JP2019136647A - Sprayer - Google Patents

Abstract

To provide a sprayer that can suppress generation of rust in a heat generator.SOLUTION: A sprayer includes: a holding body 21 for holding liquid; and a heat generator 22 including a carbon fiber that generates heat by being supplied with a current, and propagating heat to the holding body 21 from the carbon fiber to vaporize the liquid held in the holding body 21 through contact between the carbon fiber and the holding body 21.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a nebulizer.

  An atomizer for electronic cigarettes includes a wick and a heating element wound around the wick in a cylindrical housing (for example, see Patent Document 1). The heating element is a metal wire, and when the current is supplied to the heating element, the liquid material held by the wick is heated. Thereby, the liquid material evaporates, and as a result, the gas derived from the liquid material is ejected from the inside of the housing to the outside of the housing.

JP-T-2006-539773

By the way, if the heating element keeps in contact with the wick holding the liquid material, rust may be generated on the surface of the heating element. The rust generated on the surface of the heating element changes the electric power required for heating the liquid material, the gas component to be ejected, and the like.
An object of this invention is to provide the sprayer which enabled it to suppress generation | occurrence | production of the rust in a heat generating body.

  A sprayer for solving the above-described problem includes a holding body that holds a liquid material, and carbon fibers that generate heat when current is supplied, and is held by the holding body through contact between the carbon fibers and the holding body. And a heating element that transfers heat for vaporizing the liquid material from the carbon fiber to the holding body.

  According to the said structure, the heat for vaporizing a liquid is obtained by the heat_generation | fever of carbon fiber. Even if the carbon fiber is kept in contact with the holding body that holds the liquid material, rust is hardly generated on the surface of the carbon fiber, so that the heat generating body can be prevented from rusting when the liquid material is vaporized.

  In the sprayer, the heating element may have a film shape covering an outer surface of the holding body. According to the above configuration, since the heating element does not have a complicated shape like the coil that circulates around the holding body, the shape of the heating element is prevented from deviating from the designed shape, thereby reducing the defective rate of the sprayer. Can be lowered.

  In the sprayer, the holding body may be a holding fiber bundling body, and the heating element may have a film shape covering an outer surface of the holding fiber. According to the above configuration, since the outer surface of the holding fiber is heated by the heating element, the holding fiber and the liquid material held between the holding fibers are easily vaporized.

  In the sprayer, an outer surface of the holding fiber may include a first portion covered by the heating element and a second portion not covered by the heating element. According to the said structure, since a liquid body vaporizes preferentially from the 1st part of a holding fiber, a liquid body can be vaporized from a 1st part, hold | maintaining a liquid body in a 2nd part.

  In the sprayer, the second portion is located at an end portion of the holding fiber, and the sprayer is a supply body in contact with the end portion, holds the liquid material, and holds the held liquid material. You may further provide the said supply body supplied to the said holding body from the said edge part.

  According to the said structure, the supply body which supplies a liquid is in contact with the edge part of holding fiber, and the edge part of holding fiber is not covered with the heat generating body. Therefore, it is possible to suppress the liquid material held in the supply body from being vaporized by the supply body, and it is possible to suppress the liquid material supplied to the support body from being vaporized at the end of the holding fiber. As a result, the supply body easily supplies a desired amount of the liquid material to the holding body.

  The said sprayer WHEREIN: The whole outer surface in the said holding fiber may be covered with the said heat generating body. According to the said structure, the holding fiber by which the whole outer surface was covered with the heat generating body can be used for manufacture of a holding body. That is, when manufacturing the holding body, since it is difficult to be restricted by the position and length of the heating element in the holding fiber, it is easy to manufacture the holding body using the holding fiber.

  In the sprayer, the holding fiber may be a glass fiber. According to the above configuration, since the holding fiber is configured by the glass fiber having higher heat resistance than cotton or the like, it is possible to suppress the holding fiber from being burnt by the heat generated by the heating element.

  In the sprayer, the carbon fiber may be a carbon nanotube. According to the said structure, it is possible to raise the mechanical tolerance and chemical tolerance in a heat generating body.

  According to the present invention, generation of rust in the heating element can be suppressed.

Sectional drawing which shows typically the structure of the spraying apparatus containing a sprayer. The perspective view which shows the structure of a holding body and a heat generating body. Sectional drawing which shows the structure of the sprayer in the cross section along the direction where a sprayer is extended.

