JP2022141030A - gel composition - Google Patents

Abstract

To provide a gel composition that has an increased surface area and allows a decrease in unused functional agents, making the functional agents exhibit increased effects, and can be used in any container, offering improved usability.SOLUTION: A gel composition 20 is in the form of a slender body 22A. The gel composition 20 contains a volatile solvent and a gelator so that the slender body 22A can take a desired shape. Volatilization of the volatile solvent reduces the slender body 22A in length and cross section.SELECTED DRAWING: Figure 1

Description

The present invention relates to gel compositions.

BACKGROUND ART Conventionally, there has been known a gel composition obtained by dispersing a functional agent having an active ingredient such as a deodorizing component or a perfume in a volatile solvent such as water or alcohol and gelling it using a gelling agent.
Gel compositions are widely used for deodorants, deodorants, air fresheners, insecticides, and the like. At the end of use, the volume decreases (see Patent Document 1).
Such a gel composition has conventionally been used as a mass formed with a dense interior, and therefore the size of the surface area in contact with the air is the effect of the functional drug. affects
For example, when the functional agent is non-volatile, the larger the surface area of the gel composition that contacts the air, the greater the amount of the functional agent that contacts the air, and the greater the effect that the functional agent exhibits. Become.
Moreover, when the functional agent is volatile, the larger the surface area of the gel composition in contact with the air, the more the functional agent volatilizes and the greater the effect of the functional agent.
For this reason, when a gel composition is stored in a container and used, regardless of whether the functional agent is non-volatile or volatile, the functional agent can be exhibited by increasing the surface area in contact with air. You can increase the effect.

Therefore, when the gel composition is stored in a container and used, a concave portion is provided in the center of the bottom surface of the gel composition, and further unevenness (multi-surface concave portion) is formed on the surface of the concave portion, so that the gel composition comes into contact with the air. A volatile substance emitter is disclosed in which the surface to be released is enlarged to enhance the effect of the functional drug (see Patent Document 2).

JP 2017-164334 A Japanese Patent Application Laid-Open No. 2006-239000

However, in the volatile substance emitter of Patent Document 2, the surface area is increased by providing a concave portion on the bottom surface of the gel composition, but the surface area and the volume of the gel composition are in an inversely proportional relationship. That is, the larger the recesses, in other words, the larger the surface area, the smaller the volume of the gel composition.
In addition, even if the concave portion is formed to increase the surface area, the effect of the functional drug contained inside the gel composition that is not in contact with air cannot be exhibited, and the functional drug is terminated without being used. There is a problem that the medicine is wasted.
Specifically, in the case of a volatile functional agent, it may move inside the gel composition to reach the surface and volatilize from the surface, but in the case of a non-volatile functional agent such as activated carbon, , the amount of unused functional agent increases because it cannot move inside the gel composition.
When the gel composition is filled in a container, this problem becomes more conspicuous because the gel composition cannot come into contact with the air due to the close contact between the peripheral wall or the bottom surface of the container and the gel composition.
The present invention has been made in view of the above-mentioned circumstances, and increases the effect of the functional drug by increasing the surface area and reducing the amount of the functional drug that is not used. An object of the present invention is to provide a gel-like composition that has been

In order to achieve the above object, one embodiment of the present invention is a gel composition comprising a functional drug, a volatile solvent and a gelling agent, the gel composition having an elongated shape and containing the volatile solvent and the gelling agent so that the elongated body is formed into a desired shape.
Moreover, one embodiment of the present invention is characterized in that the length and cross-section of the elongate body are reduced by volatilization of the volatile solvent.
Moreover, one embodiment of the present invention is characterized in that the elongated body has a uniform cross section.
Moreover, one embodiment of the present invention is characterized in that a plurality of convex portions or a plurality of concave portions are formed on the outer peripheral surface of the elongate body.
In one embodiment of the present invention, the elongate body is formed by alternately arranging small cross-sectional area portions and large cross-sectional area portions having a larger cross-sectional area than the small cross-sectional area portions in the longitudinal direction. It is characterized by
Further, in one embodiment of the present invention, the desired shape is a three-dimensional body formed by bending the elongated body while ensuring a gap between a portion of the elongated body and another portion of the elongated body. It is characterized by being a structure.
Further, one embodiment of the present invention is characterized in that the three-dimensional structure is plate-like, hollow plate-like, columnar, hollow columnar, spherical, or hollow spherical.
Moreover, one embodiment of the present invention is characterized in that the desired shape is a rod shape in which the elongated body extends linearly.
Moreover, one embodiment of the present invention is characterized in that the functional agent is a non-volatile deodorant.
Further, one embodiment of the present invention is characterized in that the functional agent is a volatile deodorant, fragrance, antifungal agent, repellent, insect repellent, or insecticide.

