JP2021029206A - Aspiration/inhalation tool - Google Patents

Abstract

To provide an aspiration/inhalation tool capable of aspirating and inhaling a liquid drug taken into a cartridge, as an atomized object.SOLUTION: There is provided a non-heating type aspiration/inhalation tool which is formed of: a main body container 1; and an aspiration/inhalation cartridge 2 which is detachably fitted to an opening. The aspiration/inhalation cartridge 2 comprises a double pipe structure which is formed by providing an inner cylinder in an outer cylinder, through a gap. The main body container 1 has atomization means 13 for atomizing a liquid drug absorbed in an adsorbent 21 and discharging the atomized liquid drug. The main body container has a power source part 14 and a sensor 15. The atomization means 13 uses corona discharge which is conducted between a rod-shaped electrode 131 and a cylindrical electrode 132. By the corona discharge which is started when the power source part 14 supplies power triggered by a detection signal from the sensor 15 which detects aspiration/inhalation operation, the liquid drug is transpired, atomized and discharged from the adsorbent 21, so that the discharged liquid drug can be aspired/inhaled through a suction hole 22.SELECTED DRAWING: Figure 5

Description

The present invention relates to a suction / inhaler, more specifically to a suction / inhaler in which a liquid agent is atomized and sucked / sucked, and more specifically, a liquid agent incorporated in a cartridge at room temperature without heating. The present invention relates to a non-heated suction / inhaler that atomizes, evaporates, atomizes, and sucks / sucks as fine particles.
The suction / inhaler according to the present invention can be said to be an electronic suction / inhaler.
Here, "suction" generally means "sucking, sucking, and putting a drug into the respiratory tract through the nose or mouth." In addition, "inhalation" generally means "inhaling, inhaling, inhaling chemicals in the form of gas or mist". In this way, "suction" and "inhalation" are words that have very similar meanings, but it is also recognized that they have slightly different meanings, so here, "suction / inhalation" is a combination of the two. Is used.

In recent years, due to the enormous damage to health caused by smoking, "heat-not-burn tobacco" has begun to spread in place of "cigarettes" that ignite and burn tobacco leaves and suck nicotine together with smoke.
This "heat-not-burn tobacco" uses tobacco leaves like the "cigarette", but it does not burn and is only heated and warmed, so it has less odor than the "cigarette".

On the other hand, unlike this "heat-not-burn tobacco", so-called "electronic cigarettes", in which a liquid containing nicotine or the like is heated and sucked without using tobacco leaves, are widely used mainly in Europe and the United States.
"Electronic cigarettes" that heat and inhale liquids containing nicotine are subject to the regulations of the "Pharmaceuticals and Medical Devices Act" in Japan, so they cannot be sold without the approval of the Ministry of Health, Labor and Welfare after investigating their health effects.
In addition, many countries around the world also regulate "electronic cigarettes" containing nicotine with their own content.
For this reason, "electronic cigarettes" that are used by heating a liquid that does not contain nicotine are sold as "electronic vapors (VAPE)" and the like.
This "electronic vapor (VAPE)" heats and sucks a liquid containing no nicotine, such as coffee or an aroma oil such as lavender oil.

On the other hand, a vapor-type inhaler for throat inhalation or nasal inhalation that sucks up and sprays water for inhalation by using vapor pressure has been proposed (see, for example, Patent Document 1).
In this inhaler (atomizer), liquid (water) is heated by using a heater and boiled to atomize it, and this is sucked and sucked.

However, since all of the above-mentioned inhalers and aspirators are heated, the target liquid is required to be resistant to deterioration due to heating, and can be used for a wide range of purposes. , The improvement was requested.

A non-heated flavor aspirator has been proposed as a type of aspirator that does not heat (see Patent Document 2).
However, although this is a non-heated type, it provides the user with a flavor component such as tobacco simply by sucking the user, and there is a possibility that the release of the flavor component is not always sufficient.

Utility Model Registration No. 3159830 Japanese Patent No. 5443606

INDUSTRIAL APPLICABILITY The present invention is a non-heating type suction / suction that can atomize and evaporate the liquid agent taken in the cartridge at room temperature without heating, atomize it, and suck / inhale it as a fine granule. It is intended to provide an inhaler.

