side for being formed in base component in step A, which has the axis extended along prescribed direction；Step B rotates the base component using above-mentioned axis as rotary shaft, and at least part of above-mentioned resistance heater is made to be detached from above-mentioned slot or above-mentioned protrusion；The liquid holding portion part for keeping aerosol source is configured in step C in a manner of at least part of in contact with or close to above-mentioned resistance heater.

Description

The manufacturing method and atomization unit of atomization unit

Technical field

The present invention relates to a kind of manufacturers of the atomization unit of heater for having without burning and being atomized aerosol source Method and atomization unit.

Background technology

At present it is known that there is a kind of unfired fragrance aspirator for being used to attract fragrance without burning.Unfired perfume (or spice) The atomization unit that taste aspirator has without burning and is atomized aerosol source.Atomization unit has the storage of storage aerosol source Device, the liquid holding portion part of aerosol source that holding is supplied from reservoir, the aerosol source mist that will be kept by liquid holding portion part The heater (atomization portion) of change.Here, heater is coil with spiral shape, and with the shape extended along prescribed direction Shape.Liquid holding portion part has the shape that extends along prescribed direction, on the orthogonal direction relative to prescribed direction with fever The outer lateral side contact configuration (such as patent document 1,2) of body.

Existing technical literature

Patent document

Patent document 1：(Japanese) Patent Laid-Publication 2012-517229 bulletins

Patent document 2：(Japanese) Patent Laid-Publication 2015-504652 bulletins

Invention content

Fisrt feature provides a kind of manufacturing method of atomization unit, and main points are, including：Step A, along being formed in pedestal Spiral-shaped slot or protrusion the configuration resistance heater of the side of component, the base component have what is extended along prescribed direction Axis；Step B rotates the base component using the axis as rotary shaft, make at least part of the resistance heater from The slot or protrusion separation；Guarantor is configured in a manner of at least part of in contact with or close to the resistance heater in step C Hold the liquid holding portion part of aerosol source.

For second feature on the basis of fisrt feature, main points are that the step C is carried out after the step A, and It is carried out before the step B.

For third feature on the basis of first or second feature, main points are that the resistance heater is included described in heating The heating part of aerosol source, the step C are：The liquid holding portion part is made to press the inside side of the heating part on one side The liquid holding portion part is configured in face or outer lateral side on one side.

For fourth feature in first~third feature on the basis of any feature, main points are the resistance heater packet The heating part for heating the aerosol source is included, the step C is：To contact the inner side surface of the heating part or outside side The liquid holding portion part is configured in the mode of the week in face.

For fifth feature in first~fourth feature on the basis of any feature, main points are that the step B is：It utilizes The separation of the resistance heater forms aerosol intake, and the aerosol intake makes what is be atomized by the resistance heater Aerosol passes through on the inside of the resistance heater.

For sixth feature in first~fifth feature on the basis of any feature, main points are that the step B is：It utilizes The separation of the resistance heater forms at least part of air flow circuit in the inside of the resistance heater.

For seventh feature in first~sixth feature on the basis of any feature, main points are that the step C is：Institute In the case of the outer lateral side configuration resistance heater for stating base component, described in the configuration of the outside of the resistance heater Liquid holding portion part.

For eighth feature in first~seventh feature on the basis of any feature, main points are that the base component is folder Tool, the step B are：The resistance heater is made all to be detached from the fixture, the separation using the resistance heater exists The inside of the resistance heater forms at least part of air flow circuit；The manufacturing method of the atomization unit is in the step There is the step that step G, the step G are at least part of channel-forming member that configuration forms the air flow circuit before B Suddenly.

For ninth feature on the basis of eighth feature, main points are that the step G includes the outside side along the fixture The step of channel-forming member is configured in face.

For tenth feature in first~ninth feature on the basis of any feature, main points are that the base component is folder Tool, the step B are the step of resistance heater is made all to be detached from the fixture, have step before the step B Rapid E, the step E are：The outer lateral side of the resistance heater on the orthogonal direction orthogonal with the prescribed direction or The cartridge for at least part of shape with tubular to form air flow circuit is configured in inner side surface.

For 11st feature on the basis of tenth feature, main points are that the step B is fixed on by the cartridge It carries out after the housing of the atomization unit and/or after the resistance heater is fixed on the cartridge.

For 12nd feature in the tenth or the 11st on the basis of feature, main points are that the cartridge is by the first tubular Component and the second cartridge are formed, and the step E is with each other by first cartridge and second cartridge The step of state configuration of separation.

For 13rd feature on the basis of the 12nd feature, main points are a part for first cartridge or complete Portion is made of electroconductive component, and part or all of second cartridge is made of electroconductive component.

For 14th feature on the basis of the 12nd or the 13rd feature, main points are that the fixture has described in locking First locking part of the first cartridge and the second locking part for engaging second barrel, the step E include： First cartridge is configured in the position that first cartridge is engaged using the described first locking part in step E1； Second cartridge is configured in the position that second cartridge is engaged using the described second locking part in step E2.

For 15th feature in the 12nd~the 14th feature on the basis of any feature, main points are the fixture packet The first support section with first external diameter and the second support section with second external diameter more smaller than the first external diameter are included, The internal diameter of first cartridge is corresponding with the first external diameter, internal diameter and the second external diameter of second cartridge Corresponding, the step E includes：Step E3, the outer lateral side configuration institute of first support section on the orthogonal direction State the first cartridge；Step E4, the outer lateral side configuration described the of second support section on the orthogonal direction Two cartridges.

For 16th feature in the 12nd~the 15th feature on the basis of any feature, main points are the fixture packet The first support section with first external diameter and the second support section with second external diameter more smaller than the first external diameter are included, Step E, E1 or E3 is make first cartridge from the second support section side towards first support section The step of Slideslip, step E, E2 or E4 is make second cartridge from the second support section side described in The step of first support section Slideslip.

For 17th feature in the 12nd~the 16th feature on the basis of any feature, main points are the fixture packet The first support section with first external diameter and the second support section with second external diameter more smaller than the first external diameter are included, The step C is to make the liquid holding portion part from the second support section side towards the first support section Slideslip Step.

For 18th feature in the 12nd~the 16th feature on the basis of any feature, main points are the fixture packet The first support section with first external diameter and the second support section with second external diameter more smaller than the first external diameter are included, The slot or the protrusion are set to the side of first support section, and the step A is in first support section The step of resistance heater is configured in outer lateral side and the outer lateral side of second cartridge.

For 19th feature in the first~the 18th feature on the basis of any feature, main points are the step C packets It includes：Step C1 makes slip component along the outer of the resistance heater on the orthogonal direction orthogonal with the prescribed direction It slides side side；Step C2, by the liquid holding portion part along the outside of the slip component on the orthogonal direction Side is configured；Step C3, after the step C1 and the step C2, by slide from the liquid holding portion part with it is described The slip component is removed between resistance heater.

For 20th feature in first~eighth feature on the basis of any feature, main points are that the base component is Form the cartridge of at least part of shape with tubular of air flow circuit.

For 21st feature on the basis of the 20th feature, main points are that the cartridge is by electroconductive component structure Into the manufacturing method has the step D for being electrically connected the cartridge and the resistance heater.

For 22nd feature on the basis of the 20th or the 21st feature, main points are that the cartridge is by One cartridge and the second cartridge are formed, and the step A is：Across first cartridge and second cylindrical portion The resistance heater is configured in part both sides, and the step B is：The resistance heater is being maintained across first cartridge And in the state of the second cartridge both sides configuration, first cartridge and second cartridge is made to divide each other From.

On the basis of fisrt feature, main points are 23rd feature, and the base component is cartridge, the step Suddenly A is：The resistance heater is configured along the spiral-shaped slot or protrusion for the outer lateral side for being formed in the cartridge, The step B and the step C are：By the rotation of the cartridge, make the part of the resistance heater from described Cartridge detaches, and make to be configured at the inside of the cartridge the liquid holding portion part a part from the cylinder Shape component detaches, and by the expansion of a part for the liquid holding portion part, makes the part contact of the liquid holding portion part or connects A part for the nearly resistance heater.

24th feature provides a kind of manufacturing method of atomization unit, and main points are step A, along being formed in pedestal Spiral-shaped slot or protrusion the configuration resistance heater of the side of component, the base component have what is extended along prescribed direction Axis；Step C is configured in a manner of at least part of in contact with or close to the resistance heater and the liquid of aerosol source is kept to protect Component is held, alternatively, step C4, rotates the base component using the axis as rotary shaft, make the resistance heater extremely A few part is detached from the slot or the protrusion, as a result, in contact with or close at least part of of the resistance heater The liquid holding portion part for keeping aerosol source is configured in mode；Step F receives the resistance heater and the liquid holding portion part It is dissolved in the housing.

25th feature provides a kind of atomization unit, and main points are to have：Base component has along regulation side To the axis of extension；Resistance heater is configured along the spiral-shaped slot or protrusion for the side for being formed in the base component； The liquid holding portion part of aerosol source is kept, is matched in a manner of at least part of in contact with or close to the resistance heater It puts, alternatively, being configured in a manner of at least part of in contact with or close to the resistance heater by step B, the step B To rotate the base component using the axis as rotary shaft, making at least part of the resistance heater from the slot Or the protrusion separation；Housing accommodates the resistance heater and the liquid holding portion part.

In the 15th above-mentioned feature, so-called " correspondence " has following meanings.First, in fixture (the first support section Or second support section) outer lateral side and cartridge (the first cartridge and the second cartridge) inner side surface between In the case of setting resistance heater, " correspondence " refers to, the inner side surface of cartridge can be along the outside for being configured at fixture The resistance heater of side slides, and the size of the outer diameter of the internal diameter and fixture of cartridge has and makes to be configured at the outside of fixture The resistance heater of side and the inner side surface of cartridge are able to the relationship contacted.Second, in the outer lateral side and cylinder of fixture In the case of being not provided with resistance heater between the inner side surface of shape component, " correspondence " refers to, the inner side surface energy of cartridge Enough outer lateral sides along fixture are slided, and the size of the outer diameter of the internal diameter and fixture of cartridge has in cartridge configuration The relationship that the central shaft of cartridge does not deviate from the central shaft of fixture in the state of the outer lateral side of fixture.In addition, pressing from both sides In the case that tool or cartridge are made of flexible component, " outer diameter " and " internal diameter " refers to that cartridge is configured at fixture Outer lateral side after in the state of size.

In the 15th above-mentioned feature, the first tubular is configured in the outer lateral side of the first support section in that orthogonal direction The step E4 of the second cartridge is configured in the outer lateral side of the second support sections of the step E3 of component preferably in that orthogonal direction It carries out before.By such method, the configuration of the first cartridge and the second cartridge can easily be carried out.

In above-mentioned feature, step C is preferably carried out after step E.By such method, it can easily carry out The configuration of liquid holding portion part, the first cartridge, the second cartridge.

In above-mentioned feature, step B is preferably carried out before step C2 and step C3.By such method, can Base component is detached as early as possible, base component along for next semi-finished product can be manufactured in a short time, mist can be improved Change the productivity of unit.

In the 24th above-mentioned feature, shape that step F preferably exposes at least part of base component from housing It is carried out under state.By such method, easily atomization unit using the preceding rotation by base component make resistance heater from Slot or protrusion separation.

In the 25th above-mentioned feature, preferably at least part of base component is exposed from housing.In this way Structure easily makes resistance heater be detached from slot or protrusion in atomization unit using the preceding rotation by base component.

In above-mentioned feature, resistance heater can also be formed by wire rod with spiral shape, can be with edge The coil of the shape of prescribed direction extension.That is, step A may be by with along the spiral shell for the side for being formed in base component It revolves the slot of shape or the mode of protrusion winds the wire rod of non-coiled type, the wire rod of non-coiled type is made to the step of the wire rod of coiled type Suddenly.

Description of the drawings

Fig. 1 is the figure for the unfired fragrance aspirator 100 for representing embodiment.

Fig. 2 is the figure for the atomization unit 111 for representing embodiment.

Fig. 3 (A) is the figure for representing P-P sections shown in Fig. 2, and Fig. 3 (B) is the figure for representing Q-Q sections shown in Fig. 2.

Fig. 4 (A)~Fig. 4 (D) is the figure for illustrating the manufacturing method of the atomization unit 111 of embodiment.

Fig. 5 (A)~Fig. 5 (C) is the figure for illustrating the manufacturing method of the atomization unit 111 of embodiment.

Fig. 6 (A)~Fig. 6 (D) is the figure for illustrating the atomization unit 111 of modification 1.

Fig. 7 (A)~Fig. 7 (B) is the figure for illustrating the manufacturing method of the atomization unit 111 of modification 2.

Fig. 8 (A)~Fig. 8 (B) is the figure for illustrating the manufacturing method of the atomization unit 111 of modification 3.

Fig. 9 is the figure for the atomization unit 111 for representing modification 4.

Figure 10 is the figure for the atomization unit 111 for representing modification 5.

Figure 11 is the figure for the atomization unit 11 for representing modification 6.

Figure 12 (A)~Figure 12 (E) is the figure for illustrating the manufacturing method of the atomization unit 111 of modification 7.

Figure 13 (A)~Figure 13 (D) is the figure for illustrating the manufacturing method of the atomization unit 111 of modification 8.

Figure 14 (A)~Figure 14 (E) is the figure for illustrating the manufacturing method of the atomization unit 111 of modification 9.

Figure 15 is the figure for the atomization unit 111 for representing modification 10.

Figure 16 is the figure for the atomization unit 111 for representing modification 11.

Figure 17 is the figure for the atomization unit 111 for representing modification 12.

Figure 18 (A) and Figure 18 (B) is the figure for illustrating the manufacturing method of the atomization unit 111 of modification 13.

Figure 19 is the figure for the atomization unit 111 for representing modification 14.

Figure 20 is the figure for the atomization unit 111 for representing modification 15.

Figure 21 is the figure for the liquid measure adjustment component 19 for representing modification 15.

Figure 22 (A) and Figure 22 (B) is the figure for illustrating the manufacturing method of the atomization unit 111 of modification 16.

Specific embodiment

Hereinafter, embodiment is illustrated.In addition, in the record of following attached drawing, for same or similar portion Minute mark notes same or similar symbol.But attached drawing is schematically to scheme, and should notice ratio of each size etc. and the situation of display Different situations.

Therefore, specific size etc. should refer to the following description to judge.In addition, it certainly, also wraps among the attached drawings Include the relationship of mutual size and the part that ratio is different.

[open summary]

In the atomization unit recorded in above-mentioned background technology, it is difficult to produce the atomization of the heater with high-quality Unit.

