JPWO2002051271A1 - Artificial plants and methods of using them - Google Patents

Abstract

The artificial plant has a flower part and / or a leaf part made of a water-absorbing substance, and a stem part and / or a branch part having a core part made of a water-absorbing substance. The flower part and / or the leaf part and the stem part and / or the branch part are in liquid communication with a water-absorbing substance. The stem core has an exposed portion that can contact the liquid medium. By supporting pigments, fragrances, and deodorants on the core, and adding pigments, fragrances, and deodorants to the liquid medium, you can enjoy changes in flower color and fragrance, etc. Is also obtained.

Description

その結果、色については、花の中心部から色が変化しはじめ、全体にその色が広がり、その後、花弁の外縁の色が濃くなり縁取られたような状態となった。芳香も生じ、部屋中に芳香が満ち、それが長期間持続された。また、同時にいやな臭いが除去されるという消臭効果も得られられた。
また、色の変化や芳香効果の速さやこれらの持続期間に関係する、液状媒体の経時的質量変化のグラフを図１４に示す。本実施例においては、比較的長時間色が変化し、芳香効果が得られるように設計されている。
実施例２
人工植物の茎部内の芯部にあらかじめ色素を含有させ、液状媒体に芳香剤・消臭剤を含有させた場合を示す。
赤色１０２号をエタノールに溶かした溶液をスポイトで色素量が０．０１ｇとなるように滴下した芯部を有する人工植物を用いて、実施例１と同様に、液状媒体に接触させた。液状媒体の組成を下記表２に示す。

液状媒体は透明であるにもかかわらず、花の色が赤く変化した。中心部から経時的に外縁に向かい色が変化していった。芳香も生じ、部屋中に芳香が満ち、それが長期間持続された。また、同時にいやな臭いが除去されるという消臭効果も得られられた。
実施例３
撥水／撥油剤であるユニダイン（ダイキン工業（株）製）がスプレーされた花弁を有する人工植物を、実施例１と同様に液状媒体に接触させた。
実施例１と同じ液状媒体を使用したが、撥水／撥油剤により、斑模様となった。芳香も生じ、部屋中に芳香が満ち、それが長期間持続された。また、同時にいやな臭いが除去されるという消臭効果も得られられた。
実施例４
下記表３に示すカチオン系界面活性剤を表３に示す濃度で水に溶解して色移り防止溶液を調製した。各溶液をポリエステル生地（白色）からなるバラ様花弁にスプレーガンを用いて塗布した後、十分に乾燥した。しかる後、各花弁に色素（赤色１０２号（Ｃ．Ｉ．１６２５５））を滴下し、上記表２に示す液状媒体に浸漬し、色素を浸透させるようにした。その後、色素の浸透（色移り）の程度を目視で観察し以下の４段階で評価した。
×…色移り防止効果なし
△…ある程度色移りしない
○…ほとんど色移りしない
◎…全く色移りしない
結果を表３に併記する。

表３に示す結果から、ここで使用したカチオン系界面活性剤は、いずれも、良好な色移り防止効果を奏することがわかる。
以上記述したように、本発明によれば、天然植物に対するような手入れを必要とせず、天然植物の有する加湿効果を奏する人工植物が提供される。本発明の人工植物は、色彩・形状が変化し、美感の面・鑑賞面に優れた人工植物とすることもできる。また、香りを生じるという効果があり、より人の心をリラックスさせる効果を有する。本発明の人工植物は、目的に応じて、オフィス、部屋、台所、洗面所、トイレ等の様々な居住空間において美感と機能を併せ持つ人工植物として好適に使用することができる。
【図面の簡単な説明】
図１は、本発明の一態様に係る人工植物を示す概略断面図である。
図２は、図１の線ＩＩ−ＩＩに沿った断面図である。
図３は、本発明の他の態様に係る人工植物を示す概略断面図である。
図４Ａおよび図４Ｂは、膨潤により一定方向に動く花部を有する本発明の他の態様の人工植物を示す概略断面図である。
図５は、周囲に色移り防止部材を有する葉の例を概略的に示す図である。
図６は、周囲に色移り防止部材を有する葉の別の例を概略的に示す図である。
図７は、図６の線ＶＩＩ−ＶＩＩに沿った断面図である。
図８〜図１２は、液状媒体の貯留部を有する茎部のそれぞれ異なる例を概略的に示す断面図である。
図１３は、液状媒体の貯留部を備えた花托を有する花部の例を示す概略断面図である。
図１４は、液状媒体の経時的質量変化を示すグラフである。Technical field
The present invention relates to an artificial plant, and more particularly to an artificial plant having a function of humidifying indoors and the like, and also having an excellent appreciation surface and beauty such as a change in the color and shape of a flower.
Background art
Conventionally, artificial plants for appreciation include plastic plants such as artificial flowers, dried flowers, and vinyl resins.
These artificial plants have the advantage that they require no maintenance and can be installed for a long period of time. However, on the other hand, the artificial feeling cannot be wiped off, and since there is no change, the viewing surface is inferior, and the indoor humidifying effect cannot be obtained like a natural plant.
Therefore, an object of the present invention is to provide an artificial plant which does not require care as in a natural plant and which exhibits the humidifying effect of the natural plant, and a method for using the artificial plant. Another object of the present invention is to provide an artificial plant which changes its color and shape, is excellent in beauty and appreciation, and can also have excellent deodorant and aromatic properties, and a method of using the same.