The present invention relates to the following (1) to (2).
(1): With the main body container having an opening at the top;
With a suction / suction cartridge that is detachably attached to the opening of the main body container;
It is a non-heated suction / inhaler consisting of
The suction / suction cartridge is
It has a double-tube structure in which the inner cylinder is arranged in the outer cylinder through a predetermined gap, and
An adsorbent that adsorbs the liquid agent is attached to the inside of the inner cylinder, and at the same time,
A mouthpiece is provided at the upper end of the outer cylinder.
The main body container
The storage space below the opening is provided with a atomizing means for evaporating and atomizing the liquid agent adsorbed on the adsorbent and releasing it from the adsorbent.
A power supply unit that supplies electric power to the atomizing means,
A sensor for detecting a suction / suction operation from the suction port of the suction / suction cartridge is provided.
The atomizing means
A rod-shaped electrode to which a high voltage is applied and
A cylindrical electrode arranged above the rod-shaped electrode and
It uses the corona discharge that occurs between
In a substantially sealed state created by performing the suction / suction operation, power is supplied from the power supply unit by a detection signal from the sensor that detects the suction / suction operation, and the corona is atomized by the atomizing means. Discharge is done,
The liquid agent is evaporated and atomized by the corona discharge and released from the adsorbent.
The liquid agent that has been atomized and released from the adsorbent is configured to be able to be sucked / sucked from the suction port at the upper end of the suction / suction cartridge.
The present invention relates to a non-heated suction / inhaler.
(2): The non-heated suction according to (1) above, wherein the liquid agent is one or more of a liquid containing caffeine, a liquid containing vitamins, and a liquid containing amino acids. Regarding inhalers.

According to the non-heated suction / inhaler according to the present invention, the liquid agent taken into the cartridge is atomized, evaporated, atomized and sucked as fine particles at room temperature without heating. Can be inhaled.
Since the non-heated suction / inhaler according to the present invention is not heated by using a heater such as a coil, there is no risk of deterioration of the liquid agent taken in the cartridge due to heating.
Therefore, according to the non-heated suction / inhaler according to the present invention, as a liquid agent that permeates the adsorbent in the cartridge, an aroma oil that is sensitive to heat and whose fragrance component changes when heated, for example, is used. In this case, you can fully enjoy the original scent of aroma oil.
Further, according to the non-heated suction / inhaler according to the present invention, medical treatment is performed by using a liquid agent containing a drug (for example, a drug for treating a respiratory disease) as a liquid agent that permeates the adsorbent in the cartridge. It can also be used as a device.
In this case, according to the non-heated suction / inhaler according to the present invention, there is no risk of a decrease in the activity or loss of activity of the drug due to heating.

It is explanatory drawing which shows one Embodiment of the non-heating type suction / inhaler which concerns on this invention, FIG. 1 (c) is an explanatory view seen from the bottom surface, FIG. 1 (d) is an explanatory view seen from the right side surface, and FIG. 1 (e) is an explanatory view seen from the left side surface. It is a central cross-sectional explanatory view of the explanatory view seen from the front shown in FIG. 1 (a). FIG. 5 is a perspective explanatory view of an explanatory diagram showing an embodiment of a non-heated suction / inhaler according to the invention shown in FIG. FIG. 3 is a perspective explanatory view showing a state in which the main body container and the suction / suction cartridge are separated. FIG. 5 is a perspective explanatory view showing an internal structure of an explanatory diagram showing an embodiment of a non-heated suction / inhaler according to the invention shown in FIG. It is a partially enlarged explanatory view of FIG. It is explanatory drawing which shows one Embodiment about the suction / suction cartridge of the non-heated suction / inhaler which concerns on this invention, FIG. 7 (a) is the explanatory view seen from the front, FIG. 7 (b). Is an explanatory view seen from a plane, and FIG. 7 (c) is an explanatory view seen from the bottom surface. FIG. 7 is an explanatory view of a vertical cross section of a central portion of an explanatory view seen from the front shown in FIG. 7A. FIG. 5 is a perspective explanatory view of an explanatory diagram showing an embodiment of the suction / suction cartridge shown in FIG. 7. FIG. 7 is a vertical cross-sectional explanatory view of a central portion of the explanatory view seen from the front shown in FIG. 7A, and is a cross-sectional explanatory view showing a flow path of finely divided substances atomized by corona discharge.

