CN104839893A - Inspirator and atomization component thereof - Google Patents

Abstract

The invention relates to an inspirator and an atomization component thereof. The atomization component and a battery component of the inspirator are removably connected, and the atomization component comprises a liquid storage structure, an atomization core and a movable piece; the inner part of the liquid storage structure is provided with a liquid storage cavity used for storing liquid, the atomization core is fixedly connected with the liquid storage structure, the atomization core comprises a liquid absorbing core and the movable piece is movably connected with the liquid storage structure; when the atomization component is not connected with the battery component, the liquid storage structure is blocked by the movable piece so that liquid in the liquid storage cavity is separated from the liquid absorbing core to prevent the liquid in the liquid storage cavity from being absorbed and volatized by the liquid absorbing core; when the atomization component is connected with the battery component, the movable piece moves to the battery component so that the liquid storage cavity is communicated with the liquid absorbing core and the liquid absorbing core is used for absorbing the liquid for atomization; when the inspirator is not in use for a long time, the atomization component and the battery component can be separated, and the liquid storage structure can be locked by the movable piece so as to prevent the liquid in the liquid storage cavity from volatizing.

Description

Inhalator and atomizing component thereof

Technical field

The present invention relates to the technical field of training equipment atomizing medium being inputted human body, particularly relate to a kind of inhalator and atomizing component thereof.

Background technology

Inhalator is the training equipment by inputting human body after the atomization of liquid, mainly comprises the electronic cigarette for cigarette substitute and the medical nebulizer being used for the treatment of upper respiratory disease.

General electronic cigarette and the medical nebulizer similar to its structure, its liquid storage cylinder is directly communicated with liquid-sucking core, and liquid-sucking core is through suction nozzle and external environment connect.When electronic cigarette is placed for a long time and do not used, the volatile substances such as the nicotine in liquid-sucking core will evaporate into external environment from suction nozzle gradually, then constantly from liquid storage cylinder, draw tobacco juice, finally cause the long-time electronic cigarette product taste placed to be deteriorated.In like manner similar to above-mentioned electronic cigarette structure medical nebulizer, its liquid also often has volatile substances, there is the long-time problem of placing drug effect and reducing.

Summary of the invention

Based on this, be necessary, for the problem evaporated in liquid storage cylinder, to provide a kind of inhalator and atomizing component thereof.

An atomizing component for inhalator, is connected with the battery component of inhalator is dismountable, and described atomizing component comprises liquid storage structure, atomization core and movable part;

The inside of described liquid storage structure forms the liquid storage cylinder for storing liquid;

Described atomization core is fixedly connected with described liquid storage structure, and described atomization core comprises liquid-sucking core;

Described movable part is flexibly connected with described liquid storage structure, and when not being connected with described battery component, liquid storage structure described in described movable part shutoff, makes the liquid in described liquid storage cylinder and described liquid-sucking core isolate; When connecting described battery component, described movable part moves to described battery component, and described liquid storage cylinder is communicated with described liquid-sucking core.

Wherein in an embodiment, described liquid storage structure comprises interior pipe, outer tube and drain sheet; The inside of described interior pipe forms gas channel, and described liquid storage cylinder is between described interior pipe and described outer tube; Described drain sheet is between described interior pipe and described outer tube, and described drain sheet is positioned at the opening part of described liquid storage cylinder;

Described drain sheet offers delivery hole, and one end of described delivery hole is communicated with described liquid storage cylinder; When not being connected with described battery component, the other end of delivery hole described in described movable part shutoff; When connecting described battery component, described movable part moves to described battery component, and the other end of described delivery hole is communicated with described liquid-sucking core.

Wherein in an embodiment, described atomization core also comprises atomization seat and atomization lid;

Described atomization seat offers atomization chamber and liquid sucting port, and at least part of described liquid-sucking core is positioned at described atomization chamber, and described liquid-sucking core is by the liquid comes into contact in described liquid sucting port and described liquid storage cylinder;

Described atomization lid is arranged on described atomization seat, and at least part of described atomization lid stretches into the inside of described interior pipe, and described atomization covers the intercommunicating pore offering and be communicated with described atomization chamber and described gas channel.