Disclosure of the invention
The present inventors have conducted intensive studies to achieve the above object, and as a result, using a liquid-absorbing substance such as a water-absorbing substance and utilizing its capillary phenomenon, the flowers and / or leaves are fresh. The present invention has been found to be capable of imparting a color, changing the color and shape, and generating aroma.
That is, the present invention includes a flower part and / or a leaf part made of a liquid-absorbing substance such as a water-absorbing substance, and a stem part and / or a branch part having a core part made of a liquid-absorbing substance such as a water-absorbing substance. An artificial plant having the same is provided. The stem core has an exposed portion that can contact the liquid medium. The flower part and / or the leaf part and the stem part and / or the branch part communicate with each other by a liquid-absorbing substance such as a water-absorbing substance when the stem core comes into contact with a liquid medium.
In the artificial plant having the above configuration, the liquid medium is supplied to the flowers and leaves through the stem by capillary action by bringing the exposed portion of the stem core into contact with a liquid medium such as an aqueous solution. In the case of the aqueous medium, freshness can be given and an impression like a fresh flower can be given, and at the same time, water evaporates from the flower part and the leaf part, and has a humidifying effect in the room.
In the present invention, the flower portion has a flower rest portion made of a swelling agent such as a moisture-absorbing swelling agent whose shape change due to swelling is restricted in a certain direction by a liquid medium, and a petal portion installed in the changing direction. Can be. In this case, the shape of a flower, such as a petal opening, can be changed by absorbing a liquid medium such as water into a swelling agent such as a moisture absorbing swelling agent.
When a pigment, preferably a water-soluble pigment, is contained in the core of the stem and / or the branch, the liquid medium containing the pigment can change the color of the flower and / or the leaf by capillary action. By holding for a longer period of time, a change such as aggregation and bordering of pigments at the ends of flowers and / or leaves can be obtained.
When scents and / or branches contain a fragrance and / or deodorant in the core, not only the visual change such as color and shape, etc., but also indoor deodorization and indoor fragrance Has an effect in terms of smell that can be produced.
When the flower part and / or the leaf part contains a substance that changes color due to a change in pH, the color can be chemically changed by a liquid medium such as an acidic or alkaline aqueous solution. Also, by neutralizing after the change, the color can be changed again.
Further, when the stem and / or branch core contains an acidic and / or alkaline substance, even if the liquid medium to be brought into contact with the exposed portion of the stem core is not acidic or alkaline, but simply water, When water transfers to flowers and / or leaves, it becomes an acidic / alkaline liquid medium, so that the color of flowers and / or leaves containing a substance whose color changes due to the above-mentioned pH change can be changed.
Further, when the flower part and / or the leaf part contains fluorescent particles, when a liquid medium such as water is contained in the flower and / or the leaf due to the capillary action, a fluorescent color is generated, and the impression is made. Varies drastically.
Furthermore, when at least one of petals, leaves, branches, and stems is entirely or partially composed of one or more of a swelling agent, a solidifying agent, and a gelling agent, the shape and impression change. be able to.
When a part of a flower part and / or a leaf part contains a water-repellent / oil-repellent substance, for example, when a water-repellent / oil-repellent substance is dispersed and applied to petals by a spray or the like, petals have a spotted pattern. Etc. can be changed.
In addition, when the stem of the stem and / or the leaf contains a color transfer preventing agent, a desired color or pattern change state can be fixed.
In addition, when a color transfer prevention member is provided around the stem and / or the leaf, the dye is effectively prevented from migrating from the stem or the leaf to a contacting person or a person.
In the present invention, the stem may preferably have a storage part capable of storing the liquid medium, and the flower part may preferably have the same storage part. Especially when the stem is relatively long, the upper leaves and flowers (usually the top) from the exposed part (usually the lowermost part) of the stem that is in contact with the liquid medium due to capillary action. It can be difficult to transfer the liquid medium up to. In this case, since the liquid medium can be stored in the storage section, the stored liquid medium can be smoothly transferred upward.
Furthermore, when the flower part includes a petal that can be in liquid communication with the liquid-absorbing substance and a petal that is not in liquid communication with the liquid-absorbing substance, the petals whose color and pattern change and the petals that do not change occur, so that the pattern of the entire flower is generated. The impression can be adjusted and designed.
In addition, it is preferable to form a bouquet or arrangement of one or more of the artificial plant of the present invention and one or more of ordinary artificial plants in order to improve the appreciation thereof.
The artificial plant of the present invention achieves the functions of color change, fragrance, movement and the like by bringing the flower part and / or the leaf part and the stem part and / or the branch part into liquid communication, thereby achieving this. Preferred uses are those that can be performed. Specifically, the method for using the artificial plant of the present invention includes contacting the exposed portion of the stem core with a liquid medium. As a result, the liquid medium moves from the exposed portion of the stem core to the flower portion and / or the leaf portion through the liquid-absorbing substance constituting the stem / branch portion. Further, when the liquid medium contains a dye, preferably a water-soluble dye, and when the liquid medium is adjusted to be acidic and / or alkaline, the color and the like can be changed as described above. In addition, it is preferable that the liquid medium contains alcohol or the like because the transferability and volatility of the fragrance and the transferability of a substance whose color changes due to a change in pH are improved. In addition, it is preferable to use an aqueous liquid medium such as an aqueous solution containing water since a humidifying effect can be obtained.