The present invention relates to a non-heated suction / inhaler.
With the main container with an opening at the top;
With a suction / suction cartridge that is detachably attached to the opening of the main body container;
It is a non-heated suction / inhaler consisting of
The suction / suction cartridge is
It has a double-tube structure in which the inner cylinder is arranged in the outer cylinder through a predetermined gap, and
An adsorbent that adsorbs the liquid agent is attached to the inside of the inner cylinder, and at the same time,
A mouthpiece is provided at the upper end of the outer cylinder.
The main body container
The storage space below the opening is provided with a atomizing means for evaporating and atomizing the liquid agent adsorbed on the adsorbent and releasing it from the adsorbent.
A power supply unit that supplies electric power to the atomizing means,
A sensor for detecting a suction / suction operation from the suction port of the suction / suction cartridge is provided.
The atomizing means
A rod-shaped electrode to which a high voltage is applied and
A cylindrical electrode arranged above the rod-shaped electrode and
It uses the corona discharge that occurs between
In a substantially sealed state created by performing the suction / suction operation, power is supplied from the power supply unit by a detection signal from the sensor that detects the suction / suction operation, and the corona is atomized by the atomizing means. Discharge is done,
The liquid agent is evaporated and atomized by the corona discharge and released from the adsorbent.
The liquid agent that has been atomized and released from the adsorbent is configured to be able to be sucked / sucked from the suction port at the upper end of the suction / suction cartridge.
It is characterized by that.

Hereinafter, an embodiment of a non-heated suction / inhaler according to the present invention will be described in detail with reference to the drawings.
1A and 1B are explanatory views showing an embodiment of a non-heated suction / inhaler according to the present invention, FIG. 1A is an explanatory view seen from the front, and FIG. 1B is a plan view. 1 (c) is an explanatory view seen from the bottom surface, FIG. 1 (d) is an explanatory view seen from the right side surface, and FIG. 1 (e) is an explanatory view seen from the left side surface. Further, FIG. 2 is an explanatory view of a vertical cross section of the central portion of the explanatory view seen from the front shown in FIG. 1 (a), and FIG. 3 is a non-heated suction / inhaler according to the invention shown in FIG. FIG. 4 is a perspective explanatory view of an explanatory view showing one embodiment, and FIG. 4 is a perspective explanatory view showing a state in which the main body container and the suction / suction cartridge are separated in FIG.
Further, FIG. 5 is a perspective explanatory view showing an internal structure of an explanatory view showing an embodiment of a non-heated suction / inhaler according to the invention shown in FIG. 1, and FIG. 6 is a perspective explanatory view showing an internal structure. It is a partially enlarged explanatory view.
Further, FIG. 7 is an explanatory view showing an embodiment of a suction / suction cartridge among the non-heated suction / inhalers according to the present invention, and FIG. 7A is an explanatory view seen from the front. 7 (b) is an explanatory view seen from a plane, and FIG. 7 (c) is an explanatory view seen from the bottom surface.
Further, FIG. 8 is an explanatory view of a vertical cross section of a central portion of the explanatory view seen from the front shown in FIG. 7A, and FIG. 9 is an explanation showing an embodiment of the suction / suction cartridge shown in FIG. It is a perspective explanatory view of the figure. Further, FIG. 10 is a vertical cross-sectional explanatory view of the central portion of the explanatory view seen from the front shown in FIG. 7A, which is a cross-sectional explanatory view showing a flow path of the atomized material atomized by the corona discharge. ..
However, the drawings are all schematic views showing the non-heated suction / inhaler according to the present invention. Therefore, in commercialization, a more practical design can be appropriately made as needed.