The manufacturing method of the atomization unit of open summary includes：Step A, along the spiral for the side for being formed in base component Slot or protrusion the configuration resistance heater of shape, the base component have the axis extended along prescribed direction；Step B, with described Axis rotates the base component as rotary shaft, makes at least part of the resistance heater from the slot or the protrusion Separation；The liquid for keeping aerosol source is configured in step C in a manner of at least part of in contact with or close to the resistance heater Holding member.

In open summary, because in the manufacturing process of atomization unit, resistance heater is supported by base component, so It can inhibit the deformation of resistance heater in the manufacturing process of atomization unit, the resistance heater with high-quality can be produced Atomization unit.

[embodiment]

(unfired fragrance aspirator)

Hereinafter, the unfired fragrance aspirator to embodiment illustrates.Fig. 1 is represent embodiment non-burning The figure of formula fragrance aspirator 100.Unfired fragrance aspirator 100 is the utensil for being used to attract flavor component without burning, With the shape extended along the direction (that is, prescribed direction A) from non-suction inlet end towards suction inlet end.Fig. 2 is to represent to implement The figure of the atomization unit 111 of mode.Fig. 3 (A) is the figure for the P-P sections for representing atomization unit 111 shown in Fig. 2, and Fig. 3 (B) is Represent the figure of the Q-Q sections in atomization unit 111 shown in Fig. 2.In addition, hereinafter, it should notice and inhale unfired fragrance Lead device 100 is referred to as fragrance aspirator 100.

As shown in Figure 1, fragrance aspirator 100 has aspirator main body 110 and smoke grenade 130.

Aspirator main body 110 forms the main body of fragrance aspirator 10, has the shape that can connect smoke grenade 130.Specifically, Aspirator main body 100 has aspirator housing 110X, and smoke grenade 130 is connected to the downstream of aspirator housing 110X.Aspirator master The atomization unit 111 and electric accessory unit 112 that body 110 has without burning and is atomized aerosol source.Atomization unit 111 and electricity Accessory unit 112 is contained in aspirator housing 110X.

In embodiments, atomization unit 111 has the atomization unit housing for the part for forming aspirator housing 110X 111X.Atomization unit 111 has the coupling part 111C being connect with power supply possessed by electric accessory unit 112 and is set to connection The suction nozzle side opening 111O of the opposite side of part 111C.Coupling part 111C is, for example, the connector being connect with power supply.Mouth side The 111O that is open is the opening for receiving smoke grenade 130, is arranged on suction nozzle end side.As shown in Fig. 2, atomization unit 111 have reservoir 11, Liquid holding portion part 12, the heater 13, (cartridge 14 of cartridge 14₁And cartridge 14₂), coating member 15, lid 16, (the flange 17 of flange 17₁And flange 17₂).These components are contained in atomization unit housing 111X.Atomization unit housing 111X has edge The shape (such as cylindrical shape) of prescribed direction A extensions.In addition, in fig. 2, although above-mentioned coupling part is omitted 111C, but coupling part 111C is set to flange 17₂Non- suction nozzle end side (electric 112 side of accessory unit).

Reservoir 11 stores aerosol source.Reservoir 11, which has, is suitble to storage for the aerosol source of multiple suction action Structure (size, material, construction etc.).For example, reservoir 11 can be the hole plastid being made up of materials such as resin webs, it can also It is the cavity for storing aerosol source.Reservoir 11 is preferably that per unit volume can store more aerosol sources.Reservoir As long as 11 configurations can supply aerosol source to the position of liquid holding portion part 12, at least with liquid holding portion part 12 Part contact.In embodiments, as shown in Fig. 3 (A) and Fig. 3 (B), at least part of reservoir 11 is preferably opposite The outside of coating member 15 is configured in the orthogonal direction B of prescribed direction A.

Liquid holding portion part 12 keeps the aerosol source supplied from reservoir 11.Liquid holding portion part 12 has that be suitble to make can The part (such as aerosol source used in 1 suction action) for being stored in the aerosol source of reservoir 11 is moved from reservoir 11 Move to heater 13 in contact with or close to position and keep structure (size, material, construction etc.).Liquid holding portion part 12 Can aerosol source be made to be moved to from reservoir 11 component of liquid holding portion part 12 by capillarity.In addition, liquid Holding member 12 makes aerosol source be moved to liquid holding portion part 12 by being contacted with reservoir 11.It is cavity in reservoir 11 In the case of, the contact with reservoir 11 of liquid holding portion part 12 refers to that liquid holding portion part 12 reveals in cavity (reservoir 11) Go out.But should be noted that, liquid holding portion part 12 is configured to keep liquid after aerosol source is filled in reservoir 11 Component 12 is contacted with being filled in the aerosol source of cavity (reservoir 11).For example, liquid holding portion part 12 is by glass fibre or more Hole matter ceramics are formed.For example, liquid holding portion part 12 is the core material being made of glass fibre or porous ceramic.Liquid holding portion Part 12 preferably has the heat resistance for the heating that can bear heater 13.As shown in Fig. 3 (A) and Fig. 3 (B), liquid holding portion part 12 With the cylindrical shape extended along prescribed direction A.

Here, in orthogonal direction B, at least part of the inner side surface of liquid holding portion part 12 contacted with heater 13 or It is close.Refer in addition, at least part of the inner side surface of liquid holding portion part 12 is approached with heater 13, by 13 He of heater The distance between inner side surface of liquid holding portion part 12 is maintained into following degree：Under the degree, heater 13 and aerosol source Maintenance distance so that liquid holding portion part 12 keep aerosol source when aerosol source can be atomized by heater 13.Fever Although the distance between inner side surface of body 13 and liquid holding portion part 12 is depending on aerosol source or liquid holding portion part 12 Type, temperature of heater 13 etc., but it is also contemplated that for such as 3mm hereinafter, preferably below 1mm.In addition, liquid holding portion At least part of the inner side surface of part 12 is approached with heater 13 to be referred to, by the inside of heater 13 and liquid holding portion part 12 The distance of side is maintained into the degree that can be atomized aerosol source by heater 13, therefore, when heater 13 and aerosol source Between there are a certain components so that aerosol source is in the state that can not be atomized by heater 13 or the atomization of aerosol source is hampered During the state hindered, it cannot be said that at least part of the inner side surface of liquid holding portion part 12 is close with heater 13.

In embodiments, as shown in Fig. 3 (A), the inner side surface of liquid holding portion part 12 and the heating part of heater 13 Point 13A in contact with or close to.On the other hand, as shown in Fig. 3 (B), in liquid holding portion part 12 and first end section 13B₁Between set There is cartridge 14₁, the inner side surface of liquid holding portion part 12 not with the first end section 13B of heater 13₁In contact with or close to. Equally, in liquid holding portion part 12 and second end section 13B₂Between be equipped with cartridge 14₂, the inside of liquid holding portion part 12 Side not with the second end section 13B of heater 13₂In contact with or close to.

In addition, as shown in Fig. 3 (A) and Fig. 3 (B), at least the one of the outer lateral side of the liquid holding portion part 12 of orthogonal direction B Part is covered by coating member 15.

Heater 13 is an example for the atomization portion for being atomized the aerosol source kept by liquid holding portion part 12.Implementing In mode, heater 13 is the resistance heater exported by the power supply supplied to heater 13 to generate heat.And then heater 13 It is formed by wire rod with spiral shape, to have the coil along the prescribed direction A shapes extended.In addition, heater 13 Inside forms at least one of the flow path (that is, air flow circuit) of air be inhaled into from suction nozzle end (outlet 130O shown in FIG. 1) Point.Preferably, the inside of heater 13 is hollow.

Here, heater 13 has heating part 13A, first end section 13B₁, second end section 13B₂.In heater 13 In, across being arranged at intervals with the first contact for being electrically connected with the first pole of power supply and be electrically connected with the second pole side of power supply on wire rod The second contact.In embodiments, the first contact is by first end section 13B₁And cartridge 14₁It forms.Similarly, second Contact is by second end section 13B₂And cartridge 14₂It forms.

Heating part 13A is by the wire rod structure between the first contact and the second contact that are most closely configured each other on wire rod Into.First end section 13B₁By the wire rod on the outside of a side of heating part 13A (it is in embodiments air flow circuit on wire rod In downstream side wire rod) form.Second end section 13B₂By the wire rod on the outside of the opposing party of heating part 13A on wire rod (wire rod for the upstream side in air flow circuit in embodiments) is formed.Form heating part 13A, first end section 13B₁And Second end section 13B₂Wire rod spacing it is identical.In addition, should notice " spacing " refers to line adjacent to each other on prescribed direction A The interval of material.The identical spacing for not meaning that wire rod of the spacing of wire rod is strictly identical, and refers to that the spacing of wire rod is substantially identical. It is substantially identical to refer to not set purposely to form heating part 13A, first end section 13B₁And second end section 13B₂Wire rod Spacing difference, allow to result from the difference of the degree of foozle etc..

Cartridge 14 has cylindrical shape, including cartridge 14₁And cartridge 14₂.Cartridge 14₁And tubular Component 14₂With at least part of tubular shape for forming the air flow circuit that outlet 130O (suction nozzle end) is connected to from entrance 112A Shape.That is, cartridge 14₁Form the first cartridge, cartridge 14₂It is formed in prescribed direction A and cartridge 14₁It separates It is spaced the second cartridge of configuration.Preferably, cartridge 14₁And cartridge 14₂Respectively not in cartridge 14₁And Cartridge 14₂Outer lateral side there is opening, but with the cylindrical shape that completely closes.In embodiments, cylindrical portion Part 14₁Internal diameter and cartridge 14₂Internal diameter it is identical.

Cartridge 14 have make the aerosol introducing port passed through by the aerosol that heater 13 is atomized towards air flow circuit. In embodiment, cartridge 14 includes cartridge 14₁And cartridge 14₂, aerosol introducing port is cartridge 14₁With Cartridge 14₂Interval.Above-mentioned heating part 13A be configured to overall length in the aerosol introducing port of prescribed direction A with Aerosol introducing port is adjacent.Above-mentioned liquid holding portion part 12 is configured to the overall length in the aerosol introducing port of prescribed direction A It is adjacent with aerosol introducing port.According to this composition, the end for the wire rod for forming heater 13 (coil) can be effectively utilized The aerosol source kept by liquid holding portion part 12 is atomized by the second best in quality part in addition as heating part 13A.Separately Outside, so-called " adjacent " can be that heating part 13A (or liquid holding portion part 12) is exposed to the configuration relation of aerosol introducing port, Can also be heating part 13A (or liquid holding portion part 12) between aerosol introducing port there are the configuration relation in gap, It can also be that a part of heating part 13A (or liquid holding portion part 12) enters the configuration relation of aerosol introducing port.In addition, It should be noted that, even if under heating part 13A (or the liquid holding portion part 12) forms adjacent with aerosol introducing port, heating The configuration relation of the inner side surface of part 13A and liquid holding portion part 12 also meet it is above-mentioned in contact with or close to relationship.

Part or all of cartridge 14 is made of the lower electric conductivity portion of wire rod of heating part 13A resistivity ratio Part is formed, and the first contact and the second contact are formed by being contacted with heater 13.Cartridge 14 is for example by aluminium or stainless steel (SUS) it forms.In embodiments, cartridge 14₁It is formed in the first contact and first end section 13B₁The first of contact is conductive Component, cartridge 14₂It is formed in the second contact and second end section 13B₂Second conductive component of contact.Above-mentioned heating part Divide 13A in cartridge 14₁With cartridge 14₂Between expose from cartridge 14.

In embodiments, cartridge 14₁Liquid holding portion part 12 and first end section are configured on orthogonal direction B 13B₁Between.Equally, cartridge 14₂Liquid holding portion part 12 and second end section 13B are configured on orthogonal direction B₂It Between.

In embodiment, as shown in Fig. 3 (B), cartridge 14 forms barrier component, which has in orthogonal side The outer lateral side being located to B between the outer lateral side of heater 13 and the inner side surface of liquid holding portion part 12.Cartridge 14 Outer lateral side be preferably arranged on a part of opposed position with the inner side surface of liquid holding portion part 12.And then tubular The outer lateral side of component 14 is preferably arranged on a part of opposed position with the inner side surface of coating member 15.But cylinder The outer lateral side of shape component 14 can also be arranged on position not opposed with the inner side surface of coating member 15.Cartridge 14 is excellent Be selected as with the liquid holding portion part 12 for inhibiting the covering of heater 13 reason coating member 15 to inward side to stress and become The function of shape.It can be born the outside of cartridge 14 in orthogonal direction B coating members 15 that is, cartridge 14 preferably has Side is to inward side to the intensity of the stress of pushing.Therefore, cartridge 14 is preferably by the conductive component (example with prescribed strength Such as stainless steel (SUS)) it forms.In embodiments, forming the cartridge 14 of air flow circuit has prescribed strength, and cylindrical portion The outer lateral side of part 14 is arranged on a part of opposed position with the inner side surface of coating member 15, therefore, can inhibit fever The deformation of deformation and air flow circuit of the body 13 caused by the stress of coating member 15.

Coating member 15 limits the aerosol source supply amount for liquid holding portion part 12.Such as Fig. 3 (A) and Fig. 3 (B) institute Show, coating member 15 has the cylindrical shape extended along prescribed direction A.The component structure that coating member 15 can not be penetrated by liquid Into.The coating that coating member 15 or liquid can not penetrate.Coating member 15 is preferably by having than aerosol source or liquid The component of the lower pyroconductivity of the pyroconductivity of holding member 12 is formed.According to this structure, the heat of heater 13 is difficult to pass It is directed at the aerosol source for being stored in reservoir 11.Coating member 15 is preferably by liquid holding portion part 12 to inward side to pushing Component, such as be made of flexible component.As the component for forming coating member 15, such as silicones or poly- can be used Olefine kind resin.

In embodiments, as shown in Fig. 2, in the inner side surface of liquid holding portion part 12 and 13 (heating part of heater 13A) in the range of, coating member 15 is complete along the outer lateral side of the liquid holding portion part 12 of prescribed direction A The outer lateral side of long Covering Liguid holding member 12.

In embodiments, as shown in Fig. 3 (A), in inner side surface and the 13 (heating part of heater of liquid holding portion part 12 Point 13A) in contact with or close to range, liquid holding portion part 12 of the coating member 15 in the circumferential direction using prescribed direction A as axis The outer lateral side of outer lateral side week Covering Liguid holding member 12.

