ELECTRONIC CIGARETTE

Abstract

An electronic cigarette with an atomizing core having multiple atomizing assemblies arranged in parallel is provided. An atomizing seat of the atomizing core is provided with multiple accommodating grooves for accommodating the electric heating wires, and the electric heating wires are spaced from each other with a space interval, which solves a problem that the smoke generated by the electric heating wire cannot be delivered by the airflow in time when the liquid guiding rope is positioned between the electric heating wires and the amount of the smoke is reduced. Each of the electric heating assemblies may be mounted directly from the open end of the respective accommodating grooves, which simplifies the installation and the production process.

Description

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation under 35 U.S.C. §120 of International Application No. PCT/CN2014/082605, filed on Jul. 21, 2014, the entire disclosure of which is incorporated herein by reference.

TECHNICAL FIELD

The present application relates to the technical field of electronic cigarettes, and particularly to an electronic cigarette with an atomizing core having multiple atomizer assemblies arranged in parallel.

BACKGROUND

In the conventional technology, in order to increase the amount of smoke of the electronic cigarette, multiple heating wires are generally provided for atomizing cigarette liquid. The multiple heating wires are stacked up and positioned in a groove of an atomizing seat for fixing the heating wires. In order to isolate the heating wires from each other and guide the cigarette liquid, a glass fiber rope is provided between the each two adjacent heating wires. Since the glass fiber rope adheres on the heating wires, the smoke generated by the heating wires cannot be delivered out in time by the airflow in smoking, which reduces the amount of the smoke and decreases the atomizing efficiency.

In the conventional technology, some of the electronic cigarettes is provided with two heating wires, and the two heating wires are arranged in the shape of a cross and then positioned in a cross groove of the atomizing seat. Thus, the atomizing seat requires a relatively large space, which reduces the amount of the cigarette liquid that can be filled in the suction nozzle. The lower heating wire may heat the upper heating wire, and when the electronic wire of the upper heating wire is pulled, the upper heating wire is bent and comes into contact with the lower heating wire, which leads to a short circuit.

SUMMARY

In view of the above technical problems, an electronic cigarette is provided according to the present application, which includes an atomizer for atomizing cigarette liquid and a battery rod for powering the atomizer, the atomizer includes: a suction nozzle assembly, an atomizing core, and a connecting sleeve;

the suction nozzle assembly is provided with a liquid storage sleeve, an air pipe arranged in the liquid storage sleeve in an axial direction of the liquid storage sleeve, and a suction nozzle arranged at an end of the liquid storage sleeve; a liquid storage chamber for storing the cigarette liquid is defined by the liquid storage sleeve, and an air channel allowing airflow to flow to the suction nozzle is defined by the air pipe;

two ends of the connecting sleeve are configured to be detachably connected to the suction nozzle assembly and the battery rod, respectively;

two ends of the atomizing core are configured to be detachably connected to the connecting sleeve and the air pipe, respectively; the atomizing core and the air pipe are elastically abutted against each other or are insertedly connected, to fix the atomizing core between the suction nozzle assembly and the connecting sleeve; and the atomizing core is arranged in the liquid storage chamber and is hermetically connected to the air pipe;

the atomizing core is provided with an atomizing sleeve, an atomizing seat, and an atomizing assembly;

the atomizing assembly includes at least two electric heating assemblies for atomizing the cigarette liquid;

each of the electric heating assemblies is provided with a liquid guiding wick and an electric heating wire winding around the liquid guiding wick;

the atomizing seat is provided with a plurality of accommodating grooves, and each accommodating groove has one end open and is provided for accommodating the respective electric heating assembly, the plurality of accommodating grooves are configured to allow all of the electric heating assemblies to be arranged in parallel in a radial direction of the electronic cigarette and to be spaced from each other with a space interval; and all of the electric heating assemblies are located at the same radial position on the atomizing seat;

an atomizing chamber for communicating with the air channel is provided inside the atomizing seat, and the plurality of the accommodating grooves are provided in the atomizing chamber, and each of the electric heating assemblies is configured to atomize the cigarette liquid to generate smoke to be delivered into the mouth of a user through the atomizing chamber and the air channel;

two ends of the liquid guiding wick of each of the electric heating assemblies extend out of the respective accommodating grooves, and are configured to be in contact with the cigarette liquid in the liquid guiding chamber, to absorb and store the cigarette liquid, and provide the cigarette liquid to the electric heating wires to be atomized;

