WO2016065521A1

WO2016065521A1 - Method for forming electronic cigarette heat-generating element, vaporization assembly and method for manufacturing same, and electronic cigarette

Info

Publication number: WO2016065521A1
Application number: PCT/CN2014/089607
Authority: WO
Inventors: 向智勇
Original assignee: 惠州市吉瑞科技有限公司
Priority date: 2014-10-27
Filing date: 2014-10-27
Publication date: 2016-05-06

Abstract

Provided are a method for forming an electronic cigarette heat-generating element, a vaporization assembly and method for manufacturing same, and an electronic cigarette; the method for forming the electronic cigarette heat-generating element comprises the following steps: a heating wire (60) made using a metal material is wound into a heating wire coil; the heating wire coil is divided into zones, and the zones comprise several heating sections (62) used for vaporizing e-cigarette liquid, and several connecting sections (61) used for connecting an electronic cigarette power supply; the heating sections (62) are arranged at intervals and are connected by means of the connecting sections (61); the free end of the heating wire extending from the heating wire coil is fed in a first preset direction; on the path of delivery of the heating wire, an adhesive layer (2) having a resistance lower than the resistance of the heating wire (60) is adhered to the outer surface of the connecting section (61); the heating wire coil provided with the adhesive layer (2) is cut. The resulting heat-generating element has no residual harmful substances and is healthier; moreover, the process of formation of the heat-generating element may be fully automated and carried out continuously, improving production efficiency; at the same time, the heat-generating element or vaporization assembly manufactured has a more stable resistance, and product quality is higher.

Description

Method for forming electronic cigarette heating element, atomizing assembly and manufacturing method thereof, and electronic cigarette

Technical field

The present invention relates to the field of smoking articles, and more particularly to a method of forming an electronic cigarette heating element, an atomizing assembly, a method of manufacturing the same, and an electronic cigarette.

Background technique

The heating element of the electronic cigarette includes a heating section and a connecting section, wherein the connecting section is usually a copper wire for electrically connecting to the driving circuit and electrically connected to the power source through the driving circuit, or directly connected to the power source through the copper wire; The segment is generally made of high-resistance alloy heating elements (such as nickel-chromium alloy wire, iron-chromium-aluminum alloy, constantan alloy, etc.), and the heating section energizes to atomize the smoke liquid, which produces a smoke effect. The connecting section of the heating element and the heating section are usually connected by a welding or riveting process, so that the manufacturing process of the heating element is complicated, and the resistance of the heating element mass-produced by welding or riveting process is unstable; and, the welding process is used. The heating element has a solder joint which is easily oxidized and has a large contact resistance at the solder joint.

In the new heating element production process, the heating section and the connecting section of the heating element are integrally formed from the metal material, and then an adhesion layer is formed on the connecting section of the single heating element by an electroplating process to increase the structural strength of the connecting section, The heat generation of the connecting section is reduced to facilitate driving and facilitating connection of the connecting section to the driving circuit through the plating layer, thereby avoiding various defects caused by the soldering process. However, the use of electroplating process to form an adhesive layer on the connecting section has the following defects: 1. The chemical reaction generates harmful substances during the electroplating process, which jeopardizes the health of the user; 2. The industrial plating is unstable, and the thickness may be inconsistent. Baking will cause electroplating and so on, resulting in uneven product quality; 3, using more electroplating processes, taking longer time, is not conducive to industrial production.

Summary of the invention

The technical problem to be solved by the present invention is to provide a safe and efficient method of forming an electronic cigarette heating element in view of the above-mentioned drawbacks of the prior art.

Another object of the present invention is to provide a safe and efficient method of manufacturing an electronic aerosolizing assembly.

Another object of the present invention is to provide an electronic aerosolizing assembly produced by the above manufacturing method.

Another object of the present invention is to provide an electronic cigarette comprising the above electronic aerosolization assembly.

The technical solution adopted by the present invention to solve the technical problem thereof is:

Constructing a method for forming an electronic cigarette heat generating component, comprising the steps of:

A. A heating wire made of a metal material is wound into a heating wire roll, and the heating wire roll is divided into regions, wherein the area includes a plurality of heating segments for atomizing the smoke oil and a plurality of wires for connecting the electronic cigarettes. a connecting section of the power source, the heating sections are spaced apart and connected by the connecting section;

B. conveying a free end of the heating wire extending from the heating wire coil in a first preset direction;

C. adhering an adhesion layer having a resistivity lower than a resistivity of the heating wire to an outer surface of the connecting segment on a conveying path of the heating wire;

D, Cutting the heating wire roll after the adhesive layer is disposed, and cutting each time to obtain a heating element unit, each of the heating element units including a heating section and a connection at both ends of the heating section segment.

The forming method of the present invention, wherein the step C Specifically, the method comprises the steps of: coating the outer surface of the connecting section with a metal powder, and the metal powder adheres to an outer surface of the connecting section to form the adhesive layer.