  With reference to FIGS. 1 to 3, an embodiment embodying a sprayer will be described. Below, the example which actualized the sprayer as a part of spraying apparatus is demonstrated.

[Configuration of spraying device]
The configuration of the spray device will be described with reference to FIG.
As shown in FIG. 1, the spray device 10 includes a sprayer 11, a power supply unit 12, and a cartridge 13. The sprayer 11 has a cylindrical shape that defines the passage 11 a, and includes a holding body 21 and a heating element 22. The holding body 21 holds a liquid material, and the liquid material held by the holding body 21 is vaporized by the sprayer 11. The liquid material may be composed only of a liquid, or may be composed of a liquid and a solid. The heating element 22 includes carbon fibers that generate heat by supplying electric current, and heat for vaporizing the liquid material held by the holding body 21 from the carbon fibers to the holding body 21 through contact between the carbon fibers and the holding body 21. Tell. In the spraying device 10, heat for vaporizing the liquid is obtained by the heat generation of the carbon fibers. Even if the carbon fiber is kept in contact with the holding body 21 holding the liquid material, it is difficult for rust to be generated on the surface of the carbon fiber, so that the heat generating body 22 can be prevented from rusting when the liquid material is vaporized.

  The power supply unit 12 includes a battery, an electronic circuit, and a housing that accommodates the battery and the power supply circuit. The battery supplies current to the heating element 22. The battery may be a primary battery or a secondary battery. The electronic circuit controls the supply of current from the battery to the heating element 22.

  The cartridge 13 includes a flange portion 13a and a housing portion 13b. The accommodating portion 13 b has a cylindrical shape that can be fitted into the passage 11 a of the sprayer 11. The flange part 13a is located in one edge part among the two cylinder ends with which the accommodating part 13b is equipped, and several through-holes are formed in the other edge part. The flange portion 13a has a shape extending from the cylindrical end of the housing portion 13b toward the radially outer side of the housing portion 13b. The flange portion 13 a contacts the tube end of the sprayer 11 when the housing portion 13 b is fitted in the passage 11 a of the sprayer 11. Thereby, the cartridge 13 is fixed to the sprayer 11.

  The contents corresponding to the application of the spraying device 10 are accommodated in the accommodating portion 13b. When the spray device 10 is used by heating tobacco, the contents can include, for example, tobacco leaves. When the spray device 10 is used as an inhaler, examples of the contents include various drugs.

  In the spraying device 10, the carbon fiber generates heat by supplying current from the power supply unit 12 to the carbon fiber included in the heating element 22. The liquid material held by the holding body 21 is heated by the heat generated by the carbon fibers, and the liquid material is vaporized. The vaporized liquid material is ejected to the outside of the spraying device 10 through the passage 11a of the sprayer 11 and the accommodating portion 13b of the cartridge 13. The user of the spray device 10 can inhale the gas ejected from the spray device 10 by holding a part of the cartridge 13 and the cylindrical end of the sprayer 11 in the mouth.

  In the spray device 10, the cartridge 13 can be omitted. In the configuration in which the cartridge 13 is omitted, the user of the spraying device 10 can inhale the gas ejected from the spraying device 10 by adding the tube end of the sprayer 11 to the mouth.

[Configuration of sprayer]
The configuration of the sprayer 11 will be described in more detail with reference to FIGS. Below, before explaining the whole sprayer 11, the holding body 21 and the heat generating body 22 with which the sprayer 11 is provided are demonstrated in detail.

  As shown in FIG. 2, the heating element 22 has a film shape that covers the outer surface of the holding body 21. The holding body 21 is a bundling body of a plurality of holding fibers 21A, and the heating element 22 has a film shape covering the outer surface of the holding fibers 21A. In the present embodiment, the heating element 22 is composed of a plurality of coating films 22A, and each coating film 22A covers the outer surface of one different holding fiber 21A. The plurality of coating films 22A are electrically connected to each other by being in contact with each other.

  Thus, since the heating element 22 does not have a complicated shape like the coil that circulates around the holding body 21, the shape of the heating element 22 is prevented from deviating from the designed shape. The rate can be lowered. In addition, when a heat generating body has a complicated shape like a coil, possibility that a heat generating body will deform | transform to such an extent that the function of a heat generating body is impaired by deformation | transformation of the holding body which heat generating body contacts is high. On the other hand, since the heating element 22 of this embodiment is a film, even if the holding body 21 is deformed, the function of the heating element 22 is not easily impaired. Further, since the outer surface of the holding fiber 21A is heated by the heating element 22, the holding fiber 21A and the liquid material held between the holding fibers 21A are easily vaporized.