Wherein in an embodiment, the material of at least part of described movable part is magnetic material, and described movable part can be attracted by the magnet of described battery component and move to described battery component;

The atomizing component of described inhalator also comprises elastic component, one end of described elastic component is connected with described movable part, the other end of described elastic component is connected with described liquid storage structure, and moving direction when described elastic component moves to described battery component with described movable part the force direction of described movable part is contrary.

Wherein in an embodiment, described movable part comprises body, seal and ironware;

Described body is tubbiness, and movable is set on described atomization seat;

Described seal is positioned at described body one end near described drain sheet, and described seal is corresponding with described delivery hole;

Described ironware is positioned at described body one end near described battery component.

Wherein in an embodiment, described movable part is provided with the first screw thread, and described first screw thread matches with the second screw thread of described battery component, and described battery component is by movable part motion described in rotary actuation.

Wherein in an embodiment, also comprise elastic component, one end of described elastic component is connected with described movable part, the other end of described elastic component is connected with described liquid storage structure, and moving direction when described elastic component moves to described battery component with described movable part the force direction of described movable part is contrary.

Wherein in an embodiment, described movable part comprises body and seal;

Described body is tubbiness, and movable is set on described atomization seat;

Described seal is positioned at described body one end near described drain sheet, and described seal is corresponding with described delivery hole;

Described first screw thread is external screw thread, and described first screw thread is positioned at described body one end near described battery component.

Wherein in an embodiment, described seal is positioned at described outer tube, and described movable part also comprises the first sealing ring, and described first sealing ring is arranged on described seal, and described first sealing ring is between described seal and the inwall of described outer tube.

Wherein in an embodiment, described atomization core also comprises the second sealing ring, and the outer wall of described atomization seat offers cannelure, and described second sealing ring embeds in described cannelure at least partly, to seal the space between described body and described atomization seat.

Wherein in an embodiment, described liquid storage structure also comprises supporting seat and baffle ring;

Described supporting seat in the form of a ring, is arranged on the opening part of described outer tube, and described body is through described supporting seat, and the end of described elastic component abuts with described supporting seat;

Described baffle ring is between described outer tube and described atomization seat, and described baffle ring is fixedly connected with described supporting seat, and described elastic component is between described baffle ring and described body.

Wherein in an embodiment, described liquid storage structure also comprises location division, and described location division is arranged on described supporting seat, and described location division protrudes from the inner side of described supporting seat;

The side of described body forms otch, and described otch extends along the axis of described body, described otch and described location division is suitable rotates to limit described body.

Wherein in an embodiment, described liquid storage structure is provided with the 3rd screw thread, and described 3rd screw thread matches with described first screw thread.

A kind of inhalator, comprise atomizing component and the battery component of described inhalator, the atomizing component of described inhalator is connected with described battery component is dismountable.

Above-mentioned inhalator and atomizing component thereof, atomization core is fixedly connected with described liquid storage structure, movable part is flexibly connected with liquid storage structure, when atomizing component is not connected with battery component, movable part shutoff liquid storage structure, liquid in described liquid storage cylinder and described liquid-sucking core are isolated, avoids the liquid in liquid storage cylinder constantly to be drawn volatilization by liquid-sucking core.When atomizing component is connected with battery component, described movable part moves to described battery component, and described liquid storage cylinder is communicated with described liquid-sucking core, and liquid-sucking core imbitition is used for atomization.When inhalator does not use for a long time, atomizing component can be separated with battery component, movable part shutoff liquid storage structure, avoids evaporating in liquid storage cylinder.