a width of each accommodating groove is smaller than a diameter of the liquid guiding wick, to allow the accommodating groove to clamp the liquid guiding wick, to prevent the liquid guiding wick from absorbing an excessive amount of the cigarette liquid; and

the atomizing sleeve is sleeved on an accommodating groove wall, and a stepped portion is provided on the accommodating groove wall to define a connection position of the atomizing sleeve and the accommodating groove wall, and in the case that the atomizing sleeve is fixed at the connection position of the accommodating groove wall, the atomizing sleeve abuts against the liquid guiding wick, to allow an abutting portion of the liquid guiding wick to have a sealing effect to prevent the cigarette liquid in the liquid storage chamber from flowing into the atomizing chamber.

Preferably, the accommodating groove wall is provided with an extending section and a retaining section for retaining the electric heating assemblies, and the atomizing sleeve is sleeved on the extending section of the accommodating groove wall;

a thickness of the accommodating groove wall at the extending section is smaller than a thickness of the accommodating groove wall at the retaining section; and

the stepped portion is provided at a connection portion of the extending section and the retaining section, and is configured to define a connection position of the atomizing sleeve and the accommodating groove wall of the atomizing seat.

Preferably, the atomizing core is provided with an atomizing cover, and the atomizing cover covers the atomizing sleeve and abuts against a wall of the air channel; and

the atomizing cover is provided with a through hole configured to communicate the air channel with the atomizing core.

Preferably, the atomizing cover is provided with an accommodating chamber, and a sealing ring is provided inside the accommodating chamber; and

the sealing ring is configured to seal an abutting portion of the atomizing cover and the air pipe and to prevent the cigarette liquid in the liquid storage chamber from flowing into the air channel and the atomizing core.

Preferably, the air pipe is inserted into the accommodating chamber of the atomizing cover to be connected to the atomizing cover, and the sealing ring is sleeved on an outer wall of the air channel and is configured to seal the abutting portion of the atomizing cover and the air pipe.

Preferably, an air passage is provided inside the connecting sleeve;

an outer wall of the connecting sleeve is provided with an air hole for communicating with external air, and the air hole is in communication with the air passage; and

the atomizing chamber of the atomizing seat is in communication with the air passage of the connecting sleeve, and in the case that the user smokes the electronic cigarette, an airflow enters via the air hole and passes through the air passage, the plurality of the atomizing assemblies atomize the cigarette liquid to generate smoke, and the smoke passes through the atomizing chamber and the air passage, and is sucked into the mouth via the suction nozzle.

Preferably, the atomizing seat is provided with a second threaded portion configured to be threadedly connected to the connecting sleeve;

the connecting sleeve is provided with a first threaded portion configured to cooperate with the second threaded portion, and the first threaded portion is configured to detachably connect the atomizing seat to the connecting sleeve by screw threads; and

the atomizing core is provided with an electrode configured to be electrically connected to the electric heating wires, and the atomizing seat and the connecting sleeve are each made of conductive material, and the atomizing seat is electrically connected to the electric heating wires, an insulating ring is provided between the atomizing seat and the electrode to insulate the electrode from the atomizing seat, and the insulating ring and the atomizing seat are connected by snap fit, and the electrode is snapped into the insulating ring and is configured to electrically connect the atomizing seat and the electrode to the battery rod, to allow the battery rod to provide power to each of the electric heating wires for atomizing the cigarette liquid.

Preferably, the electric heating wires are electrically connected in parallel, and two ends of each of the electric heating wires are electrically connected to a connection portion of the atomizing seat and the electrode, respectively.

Preferably, the first threaded portion of the connecting sleeve is provided with a connecting sleeve sealing gasket;

the second threaded portion of the atomizing seat is provided with a sealing gasket and an accommodating groove for accommodating the sealing gasket; and

the sealing gasket and the connecting sleeve sealing gasket are configured to prevent the cigarette liquid from flowing into the atomizing core through a connection portion of the atomizing seat and the connecting sleeve.

Preferably, the liquid guiding wick is a glass fiber rope; and the electric heating wires are each made of nickel-chrome alloy.

Preferably, the suction nozzle assembly is threadedly connected to the connecting sleeve.

Preferably, the liquid storage sleeve is a transparent body.

