CN115067560A - Atomizing core cotton rolling tool, atomizing core cotton rolling method and atomizer - Google Patents

Abstract

The application relates to an atomization core cotton rolling tool, a method and an atomizer, wherein the atomization core cotton rolling tool comprises a hollow cylindrical structure with an opening at one end, a narrow slot is axially formed in the side wall, close to the opening end, of the atomization core cotton rolling tool, the narrow slot radially penetrates through the side wall and is communicated with the opening, and the inner surface and the outer surface of the atomization core cotton rolling tool are smooth surfaces; the atomization core cotton rolling method comprises the following steps: sleeving an atomizing core cotton rolling tool outside the glass fiber tube and the atomizing base, wherein the tail end of the oil guide cotton protrudes out of the atomizing core cotton rolling tool through the narrow slot; rotating the atomizing core cotton rolling tool to enable the tail end of the oil guide cotton to surround the outer surface of the atomizing seat; sleeving the oil storage cotton on the outer surface of the atomization core cotton rolling tool; the atomization core cotton rolling tool is drawn out from between the oil storage cotton and the oil guide cotton wound on the surface of the atomization seat, and the atomization core and the oil storage cotton are assembled.

Description

Atomizing core cotton rolling tool, atomizing core cotton rolling method and atomizer

Technical Field

The application relates to the technical field of electronic cigarette production, in particular to an atomization core cotton rolling tool, an atomization core cotton rolling method and an atomizer.

Background

The cigarette bullet of electron cigarette is including the shell, atomizing seat and the atomizing core of establishing of cover in proper order. The upper part of the shell is provided with a cigarette holder, the lower part of the shell is provided with a base, and the base is connected with the cigarette holder through an atomizing base. The atomizing core is positioned inside the atomizing seat. The atomizing seat is provided with an oil inlet, the side wall of the shell, the base and the atomizing seat form an oil storage bin, oil storage cotton is arranged in the oil storage bin, and the oil storage cotton is filled with tobacco tar. The atomizing core includes heater and leads oily cotton, and the heater is net sheet form or heliciform, leads oily cotton cladding in the heater outside. The outer side of the oil guide cotton is abutted against the inner wall of the atomizing base, and the tobacco tar in the oil storage cotton flows to the atomizing core through the oil inlet hole. The heater intercommunication power, circular telegram heater produce the heat and will lead the oil cotton adsorbed tobacco tar heating atomization, and the outside air upwards flows from the inlet port of base, through the atomizing core, upwards takes away the aerosol that the atomizing formed, flows from the cigarette holder.

Along with the use of the tobacco tar and the gradual reduction of the tobacco tar in the oil storage cotton, the tobacco tar which can be absorbed by the oil guide cotton is limited, and the tobacco tar left at the lower part of the oil storage cotton is difficult to be completely absorbed by the oil storage cotton. In addition, in order to solve the problems, an oil inlet hole is formed upwards from the lower surface of the atomizing base, after the oil guide cotton is coated with the heating wire, the end part of the oil guide cotton is remained in the oil inlet hole, the flaky oil guide cotton is coated outside the atomizing base in a bending and winding mode of a human hand, for example, the flaky oil guide cotton is wound for 1.5 circles, 2 circles and 3 circles, then the atomizing base is plugged into the hollow oil storage cotton, and the assembly of the atomizing base and the oil storage cotton is completed.

However, the following problems are involved in the assembly process:

1. because the oil guide cotton is wound on the outer side of the atomizing base by hands, the position between each layer of oil guide cotton is not fixed, the atomizing base is vertically placed, and three layers of oil guide cotton are wound outside the atomizing base for illustration, the innermost oil guide cotton, the middle oil guide cotton and the outer oil guide cotton are difficult to completely coincide in the up-down direction, and deviation exists in the up-down direction. In the winding process, the tightness of each layer of oil guide cotton is different due to different hand force. When different people wind, the tightness of the oil-guiding cotton roll is different.

2. When the atomizing seat assembled hollow oil storage cotton, the cotton hollow position of oil storage formed the passageway, and there was frictional force the inner wall of passageway with the oil cotton of leading that is located the atomizing seat outer wall for in the assembly process the cladding is in disorder at the oil cotton position of leading of atomizing seat in the up-down direction, leads to leading the oil cotton inside, middle and outer three-layer position deviation in the up-down direction to further increase. Moreover, if the gap between the channel and the oil guide cotton is too small, the oil guide cotton is pushed by the oil storage cotton in the up-down direction, and the atomizing core is pulled to leave the originally positioned position, so that the product is poor.