According to one embodiment of the invention, the entire length of the longitudinal length of the elongated body is the air contacting surface over the entire peripheral surface of the elongated body.
Therefore, it is possible to secure a large surface area compared to conventional gel-like compositions formed with a dense interior, and to greatly reduce the amount of unused functional agents, thereby achieving the effects of functional agents. It is advantageous in significantly increasing the
In addition, since the gel composition can be formed into a desired shape as an elongated body, when the gel composition is placed in a container and distributed on the market, the shape of the container is not limited, and therefore the container can be designed according to the application. This is advantageous in securing a large degree of design freedom.
In addition, when the length and cross section of the slender bodies become smaller due to volatilization of the volatile solvent, the slender bodies shrink while maintaining the desired shape formed by the slender bodies, thereby clearly grasping the end of use of the gel composition. advantage over
Also, if the longitudinal section of the elongated body is formed uniformly, the elongated body can be easily formed, which is advantageous in terms of cost reduction.
Further, by providing a plurality of protrusions or a plurality of recesses on the outer peripheral surface of the slender body, the surface area of the slender body that contacts the air can be further increased, and the amount of the unused functional drug can be greatly reduced. It is advantageous in significantly enhancing the effect to be exhibited.
In addition, if the elongated bodies are formed by alternately arranging small cross-sectional area parts and large cross-sectional area parts, it is advantageous in securing a large gap between the elongated bodies when the desired shape is formed with the elongated bodies. It is advantageous in increasing the surface area of the composition and enhancing the effect of the functional drug.
In addition, if the desired shape is a three-dimensional structure in which the elongated body is bent while securing a gap between the elongated body part and other parts, a large surface area of the gel composition is secured, and the gel composition is not used. It is advantageous in reducing the amount of the functional drug and increasing the effect of the functional drug.
Moreover, as a three-dimensional structure, a plate-like, hollow plate-like, columnar, hollow columnar, spherical, or hollow spherical shape can be employed.
In addition, when the desired shape is formed into a rod shape in which the elongated body extends linearly, the entire outer peripheral surface along the longitudinal direction of the elongated body can be made a surface that contacts the air, and the unused functional agent can be removed. This is advantageous in reducing the number of particles, thereby further enhancing the effect of the functional drug, and in promoting sales by exhibiting a design that is different from the conventional ones.
In addition, when the functional agent is a non-volatile deodorant, it is advantageous to increase the surface area of the gel composition and reduce unused functional agents, thereby enhancing the deodorizing effect.
In addition, when the functional agent is a volatile deodorant, fragrance, antifungal agent, repellent, insect repellent, or insecticide, the surface area of the gel composition is increased and unused functional agents are reduced. It is advantageous in increasing the volatilization amount of the functional agent and enhancing the deodorant effect, fragrance effect, antifungal effect, repellent effect, insect repellent effect, or insecticidal effect.