A method of using an artificial plant characterized by changing the color of a flower part and / or a leaf part is preferable, and furthermore, one or more of a color change, a speed of change, a changing period, and a changing pattern are changed. A method of using an artificial plant, which is characterized by adjustment, is preferred. Further, a method of use having a humidifying effect is preferable, and a method of use for the purpose of improving and / or maintaining the odor of the space is preferable. Further, a usage method characterized by deforming the flower part is preferable.
Here, in the case of a set containing the artificial plant of the present invention and a liquid medium, it is convenient for sale and use.
Further developments of the invention are set out in the claims and will become apparent from reading the following description in conjunction with the drawings.
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in more detail.
The present invention provides an artificial plant comprising a flower and / or a leaf made of a liquid-absorbing substance such as a water-absorbing substance, and a stem and / or branch having a core made of a liquid-absorbing substance such as a water-absorbing substance. The flower part and / or the leaf part and the stem part and / or the branch part communicate with each other by a liquid-absorbing substance such as a water-absorbing substance. The stem core has an exposed portion that can come into contact with a liquid medium such as an aqueous solution.
In the artificial plant having the above structure, the exposed portion of the stem core is brought into contact with a liquid medium such as water or an aqueous solution, so that the liquid medium has a liquid absorbing property such as a water-absorbing substance provided inside the stem and / or the branches. It is absorbed by the substance and further migrates to flowers and / or leaves by capillary action. In particular, an aqueous medium such as an aqueous solution is transferred, and since flowers and / or leaves made of a water-absorbing substance contain moisture, freshness such as fresh flowers that cannot be obtained by ordinary artificial flowers and the like is felt, Moisture evaporates from the flowers and / or leaves to humidify the room.
That is, the artificial plant of the present invention can give flowers and leaves freshness by capillary action, give an impression like a fresh flower, and have a humidifying effect for indoors.
Here, the liquid-absorbing substance is not particularly limited as long as it is liquid-absorbing and causes a capillary phenomenon, and it does not matter whether it is a natural product or a synthetic product. Specific examples include a thin glass tube or a combination thereof, tissue paper, paper such as Japanese paper, linen cloth, cotton cloth, silk cloth, cloth such as polyester cloth, cotton, octopus thread, thread such as hollow fiber, sponge, glass Fibers and the like can be exemplified. Here, in consideration of the humidifying effect and the like, it is preferable that the material is a water-absorbing substance that can absorb and transfer moisture, but is not limited thereto. In the present invention, the liquid-absorbing substance used for the core of the flower, leaf, stem, and branch is a substance that transfers a liquid medium such as an aqueous solution by capillary action. The longer the fibers constituting the liquid substance, the more effectively the liquid medium can be transferred. In this case, it is desirable that the thickness of the fiber does not change or swell due to liquid absorption. As the liquid-absorbing substance constituting such a core portion, Japanese paper is preferable, and particularly, Japanese paper made from a groove is preferable.
In the present invention, the flower portion is not particularly limited in shape, configuration, and the like as long as it has petals, and the type of the flower is not particularly limited. The shape, number, size, etc. of the leaves are not particularly limited. The liquid-absorbing substance such as the water-absorbing substance used for the petals is not particularly limited. However, in consideration of the humidifying effect and the like, it is preferable that the substance be capable of transferring moisture, keeping it for a certain period of time, and further evaporating it.
The flower supporting portion preferably has a function as a liquid reservoir, and from this point, it is preferable that the flower supporting portion has liquid absorbing property such as water absorbing property. In addition, since the transfer speed and the like of the liquid medium can be adjusted by this size and material, it is also possible to adjust the speed at which the color of the petals changes.
Further, in any one or more of petals, leaves, branches, and stems, all or a part thereof may contain one or more of a swelling agent, a solidifying agent, and a gelling agent. For example, a known polymer such as a polymer that absorbs water and solidifies, or an aqueous gelling agent can be used as appropriate. As described above, in one or more of the petals, leaves, branches, and stems, all or a part thereof contains one or more of a swelling agent, a solidifying agent, and a gelling agent, so that the shape and shape thereof can be improved. You can greatly change the appearance.
The core of the stem and / or the branch is made of a liquid-absorbing substance such as a water-absorbing substance. This is a condition necessary for transferring the liquid medium, and the material, shape, amount, and the like of the liquid-absorbing substance that can achieve this object are not particularly limited. Since the role of the liquid-absorbing substance such as the water-absorbing substance used here is to transfer water and the like to flowers and leaves, it is preferable to use a substance that smoothly transfers water and the like, not a substance that simply absorbs. Examples of liquid-absorbing substances have already been described.
Usually, in a path from an exposed portion of a stem to a flower and / or a leaf, a form in which a liquid-absorbing substance such as water-absorbing material is communicated can be adopted. It is also possible to apply some processing to the outer skin of the stem using the liquid-absorbing substance as a core, or to create a space in the interior of a stem or the like in advance and fill the interior with the liquid-absorbing substance. Further, the present invention includes a tube in which a liquid absorbent material is packed in advance in a tube made of a vinyl resin and the like is passed through the inside of a stem or a branch. The material of the hulls of the stems and branches is not particularly limited, but from the viewpoint of efficiently transferring the liquid medium containing water and the like to flowers and leaves, it is difficult to absorb the liquid medium containing water and the like, A material such as vinyl resin, plastic, or metal that is impermeable to moisture or the like so as not to evaporate the contained liquid medium is preferable, and a material that is easily deformed is preferable in terms of usability. The stem and / or branch may have a multilayer structure.
