CN106333387B - Multi-resistance realization method and arrangement structure of electronic cigarette atomizing heating wire - Google Patents

Abstract

According to the multi-resistance implementation method of the electronic cigarette atomizing heating wire, a plurality of groups of heating resistance wires are arranged in an atomizing chamber of an electronic cigarette atomizing core, each group of heating resistance wires is provided with a connecting wire to be led out of the atomizing chamber, and different groups of heating resistance wires are combined and connected outside the atomizing chamber to generate different resistance wire combinations, so that different power combinations can be generated after the heating wires are electrified. According to the atomization wire multi-resistance arrangement structure adopting the method, a plurality of groups of heating resistance wires are arranged in an atomization chamber of the electronic cigarette atomization core, and each group of heating resistance wires is provided with a connecting wire to be led out of the atomization chamber; a resistance adjusting device is arranged outside the atomizing chamber and is directly connected with a connecting wire led out by a heating resistance wire led out from the atomizing chamber; the adjusting device is provided with a plurality of different connection modes for leading out the connecting wires.

Description

Multi-resistance realization method and arrangement structure of electronic cigarette atomizing heating wire

Technical Field

The invention relates to a heating power combination method of a heating resistance wire in the field of daily life, in particular to a multi-resistance implementation method of an electronic aerosolization heating resistance wire and a multi-resistance step structure.

Background

With social development and human progress, tobacco as a consumer product harmful to human body is gradually replaced with a health article having the same function. Such as recently emerging electronic cigarette products, which atomize a liquid containing chemical substances such as nicotine and the like through a high-tech means to generate smoke, so as to achieve the purpose of smoking. Meanwhile, the purpose of assisting in stopping smoking can be achieved by using different chemical substances. It is not only beneficial to the physical and psychological health of smokers, but also beneficial to environmental protection and social resource saving. Therefore, the product is very popular with smokers, and has a large profit margin in the market.

At present, electronic cigarette products popular in the market generally atomize electronic cigarette liquid containing nicotine by an electric heating method, and people inhale the atomized electronic cigarette liquid through a certain device so as to achieve the purpose of smoking. Since this so-called smoke is completely free of solid particles, it is in fact only a fog, and thus has little effect on the human body and the environment.

At present, an atomizing device of the electronic cigarette generally adopts a resistance wire to electrify and heat, and the heat of the resistance wire is used for removing atomized electronic cigarette liquid, and as a certain amount of electronic cigarette liquid is atomized, an instantaneous higher atomizing temperature is required to be generated, for example, the atomizing temperature of the common electronic cigarette liquid is required to reach 150-450 ℃.

In order to adapt to the atomizing temperature demands of the electronic cigarette liquid with different temperatures, different heating powers can be set according to the different temperature demands, so that the heating power of the electronic cigarette needs to be adjusted at any time, and meanwhile, as smoking favors in people using the electronic cigarette are different, people like to drink with a large mouth and people like to drink with a small mouth, and therefore, the heating power of the electronic cigarette needs to be adjusted necessarily.

The current electronic cigarette power adjusting modes are divided into an electric adjusting mode and a mechanical adjusting mode, and the two adjusting modes realize different heating powers by adjusting parameters such as power supply voltage, current and the like for an electronic cigarette atomizing core resistance wire, so that different heating temperatures are generated. Therefore, the electronic cigarette atomizer can generally realize the optimal effect only under the control of the matched electronic cigarette control circuit, and the mutual matching between power supply parameters cannot be ensured after the electronic cigarette control circuit is replaced, so that a better heating effect cannot be achieved. For example, an electronic cigarette heating control circuit with heating power of 10 watts can not realize effective butt joint with an electronic cigarette atomization core with heating power of 50 watts anyway, so that the function of the electronic cigarette can not be realized when the control circuit and a power supply are replaced in an emergency scene, and certain inconvenience exists.