Accompanying drawing explanation

Fig. 1 is the stereogram of an embodiment inhalator;

Fig. 2 is the profile of inhalator shown in Fig. 1;

Fig. 3 is the close-up schematic view of inhalator shown in Fig. 2;

Fig. 4 is the explosive view of the atomizing component of inhalator shown in Fig. 1;

The body of Fig. 5 for inhalator shown in Fig. 1 and the schematic diagram of seal;

Fig. 6 is the stereogram of the atomizing component of inhalator shown in Fig. 1;

Fig. 7 is the profile of another embodiment inhalator;

Fig. 8 is the close-up schematic view of inhalator shown in Fig. 7;

Fig. 9 is the explosive view of the atomizing component of inhalator shown in Fig. 7;

Figure 10 is the stereogram of the atomizing component of inhalator shown in Fig. 7;

The body of Figure 11 for inhalator shown in Fig. 7 and the schematic diagram of baffle ring;

Figure 12 is the schematic diagram of the location division of inhalator shown in Fig. 7;

Figure 13 is the profile of another embodiment inhalator;

Figure 14 is the close-up schematic view of inhalator shown in Figure 13;

The schematic diagram of the first screw thread that Figure 15 is inhalator shown in Figure 13 and the 3rd screw thread.

Detailed description of the invention

For the ease of understanding the present invention, below with reference to relevant drawings, inhalator and atomizing component thereof are described more fully.The first-selected embodiment of inhalator and atomizing component thereof is given in accompanying drawing.But inhalator and atomizing component thereof can realize in many different forms, are not limited to embodiment described herein.On the contrary, provide the object of these embodiments be make the disclosure of inhalator and atomizing component thereof more comprehensively thorough.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present invention understand usually.The object of the term used in the description of inhalator and atomizing component thereof herein just in order to describe specific embodiment, is not intended to be restriction the present invention.

As shown in Figure 1, the inhalator 10 of an embodiment comprises atomizing component 100 and battery component 300, the inhalator 10 of the present embodiment, for by the atomization of liquid, and by the fog input human body after atomization, this inhalator 10 can as electronic cigarette, also can as medical nebulizer or other.

Simultaneously see Fig. 2, Fig. 3, the atomizing component 100 of an embodiment comprises liquid storage structure 120, atomization core 140 and movable part 160.The inside of liquid storage structure 120 forms the liquid storage cylinder 122 for storing liquid.If inhalator is electronic cigarette, then the liquid in liquid storage cylinder 122 can be tobacco juice, if inhalator is medical nebulizer, then the liquid in liquid storage cylinder 122 can be liquid drug.

Atomization core 140 is fixedly connected with liquid storage structure 120, and atomization core 140 comprises liquid-sucking core 142, and liquid-sucking core 142 can be wound around heater strip 144, and the liquid being heated absorption in liquid-sucking core 142 by heater strip 144 realizes atomization.Movable part 160 is flexibly connected with liquid storage structure 120, and when not being connected with battery component 300, movable part 160 shutoff liquid storage structure 120, makes the liquid in liquid storage cylinder 122 and liquid-sucking core 142 isolate.When connecting battery component 300, movable part 160 moves to battery component 300, and liquid storage cylinder 122 is communicated with liquid-sucking core 142.

In the present embodiment, atomization core 140 is fixedly connected with liquid storage structure 120, movable part 160 is flexibly connected with liquid storage structure 120, when atomizing component 100 is not connected with battery component 300, movable part 160 shutoff liquid storage structure 120, liquid in liquid storage cylinder 122 and liquid-sucking core 142 are isolated, avoids the liquid in liquid storage cylinder 122 constantly to be drawn volatilization by liquid-sucking core 142.When atomizing component 100 is connected with battery component 300, movable part 160 moves to battery component 300, and liquid storage cylinder 122 is communicated with liquid-sucking core 142, and liquid-sucking core 142 imbitition is used for atomization.When inhalator 10 does not use for a long time, atomizing component 100 can be separated with battery component 300, movable part 160 shutoff liquid storage structure 120, avoids evaporating in liquid storage cylinder 122.