By providing a passage through which water migrates inside the stem or branch as in the present invention, the "appearance", which is the maximum existence value of the ornamental plant, is improved. Conventionally, there is an ornamental plant in which a tube is exposed outside the ornamental plant, but this has a very bad appearance. According to the present invention, in order to transfer water to a plurality of places such as flowers and leaves, it is only necessary to absorb water from a cut portion of one stem, and the path of the liquid medium is not visible from the outside. However, in the case of a tube installed outside, a plurality of water inlets and a plurality of tubes are required, and the tubes are entangled outside and the appearance becomes poor, and the value of the tube for appreciation is greatly reduced. Further, as described below, for example, in the case of changing the color, in the case of the present invention, it is only necessary to place the pigment just before the flower or the leaf whose color is to be changed (stem side), If you want to make the leaves and leaves have different colors, you just need to change the colors to be installed. In the case where this is handled by an external tube, the external appearance does not endure appreciation because a plurality of tubes are outside as described above. Furthermore, if the change in flower color is known in advance, its effect is reduced by half, so when using an external tube, it is limited to colored and opaque ones, which limits and impairs appreciation. This is not preferred.
The type of artificial plant is not particularly limited, such as flowers, grasses, plants, and plants, and may be processed artificial flowers, dried flowers, or the like.
In one embodiment of the present invention, the flower part has a flower pad made of a swelling agent such as a moisture-absorbing swelling agent whose shape change due to swelling is restricted in a certain direction, and a petal arranged in the changing direction. .
The swelling agent whose shape deformation due to swelling is restricted in a certain direction, by installing petals corresponding to the change, the swelling agent is deformed in a limited direction when the liquid medium moves Thus, the position and orientation of the petal can be changed, the movement of the flower as a whole can be generated, and the shape of the flower can be changed.
According to the above-described method, a movement can be similarly caused to a leaf or a stem, and the shape can be changed.
Examples of the swelling agent such as a moisture-absorbing swelling agent include viscous minerals such as bentonite, water-swellable rubber, polymer gel, and dried konjac, and other known swelling agents can be used.
Restricting the change in shape to a certain direction can be exemplified, for example, by fixing the periphery of the swelling agent and not fixing only one of the swelling agents. Here, the restriction in a certain direction includes not only the restriction in one direction but also a plurality of certain directions. With these, the direction of change of the swelling agent can be restricted.
By arranging the petals in the direction in which the swelling agent is deformed or changed, it is possible to change the petals so that the petals move and the flowers open. Conversely, as the liquid medium disappears due to evaporation or the like, the flowers can be deflated. This also makes it possible to visually grasp the excess or deficiency of the water or the liquid medium.
In particular, when the surroundings are fixed except for one direction (only one direction is opened), the swelling agent changes when the flower is fixed so that the petals do not open so that the petals are gathered together by the enclosure etc. This causes the flower to open.
When the core of the stem and / or the branch contains a pigment, preferably a water-soluble pigment, a portion having the pigment in a process in which a liquid medium such as an aqueous solution migrates through the inside of the stem or branch by capillary action. At the time of reaching the flowers and / or leaves, it becomes an aqueous solution containing a pigment, and the color can be imparted to the flowers and / or leaves. Can be changed. The degree and speed of color change can be adjusted by adjusting the properties and amount of the dye to be used and the position at which the dye is used.
In addition, by using the ink continuously for a long time, it is possible to enjoy a temporal change such that the color of the flower and / or stem is initially light and gradually darkens. In addition, not only one color but also a plurality of colors can be used as the pigment, and depending on the condition of the pigment, various changes in the color of flowers and / or leaves can be enjoyed. When a plurality of dyes are provided, the degree of color change, the order of change, and the like can be adjusted by the properties, amount, and arrangement of the dyes. Furthermore, it can be adjusted by utilizing the difference in solubility in the liquid medium used.
By installing pigments of various colors, preferably water-soluble pigments, at the roots of flowers and / or leaves, it is possible to obtain artificial plants having colorful flowers and leaves, and to enjoy the change. In addition, one color pigment is provided at the root of a flower and / or a leaf, and one or more pigments of other colors are added to a liquid medium to be described in detail below. Can be changed to a plurality of colors.
In addition, by holding for a long period of time, pigments can be collected at the ends of flowers and / or leaves and changed, such as fringing.
As described above, even when a pigment of various colors, preferably a water-soluble pigment is not provided at the root of a flower and / or a leaf, a similar effect can be obtained by using a liquid medium such as an aqueous solution containing the pigment. Can be obtained.
When a part of the flower part and / or the leaf part contains a water-repellent / oil-repellent substance, various patterns can be changed depending on the arrangement of the water-repellent / oil-repellent substance. For example, when a water-repellent / oil-repellent substance is sprayed on a petal by spraying or the like, it can be changed to a patchy pattern. Here, the water-repellent / oil-repellent substance refers to a substance having water repellency and / or oil repellency, such as silicone, a hydrocarbon-based polymer, poly (perfluorooctyl acrylate), or a fluorine-based water-repellent containing the same. / Oil repellents. Examples of those actually used include Unidyne (manufactured by Daikin Industries, Ltd.).