It is a figure which shows an example of the deodorizing tool before use in which the gel composition concerning embodiment was accommodated in the container. (A) is a cross-sectional view of an elongated body formed from a gel composition, and (B) is a longitudinal cross-sectional view of the elongated body. It is a figure which shows an example of the deodorizing tool after use with which the gel composition concerning embodiment was accommodated in the container. (A) is a graph showing the removal rate of ammonia causing offensive odors, (B) is a graph showing the removal rate of acetic acid causing offensive odors, and (C) is a graph showing the removal rate of sulfide causing offensive odors. It is a graph which shows the removal rate of hydrogen. 1 is a view showing an example of a deodorizing tool in which a columnar gel composition is contained in a container; FIG. BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows an example of the gel-like composition formed in the shape of a hollow sphere, (A) is a perspective view of a gel-like composition, (B) is A- of the gel-like composition shown to (A). FIG. 2 is a cross-sectional view showing the A cross section with an imaginary line; 1 is a diagram showing an example of a deodorizing tool in which a gel composition formed into a rod shape is accommodated in a container; FIG. (A), (B), (C), and (D) are cross-sectional views showing examples of elongated bodies formed in other shapes. (A) and (B) are side views showing an example of an elongated body formed in another shape.

(First embodiment)
BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the drawings.
In this embodiment, an example is shown in which the gel composition is used as a deodorizing agent that removes and deodorizes odors released into spaces such as refrigerators, freezers, and vegetable compartments.
The gel composition described in the present embodiment may be used as a deodorant that removes and deodorizes not only refrigerators and freezers, but also other spaces such as closets, shoeboxes, and trash cans. .
As shown in FIG. 1, a deodorizing tool 10A of the present embodiment has a resin container 12 containing a gel composition 20 containing a deodorizing component for deodorizing bad odors.
The container 12 is composed of a transparent body portion 14 and a cap portion 16 detachably attached to the upper portion of the body portion 14 .
The body portion 14 is composed of an elliptical bottom surface 1402 and a peripheral wall 1404 rising from the periphery of the bottom surface 1402, and has an opening 1406 at the top.
The gel composition 20 is accommodated inside the body portion 14 .
The opening 1406 of the main body 14 of the deodorizing tool 10A is covered with a non-breathable film when the deodorizing tool 10A is distributed on the market, and this non-breathable film is peeled off when the deodorizing tool 10A is used.

The cap portion 16 is a lid that is attached so as to cover the opening portion 1406 of the main body portion 14, and is a container that is opened downward by an elliptical top surface 1602 and a peripheral wall 1604 that hangs down from the peripheral edge of the top surface 1602. formed in the shape of
The top surface 1602 is provided with a plurality of elongated vent holes 16A, and the peripheral wall 1604 is provided with a plurality of rectangular vent holes 16B along the peripheral surface.
Note that the deodorizing tool 10A of the present embodiment has a configuration in which the gel composition 20 is accommodated in the container 12 composed of the main body 14 and the cap part 16 having a vent, but air permeability is ensured. The shape and the like of the container 12 constituting the deodorizing tool 10A are not limited as long as the shape is the same.
Therefore, the container 12 constituting the deodorizing tool 10A may be, for example, a container such as a sphere or a cube provided with a vent.
Furthermore, the gel composition 20 of the present invention may be placed on or housed in a household container such as a plate or bowl that is open upward, without using the container 12 .

The gel composition 20 contains a functional drug, a volatile solvent, and a gelling agent.
The gel composition 20 is obtained by dispersing a functional drug in a volatile solvent and gelling it using a gelling agent, and has a deodorant component that serves as a deodorant in the present embodiment.
The functional agent is a solid, non-volatile agent that physically and chemically adsorbs odors, and examples thereof include activated carbon, Bincho charcoal, silica gel, zeolite, dextrin, and aluminosilicate.
The volatile solvent is a solvent (solvent) that adjusts volatility in order to properly disperse the functional agent or determine the end of use of the deodorant, such as water, alcohol, ether, glycol, glycol ether, Examples include paraffinic hydrocarbons, acetone, toluene, methyl acetate, ethyl acetate, and methylene chloride.
A gelling agent is a gel obtained by dispersing a functional agent in a volatile solvent. Examples include carrageenan, gellan gum, agar, gelatin, xanthan gum, guar gum, locust bean gum, cellulose, and cellulose. Examples include nanofibers and sodium alginate.
The gel composition 20 of the present embodiment contains the functional drug, the volatile solvent, and the gelling agent in an appropriate ratio.
That is, the gel composition 20 is formed into elongated elongated bodies 22A by being injected, and contains the volatile solvent and the gelling agent in such a ratio that the elongated bodies 22A are formed into a desired shape. .
The desired shape formed by the gel composition 20 is maintained without breaking due to vibration during transportation by airplane, train, car, motorbike, or bicycle, or due to the weight of the elongated body 22A over time.