Disclosure of Invention

Based on this, it is necessary to provide an atomizing core cotton winding tool, an atomizing core cotton winding method and an atomizer, aiming at solving the problem of inconvenient assembly of the atomizing core cotton guide in the prior art.

In a first aspect, the present application provides an atomizing core cotton rolling tool, atomizing core cotton rolling tool includes one end open-ended cavity tubular structure, atomizing core cotton rolling tool is close to the slot has been seted up along the axial to the lateral wall of open end, the slot radially runs through the lateral wall just the slot with the opening intercommunication, atomizing core cotton rolling tool's interior external surface is smooth surface.

In one embodiment, the number of the slots is two, the two slots are symmetrically arranged along the central axis of the hollow cylindrical structure, one end of the hollow cylindrical structure close to the opening is a mounting end, one end far away from the opening is an insertion end, the radius of the insertion end is smaller than that of the mounting end, and the insertion end and the mounting end are in smooth transition.

In a second aspect, the present application further provides an atomizing core cotton rolling method, the atomizing core cotton rolling method is applied to the atomizing core cotton rolling tool as above, and is used for assembling the atomizing core to the inside of the oil storage cotton along the axial direction, the atomizing core includes the heating member and leads the oil cotton, it is the lamellar structure to lead the oil cotton, it is convoluteed by head end to tail end successive layer to lead the oil cotton add the free end that heating member surface and tail end set up for the activity, the atomizing core is installed inside hollow atomizing seat, the one end of atomizing seat is fixed in lower sealing member, the atomizing seat is kept away from the other end of lower sealing member is equipped with the entry, the lateral wall of atomizing seat be equipped with the fluting of entry intercommunication, the tail end of leading the oil cotton by fluting salient in the outside of atomizing seat. The atomization core cotton rolling method comprises the following steps: the glass fiber tube is arranged at one end, far away from the lower sealing element, of the atomizing base, the hollow cylindrical structure is sleeved outside the glass fiber tube and the atomizing base, and the tail end of the oil guide cotton protrudes out of the hollow cylindrical structure through the slot; rotating the hollow cylindrical structure, wherein the inner wall of the slot pushes the oil guide cotton to be wrapped around the atomizing seat, so that the tail end of the oil guide cotton surrounds the outer surface of the atomizing seat in multiple layers; the oil storage cotton is internally provided with a hollow channel which is arranged along the axial direction, the oil storage cotton is arranged from the insertion end of the hollow cylindrical structure, the outer surface of the hollow cylindrical structure is abutted against the inner wall of the hollow channel, so that the oil storage cotton is sleeved on the outer surface of the hollow cylindrical structure, and then the oil storage cotton is pushed to abut against the lower sealing element; and drawing out the hollow cylindrical structure from the oil storage cotton and the oil guide cotton wound on the surface of the atomizing seat, so that the inner wall of the hollow channel is abutted to the multilayer oil guide cotton and the glass fiber tube, which surround the outer surface of the atomizing seat.

In one embodiment, after the hollow cylindrical structure is drawn out from between the oil storage cotton and the oil guide cotton wound on the surface of the atomizing seat, so that the inner wall of the hollow channel is abutted against the multiple layers of oil guide cotton and the glass fiber tube wound on the outer surface of the atomizing seat, the atomizing core cotton winding method further comprises the following steps: and installing an upper sealing element at one end of the oil storage cotton, which is far away from the lower sealing element.

In one embodiment, the oil storage cotton is arranged inside the casing, when the upper sealing element is arranged at one end, far away from the lower sealing element, of the oil storage cotton, the upper sealing element is abutted against the oil storage cotton, and the upper sealing element is connected with the casing.

In one embodiment, the hollow cylindrical structure is rotated, the inner wall of the slot pushes the oil guide cotton to wrap around the atomizing base, so that the tail end of the oil guide cotton surrounds the outer surface of the atomizing base in multiple layers, the oil guide cotton is completely located inside the atomizing core cotton winding tool, and the tail end of the oil guide cotton surrounds the outer surface of the atomizing base in multiple layers.

In one embodiment, the oil storage cotton is arranged inside the casing, and when the oil storage cotton abuts against the lower sealing element, the casing abuts against the outer edge of the lower sealing element.

In one embodiment, an oil inlet is further formed in the side wall of the atomizing base, the hollow cylindrical structure is rotated, the inner wall of the narrow slot pushes the oil guide cotton to be wrapped around the atomizing base, so that the tail end of the oil guide cotton surrounds the outer surface of the atomizing base in multiple layers, and the oil inlet and the open slot are both wrapped inside the oil guide cotton.

