JP4508733B2 - Aroma generator with electromagnetic wave of specific wavelength - Google Patents

Description

The present invention relates to an apparatus in which a fragrance is melted and aromad by a substance that generates heat by absorbing electromagnetic waves of a specific wavelength including light and infrared rays.

  Regarding the technique for aromatizing a fragrance using electromagnetic waves, the inventions described in Patent Document 1 and Patent Document 2 are known. In the invention described in Patent Document 1, a perfume-containing layer and a substance layer having electromagnetic wave absorptivity are laminated on a support layer (base film layer), and the electromagnetic wave absorbability of the surface layer is obtained by irradiating electromagnetic waves. The material layer is perforated, and the perfume of the lower fragrance can be emitted through the perforation so as to express fragrance.

On the other hand, in the invention of Patent Document 2, the object is to perform perfume and light emission only while using a mobile phone. The specific structure of the scenting means is provided with a heating means comprising a resistor electrically connected to the detection circuit, and the resonance current from the detection circuit is passed through the resistance as the heating means during use of the mobile phone to generate heat. The vaporization of the fragrance member is promoted by the heat, and the fragrance is promoted only during use of the mobile phone through which the resonance current flows.
JP-A-11-147287 Japanese Patent Laid-Open No. 2003-60738

  However, in the invention of Patent Document 1, the electromagnetic wave only perforates holes in which the fragrance can emit a fragrance in the surface material layer having electromagnetic wave absorptivity. It becomes fragrant. Therefore, there is a problem that the fragrance is consumed without any control such as fragrance or stopping the fragrance, and the useless fragrance proceeds even when the fragrance is not necessary. It was.

  Further, in the invention of Patent Document 2, a resonance current is generated during communication of a mobile phone, etc., and heat is generated in a heating means composed of a resistor connected to a detection circuit, and the fragrance member is vaporized by this heat. It is something to promote. The electromagnetic wave in this case is for communication for inputting / outputting a signal to / from a mobile phone, and does not control the scenting action by the electromagnetic wave itself. Therefore, by changing the frequency of the electromagnetic wave, it is not possible to select a fragrance material to be fragrant and obtain any fragrance, and once a fragrance member is mounted, only a certain scent can be enjoyed. There were drawbacks.

The present invention is obtained by improving the above in view of the above-mentioned problems, and by specifying the wavelength of electromagnetic waves, by performing perfume with a fragrance that reacts to the specific wavelength , any kind of We intend to provide technology that allows you to enjoy fragrance.

Thus, in order to solve the above problems, the means of claim 1 employed in the present invention is to mix a plurality of kinds of fragrances that volatilize when heated with each exothermic substance that absorbs light of a specific color and generates heat. The light emitting diode generates heat by using the light emitted from the light emitting diode, and a plurality of light emitting diodes that output light of different colors are provided by mixing heat generating materials that generate heat by different colors of light depending on the type of fragrance. A fragrance generating device using electromagnetic waves having a specific wavelength.

The means of claim 2 adopted by the present invention is that electromagnetic induction heating is performed by electromagnetic waves generated by mixing an electromagnetic induction heating component as a heat generating material with each of a plurality of types of fragrances that volatilize when heated, and causing a current to flow through an induction heating coil. A component that generates heat, wherein electromagnetic induction heating components having different wavelengths of electromagnetic waves generated depending on the type of fragrance are mixed, and an induction heating coil that generates electromagnetic waves having different wavelengths for each fragrance is provided. It is an aroma generator using electromagnetic waves of a specific wavelength.

According to the third aspect of the present invention , the electromagnetic induction heating component is mixed with each of a plurality of fragrances that volatilize when heated, and an electromagnetic induction heating component is mixed with the induction heating coil to generate electromagnetic induction. be one that generates heat to heat components, electromagnetic induction heating component wavelengths of the electromagnetic wave heating the type of fragrance different are mixed, wherein the induction heating coil are those capable of generating electromagnetic waves having different wavelengths A fragrance generator using electromagnetic waves of a specific wavelength.
In addition, as shown in claim 4, comprising a fan for blowing air to the fang pastilles, the fans may be as triggered by the electromagnetic wave heating the fragrance. When an electromagnetic wave having a specific wavelength is detected, the fan is driven and air is blown to the fragrance so as to be scented.
Furthermore, as shown in claim 5 , the fragrance may be housed in a container with an opening / closing lid, and the opening / closing lid may be opened by electromagnetic waves that heat the fragrance.