In the present embodiment, as described above, the gel composition 20 in which the functional drug, the volatile solvent, and the gelling agent are blended in appropriate proportions is supplied to the injection device, and the gel composition 20 is extruded. , to form an elongated elongated body 22A such as a thread-like, string-like, or belt-like elongated body 22A.
The cross section of the elongated body 22A ejected from the circular mouthpiece is circular as shown in FIG. 2(A).
The cross section of the elongated body 22A may optionally be formed in various conventionally known shapes such as squares, rectangles, triangles, and ellipses.
The elongated body 22A is formed with a diameter of about 0.1 mm to 10 mm in the case of the gel composition 20 such as the deodorizing tool 10A used in general households, for example. If the diameter of the elongated body 22A becomes too large, the surface area of the elongated body 22A that contacts the air is reduced, which is disadvantageous because the difference in effect from conventional gel-like compositions formed with a dense interior becomes smaller. It is for the sake of becoming.
Further, since the elongated body 22A is extruded from the circular mouthpiece with a uniform force, the cross section is formed uniformly in the longitudinal direction as shown in FIG. 2(B).
In this embodiment, the desired shape formed by the slender body 22A is formed by bending one slender body while ensuring a gap between the slender body and other parts. three-dimensional structure.

In this embodiment, the elongated body 22A formed by being extruded from the injection device is, for example, accommodated in the container 12 and is irregularly bent inside the container 12, and as shown in FIG. Composition 20 is formed into a three-dimensional structure corresponding to the interior space of container 12 .
At this time, the elongated bodies 22A are formed into a three-dimensional structure in the container 12 while ensuring a gap between the surface of the elongated bodies 22A in one part and the surface of the elongated bodies 22A in another part.
In addition, since the elongated body 22A is bent inside the container 12, it does not adhere entirely to the bottom surface 1402 and the peripheral wall 1404 of the main body 14. formed into a structure.

The gel composition 20 of the present embodiment formed in this manner is compared to the case where the same amount (volume) of the gel composition is poured into the container 12 like a conventional deodorant. Compared to the case where the composition is used as a mass formed with its interior tightly packed, the surface area in contact with the air is greatly increased. Specifically, the ratio of the surface area per unit volume of the gel composition 20 is remarkably increased.
That is, when the gel composition is poured into the container 12 as in the conventional art, only the upper surface of the container 12 is the surface that comes into contact with the air.
On the other hand, in the gel composition 20 of the present embodiment, the entire outer peripheral surface of the elongated body 22A, which is not in contact with the bottom surface 1402 and the peripheral wall 1404 of the main body 14 and other parts of the elongated body 22A, is in contact with the air. It becomes the surface to do.
Therefore, the surface area of the gel tissue 20 of the present embodiment that contacts the air is much larger than that of the conventional gel composition.

10 A of deodorizing tools of this Embodiment manufactured in this way are mounted in a refrigerator, a freezer, etc., and are used.
Since the gel composition 20 is accommodated in the container 12 having the vents 16A and 16B, the functional agent such as activated carbon, binchotan charcoal, silica gel, zeolite, dextrin, and aluminosilicate is mixed with ammonia, acetic acid, hydrogen sulfide, and the like. It has a deodorizing effect by absorbing and removing odors.
At the same time, the gel composition 20 shrinks due to volatilization of volatile solvents such as water, alcohol, ether, glycol, glycol ether, paraffinic hydrocarbon, acetone, toluene, methyl acetate, ethyl acetate, and methylene chloride. continue.
At this time, as shown in FIG. 3, the length and cross section of the elongated body 22A become smaller, and the elongated body 22A itself shrinks. I will continue.
Since this shrinking state can be visually observed, when the gel composition 20 shrinks to a predetermined size, the end of use of the deodorizing tool 10A can be clearly grasped.