In such an example, the outer lateral side of the preferably uniformly Covering Liguid holding member 12 of coating member 15.For example, The outer lateral side of the Covering Liguid holding member 12 in a manner of not having opening of coating member 15.Alternatively, coating member 15 also may be used It will in the circumferential direction in prescribed direction (the extended direction of liquid holding portion part 12) and/or using prescribed direction as axis to have Each opening is configured to the opening of equally spaced 10 or more.Alternatively, coating member 15 is equally spaced more with being configured as described above into A opening, the area (that is, area coverage) of the outer lateral side of liquid holding portion part 12 covered by coating member 15 can be More than 60% area of the outer lateral side of liquid holding portion part 12.It is configured as described above between grade alternatively, coating member 15 has Every the opening of 10 or more, and above-mentioned area coverage can also be the 60% of the area of the outer lateral side of liquid holding portion part 12 More than.The range of the equably outer lateral side of Covering Liguid holding member 12 of coating member 15 can be only liquid holding portion part 12 Inner side surface and heater 13 (heating part 13A) in contact with or close to range, or the inside side of coating member 15 The entire scope of the outer lateral side of face and liquid holding portion part 12 contact.

In addition, such as Fig. 2 and Fig. 3 (B) of coating member 15 is shown, even if inner side surface and fever in liquid holding portion part 12 Body 13 (heating part 13A) not in contact with or close to range, can also Covering Liguid holding member 12 outer lateral side.

For example, in entire heater 13 (heating part 13A, first end section 13B₁And second end section 13B₂) outside In the case of being provided with liquid holding portion part 12, coating member 15 can be in the inner side surface and liquid holding portion of coating member 15 In the range of the outer lateral side contact of part 12, covered along the overall length of the outer lateral side of the liquid holding portion part 12 of prescribed direction A The outer lateral side of liquid holding portion part 12, can also be in the circumferential direction using prescribed direction A as axis in the outer of liquid holding portion part 12 The outer lateral side of the full Covering Liguid holding member 12 of side side.

In embodiments, coating member 15 preferably by orthogonal direction B by the outside of liquid holding portion part 12 To inward side to pressing, the inner side surface for making liquid holding portion part 12 with the stress of 13 indeformable degree of heater contacts for side Or close to heater 13.In addition, in orthogonal direction B, the thickness of the liquid holding portion part 12 of state that is covered by coating member 15 The thickness of the liquid holding portion part 12 for the state not covered by coating member 15 preferably less than.

In addition, from the viewpoint of being applied the stress of degree that heater 13 will not deform, it is preferable that even if being protected in liquid Hold the inner side surface of component 12 and heater 13 (heating part 13A) not in contact with or close to range, coating member 15 also covers The outer lateral side of liquid holding portion part 12, also, it is being provided with first end section 13B₁In the range of, in coating member 15 Side sets cartridge 14₁, in setting second end section 13B₂Range, the inside of coating member 15 set cartridge 14₂。

Lid 16 is the component for blocking supply mouth, which is used to supply aerosol source to reservoir 11.In embodiment In, supply mouth is arranged on the end (hereinafter referred to as downstream) of the reservoir 11 in the downstream side of air flow circuit.In other words, supply mouth It is arranged on the basis of reservoir 11 and the opposite side of the coupling part 111C of power supply (that is, suction nozzle side opening 111O sides).Supply Mouth is open towards prescribed direction (downstream side for prescribed direction A in fig. 2), which makes to be atomized by heater 13 Aerosol is configured towards the direction of suction nozzle side opening 111O, lid 16 in a manner of blocking up supply mouth from suction nozzle side opening 111O side seals. (it is in fig. 2 prescribed direction A in the prescribed direction by the aerosol that heater 13 is atomized towards the direction of suction nozzle side opening 111O Downstream side) on, coupling part 111C, reservoir 11, lid 16 and suction nozzle side opening 111O are arranged in order.Coupling part 111C, reservoir 11, lid 16 and suction nozzle side opening 111O straight line configurations.Preferably, lid 16 be fixed on aspirator housing 110X and/ Or cartridge 14₁.The action (being herein the action toward downstream) detached by lid 16 from reservoir 11, heater 13 or electric power At least one party in supply part is damaged.

As long as the here, component that heater 13 is electrically connected to a power source by power supply component.Power supply component Cartridge 14, flange 17, cartridge 14 or flange 17 are e.g. connected to the conducting wire (not shown in fig. 2) of power supply Deng.The wiring of conducting wire is not particularly limited, but for example conducting wire can be by connecting in atomization unit housing 111X with power supply.

Flange 17 is made of electroconductive component, such as connects above-mentioned conducting wire.For example, flange 17 has：It connects from power supply The first pole extension conducting wire flange 17₁And the flange 17 of conducting wire that connection extends from the second pole of power supply₂.Flange 17₁Gu Due to cartridge 14₁, flange 17₂It is fixed on cartridge 14₂.Flange 17₁Lid 16 can also be fixed on.As described above, connection In the conducting wire of flange 17 and flange 17 can be an example of power supply component.Power supply component includes：First power supply Partly (such as with flange 17₂And flange 17₂The conducting wire of connection), including from heater 13 towards the coupling part with power supply The part of 111C sides extension；Second power supply part (such as with flange 17₁And flange 17₁The conducting wire of connection), including from hair The part that the opposite side (that is, suction nozzle side opening 111O sides) of hot body 13 towards coupling part 111C extend.In such an example, The action (being herein action downstream) that lid 16 is detached from reservoir 11 will cause such as the second power supply part (such as with Flange 17₁And flange 17₁The conducting wire of connection) it is damaged.

Here, the phenomenon that the function that " breakage ", which refers to each component, to be had reduces.In embodiments, it should be noted that, it is " broken Deformation of the damage " including heater 13, the loose contact of cartridge 14 and heater 13, flange 17₁Come off, conducting wire is from flange 17₁Stripping, conducting wire the concepts such as broken string.

In embodiments, in the case of being set as detaching direction in the direction for detaching lid 16 from reservoir 11, electric power supplies At least part of detaching direction side of lid 16 is set to component.Power supply component can also be matched by the inside of lid 16 It puts.Power supply component can be fixed on lid 16.

For example, since lid 16 is fixed in cartridge 14₁, therefore, along with the separation of lid 16, it will heater occurs 13 deformation, cartridge 14 and the loose contact of heater 13 etc..Alternatively, due to flange 17₁It is arranged on the downstream of lid 16 Face, therefore, along with the separation of lid 16, it will the coming off of flange 17, conducting wire occurs from the stripping of flange 17, the broken string of conducting wire Deng.Alternatively, in flange 17₁It is fixed on cartridge 14₁And in the case of lid 16, along with the separation of lid 16, it will generate heat The deformation of body 13, cartridge 14 and the loose contact of heater 13 etc..

In embodiments, heater 13 is easier broken than power supply components such as cartridge 14, flange 17 and conducting wires Damage.Conducting wire is easier breakage than cartridge 14 and flange 17.

Aerosol source is the liquid such as glycerine or propylene glycol.Aerosol source is such as described above, pass through the material as resin web The hole plastid of composition is kept.Hole plastid can be made of non-tobacco material, can also be made of tobacco-containing material.In addition, aerosol Source can include flavor component (nicotine component etc.).Alternatively, aerosol source can not include flavor component yet.

Electric accessory unit 112 has the electric accessory unit housing 112X for the part for forming aspirator housing 110X.In reality It applies in mode, electric accessory unit 112 has entrance 112A.From entrance 112A leaked-in airs as shown in Fig. 2, being imported into atomization list First 111 (heaters 13).Electric accessory unit 112 has the power supply of driving fragrance aspirator 100, controls fragrance aspirator 100 Control circuit.Power supply and control circuit are accommodated in electric accessory unit housing 112X.Electric accessory unit housing 112X have along The cylindrical shape (such as cylindrical shape) of prescribed direction A extensions.Power supply is, for example, lithium ion battery.Control circuit is for example by CPU And memory is formed.

Smoke grenade 130 can be connected to the aspirator main body 110 for forming fragrance aspirator 100.Smoke grenade 130 is from entrance 112A It is connected to the downstream that atomization unit 111 is set on the air flow circuit of outlet 130O (suction nozzle end).In other words, smoke grenade 130 differs Surely the position than atomization unit 111 closer to suction nozzle end side is set in physical space, as long as will be from atomization unit 111 The aerosol of generation is guided to the downstream that atomization unit 111 is set on the air flow circuit of suction nozzle end side.

For example, smoke grenade 130 has smoke grenade housing 131, aroma source 132, mesh 133A and filter tip 133B.

Smoke grenade housing 131 has the cylindrical shape (such as cylindrical shape) extended along prescribed direction A.Smoke grenade housing 131 is received Hold aroma source 132.Here, smoke grenade housing 131 is configured to be inserted into aspirator housing 110X along prescribed direction A.

Aroma source 132 is set to the downstream of atomization unit 111 on air flow circuit.Aroma source 132 from aerosol source to producing Raw aerosol assigns flavor component.In other words, the fragrance for aerosol being given to by aroma source 132 is transported to suction nozzle end.

In embodiments, aroma source 132 is by assigning the aerosol that occurs from atomization unit 111 raw material of flavor component Piece is formed.Material piece is preferably dimensioned to be more than 0.2mm below 1.2mm.And then material piece is preferably dimensioned to be more than 0.2mm Below 0.7mm.Form aroma source 132 material piece size it is smaller, specific surface area more increases, therefore, flavor component easily from The material piece for forming aroma source 132 is released.Therefore, when assigning desired amount of flavor component in aerosol, can inhibit The amount of material piece.As the material piece for forming aroma source 132, can be used pipe tobacco tobacco, by tobacco material be configured to it is granular into Body.However, aroma source 132 may be that tobacco material is configured to the formed body of sheet.In addition, form aroma source 132 Material piece can also be made up of the plant (such as peppermint, vanilla etc.) other than tobacco.Peppermint can also be assigned to aroma source 132 The fragrance such as alcohol.

Here, form aroma source 132 material piece using for example on the basis of JIS Z 8801 stainless steel sieve, by with Screening on the basis of JIS Z 8815 obtains.For example, using the stainless steel sieve of the mesh with 0.71mm, pass through dry type and machine Tool formula succusion, screened material piece by 20 minutes, obtained the original sieved by the stainless steel of the mesh with 0.71mm Tablet.Then, it is sieved using the stainless steel of the mesh with 0.212m m, is passed through 20 minutes using dry type and mechanical succusion Material piece is screened, removal has passed through the material piece of the stainless steel sieve of the mesh with 0.212mm.That is, form aroma source 132 material piece is and not by providing that the stainless steel of lower limit is sieved by the stainless steel sieve (mesh=0.71mm) of set upper limit The material piece of (mesh=0.212mm).Therefore, in embodiments, the lower size limit for forming the material piece of aroma source 132 passes through Provide the mesh definition of the stainless steel sieve of lower limit.In addition, the upper dimension bound for forming the material piece of aroma source 132 passes through set upper limit Stainless steel sieve mesh definition.

In embodiments, aroma source 132 is the tobacco source with alkaline pH.The pH of tobacco source is preferably greater than 7, more excellent It is selected as more than 8.Thereby, it is possible to the flavor component generated from tobacco source is effectively exported by aerosol.As a result, to aerosol When assigning desired amount of flavor component, the amount of tobacco source can be inhibited.On the other hand, the pH of tobacco source is preferably 14 hereinafter, more Preferably less than 10.Thereby, it is possible to inhibit the damage to fragrance aspirator 100 (such as smoke grenade 130 or aspirator main body 110) (corrosion etc.).

In addition, should be noted that, the flavor component occurred from aroma source 132 is conveyed by aerosol, without to perfume (or spice) It is heated in itself in taste source 132.

Mesh 133A is provided in the opening of the upstream closure smoke grenade housing 131 of aroma source 132, and filter tip 133B is set Into the opening that smoke grenade housing 131 is blocked in the downstream of aroma source 132.Mesh 133A has the original that will not make composition aroma source 132 Tablet by degree density.The density of mesh 133A is such as net with more than 0.077mm below 0.198mm Eye.Filter tip 133B is made of the substance with gas permeability.Filter tip 133B is preferably such as acetate fiber filter tip.Filter tip 133B has It will not make the density of degree that the material piece of composition aroma source 132 passes through.

(occupation mode of unfired fragrance aspirator)

Hereinafter, the occupation mode of the unfired fragrance aspirator of embodiment is illustrated.Fragrance aspirator 100 exists When detecting the attraction action of user, start the supply of the power supply output to heater 13.Along with the power supply to heater 13 The supply of output starts, the atomization of aerosol source kept by liquid holding portion part 12.On the other hand, when fragrance aspirator 100 when no longer detecting the attraction action of user, stops the supply to the output of the power supply of heater 13.Along with to heater 13 The supply of power supply output stop, the atomization of the aerosol source kept by liquid holding portion part 12 stops.

(manufacturing method of atomization unit)

Hereinafter, the manufacturing method of the atomization unit of embodiment is illustrated.Fig. 4 and Fig. 5 is for illustrating embodiment party The figure of the manufacturing method of the atomization unit 111 of formula.

As shown in Fig. 4 (A), base component 300 has the axis X that extends along prescribed direction A, with along being formed in base portion Heater 13 (step A) is configured in the spiral-shaped slot of the side of part 300 or the mode of protrusion.In embodiments, base portion Part 300 is the fixture for including having the part of cylindrical shape.

As described above, heater 13 is made of wire rod, the process shown in Fig. 4 (A) is：Along being formed in base component 300 Side spiral-shaped slot or protrusion wind the wire rod of non-coiled type, the wire rod of non-coiled type is made to become the line of coiled type Material.

Then, as shown in Fig. 4 (B), make to be fixed with flange 17₂Cartridge 14₂It is slided along prescribed direction A, as a result, Cartridge 14 is configured in the outer lateral side of heater 13₂, and make cartridge 14₁It slides along prescribed direction A, exists as a result, The outer lateral side configuration cartridge 14 of heater 13₁(step E).In such an example, in order to make the heating of heater 13 Part 13A exposes, by cartridge 14₁And cartridge 14₂It is configured with the state being separated from each other.

Then, as shown in Fig. 4 (C), make the housing cover 111X of a part of composition atomization unit housing 111X₁Along rule Determine direction A slips, make housing cover 111X as a result,₁With flange 17₂Contact.Then, by making liquid holding portion part 12 along rule Determine direction A slips, liquid holding portion is configured in a manner of at least part (heating part 13A) in contact with or close to heater 13 Part 12 (step C).Housing cover 111X₁It is fixed in cartridge 14₂And flange 17₂。

In addition, the process of liquid holding portion part 12 is configured in a manner of the heating part 13A in contact with or close to heater 13 Can also be that liquid holding portion part 12 is made in contact with or close to fever by the configuration of the coating member 15 shown in aftermentioned Fig. 4 (D) The process of liquid holding portion part 12 is configured in the heating part 13A of body 13.And then the process that liquid holding portion part 12 is configured also may be used To be the work of the configuration liquid holding portion part 12 while liquid holding portion part 12 is made to press the outer lateral side of heating part 13A Sequence.The process of configuration liquid holding portion part 12 can also be to be configured in a manner of the outer lateral side week for contacting heating part 13A The process of liquid holding portion part 12.In addition, the process of configuration liquid holding portion part 12 is in the outside of base component 300 (fixture) In the case that side is configured with heater 13, the process of configuration liquid holding portion part 12 in the outside of heater 13.