In the invention of claim 1 , by preparing a plurality of light emitting diodes and changing the color of light, it is possible to scent different types of fragrances, for example, by irradiating red light Sometimes the fragrance of rose fragrance is scented by a pyrogen that reacts with the wavelength of red light, and when scented with blue light, the scent of marine scent is generated by the pyrogen that reacts with the wavelength of blue light. Usage modes such as making the agent fragrant become possible. Thus, by selecting the color of light, it can be used to scent a specific fragrance, and its application range becomes extremely wide.

In the second and third aspects of the invention, electromagnetic waves having different wavelengths are generated by the induction heating coil, and the electromagnetic induction heating component mixed with the fragrance is heated according to the wavelength of the electromagnetic waves generated by the induction heating coil. If it is set to, a scent to be generated can be specified without generating an exothermic action in the adjacent electromagnetic induction heating component.
Furthermore, in invention of Claim 4 , when an electromagnetic wave is detected, a fan will drive and it will scent by blowing air to a fragrance | flavor. Furthermore, in claim 5 , when an electromagnetic wave having a specific wavelength is detected, the opening / closing lid of the container is opened, and the scent is emitted from the fragrance in the container.

The configuration of the present invention will be described below based on the embodiment of the invention shown in the drawings. FIG. 1 relates to a first embodiment of the present invention. As shown in the figure, in this embodiment, three transparent containers 1, 2, 3 having an upper surface opened are prepared, and electromagnetic waves (light, A substance that absorbs infrared rays, radio waves, X-rays, etc. and generates heat and a fragrance are mixed and contained. As a substance that generates heat by absorbing electromagnetic waves of a specific wavelength, there is a material that generates heat when absorbing light of a specific color. For example, as materials that generate heat by absorbing red light, there are CoO.nSnO2 and CaO.nAl2 O3, which are contained in the container 1 in FIG. In addition, as a material that absorbs blue light and generates heat, there is a zircon solid solution of selenium and cadmium , which is placed in a container 2 in FIG. Further, as a material that absorbs green light and generates heat, there is a mixture of cadmium selenide (CdSe) and cobalt phosphate, and the like is put in the container 3 in FIG.

On the other hand, in the container 1, a fragrance with a rose scent is mixed with a heat-generating substance such as CoO.nSnO2 that absorbs red light and generates heat. Further, the container 2 contains a marine scented fragrance mixed with a heat-generating substance such as a solid solution of selenium and cadmium that absorbs the blue light. Furthermore, the fragrance | flavor of a scent of peppermint is put into the container 3 by mixing with exothermic substances, such as cadmium selenide of the material which absorbs the green light and generates heat.
Further, above these containers 1 to 3, light emitting diodes (LEDs) 4 to 6 of three primary colors of red, blue and green are arranged.

Next, the operation | movement aspect of the fragrance generating apparatus comprised in this way is demonstrated. For example, assuming that the red light-emitting diode 4 is currently lit, the light-emitting diode 4 outputs light having a red wavelength (electromagnetic wave). Therefore, a heating material such as CoO.nSnO2 contained in the container 1 absorbs the red wavelength light (electromagnetic wave) and generates heat. Thereby, the fragrance | flavor agent of the rose fragrance put into the same container 1 is vaporized by the said heat | fever, and generate | occur | produces a fragrance. That is, it is possible to obtain the fragrance of a rose. At this time, the substance that absorbs blue or green in the containers 2 and 3 and generates heat does not react with red light (electromagnetic waves), so the fragrance of the scent of marine contained in the containers 2 and 3 Each fragrance is not emitted from the fragrance of the scent of the agent or peppermint.