In one embodiment, before the step of installing the glass fiber tube at an end of the atomizing base far away from the lower sealing member, sleeving the hollow cylindrical structure outside the glass fiber tube and the atomizing base, and protruding the tail end of the oil guide cotton outside the hollow cylindrical structure through the slot, the atomizing core cotton rolling method further comprises the following steps: the atomizing base is connected to the lower sealing piece at one end; when the atomization core is placed in the atomization seat, the tail end of the oil guide cotton protrudes out of the atomization seat through the groove.

The third aspect, this application still provides an atomizer, adopts to make like above-mentioned atomizing core roll up cotton method, the atomizer includes cover shell, upper seal spare, lower sealing member, atomizing seat, glass fiber pipe, atomizing core, battery pack and oil storage cotton, the atomizing core is including heating member and oil guide cotton, oil storage cotton with encircle the multilayer between the atomizing seat oil guide cotton to the messenger is located the liquid flow in the oil storage cotton is to oil guide cotton, heating member is connected battery pack, in order to heat the atomizing liquid in the oil guide cotton.

The beneficial effect of this application lies in:

among the above-mentioned scheme, be equipped with the slot through the lateral wall at atomizing core roll cotton instrument to make rotatory atomizing core roll cotton instrument, lead the cotton tail end of oil can the successive layer winding on the surface of atomizing seat, adopt atomizing core roll cotton instrument to realize leading the cotton successive layer winding of oil on the surface of atomizing seat, get rid of the interference of human factor, make the product work and unify, be convenient for mechanized operation, batch operation guarantee the unity of whole product. Still roll up cotton instrument through the core that will atomize and all establish to smooth surface for the interior external surface, avoid the core that atomizes to roll up cotton instrument and drive the oil storage cotton and lead the oil cotton and remove at axial direction and lead to the product bad. In the atomization core cotton rolling method, the atomization core cotton rolling tool is adopted to roll and wrap the oil cotton, so that the interference of human factors is eliminated, the work of the product is unified, and the unification of the whole product is ensured. In addition, in the assembly stage, the oil storage cotton is not in contact with the oil guide cotton, so that the looseness of the oil guide cotton is avoided. After the oil storage cotton is assembled, the atomizing core cotton rolling tool is drawn out, and the deformation of the oil storage cotton and the oil guide cotton caused by the friction force between the oil storage cotton and the glass fiber tube and between the oil storage cotton and the oil guide cotton is avoided. Simultaneously, the cotton instrument is rolled up to atomizing core can also play the guide effect in assembling process.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application.

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural view of an atomizing core cotton rolling tool according to an embodiment of the present application;

FIG. 2 is a diagram illustrating a first step of an atomized core cotton winding method according to an embodiment of the present disclosure;

FIG. 3 is a diagram illustrating a second step of an atomized core cotton rolling method according to an embodiment of the present disclosure;

FIG. 4 is a diagram of a third step of an atomized core cotton winding method according to an embodiment of the present disclosure;

FIG. 5 is a diagram illustrating a fourth step of an atomized core cotton rolling method according to an embodiment of the present application;

FIG. 6 is a diagram illustrating a fifth step of an atomized core cotton winding method according to an embodiment of the present disclosure;

FIG. 7 is a schematic cross-sectional view of FIG. 6;

FIG. 8 is a schematic side sectional view of the atomizing core cotton rolling tool of FIG. 7 after rotation;

FIG. 9 is a schematic top-down view of the atomizing core cotton rolling tool of FIG. 7 after rotation;

FIG. 10 is a diagram illustrating a sixth step of an atomized core cotton winding process according to an embodiment of the present disclosure;

FIG. 11 is a diagram illustrating a seventh step of an atomized wick winding method according to an embodiment of the present disclosure;

FIG. 12 is a diagram illustrating an eighth step of a method for winding atomized cotton;

FIG. 13 is a schematic cross-sectional view of FIG. 12;

FIG. 14 is a diagram illustrating a ninth step of a method for winding atomized core cotton according to an embodiment of the present application;

fig. 15 is a schematic cross-sectional view of fig. 14.

Description of reference numerals:

100. an atomizing core cotton winding tool; 110. an opening; 120. a slot; 130. an installation end; 140. an insertion end; 200. an atomizing core; 210. a heating member; 220. oil guide cotton; 300. oil storage cotton; 400. a lower seal member; 500. an upper seal member; 600. a glass fiber tube; 700. an atomizing base; 710. an inlet; 720. grooving; 730. an oil inlet hole; 800. a case.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of embodiment in many different forms than those described herein and those skilled in the art will be able to make similar modifications without departing from the spirit of the application and therefore the application is not limited to the embodiments disclosed below.