Then, as shown in Fig. 4 (D), coating member 15 is made to be slided along prescribed direction A, as a result, in liquid holding portion part 12 Outer lateral side configuration coating member 15.By the configuration of coating member 15, the heating part 13A and liquid for making heater 13 are protected Hold component 12 well in contact with or close to.

Then, as shown in Fig. 5 (A), the housing cylinder 111X of a part of atomization unit housing 111X will be formed₂It is fixed on Housing cover 111X₁.Then, by housing cover 111X₁, housing cylinder 111X₂And the space configuration storage that cartridge 14 is formed Storage 11.Preferably, a part for reservoir 11 is also disposed at the outside of coating member 15.The configuration of reservoir 11 can also be By housing cylinder 111X₂It is fixed on housing cover 111X₁It carries out before.

Herein, it is preferable that after the outer lateral side configuration cartridge 14 of heater 13, heater 13 is fixed on cylinder Shape component 14.The fixed step of heater 13 and cartridge 14 is after the process shown in Fig. 4 (B) to the work shown in Fig. 5 (B) It is carried out before sequence.The fixed step of heater 13 and cartridge 14 preferably carries out before the process shown in Fig. 5 (A), More preferably carried out before the process of Fig. 4 (C).Excessive parts can be not present in the outer lateral side of cartridge 14 as a result, Heater 13 and cartridge 14 are fixed under state, easily fixes heater 13 and cartridge 14.

Then, as shown in Fig. 5 (B), reservoir 11 is blocked by lid 16 after reservoir 11 fills aerosol source Downstream.Lid 16 is fixed in housing cylinder 111X₂.In addition, should be noted that, the upstream end of reservoir 11 is by housing cover 111X₁It blocks.Then, flange 17 is configured in the downstream end face of lid 16₁.Flange 17₁With cartridge 14₁It is fixed.

Then, as shown in Fig. 5 (C), base component 300 (fixture) is rotated by rotary shaft of axis X, makes entire heater 13 (step B) is detached from the slot or protrusion of base component 300.Here, should be noted that, cartridge 14 is via lid 16 or flange 17 Etc. being fixed on atomization unit housing 111X (housing cover 111X₁And housing cylinder 111X₂).Therefore, the process shown in Fig. 5 (C) exists Cartridge 14 is fixed on after atomization unit housing 111X and/or cartridge 14 is fixed on the laggard of heater 13 Row.Here, the space be used as air flow circuit and used, Fig. 5 (C) are formed in the inside of heater 13 by the process shown in Fig. 5 (C) Shown process is to form the interior effluent made from the aerosol that heater 13 is atomized to heater 13 by the separation of heater 13 Dynamic aerosol introducing port (cartridge 14₁With cartridge 14₂Interval) process.In addition, by making heater 13 from base Base member 300 detaches, and aerosol introducing port starts to be connected with the inside of heater 13, therefore, should notice shown in Fig. 5 (C) Process is the process to form aerosol introducing port.

And then the process shown in Fig. 5 (C) is to form air stream in the inside of heater 13 by the separation of heater 13 At least part of process on road.Specifically, the process shown in Fig. 5 (C) is：Make entire heater 13 from base component 300 (fixture) detaches, and at least part of process of air flow circuit is formed in the inside of heater 13 by the separation of heater 13. In such an example, it is preferable that at least part that configuration forms air flow circuit is carried out before the process shown in Fig. 5 (C) Channel-forming member process (step G).Channel-forming member is contemplated that be cartridge 14 as escribed above.Therefore, The process of configuration channel-forming member may be considered as being the process shown in Fig. 4 (B).

In embodiments, from the viewpoint of being electrically connected of cartridge 14 and heater 13, the slot of base component 300 Depth or base component 300 protrusion it is highly preferred be with formed heater 13 wire rod diameter same degree below. On the other hand, from the holding viewpoint of the heater 13 of base component 300, the depth or base portion of the slot of base component 300 The protrusion of part 300 it is highly preferred be formed heater 13 wire rod diameter more than half.

(functions and effects)

In embodiments, at least part of the outer lateral side of the liquid holding portion part 12 on orthogonal direction B is by covering Component 15 covers.By such composition, it can inhibit the phenomenon that aerosol source is exceedingly supplied to liquid holding portion part 12 (oversupply).By the inhibition to oversupply, the risk of leakage can reduce.In addition, by the inhibition to oversupply, suppression The heat loss of heating atomization processed inhibits the reduction of nebulization efficiency.

Here, coating member 15 is made of the component that liquid can not penetrate.Thus, it is suppressed that the excessive confession of aerosol source It gives.Coating member 15 is preferably by having the pyroconductivity lower than the pyroconductivity of aerosol source or liquid holding portion part 12 Component is formed.According to this structure, inhibit the heat loss of heating atomization.Coating member 15 is preferably by by liquid holding portion part 12 are formed to inward side to the component of pushing.According to this structure, liquid holding portion part 12 can be made to contact or connect well Nearly heater 13.

In embodiments, it is preferable that in inner side surface and the heater 13 (heating part 13A) of liquid holding portion part 12 In the range of, coating member 15 is in the overall length of the outer lateral side of the liquid holding portion part 12 along prescribed direction A The outer lateral side of Covering Liguid holding member 12.According to this structure, above-mentioned oversupply can be further suppressed.

In embodiments, it is preferable that in inner side surface and the heater 13 (heating part 13A) of liquid holding portion part 12 In the range of, coating member 15 is in the circumferential direction using prescribed direction A as axis in the liquid guarantor along prescribed direction A Hold the outer lateral side of the full Covering Liguid holding member 12 of the outer lateral side of component 12.It according to this structure, can be into one Step inhibits above-mentioned oversupply.

In embodiments, coating member 15 is preferably the outer lateral side of equably Covering Liguid holding member 12.According to Such structure can be supplied uniformly across heater 13 (heating part 13A) aerosol source, promote nebulization efficiency.For example, it covers Cover 15 can in a manner of not having opening Covering Liguid holding member 12 outer lateral side.Thereby, it is possible to more effectively Inhibit above-mentioned oversupply.Alternatively, coating member 15 can also have the opening of 10 or more to be configured at equal intervals.Pass through tune The whole quantity or size being open with 10 or more be configured at equal intervals, not only inhibits above-mentioned oversupply, can also be by aerosol The supply amount in source is adjusted to arbitrarily measure, and can easily be supplied uniformly across aerosol source, promote nebulization efficiency.Alternatively, Coating member 15 has multiple openings to be configured at equal intervals, by the outside side for the liquid holding portion part 12 that coating member 15 covers The area (area coverage) in face can be more than the 60% outer lateral side area of liquid holding portion part 12.By this structure, The supply amount of aerosol source can more effectively be inhibited.

In embodiments, the thickness of the liquid holding portion part 12 in the state of being covered by coating member 15 preferably ratio is not The thickness of liquid holding portion part 12 in the state of being covered by coating member 15 is small, in other words, preferably liquid holding portion part 12 It is coated the structure that cover 15 compresses.According to this structure, by the compression of liquid holding portion part 12, inhibit the gas of excess vol The situation that colloidal sol source is kept by liquid holding portion part 12.

In embodiments, at least part of reservoir 11 is preferably configured at coating member 15 on orthogonal direction B Outside.According to this structure, reservoir 11 both is distributed into the space in the outside of coating member 15 and increases reservoir 11 Capacity (passing through the amount of 11 storable aerosol source of reservoir), while also be able to inhibit above-mentioned mistake by coating member 15 Degree supply.

In embodiments, cartridge 14 forms barrier component, which has is located at fever in orthogonal direction B Outer lateral side between the outer lateral side of body 13 and the inner side surface of coating member 15.The outer lateral side of cartridge 14 is preferably It is arranged on a part of opposed position with the inner side surface of liquid holding portion part 12.And then the outer lateral side of cartridge 14 It is preferably provided in a part of opposed position with the inner side surface of coating member 15.According to this structure, inhibit by covering The deformation of heater 13 caused by the stress of the side direction inwardly for the liquid holding portion part 12 that cover 15 covers.And then Cartridge 14 forms air flow circuit and (such as can bear coating member 15 inwards in orthogonal direction B with prescribed strength Direction pushes the intensity of the stress of the outer lateral side of cartridge 14) in the case of, caused by the stress of inhibition coating member 15 The deformation of heater 13 and the deformation of air flow circuit.That is, under form of the inside of cartridge 14 for air flow circuit, tubular The conduct in terms of the deformation of heater 13 caused by the stress for inhibiting coating member 15 and the deformation of air flow circuit of component 14 Barrier component plays its function.

In embodiments, at least part of cartridge 14 for forming air flow circuit is made of electroconductive component, tool Have in the first contact and first end section 13B₁The cartridge 14 of contact₁And in the second contact and second end section 13B₂Contact Cartridge 14₂.Therefore, it is possible to cut down to be formed air flow circuit and formed electric contact needed for number of parts.

In embodiments, the lid 16 for blocking supply mouth is provided with, which is used to supply aerosol to reservoir 11 Source.Lid 16 can make from the action (being herein action downstream) that reservoir 11 detaches in heater 13 or power supply component At least one party is damaged.Therefore, it is possible to effectively inhibit by the fragrance aspirator 100 that aerosol source is reinjected to reservoir 11 It utilizes.Further, since lid 16 is made to block on the basis of reservoir and be arranged on and the opposite side of the coupling part 111C of power supply Therefore supply mouth, is effectively suppressed by the utilization of the reflooded fragrance aspirator 100 of above-mentioned aerosol source.

In embodiments, power supply component includes：First power supply part (such as flange 17₂And with flange 17₂ The conducting wire of connection), including from heater 13 towards the part with the extension of the coupling part 111C sides of power supply；Second power supply Partly (such as flange 17₁And with flange 17₁The conducting wire of connection), including from heater 13 towards the opposite of coupling part 111C The part of side (i.e. suction nozzle side opening 111O sides) extension.Therefore, easily using the second power supply part because lid 16 is from reservoir 11 separation actions (being herein the action towards downstream) and breakage structure.

In embodiments, the coil for forming heater 13 includes：Heating part 13A, by most being connect each other on wire rod Wire rod between the first contact and the second contact that are closely configured is formed；First end section 13B₁, by heating part on wire rod Wire rod on the outside of a side of 13A is formed；Second end section 13B₂, on the outside of the opposing party on wire rod by heating part 13A Wire rod is formed.At least part of the inner side surface of liquid holding portion part 12 and heating part 13A in contact with or close to.That is, due to (it is not in embodiments first end section 13B by the high end of the bad possibility of quality₁And second end section 13B₂) as plus Hot part uses, but the second best in quality part other than the end for the wire rod for forming heater 13 (coil) (is being implemented It is heating part 13A in mode) it is used as heating part, therefore can be not depend on the side of the manufacturing method of heater 13 Formula promotes the uniformity of aerosol occurrence quantity.

In embodiments, since the central part that heater 13 (coil) is used only is as heating part 13A, hold Change places in the entire central part configuration liquid holding portion part 12 used as heating element 13A, easily form energy loss compared with Few atomization unit 111.

In embodiments, cartridge 14 is made of electroconductive component, is had in the first contact and first end section 13B₁The cartridge 14 of contact₁With in the second contact and second end section 13B₂The cartridge 14 of contact₂.Cartridge 14₁ And cartridge 14₂Configuration is the side of heater 13 (being in embodiments outer lateral side).In addition, the side of heater 13 Refer to：When the coil for thinking to form heater 13 is cartridge, the side of heater 13 is the peripheral surface and inner circumferential of coil Face.Therefore, the side of heater 13 is actually made of the side for the wire rod for forming coil.By above-mentioned structure, generating heat The contact with cartridge 14 occurs for the side of body 13, can carry out electrical connection on the whole as a result, realize stable electrical connection. In addition, it carries out in the case that adjoint fixed with cartridge 14 be electrically connected, to carry out in face in the side of heater 13 On fixation, heater 13 can be firmly secured to cartridge 14.In addition, it is fixed easily to carry out welding etc..

And then in embodiments, since cartridge 14 is the component with face, it can be achieved that the mutual electricity in face Connection can carry out stable electrical connection, and can heater 13 be firmly secured to cartridge 14.It in addition, can be easy It is fixed that ground carries out welding etc..

In embodiments, cartridge 14₁Liquid holding portion part 12 and first end section are configured in orthogonal direction B 13B₁Between, cartridge 14₂Liquid holding portion part 12 and second end section 13B are configured in orthogonal direction B₂Between.Therefore, Since heater 13 is by cartridge 14₁And cartridge 14₂Support even if the inside of heater 13 is hollow, can also inhibit The deformation of heater 13.

In embodiments, base component 300 (fixture) has the axis X extended along prescribed direction A, atomization unit 111 Manufacturing method be：With heater 13 along the spiral-shaped slot or protrusion of the side for being formed in base component 300 (fixture) Mode heater 13 is configured, and base component 300 is rotated by rotary shaft of axis X, make entire heater 13 from base portion Slot or the protrusion separation of part 300.That is, in the manufacturing process of atomization unit 111, heater 13 is supported by base component 300, because This can inhibit the deformation of the heater 13 in the manufacturing process of atomization unit 111, can produce the fever with high quality The atomization unit 111 of body 13.

In embodiments, after heating part 13A of the liquid holding portion part 12 in contact with or close to heater 13 is made, with Axis X rotates base component 300 (fixture) for rotary shaft, and entire heater 13 is made to be detached from the slot or protrusion of base component 300. It (is particularly using the process that liquid holding portion part 12 is configured in a manner of the heating part 13A in contact with or close to heater 13 Make heating part 13A in contact with or close to the process of liquid holding portion part 12) inhibit the deformation of heater 13, it can manufacture and provide There is the atomization unit 111 of the heater 13 of high quality.

In embodiments, using axis X as rotary shaft make base component 300 (fixture) rotation make entire heater 13 from Before slot or the protrusion separation of base component 300, cartridge 14 is configured to the outside side of the heater 13 on orthogonal direction Face.In other words, in the manufacturing process of atomization unit 111, heater 13 is always by base component 300 or cartridge 14 Support.Therefore, it is possible to always inhibit the deformation of the heater 13 in the manufacturing process of atomization unit 111, can produce has The atomization unit 111 of the heater 13 of high quality.