Wherein in an embodiment, liquid storage structure 120 can comprise interior pipe 124, outer tube 126 and drain sheet 128.The inside of interior pipe 124 forms gas channel 1242, and liquid storage cylinder 122 is between interior pipe 124 and outer tube 126.Drain sheet 128 is between interior pipe 124 and outer tube 126, and drain sheet 128 is positioned at the opening part of liquid storage cylinder 122.Drain sheet 128 offers delivery hole 1282, one end of delivery hole 1282 is communicated with liquid storage cylinder 122.When not being connected with battery component 300, the other end of movable part 160 shutoff delivery hole 1282.When connecting battery component 300, movable part 160 moves to battery component 300, and the other end of delivery hole 1282 is communicated with liquid-sucking core 142.Liquid is flowed out by delivery hole 1282, can reduce flow velocity, easily controls the amount that liquid flows out.

Simultaneously see Fig. 4, wherein in an embodiment, atomization core 140 can also comprise atomization seat 146 and atomization lid 148.Atomization seat 146 offers atomization chamber 1462 and liquid sucting port 1464, and at least part of liquid-sucking core 142 is positioned at atomization chamber 1462, and liquid-sucking core 142 is by liquid sucting port 1464 and the liquid comes into contact in liquid storage cylinder 122.Atomization lid 148 is arranged on atomization seat 146, and atomization lid 148 stretches into the inside of interior pipe 124 at least partly, and atomization lid 148 offers the intercommunicating pore being communicated with atomization chamber 1462 and gas channel 1242.Atomization lid 148 can have elasticity, with the space between sealed inner tube 124 and atomization core 140, can cushion atomization core 140 when installing battery component 300 simultaneously and, to the pressure of interior pipe 124, make structural reliability high.

Further, in the present embodiment, the material of at least part of movable part 160 is magnetic material, and battery component 300 comprises magnet 320, and movable part 160 can be attracted by the magnet 320 of battery component 300 and move to battery component 300.The atomizing component 100 of inhalator 10 also comprise elastic component 180, one end of elastic component 180 is connected with movable part 160, the other end of elastic component 180 is connected with liquid storage structure 120, and the moving direction when force direction of elastic component 180 pairs of movable parts 160 moves to battery component 300 with movable part 160 is contrary.

The magnet 320 of battery component 300 can be permanent magnet, also can be the electromagnet by switch control rule, if this magnet 320 is electromagnet, then can by the switch control rule movable part 160 of battery component 300, this switch can be the switch worked with control heater strip 144, also can be the switch separately established.When atomizing component 100 fits together with battery component 300, magnet 320 will attract movable part 160, thus makes movable part 160 move to atomizing component 100 and open delivery hole 1282.Elastic component 180 can be spring, sebific duct, rubber cushion or shell fragment group, and in the present embodiment, elastic component 180 is Compress Spring.When atomizing component 100 is separated with battery component 300, elastic component 180 pairs of movable parts 160 oppositely exert pressure to seal delivery hole 1282.

Wherein in an embodiment, movable part 160 comprises body 162, seal 164 and ironware 166.Body 162 is in tubbiness, and movable is set on atomization seat 146.Body 162 can be metalwork, also can be working of plastics etc.Seal 164 is positioned at body 162 one end near drain sheet 128, and seal 164 is corresponding with delivery hole 1282.The material of seal 164 can be the elastic materials such as silica gel, arranges seal 164 and the sealing effectiveness of the movable part 160 pairs of delivery holes 1282 when not being connected with battery component 300 can be made better.Simultaneously see Fig. 5, caulking groove 1642 can be offered in the inner side of seal 164, body 162 is arranged bulge loop 1622, and bulge loop 1622 snaps in caulking groove 1642 makes body 162 reliably be connected with seal 164.In one embodiment, elastic component 180 can be set in outside body 162, and the end of elastic component 180 can abut with seal 164.