  The holding fibers 21A have a linear shape extending along one direction. The outer surface of the holding fiber 21A includes a first portion 21A1 covered with the coating film 22A and a second portion 21A2 not covered with the coating film 22A. The second portion 21A2 is located at each end of the holding fiber 21A. Therefore, the liquid material is preferentially vaporized from the first portion 21A1 of the holding body 21, whereby the liquid material can be vaporized from the first portion 21A1 while holding the liquid material in the second portion 21A2.

  The holding fibers 21A are preferably glass fibers. Since the holding fibers 21A are made of glass fibers having higher heat resistance than cotton or the like, the holding fibers 21A can be prevented from being burnt by the heat generated by the heating element 22. The holding fibers 21A are not limited to glass fibers, and various fibers such as cotton fibers and synthetic resin fibers can be used.

  The proportion of carbon fibers in the heating element 22 is, for example, 60% by mass or more and 100% by mass or less. The heating element 22 can include, for example, an adhesive that bonds the carbon fibers to each other in addition to the carbon fibers. The carbon fiber that is the main component of the heating element 22 is a carbon nanotube. Thereby, it is possible to increase the mechanical resistance and chemical resistance in the heating element 22. As the carbon nanotube, both a single-walled carbon nanotube and a multilayered carbon nanotube can be used. The carbon fibers are not limited to carbon nanotubes, and various carbon fibers such as carbon nanohorns and carbon nanofibers can be used.

  In the heating element 22, the carbon nanotubes constituting each coating film 22A include carbon nanotubes that are electrically connected to any of the other carbon nanotubes. Therefore, when electric power is supplied to the heating element 22, electric power is supplied to all the coating films 22A.

  The sprayer 11 further includes two wires 23. Of the two ends of each wiring 23, one end is electrically connected to a part of the heating element 22, and the other end is electrically connected to a terminal included in the power supply unit 12. Each wiring 23 may be electrically connected to the heating element 22 by being bonded to the heating element 22, or may be bonded to the heating element 22 by being wound around the heating element 22. Each wiring 23 may be in contact with all the coating films 22A constituting the heating element 22 or may be in contact with only a part of the coating films 22A. A conductor can be used for the wiring 23, for example, a metal wire can be used. Each wiring 23 is preferably covered with an insulating film formed of an insulator.

  The resistance value of the heating element 22 is, for example, 3Ω or more and 3.3Ω or less. The resistance value of the heating element 22 can be measured as a resistance value between the two wires 23. The resistance value of the heating element 22 includes the thickness of each coating film 22A constituting the heating element 22, the length of each coating film 22A, the ratio of carbon fibers in each coating film 22A, and the heating element 22 The number of coating films 22A to be adjusted can be adjusted. Since the heating element 22 has the resistance value as described above, the heating element 22 is heated to a temperature of, for example, 200 ° C. or more and 300 ° C. or less by supplying a current to the heating element 22 through the wiring 23.

  The heating element 22 can be formed by the following method, for example. That is, when forming the heating element 22, first, a plurality of holding fibers 21 </ b> A constituting the holding body 21 are prepared. Then, a coating liquid containing carbon fibers is applied to a part of each holding fiber 21A. In order to obtain the heating element 22 of the present embodiment, the coating liquid is applied to the portion of the holding fiber 21A including the center in the direction in which the holding fiber 21A extends. And the holding fiber 21A covered with the coating film 22A constituting the heating element 22 can be obtained by drying the coating liquid. By holding the plurality of holding fibers 21A together, the holding body 21 and the heating element 22 that covers a part of the holding body 21 can be obtained.

  FIG. 3 shows the structure of the sprayer 11 in a cross section along the direction in which the spraying device 10 extends. In FIG. 3, for convenience of illustration, a plurality of holding fibers are shown as one block, and a plurality of coating films 22 </ b> A are shown as one block.

  As shown in FIG. 3, the sprayer 11 includes a supply body 24, an outer cylinder part 25, an inner cylinder part 26, and a lid part 27. Each of the outer cylinder part 25 and the inner cylinder part 26 has a cylindrical shape along the direction in which the spray device 10 extends, and the inner cylinder part 26 is located in a space defined by the outer cylinder part 25. For example, a synthetic resin or a metal can be used as a material for forming the outer cylinder portion 25. For example, synthetic resin or glass fiber can be used as a material for forming the inner cylindrical portion 26. The material forming the inner cylindrical portion 26 preferably has an insulating property.