Here, an example of the test result of the bad smell removal rate by the gel composition 20 of the present embodiment will be described.
FIG. 4 shows test results of malodor removal rates for ammonia, acetic acid, and hydrogen sulfide, which are components that cause malodor.
In the test, each of the malodorous components at a predetermined concentration was placed in two sealed spaces under the same conditions. A deodorant comprising elongated bodies 22A formed from composition 20 is placed and compared.
In FIG. 4, the horizontal axis is time (minutes) and the vertical axis is the odor removal rate (%).
As shown in FIG. 4A, in the case of ammonia, both the deodorant of this embodiment and the conventional deodorant start at 0 and gradually increase in odor removal rate.
The odor removal rate of the deodorant of the present embodiment is approximately 46% after 50 minutes and approximately 62% after 100 minutes. It later rose to about 44%.
Therefore, the difference in the odor removal rate after 50 minutes is 12%, and the difference in the odor removal rate after 100 minutes is 18%, and it can be seen that the difference is also increasing.

As shown in FIG. 4B, in the case of acetic acid, the odor removal rate of the deodorant of the present embodiment starts from 0 and gradually increases, whereas the odor removal rate of the conventional deodorant starts from 0 and increases gradually. After falling once, it gradually increases.
The odor removal rate of the deodorant of the present embodiment is about 45% after 50 minutes and about 57% after 100 minutes. Later it is about 35%.
Therefore, the difference in the odor removal rate after 50 minutes is 35%, and the difference in the odor removal rate after 100 minutes is 22%.
As shown in FIG. 4(C), in the case of hydrogen sulfide, the deodorant of the present embodiment has a odor removal rate that starts at 0 and gradually increases, whereas the odor removal rate of the conventional deodorant is 0. , then gradually increased
The odor removal rate of the deodorant of the present embodiment is about 35% after 50 minutes and about 64% after 100 minutes, and the odor removal rate of the conventional deodorant is about 17% after 50 minutes and 100 minutes. Later it is about 45%.
Therefore, the difference in odor removal rate after 50 minutes is 18%, and the difference in odor removal rate after 100 minutes is 19%.
As can be seen from these results, no matter which graph is referred to, the deodorant of the present embodiment exerts its deodorizing effect immediately after the start of use, and the effect gradually increases. It can be seen that the deodorizing effect of the deodorizing agent is always exceeded.

As described above, according to the present embodiment, the gel composition 20 containing the functional agent, the volatile solvent, and the gelling agent is formed by the elongated elongated body 22A, and the elongated body 22A is formed into the desired shape.
Therefore, when the gel-like composition 20 is used as a mass with its interior being densely formed, the elongated body 22A is formed into a desired shape with the outer peripheral surface in the longitudinal direction serving as a surface. The surface area of the gel composition 20 in contact with the air can be greatly increased compared to , and the amount of unused functional drug can be reduced, which is advantageous in enhancing the effect of the functional drug.
In addition, by including a volatile solvent and a gelling agent so that a desired shape can be formed by the elongated bodies 22A, the desired shape of the gel composition 20 is maintained and the gel composition 20 that contacts the air. It is advantageous in securing a large surface area until the end of use.
In addition, since the length and cross section of the elongated bodies 22A are reduced by volatilization of the volatile solvent, the elongated bodies 22A shrink while maintaining the desired shape, thereby extending the end of use of the gel composition 20. It is advantageous to understand clearly.