Ironware 166 is positioned at body 162 one end near battery component 300, arranges the attraction that ironware 166 can strengthen atomizing component 100 pairs of movable parts 160.Body 162 can form storage tank near one end of battery component 300, and ironware 166 can be the iron plate of ring-type, and ironware 166 is entered in storage tank by the mode riveting of riveted.

Simultaneously see Fig. 6, wherein in an embodiment, liquid storage structure 120 also comprises supporting seat 132 and baffle ring 134.Supporting seat 132 in the form of a ring, is arranged on the opening part of outer tube 126, is fixedly connected with outer tube 126.Body 162 is through supporting seat 132, and the end of elastic component 180 abuts with supporting seat 132.Baffle ring 134 is between outer tube 126 and atomization seat 146, baffle ring 134 is fixedly connected with supporting seat 132, in one embodiment, baffle ring 134 can be connected with supporting seat 132 one, elastic component 180 is between baffle ring 134 and body 162, the intermittent motion of elastic component 180 between baffle ring 134 and body 162, the motion of baffle ring 134 and body 162 pairs of elastic components 180 can play the effect of guiding.Meanwhile, baffle ring 134 can also carry out spacing to the motion of movable part 160, to determine when fit on battery component 300, and the distance that movable part 160 moves.

As shown in Figure 7, the inhalator 70 of another embodiment comprises atomizing component 700 and battery component 900, the inhalator 70 of the present embodiment, for by the atomization of liquid, and by the fog input human body after atomization, this inhalator 70 can as electronic cigarette, also can as medical nebulizer 70 or other.

Simultaneously see Fig. 8, the atomizing component 700 of another embodiment comprises liquid storage structure 720, atomization core 740 and movable part 760.The inside of liquid storage structure 720 forms the liquid storage cylinder 722 for storing liquid.If inhalator is electronic cigarette, then the liquid in liquid storage cylinder 722 can be tobacco juice, if inhalator is medical nebulizer, then the liquid in liquid storage cylinder 722 can be liquid drug.

Atomization core 740 is fixedly connected with liquid storage structure 720, and atomization core 740 comprises liquid-sucking core 742, and liquid-sucking core 742 can be wound around heater strip 744, and the liquid being heated absorption in liquid-sucking core 742 by heater strip 744 realizes atomization.Movable part 760 is flexibly connected with liquid storage structure 720, and when not being connected with battery component 900, movable part 760 shutoff liquid storage structure 720, makes the liquid in liquid storage cylinder 722 and liquid-sucking core 742 isolate.When connecting battery component 900, movable part 760 moves to battery component 900, and liquid storage cylinder 722 is communicated with liquid-sucking core 742.

In the present embodiment, atomization core 740 is fixedly connected with liquid storage structure 720, movable part 760 is flexibly connected with liquid storage structure 720, when atomizing component 700 is not connected with battery component 900, movable part 760 shutoff liquid storage structure 720, liquid in liquid storage cylinder 722 and liquid-sucking core 742 are isolated, avoids the liquid in liquid storage cylinder 722 constantly to be drawn volatilization by liquid-sucking core 742.When atomizing component 700 is connected with battery component 900, movable part 760 moves to battery component 900, and liquid storage cylinder 722 is communicated with liquid-sucking core 742, and liquid-sucking core 742 imbitition is used for atomization.When inhalator 70 does not use for a long time, atomizing component 700 can be separated with battery component 900, movable part 760 shutoff liquid storage structure 720, avoids evaporating in liquid storage cylinder 722.