The forming method of the present invention, wherein the step C Specifically, the method comprises the steps of: coating a conductive paint on an outer surface of the connecting segment, the conductive paint adhering to an outer surface of the connecting segment to form the adhesive layer.

The forming method of the present invention, wherein the step C Specifically comprising the steps of: immersing the connecting section into a molten metal liquid by a hot dip plating process, forming a metal adhesion layer on an outer surface of the connecting section;

The metal adhesion layer includes one or more of tin, zinc, and lead.

The forming method of the present invention, wherein The process of coating the metal powder is: a flame spraying process, a flowing water bed process, a thermal welding process or an electrostatic powder process.

The forming method of the present invention, wherein the process of applying the conductive paint is: a roll coating process, or a spraying and brushing process;

The conductive varnish includes one or more of copper, aluminum, and silver.

The forming method of the present invention, wherein The metal material includes one of a nickel-chromium alloy, a nickel-chromium-iron alloy, a nickel-chromium-aluminum alloy, and a constantan alloy.

In the forming method of the present invention, the adhesive layer has a resistivity of less than 2.5 × 10 ^-8 Ωm.

Method for manufacturing atomizing assembly of the present invention, said atomizing assembly A heating element for atomizing the smoke oil and an oil guiding rope for conducting the atomization of the smoke oil to the heating element; wherein the manufacturing method comprises the following steps:

S1 A heating wire made of a metal material is wound into a heating wire, and the heating wire is divided into regions, wherein the region includes a plurality of heating segments for atomizing the smoke oil and a plurality of heating wires for connecting the electronic cigarette power source. Connection segment The heat generating segments are spaced apart from each other and connected by the connecting segments;

S2, conveying a free end of the heating wire extending from the heating wire coil in a first preset direction;

S3, an adhesion layer having a resistivity lower than a resistivity of the heating wire to the connecting segment on the conveying path of the heating wire;

S4, a heating section of the free end of the heating wire wound provided with an adhesive layer is wound on the oil guiding rope, and the heating section is spirally wound on the oil guiding rope;

S5, right a connecting section of one end of the heating section wound on the oil guiding rope is cut at a preset cutting point, so that each connecting end of the heating section wound on the oil guiding rope is connected with a connecting section, The atomizing assembly.

The manufacturing method of the present invention, wherein the step Between S4 and S5, further comprising the step of: moving the heating wire together with the oil guiding rope toward a second preset direction;

The step S5 is specifically: The oil guiding rope and the heating wire are simultaneously cut at a first preset position of the second preset direction to form the atomizing assembly.

The manufacturing method of the present invention, wherein the step S4 specifically comprises the steps of:

The oil guiding rope is an oil guiding rope wound on a first fixing member of the first bracket, and the first fixing member is rotatable relative to the first bracket under an external force, and the oil guiding rope is free The end moves in a second preset direction under the urging force of the traction device such that the heat generating segment wound on the oil guiding rope moves toward the second preset direction with the oil guiding rope.

The manufacturing method of the present invention, wherein in the step S4: a first rotating device and a second rotating device are disposed between the first fixing member and the first preset position, and the first rotating device is provided with a first oil guiding wire clamping assembly, the first The second rotating device is provided with a second oil guiding wire clamping assembly, and one end of the second rotating device facing the first rotating device is provided with a heating wire clamping device for clamping the heating wire clamping device After the connecting section in the free end of the heating wire coil, the first rotating device and the second rotating device rotate and move along the first preset direction, thereby spirally winding the heating segment Said on the oil rope.

The manufacturing method of the present invention, wherein in the step S4: Providing a third oil guiding rope clamping assembly on a side of the first preset position remote from the second rotating device, so that the second oil guiding rope is clamped when cutting the oil guiding rope The assembly and the third oil guiding cord clamping assembly clamp the oil guiding rope together, when the second oil guiding rope clamping assembly is released from the oil guiding rope and deviates from the second rotating device The third oil guiding cord clamping assembly clamps the free end of the oil guiding coil when the second preset direction is moved.

The manufacturing method of the present invention, wherein in the step S4: The first rotating device and the second rotating device are drivingly connected with the same power device to drive the first rotating device and the second rotating device to rotate synchronously by the power device.

this invention The manufacturing method, wherein the traction device is a motor, the motor is drivingly coupled to the first rotating device and the second rotating device, and the first rotating device and the second rotating device are driven along the The second preset direction moves to convey the oil guiding rope toward the second preset direction.

In the manufacturing method of the present invention, in the step S3, the method of forming the adhesion layer is:

Coating a metal powder to an outer surface of the connecting segment, the metal powder adhered to an outer surface of the connecting segment to form the adhesive layer; or

Applying a conductive paint to an outer surface of the connecting segment, the conductive paint being adhered to an outer surface of the connecting segment to form the adhesive layer; or

The connecting section is immersed in a molten metal liquid by a hot dip plating process to form a metal adhesion layer on the outer surface of the connecting section.