Preferably, the electronic cigarette further includes a decorating part made of metallic material;

the decorating part is detachably connected to the connecting sleeve, and the decorating part is configured to wrap a connection portion of the connecting sleeve and the suction nozzle assembly; and

a concave portion is provided on the liquid storage sleeve at a position close to the connection portion of the connecting sleeve and the suction nozzle assembly, a thickness of the liquid storage sleeve at the concave portion is smaller than a wall thickness of the liquid storage sleeve, and in the case that the decorating part wraps the connection portion of the connecting sleeve and the suction nozzle assembly, the decorating part is accommodated in the concave portion, to allow the electronic cigarette have a smooth appearance.

Based on the above technical solutions, the present application has the following advantages.

The atomizing seat is provided with multiple accommodating grooves for accommodating the electric heating wires, and the electric heating wires are spaced from each other with a space interval, which solves a problem that the smoke generated by the electric heating wire cannot be delivered by the airflow in time when the liquid guiding rope is positioned between the electric heating wires, and the amount of the smoke is reduced.

The electric heating assemblies are arranged in parallel in the radial direction of the electronic cigarette, which avoids a problem of the atomizing seat occupying a greater length of the electronic cigarette caused by positioning the electric heating wires in the cross groove of the atomizing seat. The electric heating assemblies arranged in parallel can avoid a problem of the lower electric heating wires heating the upper electric heating wires when the electric heating wires are arranged in the shape of a cross, and also avoid a short circuit generated in the case that the upper heating wire is bent and comes into contact with the lower heating wire when the electronic wire of the upper heating wire is pulled.

Each of the electric heating assemblies may be mounted directly from the open end of the respective accommodating grooves, which simplifies the installation and the production process.

Since the liquid guiding wick has a good elasticity and the width of the accommodating groove is smaller than the diameter of the liquid guiding wick, the accommodating grooves can clamp the liquid guiding wick, to prevent the liquid guiding wick from falling out of the accommodating grooves. The sectional area of the clamped portion of the liquid guiding wick is reduced, which can control the amount of the cigarette liquid stored in the liquid guiding wick. Thus, the liquid guiding wick will not absorb excessive cigarette liquid, which further ensures that the electric heating wires can sufficiently atomize the cigarette liquid to generate a large amount of smoke when the user smokes the electronic cigarette. With this arrangement, a problem of insufficient atomization due to an excessive supply of the cigarette liquid is avoided without increasing the production process, which would otherwise causes a small amount of the smoke.

The atomizing sleeve is sleeved on the accommodating groove wall, and the accommodating groove wall is provided with a stepped portion for defining the connection position of the atomizing sleeve and the accommodating groove wall. When the atomizing sleeve is fixed at the connection position of the accommodating groove wall, the atomizing sleeve abuts against the liquid guiding wicks. Since the liquid guiding wick has a good elasticity, the abutting portion of the liquid guiding wick can have a sealing effect to prevent the cigarette liquid in the liquid storage chamber from flowing into the atomizing chamber. In addition, such arrangement may better avoid problems of the liquid guiding wick being overly pressed or liquid leakage due to gaps generated around the liquid guiding wick when the atomizing sleeve is not mounted in place, thereby facilitating the installation and improving the production efficiency.

BRIEF DESCRIPTION OF THE DRAWINGS

For more clearly illustrating embodiments of the present application, drawings referred to describe the embodiments or the conventional technology will be briefly described hereinafter. Apparently, the drawings in the following description are only several embodiments of the present application, and for the person skilled in the art other drawings may be obtained based on these drawings without any creative efforts.

FIG. 1 is an overall structural view of an electronic cigarette according to the present application;

FIG. 2 is a sectional view of a suction nozzle assembly of the electronic cigarette according to the present application;

FIG. 3 is a sectional view of a connecting sleeve of the electronic cigarette according to the present application;

FIG. 4 is an exploded view of an embodiment of an atomizing core of the electronic cigarette according to the present application;

FIG. 5 is a structural view of the embodiment of the atomizing seat of the electronic cigarette according to the present application; and

FIG. 6 is a sectional view of another embodiment of an atomizing seat of the electronic cigarette according to the present application.

REFERENCE NUMERALS

11	suction nozzle assembly;	12	atomizing core;
13	connecting sleeve;	21	suction nozzle;
22	air channel;	23	liquid storage chamber;
24	air pipe;	25	liquid storage sleeve;
26	sealing gasket;	27	first threaded portion;
28	second threaded portion;	29	sealing gasket of the
			connecting sleeve;
30	decorating part;	31	atomizing sleeve;
32	atomizing seat;	33	accommodating groove;
34	electric heating assembly;	35	atomizing cover;
36	sealing ring;	37	electrode;
38	insulating ring;	39	accommodating groove wall;
40	atomizing chamber;	51	electric heating wire;
52	liquid guiding wick;	321	extending section;
322	retaining section;	131	air hole; and
132	air passage.