  The holding body 21 and the heating element 22 are located in a space defined by the outer cylindrical portion 25. The holding body 21 extends along the direction substantially orthogonal to the direction in which the outer cylinder portion 25 extends inside the outer cylinder portion 25, and penetrates the inner cylinder portion 26 in the direction in which the holding body 21 extends. The heating element 22 is located in the space defined by the inner cylindrical portion 26 in the direction in which the holding body 21 extends, and does not penetrate the inner cylindrical portion 26. In other words, both end portions of the heating element 22 are located on the inner side of the inner cylindrical portion 26. In other words, in the holding body 21, each second portion 21 </ b> A <b> 2 is located outside the inner cylinder portion 26, and both end portions of the first portion 21 </ b> A <b> 1 are located inside the inner cylinder portion 26. .

  Each wiring 23 has a shape extending from a part of the heating element 22 located inside the inner cylinder part 26 toward the power supply part 12.

  The supply body 24 is in contact with the second portion 21A2 that is the end portion of the holding fiber 21A on the outer side of the heating element 22. The supply body 24 holds the liquid material and supplies the held liquid material to the holding body 21 from the end of the holding fiber 21A. The supply body 24 is located between the outer cylinder part 25 and the inner cylinder part 26. The supply body 24 is in contact with a part of the second portion 21A2 included in the holding body 21 between the outer cylinder portion 25 and the inner cylinder portion 26.

  The supply body 24 is a fiber layer located between the outer cylinder part 25 and the inner cylinder part 26, for example. The supply body 24 is configured by forming a fiber layer having a sheet shape into a cylindrical shape. For example, cotton or synthetic resin can be used as a material for forming the supply body 24. The supply body 24 may have a single layer structure or a multilayer structure. When the supply body 24 has a multilayer structure, the plurality of layers may include layers formed of different materials.

  The supply body 24 holds a liquid material that is vaporized by the heating element 22. The supply body 24 fills almost the entire space formed between the inner cylinder part 26 and the outer cylinder part 25. Therefore, a portion of the holding body 21 that protrudes from the inner cylindrical portion 26 contacts the supply body 24. In addition, as described above, the end of the holding fiber 21 </ b> A is included in the portion of the holding body 21 that protrudes from the inner cylindrical portion 26. Thereby, the supply body 24 that supplies the liquid material is in contact with the end of the holding fiber 21 </ b> A, and the end of the holding fiber 21 </ b> A is not covered with the heating element 22. Therefore, it is possible to suppress the liquid material held in the supply body 24 from being vaporized by the supply body 24, and to suppress the liquid material supplied to the holding body 21 from being vaporized at the end of the holding fiber 21A. As a result, the supply body 24 can easily supply a desired amount of the liquid material to the holding body 21.

  The supply body 24 can be held by dipping the supply body 24 in the liquid body, dropping the liquid body onto the supply body 24, or applying a liquid body to the supply body 24. .

  The lid portion 27 has a closed ring shape. The lid portion 27 is located at an end portion into which the cartridge 13 is fitted out of the cylindrical ends of the outer cylindrical portion 25 and the inner cylindrical portion 26, and seals a space between the outer cylindrical portion 25 and the inner cylindrical portion 26. Yes. The material forming the lid portion 27 may be a metal or various synthetic resins.

As described above, according to one embodiment of the sprayer, the effects listed below can be obtained.
(1) The heat for vaporizing the liquid is obtained by the heat generation of the carbon fibers. Even if the carbon fiber is kept in contact with the holding body 21 holding the liquid material, it is difficult for rust to be generated on the surface of the carbon fiber, so that the heat generating body 22 can be prevented from rusting when the liquid material is vaporized.

  (2) Since the heating element 22 does not have a complicated shape like a coil that circulates around the holding body 21, the shape of the heating element 22 is suppressed from being deviated from the designed shape, and thereby the defective rate of the sprayer 11. Can be lowered.

  (3) Since the outer surface of the holding fiber 21A is heated by the heating element 22, the holding fiber 21A and the liquid material held between the holding fibers 21A are easily vaporized.

  (4) Since the liquid material is preferentially vaporized from the first portion 21A1 of the holding fiber 21A, the liquid material can be vaporized from the first portion 21A1 while the liquid material is retained in the second portion 21A2.