The non-heated suction / inhaler A according to the present invention comprises a main body container 1; a suction / suction cartridge 2;

The main body container 1 has an opening 11 at the upper portion, and has a storage space (internal space) 12 below the opening 11.
The storage space 12 below the opening 11 of the main body container 1 is provided with atomizing means 13 including a rod-shaped electrode 131 and a cylindrical electrode 132.
Further, a power supply unit 14 and a sensor 15 are provided inside the main body container 1.

A rechargeable battery is used as the power supply unit 14. If necessary, the main body container 1 may be provided with an external power supply connection port 141 (specifically, for example, a micro USB insertion port) for charging a rechargeable battery.
Reference numeral 17 is a control board, reference numeral 171 is a high-voltage circuit, reference numeral 172 is a transformer, and reference numeral 173 is a charging circuit.

The sensor 15 may be any sensor that can detect the suction / suction operation performed from the suction port 22, and a negative pressure sensor is usually used. The sensor 15 (particularly the negative pressure sensor) measures the change in pressure caused by the suction / suction operation, and when the change in pressure exceeds a certain value, it can be converted into an electric signal and output as a detection signal. ..
The switch of the power supply unit 14 is turned on by the detection signal from the sensor 15. Therefore, when the sensor 15 detects the suction / suction operation performed from the suction port 22, the sensor 15 detects this. It is output as a signal, and as a result, electric power is supplied from the power supply unit 14, and the corona discharge is performed by the atomizing means 13.

In the figure, the main body container 1 is shown to have a substantially box-shaped outer shape, but the outer shape is not limited to this.
An opening 11 is provided in the upper part of the main body container 1, and a suction / suction cartridge 2 is detachably attached to the opening 11 as described later. By attaching the suction / suction cartridge 2, the opening 11 is substantially sealed.
The method of mounting the suction / suction cartridge 2 may be by inserting the suction / suction cartridge 2 (that is, inserting or sandwiching the suction / suction cartridge 2), or by inserting the suction / suction cartridge 2 into the suction / suction cartridge 2. It may be by connecting (ie, connecting, continuing). In this sense, "mounting" can be replaced with the word "insertion / connection".
Here, the reason why it is described as "substantially sealed state" and not as "sealed state" is that it is difficult to be in a completely sealed state for those that are detachably attached, and suction is performed. This is because a slit (not shown) is usually formed in the lower peripheral edge of the suction cartridge 2 in order to improve the adhesion when the suction cartridge 2 is attached to the opening 11.

After mounting the suction / suction cartridge 2 in the opening 11 provided in the upper part of the main body container 1, the suction port 22 at the upper end of the suction / suction cartridge 2 is added to the suction port as described later. By performing the suction / suction operation from 22, a substantially sealed state is created in the storage space 12.
Here, the reason why it is described as "substantially sealed state" and not as "sealed state" is that the exterior of the main body container 1 which is the outside of the storage space 12 is used to facilitate the suction / suction operation. This is because the ventilation holes 16 are provided and the state is not completely sealed.

In such a substantially sealed state, power is supplied from the power supply unit 14 by the detection signal from the sensor 15 that detects the suction / suction operation, and the corona discharge is performed.

The atomizing means 13 provided in the main body container 1 has a function of evaporating and atomizing the liquid agent adsorbed on the adsorbent 21 in the suction / suction cartridge 2 and releasing it from the adsorbent 21. Specifically, it is composed of a rod-shaped electrode 131 and a cylindrical electrode 132 as described above.
The cylindrical electrode 132 is literally provided in a cylindrical shape, is grounded, and a corona discharge is performed between the two electrodes with the rod-shaped electrode 131.

Here, as the electrode to be combined with the cylindrical electrode 132, the rod-shaped electrode 131 is used. Examples of the rod-shaped electrode to be combined with the cylindrical electrode 132 include a rod electrode having an elongated cylindrical shape as a whole, a needle electrode having a pointed tip of the rod electrode, and the like. As the rod-shaped electrode to be combined with the cylindrical electrode 132, it is more preferable to use one having a sharp tip such as a needle electrode, because the amount of ozone generated by the corona discharge is smaller, and therefore, from the viewpoint of avoiding the generation of ozone.
Reference numeral 133 is an application side terminal, and reference numeral 134 is a GND side terminal. Wiring is omitted in the figure.