DETAILED DESCRIPTION

In order to make the purposes, features, and advantage of the present application more apparent and easy to understand, the technical solutions in the embodiments of the present application will be described clearly and completely hereinafter in conjunction with the drawings in the embodiments of the present application. Apparently, the described embodiments are only a part of the embodiments of the present application, rather than all embodiments. Based on the embodiments in the present application, all of other embodiments, made by the person skilled in the art without any creative efforts, fall into the scope of the present application.

An electronic cigarette is provided according to this embodiment. Reference is made to FIG. 1 in conjunction with FIG. 2 and FIG. 4. The electronic cigarette includes an atomizer for atomizing cigarette liquid and a battery rod (not shown) for powering the atomizer. The atomizer includes a suction nozzle assembly 11, an atomizing core 12, and a connecting sleeve 13.

The suction nozzle assembly 11 is provided with a liquid storage sleeve 25, an air pipe 24 arranged in the liquid storage sleeve 25 in an axial direction of the liquid storage sleeve 25, and a suction nozzle 21 arranged at an end of the liquid storage sleeve 25. A liquid storage chamber 23 for storing the cigarette liquid is defined by the liquid storage sleeve 25. An air channel 22 allowing airflow to flow to the suction nozzle is defined by the air pipe 24.

Two ends of the connecting sleeve 13 may be detachably connected to the suction nozzle assembly 11 and the battery rod, respectively.

Two ends of the atomizing core 12 may be detachably connected to the connecting sleeve 13 and the air pipe 24, respectively. The atomizing core 12 and the air pipe 24 are elastically abutted against each other or are insertedly connected, thus, the atomizing core 12 is fixed between the suction nozzle assembly 11 and the connecting sleeve 13, and the atomizing core 12 is arranged in the liquid storage chamber 23, and is hermetically connected to the air pipe 24.

It will be appreciated that, the suction nozzle assembly 11 may not only allow the user to smoke, but also store the cigarette liquid inside the liquid storage chamber 23, thereby reducing the length of the electronic cigarette, and facilitate carrying the electronic cigarette. The suction nozzle assembly 11 may be detachably connected to the connecting sleeve 13, and the atomizing core 12 is fixed between the suction nozzle assembly 11 and the connecting sleeve 13. When the cigarette liquid in the liquid storage chamber 23 of the suction nozzle assembly 11 is used up, the connecting sleeve 13 may be removed and the cigarette liquid can be filled into the liquid storage chamber 23, which can increase the service life of the electronic cigarette. Further, if the atomizing core 12 is damaged, the atomizing core 12 may be removed to facilitate replacement.

Reference is made to FIG. 5 in conjunction with FIG. 6. The atomizing core is provided with an atomizing sleeve 31, an atomizing seat 32, and an atomizing assembly. The atomizing assembly includes at least two electric heating assemblies 34 for atomizing the cigarette liquid. Each of the electric heating assemblies 34 is provided with a liquid guiding wick 52 and an electric heating wire 51 winding around the liquid guiding wick 52. The atomizing seat 32 is provided with multiple accommodating grooves 33, and each accommodating groove 33 has one end open and is provided for accommodating the respective electric heating assembly 34. The multiple accommodating grooves 33 allow all of the electric heating assemblies 34 to be arranged in parallel in a radial direction of the electronic cigarette and to be spaced from each other with a space interval. The electric heating assemblies 34 may be located at the same radial position on the atomizing seat 32. Two ends of the liquid guiding wick 52 of each electric heating assembly 34 extend out of the respective accommodating grooves 33 and are in contact with the cigarette liquid in the liquid storage chamber to absorb and store the cigarette liquid, and to supply the cigarette liquid to the electric heating wire 51 to be atomized. The width of each accommodating groove 33 is smaller than the diameter of the liquid guiding wick 52, thus, the liquid guiding wick 52 can be clamped by the respective accommodating grooves 33 tightly, to prevent the liquid guiding wick 52 from absorbing an excessive amount of the cigarette liquid which may reduce the amount of smoke.