The invention also provides a method for manufacturing an atomizing assembly, the atomizing assembly A heating element for atomizing the smoke oil and an oil guiding rope for conducting the atomization of the smoke oil to the heating element; wherein the manufacturing method comprises the following steps:

F1 A heating wire made of a metal material is wound into a heating wire, and the heating wire is divided into regions, wherein the region includes a plurality of heating segments for atomizing the smoke oil and a plurality of heating wires for connecting the electronic cigarette power source. a connecting section, the heating sections are spaced apart and connected by the connecting section ;

F2, conveying the free end of the heating wire extending from the heating wire coil in a first preset direction;

F3. an adhesive layer having a resistivity lower than a resistivity of the heating wire to the connecting portion on the conveying path of the heating wire;

F4, cutting the heating wire roll provided with the adhesive layer, and cutting each time to obtain a heating element unit, each of the heating element units including a heating element and two ends of the heating element Connection segment

F5, winding the heating element unit on the oil guiding rope, so that the heating section is spiral;

F6. Cutting the oil guiding rope wound with the heating element unit to obtain a single atomizing assembly.

The present invention also provides an electronic aerosolization assembly formed by the method of any of the preceding claims, comprising a heat generating section and a connecting section at both ends of the heat generating section; wherein the outer surface of the connecting section is disposed Resistivity An adhesion layer lower than the resistivity of the heating wire.

The invention also provides an electronic cigarette comprising a spray chamber, wherein the atomization chamber is provided with the aforementioned atomization assembly.

The beneficial effects of the present invention are: by winding the heating wire into a heating wire roll, and dividing the heating wire roll into regions, The manufacturing process of the electronic cigarette heating element can be fully automated and continuously carried out, thereby improving the production efficiency of the heating element and facilitating industrial production; and, by means of adhesion, a conductive adhesive layer is arranged on the surface of the connecting section, and no organic process is produced in the production process. The solvent evaporates, no harmful substances remain, and the user's health is not endangered, and the adhesive process takes less time to form than the electroplating process, which can greatly reduce the production time and improve the production efficiency; further, due to the integrated heat generation The wire avoids the defects caused by welding, and makes the heat-generating component or the atomization component produced more stable and the product quality is higher.

DRAWINGS

The present invention will be further described below in conjunction with the accompanying drawings and embodiments, in which:

1 is a schematic view showing the structure of a heating wire of a subregion according to a preferred embodiment of the present invention;

2 is a schematic view showing the structure of a heating wire provided with an adhesive layer in a heat generating section according to a preferred embodiment of the present invention;

3 is a schematic view showing the principle of manufacturing an atomizing assembly for performing one cutting according to a preferred embodiment of the present invention;

Figure 4 is an enlarged schematic view of a portion X in Figure 3;

5 is a schematic view showing the principle of manufacturing an atomizing assembly for performing one cutting according to a preferred embodiment of the present invention;

Figure 6 is an enlarged schematic view of a portion Y in Figure 5;

7 is a schematic structural view of an atomizing assembly manufactured by using the atomizing assembly manufacturing method of the present invention;

Figure 8 is a cross-sectional view showing the structure of an electronic cigarette having the atomizing assembly shown in Figure 7.

detailed description

Please refer to FIG. 1, FIG. 2, FIG. 3 to FIG. 6, the formation of an electronic cigarette heat generating component according to a preferred embodiment of the present invention. The method comprises the following steps: S10, a heating wire 60 made of a metal material is wound into a heating wire roll, and the heating wire roll is divided into regions, wherein the area comprises a plurality of heating segments 62 for atomizing the smoke oil and a plurality of Connecting the connecting section 61 of the electronic cigarette power source, the heating sections 62 are spaced apart and connected by the connecting section 61; S20, The free end of the heating wire extending from the heating wire coil is conveyed in the first preset direction; S30, the adhesion of the outer surface of the connecting segment 61 to the resistivity of the heating wire is lower than that of the heating wire in the conveying path of the heating wire Layer 2; S40, The heat-generating wire roll provided with the adhesive layer is cut, and one heat-generating element unit is obtained each time, and each heat-generating element unit includes a heat-generating section and a connecting section 61 at both ends of the heat-generating section 62.

In the above process, since the heating wire 60 is wound into a heating wire roll, and the heating wire roll is divided into regions, The various stages of the manufacturing process of the electronic cigarette heating element (including setting the adhesion layer and cutting, etc.) can be continuously and fully automated, and the production efficiency of the heating element is improved. Since the conductive adhesive layer 2 is disposed on the surface of the connecting portion 61 by adhesion in the above process, no organic solvent is volatilized during the production process, no harmful substances are left, the user's health is not endangered, and the adhesive process takes time to form. Less electroplating can greatly reduce the time spent on production and increase production efficiency. Further, since the above process adopts an integrated heating wire, that is, the heating section 62 of the heating wire and the connecting section 61 are integrally formed by the same material, the defects caused by the welding are avoided, and the resistance value of the manufactured heating element is more stable. Better conductivity and higher product quality.