Wherein in an embodiment, liquid storage structure 720 can comprise interior pipe 724, outer tube 726 and drain sheet 728.The inside of interior pipe 724 forms gas channel 7242, and liquid storage cylinder 722 is between interior pipe 724 and outer tube 726.Drain sheet 728 is between interior pipe 724 and outer tube 726, and drain sheet 728 is positioned at the opening part of liquid storage cylinder 722.Drain sheet 728 offers delivery hole 7282, one end of delivery hole 7282 is communicated with liquid storage cylinder 722.When not being connected with battery component 900, the other end of movable part 760 shutoff delivery hole 7282.When connecting battery component 900, movable part 760 moves to battery component 900, and the other end of delivery hole 7282 is communicated with liquid-sucking core 742.Liquid is flowed out by delivery hole 7282, can reduce flow velocity, easily controls the amount that liquid flows out.

Simultaneously see Fig. 9, wherein in an embodiment, atomization core 740 can also comprise atomization seat 746 and atomization lid 748.Atomization seat 746 offers atomization chamber 7462 and liquid sucting port, and at least part of liquid-sucking core 742 is positioned at atomization chamber 7462, and liquid-sucking core 742 is by the liquid comes into contact in liquid sucting port and liquid storage cylinder 722.Atomization lid 748 is arranged on atomization seat 746, and atomization lid 748 stretches into the inside of interior pipe 724 at least partly, and atomization lid 748 offers the intercommunicating pore being communicated with atomization chamber 7462 and gas channel 7242.Atomization lid 748 can have elasticity, with the space between sealed inner tube 724 and atomization core 740, can cushion atomization core 740 when installing battery component 900 simultaneously and, to the pressure of interior pipe 724, make structural reliability high.

Further, simultaneously see Figure 10, in the present embodiment, movable part 760 is provided with the first screw thread 761, and battery component 900 is provided with the second screw thread 940.First screw thread 761 matches with the second screw thread 940 of battery component 900, and battery component 900 is moved by rotary actuation movable part 760, to control to open delivery hole 7282.

Wherein in an embodiment, atomizing component 700 also comprises elastic component 780, one end of elastic component 780 is connected with movable part 760, the other end of elastic component 780 is connected with liquid storage structure 720, and the moving direction when force direction of elastic component 780 pairs of movable parts 760 moves to battery component 900 with movable part 760 is contrary.

When atomizing component 700 fits together with battery component 900, rotate battery component 900 and movable part 760 is pulled to battery component 900, thus open delivery hole 7282.Elastic component 780 can be spring, sebific duct, rubber cushion or shell fragment group, and in the present embodiment, elastic component 780 is Compress Spring.When atomizing component 700 is separated with battery component 900, elastic component 780 pairs of movable parts 760 oppositely exert pressure to seal delivery hole 7282.

Wherein in an embodiment, movable part 760 comprises body 762 and seal 764.Body 762 is in tubbiness, and movable is set on atomization seat 746.Seal 764 is positioned at body 762 one end near drain sheet 728, and seal 764 is corresponding with delivery hole 7282.The material of seal 764 can be the elastic materials such as silica gel, arranges seal 764 and the sealing effectiveness of the movable part 760 pairs of delivery holes 7282 when not being connected with battery component 900 can be made better.Caulking groove can be offered in the inner side of seal 764, and body 762 arranges bulge loop, and bulge loop snaps in caulking groove makes body 762 reliably be connected with seal 764.In one embodiment, elastic component 780 can be set in outside body 762, and the end of elastic component 780 can abut with seal 764.First screw thread 761 is external screw thread, and the second screw thread 940 is internal thread, and the first screw thread 761 is positioned at body 762 one end near battery component 900.

Simultaneously see Figure 11, in one embodiment, seal 764 is positioned at outer tube 726, and movable part 760 also comprises the first sealing ring 768, first sealing ring 768 and is arranged on seal 764, and the first sealing ring 768 is between seal 764 and the inwall of outer tube 726.When movable part 760 moves along the inwall of outer tube 726, the first sealing ring 768 can prevent the Liquid Penetrant flowed down from delivery hole 7282 to the cavity at elastic component 780 place, then leaks to the external world along the gap between movable part 760 and liquid storage structure 720.