The atomizing sleeve 31 is sleeved on an accommodating groove wall, and the accommodating groove wall is provided with a stepped portion for defining a connection position of the atomizing sleeve 31 and the accommodating groove wall. When the atomizing sleeve 31 is fixed at the connection portion of the accommodating groove wall, the atomizing sleeve 31 abuts against the liquid guiding wicks 52, thus, the abutting portion of the liquid guiding wicks 52 can have a sealing effect to prevent the cigarette liquid in the liquid storage chamber 23 from flowing into an atomizing chamber 40.

It can be known that, the atomizing assembly of the electronic cigarette is provided with multiple electric heating assemblies 34 which can atomize the cigarette liquid at the same time to generate smoke, thereby increasing the amount of the smoke generated by the electronic cigarette and bringing an excellent smoking experience for the user. In the case that one or several of the electric heating assemblies 34 are damaged, the electronic cigarette can still operate normally as long as there is still one heat generating device 34 that can atomize the cigarette liquid normally, thus, the user still can smoke the electronic cigarette, which avoids the disadvantage of the electronic cigarette with only one electric heating assembly 34.

The multiple electric heating assemblies 34 in the atomizing assembly of the electronic cigarette are spaced from each other and disposed in the axial direction of the electronic cigarette. Thus, it avoids a short circuit among the multiple electric heating assemblies 34 due to heating, and it also omits the glass fiber ropes disposed among the multiple electric heating assemblies 34, which simplifies the production process and lowers the cost.

The multiple electric heating assemblies 34 are arranged in parallel in the radial direction of the electronic cigarette, which avoids a problem of the atomizing seat 32 occupying a greater length of the electronic cigarette caused by positioning the electric heating wires 51 in the cross groove of the atomizing seat 32. The electric heating assemblies 34 arranged in parallel can avoid a problem of the lower electric heating wires 51 heating the upper electric heating wires 51 when the electric heating wires are arranged in the shape of a cross, and also avoid a short circuit generated in the case that the upper heating wire is bent and comes into contact with the lower heating wire when the electronic wire of the upper heating wire is pulled.

Since the liquid guiding wick 52 has a good elasticity and the width of the accommodating groove is smaller than the diameter of the liquid guiding wick 52, the accommodating grooves can clamp the liquid guiding wick 52, to prevent the liquid guiding wick 52 from falling out of the accommodating grooves 33. The sectional area of the clamped portion of the liquid guiding wick 52 is reduced, which can control the amount of the cigarette liquid stored in the liquid guiding wick 52. Thus, the liquid guiding wick 52 will not absorb excessive cigarette liquid, which further ensures that the electric heating wires 51 can sufficiently atomize the cigarette liquid to generate a large amount of smoke when the user smokes the electronic cigarette. With this arrangement, a problem of insufficient atomization due to an excessive supply of the cigarette liquid is avoided without increasing the production process, which would otherwise causes a small amount of the smoke.

The atomizing sleeve 31 is sleeved on the accommodating groove wall, and the accommodating groove wall is provided with a stepped portion for defining the connection position of the atomizing sleeve 31 and the accommodating groove wall. When the atomizing sleeve 31 is fixed at the connection position of the accommodating groove wall, the atomizing sleeve 31 abuts against the liquid guiding wicks 52. Since the liquid guiding wick 51 has a good elasticity, the abutting portion of the liquid guiding wick 52 can have a sealing effect to prevent the cigarette liquid in the liquid storage chamber 23 from flowing into the atomizing chamber 40.

In this embodiment, the accommodating groove wall is provided with an extending section 321 and a retaining section 322. A stepped portion is provided at the connection portion of the extending section 321 and the retaining section 322. The stepped portion is provided for defining the connection position of the atomizing sleeve 31 and the accommodating groove wall 39 of the atomizing seat. The thickness of the accommodating groove wall at the extending section 321 is smaller than the thickness of the accommodating groove wall at the retaining section 322, which facilitates insertedly connecting the atomizing sleeve 31 to the atomizing seat 32. The stepped portion may include a boss protruding out of the surface of the accommodating groove wall, and a groove configured to cooperate with the boss of the stepped portion is provided on the inner wall of the atomizing sleeve 31. The boss and the groove may cooperate with each other to fix the atomizing sleeve 31 onto the atomizing seat 32. Certainly, other fixing manners can be employed, and the specific manner is not limited here.

In this embodiment, referring to FIG. 6, the atomizing core 12 is provided with an atomizing cover 35 which covers the atomizing sleeve 31 and abuts against the air pipe. The atomizing cover 35 is provided with a through hole for communicating the air channel 22 with the atomizing core 12.