In addition, the process of configuration liquid holding portion part 12, which can be liquid holding portion part 12, pushes the outer of heating part 13A The process of liquid holding portion part 12 is configured while the side of side.The process of configuration liquid holding portion part 12 can also be added with contacting The process that liquid holding portion part 12 is configured in the mode of the week of the outer lateral side of hot part 13A.In these examples, due to making From configuration liquid holding portion part 12 before the separation of base component 300 liquid holding portion part 12 can be configured in heater 13 Process in inhibit the deformation of heater 13, the atomization unit 111 of the heater 13 with high quality can be produced.

Furthermore it is possible to by the separation of heater 13, at least part of air flow circuit is formed in the inside of heater 13. Heater 13 is made to inhibit intrusion of the foreign matter into air flow circuit before the separation of base component 300 as a result,.

In embodiments, after cartridge 14 is fixed on atomization unit housing 111X and/or by heater 13 It is fixed on after cartridge 14, rotates base component 300 (fixture) by rotary shaft of axis X, make entire heater 13 from base Slot or the protrusion separation of base member 300.Therefore, it is possible to inhibit the deformation of the heater 13 caused by the rotation of base component 300, energy Enough produce the atomization unit 111 of the heater 13 with high quality.

[modification 1]

Hereinafter, the modification 1 to embodiment illustrates.Hereinafter, the main pair of difference from embodiment is said It is bright.

In modification 1, to liquid holding portion part is configured in a manner of the heating part 13A in contact with or close to heater 13 The modification of 12 process (process shown in Fig. 4 (C)) illustrates.Fig. 6 is for the change of the step shown in definition graph 4 (C) The figure of more example.It should be noted that, modification 1 and the difference of embodiment are：Make base component using axis X as rotary shaft 300 (fixtures) rotate, and make entire heater 13 from the process of slot or the protrusion separation of base component 300 in the work shown in Fig. 4 (C) The midway of sequence carries out.

Specifically, as shown in Fig. 6 (A), by the slip that makes there is cylindrical shape with component 400 along prescribed direction A It slides, slip component 400 is configured in the outer lateral side of heater 13 and cartridge 14.That is, the fever along orthogonal direction B The outer lateral side of body 13 and cartridge 14 makes slip component 400 slide (step C1).

Then, as shown in Fig. 6 (B), rotate base component 300 (fixture), and make entire heater by rotary shaft of axis X 13 detach (step B) from the slot or protrusion of base component 300.Here, should be noted that, cartridge 14 is consolidated via 17 grade of flange Due to atomization unit housing 111X (housing cover 111X₁)。

Then, as shown in Fig. 6 (C), make outside of the liquid holding portion part 12 along the slip component 400 of orthogonal direction B Slide (step C2) in side.Here, heater 13 is covered by slip component 400, therefore, even if make entire heater 13 from Configuration liquid holding portion part 12, can also inhibit with liquid holding portion part 12 in the state of base component 300 (fixture) separation Configuration caused by heater 13 deformation.

Then, as shown in Fig. 6 (D), by the way that slip is made to remove slip portion along prescribed direction A slips with component 400 Part 400.That is, slip component 400 (step C3) is removed between liquid holding portion part 12 and heater 13 by sliding.By This, should be noted that, liquid holding portion part 12 is configured in a manner of the heating part 13A in contact with or close to heater 13.

In such an example, slip with component 400 preferably by than liquid holding portion part 12 more easily along prescribed direction A The component of slip is formed.For example, slip component 400 is configured to：Make to act on the inner side surface and tubular of slip component 400 Frictional force (kinetic force of friction and/or stiction) between the outer lateral side of component 14 is than the inner side surface of liquid holding portion part 12 Frictional force between the outer lateral side of cartridge 14 is small.With this configuration, with liquid holding portion part 12 is separately configured Example is compared, and is easier to make 12 sliding configuration of liquid holding portion part using slip component 400.In such an example, it slides It is preferably higher than the rigidity of liquid holding portion part 12 with the rigidity of component 400.With this configuration, with being kept so that liquid is separately configured The situation of component 12 is compared, and slip component 400 is made to slide on cartridge 14 using slip component 400 is more difficult₁ With cartridge 14₂Between when be stuck in the joint-cutting of pipe, therefore, be easily configured liquid holding portion part 12.

In the example shown in Fig. 6, after sliding slip component 400 along the outer lateral side of cartridge 14, Liquid holding portion part 12 is made to be slided, but modification 1 is without being limited thereto along the outer lateral side of slip component 400.Specifically, It can be inserted after slip component 400 is inserted into the inside of liquid holding portion part 12 in the inside of liquid holding portion part 12 In the state of entering to have slip component 400, slip component 400 is made to be slided along the outer lateral side of cartridge 14.

In the example shown in Fig. 6, after slot or protrusion separation of the heater 13 from base component 300 is made, although logical Slip is crossed to remove slip component 400, but modification 1 is without being limited thereto.Specifically, slip component is removed by slip 400 process can also carry out before the process that heater 13 is made to be detached from the slot or protrusion of base component 300.

In modification 1, the depth of the slot of base component 300 or the highly preferred of the protrusion of base component 300 are and reality Apply that mode is identical, be diameter same degree with forming the wire rod of heater 13 hereinafter, and be wire rod diameter more than half.

In modification 1, it is preferable that make process and implementation of the heater 13 from slot or the protrusion separation of base component 300 Mode is identical, is fixed on cylindrical portion after cartridge 14 is fixed to atomization unit housing 111X and/or by heater 13 It is carried out after part 14.

(functions and effects)

In modification 1, liquid holding portion part is being configured in a manner of the heating part 13A in contact with or close to heater 13 Before 12, heater 13 is made to be detached from the slot or protrusion of base component 300.In such manner, it is possible in 12 grade components of liquid holding portion part Assembling before as soon as possible detach base component 300, can be in a short time by base component 300 for next semi-finished product Manufacture, can be promoted the productivity of atomization unit 111.

In addition to obtaining these above-mentioned effects, by using slip component 400, with adding in contact with or close to heater 13 The mode of hot part 13A is configured in the process (such as the process for sliding liquid holding portion part 12) of liquid holding portion part 12, energy Enough inhibit the deformation of heater 13, the atomization unit 111 of the heater 13 with high quality can be produced.In addition, easily exist The outer lateral side of heater 13 and cartridge 14 configuration liquid holding portion part 12.

[modification 2]

Hereinafter, the modification 2 to embodiment illustrates.Hereinafter, the main pair of difference from embodiment is said It is bright.

In embodiments, base component 300 is the fixture with cylindrical shape.In contrast, in modification 2, base Base member 300 is, for example, the (cartridge 14 of cartridge 14₁And cartridge 14₂).Fig. 7 is the atomization for illustrating modification 2 The figure of the manufacturing method of unit 111.In addition, in the figure 7, should be noted that, atomization unit housing 111X, lid 16 and convex is omitted Edge 17 etc..

Specifically, as shown in Fig. 7 (A), cartridge 14 has the axis X extended along prescribed direction A, with heater 13 Heater 13 is configured along the spiral-shaped slot for the inner side surface for being formed in cartridge 14 or the mode of protrusion, and by cylinder Shape component 14 is electrically connected (step A and step D) with heater 13.Here, cartridge 14 is configured in the outside of heater 13.

In modification 2, cartridge 14₁And cartridge 14₂It is continuous in prescribed direction A.In other words, step A is across Cartridge 14₁And cartridge 14₂The step of heater 13 is configured in both sides.

Here, it should be noted that, (the cartridge 14 of cartridge 14 on orthogonal direction B₁And cartridge 14₂) Outer lateral side is configured with liquid holding portion part 12.

Then, in Fig. 7 (B), make cartridge 14 by rotary shaft of axis X₁And cartridge 14₂In at least one party rotation Turn, make heater 13 from slot or protrusion separation (step B).That is, step B is：Heater 13 is maintained to cross over cartridge 14₁And cylinder Shape component 14₂Both sides and the state being configured, while make cartridge 14₁And cartridge 14₂It is separated from each other.

In modification 2, by making cartridge 14₁And cartridge 14₂It is separated from each other, makes the heating part of heater 13 13A is divided to be exposed to liquid holding portion part 12.In addition, liquid is configured in a manner of the heating part 13A in contact with or close to heater 13 Body holding member 12 (step C or step C4).Here, due to forming cartridge 14 for the first time by the step shown in Fig. 7 (B)₁ With cartridge 14₂Between interval, therefore, process shown in Fig. 7 (B) is makes to be formed by sending out by the separation of heater 13 The aerosol that hot body 13 is atomized to the inside of heater 13 by aerosol introducing port (cartridge 14₁With cartridge 14₂ Between interval) process.

Here, heater 13 such as is fixed on cartridge 14, such fixed step can be shown in Fig. 7 (B) It is carried out after process.It alternatively, can also be in cartridge 14₁And cartridge 14₂In a conductive component fixed with heater 13 Later, another conductive component is made to be detached from a conductive component.Process (the step that cartridge 14 can be electrically connected with heater 13 D) it is considered as this fixed step.

In addition, making cartridge 14₁And cartridge 14₂State before being separated from each other is (that is, the shape shown in Fig. 7 (A) State) under, cartridge 14₁And cartridge 14₂It can also be connected by screwing togather.

(functions and effects)

In modification 2, with the spiral-shaped slot along the inner side surface for being formed in cartridge 14 or the side of protrusion Heater 13 is configured in formula, and makes cartridge 14 by rotary shaft of axis X₁And cartridge 14₂In at least one party rotation, make Heater 13 is detached from slot or protrusion.That is, in the manufacturing process of atomization unit 111, since heater 13 is by cartridge 14₁ And cartridge 14₂Support, therefore the deformation of heater 13 can be inhibited, the heater 13 with high quality can be produced Atomization unit 111.

In modification 2, since cartridge 14 is taken as base component 300 to use, do not need to such as embodiment The shown additional fixture for being used to form heater 13 can simplify the manufacturing process of atomization unit 111.

[modification 3]

Hereinafter, the modification 3 to embodiment illustrates.Hereinafter, the main pair of difference from modification 2 is said It is bright.

In modification 2, with the spiral-shaped slot along the inner side surface for being formed in cartridge 14 or the side of protrusion Heater 13 is configured in formula.In contrast, in modification 3, with along the spiral shape for the outer lateral side for being formed in cartridge 14 Heater 13 is configured in the slot of shape or the mode of protrusion.

Specifically, as shown in Fig. 8 (A), cartridge 14 has the axis X extended along prescribed direction A, with along formation Heater 13 is configured in the spiral-shaped slot of the outer lateral side of cartridge 14 or the mode of protrusion, and by cartridge 14 It is electrically connected with heater 13 (step A and step D).Here, cartridge 14 is configured at the inside of heater 13.

Then, in Fig. 8 (B), make cartridge 14 by rotary shaft of axis X₁And cartridge 14₂In at least one party rotation Turn, make heater 13 from slot or protrusion separation (step B).Here, due to forming tubular for the first time by the process shown in Fig. 8 (B) Component 14₁With cartridge 14₂Between interval, therefore the process shown in Fig. 8 (B) is to be made by the separation of heater 13 formation From the aerosol that heater 13 is atomized to the inside of heater 13 by aerosol introducing port (cartridge 14₁With tubular Component 14₂Between interval) process.

(functions and effects)

It is identical with modification 2 in modification 3, the atomization unit of the heater 13 with high-quality can be produced 111, and can simplify the manufacturing process of atomization unit 111.

[modification 4]

Hereinafter, the modification 4 to embodiment illustrates.Hereinafter, the main pair of difference from embodiment is said It is bright.

In embodiments, cartridge 14₁Internal diameter and cartridge 14₂Internal diameter it is identical.In contrast, it is changing In example 4, as shown in figure 9, cartridge 14₁Internal diameter and outer diameter than cartridge 14₂Internal diameter and outer diameter it is big.In addition, in Fig. 9 In, it should be noted that, atomization unit housing 111X, lid 16 and flange 17 etc. is omitted.

In such an example, as shown in figure 9, heater 13 has heating part 13A and first end section 13B₁, but not With second end section 13B₂.First end section 13B₁Outer lateral side and cartridge 14₁Inner side surface contact.In other words, Cartridge 14₁Configuration is in the outside of heater 13.On the other hand, in cartridge 14₂Outer lateral side or end face be connected with from The conducting wire that heating part 13A is upstream pulled out.Here, conducting wire is by component (such as nichrome wire) structure identical with heater 13 Into.Conducting wire can also be the directly extended component of wire rod that will form heater 13.Cartridge 14₂Outer lateral side or end face And conducting wire forms the second contact CP2.Conducting wire is fixed on cartridge 14 by welding or welding₁Outer lateral side.

It in addition, in fig.9, bloating conducting wire for the ease of illustration, but for reality, should be noted that, be protected in liquid It holds and conducting wire is configured between component 12 and cartridge 14.

(functions and effects)

In modification 4, it is set to the cartridge 14 in downstream side₁Cartridge 14 of the outer diameter than being set to upstream side₂ Outer diameter bigger.And coating member 15 and cartridge 14 therefore₂The distance between compare, coating member 15 and cartridge 14₁It is in small distance, can be in oversupply of the lateral inhibition aerosol source in downstream for liquid holding portion part 12.

In modification 4, cartridge 14₁It is configured in orthogonal direction B in liquid holding portion part 12 and first end section 13B₁ Between.Therefore, because pass through cartridge 14₁Heater 13 is supported, even if the inside of heater 13 is hollow, can also be inhibited The deformation of heater 13.

[modification 5]

Hereinafter, the modification 3 to embodiment illustrates.Hereinafter, the main pair of difference from embodiment is said It is bright.

In embodiments, cartridge 14₁Internal diameter and cartridge 14₂Internal diameter it is identical.In contrast, it is changing In example 4, as shown in Figure 10, cartridge 14₁Internal diameter and outer diameter than cartridge 14₂Internal diameter and outer diameter bigger.In addition, It in Figure 10, should be noted that, atomization unit housing 111X, lid 16 and flange 17 etc. is omitted.

In such an example, as shown in Figure 10, heater 13 has heating part 13A, first end section 13B₁And the Two end part 13B₂.But second end section 13B₂Outer diameter than first end section 13B₁Outer diameter it is small.First end section 13B₁ Outer lateral side and cartridge 14₁Inner side surface contact.Equally, second end section 13B₂Outer lateral side and cartridge 14₂Inner side surface contact.In other words, cartridge 14₁And cartridge 14₂It is configured in the outside of heater 13.

