KR20200009808A - Heater module for electronic cigarette using Titanium - Google Patents

Abstract

The present invention provides a heater module for an electronic cigarette using titanium for heating a cigarette portion of a cigarette type electronic cigarette comprising a filter portion and the cigarette portion. The heater module for an electronic cigarette using titanium comprises: a heater heat dissipation case of which a front portion has a pointed structure to allow the cigarette portion to be inserted and a rear end is formed with a coupling groove of a set depth in the front portion direction, and which is made of a titanium material; and a heater which is detachably inserted into the coupling groove, includes a substrate and a heater electrode formed on the substrate to receive electricity from a power supply unit. The heater heats the cigarette portion by heating the heater heat dissipation case. Therefore, since the heater is inserted into the heater heat dissipation case, the contact between the cigarette portion of the electronic cigarette and the heater does not occur such that the risk of damage to the heater is small.

Description

Heater module for electronic cigarette using Titanium}

The present invention relates to a heater module for an electronic cigarette using titanium, and more particularly, high durability and high thermal conductivity to prevent damage to the heater when inserting the heater into the cigarette portion of the electronic cigarette, and to reduce the cooldown time of the heater. The present invention relates to a heater module for an electronic cigarette using titanium formed by manufacturing a separate heater heat dissipation case made of titanium and inserting a heater into a coupling groove formed in the heater heat dissipation case.

In general, tobacco is a favorite product frequently used by smokers, and contains a large amount of various harmful substances such as nicotine, which are harmful to the human body, and thus various diseases such as lung cancer and circulatory diseases are not generally recommended. Moreover, the smoking cessation area is greatly expanded because it damages people who do not smoke because of indirect smoking, but it is very difficult for enthusiasts to quit smoking habitually. Accordingly, in recent years, electronic cigarettes have been developed and marketed to provide similar effects to actual smoking for smoking cessation. In the early days, e-cigarettes in the form of vaporizing liquid essences were released, but recently, cigarette-type cigarettes have also been released. Cigarette-type electronic cigarettes consist of a battery that supplies power and a heater that heats the cigarette portion. By the way, the conventional heater is generally arranged to place the heating element on a flat heater substrate. However, such a heater has a problem in that durability, such as when the heater is broken or bent when inserted into a cigarette part, may occur.

Republic of Korea Patent No. 10-0557335

The present invention is to manufacture a separate heater heat dissipation case made of titanium material with high durability and thermal conductivity to prevent damage to the heater when inserting the heater in the cigarette portion of the electronic cigarette, and to reduce the cooldown of the heater, heat dissipation of the heater An object of the present invention is to provide a heater module for an electronic cigarette using titanium formed by inserting a heater into a coupling groove formed inside the case.

According to an aspect of the present invention, the present invention provides a heater module for heating a cigarette part of a cigarette-type electronic cigarette comprising a filter part and a cigarette part, the front part has a pointed structure so that the cigarette part can be inserted And a coupling groove having a set depth in the front portion direction is formed at a rear end thereof, and is inserted into the heater heat dissipation case of titanium material, and detachably inserted into the coupling groove, and is formed on a substrate and the substrate, and the electric power is supplied from the power supply unit. It includes a heater including a heater electrode provided, the heater provides a heater module for an electronic cigarette using titanium for heating the cigarette portion by heating the heater heat dissipation case.

Heater module for an electronic cigarette using titanium according to the present invention has the following effects.

First, since the heater is inserted into the heater heat dissipation case, the contact between the cigarette portion of the e-cigarette and the heater does not occur, so the risk of damage to the heater is small.

Secondly, the heater heat dissipation case into which the heater is inserted is formed of titanium, so durability and heat conductivity are excellent.

Third, the heat produced by the heater is not directly transmitted to the cigarette part, but is transferred to the cigarette part through a heater heat dissipation case supplied with heat from the heater, so that heat is evenly transmitted to the entire cigarette part.

1 is a perspective view showing a heater module for an electronic cigarette using titanium according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along line II-II of the heater module for an electronic cigarette using titanium according to FIG. 1.
3 is a cross-sectional view taken along line III-III of the heater module for an electronic cigarette using titanium according to FIG. 1.
4 is a schematic view showing a heater heat dissipation case and a heater coated with an insulating film of the heater module for an electronic cigarette using titanium according to FIG. 1.
Figure 5 is a schematic diagram showing a state in which the heater of the electronic cigarette heater module using titanium according to Figure 1 is inserted into the coupling groove of the heater heat dissipation case.
Figure 6 is a schematic diagram showing the heat dissipation from the heater module for an electronic cigarette using titanium according to Figure 1;
FIG. 7 is a schematic view showing a state in which a heater module for an electronic cigarette using titanium according to FIG. 1 is inserted into a cigarette part of the electronic cigarette.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4, the heater module 100 for an electronic cigarette using titanium according to an embodiment of the present invention includes a heater heat dissipation case 110 and a heater 120. The heater heat dissipation case 110 may include a rear portion 111 of the heater heat dissipation case, a front part 112 of the heater heat dissipation case, and a first insulating layer 113.