The upper end of the rod-shaped electrode 131 is arranged close to the hollow portion of the cylindrical electrode 132 arranged above, and is configured to allow corona discharge between both electrodes.
A positive or negative high voltage is applied to the rod-shaped electrode 131 by direct current or alternating current.
By applying a high voltage to the rod-shaped electrode 131, a corona discharge can be generated from the upper end of the rod-shaped electrode 131.
It should be noted that the corona discharge is not a discharge that scatters sparks, and even if the electrode is touched during operation, it is only about static electricity, and there is no concern about safety. If necessary, a known safety circuit can be incorporated as appropriate.

In order to apply a high voltage to the rod-shaped electrode 131, a power supply unit 14 provided with a high-voltage circuit 171 by direct current or alternating current is used. Specifically, as the power supply unit 14, a rechargeable battery provided with a high-voltage circuit 171 is preferably used.
Since the high-voltage circuit 171 is provided, a high-voltage direct current or alternating current of -2,000V to -15,000V is applied from the power supply unit 14.

Further, a cylindrical electrode 132 is provided above the rod-shaped electrode 131, specifically above the upper end of the rod-shaped electrode 131.
When a positive high voltage (-2,000 to -15,000 V) is applied, the rod-shaped electrode 131 side is the minus side (cathode) and the cylindrical electrode 132 side is the plus side (anode).

The suction / suction cartridge 2 is detachably attached to the opening 11 at the top of the main body container 1 as described above.
Therefore, the suction / suction cartridge 2 can be easily attached / detached from the opening 11 at the upper part of the main body container 1. That is, the suction / suction cartridge 2 can be easily removed from the opening 11 at the upper part of the main body container 1, or conversely can be easily attached to the opening 11.

The suction / suction cartridge 2 has a double-tube structure in which the inner cylinder 2C is arranged in the outer cylinder 2A via a predetermined gap 2B.
In the present embodiment, the suction / suction cartridge 2 is formed of a cylindrical hollow container, particularly a cylindrical hollow container, and as shown in FIG. 8 or the like, a suction / suction cartridge 2 having a substantially convex vertical cross-sectional shape is used. However, it is not limited to this.

The suction / suction cartridge 2 has a suction body 21 mounted inside the inner cylinder 2C, and a suction port 22 is provided at the upper end of the outer cylinder 2A.

The liquid agent is adsorbed on the adsorbent 21. The liquid preparation will be described later.
The adsorbent 21 is not particularly limited as long as it can adsorb the liquid agent, and for example, a filter paper or a filter is used, but in the present embodiment, the filter paper is used.
The shape of the adsorbent 21 is not particularly limited, but in the present embodiment, the shape of the adsorbent 21 is cylindrical to match the shape of the inner cylinder 2C to which the adsorbent 21 is mounted.

The gap 2B between the outer cylinder 2A and the inner cylinder 2C of the suction / suction cartridge 2 is atomized by the liquid agent adsorbed on the adsorbent 21 in the suction / suction cartridge 2 by corona discharge. It becomes the flow path of time.

Once the suction / suction operation is performed in addition to the suction port 22 provided at the upper end of the outer cylinder 2A of the suction / suction cartridge 2, the suction / suction operation is substantially sealed in the storage space 12 below the opening 11 of the main body container 1. A state is created, and power is supplied from the power supply unit 13 by a detection signal from the sensor 14 that detects the suction / suction operation in a substantially sealed state created by performing the suction / suction operation in this way. , The corona discharge is started by the atomizing means 13.
Due to the start of the corona discharge between the rod-shaped electrode 131 and the cylindrical electrode 132, the direction of the rod-shaped electrode 131 is upward between the rod-shaped electrode 131 and the cylindrical electrode 132 arranged above the rod-shaped electrode 131. An ion wind of a current (upstream) is generated, but as described above, since a substantially sealed state is created in the storage space 12, the ion wind of this upward flow (upstream) becomes weak.
It is desirable that the ionic wind of this upward flow (upward flow) is weak (slight) rather than very strong.
Therefore, it is preferable to take measures such as reducing the applied voltage as appropriate.
The corona discharge time is set to a predetermined time by a known means in advance.