In addition, since the gel composition 20 is formed in a three-dimensional structure in which the elongated body 22A is bent while securing a gap between the elongated body 22A and other parts, the functional drug is formed. In addition to being advantageous in enhancing the effect exhibited, the three-dimensional structure of the elongated body 22A housed in the container 12 is advantageous in enhancing the decorativeness and design of the deodorizing tool 10A, thereby increasing the sales volume of the deodorizing tool 10A. advantage over
Further, since the elongated body 22A has a uniform cross section in the longitudinal direction, it is advantageous in easily forming the elongated body 22A and in reducing the cost of the deodorizing tool 10A.
Although a three-dimensional structure may be formed using a plurality of elongated bodies 22A, the manufacturing process can be simplified by forming a three-dimensional structure using one elongated body 22A as in the present embodiment. , which is advantageous in reducing the cost of the deodorizing tool 10A.
In addition, since the elongated body 22A can be formed in a three-dimensional structure according to the application of the gel composition 20 and the container in which it is stored, it can be used as a plate-shaped container 12 that can be used by inserting it between foods stored in a refrigerator, freezer, or the like. When the gel composition 20 is formed together, the space occupied by the deodorizing tool 10A is reduced, which is advantageous in securing a large storage space for refrigerators, freezers, and the like.

(Second embodiment)
In the first embodiment, the elongated body 22A is formed in a plate shape, whereas in the present embodiment, the elongated body 22A is formed in a cylindrical shape.
In the following description of the embodiment, the same reference numerals are assigned to the same parts and members as in the first embodiment, and the description thereof will be omitted, and the different parts from the first embodiment will be emphasized. to explain.
As shown in FIG. 5, the deodorizing tool 10B of the second embodiment has a gel composition 24 contained in a resin container 32. As shown in FIG.
The container 32 is composed of a transparent body portion 34 and a cap portion 36 detachably attached to the upper portion of the body portion 34 .
The body portion 34 is composed of a circular bottom surface 3402 and a cylindrical peripheral wall 3404 rising from the peripheral edge of the bottom surface 3402, and has an opening 3406 at the top.
The gel composition 24 is accommodated inside the body portion 34 .

The cap portion 36 is a lid that is attached so as to cover the opening portion 3406 of the main body portion 34 , and is formed of a circular top surface 3602 and a peripheral wall 3604 that hangs down from the peripheral edge of the top surface 3602 .
The top surface 3602 is provided with a plurality of circular air vents 36A.
When the deodorizing tool 10B is distributed in the market, the opening 3406 of the main body 34 is closed with a non-air-permeable film, and this non-air-permeable film is peeled off when the deodorizing tool 10B is used.
The gel composition 24 uses elongated bodies 22A that are the same as in the first embodiment in terms of components and cross-sectional shape. It is a columnar three-dimensional structure corresponding to 24 internal spaces.
Such a deodorizing tool 10B is used by being placed in a refrigerator or a freezer, for example.

As described above, according to the present embodiment, in addition to the effects similar to those of the first embodiment, the following effects can be obtained.
That is, since the gel composition 24 formed in a columnar shape according to the present embodiment is housed in the cylindrical container 32, it can be placed between foods stored in a refrigerator, a freezer, or the like for use. Therefore, it is not necessary to secure the space occupied by the deodorizing tool 10B, which is advantageous in securing a large storage space such as a refrigerator or a freezer.

(Third Embodiment)
In the first embodiment, the elongated body 22A is formed in a plate shape, but in the present embodiment, the elongated body 22A is formed as a hollow sphere.
The gel composition 26 of the present embodiment uses an elongated body 22A having the same components and cross-sectional shape as those of the first embodiment. The elongated body 22A is formed in a three-dimensional structure as a hollow sphere, as shown by the imaginary line where the elongated body 22A is located.
The gel composition 26 is housed in a bag or box made of a transparent non-air-permeable film and displayed at a store during market distribution, and the gel composition 26 is taken out of the bag or box when used.
Since the gel composition 26 of the present embodiment is not contained in a container, it can be used by containing it in a container selected by the user.
For example, the gel composition 26 may be placed in a ceramic or glass plate, a wicker basket, or placed in a breathable transparent synthetic resin bag having a plurality of small holes. Used by hanging.

As described above, according to the present embodiment, in addition to the same effects as those of the first embodiment, the following effects are also achieved.
Since the gel composition 26 formed into hollow spheres according to the present embodiment can be used by being housed in a desired container such as a dish or a bag, the deodorizing effect can be exhibited in a usage form that suits the user's preference. becomes possible.