Again see Fig. 9, further, in one embodiment, atomization core 740 can also comprise the second sealing ring 752, the outer wall of atomization seat 746 offers cannelure 7466, and the second sealing ring 752 embeds in cannelure 7466 at least partly, with the space between seal body 762 and atomization seat 746.When movable part 760 to battery component 900 move to delivery hole 7282 open time, liquid flows to the cavity at drain core place from liquid storage cylinder 722.Second sealing ring can prevent the fluid leakage in cavity.

Simultaneously see Figure 12, wherein in an embodiment, liquid storage structure 720 can also comprise supporting seat 732 and baffle ring 734.Supporting seat 732 in the form of a ring, is arranged on the opening part of outer tube 726, is fixedly connected with outer tube 726.Body 762 is through supporting seat 732, and the end of elastic component 780 abuts with supporting seat 732.Baffle ring 734 is between outer tube 726 and atomization seat 746, baffle ring 734 is fixedly connected with supporting seat 732, in one embodiment, baffle ring 734 can be connected with supporting seat 732 one, elastic component 780 is between baffle ring 734 and body 762, the intermittent motion of elastic component 780 between baffle ring 734 and body 762, the motion of baffle ring 734 and body 762 pairs of elastic components 780 can play the effect of guiding.Meanwhile, baffle ring 734 can also carry out spacing to the motion of movable part 760, to determine when fit on battery component 900, and the distance that movable part 760 moves.

Wherein in an embodiment, liquid storage structure 720 also comprises location division 736, and location division 736 is arranged on supporting seat 732, and location division 736 protrudes from the inner side of supporting seat 732.The side of body 762 forms otch 763, and otch 763 extends along the axis of body 762, and otch 763 rotates to limit body 762 with location division 736 is suitable.When body 762 moves inside supporting seat 732, location division 736 and otch 763 cooperatively interact to prevent movable part 760 from rotating relative to supporting seat 732, to improve stability and sealing.

Certainly, the mode that battery component 900 orders about movable part 760 motion can also be other modes, and such as, in another embodiment as shown in FIG. 13 to 15, liquid storage structure 720 can be provided with the 3rd screw thread the 738, three screw thread 738 and match with the first screw thread 761.Elastic component 780 can omit, and when atomizing component 700 is not connected with battery component 900, is abutted by the 3rd screw thread 738 restraint part 760, to seal delivery hole 7282 with drain sheet 728.3rd screw thread 738 can be arranged on supporting seat 732.

Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this description is recorded.

The above embodiment only have expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be construed as limiting the scope of the patent.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (14)

1. an atomizing component for inhalator, is connected with the battery component of inhalator is dismountable, it is characterized in that, described atomizing component comprises liquid storage structure, atomization core and movable part;

The inside of described liquid storage structure forms the liquid storage cylinder for storing liquid;

Described atomization core is fixedly connected with described liquid storage structure, and described atomization core comprises liquid-sucking core;

Described movable part is flexibly connected with described liquid storage structure, and when not being connected with described battery component, liquid storage structure described in described movable part shutoff, makes the liquid in described liquid storage cylinder and described liquid-sucking core isolate; When connecting described battery component, described movable part moves to described battery component, and described liquid storage cylinder is communicated with described liquid-sucking core.

2. the atomizing component of inhalator according to claim 1, is characterized in that, described liquid storage structure comprises interior pipe, outer tube and drain sheet; The inside of described interior pipe forms gas channel, and described liquid storage cylinder is between described interior pipe and described outer tube; Described drain sheet is between described interior pipe and described outer tube, and described drain sheet is positioned at the opening part of described liquid storage cylinder;

Described drain sheet offers delivery hole, and one end of described delivery hole is communicated with described liquid storage cylinder; When not being connected with described battery component, the other end of delivery hole described in described movable part shutoff; When connecting described battery component, described movable part moves to described battery component, and the other end of described delivery hole is communicated with described liquid-sucking core.