Aiming at the defects in the prior art, the invention discloses a method and a device for directly adjusting the heating power of an electronic cigarette.

Disclosure of Invention

The invention aims to provide a multi-resistance implementation method of an electronic cigarette atomizing heating wire, which can be suitable for combination replacement between atomizing cores and control circuits with different power requirements.

The invention also aims to provide a multi-resistance step structure of the electronic cigarette atomizing heating wire, which can meet the requirements of different heating powers through the resistance combination of different resistance wires.

The invention discloses a multi-resistance realization method of an electronic cigarette atomizing heating wire, which comprises the following steps: and a plurality of groups of heating resistance wires are jointly arranged in an atomization chamber of the electronic cigarette atomization core, each group of heating resistance wires is provided with a connecting wire to lead out of the atomization chamber, and the heating resistance wires of different groups are combined and connected outside the atomization chamber to generate device combinations with different heating powers.

And a common connecting lead is arranged among the plurality of groups of heating resistance wires for leading out.

The resistance values of the heating resistance wires in the groups are different from each other, and the combination connection of the heating resistance wires is series connection, parallel connection or combination of series connection and parallel connection.

According to the multi-resistance arrangement structure of the electronic cigarette atomizing heating wires, a plurality of groups of heating resistance wires are arranged in an atomizing chamber of an electronic cigarette atomizing core, and each group of heating resistance wires is provided with a connecting wire to be led out of the atomizing chamber; a resistance adjusting device is arranged outside the atomizing chamber and is directly connected with a connecting wire led out by a heating resistance wire led out from the atomizing chamber; the adjusting device is provided with a plurality of different connection modes for leading out the connecting wires.

One end of each of the plurality of groups of heating resistance wires can be connected and led out together, and the other ends of the plurality of groups of heating resistance wires are respectively connected and led out.

The resistance value adjusting device is an adjusting disc, the adjusting disc is provided with a fixed disc and a rotating disc, the fixed disc is provided with a plurality of electrode connecting pieces, each electrode connecting piece corresponds to the connection combination of different heating resistance wires, the rotating disc is provided with a rotating arm, the rotating arm is provided with a conductive contact piece, and the conductive contact piece of the rotating arm is connected with an electronic cigarette heating power supply circuit.

The resistance value adjusting device is a toggle switch, the toggle switch is provided with bridging conducting strips, and different combination connection between the heating resistance wires is realized through the bridging conducting strips.

The heating resistance wire lead-out wire is a silver wire, a nickel wire or a copper wire which is low in resistivity and high in temperature resistance, and the lead-out wire is arranged in the insulating porcelain tube in the atomization chamber.

The heating resistance wires are spirally arranged in a rotating way, liquid guide cotton is arranged in the spiral, and a plurality of groups of heating wires are arranged in series or in parallel.

The heating resistance wires arranged in series are formed by arranging lead-out wires from different positions respectively, wherein the series arrangement mode comprises annular arrangement or linear arrangement formed inside the atomizing core.

The heating resistance wires arranged in parallel are two groups of heating resistance wires with different resistance values, a common leading-out end is arranged, and three different combinations of connection are generated at the leading-out ends of the two groups of heating resistance wires connected in parallel.

The multi-resistance realizing method and the multi-resistance arrangement structure can realize the following functions, and the resistance value of the heating resistance wire electrified during heating can be directly adjusted through the series connection or parallel connection combination of different heating resistance wires, so that the working state of the heating resistance wire can be adjusted, and the heating power generated by the combination of the heating resistance wires can be further adjusted. Because different combinations of heating resistance wires are directly regulated to generate different resistances to regulate power, the electronic cigarette atomizer can adapt to the output of various external power supplies, and random combinations of electronic cigarette control circuits with different models and electronic cigarette atomizers are realized.