The rear portion 111 of the heater heat dissipation case is formed in a shape in which the hexagonal pillar-shaped portion and the square-pillar-shaped portion are integrally connected. The square pillar-shaped portion has a larger cross-sectional area of the boundary portion with the hexagonal pillar-shaped portion than that of the hexagonal pillar-shaped portion. The square pillar-shaped portion can be changed in various forms to facilitate connection with other members. In addition, the present invention is not limited thereto, and the rear portion 111 of the heater heat dissipation case 110 may be formed of only the hexagonal pillar-shaped portion. However, the present invention is not limited thereto, and the shape of the rear portion 111 of the heater heat dissipation case is a semi-cylindrical column or other in which a cylinder, an octagonal column, a decagonal column, and a cylinder are cut into cross sections passing through the center of the upper and lower surfaces of the cylinder. Can be changed to a polyhedron in the form.

A coupling groove 111a is formed at a rear end of the heater heat dissipation case 110, that is, at an opposite portion of the front part 112 of the heater heat dissipation case to insert the heater 120. The coupling groove 111a is formed to have a length of 15 mm to 18 mm from the rear end of the heater heat dissipation case 110 toward the front portion 112 of the heater heat dissipation case. However, the present invention is not limited thereto, and the length of the coupling groove 111a may be changed. The coupling groove 111a is formed in the shape of a hexahedron having one surface opened to correspond to the shape of the heater. However, the present invention is not limited thereto, and the coupling groove 111a may be changed to another shape in which the heater 120 may be inserted.

In addition, the coupling groove 111a is formed at the rear end of the heater heat dissipation case 110, that is, at the center of a quadrangular surface formed in a direction opposite to the front portion 112 of the heater heat dissipation case. Of course, the coupling groove 111a is formed at the center of the surface of the other shape when the rear end of the heater heat dissipation case 110 is formed of the surface of the other shape. Therefore, the coupling groove 111a is a rear portion 111 of the heater heat dissipation case from the rear end of the heater heat dissipation case 110 to an interface between the front portion 112 of the heater heat dissipation case and the rear portion 111 of the heater heat dissipation case. Is formed through the center. Therefore, when the heater 120 is inserted into the coupling groove 111a, the heat generated from the heater 120 is spread evenly toward the rear portion 111 of the heater heat dissipation case. However, the present invention is not limited thereto, and the formation position of the coupling groove 111a may be changed.

The front portion 112 of the heater heat dissipation case has a pointed structure. The front portion 112 of the heater heat dissipation case is a portion at which insertion starts when the heater module 100 for electronic cigarette using the titanium is inserted into the cigarette portion of the electronic cigarette. Therefore, it has a pointed shape to facilitate insertion. That is, the front part 112 of the heater heat dissipation case is formed in the shape of a hexagonal pyramid. However, the present invention is not limited thereto, and the cone-shaped, octagonal-shaped, twelve-pyramidal, and cone-shaped cones may facilitate the insertion of the heater module 100 for an electronic cigarette using the titanium into a cigarette part of the electronic cigarette. It is possible to change the shape of the semi-conical or other polygonal shape cut into the cross section penetrating the center of the attachment and the lower surface.

The heater heat dissipation case 110 is formed of a titanium material. As described above, the heater heat dissipation case 110 is a portion at which insertion is started when the heater module 100 for an electronic cigarette using the titanium is inserted into a cigarette part of the electronic cigarette. Therefore, the heater heat dissipation case 110 is subjected to great resistance when inserted into the cigarette part of the electronic cigarette. Therefore, when the rigidity of the heater heat dissipation case 110 is weak, damage to the heater heat dissipation case 110 may occur when the heater heat dissipation case 110 is inserted into a cigarette part of the electronic cigarette. Therefore, since the heater heat dissipation case 110 is made of a titanium material having strong rigidity, the heater heat dissipation case 110 may be smoothly inserted without any damage even when the heater heat dissipation case 110 is inserted into the cigarette part of the electronic cigarette. That is, the electronic cigarette heater module 100 using the titanium is an electronic cigarette heater module 100 using the titanium even when a strong external force that may be generated in the electronic cigarette heater module 100 when inserted into the cigarette portion of the electronic cigarette. There is an advantage that can reduce the possibility of damage.