The atomizing cover 35 is provided with an accommodating chamber, and an abutting portion for hermetically connecting the atomizing cover 35 to the air pipe 24, and a sealing ring 36 for preventing the cigarette liquid in the liquid storage chamber 23 from flowing into the air channel 22 and the atomizing core 12 are provided in the accommodating chamber.

In this embodiment, the air pipe 24 of the air channel is inserted into the accommodating chamber of the atomizing cover 35 to be connected to the atomizing cover 35, and the sealing ring 36 is sleeved on the outer wall of the air pipe 24 of the air channel to seal the abutting portion of the atomizing cover 35 and the air pipe 24.

In this embodiment, referring to FIG. 3, an air passage 132 is provided inside the connecting sleeve 13. The outer wall of the connecting sleeve is provided with an air hole 131 for communicating with the external air. The air hole 131 is in communication with the air passage 132.

The atomizing chamber 40 of the atomizing seat is in communication with the air passage 132 of the connecting sleeve. Thus, when a user smokes the electronic cigarette, the airflow enters via the air hole and passes through the air passage 132, the atomizing assembly atomizes the cigarette liquid to generate smoke, and then the smoke is sucked into the mouth via the suction nozzle by passing through the atomizing chamber 40 and the air channel 22.

It will be appreciated that, when the user is smoking, the airflow enters via the air hole 131, and then enters into the mouth of the user by passing through the air passage 132, the atomizer chamber 40 of the atomizing seat and the air channel 22.

In this embodiment, referring to FIG. 3 and FIG. 6, the atomizing seat 32 is provided with a second threaded portion 28 for being threadedly connected to the connecting sleeve 13.

The connecting sleeve 13 is provided with a first threaded portion 27 which cooperates with the second threaded portion 28. The first threaded portion 27 is provided for detachably connecting the atomizing seat 32 to the connecting sleeve 13 by means of screw threads.

The atomizing core 12 is provided with an electrode 37 which is electrically connected to the electric heating wires 51. The atomizing seat 32 and the connecting sleeve 32 are each made of conductive material. The atomizing seat 32 is electrically connected to the electric heating wires 51. An insulating ring 38 is provided between the atomizing seat 32 and the electrode 37 to insulate the electrode 37 from the atomizing seat 32. The insulating ring 38 and the atomizing seat 32 are connected by snap fit, and the electrode 37 is snapped into the insulating ring 38 to electrically connect the atomizing seat 32 and the electrode 37 to the battery rod. Thus, the battery rod can provide power to each of the heating wires 51 for atomizing the cigarette liquid.

Specifically, the connection portion of the atomizing seat is connected to the insulating ring by snap fit, and the electrode 37 is snapped into the insulating ring 38. With this structure, an outer electrode is omitted. The connection portion of the atomizing seat 32 and the connecting sleeve 13 is made of conductive material to replace the outer electrode. Thus, compared to the conventional electronic cigarette, the present application saves a component, simplifies the process, and improves the production efficiency.

In this embodiment, the electric heating wires are electrically connected in parallel, and then the two ends of each of the electric heating wires are electrically connected to the connection portion of the atomizing seat and the electrode, respectively. Specifically, firstly, the electric heating wires are electrically connected in parallel by welding the electric heating wires to the conductive wires which are connected to the connection portion or the electrode. Then, the electric heating wires connected in parallel are mounted into the accommodating groove of the atomizing seat. Thus, the installation and the process are simplified.

In this embodiment, the entire atomizing seat 39 is made of metallic material such as copper or iron. The liquid guiding wick 52 may employ a glass fiber rope. The electric heating wire 51 may be made of nickel-chrome alloy.

In this embodiment, the suction nozzle assembly 11 is threadedly connected to the connecting sleeve 13. Certainly, the suction nozzle assembly and the connecting sleeve can also be connected by snap fit or magnet connection.

In this embodiment, the electronic cigarette further includes a decorating part 30 made of metal. The decorating part 30 may be detachably connected to the connecting sleeve 13, and the decorating part 30 wraps the connection portion of the connecting sleeve 13 and the suction nozzle assembly 11.

A concave portion is provided on the liquid storage sleeve 25 at a position close to the connection portion of the connecting sleeve 13 and the suction nozzle assembly 11. The thickness of the liquid storage sleeve at the concave portion is smaller than the wall thickness of the liquid storage sleeve. When the decorating part 30 wraps the connection portion of the connecting sleeve 13 and the suction nozzle assembly 11, the decorating part 30 is accommodated in the concave portion, thus, the appearance of the electronic cigarette is smooth and aesthetic.