Preferred embodiments of the present application will be described below with reference to the accompanying drawings. Referring to fig. 1, an atomizing core cotton rolling tool 100 is shown for an embodiment of the present application, which is used for axially assembling an atomizing core 200 inside an oil storage cotton 300 in an assembling process of an electronic cigarette cartridge. As shown in fig. 2 to 15, the present application further provides an atomizing core cotton rolling method, which is applied to axially assembling the atomizing core 200 inside the oil storage cotton 300, and employs the atomizing core cotton rolling tool 100 as described above. As shown in fig. 14 and 15, the present application further provides an atomizer, which is manufactured by the above atomization core cotton rolling method, and further comprises a battery assembly (not shown in the figure), wherein the atomization core 200 is connected to the battery assembly to heat and atomize the liquid (tobacco tar) in the oil storage cotton 300 and the oil guide cotton 220 to generate aerosol.

As shown in fig. 15, the atomizer includes a casing 800 and an oil-storing cotton 300, which are sequentially sleeved from outside to inside, the casing 800 is an outer shell of the cartridge, and the oil-storing cotton 300 is installed inside the casing 800 for storing the tobacco tar. The two ends of the oil storing cotton 300 are respectively provided with an upper sealing member 500 and a lower sealing member 400 to prevent the smoke oil from flowing out. The oil storage cotton 300 is provided with a hollow channel arranged along the axial direction, and the hollow channel is used for assembling the atomizing core 200. The atomizing wick 200 is used to heat the atomized tobacco tar to generate an aerosol for smoking. An atomizing base 700 is arranged between the atomizing core 200 and the oil storage cotton 300, the atomizing base 700 is used for positioning the atomizing core 200, and a glass fiber tube 600 for guiding oil is arranged between the atomizing base 700 and the upper sealing element 500. The upper sealing piece 500 and the lower sealing piece 400 are provided with channels which are coaxial with the hollow channel so as to communicate the inside and the outside of the cartridge, so that the airflow enters the cartridge from the lower sealing piece 400, and then the aerosol generated by the atomization of the mixing atomization core 200 flows to the outside of the cartridge from the upper sealing piece 500.

According to some embodiments of the present application, optionally, the upper sealing member 500 and the lower sealing member 400 are both made of rubber material, and in this embodiment, the upper sealing member 500 and the lower sealing member 400 are both made of silicone material. In other embodiments, other rubber materials may be used for the upper seal 500 and the lower seal 400.

Referring to fig. 2 to 15, the atomizing core 200 includes a heating element 210 and an oil guide cotton 220, the heating element 210 is used for connecting with the battery assembly, and heats the tobacco tar in the atomizing oil guide cotton 220 after being electrified to generate aerosol. The oil guide cotton 220 is used for absorbing the tobacco tar in the oil storage cotton 300, so that the tobacco tar is positioned at the periphery of the heating element 210. The oil guide cotton 220 is wound on the surface of the heating element 210 layer by layer from the head end to the tail end, and the tail end of the oil guide cotton 220 is movably arranged to surround the surface of the atomizing base 700 through the atomizing core cotton winding tool 100.

As shown in fig. 2, an inlet 710 is disposed at an end of the atomizing base 700 away from the lower sealing member 400, and a slot 720 communicating with the inlet 710 is disposed on a sidewall of the atomizing base 700, so that when the atomizing core 200 is placed inside the atomizing base 700, a tail end of the oil guide 220 can protrude from the atomizing base 700 through the slot 720. Optionally, an oil inlet 730 is further opened on the sidewall of the atomizing base 700, and the tobacco tar in the oil storage cotton 300 flows to the atomizing core 200 through the oil inlet 730.

As shown in fig. 1, the atomizing core cotton rolling tool 100 includes a hollow cylindrical structure with an opening 110 at one end, in the present embodiment, the atomizing core cotton rolling tool 100 includes only the hollow cylindrical structure, and in other embodiments, the atomizing core cotton rolling tool 100 may further include a handle or the like connected to the hollow cylindrical structure. For ease of description, the atomizing core cotton rolling tool 100 is referred to hereinafter as a hollow cylinder.

As shown in fig. 1, a slot 120 is axially opened on a side wall of the atomizing core cotton rolling tool 100 near an end of the opening 110, the slot 120 radially penetrates through the side wall and the slot 120 is communicated with the opening 110, the slot 120 is used for a tail end of the oil cotton 220 to pass through to protrude out of the atomizing core cotton rolling tool 100, so that the tail end of the oil cotton 220 can be wound on the surface of the atomizing base 700 layer by rotating the atomizing core cotton rolling tool 100.