Similarly, when the blue light-emitting diode 5 is turned on, a heat generating material such as selenium or cadmium solid solution contained in the container 2 absorbs the blue light (electromagnetic wave) and generates heat. The mixed marine scented fragrance is heated to vaporize it, thereby releasing the marine scent. At this time, the substance that generates heat by absorbing light (electromagnetic waves) of red and green wavelengths placed in the containers 1 and 3 does not react to the blue light (electromagnetic waves), and the scent of roses from the containers 1 and 3 No fragrance or peppermint fragrance is vaporized and the fragrances are not released.

This is the same when the green light emitting diode 6 is turned on. That is, in this case, the mixture of cadmium selenide (CdSe) and cobalt phosphate contained in the container 3 absorbs green light (electromagnetic waves) and generates heat, vaporizes the fragrance of peppermint, The scent is emitted. At this time, substances that generate heat by absorbing red or blue light (electromagnetic waves) placed in the other containers 1 and 2 do not react with the green light (electromagnetic waves), and the fragrance of roses from the containers 1 and 2 Air fresheners and marine fragrances are not vaporized and their fragrances are not emitted.

  As described above, in the first embodiment, by selecting the light emitting diodes 4 to 6 having different emission colors, only the substance that generates heat by absorbing light (electromagnetic waves) having a specific wavelength is heated. A fragrance fragrance set in advance by the exothermic material is vaporized to emit the fragrance. That is, a specific favorite scent can be emitted by selecting the color of the emitted light.

  FIG. 2 shows an aroma generating device according to the second embodiment of the present invention. As shown in the figure, in this embodiment, in the space region where the scent is generated between the light emitting diodes 4 to 6 and the containers 1 to 3, the blower fan 8 that uses the solar cell 7 as a power source is provided. It is installed on one side of each of the containers 1 to 3 arranged side by side. This is for forcibly blowing the fragrance generated from each container 1 to 3 so as to diffuse to every corner of the room. When the light emitting diodes 4 to 6 are turned on, the light energy is converted into electric energy. The fan starts to convert to. The strength of the fan can be adjusted. About the generation | occurrence | production mechanism of fragrance, it is the same as the case of the said 1st Embodiment.

  FIG. 3 shows an aroma generating apparatus according to the third embodiment of the present invention. In the third embodiment, a set of solar cells 7A to 7C and a blower fan 8 are disposed above each of the containers 1 to 3. Here, the solar cell 7A installed above the container 1 containing a mixture of a substance that absorbs light of red wavelength and generates heat and a fragrance of rose scent is sensitive only to red light. Is set to For example, a color filter that transmits only red may be used. Similarly, the solar cell 7B installed above the container 2 containing a mixture of a substance that absorbs blue wavelength light and generates heat and a marine fragrance has sensitivity only to blue light. It is set to have. Furthermore, the solar cell 7C installed above the container 3 containing a mixture of a substance that absorbs green wavelength light and generates heat and a scent of peppermint scent seems to have sensitivity only to green light. Is set to

Therefore, now, assuming that the light emitting diode 4 emits red light, the exothermic material accommodated in the container 1 absorbs the red light and generates heat, and heats the fragrance to give a rose scent. Will be generated. On the other hand, the solar cell 7 </ b> A senses the red light emitted from the light emitting diode 4 and generates electric energy to start the fan 8. Therefore, the rose scent generated from the container 1 is forcibly diffused by the fan 8.
Similarly, when the light emitting diode 5 that emits blue light is caused to emit light, the exothermic substance in the container 2 absorbs the blue light and generates heat, and the fragrance is heated to generate a marine scent. . Then, the solar cell 7B senses blue light to generate electrical energy, and the fan 8 is activated. The scent of marine is forcibly diffused by the fan 8.
Further, when the light emitting diode 6 that emits green light is caused to emit light, the exothermic substance in the container 3 absorbs the green light and generates heat, and the fragrance is heated to generate a scent of peppermint. The fan 8 is activated by detecting the green light and generating electric energy. Therefore, the scent of peppermint is forcibly diffused by the fan 8.