In addition, a tube made of a vinyl resin or the like filled with a liquid-absorbing substance is passed through the inside of the stem or branch, and a liquid-absorbing substance is further provided between the outer wall of the tube and the inner wall of the stem or branch. In some cases, the color of each flower or branch can be changed by using different dyes such as water-soluble dyes on the inside and outside of the tube, etc. Change and pattern change.
When a scent and / or a branch contains a fragrance and / or deodorant, not only a change in color and shape, etc., but also a deodorant in the room and a fragrance in the room Has an effect in terms of smell that can be produced.
Known perfumes and deodorants can be used, and can be used for various purposes such as for rooms, toilets, entrances, and pets.
One of the important purposes of the ornamental plants is to relax the human mind. According to the above configuration, the room can be filled with fragrance, and the fragrance can relax a person's heart and can be used for aromatherapy. In addition, the scent of flowers of the same kind as that of the artificial plant can be selected to improve the realism.
As for fragrances, not only water-soluble fragrances but also oil-soluble fragrances can be suitably used by adjusting such as dilution with an organic solvent such as alcohol.
When a deodorant is used, it has an effect of removing an unpleasant odor in a room and improving a living environment. In addition, when a fragrance is used in combination, it gives a better impression as compared to a case where the scent of the fragrance is merely used to deceive, and the above-described relaxing effect is further improved. The use of a deodorant is more preferable when used in a kitchen, toilet, toilet, entrance, etc., in addition to use in a normal room. In kitchens, washrooms, toilets, etc., water is always used or stored, so that it can be used easily. For example, when the deodorant is always contained in the water tank of the flush toilet, by using the artificial plant of the present invention directly in the water tank, a suitable deodorant effect can be immediately obtained. Can be.
Such an artificial plant of the present invention can be said to be very preferable because it has both aesthetic and deodorizing functions.
When flowers and / or leaves contain a substance that changes color due to a change in pH, the color can be chemically changed by transferring an acidic / alkaline aqueous solution to the flowers and / or leaves. .
Acid-base indicators, redox indicators, and the like can be used as the substance whose color changes with a change in pH.
Acid-base indicators are a general term for indicators used to determine the pH of aqueous solutions, and are generally classified into organic dyes, such as phthalein, azo, triphenylmethane, benzene, and nitro indicators. . Methyl red, α-naphtholphthalein, phenolphthalein, phenol red, bromthymol blue, thymolphthalein, and the like. As for the color change, for example, phenolphthalein changes color in the range of pH 8.2 to 10.0, the acidic color is colorless, and the basic color is red. In addition, by using a universal indicator that exhibits a different color depending on each pH over a wide pH range, the artificial plant of the present invention that changes to a different color at each pH value can be obtained.
The redox indicator refers to a dye used for estimating a redox potential. Methylene blue, toluidine blue, phenosafran, neutral red and the like.
After the change of color, by adding an aqueous solution of the opposite property (alkaline aqueous solution when changed with an acidic aqueous solution) to flowers and / or leaves, it is chemically neutralized. In the case where a flower and / or a leaf contains a substance that changes its color due to a plurality of changes in pH, it can be returned to its original color. You can also make multiple changes.
Furthermore, when the stem and / or branch contains an acidic and / or alkaline substance, even if the liquid medium such as an aqueous solution to be brought into contact with the exposed portion of the stem is not acidic or alkaline, it is simply water. When water moves to the flowers and / or leaves, it becomes acidic or alkaline, so that the color of flowers and / or leaves containing the substance whose color changes due to the above-mentioned change in pH can be changed.
In addition, artificial plants having colorful flowers and leaves by incorporating a substance whose color changes due to a change in pH for each flower and / or leaf and installing an acidic or alkaline substance at the base of the flower and / or leaf. And enjoy the change.
When the flowers and / or leaves contain fluorescent particles, when the liquid medium is included in the flowers and / or leaves due to capillary action, the color is fluorescently generated, and the impression changes greatly. In addition, the same effect can be obtained by applying a paint or a dye in the form of particles or fine powder to flowers and leaves in advance.
As a method of using the artificial plant described above, functions such as color change, fragrance, and movement can be obtained by bringing the flower part and / or the leaf part and the stem part and / or the branch part into liquid communication. Therefore, a use method that can achieve this is preferable. For example, the solution can be directly injected into the stem / branch, and this also includes contacting the exposed portion of the stem core exposed on the lower end surface of the stem with a liquid medium such as water or an aqueous solution. The contact with the liquid medium can be performed by immersing the stem in the liquid medium itself or by inserting the stem into a substance containing the liquid medium (for example, a water-containing sponge, soil, or the like). As a result, a liquid medium such as an aqueous solution can be transferred from the exposed portion of the stem core to flowers and / or leaves through a liquid-absorbing substance such as a water-absorbing substance inside the stem / branch. Thereby, the color of the flowers and branches is changed by the humidifying effect and the pigments and fragrances disposed inside the stems and the like, and the room can be deodorized or filled with aroma.