The inner surface and the outer surface of the atomizing core cotton rolling tool 100 are both smooth surfaces, so that the friction force between the atomizing core cotton rolling tool 100 and the oil guide cotton 220 and between the atomizing core cotton rolling tool 100 and the oil storage cotton 300 is reduced, the tail end of the oil guide cotton 220 can be wound on the surface of the atomizing base 700 layer by layer, and then the atomizing core cotton rolling tool 100 is drawn out from between the oil storage cotton 300 and the oil guide cotton 220 wound on the surface of the atomizing base 700. Because the friction between the atomizing core cotton rolling tool 100 and the oil guide cotton 220 and between the atomizing core cotton rolling tool 100 and the oil storage cotton 300 are small, when the atomizing core cotton rolling tool 100 is drawn out from between the oil storage cotton 300 and the oil guide cotton 220 wound on the surface of the atomizing base 700, the friction to the oil storage cotton 300 and the oil guide cotton 220 in the axial direction is small, so that the atomizing core cotton rolling tool 100 is prevented from driving the oil storage cotton 300 and the oil guide cotton 220 to move in the axial direction to cause poor products.

When the atomizing core cotton rolling tool 100 is used for rolling cotton, the atomizing base 700 is connected to the lower sealing member 400, and the tail end of the oil guide cotton 220 protrudes out of the atomizing base 700 from the slot 720 when the atomizing core 200 is placed in the atomizing base 700. The glass fiber tube 600 is sleeved on the periphery of the top end of the atomizing base 700, the atomizing core cotton rolling tool 100 is sleeved outside the glass fiber tube 600 and the atomizing base 700, and the tail end of the oil guide cotton 220 protrudes out of the atomizing core cotton rolling tool 100 through the slot 120. The atomizing core cotton rolling tool 100 is rotated, and the oil cotton 220 is gradually wound on the outer surface of the atomizing base 700 layer by layer. After the atomizing core cotton rolling tool 100 is drawn out from between the oil storage cotton 300 and the oil guide cotton 220 wound on the surface of the atomizing base 700, the upper sealing element 500 is installed at one end of the oil storage cotton 300 far away from the lower sealing element 400, and then the assembly of the atomizing core 200 and the oil storage cotton 300 can be completed.

In the above scheme, the slot 120 is arranged on the side wall of the atomizing core cotton rolling tool 100, so that the atomizing core cotton rolling tool 100 can rotate, the tail end of the oil guide cotton 220 can be wound on the surface of the atomizing base 700 layer by layer, the atomizing core cotton rolling tool 100 is adopted to realize that the oil guide cotton 220 is wound on the surface of the atomizing base 700 layer by layer, interference of human factors is eliminated, the work of products is unified, the mechanical operation and the batch operation are facilitated, and the unification of the whole products is ensured. Still set up the inside and outside surface of atomizing core roll cotton instrument 100 into smooth surface, avoid atomizing core roll cotton instrument 100 to drive oil storage cotton 300 and lead oil cotton 220 and remove in the axial direction and lead to the product bad.

As shown in fig. 9, according to some embodiments of the present application, optionally, the number of the slots 120 is two, two slots 120 are symmetrically disposed along the central axis of the atomizing core cotton rolling tool 100, and two slots 120 can reduce the production cost, and at this time, the tail end of the oil guide cotton 220 can protrude from the atomizing core cotton rolling tool 100 through any one of the slots 120. Alternatively, the number of the slots 120 may be one, and when a single slot 120 is used, the tail end of the oil guide cotton 220 can protrude from the slot 120 to the outside of the atomizing core cotton rolling tool 100.

As shown in fig. 1, according to some embodiments of the present application, optionally, the end of the atomizing core cotton rolling tool 100 close to the opening 110 is a mounting end 130, the end far away from the opening 110 is an insertion end 140, and the mounting end 130 is used for fixing the tail end of the oil cotton guide 220 and driving the oil cotton guide 220 to wind on the surface of the atomizing base 700. The oil cotton 300 is sleeved on the outer surface of the atomizing core cotton rolling tool 100 by the insertion end 140, the radius of the insertion end 140 is smaller than that of the installation end 130, and the insertion end 140 and the installation end 130 are in smooth transition.

Referring to fig. 2 to 15, the atomizing core cotton winding method includes the following steps:

s01: as shown in fig. 2 and 3, is attached to the lower seal 400 at one end of the atomizing base 700. The other end of the atomizing base 700 away from the lower sealing member 400 is provided with an inlet 710, and the inlet 710 is used for placing the atomizing core 200 into the atomizing base 700. The side wall of the atomizing base 700 is provided with a slot 720 communicating with the inlet 710.