In the above method of forming the electronic cigarette heat generating element, the metal material is preferably an alloy material. It may be one of a nickel-chromium alloy, a nickel-chromium-iron alloy, a nickel-chromium-aluminum alloy, and a constantan alloy. For example, the metal material is a constantan 6J40, a Cr20Ni80, or the like.

The shapes of the selected metal materials are not limited in the embodiments of the present invention, for example, filaments, sheets, strips, or circular, elliptical, polygonal (including triangles, rectangles, etc.) or other geometric shapes may be selected. .

In the above method of forming the electronic cigarette heating element, it is preferable to use the adhesion layer 2 having a specific resistance of less than 2.5 × 10 ^-8 Ωm, which may be one or more adhesion layers of gold, silver, copper, zinc and tin.

In the above method for forming an electronic cigarette heat generating element, There are various methods for adhering the adhesive layer 2 having an electrical resistivity lower than that of the heating wire to the outer surface of the connecting portion 61, for example, spraying metal powder as the adhesive layer 2, or applying conductive paint as the adhesive layer 2, or The adhesion layer 2 is formed by a hot dip plating process.

In a specific embodiment, please refer to FIG. 1 and FIG. 2, the above step S3 0 includes: coating the outer surface of the connecting portion 61 with a metal powder, and the metal powder adheres to the outer surface of the connecting portion 61 to form the adhesive layer 2. The process of coating the metal powder is: a flame spraying process, a flowing water bed process, a thermal welding process or an electrostatic powder process. Since the metal powder is relatively fine, it can be formed into a film at one time, and the adhesion is strong, and the secondary re-spraying can be performed before the metal powder is uncured. In the process of spraying metal powder, no organic solvent volatilizes, so no harmful substances remain, and the user's health is not endangered. Moreover, the metal powder has uniform distribution, high stability, good electrical conductivity and stable resistance value, so the yield of the process is high, and the replacement of the traditional electronic wire can greatly save the production cost. In addition, the use of electric heating wire to spray metal powder process takes less time to form, which can greatly improve production efficiency.

In another specific embodiment, please refer to FIG. 1 and FIG. 2, the above step S3 0 includes: applying a conductive paint on the outer surface of the connecting portion 61, and the conductive paint is adhered to the outer surface of the connecting portion 61 to form the adhesive layer 2. The process of applying the conductive paint is: a roll coating process, or a spraying and brushing process; and the conductive paint comprises one or more of copper, aluminum and silver. In the process of applying conductive paint, no organic solvent volatilizes, so no harmful substances remain, and the user's health is not endangered. Moreover, the applied conductive paint adhesion layer 2 is evenly distributed, has high stability, good electrical conductivity and stable resistance value, so the process yield is high, and the replacement of the traditional electronic wire can greatly save the production cost. In addition, it takes less time to form the conductive paint by using the electric heating wire, which can greatly improve the production efficiency.

In another specific embodiment, please refer to FIG. 1 and FIG. 2, the above step S3 0 includes: immersing the connecting section into the molten metal liquid by a hot dip plating process to form a metal adhesion layer on the outer surface of the connecting section; wherein the metal adhesion layer comprises one or more of tin, zinc and lead . In hot dip coating process No organic solvent evaporates, so no harmful substances remain, and the user's health is not endangered. Moreover, the metal adhesion layer formed by the hot dip plating process It has uniform distribution, high stability, good electrical conductivity, stable resistance and high yield. It can save production cost and replace production efficiency by replacing traditional electronic wires. It can also greatly improve production efficiency.

The invention also provides a method for manufacturing an atomizing assembly, please refer to FIG. 3, and referring to FIG. 2, FIG. 3 and FIG. 7, the atomizing assembly. The invention comprises a heating element for atomizing the smoke oil and an oil guiding rope 70 for conducting the atomization of the smoke oil to the heating element; wherein the manufacturing method comprises the following steps:

S11, The heating wire made of a metal material is wound into a heating wire roll, and the heating wire roll is divided into regions, wherein the area includes a plurality of heating sections 62 for atomizing the smoke oil and a plurality of connecting sections 61 for connecting the electronic cigarette power source. The heating sections 62 are spaced apart and connected by the connecting section 61 The metal material may be one of a nickel-chromium alloy, a nickel-chromium-iron alloy, a nickel-chromium-aluminum alloy, and a constantan alloy, such as constantan 6J40, Cr20Ni80, or the like.

S21. The free end of the heating wire extending from the heating wire coil is transported in a first preset direction; wherein the first preset direction may be a direction from top to bottom.