Further, when the liquid medium contains a dye, preferably a water-soluble dye, and when the liquid medium is adjusted to be acidic and / or alkaline, the color of flowers and leaves is changed as described above. Can be. In particular, when using a liquid medium such as a dye, preferably an aqueous solution containing a dye such as a water-soluble dye, in order to enjoy the unexpectedness of the change, so that the color is not visible, a lid, a sealed or closed. It is preferred to use a close container. Similarly, when it is desired to maintain the deodorizing / fragrance effect for a certain period of time, it is preferable to use a sealed or similar container.
Examples of the liquid medium include, but are not particularly limited to, an aqueous liquid medium such as water and an aqueous solution, and an oily liquid medium. In the artificial plant of the present invention, the flower part and / or the branch part is formed by capillary action. Anything can be used as long as it moves. Similarly, the viscosity and other properties are not limited as long as the above can be achieved. Also, the surface tension and the like can be adjusted according to the artificial plant used.
In addition, as described above, the liquid medium may be one containing water, one containing a dye, preferably a water-soluble dye, one adjusted to acidic and / or alkaline, one containing a fragrance and / or a deodorant. Is preferred. Further, an aqueous liquid medium such as an aqueous solution is preferable, and examples thereof include an aqueous organic solvent. Specific examples include a hydroalcoholic solution. In this case, it has a humidifying effect, is preferable because it improves the migration and volatility of the fragrance and / or deodorant, and changes its color due to a change in pH. It is preferable to improve the transferability of a substance or the like. In addition, an oil-soluble dye can be appropriately contained, which is preferable.
As a mode of use, a method of using an artificial plant characterized by changing the color of a flower part and / or a leaf part is preferable. This use mode is an important use mode in the present invention, and the color can be changed by the above-described method. Further, by adjusting one or two or more of the change of the color, the speed of the change, the period of the change, and the changing pattern, it is possible to obtain a mode according to the purpose, and the application of use is expanded. For example, it is preferable that an ornament in a room changes over a relatively long period of time, and conversely, an amusement item preferably changes within a short period of time. Further, a use method for improving and / or maintaining the odor of the space is preferable. This is also an important mode of use in the present invention, and is an important mode when used for applications other than ornamental use. In addition, this is an important aspect in order to promote installation as an ornamental object and to enhance its value. In addition, this is a case where the design is mainly based on functions such as deodorizing properties.For example, even when the apparatus is installed in a room or a toilet, the function is suitably performed, and at the same time, it is preferable because it has a visual aesthetic appearance. It is more preferable than that. Further, a usage method characterized by deforming the flower part is preferable. This is preferable because appreciation and unexpectedness are increased, and is more preferable because more plant-like elements can be emphasized.
The above-described adjustment of the color change, the speed of the change, the color, and the pattern can be adjusted depending on the type and amount of the pigment used, the properties of the liquid medium, and the like.
The dye can be adjusted particularly by the molecular weight, solubility in a liquid medium, and the like. For liquid media, adjust the transfer speed of pigments, fragrances and deodorants, especially by the type, content and molecular weight of organic solvents such as alcohol, additives such as surfactants, flavors and deodorants, etc. Thus, the above change and the like can be adjusted.
Organic solvents such as alcohols affect the solubility of pigments and the volatility of fragrances and deodorants. Examples of the organic solvent include alcohols, glycols, glycol ethers, glycerin, and the like. Particularly, ethanol (including denatured products), propylene glycol, butylene glycol, and polyethylene glycol (molecular weight of about 100 to About 1000), glycerin and the like can be exemplified as preferred. The content can be appropriately adjusted according to its function. For example, in the case of polyethylene glycol PEG-200 (manufactured by Sanyo Chemical Industry Co., Ltd.), the content is 0.1 to 30% by mass, preferably 1 to 20% by mass. .
In particular, when the liquid medium contains PEG, it is possible to control the migration of the pigment and the degree of the pigment deposited on petals and the like. In other words, by blending PEG, it is possible to control and adjust the flower pattern, color tone, color, and location of pigmentation. More specifically, PEG can adjust the rate of migration of the dye while at the same time adjusting the rate of wicking of the liquid medium. In addition, by adding PEG, the pigment deposition can be adjusted, so that the color at the center of the flower can be deepened and the color can be uniformly applied over the entire flower. In particular, if PEG is not blended, the color tone and the pattern cannot be adjusted normally because they all have a border pattern, but the color tone and the pattern can be adjusted by blending the PEG.
Further, an additive such as a surfactant affects the transfer speed of a dye or the like, so that it is possible to adjust a period of a color change or the like, a period of maintaining an aroma / deodorizing effect, and the like. In particular, surfactants have the effect of increasing the transfer rate of liquids and dispersing fragrances and oil-based dyes in water.The effect depends on the molecular weight, alkyl chain branching, the number of ethylene oxides, and the number of propylene oxides. Can be adjusted. Although not limited to the following, examples of the surfactant include an anionic surfactant, a cationic surfactant, an amphoteric surfactant, a nonionic surfactant, and a nonionic surfactant from the viewpoint of safety, handling, and cost. Surfactants and the like can be exemplified. The content can be appropriately adjusted according to the function. For example, in the case of Emulmin NL-70 (manufactured by Sanyo Chemical Industry Co., Ltd.) which is a nonionic surfactant, the content is 0.1 to 10% by mass, preferably 0.5% by mass. To 5% by mass, more preferably 1 to 2.5% by mass.