(Fourth embodiment)
In the first embodiment, the elongated body 22A is formed in a plate shape, but in the present embodiment, the elongated body 22A is formed in a rod shape and arranged. , in that a plurality of desired gel compositions formed by the elongated bodies 22A are accommodated in the container 12. FIG.
As shown in FIG. 7, a deodorizing tool 10C of this embodiment contains a gel composition 28 in a container 12 similar to that of the first embodiment.
Further, the gel composition 28 of the present embodiment uses the elongated body 22A which is the same as the first embodiment in terms of components and cross-sectional shape, but the elongated body 22A is formed into a rod shape extending linearly. It is
As shown in FIG. 7, in the deodorizing tool 10C, a rectangular resin plate member 18 is placed on the bottom surface 1402 of the main body 14 of the container 12, and the gel composition 28 is applied to the upper surface of the plate member 18 as an adhesive. etc. is installed.
In the gel composition 28 of the present embodiment, a plurality of rod-shaped elongated bodies 22A having a predetermined length are attached to the upper surface of the plate member 18 so as to extend in the vertical direction. A total of 24, 8 in the lateral direction and 3 in the lateral direction, are arranged at predetermined intervals.
In the present embodiment, 24 rod-shaped elongated bodies 22A are attached to the plate member 18, but the number of the elongated bodies 22A is arbitrary and can be adjusted according to the shape of the container to be accommodated. can be done.
In addition to the same effect as the first embodiment, the fourth embodiment also exhibits a different design than the conventional one, and is useful in promoting sales of the deodorizing tool 10C. be advantageous.

As described above, in the first to fourth embodiments, examples of three-dimensional structures are plate-shaped, cylindrical, hollow sphere, and rod-shaped. In addition to the various conventionally known structures of , arbitrarily shaped special structures are included.
That is, for example, the elongated body 22A may be irregularly bent to form a three-dimensional structure such as a hollow plate, a hollow cylinder, or a sphere.
Alternatively, the elongate body 22A may be bent regularly to form, for example, a spiral hollow columnar shape.

(Fifth embodiment)
In the first embodiment, the elongated body 22A has a circular uniform cross section, but in the present embodiment, the elongated body has a different cross-sectional shape from the first embodiment.
In elongated bodies 22B and 22C shown in FIGS. 8A and 8B, a plurality of protrusions are formed on the outer peripheral surface of the elongated body.
That is, the slender body 22B shown in FIG. 8A is formed with a uniform cross section provided with a plurality of ridges 2201A extending along the longitudinal direction of the slender body 22B on its outer periphery. The elongated body 22C shown in 8B is formed with a non-uniform cross section in which a plurality of projections 2201B are provided at intervals in the circumferential and longitudinal directions of the columnar main body 2200 .
In elongated bodies 22B' and 22C' shown in FIGS. 8(C) and (D), a plurality of recesses are formed on the outer peripheral surface of the elongated bodies.
That is, the elongated body 22B′ shown in FIG. 8(C) is provided with recessed grooves 2201C as recessed portions extending along the longitudinal direction of the body portion 2200 at intervals in the circumferential direction of the cylindrical body portion 2200. A slender body 22C′ shown in FIG. 8B, which is formed with a uniform cross section, is formed with a non-uniform cross section in which a plurality of concave portions 2201D are provided at intervals in the circumferential direction and the longitudinal direction of a columnar main body 2200. ing.
Thus, when a plurality of projections 2201A, 2201B and recesses 2201C, 2201D are provided on the outer peripheral surfaces of the elongated bodies 22B, 22C, 22B', 22C', the elongated bodies 22B, 22C, 22B', 22C' contacting the air are A larger surface area can be ensured, and the elongated bodies 22B, 22C, 22B', and 22C' can be shaped like a plate, a cylinder, a hollow sphere, a rod, etc., as in the first to fourth embodiments. 3D structure is advantageous in ensuring large gaps between the elongated bodies 22B, 22C, 22B' and 22C'.
Therefore, according to the present embodiment, in addition to the effects of the first embodiment, it is more advantageous to reduce the amount of unused functional drug and enhance the effect of the functional drug.