S31, the adhesion layer 2 having a resistivity lower than that of the heating wire is adhered to the connecting portion on the conveying path of the heating wire; preferably, the adhesive layer having a resistivity lower than 2.5×10 ^-8 Ωm may be gold, One or more adhesion layers of silver, copper, zinc, and tin.

S41, will be coated with an adhesive layer The heat generating section 62 at the free end of the heating wire coil 2 is wound around the oil guiding cord 70, and the heat generating section 62 is spirally wound around the oil guiding cord 70.

S51, the pair is wrapped around the oil guiding rope The connecting portion 61 at one end of the heat generating portion 62 on the 70 is cut so that the connecting portion 61 is connected to both ends of the heat generating portion 62 wound around the oil guiding rope 70, and the cutting point 3 is as shown in FIG. An atomizing assembly as shown in Figure 7 is obtained.

In the manufacturing method of the above-described atomizing unit, since the heating wire is wound into a heating wire roll, and the heating wire roll is divided into regions, The various stages of the manufacturing process of the electronic aerosolization component (including setting the adhesion layer and cutting, etc.) can be fully automated and continuously, thereby improving the production efficiency of the atomization assembly. Since the conductive adhesive layer 2 is disposed on the surface of the connecting portion 61 by adhesion in the above process, no organic solvent is volatilized during the production process, no harmful substances are left, the user's health is not endangered, and the adhesive process takes time to form. Less electroplating can greatly reduce the time spent on production and increase production efficiency. Further, since the above process adopts the heating wire of the integrated structure, the heating section 62 of the heating wire and the connecting section 61 are integrally formed by the same material, thereby avoiding the defects caused by the welding, and the heating element in the manufactured atomizing component. The resistance is more stable and the product quality is higher.

Meanwhile, in the manufacturing method of the above atomizing assembly, since the heating element of the heating wire is 62 is first wound on the oil guiding rope 70, and then cut, so that only one cutting is needed in the whole process, which simplifies the process flow and improves the production efficiency.

Above steps In S41, the heat generating section 62 at the free end of the heating wire coil refers to the heat generating section 62 located at the end of the entire heating wire coil, and after each step S51 is completed, a new heat generating section 62 located at the free end is formed, and winding is performed again.

In the above step S51, as shown in FIGS. 3 and 4, the second cutting unit 52 is used to cut the heating wire and the oil guiding wire at one time.

In a specific embodiment, as shown in FIG. 3 and FIG. 4, and referring to FIG. 2, the above step S41 specifically includes: 70 is an oil guiding rope wound on the first fixing member 11 of the first bracket 10. The first fixing member 11 is rotatable relative to the first bracket 10 under an external force, and the free end of the oil guiding rope 70 is at the traction device. The force is applied to move in the second preset direction so that the heat generating portion 62 wound on the oil guiding rope 70 moves toward the second preset direction with the oil guiding rope 70. By simultaneously adopting the oil guiding coil and the heating wire coil, the winding process of the oil guiding rope 70 can be directly and continuously performed after the adhesion layer 2 of the heating wire is completed, so that the entire atomizing assembly production process can be automated and improved. The production efficiency of the atomizing assembly.

Further, as shown in FIG. 3 and FIG. 4, referring to FIG. 1 to FIG. 3 simultaneously, in the above first fixing member A first rotating device 31 and a second rotating device 32 are disposed between the first preset position and the first rotating position, the first rotating device 31 is provided with a first oil guiding wire clamping assembly 41, and the second rotating device 32 is provided with a second The oil guiding cord clamping assembly 42 is provided with a heating wire clamping device 44 at one end of the second rotating device 32 facing the first rotating device 31 to clamp the connection in the free end of the heating wire coil at the heating wire clamping device 43. After the segment 61, the first rotating device 31 and the second rotating device 32 rotate and move in the second preset direction, so that the heating portion 62 is spirally wound on the oil guiding rope 70, thereby realizing the automatic continuous winding process. Carry out to improve the production efficiency of the atomizing assembly.

Further, as shown in FIG. 3 and FIG. 4, while referring to FIG. 2, the second rotating device is away from the first preset position. A third oil guiding wire clamping assembly 43 is disposed on one side of the 32 such that the second oil guiding wire clamping assembly 42 and the third oil guiding wire clamping assembly 43 clamp the oil guiding together when cutting the oil guiding rope 70 The cord 70 is clamped by the third oil guiding cord clamping assembly 43 when the second oil guiding cord clamping assembly 42 releases the clamping of the oil guiding cord 70 and moves away from the second rotating device 32 in a second predetermined direction. The free end of the oil guiding coil is used to ensure that the oil guiding rope 70 and the heating wire 60 are cut quickly and accurately to obtain an atomizing assembly.