Drawings

Fig. 1 is a circuit diagram of a connection state of a heating resistance wire of embodiment 1 of the present invention;

fig. 2 is a circuit diagram of the connection state of the heating resistance wire of embodiment 2 of the present invention;

FIG. 3 is a schematic view of the structure of the adjusting disk of embodiment 1 of the present invention;

FIG. 4 is a schematic view of the structure of a conditioning disk according to embodiment 2 of the present invention;

the figure shows: the fixed disc is 1, the conductive sheet is 2, the rotating disc bridging sheet is 3, and the common conductive sheet is 4.

Detailed Description

The invention will now be described in detail with reference to the drawings and to specific embodiments.

Example 1:

as shown in fig. 1 and 3, in this embodiment, heating resistance wires with different resistance values are connected in series, and the resistors R1, R2, and R3 are heating resistance wires with different resistance values, and are connected in series, so that a whole heating resistance wire extending in a spiral shape can be used, and lead wires with different powers are led out according to different positions of the heating resistance wires. Wherein the heating resistance wire R1 segment is 0.5 ohm, corresponding to between ab; the R2 segment is 1.0 ohm, corresponding to between bc; the R3 segment is 1.5 ohms, corresponding between cds. If the same common outgoing line is used for all three groups of resistance wires, an outgoing line a can be used, and the corresponding relationship of the other outgoing line a is that R1 corresponds to b, R2 corresponds to c and R3 corresponds to d.

Therefore, the heating resistance wire can realize different resistance value changes in the circuit by connecting different outgoing lines. If the two poles of the power supply are respectively connected with a and b, namely, the heating resistance wire R1 is connected, and the heating wire connection of 0.5 ohm is realized; the connection a and the connection c are connected with heating resistance wires R1+R2, so that the connection of the heating wires with the power of 1.5 ohms is realized; and the connection a and d are connected with heating resistance wires R1+R2+R3, so that the connection of the heating wires with 3 ohms is realized. Therefore, by changing the connection mode, the heating wires with different resistance values can be connected into the heating circuit, and different heating powers can be obtained under the same voltage.

When the structure is used on the electronic cigarette atomizing core, the three groups of heating resistance wires are arranged in a spiral extending mode, liquid guide cotton and liquid inlet holes are arranged, and the three groups of heating resistance wires are connected in series and arranged in a straight line. Three sets of resistance wires were provided with four lead-out wires connected to a conversion palette as shown in fig. 3. The conversion adjusting disc comprises a fixed disc 1, and four corresponding elastic contact conducting plates 2 are arranged on the fixed disc 1, wherein each corresponding elastic contact plate 2 corresponds to a corresponding heating resistance wire connection outgoing line. Wherein the conductive sheet 4 corresponds to the common outgoing line a.

The elastic contact conductive sheet A is a conductive sheet connected with the outgoing line a, the elastic contact sheet B is a conductive sheet corresponding to the outgoing line B, the elastic contact sheet C is a conductive sheet corresponding to the outgoing line C, and the elastic contact sheet D is a conductive sheet corresponding to the outgoing line D.

In addition, a rotating disc is arranged on the fixed disc, an adjusting rotating arm 3 is arranged on the rotating disc, and the rotating arm 3 can rotate along with the rotating disc at the same time. Two symmetrical conductive contact pieces are arranged at two ends of the rotating arm, and are respectively connected with two input ends of the power supply circuit and connected into the power supply circuit.

As shown in fig. 3, the common electrode contact a is provided to have a semicircular ring-like structure in order to be always in a continuous contact state. The other three contact pieces are respectively connected, so that different connection forms can be formed.

The conductive contact piece at one end of the rotating arm 3 is elastically contacted with the common electrode contact piece A, and the conductive elastic contact piece at the other end can be respectively electrically connected with the B, C, D conductive contact pieces through rotation. At this time, three resistance heating wires are respectively communicated, so that different power outputs under the same control circuit can be realized.