In the case where the stem and / or the branch contains a pigment, a fragrance or a deodorant, the order of the change and the like can be adjusted by the arrangement and arrangement of the pigment and the like in the stem and the branch. Further, such adjustment can be performed by utilizing the difference in solubility between the liquid medium and the dye. Even if the water-soluble dye and the oil-soluble dye are placed at the same position, due to their solubility in the liquid medium, for example, the water-soluble dye moves first, changes the color of the petals, and then the oil-soluble dye Can be shifted to produce the next change. In addition, a fragrance and a deodorant can be adjusted in the same manner. For example, deodorization can be performed first, and then, an adjustment can be made to generate a scent, and the intensity and type of the scent can be changed over time. You can also.
For example, a plurality of pigments having different solubility in a liquid medium (for example, a water-soluble pigment and an oil-soluble pigment) are contained in the core of the stem of one artificial plant, and an organic solvent and water are used as the liquid medium. By using the mixture (hydrous organic solvent), it is possible to adjust the order of color change of flowers and leaves, the timing of the change start, the changing organization, the pattern and the color. That is, it is possible to adjust the color change over time.
In addition, the stem cores of a plurality of artificial plants contain pigments having different solubility in a liquid medium, and the plurality of artificial plants are simultaneously immersed as a bouquet in the above-mentioned hydrated organic solvent. In addition, it is possible to start changing at different colors and at different times, or to make patterns and shades different for each artificial plant. With such a configuration, the aesthetics of the entire bouquet can be improved.
In the above case, the surrounding environment can be filled with aroma by using an aromatic solvent such as alcohol (particularly, ethanol) as the organic solvent of the water-containing organic solvent.
Further, in the present invention, when a dye is used, it is preferable to use a color transfer inhibitor which prevents the transfer of the dye to surrounding objects or people. For example, when a pigment is contained in the stem core, if a liquid medium containing a color transfer inhibitor is used, the coloring state of flowers / leaves by dissolving and developing the pigment in the liquid medium can be fixed. . That is, in the process of changing the color and the pattern, the artificial plant having a desired color and pattern can be obtained by removing the artificial plant from the liquid medium at a desired change stage. In this case, since the dye is fixed, the color does not fade, and it is possible to prevent hands, clothes, walls, and the like from being stained by the dye. The same function and effect can be achieved by adding a color transfer inhibitor to the stem core and using a liquid medium containing a pigment. In the latter case, since the liquid medium does not contain a color transfer inhibitor, it is possible to have more flexibility by changing the color. In any case, the dye can be blended into the liquid medium after a certain period of time by enclosing the color transfer inhibitor in a capsule or the like. In that case, the pigment can be fixed in that state after the petals and the like change for a certain period. Further, the same effect can be obtained by changing the color / pattern to a desired stage without using the color transfer inhibitor, removing the artificial plant from the liquid medium, and applying the color transfer inhibitor by spraying or the like. can get. It should be noted that an unexpected change in color can be obtained by appropriately selecting a dye and a color transfer inhibitor.
Such color transfer inhibitors include, in particular, mordants for fixing vegetable pigments (plant dyes). As mordants, iron mordants include ferrous chloride, ferric chloride, ferrous sulfate, chromium mordants such as chromium acetate, copper mordants such as copper acetate and copper sulfate, and tin mordants such as sodium stannate. Examples of the aluminum mordant include alum and aluminum sulfate, and examples of the lime mordant include slaked lime and other vinegar. The mordant can be used in a concentration of 0.1 to 1% by weight, preferably 0.2 to 0.5% by weight, and 1 to 10% by weight, preferably 2 to 5% by weight based on petals and leaves. Can be applied in proportions.
Further, in order to prevent discoloration of hands, clothes, walls and the like due to coloring without preventing color discoloration, a film-forming color transfer inhibitor can be applied to flowers and leaves. Examples of such a film-forming color transfer inhibitor include cationic surfactants; egg whites; soaps such as linoleic acid soap, linolenic acid soap, conjugated linoleic acid soap; paints such as lacquer and cashew paints; Natural resins such as copal and shellac; natural oils such as tung oil and linseed oil; natural waxes such as carnauba, ibota wax, wood wax and beeswax; The lacquer is composed mainly of nitrocellulose, to which a natural resin, a synthetic resin, and a plasticizer are added, a type of synthetic emulsion paint called an acrylic emulsion paint (AEP), and a synthetic emulsion paint called an aqueous emulsion paint 2 Examples of resins and paints such as seed (EP), vinyl chloride resin enamel paint, etc. It can be.
Further, in the present invention, a dye / dye solution used in the indigo dyeing method can also be blended in the liquid medium. After the artificial plant has undergone a color change due to the dye / dye used in the Sukumo method, the dye can be oxidized by oxygen in the air to develop and change to a blue color. These color transfer inhibitors can be dissolved in a solvent as necessary and applied by spraying or the like. In this case, the color transfer can be prevented by applying these color transfer preventive agents to the periphery of the petals and leaves. These anti-color transfer agents can be completely impregnated into the material constituting the petals and leaves, and by applying to the surface of the petals and leaves, the color of the applied part changes, but the color transfer can be prevented. You can also.