In this embodiment, the liquid storage sleeve 25 is a transparent body made of plastic cement, which facilitates observing the remaining amount of the cigarette liquid in the liquid storage sleeve 25 to fill the cigarette liquid in time when the cigarette liquid is used up. The decorating part 30 is made of metal, thus the reliability of the connection between the decorating part 30 and the connecting sleeve 13 is improved, which also prolongs the service life of the electronic cigarette.

The above embodiments are described in a progressive manner. Each of the embodiments is mainly focused on describing its differences from other embodiments, and references may be made among these embodiments with respect to the same or similar portions among these embodiments.

Based on the above description of the disclosed embodiments, the person skilled in the art is capable of carrying out or using the present application. It is obvious for the person skilled in the art to make many modifications to these embodiments. The general principle defined herein may be applied to other embodiments without departing from the spirit or scope of the present application. Therefore, the present application is not limited to the embodiments illustrated herein, but should be defined by the broadest scope consistent with the principle and novel features disclosed herein.

Claims

1. An electronic cigarette, comprising an atomizer for atomizing cigarette liquid and a battery rod for powering the atomizer, wherein, the atomizer comprises a suction nozzle assembly, an atomizing core, and a connecting sleeve;

the suction nozzle assembly is provided with a liquid storage sleeve, an air pipe arranged in the liquid storage sleeve in an axial direction of the liquid storage sleeve, and a suction nozzle arranged at an end of the liquid storage sleeve; a liquid storage chamber for storing the cigarette liquid is defined by the liquid storage sleeve, and an air channel allowing airflow to flow to the suction nozzle is defined by the air pipe;

two ends of the connecting sleeve are configured to be detachably connected to the suction nozzle assembly and the battery rod, respectively;

two ends of the atomizing core are configured to be detachably connected to the connecting sleeve and the air pipe, respectively; the atomizing core and the air pipe are elastically abutted against each other or are insertedly connected, to fix the atomizing core between the suction nozzle assembly and the connecting sleeve; and the atomizing core is arranged in the liquid storage chamber and is hermetically connected to the air pipe;

the atomizing core is provided with an atomizing sleeve, an atomizing seat, and an atomizing assembly;

the atomizing assembly comprises at least two electric heating assemblies for atomizing the cigarette liquid;

each of the electric heating assemblies is provided with a liquid guiding wick and an electric heating wire winding around the liquid guiding wick;

the atomizing seat is provided with a plurality of accommodating grooves, and each accommodating groove has one end open and is provided for accommodating the respective electric heating assembly, the plurality of accommodating grooves are configured to allow all of the electric heating assemblies to be arranged in parallel in a radial direction of the electronic cigarette and to be spaced from each other with a space interval; and all of the electric heating assemblies are located at the same radial position on the atomizing seat;

an atomizing chamber for communicating with the air channel is provided inside the atomizing seat, and the plurality of the accommodating grooves are provided in the atomizing chamber, and each of the electric heating assemblies is configured to atomize the cigarette liquid to generate smoke to be delivered into the mouth of a user through the atomizing chamber and the air channel;

two ends of the liquid guiding wick of each of the electric heating assemblies extend out of the respective accommodating grooves, and are configured to be in contact with the cigarette liquid in the liquid guiding chamber, to absorb and store the cigarette liquid, and provide the cigarette liquid to the electric heating wires to be atomized;

a width of each accommodating groove is smaller than a diameter of the liquid guiding wick, to allow the accommodating groove to clamp the liquid guiding wick, to prevent the liquid guiding wick from absorbing an excessive amount of the cigarette liquid; and

the atomizing sleeve is sleeved on an accommodating groove wall, and a stepped portion is provided on the accommodating groove wall to define a connection position of the atomizing sleeve and the accommodating groove wall, and in the case that the atomizing sleeve is fixed at the connection position of the accommodating groove wall, the atomizing sleeve abuts against the liquid guiding wick, to allow an abutting portion of the liquid guiding wick to have a sealing effect to prevent the cigarette liquid in the liquid storage chamber from flowing into the atomizing chamber.