(functions and effects)

In modification 5, it is arranged on the cartridge 14 in downstream side₁Cartridge 14 of the outer diameter than being arranged on upstream side₂ Outer diameter it is big.Therefore, identical with modification 4 and coating member 15 and cartridge 14₂The distance between compare, coating member 15 with cartridge 14₁The distance between it is smaller, can be in downstream lateral inhibition aerosol source for the mistake of liquid holding portion part 12 Degree supply.

In modification 5, cartridge 14₁Liquid holding portion part 12 and first end section 13B are configured in orthogonal direction B₁ Between, cartridge 14₂Liquid holding portion part 12 and second end section 13B are configured in orthogonal direction B₂Between.Therefore, because Pass through cartridge 14₁Heater 13 is supported, even if the inside of heater 13 is hollow, can also inhibit the change of heater 13 Shape.

[modification 6]

Hereinafter, the modification 6 to embodiment illustrates.Hereinafter, mainly the difference of embodiment is illustrated.

In embodiments, cartridge 14₁Internal diameter and cartridge 14₂Internal diameter it is identical.In contrast, it is changing In example 6, as shown in figure 11, cartridge 14₁Internal diameter and outer diameter than cartridge 14₂Internal diameter and outer diameter it is big.In addition, scheming It in 11, should be noted that, atomization unit housing 111X, lid 16 and flange 17 etc. is omitted.

In such an example, as shown in figure 11, heater 13 has heating part 13A and second end section 13B₂, but Without first end section 13B₁.Second end section 13B₂Inner side surface and cartridge 14₂Outer lateral side contact.Change speech It, cartridge 14₂It is configured at the inside of heater 13.On the other hand, in cartridge 14₁Outer lateral side or end face connection There is the conducting wire downstream pulled out from heating part 13A.Cartridge 14₁Outer lateral side or end face and conducting wire form the first contact CP1。

It in addition, in fig. 11, bloating conducting wire for the ease of illustration, but should be noted that, actually be kept in liquid Conducting wire is configured between component 12 and cartridge 14.

(functions and effects)

In modification 6, it is set to the cartridge 14 in downstream side₁Cartridge 14 of the outer diameter than being set to upstream side₂ Outer diameter it is big.Therefore, and coating member 15 identical with modification 4 and modification 5 and cartridge 14₂The distance between compare, Coating member 15 and cartridge 14₁It is in small distance, can be in downstream lateral inhibition aerosol source for liquid holding portion part 12 Oversupply.

In modification 6, cartridge 14₂Liquid holding portion part 12 and first end section 13B are configured in orthogonal direction B₂ Between.Therefore, because pass through cartridge 14₂Heater 13 is supported, even if the inside of heater 13 is hollow, can also be pressed down The deformation of heater 13 processed.

[modification]

Hereinafter, the modification 7 to embodiment illustrates.Hereinafter, mainly the difference of embodiment is illustrated.

In modification 7, the manufacturing method of the atomization unit 111 shown in modification 4 (Fig. 9) is illustrated.But mist The installation method for changing unit housings 111X, coating member 15, lid 16 and flange 17 is roughly the same with embodiment, therefore omits it Installation method.In modification 7, there is the base component 300 (fixture) of axis X extended along prescribed direction to include：Tool There are the first support section 310 of first external diameter, second support section 320 with the second external diameter smaller than first external diameter, substrate Part 330 and step part 340.Cartridge 14₁Internal diameter it is corresponding with first external diameter, cartridge 14₂Internal diameter with Second external diameter is corresponding.Base part 330 is to support the component of the first support section 310, is formed cartridge 14₁Locking First locking part, junction section of the step part 340 for the first support section 310 and the second support section 320 are formed cylinder Shape component 14₂Second locking part of locking.

In modification 7, cartridge 14₁Internal diameter corresponding with first external diameter refer to cartridge 14₁Internal diameter and first The outer diameter of support section 310 has following magnitude relationship：Make cartridge 14₁Inner side surface can along configuration at first The heater 13 of the outer lateral side of support part point 310 slides, and make configuration in the heater 13 and tubular of the first support section 310 Component 14₁Inner side surface contact.On the other hand, cartridge 14₂Internal diameter corresponding with second external diameter refer to cartridge 14₂ Internal diameter and the second support section 320 outer diameter have following magnitude relationship：Cartridge 14₂Inner side surface can be along The outer lateral side of two support sections 320 is slided, also, in cartridge 14₂It is configured at the outer lateral side of the second support section 320 State (such as manufacturing step) under do not make cartridge 14₂Central shaft deviate from the central shaft of the second support section 320.

As shown in Figure 12 (A), with along the spiral-shaped slot for the outer lateral side for being formed in the first support section 310 or prominent Heater 13 (step A) is configured in the mode risen.

Then, as shown in Figure 12 (B), make cartridge 14₁Cartridge 14 is slid into along axis X₁By base part 330 Cartridge 14 is configured along the outer lateral side of the first support section 310 as a result, in the position of locking₁(step E1 and step E3). Process shown in Figure 12 (B) is from first support portion of 320 side of the second support section direction with big outer diameter with small outer diameter Divide 310 sides configuration cartridge 14₁The step of.Here, it should be noted that, in the prescribed direction along axis X, cartridge 14₁'s Overall length is shorter than the overall length of the first support section 310.

Then, as shown in Figure 12 (C), make cartridge 14₂Cartridge 14 is slid into along axis X₂By base part 340 Cartridge 14 is configured along the outer lateral side of the second support section 320 as a result, in the position of locking₂(step E2 and step E4). Process shown in Figure 12 (C) is from first support portion of 320 side of the second support section direction with big outer diameter with small outer diameter Divide 310 sides configuration cartridge 14₂The step of.It should be noted that, cartridge 14 is engaged in step part 340₂.Tubular as a result, Component 14₁And cartridge 14₂It is configured in the state of being separated from each other.

Then, as shown in Figure 12 (D), by the way that the conducting wire upstream pulled out from heating part 13A is connected to cartridge 14₂Outer lateral side and form the second contact CP2.For example, conducting wire is fixed on cartridge 14 by welding or solder₂It is outer Side side.Second contact CP2 can also be by cartridge 14₂End face connecting wire and form.

Then, by the way that liquid holding portion part 12 is made to be slided along axis X, in the outer lateral side of heater 13 and cartridge 14 Liquid holding portion part 12 is configured.That is, liquid holding portion part is configured in a manner of the heating part 13A in contact with or close to heater 13 12 (step C).Here, the work of liquid holding portion part 12 is configured in a manner of the heating part 13A in contact with or close to heater 13 Sequence is：Liquid is configured from 320 side of the second support section with small outer diameter towards 310 side of the first support section with big outer diameter Holding member 12.

Then, in Figure 12 (E), base component 300 (fixture) is rotated by rotary shaft of axis X, makes entire heater 13 (step B) is detached from the slot or protrusion of base component 300.Aerosol introducing port and sky are formed by the process shown in Figure 12 (E) Air-flow road this point is identical with embodiment.

Identical with embodiment although omitting in fig. 12, preferably cartridge 14 is via lid 16 or flange 17 etc. It is fixed on atomization unit housing 111X (housing cover 111X₁And housing cylinder 111X₂).That is, the process shown in Figure 12 (E) is preferred To be carried out after cartridge 14 is fixed on atomization unit housing 111X.

It in addition, in fig. 12, bloating conducting wire for the ease of illustration, but should be noted that, actually be kept in liquid Conducting wire is configured between component 12 and cartridge 14.

(functions and effects)

In modification 7, by the way that the conducting wire upstream pulled out from heating part 13A is connected to cartridge 14₂It is outer Side side or end face and form the second contact CP2.Therefore, it is possible to be readily formed the second contact CP2.

In modification 7, cartridge 14 is engaged by base part 330₁, and pass through step part 340 and engage tubular Component 14₂.Therefore, cartridge 14₁And cartridge 14₂Positioning be relatively easy to, easily make cartridge 14₁And cylindrical portion Part 14₂It is separated from each other distance corresponding with heating part 13A.

In modification 7, make cartridge 14₁, cartridge 14₂And liquid holding portion part 12 is from small outer diameter Two support sections, 320 side direction has 310 Slideslip of the first support section of big outer diameter.Therefore, slide easily these components.

[modification 8]

Hereinafter, the modification 8 to embodiment illustrates.Hereinafter, the main pair of point different from modification 7 is said It is bright.

In modification 8, the manufacturing method of the atomization unit 111 shown in modification 5 (Figure 10) is illustrated.But Atomization unit housing 111X, coating member 15, the installation method of lid 16 and flange 17 are roughly the same with embodiment, therefore omit These installation method.In modification 8, using with 7 same base component 300 (fixture) of modification.

In modification 8, cartridge 14₁Internal diameter corresponding with first external diameter refer to cartridge 14₁Internal diameter and first The outer diameter of support section 310 has following magnitude relationship：Cartridge 14₁Inner side surface can be along being configured at the first support The heater 13 of the outer lateral side of part 310 slides, also, makes to be configured at the heater 13 and tubular of the first support section 310 Component 14₁Inner side surface contact.Equally, cartridge 14₂Internal diameter corresponding with second external diameter refer to cartridge 14₂It is interior The outer diameter of diameter and the second support section 320 has following magnitude relationship：Cartridge 14₂It can be along being configured at the second support portion The heater 13 of 320 outer lateral side is divided to slide, also, make to be configured at the heater 13 and cylindrical portion of the second support section 320 Part 14₂Inner side surface contact.

As shown in Figure 13 (A), with along the outer lateral side for being formed in the first support section 310 and the second support section 320 The spiral-shaped slot of outer lateral side or the mode of protrusion heater 13 (step A) is configured.

Then, as shown in Figure 13 (B), make cartridge 14₁Cartridge 14 is slid into along axis X₁By base part 330 Cartridge 14 is configured along the outer lateral side of the first support section 310 as a result, in the position of locking₁(step E1 and step E3).

Then, as shown in Figure 13 (C), make cartridge 14₂Cartridge 14 is slid into along axis X₂By step part 340 Cartridge 14 is configured along the outer lateral side of the second support section 320 as a result, in the position of locking₂(step E2 and step E4). Then, by the way that liquid holding portion part 12 is made to be slided along axis X, liquid is configured in the outer lateral side of heater 13 and cartridge 14 Holding member 12.

Then, in Figure 13 (D), base component 300 (fixture) is rotated by rotary shaft of axis X, makes entire heater 13 (step B) is detached from the slot or protrusion of base component 300.Aerosol introducing port and sky are formed by the process shown in Figure 13 (D) Air-flow road this point is identical with embodiment.

(functions and effects)

In modification 8, cartridge 14 is engaged by base part 330₁, cylindrical portion is engaged by step part 340 Part 14₂.Therefore, cartridge 14₁And cartridge 14₂Positioning become easy, make cartridge 14₁And cartridge 14₂Hold It changes places the distance being separated from each other corresponding to heating part 13A.

In modification 8, make cartridge 14₁, cartridge 14₂And liquid holding portion part 12 is from small outer diameter Two support sections, 320 side direction has 310 Slideslip of the first support section of big outer diameter.Therefore, easily slide component.

[modification 9]

Hereinafter, the modification 9 to embodiment illustrates.Hereinafter, the main pair of point different from modification 7 is said It is bright.

In modification 9, the manufacturing method of the atomization unit 111 shown in modification 6 (Figure 11) is illustrated.But Atomization unit housing 111X, coating member 15, the installation method of lid 16 and flange 17 are roughly the same with embodiment, therefore omit These installation method.In modification 9, using the base component 300 (fixture) identical with modification 7.

In modification 9, cartridge 14₁Internal diameter corresponding with first external diameter refer to cartridge 14₁Internal diameter and first The outer diameter of support section 310 has following magnitude relationship：Cartridge 14₁Inner side surface can along configuration first support The outer lateral side of part 310 is slided, also, in cartridge 14₁It is configured at the state of the outer lateral side of the first support section 310 Cartridge 14 is not made under (such as manufacturing process)₁Central shaft deviate from the central shaft of the first support section 310.Equally, cylinder Shape component 14₂Internal diameter corresponding with second external diameter refer to cartridge 14₂The outer diameter of internal diameter and the second support section 320 have Following magnitude relationship：Cartridge 14₂Inner side surface can along configuration the second support section 320 outer lateral side slide It is dynamic, also, in cartridge 14₂It is configured under the state (such as manufacturing process) of the outer lateral side of the second support section 320 not Make cartridge 14₂Central shaft deviate from the central shaft of the second support section 320.

As shown in Figure 14 (A), make cartridge 14₁Cartridge 14 is slid into along axis X₁It is engaged by base part 330 Cartridge 14 is configured along the outer lateral side of the first support section 310 as a result, in position₁(step E1 and step E3).

Then, as shown in Figure 14 (B), make cartridge 14₂Cartridge 14 is slid into along axis X₂By step part 340 Cartridge 14 is configured along the outer lateral side of the second support section 320 as a result, in the position of locking₂(step E2 and step E4).

Herein, it is preferable that make cartridge 14₂After being slided along the outer lateral side of the second support section 320, tubular Component 14₂The outer lateral side of outer lateral side and the first support section 310 do not have step.In other words, cartridge 14₂It is outer Diameter is preferably equal with the outer diameter of the first support section 310.

Then, as shown in Figure 14 (C), in the outer lateral side of the first support section 310 and cartridge 14₂Outer lateral side Heater 13 (step A) is configured.Here, the outer lateral side in the first support section 310 is provided with spiral-shaped slot or protrusion. Additionally, it is preferred that in cartridge 14₂Outer lateral side be also equipped with spiral-shaped slot or protrusion.Preferably, it is formed in tubular Component 14₂Outer lateral side spiral helicine slot or protrusion and be formed in the first support section 310 outer lateral side helical form Slot or protrusion it is continuous.Step A is with along being formed in the outer lateral side of the first support section 310 and cartridge 14₂It is outer The step of heater 13 are configured in the spiral helicine slot of side side or the mode of protrusion.

Then, as shown in Figure 14 (D), by the way that the conducting wire downstream pulled out from heating part 13A is connected to cartridge 14₁Outer lateral side and form the first contact CP1.For example, conducting wire is by welding or is fixedly welded on cartridge 14₁Outside Side.First contact CP1 can also be by cartridge 14₁End face connecting wire and form.

Then, by the way that liquid holding portion part 12 is made to be slided along axis X, in the outer lateral side of heater 13 and cartridge 14 Liquid holding portion part 12 is configured.That is, liquid holding portion part is configured in a manner of the heating part 13A in contact with or close to heater 13 12 (step C).

Then, in Figure 14 (E), base component 300 (fixture) is rotated by rotary shaft of axis X, makes entire heater 13 (step B) is detached from the slot or protrusion of base component 300.Aerosol introducing port and sky are formed by the process shown in Figure 14 (E) Air-flow road this point is identical with embodiment.