Referring to FIG. 4, the first insulating layer 113 is coated on the heater heat dissipation case 110. Of course, the formation of the first insulating layer 113 can be changed by other methods than by the coating. The first insulating layer 113 is formed of titanium dioxide (TiO 2). However, the present invention is not limited thereto, and the first insulating layer 113 may be changed to titanium nitride (TiN), titanium carbide (TiC), titanium carbide nitride (TiCN), or another material. The heater heat dissipation case 110 is formed of titanium and thus has conductivity. Therefore, when the first insulating layer 113 is not formed in the heater heat dissipation case 110, a current is supplied to the heater heat dissipation case 110 and the heater 120 is inserted into the heater heat dissipation case 110. Is likely to degrade performance. Therefore, the first insulating film 113 is coated on both the outer surface of the heater heat dissipation case 110 and the inner surface of the coupling groove 111a to prevent the current from being supplied, thereby preventing deterioration of the performance of the heater 120. . However, the present invention is not limited thereto, and the first insulating layer 113 may be formed only inside the coupling groove 111a.

In addition, the heater heat dissipation case 110 formed of a titanium material has high thermal conductivity. Therefore, even when the user using the electronic cigarette heater module 100 using the titanium continuously uses the electronic cigarette heater module 100 using the titanium, there is an advantage that can be reused quickly.

The heater 120 includes a substrate 121, a heater electrode 122, a heater electrode terminal 123, and a second insulating layer 124. The substrate 121 serves as a base plate on which the heater electrode 122 is disposed. The substrate 121 is formed of alumina. However, the present invention is not limited thereto, and the substrate 121 may be changed to another material. The substrate 121 is formed in a shape corresponding to the shape of the coupling groove 111a of the heater heat dissipation case. Therefore, when the substrate 121 is inserted into the coupling groove 111a of the heater heat dissipation case, the substrate 121 is in close contact with the coupling groove 111a of the heater heat dissipation case. Therefore, the heat transfer efficiency is high when the heater electrode 122 is heated to transfer heat to the heater heat dissipation case 110. However, the present invention is not limited thereto, and the substrate 121 may be changed to a shape different from that of the coupling groove 111a of the heater heat dissipation case.

The heater electrode 122 is electrically connected to the power supply unit 130 through the first conductive line 131 and the second conductive line 132 connected to the heater electrode terminal 123. The heater electrode 122 is a part which receives electric energy from the power supply unit 130 and actually generates heat. The heater electrode 122 is formed of platinum. However, the present invention is not limited thereto and may be changed to another metal having high heat generation efficiency. The heater electrode 122 is formed on the upper surface of the substrate 121. In the present exemplary embodiment, the heater electrode 122 is formed in an English letter “U”, but the shape or formation position of the heater electrode 122 may be changed.

Referring to FIG. 4, the second insulating layer 124 is coated on the heater electrode 122. Of course, the formation of the second insulating layer 124 may be changed by other methods than by the coating. Since the heater electrode 122 is formed of a conductive material, electricity is well communicated. Therefore, the heater electrode 122 may have a deterioration in performance due to energization with the heater heat dissipation case 110. Therefore, the heater electrode 122 is coated with the second insulating layer 124 to block current flow, thereby preventing performance degradation of the heater electrode 122.

The heater 120 is inserted into the coupling groove 111a of the heater heat dissipation case. In addition, the heater 120 may be attached to or detached from the coupling groove 111a of the heater heat dissipation case. Therefore, the heater 120 does not directly contact the cigarette part when inserted into the cigarette part of the electronic cigarette. Therefore, the possibility of damage due to frictional force or other external force generated when inserting into the cigarette part of the electronic cigarette is low.

The power supply unit 130 is formed of a lithium ion battery for supplying DC power. However, the present invention is not limited thereto and may be changed to a nickel-based battery such as a nickel-metal hydride battery, a nickel-cadmium battery, or another lithium-based battery such as a lithium-cobalt battery or a lithium-phosphate battery. The power supply unit 130 supplies electric energy to the heater 120 to generate heat in the heater 120.

In addition, the electronic cigarette heater module 100 using the titanium may include a control member for controlling the power supply unit 130. The control member may be a simple switch (not shown). However, the present invention is not limited thereto and may be changed to another control member. By controlling the power supply unit 130 by operating the switch (not shown), it is possible to control whether electric energy is supplied to the heater 120.