In the above embodiment, preferably, as shown in FIGS. 3 and 4, the first rotating device 31 and the second rotating device 32 are drivingly connected with the same power device to drive the first rotating device 31 and the second rotating device 32 to rotate synchronously in the direction indicated by the arrows in FIGS. 3 and 4 by the power device, so that the heating wire 60 The heating section 62 is wound on the oil guiding rope 70 in a standard spiral shape to ensure the yield and consistency of the atomized component product.

In the above embodiment, referring to FIG. 3 and FIG. 4, preferably, the above traction device is a motor. 80, the motor 80 is drivingly connected with the first rotating device 31 and the second rotating device 32, and by driving the first rotating device 31 and the second rotating device 32 to move in the second preset direction, the oil guiding rope 70 is turned toward the first Two preset directions are delivered.

In another specific embodiment, as shown 3, while referring to FIG. 2, in the manufacturing method of the above-mentioned atomizing assembly, in the step S31, the method of forming the adhesive layer is as follows: The outer surface of the connecting portion 61 is coated with metal powder, and the metal powder adheres to the outer surface of the connecting portion 61 to form an adhesive layer; or, the outer surface of the connecting portion 61 is coated with a conductive paint, and the conductive paint adheres to the outer portion of the connecting portion 61. The surface forms an adhesion layer; or, the connection portion 61 is immersed in the molten metal liquid by a hot dip plating process to form a metal adhesion layer on the outer surface of the connection portion 61. For a detailed description of the various processes for forming the adhesion layer described above, refer to the foregoing embodiment of the method for forming an electronic cigarette heating element, which will not be described herein.

The present invention also provides a method of manufacturing another atomizing assembly, please refer to FIG. 5 and FIG. 6, and FIG. 1, FIG. 2 and FIG. The invention comprises a heating element for atomizing the tobacco oil, and an oil guiding rope 70 for conducting the atomization of the oil to the heating element; wherein the manufacturing method comprises the following steps:

F10, The heating wire made of a metal material is wound into a heating wire roll, and the heating wire roll is divided into regions, wherein the area includes a plurality of heating sections 62 for atomizing the smoke oil and a plurality of connecting sections 61 for connecting the electronic cigarette power source. The heating sections 62 are spaced apart and connected by the connecting section 61 The metal material may be one of a nickel-chromium alloy, a nickel-chromium-iron alloy, a nickel-chromium-aluminum alloy, and a constantan alloy, such as constantan 6J40, Cr20Ni80, or the like.

F20. The free end of the heating wire extending from the heating wire coil is conveyed in a first preset direction; wherein the first preset direction may be a direction from top to bottom.

F30. Adhesive layer 2 having a resistivity lower than that of the heating wire is adhered to the connecting portion 61 on the conveying path of the heating wire; preferably, an adhesive layer having a resistivity lower than 2.5×10 ^-8 Ωm may be used. One or more adhesion layers of silver, copper, zinc and tin.

F40, the heating wire roll provided with the adhesive layer is cut, each cutting to obtain a heating element unit, each heating element unit includes a heating section 62 and a connecting section 61 at both ends of the heating section 62; Here, the heating wire roll is cut by the first cutting unit 51 shown in Figs. 5 and 6.

F50. The heating element unit is wound around the oil guiding cord 70, so that the heating section 62 has a spiral shape.

F60, cutting the oil guiding rope 70 wound with the heating element unit to obtain a single atomizing assembly; wherein the oil guiding rope 70 is cut by using the second cutting assembly 52 shown in FIG. 5 and FIG. .

In the manufacturing method of the above-described atomizing unit, since the heating wire 60 is wound into a heating wire roll, and the heating wire roll is divided into regions, The various stages of the manufacturing process of the electronic aerosolization component (including setting the adhesion layer and cutting, etc.) can be fully automated and continuously, thereby improving the production efficiency of the atomization assembly. Since the conductive adhesive layer 2 is disposed on the surface of the connecting portion 61 by adhesion in the above process, no organic solvent is volatilized during the production process, no harmful substances are left, the user's health is not endangered, and the adhesive process takes time to form. Less electroplating can greatly reduce the time spent on production and increase production efficiency. Further, since the above process adopts the heating wire of the integrated structure, the heating section 62 of the heating wire and the connecting section 61 are integrally formed by the same material, thereby avoiding the defects caused by the welding, and the heating element in the manufactured atomizing component. The resistance is more stable and the product quality is higher.

Meanwhile, in the manufacturing method of the above atomizing assembly, the adhesive layer is first disposed After 2, the heating wire roll is cut, and a heating element unit is obtained each time, and then the heating element 62 of the heating element unit is wound on the oil guiding rope 70, and then the oil guiding rope 70 is separately performed. Cutting, obtaining a single atomizing assembly, the entire process needs to be cut twice, although the cutting process is more than the atomizing component manufacturing method in the previous embodiment, the whole process can also be fully automated, production Efficiency can still be greatly improved.