  FIG. 4 shows an aroma generating apparatus according to the fourth embodiment of the present invention. Containers 11 to 13 are prepared so that an electromagnetic induction heating component is prepared as a heat-generating substance, and this is mixed with a rose fragrance, a marine fragrance, or a peppermint fragrance. I have to. Under the containers 11 to 13, induction heating coils 9A to 9C are arranged, respectively. When an electric current is passed through each induction heating coil 9A to 9C, the electromagnetic induction heating component housed in each container 11 to 13 generates heat and generates a scent of each fragrance.

In this case, the wavelengths of the electromagnetic waves generated by the induction heating coils 9A to 9C are set separately, and the electromagnetic induction heating components in the containers 11 to 13 generate heat at the wavelengths of the electromagnetic waves generated by the induction heating coils 9A to 9C. If it is set to do, each of the induction heating coils 9A to 9C does not generate a heating action in the adjacent electromagnetic induction heating component, and the generated scent can be specified. Examples of substances that generate heat by electromagnetic waves having a specific wavelength include various ferrite materials, carbon-based materials, FRP, rubber materials, and the like.

FIG. 5 shows an aroma generating apparatus according to the fifth embodiment of the present invention. The mixture of the exothermic substance and the fragrance contained in the containers 11 to 13 is the same as in the case of the fourth embodiment. Thus, in this embodiment, one induction heating coil 14 is arranged so as to straddle the entire bottom of the containers 11 to 13. The induction heating coil 14 is set so as to be able to generate electromagnetic waves having three types of wavelengths . Three types of electromagnetic waves are generated by changing the frequency of the alternating current.
Therefore, by specifying the wavelength of the electromagnetic wave generated by the induction heating coil 14, it is possible to select which of the exothermic materials housed in each of the containers 11 to 13 generates heat. Therefore, the fragrance contained in the mixture with the selected exothermic substance is heated and vaporized to generate a scent.

FIG. 6 shows an aroma generating apparatus according to the sixth embodiment of the present invention. The exothermic substances and fragrances contained in the containers 11 to 13 and the induction heating coil 14 are the same as those in the fifth embodiment. In this embodiment, coils 15A to 15C that generate electromagnetic induced electromotive force by electromagnetic waves of a specific wavelength are disposed above the containers 11 to 13, and the blower fan 8 is electrically connected to the coils. Yes.

For example, now, when the wavelength of the electromagnetic waves generated by the induction heating coil 14 is assumed to be a wavelength generating heat pyrogens in the container 11, pyrogen contained in the container 11 is heated, heating the fragrance The scent of roses is generated. On the other hand, the coil 15 </ b> A generates an induced electromotive force by the electromagnetic wave having the wavelength , and starts the fan 8. Therefore, the rose scent generated from the container 11 is forcibly diffused by the fan 8.
Similarly, when the wavelength of the electromagnetic wave generated by the induction heating coil 14 is a wavelength that causes the heat generating material in the container 12 to generate heat, the heat generating material in the container 12 generates heat, and the fragrance of the marine is heated by heating the fragrance. Will be generated. Then, the coil 15 </ b> B generates an induced electromotive force by the electromagnetic wave having the wavelength , and the scent of marine is forcibly diffused by the fan 8.
Further, when the wavelength of the electromagnetic wave generated by the induction heating coil 14 is a wavelength that causes the heat generating material in the container 13 to generate heat, the heat generating material in the container 13 generates heat and heats the fragrance to generate a scent of peppermint. Let The coil 15C is so as to generate an induced electromotive force I by the electromagnetic wave of the wavelength, peppermint aroma is forcibly blown diffused by fan 8.