Referring to FIG. 5, FIG. 5 illustrates a state in which the heater 120 is inserted into the coupling groove 111a of the heater heat dissipation case of the heater module 100 for e-cigarettes using the titanium. The heater 120 may be detachable from the coupling groove 111a of the heater heat dissipation case. That is, the heater 120 is not attached to and formed in the coupling groove 111a of the heater heat dissipation case, and is manufactured separately so that the heater 120 can be inserted into and removed from the coupling groove 111a of the heater heat dissipation case. Therefore, since the heater heat dissipation case 110 only needs to have a shape in which the heater 120 can be inserted, the material of the heater heat dissipation case 110 is small. Therefore, the heater heat dissipation case 110 has an advantage that it can be made of various materials having a strong rigidity to protect the heater 120.

Referring to FIG. 6, FIG. 6 schematically illustrates a state in which electrical energy is supplied to the heater 120 by the power supply unit 130 of the heater module 100 for an electronic cigarette using the titanium according to FIG. 1. . When the heater 120 receives electrical energy from the power supply unit 130 and heats the heater 120, the heater 120 transfers heat generated from the heater 120 to the heater heat dissipation case 110. The heater heat dissipation case 110 discharges the received heat to the outside. At this time, the heater heat dissipation case 110 has a high thermal conductivity and is heated as a whole by the heat received from the heater 120.

Referring to FIG. 7, FIG. 7 schematically illustrates that the electronic cigarette heater module 100 using the titanium according to FIG. 1 is inserted into a cigarette part of the electronic cigarette. First, insertion is started through the front part 112 of the heater heat dissipation case into the cigarette part. When the rear part 111 of the heater heat dissipation case is inserted into the cigarette part, electric energy is supplied to the heater 120 through the power supply unit 130. At this time, the power supply unit 130 is controlled through the operation of the switch (not shown). When the heater 120 receives electric energy from the power supply 130, the heater 120 is heated. The heated heater 120 transfers the received heat to the heater heat dissipation case 110. The heater heat dissipation case 110 supplied with heat from the heater 120 is heated in its entirety. The heated heater heat dissipation case 110 discharges heat to the cigarette portion through the entire outer surface of the heater heat dissipation case 110. Therefore, the cigarette portion is uniformly heated evenly due to the heat supplied from the entire outer surface of the heater heat dissipation case 110. Therefore, a user using the electronic cigarette has an advantage of easily inhaling steam generated from the cigarette portion evenly heated.

Although the present invention has been described with reference to the embodiments shown in the drawings, these are merely exemplary and will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: electronic cigarette heater module 110 using titanium: heater heat dissipation case
111: rear portion of the heater heat dissipation case 111a: coupling groove
112: front portion of the heater heat dissipation case 113: first insulating film
120: heater 121: substrate
122: heater electrode 123: heater electrode terminal
124: second insulating film 130: power supply
131: first conductive line 132: second conductive line

Claims (8)

A heater module for an electronic cigarette for heating a cigarette portion of a cigarette type electronic cigarette comprising a filter portion and a cigarette portion,
The front portion has a pointed structure so that the cigarette portion can be inserted, the rear end is formed with a coupling groove of a predetermined depth in the front portion direction, the heater heat dissipation case of titanium material;
Is inserted into the coupling groove detachably, and formed on the substrate and the substrate, including a heater comprising a heater electrode provided with electricity from the power supply,
The heater is an electronic cigarette heater module using titanium for heating the cigarette portion by heating the heater heat dissipation case. The method according to claim 1,
The front portion of the heater heat dissipation case,
Heater module for electronic cigarette using titanium formed in the shape of hexagonal pyramid or cone. The method according to claim 1,
The heater heat dissipation case,
The rear part of the heater is inserted, the heater module for an electronic cigarette using titanium formed by integrally connected on one surface of the portion made of a hexagonal pillar shape formed of a square pillar shape. The method according to claim 1,
The heater heat dissipation case,
The heater module for an electronic cigarette using titanium in which the 1st insulating film is formed in the outer surface of the said heat radiation case, and the inner side of the said coupling groove. The method according to claim 1,
The coupling groove is an electronic cigarette heater module using titanium formed in a shape corresponding to the shape of the heater. The method according to claim 1,
The coupling groove,
Heater module for an electronic cigarette using one end is formed in the center of the rear end of the heater heat dissipation case. The method according to claim 1,
The coupling groove,
The heater module for an electronic cigarette using titanium formed from the rear end of the said heater to the boundary surface of the rear part of the said heater heat dissipation case, and the front part of the heater heat dissipation case. The method according to claim 1,
The heater electrode of the heater,
Heater module for an electronic cigarette using a titanium outer side is fixed in close contact with the inner side of the coupling groove.

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