The invention also provides an electronic aerosolization component, as shown in the figure 7, while referring to FIG. 1 to FIG. 6, wherein the atomizing assembly is produced by the manufacturing method of the electronic aerosolizing assembly of the foregoing embodiment, including the heating section 62 and the connecting section 61 at both ends of the heating section 62; The outer surface of the segment 61 is provided with a resistivity Adhesive layer 2 lower than the resistivity of the heating wire. According to the description of the previous embodiment, the atomization assembly connecting section 61 produced by the new process has a uniformly distributed adhesive layer, so that the connection section 61 has high stability, good electrical conductivity, and resistance. The value is stable and can be used to replace traditional electronic wires, which can greatly save production costs. Moreover, since no organic solvent is needed in the production process, harmful substances are not left on the atomizing component, and the user's health is not endangered.

The invention also provides an electronic cigarette, as shown in the figure 8, while referring to FIGS. 1-7, the electronic cigarette includes a mouthpiece 200, a tobacco rod 300, and a lamp cap 310 disposed at one end of the tobacco rod 300. a battery is arranged in the tobacco rod 300 320, other structures of the electronic cigarette are not detailed here. An atomizing chamber 210 is disposed in the mouthpiece 200. One end of the mouthpiece 200 is provided with a nozzle cover 220. The atomizing assembly 100 is disposed in the atomizing chamber 210. The heating section 62 of the atomizing assembly 100 is disposed in the atomizing chamber 210 toward the suction chamber 210. One side of the mouth cover 220, the connecting portion 61 is disposed in the spray chamber 210 toward the battery One side of 310. Both ends of the connecting portion 61 are respectively soldered and electrically connected to the driving circuit, and the driving circuit is electrically connected to the battery 310.

Wherein, the atomization assembly in the above electronic cigarette is produced by the method described in the foregoing embodiments. Also, according to the description of the previous embodiment, the obtained atomization assembly connecting section is produced by a new process. The 61 has a uniformly distributed adhesive layer, so that the connection section 61 has high stability, good electrical conductivity, stable resistance, and can be used to replace the conventional electronic wire to greatly save production cost. Moreover, since no organic solvent is needed in the production process, harmful substances are not left on the atomizing component, so that the electronic cigarette is healthier and safer and does not endanger the health of the user.

It should be understood that it is common in the art. The skilled person will be able to adapt or modify the above description, and all such modifications and variations are intended to fall within the scope of the appended claims.

Claims

A method of forming an electronic cigarette heat generating component, comprising the steps of:

A. A heating wire made of a metal material is wound into a heating wire roll, and the heating wire roll is divided into regions, wherein the area includes a plurality of heating segments for atomizing the smoke oil and a plurality of wires for connecting the electronic cigarettes. a connecting section of the power source, the heating sections are spaced apart and connected by the connecting section;

B. conveying a free end of the heating wire extending from the heating wire coil in a first preset direction;

C. adhering an adhesion layer having a resistivity lower than a resistivity of the heating wire to an outer surface of the connecting segment on a conveying path of the heating wire;

D, Cutting the heating wire roll after the adhesive layer is disposed, and cutting each time to obtain a heating element unit, each of the heating element units including a heating section and a connection at both ends of the heating section segment .
The method of forming according to claim 1, wherein said step C Specifically, the method comprises the steps of: coating the outer surface of the connecting section with a metal powder, and the metal powder adheres to an outer surface of the connecting section to form the adhesive layer.
The method of forming according to claim 1, wherein said step C Specifically, the method comprises the steps of: coating a conductive paint on an outer surface of the connecting segment, the conductive paint adhering to an outer surface of the connecting segment to form the adhesive layer.
The method of forming according to claim 1, wherein said step C Specifically, the method comprises the steps of: immersing the connecting section into a molten metal liquid by a hot dip plating process, forming a metal adhesion layer on an outer surface of the connecting section; the metal adhesion layer comprises tin, zinc, lead One or more.
Formation according to claim 2 The method is characterized in that the metal powder coating process is: a flame spraying process, a flowing water bed process, a thermal welding process or an electrostatic powder process.
The method according to claim 3, wherein the process of applying the conductive paint is: a roll coating process, or a spraying and brushing process;

The conductive varnish includes one or more of copper, aluminum, and silver.
Formation according to claim 1 The method is characterized in that the metal material comprises one of a nickel-chromium alloy, a nickel-chromium-iron alloy, a nickel-chromium-aluminum alloy, and a constantan alloy.
The method according to claim 1, wherein the adhesion layer has a resistivity of less than 2.5 × 10 -8 Ωm.
A method of manufacturing an atomizing assembly, the atomizing assembly comprising a heating element for atomizing smoke oil and an oil guiding rope for conducting the atomization of the smoke oil to the heating element; The method of manufacturing includes the following steps:

S1 A heating wire made of a metal material is wound into a heating wire, and the heating wire is divided into regions, wherein the region includes a plurality of heating segments for atomizing the smoke oil and a plurality of heating wires for connecting the electronic cigarette power source. Connection segment The heat generating segments are spaced apart from each other and connected by the connecting segments;