Specifically to during practical application, can directly set up the bottom at atomizing core with foretell carousel adjustment structure, the conductive contact post of atomizing core is connected to its lower extreme, and the upper end is pegged graft different heating resistance wire leading-out ends through an electrode connecting plate, in order to guarantee that the resistance of heating resistance wire lead-out line can be ignored, will draw forth the wire and use the good and high temperature resistant metal conductive material preparation of conductive properties, such as silver, nickel or copper etc. for guaranteeing the mutual insulation between the heating resistance wire lead-out line, can overlap on the lead-out line and establish porcelain insulating sleeve or set up porcelain insulating support.

The fixed disk of the adjusting turntable is directly arranged on the electrode connecting plate, and the rotating disk with the rotating arm is arranged at the lower side of the fixed disk and is connected with the two electrodes in the conductive contact column. Therefore, the structure can be quite simple and small, even the volume of the atomizing core is not increased, and the proper price increasing and enlarging are only needed to be carried out on the atomizing chamber part of the atomizing core, so that the volume requirement of the resistance wire is met.

The electronic cigarette atomizer with the structure can realize direct adjustment of the resistance value of the electronic cigarette atomization core, heating power is also directly adjusted, and in the same power supply circuit, different heating powers can still be achieved, so that the electronic cigarette atomizer assembled with the structure can be suitable for electronic cigarettes with various power supply standards. For example, when a 10W power supply circuit is used, the structure of the invention can be correspondingly used for larger resistance heating resistance wires and connecting the leading wires a and d, and when a circuit with higher power supply is used, smaller resistance heating resistance wires can be connected to adapt to the power requirement.

Of course, the above structure is described by using the lead-out wire a as the common terminal, but the derivative variation of other structures, for example, the common terminal is not set any more, six pins are led out as the connection sections respectively, so that more groups of combinations can be realized, for example, a heating wire with resistance of 1.0 ohm is realized when the bc two ends of R2 are connected, a heating wire with resistance of 1.5 ohm is realized when the cd two ends of R3 are connected, and a heating resistance wire with resistance of 2.5 ohm of r2+r3 is realized when the bd two ends are connected. The above-described variations can be implemented using other forms of turret contact connections, without further description.

Example 2:

in this embodiment, the heating resistance wires connected in series in embodiment 1 are changed into heating resistance wires connected in parallel, wherein the parallel heating resistance wires are provided with a common leading-out end a and three leading-out ends b, c and d respectively, so that various connection modes can be generated when the parallel heating resistance wires are connected with one end of a heating power supply circuit, for example, three different powers are generated when the common end a is connected with one end of the heating power supply circuit, and three groups of heating resistance wires are connected with each other in parallel, and bc, cd, bd, bcd combinations are generated, so that seven different power connection effects can be generated by the parallel connection mode.

Thus, as shown in fig. 4, the difference from embodiment 1 is that the arrangement of the elastic contact sheet is only different, the structure of the common electrode sheet arranged in embodiment 1 is not changed, and 7 different connection electrode sheets can be arranged according to the parallel structure, but only the different combination connection modes in 4 are shown in the figure due to the spatial relation, and all the connection modes are not directly shown in fig. 4, but the protection scope of the patent is not affected.

In this embodiment, if r1=1 ohm, r2=2 ohm, and r3=3 ohm are taken, the combined resistance values will be 1, 2, 3, 2/3, 0.75, 1.2, and 6/11 ohm. If the heating voltage is set to 6 volts, heating power may be generated corresponding to seven power values of 36, 18, 12, 54, 48, 30, 66, respectively.

Example 3:

the embodiment further adapts to the requirements of the electronic cigarette atomizing core on the basis of the above, a scheme of parallel connection of double wires is adopted, only the parallel double wires respectively adopt electric heating with different resistance values, the connecting scheme adopts the connecting method of the invention, when the resistance is in parallel connection of 1 ohm and 2 ohm, the resistance value of the heating resistance wire can be converted between 2/3, 1 and 2, and then the electronic cigarette heating control circuit can be basically adapted to different electronic cigarettes. Due to the reduction of the number of the heating resistance wires, the electronic cigarette atomizing core is easier to install.