It in addition, in fig. 14, bloating conducting wire for the ease of illustration, but should be noted that, actually be kept in liquid Conducting wire is configured between component 12 and cartridge 14.

(functions and effects)

In modification 9, by the way that the conducting wire downstream pulled out from heating part 13A is connected to cartridge 14₁It is outer Side side or end face and form the first contact CP1.Therefore, it is possible to be readily formed the first contact CP1.

In modification 9, cartridge 14 is engaged by base part 330₁, and pass through step part 340 and engage tubular Component 14₂.Therefore, cartridge 14₁And cartridge 14₂Positioning become easy, make cartridge 14₁And cartridge 14₂ It is easily separated from one another the distance corresponding to heating part 13A.

In modification 9, make cartridge 14₁, cartridge 142 and liquid holding portion part 12 be from small outer diameter Two support sections, 320 side direction has 310 Slideslip of the first support section of big outer diameter.Therefore, slide easily these components.

In modification 9, preferably with along being formed in the outer lateral side of the first support section 310 and cartridge 14₂ The spiral helicine slot of outer lateral side or the mode of protrusion heater 13 is configured.Through this structure, in cartridge 14₂'s Step is not easily formed between outer lateral side and the outer lateral side of the first support section 310, so as to which heater 13 easily be configured. In addition, due to (the second end section 13B of heater 13₂) it is configured at cartridge 14₂Outer lateral side, therefore easily fix tubular Component 14₂With (the second end section 13B of heater 13₂)。

[modification 10]

Hereinafter, the modification 10 to embodiment illustrates.Hereinafter, main pair carries out with embodiment difference this point Explanation.

In embodiments, flange 17₁It is configured at the downstream end face of lid 16.In contrast, as shown in figure 15, in modification In 10, flange 17 is not set specially₁, but the conducting wire 18 extended from the first pole of power supply is connected to cartridge 14₁It is interior Side side.Conducting wire 18 can also be by exporting in atomization unit housing 111X to cartridge 14₁。

In modification 10, conducting wire 18 is set on the direction (that is, detaching direction) for detaching lid 16 from reservoir 11 The downstream of lid 16.In other words, when lid 16 is detached from reservoir 11, conducting wire 18 blocks lid 16.Therefore, because 18 quilt of conducting wire Lid 16 pulls, and conducting wire 18 is from cartridge 14₁Stripping, the broken string of conducting wire 18 or cartridge 14₁Being pulled by conducting wire 18 will draw Send out the deformation of heater 13.

In addition, cartridge 14 is fixed or be embedded in lid 16₁.Therefore, when lid 16 to be made is detached from reservoir 11, tubular Component 14₁Pulled the deformation that can lead to heater 13.

(functions and effects)

In modification 10, conducting wire 18 is set on the direction (that is, detaching direction) that lid 16 is made to be detached from reservoir 11 The downstream of lid 16.Therefore, when lid 16 to be made is detached from reservoir 11, due to that can break heater 13 or power supply component Damage, therefore can effectively inhibit the utilization by the fragrance aspirator 100 that aerosol source is reinjected to reservoir 11.

[modification 11]

Hereinafter, the modification 11 to embodiment illustrates.Hereinafter, the main pair of point different from embodiment is said It is bright.

In embodiments, flange 17₁It is configured at the downstream end face of lid 16.In contrast, in modification 11, such as Figure 16 It is shown, flange 17₁It is configured at the upstream face of lid 16.Here, in flange 17₁It is connected with the conducting wire extended from the first pole of power supply 18.Conducting wire 18 can be guided by the inside of lid 16 to flange 17₁。

(functions and effects)

In modification 11, identically with modification 10, conducting wire 18 is configured by the inside of lid 16.Therefore, as general Lid 16 from reservoir 11 detach when, make heater 13 or power supply component damaged, therefore, it is possible to effectively inhibit by storage The utilization of the reflooded fragrance aspirator 100 of aerosol source of storage 11.

[modification 12]

Hereinafter, the modification 12 to embodiment illustrates.Hereinafter, the main pair of point different from embodiment is said It is bright.In modification 12, it should be noted that, other than atomization unit 111, structure and the embodiment phase of fragrance aspirator 100 Together.

In embodiments, entrance 112A is set to electric accessory unit housing 112X, in the outer lateral side of cartridge 14 Liquid holding portion part 12 is configured with, cartridge 14 forms air flow circuit.In contrast, in modification 12, entrance 112A is set Atomization unit housing 111X is placed in, liquid holding portion part 12 is configured in the inside of cartridge 14, in the outer of cartridge 14 Side forms air flow circuit.

Specifically, as shown in figure 17, atomization unit 111 have reservoir 11, liquid holding portion part 12, heater 13, Cartridge 14.Reservoir 11, liquid holding portion part 12, heater 13 and cartridge 14 are contained in the mist with entrance 112A Change unit housings 111X.Liquid holding portion part 12 has the insertion portion being inserted into cartridge 14 and reveals from cartridge 14 The exposed portion gone out.Insertion portion is contacted with being stored in the aerosol source of reservoir 11.Exposed portion compared to insertion portion to Orthogonal direction B is bloated.

Heater 13 is across the outer lateral side of cartridge 14 and the outer lateral side of the exposed portion of liquid holding portion part 12 Configuration.Heater 13 is configured in contact with or close to the exposed portion of liquid holding portion part 12.

In modification 12, the air exposing that passes through cartridge 14 and liquid holding portion part 12 that is imported from entrance 112A Partial outer lateral side is directed to downstream, and the aerosol being atomized in heater 13 is sent to downstream side.In modification 12, Cartridge 14 is not made of electroconductive component, and heater 13 is connect by the power supply component such as conducting wire with power supply.

[modification 13]

Hereinafter, the modification 13 to embodiment illustrates.Hereinafter, the main pair of point different from embodiment is said It is bright.

In modification 13, the manufacturing method of atomization unit 111 illustrated in modification 12 is illustrated.Figure 18 is For illustrating the figure of the manufacturing method of the atomization unit 111 of modification 13.In addition, in figure 18, it should be noted that, mist is omitted Change unit housings 111X, lid 16 and flange 17 etc..

Specifically, as shown in Figure 18 (A), cartridge 14 has the axis X extended along prescribed direction A, with along shape Heater 13 (step A) is configured in the mode of spiral-shaped slot or protrusion into the outer lateral side in cartridge 14.It in addition, will Cartridge 14 is electrically connected (step D) with heater 13.Here, it should be noted that, in the cartridge 14 of orthogonal direction B Side is configured with liquid holding portion part 12.

Then, in Figure 18 (B), cartridge 14 is rotated by rotary shaft of axis X, makes the part of heater 13 from cylinder Slot or the protrusion separation (step B) of shape component 14.

In modification 13, detached by the part for making heater 13 from the slot or protrusion of cartridge 14, releasing pair Therefore, liquid is configured in a manner of in contact with or close to heater 13 in the inhibition of the bulging of liquid holding portion part 12 in outward direction Holding member 12 (step C).

That is, the process shown in Figure 18 (B) is：The part of heater 13 is made from tubular by the rotation of cartridge 14 Component 14 detaches, and configuration is made to divide in a part for the liquid holding portion part 12 of the inside of cartridge 14 from cartridge 14 From making the part of the liquid holding portion part 12 in contact with or close to hair by the bulging of a part for the liquid holding portion part 12 A part (step B and step C) for hot body 13.In the part for making liquid holding portion part 12 in contact with or close to the one of heater 13 In partial example, the process shown in Figure 18 (B) pushes a part (heating part of heater 13 for liquid holding portion part 12 The process of configuration liquid holding portion part 12 while inner side surface 13A).In addition, process shown in Figure 18 (B) be with fever The process that liquid holding portion part 12 is configured in the mode of the week contact of the inner side surface of a part (heating part 13A) for body 13.

Here, in the case where the part for making heater 13 is from slot or the protrusion separation of cartridge 14, should notice Preferably at least fixed liquid holding member 12 so that liquid holding portion part 12 will not with the rotation of cartridge 14 edge Prescribed direction A movements.As long as the object of fixed liquid holding member 12 is not accompanied by the rotation of cartridge 14 and moves.

In addition, heater 13 is fixed in the example of cartridge 14, such fixed step makes heater 13 A part carried out after the separation of the slot or protrusion of cartridge 14.

In modification 13, in the state of the inside of cartridge 14 configuration liquid holding portion part 12, make heater 13 A part detached from the slot or protrusion of cartridge 14, but a part for heater 13 can also be made from the slot of cartridge 14 Or after protrusion separation, liquid holding portion part 12 is configured in a manner of in contact with or close to heater 13.For example, making heater 13 A part in the state of the separation of the slot or protrusion of cartridge 14, can by by liquid holding portion part 12 from being not provided with generating heat 13 side of body is urged to cartridge 14 towards 13 side of setting heater, makes the exposed portion of liquid holding portion part 12 and heater 13 In contact with or close to.

[modification 14]

Hereinafter, the modification 14 to embodiment illustrates.Hereinafter, the main pair of point different from embodiment is said It is bright.

In embodiments, the fixture (that is, base component 300) with cylindrical shape is not included in atomization unit 111, That is, the structure not as atomization unit 111.But in modification 14, structure of the base component 300 as atomization unit 111 And it is included in atomization unit 111.

That is, in modification 14, as shown in figure 19, atomization unit 111 at least has：With along prescribed direction A extensions Axis base component 300, be configured in a manner of the spiral-shaped slot along the side for being formed in base component 300 or protrusion Heater 13, be configured in a manner of at least part of in contact with or close to heater 13 and the liquid of aerosol source kept to keep Component 12 and the atomization unit housing 111X of receiving heater 13 and liquid holding portion part 12.At least the one of base component 300 Preferably expose from atomization unit housing 111X part.But atomization unit 111 can also include it in the same manner as embodiment Its structure (such as reservoir 11, cartridge 14, coating member 15, lid 16 and flange 17 etc.).

It is single from atomization with the part in base component 300 in the manufacturing method of the atomization unit 111 of modification 14 Heater 13 and liquid holding portion part 12 are contained in the work in atomization unit housing 111X by first housing 111X in the state of exposing Sequence (step F), to replace the work for rotating base component 300 as rotary shaft using axis X and heater 13 being made to be detached from slot or protrusion Sequence (step B).Make the process that heater 13 is detached from slot or protrusion single using atomization for example in the user for obtaining atomization unit 111 It is carried out during member 111.

In addition, in Figure 19, in the same manner as embodiment (such as Fig. 4 and Fig. 5) etc., give base component 300 conduct The example of fixture.But modification 14 is not limited to the example shown in Figure 19.Such as Fig. 7 (A) of modification 2 or Fig. 8 of modification 3 (A) shown in, base component 300 can also be (the cartridge 14 of cartridge 14₁And cartridge 14₂).In such example In, cartridge 14 is rotated by rotary shaft of axis X, heater 13 is made to be detached from slot or protrusion, thus by liquid holding portion part 12 are configured at least part in contact with or close to heater 13.In the atomization unit 111 with this structure, cartridge 14 part is preferably exposed from atomization unit housing 111X.

(functions and effects)

In modification 14, since base component 300 being made to be detached from heater 13 when users use, until using Until family uses atomization unit 111, heater 13 maintains the state kept by base component 300.Therefore, until user uses mist Until changing unit 111, inhibit the deformation of heater 13.In addition, due to base component 300 play lid function, until with Until family uses atomization unit 111, inhibit the leakage of aerosol source.In addition, it can clearly grasp the use of atomization unit 111 It is front and rear.

In modification 14, preferably a part for base component 300 is exposed from atomization unit housing 111X.In this way Structure, heater 13 is easily made from slot or protrusion point by the rotation of base component 300 before the use of atomization unit 111 From.

In modification 14, heater 13 and liquid holding portion part 12 are contained in the process in atomization unit housing 111X Preferably carried out in the state of atomization unit housing 111X exposings in a part for base component 300.By such method, Heater 13 is easily made to be detached from slot or protrusion by the rotation of base component 300 before the use of atomization unit 111.

[modification 15]

Hereinafter, the modification 15 to embodiment illustrates.Hereinafter, the main pair of point different from embodiment is said It is bright.

In embodiments, reservoir 11 is configured at the outside of liquid holding portion part 12 in orthogonal direction B.In contrast, In modification 15, reservoir 11 is arranged in prescribed direction A and liquid holding portion part 12 and heater 13.

Specifically, as shown in figure 20, atomization unit 111 also has support member 21 other than structure shown in Fig. 2. As described above, reservoir 11 is arranged in prescribed direction A and liquid holding portion part 12 and heater 13.Support member 21 supports Liquid holding portion part 12, and support heater 13.

In modification 15, first end section 13B₁And power supply component 13C forms heating part 13A by resistivity ratio Wire rod it is lower electroconductive component covering, second end section 13B₂And power supply component 13D forms heating by resistivity ratio The electroconductive component that the wire rod of part 13A is lower covers.On the other hand, heating part 13A does not form heating by resistivity ratio The electroconductive component that the wire rod of part 13A is lower covers, but exposes wire rod.According to this structure, it can be sent out forming The second best in quality part other than end in the wire rod of hot body 13 (coil) is used as heating part 13A.In addition, first Hold part 13B₁, second end section 13B₂, power supply component 13C and power supply component 13D be preferably with forming heating part Covered with the lower electroconductive component of resistivity ratio wire rod on the identical wire rod of the wire rod of 13A.By being set as such structure, one Produce to body the second best in quality first end section 13B₁, second end section 13B₂, power supply component 13C, power supply component 13D and heating part 13A become easy.In addition, for example in wire rod made of nichrome, copper, tin, silver can be used The metal for waiting resistivity ratios nichrome lower is as electroconductive component.

And then as shown in figure 20, there is atomization unit 111 liquid measure to adjust component 19.As shown in figure 21, liquid measure adjustment component 19 have opening 19A and opening 19B, and liquid measure adjustment component 19 is, for example, the component with discoid shape.Opening 19A is to use In the opening for forming air flow circuit, and it is the opening that the inside of cartridge 14 is made to be connected with the inside of heater 13.Opening 19B is the opening for supplying aerosol source to liquid holding portion part 12 from reservoir 11, and is to make reservoir 11 and liquid The opening that holding member 12 connects.

In modification 15, reservoir 11 can be the cavity for storing aerosol source.In such an example, it stores It is supplied in the aerosol source of reservoir 11 by the opening 19B of liquid measure adjustment component 19 to liquid holding portion part 12.It supplies to liquid The aerosol source of body holding member 12 is extended to by capillary phenomenon in liquid holding portion part 12, is moved to contact as a result, or is connect The position of nearly heating part 13A.Aerosol source heated portion 13A is atomized as a result,.Thus, it is believed that liquid holding portion part 12 It is the component that aerosol source is made to be moved to liquid holding portion part 12 by capillary phenomenon from reservoir 11.