  FIG. 7 shows an aroma generating apparatus according to the seventh embodiment of the present invention. In the seventh embodiment, a set of solar cells 7A to 7C and open / close lids 16A to 16C are disposed above the containers 1 to 3, respectively. Here, the solar cell 7A installed above the container 1 containing a mixture of a substance that absorbs light of red wavelength and generates heat and a fragrance of rose scent is sensitive only to red light. Is set to For example, a color filter that transmits only red may be used. Similarly, the solar cell 7B installed above the container 2 containing a mixture of a substance that absorbs light of a blue wavelength and generates heat and a fragrance of a marine fragrance is sensitive only to blue light. It is set to have. Furthermore, the solar cell 7C installed above the container 3 containing a mixture of a substance that absorbs green wavelength light and generates heat and a scent of peppermint scent seems to have sensitivity only to green light. Is set to

Assuming that the light emitting diode 4 emits red light now, the solar cell 7A senses the red light emitted from the light emitting diode 4 and generates electric energy to open the open / close lid 16A. (State shown in FIG. 7). Therefore, the exothermic material accommodated in the container 1 absorbs the red light and generates heat, and the fragrance is heated to generate a rose scent. Similarly, when the light emitting diode 5 that emits blue light is caused to emit light, the solar cell 7B senses the blue light to generate electrical energy, and opens the open / close lid 16B. The exothermic material absorbs blue light and generates heat, and the fragrance is heated to generate a marine scent. Further, when the light emitting diode 6 that emits green light is caused to emit light, the solar cell 7C senses the green light and generates electric energy, thereby opening the open / close lid 16C. Thereby, the exothermic substance in the container 3 absorbs green light and generates heat, and the fragrance can be heated to generate a scent of peppermint.
In this way, by preparing a plurality of fragrance tools and preparing a plurality of control tools that operate at different wavelengths, it is possible to emit a fragrance from any fragrance simply by changing the wavelength of the electromagnetic wave.

It is a conceptual diagram which shows the fragrance generator which concerns on the 1st Embodiment of this invention. It is a conceptual diagram which shows the fragrance generator which concerns on the 2nd Embodiment of this invention. It is a conceptual diagram which shows the fragrance generator which concerns on the 3rd Embodiment of this invention. It is a conceptual diagram which shows the fragrance generator which concerns on the 4th Embodiment of this invention. It is a conceptual diagram which shows the fragrance generator which concerns on the 5th Embodiment of this invention. It is a conceptual diagram which shows the fragrance generator which concerns on the 6th Embodiment of this invention. It is a conceptual diagram which shows the fragrance generator which concerns on the 7th Embodiment of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1-3 ... Container, 4-6 ... Light emitting diode (LED), 7 ... Solar cell, 8 ... Fan, 9A-9C ... Induction heating coil, 11-13 ... Container, 14 ... Induction heating coil

Claims (5)

Each type of fragrance that volatilizes when heated is mixed with a heat-generating substance that absorbs light of a specific color and generates heat , and the light emitted from the light-emitting diode generates heat from the heat-generating substance. A device for generating a fragrance by electromagnetic waves having a specific wavelength, characterized in that a plurality of light emitting diodes that output different colors of light are provided by mixing exothermic materials that generate heat with different colors of light . A plurality of types of fragrances that volatilize when heated are mixed with an electromagnetic induction heating component as a heat-generating substance, and the electromagnetic induction heating component is heated by electromagnetic waves generated by passing an electric current through an induction heating coil. A fragrance generating apparatus using electromagnetic waves of a specific wavelength, characterized in that electromagnetic induction heating components having different wavelengths of electromagnetic waves that generate heat are mixed, and induction heating coils that generate electromagnetic waves of different wavelengths are provided for each fragrance. A plurality of types of fragrances that volatilize when heated are mixed with an electromagnetic induction heating component as a heat-generating substance, and the electromagnetic induction heating component is heated by electromagnetic waves generated by passing an electric current through an induction heating coil. wavelength of the electromagnetic wave heating is different electromagnetic induction heating components mixed by the type, scenting device by electromagnetic waves of a specific wavelength, wherein said induction heating coil is one capable of generating electromagnetic radiation of a different wavelength. The fragrance generating device by the electromagnetic wave of the specific wavelength according to any one of claims 1 to 3, further comprising a fan that blows air to the fragrance, wherein the fan is activated by an electromagnetic wave that heats the fragrance. The fragrance generating device using electromagnetic waves of a specific wavelength according to any one of claims 1 to 4, wherein the fragrance is accommodated in a container with an open / close lid, and the open / close lid is opened by electromagnetic waves that heat the fragrance.

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