Here, when the suction / suction cartridge 2 is attached to the opening 11 at the upper part of the main body container 1, the atomization means 13 including the suction / suction cartridge 2, the rod-shaped electrode 131, and the cylindrical electrode 132 is located close to each other. It is configured to be placed.
That is, both of them so that the adsorbent 21 in the suction / suction cartridge 2 comes directly above the atomizing means 13 composed of the rod-shaped electrode 131 and the cylindrical electrode 132, particularly at a position close to directly above the cylindrical electrode 132. It is arranged coaxially.
Therefore, the atomizing means 13 composed of the rod-shaped electrode 131 and the cylindrical electrode 132 (particularly the cylindrical electrode 132 arranged above the rod-shaped electrode 131) and the adsorbent 21 in the suction / suction cartridge 2 are located close to each other. Is located in.
Therefore, the liquid agent previously adsorbed on the adsorbent 21 in the suction / suction cartridge 2 is generated by the atomizing means 13 (consisting of the rod-shaped electrode 131 and the cylindrical electrode 132) using the corona discharge in this way. It is atomized, evaporated and atomized by the ionic wind of the countercurrent (upstream) and released from the adsorbent 21, but it is released because the ionic wind of the upward current (upstream) is weak. The liquid agent stays in the vicinity of the space between the atomizing means 13 including the rod-shaped electrode 131 and the cylindrical electrode 132 and the adsorbent 21 as much as possible. Here, the phrase "remains infinitely" does not mean that all of them are staying, but that they are almost (about 90% or more) staying.

Here, when the suction / suction operation of further sucking by adding the suction port 22 is continued (continuing to suck), the atomizing means 13 and the adsorbent 21 including the rod-shaped electrode 121 and the cylindrical electrode 122 are released from the adsorbent 21. The atomized liquid that remains near the space between the suction / suction cartridges 2 is located at the upper end of the suction / suction cartridge 2 above the suction / suction cartridge 2 with the gap 2B between the outer cylinder 2A and the inner cylinder 2C as a flow path. It flows in the direction of the mouthpiece 22 and can be sucked / sucked from the mouthpiece 22.
A corona discharge is performed once for a predetermined time for each series of suction / suction operations, and the atomized liquid is sucked / sucked once.
By repeating this series of suction / suction operations several times as appropriate, the corona discharge can be performed a plurality of times, and the liquid agent atomized for each corona discharge can be repeatedly sucked / sucked a plurality of times.
Adsorbs an amount of liquid agent that can be released in an amount equivalent to several times (4 to 5 times) of the amount sucked / sucked by one corona discharge to the adsorbent 21 in one suction / suction cartridge 2. By doing so, it is possible to perform the suction / suction operation several times (4 to 5 times) with one suction / suction cartridge 2.
After performing the suction / suction operation several times, the suction / suction cartridge 2 is removed from the opening 11 at the upper part of the main body container 1, and a new suction / suction cartridge 2 is attached as necessary to continuously perform the suction / suction operation. It becomes possible to suck and inhale.
Since the suction port 22 and the adsorbent 21 to which the liquid agent is adsorbed are integrated in the suction / suction cartridge 2, the suction / suction cartridge 2 can be replaced only once (once).

In the present invention, the liquid agent to be permeated into the adsorbent 21 in the suction / suction cartridge may be a liquid, and is not particularly limited. Specifically, for example, functional water such as ozone water, ionized water, alkaline ionized water, hydrogen water, acidic water, water such as purified water and tap water, coffee, tea, green tea, etc. and their components (for example, caffeine and Liquids with catechins); Fruit flavored liquids such as peach, apple, orange; Desert flavored liquids such as chocolate, vanilla; Aroma oils such as lavender oil, eucalyptus oil; Liquid supplements (eg) , Liquid vitamins, amino acids, unsaturated fatty acids, minerals, herbs, etc.), etc., and one of these can be used, or two or more in combination as required.
In addition to these, a liquid preparation containing nicotine can also be used if necessary.
Here, examples of the liquid vitamin include vitamin B group, vitamin C, vitamin E and the like. Examples of amino acids include valine, leucine, isoleucine, glutamine, glutamic acid, asparagine, and aspartic acid. Furthermore, examples of unsaturated fatty acids include DHA and EPA.
Among these, those that can enjoy the scent and components that can be directly put into the blood from the lungs are preferably used. Specifically, liquids containing caffeine, liquids containing vitamins (particularly B vitamins), One or more of the liquids containing amino acids are particularly preferably used.