Claims (7)

1. A multi-resistance realization method of an electronic cigarette atomizing heating wire is characterized by comprising the following steps of: a plurality of groups of heating resistance wires are arranged in an atomization chamber of an electronic cigarette atomization core together, each group of heating resistance wires is provided with a connecting wire to be led out of the atomization chamber, and different groups of heating resistance wires are combined and connected outside the atomization chamber to generate device combinations with different heating powers; a resistance adjusting device is arranged outside the atomizing chamber and is directly connected with a connecting wire led out by a heating resistance wire led out from the atomizing chamber; the adjusting device is provided with a plurality of different connection modes for leading out connecting wires, the resistance adjusting device is an adjusting disc, the adjusting disc is provided with a fixed disc and a rotating disc, the fixed disc is provided with a plurality of electrode connecting pieces, each electrode connecting piece corresponds to the connection combination of different heating resistance wires, the rotating disc is provided with a rotating arm, the rotating arm is provided with a conductive contact piece, the rotating arm conductive contact piece is connected with an electronic cigarette heating power supply circuit, a common connecting wire is arranged among a plurality of groups of heating resistance wires for leading out, and one electrode connecting piece is arranged to be corresponding to the semicircle ring shape of the common connecting wire.

2. The method for realizing the multiple resistance values of the electronic cigarette atomizing heating wire according to claim 1, wherein the method comprises the following steps of: the resistance values of the heating resistance wires in each group are different, and the combination connection among the heating resistance wires is series connection, parallel connection or combination between series connection and parallel connection.

3. A multi-resistance arrangement structure of the multi-resistance implementation method of the electronic cigarette atomizing heating wire according to claim 1 or 2, characterized in that: a plurality of groups of heating resistance wires are arranged in the atomizing chamber of the electronic cigarette atomizing core, and each group of heating resistance wires is provided with a connecting wire to be led out of the atomizing chamber; a resistance adjusting device is arranged outside the atomizing chamber and is directly connected with a connecting wire led out by a heating resistance wire led out from the atomizing chamber; the adjusting device is provided with a plurality of different connection modes for leading out connecting wires, the resistance adjusting device is an adjusting disc, the adjusting disc is provided with a fixed disc and a rotating disc, the fixed disc is provided with a plurality of electrode connecting pieces, each electrode connecting piece corresponds to the connection combination of different heating resistance wires, the rotating disc is provided with a rotating arm, the rotating arm is provided with a conductive contact piece, the rotating arm conductive contact piece is connected with an electronic cigarette heating power supply circuit, a common connecting wire is arranged among a plurality of groups of heating resistance wires for leading out, and one electrode connecting piece is arranged to be corresponding to the semicircle ring shape of the common connecting wire.

4. A multi-resistance arrangement according to claim 3, characterized in that: the heating resistance wire lead-out wire is a silver wire, a nickel wire or a copper wire with low resistivity and high temperature resistance, and is arranged in the insulating porcelain tube in the atomization chamber.

5. A multi-resistance arrangement according to claim 3, characterized in that: the heating resistance wires are spirally arranged in a rotating way, liquid guide cotton is arranged in the spiral, and a plurality of groups of heating resistance wires are arranged in series or in parallel.

6. The multi-resistance arrangement according to claim 5, wherein: the heating resistance wires arranged in series are a group of resistance wires integrally, lead-out wires are respectively arranged from different positions to form the heating resistance wires, and the series arrangement mode comprises annular arrangement or linear arrangement formed inside the atomizing core.

7. The multi-resistance arrangement according to claim 5, wherein: the heating resistance wires arranged in parallel are two groups of heating resistance wires with different resistance values, a common leading-out end is arranged, and three different combinations of connection are generated at the leading-out ends of the two groups of different heating resistance wires in parallel.