In modification 15, first end section 13B₁And power supply component 13C forms heating part 13A by resistivity ratio Wire rod it is lower electroconductive component covering, second end section 13B₂And power supply component 13D forms heating by resistivity ratio The electroconductive component that the wire rod of part 13A is lower covers.But modification 15 is without being limited thereto.Can be first end section 13B₁ And power supply component 13C is made of the lower electroconductive components of resistivity ratio heating part 13A.It is equally possible that it is Two end part 13B₂And power supply component 13D is made of the lower electroconductive components of resistivity ratio heating part 13A.

[modification 16]

Hereinafter, the modification 16 to embodiment illustrates.Hereinafter, the main pair of difference from embodiment is said It is bright.

In modification 16, to being illustrated in the manufacturing method of the atomization unit 111 illustrated in modification 15.Figure 22 It is the figure for illustrating the manufacturing method of the atomization unit 111 of modification 16.

As shown in Figure 22 (A), base component 300 has the axis X that extends along prescribed direction A, with along being formed in pedestal Heater 13 (step A) is configured in the spiral-shaped slot of the side of component 300 (fixture) or the mode of protrusion.Then, with contact Or liquid holding portion part 12 (step C) is configured close at least part of mode of heater 13.Here, liquid holding portion part 12 It can be configured in the state of support member 21 is assembled, support member can also be configured after liquid holding portion part 21 is configured 21。

As shown in Figure 22 (B), after the process (step A and step C) shown in Figure 22 (A), make base using axis X as rotary shaft Base member 300 (fixture) rotates, and entire heater 13 is made to detach (step B) from the slot or protrusion of base component 300.In addition, match It is equipped with reservoir 11, cartridge 14, lid 16, liquid measure adjustment component 19 and atomization unit housing 111X.

In modification 16, also with embodiment likewise, it is preferred that heater 13 is made to detach it from base component 300 Before, carry out the process (step G) that configuration forms at least part of component (channel-forming member) of air flow circuit.In modification It in 16, should be noted that, at least liquid holding portion part 12 is equivalent to channel-forming member.Specifically, the work shown in Figure 22 (A) Sequence (process that channel-forming member is configured) along base component 300 including being configured channel-forming member (liquid holding portion part 12) process.As a result, in the manufacturing process of atomization unit 111, the deformation of liquid holding portion part 12 can inhibit.

In addition, in modification 16, reservoir 11, cartridge 14, lid 16, liquid measure adjustment component can also be configured with After 19 and atomization unit housing 111X, heater 13 is made to be detached from base component 300.In such an example, it should notice It is that other than liquid holding portion part 12, cartridge 14 also corresponds to channel-forming member.

[other embodiment]

The present invention is illustrated by above-mentioned embodiment, but should not be understood the opinion for the part for being shaped as the disclosure It addresses attached drawing and limits the present invention.Miscellaneous alternate embodiments, the embodiment of the art technology person of entering is learnt from the disclosure And application technology.

In embodiments, reservoir 11 is configured at the outside of liquid holding portion part 12 in orthogonal direction B.But implement Mode is without being limited thereto.As long as reservoir 11 is contacted with liquid holding portion part 12, liquid can not also be configured in orthogonal direction B The outside of body holding member 12.In addition, the shape in the outside of liquid holding portion part 12 it is not configured in orthogonal direction B in reservoir 11 Under state, coating member 15 can inhibit before fragrance aspirator 100 is used or use during fragrance aspirator 100 unexpectedly It is supplied by the peripheral surface of the aerosol source that reservoir 11 leaks out from liquid holding portion part 12 to liquid holding portion part 12.

In embodiments, liquid holding portion part 12 has cylindrical shape.But embodiment is without being limited thereto.Liquid is protected The shape of cord shape can also be had by holding component 12.

In embodiments, liquid holding portion part 12 or 15 grade components of coating member have the shape of tubular, and pass through edge It the slip of prescribed direction A and is configured in the outside of heater 13.But embodiment is without being limited thereto.Liquid holding portion part 12 Or 15 grade components of coating member have the shape of sheet, can be wound in heater 13.

In embodiments, the downstream of reservoir 11 is arranged on for the supply mouth to the supply aerosol source of reservoir 11 End, lid 16 block the downstream of reservoir 11.But embodiment is without being limited thereto.Supply mouth can also be arranged on reservoir 11 Upstream end, lid 16 can block the upstream end of reservoir 11.

In embodiments, heater 13 is formed by wire rod with spiral shape, is to have to extend along prescribed direction A Shape coil, the inside of heater 13 is hollow.But embodiment is without being limited thereto.The inside of heater 13 can also It is solid.For example, as illustrated by modification 12 and modification 13, can also the inside of heater 13 be provided with liquid holding portion Part 12.

In embodiments, heater 13 is formed by wire rod with spiral shape.But embodiment is without being limited thereto. Heater 13 can also be by forming with other shapes of conductive component.

In embodiments, at least part of cartridge 14 for having lifted formation air flow circuit is made of electroconductive component Example.However, embodiment is without being limited thereto.Cartridge 14 can also be made of the component other than conductive component.

In embodiments, as connecting the component of power supply and cartridge 14, there is provided conducting wires 18.It is but real It is without being limited thereto to apply mode.As long as example, for connect the component of power supply and cartridge 14 form power path can or Form part of housing of fragrance aspirator 100 etc..

In modification 4~6,7~9, cartridge 14₁Outer diameter than cartridge 14₂Outer diameter it is big.But embodiment party Formula is without being limited thereto.For example, in modification 4,5,7,8, cartridge 14₁Outer diameter can also be with cartridge 14₂Outer diameter phase Deng.For example, in cartridge 14₁Internal diameter than cartridge 14₂Internal diameter bigger, cartridge 14₁Outer diameter and cartridge 14₂Outer diameter it is equal in the case of, should be noted that, cartridge 14₂Thickness ratio cartridge 14₁Thickness bigger.

Although in embodiments without specifically mentioned, the fixing means of each component can be bonding or melt It connects.

Although in embodiments without specifically mentioned, liquid holding portion part 12 is for example by spongiform elastomeric element structure Into by the way that the slip component 400 or cartridge 14 that compress liquid holding portion part 12 are removed to make liquid holding portion part 12 expansions, thus the structure in contact with or close to heater 13.

Claims (25)

1. a kind of manufacturing method of atomization unit, which is characterized in that including：

Resistance heater, the base portion is configured along the spiral-shaped slot or protrusion for the side for being formed in base component in step A Part has the axis extended along prescribed direction；

Step B rotates the base component using the axis as rotary shaft, make at least part of the resistance heater from The slot or protrusion separation；

The liquid for keeping aerosol source is configured in step C in a manner of at least part of in contact with or close to the resistance heater Holding member.

2. the manufacturing method of atomization unit as described in claim 1, which is characterized in that

The step C is carried out after the step A, and is carried out before the step B.

3. the manufacturing method of atomization unit as claimed in claim 1 or 2, which is characterized in that

The resistance heater includes the heating part for heating the aerosol source,

The step C is：The liquid holding portion part is made to press the inner side surface or outer lateral side of the heating part on one side, one The liquid holding portion part is configured in side.

4. the manufacturing method of atomization unit according to any one of claims 1 to 3, which is characterized in that

The resistance heater includes the heating part for heating the aerosol source,

The step C is：The liquid is configured in a manner of contacting the inner side surface of the heating part or the week of outer lateral side Body holding member.

5. such as the manufacturing method of atomization unit according to any one of claims 1 to 4, which is characterized in that

The step B is：Form aerosol intake using the separation of the resistance heater, the aerosol intake make by The aerosol of the resistance heater atomization passes through on the inside of the resistance heater.

6. such as the manufacturing method of atomization unit according to any one of claims 1 to 5, which is characterized in that

The step B is：Using the separation of the resistance heater air flow circuit is formed in the inside of the resistance heater At least partially.

7. such as the manufacturing method of atomization unit according to any one of claims 1 to 6, which is characterized in that

The step C is：In the case where the resistance heater is configured in the outer lateral side of the base component, in the resistance The liquid holding portion part is configured in the outside of heater.

8. such as the manufacturing method of atomization unit according to any one of claims 1 to 7, which is characterized in that

The base component is fixture,

The step B is：The resistance heater is made all to be detached from the fixture, the separation using the resistance heater exists The inside of the resistance heater forms at least part of air flow circuit；

It is at least part of stream that configuration forms the air flow circuit to have step G, the step G before the step B The step of road forming member.

9. the manufacturing method of atomization unit as claimed in claim 8, which is characterized in that

The step of step G includes the channel-forming member is configured along the outer lateral side of the fixture.

10. the manufacturing method of the atomization unit as described in any one of claim 1~9, which is characterized in that

The base component is fixture,

The step B is the step of resistance heater is made all to be detached from the fixture,

It is with step E, the step E before the step B：Institute on the orthogonal direction orthogonal with the prescribed direction It states the outer lateral side of resistance heater or at least part of shape with tubular to form air flow circuit is configured in inner side surface Cartridge.

11. the manufacturing method of atomization unit as claimed in claim 10, which is characterized in that

The step B is sent out after the cartridge is fixed on the housing of the atomization unit and/or by the resistance Hot body carries out after being fixed on the cartridge.

12. the manufacturing method of the atomization unit as described in claim 10 or 11, which is characterized in that

The cartridge is made of the first cartridge and the second cartridge,

The step E is the step that first cartridge and second cartridge are configured with the state being separated from each other Suddenly.

13. the manufacturing method of atomization unit as claimed in claim 12, which is characterized in that

Part or all of first cartridge is made of electroconductive component,

Part or all of second cartridge is made of electroconductive component.

14. the manufacturing method of atomization unit as described in claim 12 or 13, which is characterized in that

The fixture has the first locking part of locking first cartridge and engages the of second barrel Two locking parts,

The step E includes：

First cylindrical portion is configured in the position that first cartridge is engaged using the described first locking part in step E1 Part；

Second cylindrical portion is configured in the position that second cartridge is engaged using the described second locking part in step E2 Part.

15. the manufacturing method of the atomization unit as described in any one of claim 12~14, which is characterized in that

The fixture is including the first support section with first external diameter and with second external diameter more smaller than the first external diameter The second support section,

The internal diameter of first cartridge is corresponding with the first external diameter,

The internal diameter of second cartridge is corresponding with the second external diameter,

The step E includes：

First cartridge is configured in step E3, the outer lateral side of first support section on the orthogonal direction；

Second cartridge is configured in step E4, the outer lateral side of second support section on the orthogonal direction.

16. the manufacturing method of the atomization unit as described in any one of claim 12~15, which is characterized in that

The fixture is including the first support section with first external diameter and with second external diameter more smaller than the first external diameter The second support section,

Step E, E1 or E3 is make first cartridge be supported from the second support section side towards described first The step of part Slideslip,

Step E, E2 or E4 is make second cartridge be supported from the second support section side towards described first The step of part Slideslip.

17. the manufacturing method of the atomization unit as described in any one of claim 12~16, which is characterized in that

The fixture is including the first support section with first external diameter and with second external diameter more smaller than the first external diameter The second support section,

The step C is makes the liquid holding portion part break away from the second support section side towards first support section Dynamic step.

18. the manufacturing method of the atomization unit as described in any one of claim 12~16, which is characterized in that

The fixture is including the first support section with first external diameter and with second external diameter more smaller than the first external diameter The second support section,

The slot or the protrusion are set to the side of first support section,

Is institute is configured in the outer lateral side of first support section and the outer lateral side of second cartridge in the step A The step of stating resistance heater.

19. the manufacturing method of the atomization unit as described in any one of claim 1~18, which is characterized in that

The step C includes：

Step C1 makes slip component along the outer of the resistance heater on the orthogonal direction orthogonal with the prescribed direction It slides side side；

Step C2 matches the liquid holding portion part along the outer lateral side of the slip component on the orthogonal direction It puts；

Step C3, after the step C1 and the step C2, by sliding from the liquid holding portion part and the resistance The slip component is removed between heater.

20. such as the manufacturing method of atomization unit according to any one of claims 1 to 8, which is characterized in that

The base component is the cartridge for at least part of shape with tubular to form air flow circuit.

21. the manufacturing method of atomization unit as claimed in claim 20, which is characterized in that

The cartridge is made of electroconductive component,

The manufacturing method has the step D for being electrically connected the cartridge and the resistance heater.

22. the manufacturing method of the atomization unit as described in claim 20 or 21, which is characterized in that

The cartridge is made of the first cartridge and the second cartridge,

The step A is：The resistance heater is configured across first cartridge and the second cartridge both sides,

The step B is：Maintaining the resistance heater double across first cartridge and second cartridge In the state of side's configuration, it is separated from each other first cartridge and second cartridge.

23. the manufacturing method of atomization unit as described in claim 1, which is characterized in that

The base component is cartridge,

The step A is：Along described in spiral-shaped slot or the protrusion configuration for the outer lateral side for being formed in the cartridge Resistance heater,

The step B and the step C are：By the rotation of the cartridge, make the part of the resistance heater from Cartridge separation, and make to be configured at the inside of the cartridge the liquid holding portion part a part from institute Cartridge separation is stated, by the expansion of a part for the liquid holding portion part, makes the part contact of the liquid holding portion part Or the part close to the resistance heater.

24. a kind of manufacturing method of atomization unit, which is characterized in that including：

Resistance heater, the base portion is configured along the spiral-shaped slot or protrusion for the side for being formed in base component in step A Part has the axis extended along prescribed direction；

The liquid for keeping aerosol source is configured in step C in a manner of at least part of in contact with or close to the resistance heater Holding member, alternatively, step C4, rotates the base component using the axis as rotary shaft, make the resistance heater At least part is detached from the slot or the protrusion, as a result, in contact with or close at least part of the resistance heater Mode be configured keep aerosol source liquid holding portion part；

The resistance heater and the liquid holding portion part are contained in the housing by step F.

25. a kind of atomization unit, which is characterized in that have：

Base component has the axis extended along prescribed direction；

Resistance heater is configured along the spiral-shaped slot or protrusion for the side for being formed in the base component；

The liquid holding portion part of aerosol source is kept, in a manner of at least part of in contact with or close to the resistance heater Configuration, alternatively, being configured in a manner of at least part of in contact with or close to the resistance heater by step B, the step B To rotate the base component using the axis as rotary shaft, making at least part of the resistance heater from the slot Or the protrusion separation；

Housing accommodates the resistance heater and the liquid holding portion part.