Here, the aroma oil means "oil used for aromatherapy", in other words, it means an essential oil (essential oil).
Aroma oils are sensitive to heat, and when heat is applied, the aroma components change in quality.
However, in the non-heated suction / inhaler according to the present invention, the liquid agent taken into the cartridge is atomized, evaporated, atomized and sucked as fine particles at room temperature without heating. Since it can be inhaled, when aroma oil is used as a liquid agent, the original scent of the aroma oil can be enjoyed, and it is preferably used as an object to be inhaled or inhaled.
Examples of the essential oil (essential oil) used for aromatherapy include volatile oils extracted from the flowers and fruits of plants such as lavender oil and eucalyptus oil.

The non-heated suction / inhaler according to the present invention can also be used as a medical suction / inhaler, if necessary. In this case, a drug is used as a liquid agent to permeate the adsorbent in the cartridge. Those containing (for example, a drug for treating a respiratory disease) can also be used.

Further, as the liquid agent to permeate the adsorbent in the cartridge, as described above, a liquid agent of a so-called supplement can also be used. In this case, there is a possibility that the damage to the gastrointestinal tract and the like can be reduced as compared with the oral intake of the supplement.

The liquid agent to be infiltrated into the adsorbent 21 in the suction / suction cartridge may be a liquid agent as described above, particularly a water-soluble liquid agent combined with a "gelling agent". By combining with a "gelling agent", the liquid agent can be retained in the suction / inhalation cartridge without using filter paper. In this sense, this "gelling agent" can also be called a kind of adsorbent.

Here, examples of the gelling agent include highly water-absorbent resin, carrageenan, locust bean gum, agar, gelatin, guar gum, jelly gum, pectin, xanthan gum, and the like. In the present invention, one of these is used. It can be used alone or in combination of two or more of these.

Of these, super absorbent polymer (abbreviated as SAP) is also called a super absorbent polymer or super absorbent polymer, and has a function of absorbing a large amount of water and gelling it to retain the absorbed water. It is a polymer material.
Examples of this superabsorbent polymer (superabsorbent polymer) include synthetic polymer-based resins such as polyacrylic acid-based resins; and natural product-derived ones such as starch-based and cellulose-based resins; in the present invention. Can use any of these.

Among the highly water-absorbent resins, polyacrylic acid-based resins, especially polyacrylate-based resins such as sodium polyacrylate, have extremely high hydrophilicity, and are further crosslinked into a network structure and have a three-dimensionally crosslinked molecular structure. Therefore, it is a gel having high water absorption and water retention (it has water absorption and water retention from several hundred times to about 1,000 times its own weight), and is therefore preferably used in the present invention. However, since polyacrylate-based resins have high water absorption and water retention capacity, they have a characteristic that once absorbed water or the like is hardly released even if some pressure is applied.

For example, when a highly water-absorbent resin is used as the gelling agent, a highly water-absorbent resin impregnated with a liquid agent, particularly a water-soluble liquid agent, can be used as an adsorbent. In this case, the liquid agent is taken into the network structure of the highly water-absorbent resin, whereby the liquid agent can be released little by little.