2. The electronic cigarette according to claim 1, wherein

the accommodating groove wall is provided with an extending section and a retaining section for retaining the electric heating assemblies, and the atomizing sleeve is sleeved on the extending section of the accommodating groove wall;

a thickness of the accommodating groove wall at the extending section is smaller than a thickness of the accommodating groove wall at the retaining section; and

the stepped portion is provided at a connection portion of the extending section and the retaining section, and is configured to define a connection position of the atomizing sleeve and the accommodating groove wall of the atomizing seat.

3. The electronic cigarette according to claim 1, wherein

the atomizing core is provided with an atomizing cover, and the atomizing cover covers the atomizing sleeve and abuts against a wall of the air channel; and

the atomizing cover is provided with a through hole configured to communicate the air channel with the atomizing core.

4. The electronic cigarette according to claim 3, wherein

the atomizing cover is provided with an accommodating chamber, and a sealing ring is provided inside the accommodating chamber; and

the sealing ring is configured to seal an abutting portion of the atomizing cover and the air pipe and to prevent the cigarette liquid in the liquid storage chamber from flowing into the air channel and the atomizing core.

5. The electronic cigarette according to claim 4, wherein

the air pipe is inserted into the accommodating chamber of the atomizing cover to be connected to the atomizing cover, and the sealing ring is sleeved on an outer wall of the air channel and is configured to seal the abutting portion of the atomizing cover and the air pipe.

6. The electronic cigarette according to claim 1, wherein

an air passage is provided inside the connecting sleeve;

an outer wall of the connecting sleeve is provided with an air hole for communicating with external air, and the air hole is in communication with the air passage; and

the atomizing chamber of the atomizing seat is in communication with the air passage of the connecting sleeve, and in the case that the user smokes the electronic cigarette, an airflow enters via the air hole and passes through the air passage, the plurality of the atomizing assemblies atomize the cigarette liquid to generate smoke, and the smoke passes through the atomizing chamber and the air passage, and is sucked into the mouth via the suction nozzle.

7. The electronic cigarette according to claim 1, wherein

the atomizing seat is provided with a second threaded portion configured to be threadedly connected to the connecting sleeve;

the connecting sleeve is provided with a first threaded portion configured to cooperate with the second threaded portion, and the first threaded portion is configured to detachably connect the atomizing seat to the connecting sleeve by screw threads; and

the atomizing core is provided with an electrode configured to be electrically connected to the electric heating wires, and the atomizing seat and the connecting sleeve are each made of conductive material, and the atomizing seat is electrically connected to the electric heating wires, an insulating ring is provided between the atomizing seat and the electrode to insulate the electrode from the atomizing seat, and the insulating ring and the atomizing seat are connected by snap fit, and the electrode is snapped into the insulating ring and is configured to electrically connect the atomizing seat and the electrode to the battery rod, to allow the battery rod to provide power to each of the electric heating wires for atomizing the cigarette liquid.

8. The electronic cigarette according to claim 7, wherein

the electric heating wires are electrically connected in parallel, and two ends of each of the electric heating wires are electrically connected to a connection portion of the atomizing seat and the electrode, respectively.

9. The electronic cigarette according to claim 7, wherein

the first threaded portion of the connecting sleeve is provided with a connecting sleeve sealing gasket;

the second threaded portion of the atomizing seat is provided with a sealing gasket and an accommodating groove for accommodating the sealing gasket; and

the sealing gasket and the connecting sleeve sealing gasket are configured to prevent the cigarette liquid from flowing into the atomizing core through a connection portion of the atomizing seat and the connecting sleeve.

10. The electronic cigarette according to claim 1, wherein

the liquid guiding wick is a glass fiber rope; and

the electric heating wires are each made of nickel-chrome alloy.

11. The electronic cigarette according to claim 1, wherein

the suction nozzle assembly is threadedly connected to the connecting sleeve.

12. The electronic cigarette according to claim 1, wherein

the liquid storage sleeve is made of a transparent material.

13. The electronic cigarette according to claim 1, wherein

the electronic cigarette further comprises a decorating part made of metallic material;

the decorating part is detachably connected to the connecting sleeve, and the decorating part is configured to wrap a connection portion of the connecting sleeve and the suction nozzle assembly; and

a concave portion is provided on the liquid storage sleeve at a position close to the connection portion of the connecting sleeve and the suction nozzle assembly, a thickness of the liquid storage sleeve at the concave portion is smaller than a wall thickness of the liquid storage sleeve, and in the case that the decorating part wraps the connection portion of the connecting sleeve and the suction nozzle assembly, the decorating part is accommodated in the concave portion, to allow the electronic cigarette have a smooth appearance.