S02: when the atomizing core 200 is placed inside the atomizing base 700, the tail end of the oil guide cotton 220 protrudes out of the atomizing base 700 through the slot 720.

As shown in fig. 2 and 3, according to some embodiments of the present application, the oil cotton 220 is optionally a sheet-like structure.

S03: as shown in fig. 4 to 6, a glass fiber tube 600 is installed at an end of the atomizing base 700 away from the lower sealing member 400, and as shown in fig. 4, the glass fiber tube 600 is sleeved on an outer periphery of a top end of the atomizing base 700. The atomizing core cotton rolling tool 100 is sleeved outside the glass fiber tube 600 and the atomizing base 700, and the tail end of the oil guide cotton 220 protrudes out of the atomizing core cotton rolling tool 100 through the slot 120.

S04: as shown in fig. 7 to 9, when the atomizing core-winding tool 100 is rotated, the inner wall of the slot 120 pushes the oil-guiding cotton 220 to wind around the atomizing base 700, so that the tail end of the oil-guiding cotton 220 surrounds the outer surface of the atomizing base 700 in multiple layers. Comparing fig. 7 and fig. 8, there are schematic cross-sectional views before the rotary atomizing core winding tool 100 and after the rotary atomizing core winding tool 100, respectively. As shown in fig. 7, there is no oil wool 220 between the atomizing base 700 and the atomizing core cotton rolling tool 100 before the atomizing core cotton rolling tool 100 is rotated. Because the head end of the oil cotton 220 is wound on the periphery of the heating element 210, the atomizing base 700 fixes the heating element 210 and the oil cotton 220 wound on the periphery of the heating element 210 relative to the lower sealing element 400, and when the atomizing core cotton winding tool 100 rotates, the oil cotton 220 is gradually wound on the outer surface of the atomizing base 700 layer by layer. So that when the atomizing core cotton rolling tool 100 is rotated, as shown in fig. 8, the oil cotton 220 is wound between the outer surface of the atomizing base 700 and the inner surface of the atomizing core cotton rolling tool 100.

An oil inlet 730 is further formed in the side wall of the atomizing base 700, and when the atomizing core cotton winding tool 100 is rotated and the inner wall of the slot 120 pushes the oil guide cotton 220 to wind around the atomizing base 700, the oil inlet 730 and the slot 720 are both wrapped inside the oil guide cotton 220.

Optionally, after the atomizing core cotton rolling tool 100 is rotated, the oil cotton 220 is entirely located inside the atomizing core cotton rolling tool 100 and the tail end of the oil cotton surrounds the outer surface of the atomizing base 700. At this time, the oil cotton sleeve is arranged on the outer surface of the atomizing core cotton rolling tool 100, the oil cotton 300 and the oil cotton 220 are not in contact with each other, relative friction does not exist, and the oil cotton 220 is prevented from influencing the installation of the oil cotton 300.

S05: as shown in fig. 10 and 11, a hollow channel is axially disposed inside the oil cotton 300, the oil cotton 300 is inserted from the insertion end 140 of the atomizing core cotton rolling tool 100, the outer surface of the atomizing core cotton rolling tool 100 abuts against the inner wall of the hollow channel, so as to sleeve the oil cotton 300 on the outer surface of the atomizing core cotton rolling tool 100, and then the oil cotton 300 is pushed until the oil cotton 300 abuts against the lower sealing member 400. Because the outer surface of the atomizing core cotton rolling tool 100 is a smooth surface, when the oil storage cotton 300 is sleeved on the outer surface of the atomizing core cotton rolling tool 100, the friction force is small, and the deformation of the oil storage cotton 300 in the installation process due to the friction force between the oil storage cotton 300 and the atomizing core cotton rolling tool 100 is avoided. As shown in fig. 10 and 11, the oil cotton 300 is sleeved on the outer surface of the atomizing core cotton rolling tool 100 by the insertion end 140.

As shown in fig. 13, according to some embodiments of the present application, optionally, the oil cotton 300 is disposed inside the casing 800, when the oil cotton 300 is sleeved on the outer surface of the atomizing core cotton rolling tool 100, one end of the casing 800 is connected to the lower seal 400, and the oil cotton 300 abuts against the lower seal 400.