According to the non-heated suction / inhaler according to the present invention, the suction / suction cartridge 2 is attached to the opening 11 at the upper part of the main body container 1, and the suction / suction cartridge 2 is sucked in addition to the suction port 22. By inhaling, the corona discharge is started, and the liquid agent pre-adsorbed to the adsorbent 21 in the suction / suction cartridge 2 by utilizing the ion air of the upward flow (upward flow) generated by the corona discharge is , Atomized, evaporated and atomized, released from the adsorbent 21, and further released from the adsorbent 21 by performing a suction / suction operation in which the suction port 22 is added and sucked, and the rod-shaped electrode 131 and the cylinder. The liquid agent that remains infinitely near the space between the atomizing means 13 including the electrode 132 and the adsorbent 21 flows through the gap 2B between the outer cylinder 2A and the inner cylinder 2C of the suction / suction cartridge 2. As a result, the air flows in the direction of the suction port 22 at the upper end of the suction / suction cartridge located above, and suction / suction can be performed from the suction port 22.

According to the non-heated suction / inhaler according to the present invention having the above configuration, the liquid agent incorporated in the suction / suction cartridge 2 is atomized and evaporated at room temperature without heating to form fine particles. It can be agglomerated and sucked / inhaled as fine granules.
Since the non-heated suction / inhaler according to the present invention is not heated by using a heater such as a coil, there is no risk of deterioration of the liquid agent taken in the cartridge due to heating.

Although various examples of the present invention have been described above, the present invention is not limited to the examples of the present invention, and many modifications can be made without departing from the spirit of the present invention. Of course.

The non-heated suction / inhaler according to the present invention is sensitive to heat, such as coffee, black tea, green tea, and liquids having these flavors, as a liquid agent that permeates the adsorbent in the cartridge. A liquid agent whose components change in quality, such as aroma oil, can be used, and the original scent of aroma oil can be fully enjoyed.
Further, according to the non-heated suction / inhaler according to the present invention, since it is not heated, it can be used as a liquid agent even if it is a liquid agent that may cause health damage due to heating. Is.
Further, the non-heated suction / inhaler according to the present invention is for medical use by using a liquid agent containing a drug (for example, a drug for treating a respiratory disease) as a liquid agent to permeate the adsorbent in the cartridge. Since it can also be used as a device, it is expected to be used in a wide range of fields from the luxury goods field to the medical field.

A Suction / Inhaler 1 Main body container 2 Suction / Inhalation cartridge 2A Outer cylinder 2B Gap 2C Inner cylinder 11 Opening 12 Storage space 13 Agglomerating means 131 Rod-shaped electrode 132 Cylindrical electrode 133 Applying side terminal 134 GND side terminal 14 Power supply unit 141 External Power connection port 15 Sensor 16 Vent hole 17 Control board 171 High pressure circuit 172 Transformer 173 Charging circuit 21 Suction body 22 Suction port

Claims (2)

With the main container with an opening at the top;
With a suction / suction cartridge that is detachably attached to the opening of the main body container;
It is a non-heated suction / inhaler consisting of
The suction / suction cartridge is
It has a double-tube structure in which the inner cylinder is arranged in the outer cylinder through a predetermined gap, and
An adsorbent that adsorbs the liquid agent is attached to the inside of the inner cylinder, and at the same time,
A mouthpiece is provided at the upper end of the outer cylinder.
The main body container
The storage space below the opening is provided with a atomizing means for evaporating and atomizing the liquid agent adsorbed on the adsorbent and releasing it from the adsorbent.
A power supply unit that supplies electric power to the atomizing means,
A sensor for detecting a suction / suction operation from the suction port of the suction / suction cartridge is provided.
The atomizing means
A rod-shaped electrode to which a high voltage is applied and
A cylindrical electrode arranged above the rod-shaped electrode and
It uses the corona discharge that occurs between
In a substantially sealed state created by performing the suction / suction operation, power is supplied from the power supply unit by a detection signal from the sensor that detects the suction / suction operation, and the corona is atomized by the atomizing means. Discharge is done,
The liquid agent is evaporated and atomized by the corona discharge and released from the adsorbent.
The liquid agent that has been atomized and released from the adsorbent is configured to be able to be sucked / sucked from the suction port at the upper end of the suction / suction cartridge.
A non-heated suction / inhaler that features this. The non-heated suction / inhaler according to claim 1, wherein the liquid agent is one or more of a liquid containing caffeine, a liquid containing vitamins, and a liquid containing amino acids.