(Sixth embodiment)
In the first embodiment, the cross section in the longitudinal direction of the slender body 22A is formed uniformly. The difference is that the large cross-sectional area portions having a larger cross-sectional area than the area portions are alternately formed.
For example, the slender body 22E shown in FIG. 9A has a cylindrical small diameter portion 2202 forming a small cross-sectional area portion and a circular large diameter portion forming a large cross-sectional area portion having a diameter larger than that of the small diameter portion 2202. 2204 are arranged alternately on the same axis.
At both ends of the large-diameter portion 2204 , inclined portions 2206 are formed to continuously connect the outer peripheral surface of the large-diameter portion 2204 to the outer peripheral surface of the small-diameter portion 2202 .
Further, for example, the elongated body 22F shown in FIG. 9B has a columnar small diameter portion 2202 forming a small cross-sectional area portion, and a spherical portion 2214 forming a large cross-sectional area portion having a larger diameter than the small diameter portion 2202. are arranged alternately on the same axis.
According to this embodiment, when the slender body forms a three-dimensional structure such as a plate, a column, a hollow sphere, or a rod, as in the first to fourth embodiments, the slender body This is advantageous in securing a large gap between 22A.
Therefore, according to the present embodiment, in addition to the effects of the first embodiment, it is more advantageous to reduce the amount of unused functional drug and enhance the effect of the functional drug.
The cross-sections of the small cross-sectional area portion and the large cross-sectional area portion are not limited to a circular shape, and may be formed in various conventionally known shapes such as squares, rectangles, triangles, and ellipses.

In the above-described embodiment, the functional agent is a deodorant, but the functional agent is not limited to a deodorant. It may be applied to repellents, insect repellents, insecticides, disinfectants, and the like.
Furthermore, in the above-described embodiments, the case where the functional agent is nonvolatile has been described, but the functional agent may be volatile, and in this case also, the surface area of the gel composition is increased. The amount of the functional agent that is not used together is reduced to increase the volatilization amount of the functional agent, which is advantageous in enhancing the deodorant effect, fragrance effect, antifungal effect, repellent effect, insect repellent effect, or insecticidal effect.

10A, 10B, 10C deodorizing tool 12, 32 container 14 main body 16 cap 16A, 16B, 36A vent 18 plate member 20, 24, 26, 28 gel composition 22A, 22B, 22B', 22C, 22C', 22E, 22F elongated bodies 2201A, 2201B convex portions 2201C, 2201D concave portions 2202, 2212 small area portions 2204, 214 large area portions 2206 inclined portions

Claims (10)

A gel composition comprising a functional agent, a volatile solvent and a gelling agent,
The gel composition is formed of an elongated elongated body, and contains the volatile solvent and the gelling agent so that the elongated body is formed into a desired shape.
A gel composition characterized by: The slender body is reduced in length and cross section by volatilization of the volatile solvent,
The gel composition according to claim 1, characterized by: The elongate body has a uniform cross section,
3. The gel composition according to claim 1 or 2, characterized by: A plurality of protrusions or a plurality of recesses are formed on the outer peripheral surface of the elongated body,
3. The gel composition according to claim 1 or 2, characterized by: The elongate body is formed by alternately arranging small cross-sectional area portions and large cross-sectional area portions having a larger cross-sectional area than the small cross-sectional area portions in the longitudinal direction.
3. The gel composition according to claim 1 or 2, characterized by: The desired shape is a three-dimensional structure formed by bending the slender body while ensuring a gap between a part of the slender body and another part of the slender body.
The gel composition according to any one of claims 1 to 5, characterized by: The three-dimensional structure is plate-like, hollow plate-like, columnar, hollow columnar, spherical, or hollow spherical,
7. The gel composition according to claim 6, characterized by: The desired shape is a rod shape in which the elongated body extends linearly.
The gel composition according to any one of claims 1 to 5, characterized by: the functional agent is a non-volatile deodorant,
The gel composition according to any one of claims 1 to 8, characterized by: said functional agent is a volatile deodorant or fragrance or antifungal agent or repellent or insect repellent or insecticide;
The gel composition according to any one of claims 1 to 8, characterized by:

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