S06: as shown in fig. 12 and 13, the atomizing core cotton winding tool 100 is drawn out from between the oil cotton 300 and the oil cotton 220 wound on the surface of the atomizing base 700, so that the inner wall of the hollow channel abuts against the multiple layers of oil cotton 220 and the glass fiber tube 600 surrounding the surface of the atomizing base 700. At this moment, because the outer surface of the atomizing core cotton rolling tool 100 is a smooth surface, in the process of drawing the atomizing core cotton rolling tool 100 out, the friction force between the outer surface of the atomizing core cotton rolling tool 100 and the oil storage cotton 300 is small, and the phenomenon that the atomizing core cotton rolling tool 100 drives the oil storage cotton 300 to move in the axial direction to cause the product to be bad is avoided. Meanwhile, because the inner surface of the atomizing core cotton winding tool 100 is also a smooth surface, in the process of drawing the atomizing core cotton winding tool 100 out, the friction force between the inner surface of the atomizing core cotton winding tool 100 and the oil guide cotton 220 wound on the surface of the atomizing base 700 is small, and the phenomenon that the atomizing core cotton winding tool 100 drives the oil guide cotton 220 to move in the axial direction to cause bad products is avoided.

Because the oil storage cotton 300 and the oil guide cotton 220 both have elasticity, after the atomizing core cotton rolling tool 100 is drawn out from between the oil storage cotton 300 and the oil guide cotton 220 wound on the surface of the atomizing base 700, the oil guide cotton 220 wound on the outer surface of the atomizing base 700 is abutted against the oil storage cotton 300, and the oil storage cotton 300 is also abutted against the glass fiber tube 600.

S07: as shown in fig. 14 and 15, the upper sealing member 500 is installed at an end of the oil storage cotton 300 far from the lower sealing member 400 to seal the oil storage cotton 300, so as to prevent the tobacco tar in the oil storage cotton 300 from flowing out of the electronic cigarette cartridge, and thus the assembly of the atomizing core 200 and the oil storage cotton 300 is completed. According to some embodiments of the present application, optionally, when the upper seal 500 is installed at an end of the oil cotton 300 far from the lower seal 400, the upper seal 500 abuts against the oil cotton 300, and the upper seal 500 is connected with the casing 800.

In the atomization core cotton rolling method, the atomization core cotton rolling tool 100 is adopted to roll and wrap the oil guide cotton 220, so that the interference of human factors is eliminated, the work of the product is unified, and the unification of the whole product is ensured. In addition, the oil cotton 300 is not contacted with the oil cotton 220 in the assembling stage, so that the oil cotton 220 is prevented from loosening. After the oil storage cotton 300 is assembled, the atomizing core cotton rolling tool 100 is drawn out, so that the oil storage cotton 300 and the oil guide cotton 220 are prevented from being deformed due to friction between the oil storage cotton 300 and the glass fiber tube 600 and between the oil storage cotton 300 and the oil guide cotton 220. Meanwhile, the atomizing core cotton rolling tool 100 can also play a guiding role in the assembling process.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and are not limited thereto; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may be modified, or some or all of the technical features may be equivalently replaced; these modifications and substitutions do not cause the corresponding technical solutions to depart from the scope of the technical solutions of the embodiments of the present application, and are intended to be covered by the claims and the specification of the present application. In particular, the features mentioned in the embodiments can be combined in any manner, as long as no structural conflict exists. This application is not intended to be limited to the particular embodiments disclosed herein but is to cover all embodiments that may fall within the scope of the appended claims.

Claims (10)

1. The utility model provides an atomizing core rolls up cotton instrument, its characterized in that, atomizing core rolls up cotton instrument and includes one end open-ended cavity tubular structure, atomizing core rolls up cotton instrument and is close to the slot has been seted up along the axial to the lateral wall of open end, the slot radially runs through the lateral wall, just the slot with the opening intercommunication, atomizing core rolls up the interior external surface of cotton instrument and is smooth surface.

2. The atomizing core cotton rolling tool according to claim 1, wherein the number of the slots is two, the two slots are symmetrically arranged along a central axis of the hollow cylindrical structure, one end of the hollow cylindrical structure close to the opening is a mounting end, one end of the hollow cylindrical structure far away from the opening is an insertion end, the radius of the insertion end is smaller than that of the mounting end, and the insertion end and the mounting end are in smooth transition.