S2, conveying a free end of the heating wire extending from the heating wire coil in a first preset direction;

S3, an adhesion layer having a resistivity lower than a resistivity of the heating wire to the connecting segment on the conveying path of the heating wire;

S4, a heating section of the free end of the heating wire wound provided with an adhesive layer is wound on the oil guiding rope, and the heating section is spirally wound on the oil guiding rope;

S5, right a connecting section of one end of the heating section wound on the oil guiding rope is cut at a preset cutting point, so that each connecting end of the heating section wound on the oil guiding rope is connected with a connecting section, The atomizing assembly.
The manufacturing method according to claim 9, wherein said step Between S4 and S5, further comprising the step of: moving the heating wire together with the oil guiding rope toward a second preset direction;

The step S5 is specifically: The oil guiding rope and the heating wire are simultaneously cut at a first preset position of the second preset direction to form the atomizing assembly.
The manufacturing method according to claim 10, wherein the step S4 specifically comprises the following steps:

The oil guiding rope is an oil guiding rope wound on a first fixing member of the first bracket, and the first fixing member is rotatable relative to the first bracket under an external force, and the oil guiding rope is free The end moves in a second preset direction under the urging force of the traction device such that the heat generating segment wound on the oil guiding rope moves toward the second preset direction with the oil guiding rope.
The manufacturing method according to claim 11, wherein in the step S4: a first rotating device and a second rotating device are disposed between the first fixing member and the first preset position, and the first rotating device is provided with a first oil guiding wire clamping assembly, the first The second rotating device is provided with a second oil guiding wire clamping assembly, and one end of the second rotating device facing the first rotating device is provided with a heating wire clamping device for clamping the heating wire clamping device After the connecting section in the free end of the heating wire coil, the first rotating device and the second rotating device rotate and move along the first preset direction, thereby spirally winding the heating segment Said on the oil rope.
The manufacturing method according to claim 12, wherein in the step S4: Providing a third oil guiding rope clamping assembly on a side of the first preset position remote from the second rotating device, so that the second oil guiding rope is clamped when cutting the oil guiding rope The assembly and the third oil guiding cord clamping assembly clamp the oil guiding rope together, when the second oil guiding rope clamping assembly is released from the oil guiding rope and deviates from the second rotating device The third oil guiding cord clamping assembly clamps the free end of the oil guiding coil when the second preset direction is moved.
The manufacturing method according to claim 13, wherein in the step S4: The first rotating device and the second rotating device are drivingly connected with the same power device to drive the first rotating device and the second rotating device to rotate synchronously by the power device.
According to claim 1 4 The manufacturing method is characterized in that: the traction device is a motor, the motor is drivingly connected with the first rotating device and the second rotating device, and the first rotating device and the second rotating device are driven along The second preset direction moves to convey the oil guiding rope toward the second preset direction.
The manufacturing method according to claim 9, wherein in the step S3, the method of forming the adhesion layer is:

Coating a metal powder to an outer surface of the connecting segment, the metal powder adhered to an outer surface of the connecting segment to form the adhesive layer; or

Applying a conductive paint to an outer surface of the connecting segment, the conductive paint being adhered to an outer surface of the connecting segment to form the adhesive layer; or

The connecting section is immersed in a molten metal liquid by a hot dip plating process to form a metal adhesion layer on the outer surface of the connecting section.
A method of manufacturing an atomizing assembly, the atomizing assembly comprising a heating element for atomizing smoke oil and an oil guiding rope for conducting the atomization of the smoke oil to the heating element; The method of manufacturing includes the following steps:

F1 A heating wire made of a metal material is wound into a heating wire, and the heating wire is divided into regions, wherein the region includes a plurality of heating segments for atomizing the smoke oil and a plurality of heating wires for connecting the electronic cigarette power source. a connecting section, the heating sections are spaced apart and connected by the connecting section ;

F2, conveying the free end of the heating wire extending from the heating wire coil in a first preset direction;

F3. an adhesive layer having a resistivity lower than a resistivity of the heating wire to the connecting portion on the conveying path of the heating wire;

F4, cutting the heating wire roll provided with the adhesive layer, and cutting each time to obtain a heating element unit, each of the heating element units including a heating element and two ends of the heating element Connection segment

F5, winding the heating element unit on the oil guiding rope, so that the heating section is spiral;

F6. Cutting the oil guiding rope wound with the heating element unit to obtain a single atomizing assembly.
One adopting according to claim 9 -1 7 The electronic aerosolization assembly formed by the method of any of the preceding claims, comprising a heating section and a connecting section at both ends of the heating section; wherein an outer surface of the connecting section is provided with a resistivity lower than the heating wire Resistivity adhesion layer .
An electronic cigarette comprising a spray chamber, characterized in that the atomization chamber is provided with the atomization assembly of claim 18.