  (5) The supply body 24 for supplying the liquid material is in contact with the end portion of the holding fiber 21 </ b> A, and the end portion of the holding fiber 21 </ b> A is not covered with the heating element 22. Therefore, it is possible to suppress the liquid material held in the supply body 24 from being vaporized by the supply body 24, and to suppress the liquid material supplied to the holding body 21 from being vaporized at the end of the holding fiber 21A. As a result, the supply body 24 can easily supply a desired amount of the liquid material to the holding body 21.

  (6) Since the holding fiber 21 </ b> A is composed of glass fiber having higher heat resistance than cotton or the like, the holding fiber 21 </ b> A can be prevented from being burnt by the heat generated by the heating element 22.

  (7) Mechanical resistance and chemical resistance in the heating element 22 can be increased.

The embodiment described above can be implemented with appropriate modifications as follows.
[Holding body 21]
The entire outer surface of the holding fiber 21 </ b> A may be covered with the coating film 22 </ b> A that constitutes the heating element 22. According to such a configuration, the following effects can be obtained.

  (8) The holding fiber 21 </ b> A whose entire outer surface is covered with the heating element 22 can be used for manufacturing the holding body 21. That is, when the holding body 21 is manufactured, the position and length of the heating element 22 in the holding fiber 21A are not easily restricted, and therefore the manufacturing of the holding body 21 using the holding fiber 21A is easy.

  The second portion 21A2 may be located only at one end of each holding fiber 21A. Even in such a configuration, according to the second portion 21A2 of the holding fiber 21A, the effect according to the above-described (5) can be obtained.

  -The holding body 21 does not need to be comprised from the some holding fiber 21A, for example, may be comprised from one holding fiber. Alternatively, the holding body may be, for example, a non-woven fabric formed from cotton or synthetic resin, or may be a porous member that can hold the liquid material.

[Heating element 22]
The heating element 22 may have a cylindrical shape that contacts a part of the outer surface of each holding fiber 21A. In other words, all the holding fibers 21 </ b> A may be passed through the space defined by the heating element 22. Even in such a configuration, since the heating element 22 contacts each holding fiber 21A, the liquid material held by the holding fiber 21A is heated by the heat generated by the heating element 22.

  The heating element 22 has a plurality of coating films 22A covering the outer surface of each holding fiber 21A, and a cylindrical shape in contact with a part of the outer surface of each holding fiber 21A, and all the holding fibers 21A pass through. You may provide both with a film | membrane.

  The heating element 22 may have a shape other than a film shape. The heating element 22 may have, for example, a coil shape wound around the outer peripheral surface of the holding body 21.

[Other variations]
The supply body 24 may be omitted. In such a configuration, the liquid material only needs to be filled between the outer cylinder portion 25 and the inner cylinder portion 26.

DESCRIPTION OF SYMBOLS 10 ... Spraying device, 11 ... Sprayer, 11a ... Passage | path, 12 ... Power supply part, 13 ... Cartridge, 13a ... Flange part, 13b ... Storage part, 21 ... Holding body, 21A ... Holding fiber, 21A1 ... 1st part, 21A2 ... 2nd part, 22 ... heating element, 22A ... coating film, 23 ... wiring, 24 ... supply body, 25 ... outer cylinder part, 26 ... inner cylinder part, 27 ... lid part.

Claims (8)

A holding body for holding a liquid;
Heat generation that includes carbon fibers that generate heat when supplied with an electric current, and transmits heat from the carbon fibers to the holding body through the contact between the carbon fibers and the holding body to vaporize the liquid material held by the holding body. A sprayer comprising: a body; The sprayer according to claim 1, wherein the heating element has a film shape covering an outer surface of the holding body. The holding body is a bundling body of holding fibers;
The sprayer according to claim 1, wherein the heating element has a film shape covering an outer surface of the holding fiber. The sprayer according to claim 3, wherein an outer surface of the holding fiber includes a first portion covered by the heating element and a second portion not covered by the heating element. The second part is located at an end of the holding fiber,
The said sprayer is a supply body which contact | connects the said edge part, Comprising: The said supply body which hold | maintains the said liquid body and supplies the held said liquid body to the said holding body from the said edge part is further provided. The atomizer described. The sprayer according to claim 3, wherein the entire outer surface of the holding fiber is covered with the heating element. The sprayer according to any one of claims 3 to 6, wherein the holding fiber is a glass fiber. The sprayer according to any one of claims 1 to 7, wherein the carbon fiber is a carbon nanotube.

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