3. the atomizing component of inhalator according to claim 2, is characterized in that, described atomization core also comprises atomization seat and atomization lid;

Described atomization seat offers atomization chamber and liquid sucting port, and at least part of described liquid-sucking core is positioned at described atomization chamber, and described liquid-sucking core is by the liquid comes into contact in described liquid sucting port and described liquid storage cylinder;

Described atomization lid is arranged on described atomization seat, and at least part of described atomization lid stretches into the inside of described interior pipe, and described atomization covers the intercommunicating pore offering and be communicated with described atomization chamber and described gas channel.

4. the atomizing component of inhalator according to claim 3, is characterized in that, the material of at least part of described movable part is magnetic material, and described movable part can be attracted by the magnet of described battery component and move to described battery component;

The atomizing component of described inhalator also comprises elastic component, one end of described elastic component is connected with described movable part, the other end of described elastic component is connected with described liquid storage structure, and moving direction when described elastic component moves to described battery component with described movable part the force direction of described movable part is contrary.

5. the atomizing component of inhalator according to claim 4, is characterized in that, described movable part comprises body, seal and ironware;

Described body is tubbiness, and movable is set on described atomization seat;

Described seal is positioned at described body one end near described drain sheet, and described seal is corresponding with described delivery hole;

Described ironware is positioned at described body one end near described battery component.

6. the atomizing component of inhalator according to claim 3, is characterized in that, described movable part is provided with the first screw thread, and described first screw thread matches with the second screw thread of described battery component, and described battery component is by movable part motion described in rotary actuation.

7. the atomizing component of inhalator according to claim 6, it is characterized in that, also comprise elastic component, one end of described elastic component is connected with described movable part, the other end of described elastic component is connected with described liquid storage structure, and moving direction when described elastic component moves to described battery component with described movable part the force direction of described movable part is contrary.

8. the atomizing component of inhalator according to claim 7, is characterized in that, described movable part comprises body and seal;

Described body is tubbiness, and movable is set on described atomization seat;

Described seal is positioned at described body one end near described drain sheet, and described seal is corresponding with described delivery hole;

Described first screw thread is external screw thread, and described first screw thread is positioned at described body one end near described battery component.

9. the atomizing component of inhalator according to claim 8, it is characterized in that, described seal is positioned at described outer tube, described movable part also comprises the first sealing ring, described first sealing ring is arranged on described seal, and described first sealing ring is between described seal and the inwall of described outer tube.

10. the atomizing component of inhalator according to claim 8, it is characterized in that, described atomization core also comprises the second sealing ring, the outer wall of described atomization seat offers cannelure, described second sealing ring embeds in described cannelure at least partly, to seal the space between described body and described atomization seat.

The atomizing component of 11. inhalators according to claim 8, is characterized in that, described liquid storage structure also comprises supporting seat and baffle ring;

Described supporting seat in the form of a ring, is arranged on the opening part of described outer tube, and described body is through described supporting seat, and the end of described elastic component abuts with described supporting seat;

Described baffle ring is between described outer tube and described atomization seat, and described baffle ring is fixedly connected with described supporting seat, and described elastic component is between described baffle ring and described body.

The atomizing component of 12. inhalators according to claim 11, it is characterized in that, described liquid storage structure also comprises location division, described location division is arranged on described supporting seat, and described location division protrudes from the inner side of described supporting seat;

The side of described body forms otch, and described otch extends along the axis of described body, described otch and described location division is suitable rotates to limit described body.

The atomizing component of 13. inhalators according to claim 6, is characterized in that, described liquid storage structure is provided with the 3rd screw thread, and described 3rd screw thread matches with described first screw thread.

14. 1 kinds of inhalators, is characterized in that, comprise atomizing component and the battery component of the inhalator as described in claim 1-13, and the atomizing component of described inhalator is connected with described battery component is dismountable.