3. An atomization core cotton rolling method is applied to the atomization core cotton rolling tool as claimed in any one of claims 1 to 2, and is used for axially assembling an atomization core into oil storage cotton, the atomization core comprises a heating element and oil guide cotton, the oil guide cotton is of a sheet structure, the oil guide cotton is wound on the surface of the heating element layer by layer from a head end to a tail end, the tail end is a free end which is movably arranged, the atomization core is installed in a hollow atomization seat, one end of the atomization seat is fixed to a lower sealing element, the other end of the atomization seat, which is far away from the lower sealing element, is provided with an inlet, the side wall of the atomization seat is provided with a slot communicated with the inlet, and the tail end of the oil guide cotton protrudes out of the atomization seat through the slot;

the atomization core cotton rolling method comprises the following steps:

the glass fiber tube is arranged at one end, far away from the lower sealing element, of the atomizing base, the hollow cylindrical structure is sleeved outside the glass fiber tube and the atomizing base, and the tail end of the oil guide cotton protrudes out of the hollow cylindrical structure through the slot;

rotating the hollow cylindrical structure, wherein the inner wall of the slot pushes the oil guide cotton to be wrapped around the atomizing seat, so that the tail end of the oil guide cotton surrounds the outer surface of the atomizing seat in multiple layers;

the oil storage cotton is internally provided with a hollow channel which is arranged along the axial direction, the oil storage cotton is arranged from the insertion end of the hollow cylindrical structure, the outer surface of the hollow cylindrical structure is abutted against the inner wall of the hollow channel, so that the oil storage cotton is sleeved on the outer surface of the hollow cylindrical structure, and then the oil storage cotton is pushed to abut against the lower sealing element;

and drawing out the hollow cylindrical structure from the oil storage cotton and the oil guide cotton wound on the surface of the atomizing seat, so that the inner wall of the hollow channel is abutted to the multilayer oil guide cotton and the glass fiber tube, which surround the outer surface of the atomizing seat.

4. The atomized core cotton winding method according to claim 3, wherein after the hollow cylindrical structure is drawn out from between the oil-storing cotton and the oil-guiding cotton wound on the surface of the atomizing base so that the inner wall of the hollow channel abuts against the plurality of layers of oil-guiding cotton and the glass fiber tube surrounding the outer surface of the atomizing base, the atomized core cotton winding method further comprises the following steps:

and installing an upper sealing element at one end of the oil storage cotton, which is far away from the lower sealing element.

5. The atomization core cotton rolling method according to claim 4, wherein the oil storage cotton is mounted inside a casing, when the upper sealing piece is mounted at one end of the oil storage cotton, which is far away from the lower sealing piece, the upper sealing piece is abutted against the oil storage cotton, and the upper sealing piece is connected with the casing.

6. The atomizing core cotton rolling method according to claim 3, characterized in that the hollow cylindrical structure is rotated, the inner wall of the slot pushes the oil guide cotton to be rolled around the atomizing base, so that the tail end of the oil guide cotton surrounds the outer surface of the atomizing base in multiple layers, the oil guide cotton is entirely located inside the atomizing core cotton rolling tool, and the tail end of the oil guide cotton surrounds the outer surface of the atomizing base in multiple layers.

7. The atomizing core cotton rolling method according to claim 3, wherein the oil storage cotton is installed inside a casing, and when the oil storage cotton abuts against the lower sealing piece, the casing abuts against the outer edge of the lower sealing piece.

8. The atomization core cotton rolling method according to claim 3, wherein an oil inlet is further formed in the side wall of the atomization seat, the hollow cylindrical structure is rotated, the inner wall of the slot pushes the oil guide cotton to be rolled around the atomization seat, so that the tail end of the oil guide cotton surrounds the outer surface of the atomization seat in multiple layers, and the oil inlet and the groove are both coated inside the oil guide cotton.

9. The atomization core cotton rolling method according to claim 3, wherein before the step of installing the glass fiber tube at an end of the atomization seat far away from the lower sealing member, sleeving the hollow cylindrical structure outside the glass fiber tube and the atomization seat, and protruding the tail end of the oil guide cotton outside the hollow cylindrical structure through the slot, the atomization core cotton rolling method further comprises the following steps:

the atomizing seat is connected to the lower sealing piece at one end of the atomizing seat;

when the atomization core is placed in the atomization seat, the tail end of the oil guide cotton protrudes out of the atomization seat through the groove.

10. An atomizer, characterized in that, it is made by the method of any one of claims 3 to 9, the atomizer comprises a jacket, an upper sealing member, a lower sealing member, an atomizing base, a glass fiber tube, an atomizing core, a battery assembly and an oil-storing cotton, the atomizing core comprises a heating element and an oil-guiding cotton, a plurality of layers of the oil-guiding cotton are surrounded between the oil-storing cotton and the atomizing base, so that the liquid in the oil-storing cotton flows to the oil-guiding cotton, and the heating element is connected with the battery assembly to heat and atomize the liquid in the oil-guiding cotton.

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