Furthermore, when a film-forming color transfer inhibitor is used, a desired pattern (spotted pattern, polka dot pattern), a graphic, a symbol, a character, or a combination thereof can be formed on petals and leaves. That is, a film-forming color transfer inhibitor is applied according to a desired pattern or the like, and the dye is prevented from migrating to the portion, whereby a desired pattern or the like can be formed. When using a water-repellent / oil-repellent agent, there is a pleasure to obtain an unexpected pattern, but if you know the pattern you want to obtain or if you want to make it clear like a message, use a film-forming color transfer inhibitor Is preferred. In particular, when the liquid medium containing the pigment is an aqueous medium, it is preferable to use an oil-based film-forming color transfer inhibitor, while when the liquid medium containing the pigment is an oil, an aqueous medium is used. It is preferable to use a film-forming color transfer inhibitor.
Further, in order to prevent the transfer of the pigment developed on the petals and leaves, a color transfer preventing member may be provided around the petals and leaves. The color transfer prevention member can be made of short fibers provided around the petals and leaves by electrostatic flocking. Alternatively, the color transfer preventing member may be configured by a ribbon sheet that sandwiches both sides of the periphery of the petals and leaves.
In addition, as described above, the speed of change and the like can also be adjusted by adjusting the material and size of the flower supporting portion. For example, when the flower supporting portion is liquid-absorbing such as water-absorbing property and is large, water and the like evaporate from the flower supporting portion a lot, so that the liquid medium is quickly sucked up, and the color change and the like tend to be fast. is there.
Further, the pattern of the flower part can be adjusted depending on the method of applying the water / oil repellent substance. Further, the speed of the change can be adjusted according to the amount of application.
Further, by combining a plurality of materials such as petals, it is also possible to make the color changing speed for each petal different.
Furthermore, when the artificial flower part of the present invention has a plurality of petals, at least one petal is communicated with the absorbent material of the stem core, and the other petals are communicated with the absorbent material of the stem core. By preventing communication, a petal whose color and pattern change and a petal that does not change are generated, and the pattern and impression of the entire flower can be adjusted and designed. For example, the petals in the center of the flower can be communicated with the liquid-absorbing substance in the stem core, and the outer petals can be prevented from communicating with the liquid-absorbing substance in the stem core. In this case, since the pigment does not reach the outer petals, even if it touches a wall or clothes, it does not stain them. In order not to communicate with the liquid-absorbing substance in the stem core, it is necessary to connect the other petals to the stem hull (such as a plastic tube) or to form the other petals from a non-liquid-absorbing substance. it can.
In one preferred embodiment of the present invention, the dye used may have low light fastness. When light (sunlight, ultraviolet rays) is applied to flowers and leaves colored with low lightfast pigment, the color gradually fades, and finally the flowers and leaves become the original color . Such artificial plants having discolored flowers and leaves can be reused.
In another preferred embodiment of the present invention, the dye used may be a combination of a dye having low light resistance and a dye having high light resistance. When light (sunlight, ultraviolet rays) is applied to a flower or leaf colored by a combination of these two dyes, the light-fast dye fades, and the color of the light-fast dye is applied to the flower or leaf. Appear. For example, when red light No. 102 (CI. 16255) having high light resistance and yellow light No. 403-1 (CI. 10316) having low light resistance are used in combination, the flower part is initially colored orange. However, when sunlight is applied to the flowers and leaves, yellow light-resistant No. 403-1 (CI. 10316) gradually fades, and the color of the flowers becomes reddish. Becomes red. In this way, it is possible to achieve a temporal change in the color of the flower.
As the dye having low light resistance, yellow No. 403-1, yellow No. 5 (C.I. 15985), brown No. 201, and / or red No. 401 (C.I. 45190) can be used. . Examples of the dyes having high light fastness include Red No. 102, Yellow No. 4 (CI. 19140), Blue No. 1 (CI. 42090), Red No. 227 (CI. 17200), and Purple. No. 401 and / or black No. 401 can be used.
The artificial plant of the present invention has the important effects of being able to change the color of flowers and / or leaves, and having an aroma effect and a deodorant effect, and combining these effects as described above. Can be. In addition, the means can also be achieved by incorporating a pigment and a fragrance / deodorant into the stem / branch, or a liquid medium incorporating the fragrance / deodorant by incorporating only the pigment. Can be achieved by using It can also be achieved by using a liquid medium in which a dye, a fragrance and a deodorant are blended. Furthermore, the effect of opening the petals, the pattern, and the like can be appropriately added according to the purpose.
In addition, it is preferable to form a bouquet or arrangement of one or more of the artificial plant of the present invention and one or more of ordinary artificial plants in order to improve the appreciation thereof.
As described above, in order to improve the appreciation, in addition to combining the artificial plants of the present invention, other general artificial plants, for example, artificial flowers, by combining with resin imitations, bouquet, flower It can be in the form of an arrangement, a wreath, or the like, is more gorgeous in appearance, and has high value as a product.
Naturally, it can also be appreciated as a single flower, and can be used to obtain the fragrance effect and the like by using it with a liquid medium containing an fragrance and a deodorant.
Furthermore, a set including the artificial plant of the present invention including the bouquet and the like and a liquid medium such as an aqueous solution is convenient for sale and use. In particular, it is suitable for a case where water alone has a limit in wicking by capillary action.
In addition, it is preferable to design the liquid medium in advance because the variety of the set can be expanded. For example, by adjusting the content of the color change, the time of the change, the type of the fragrance, and the like, it becomes easy to use the artificial plant of the present invention in a mode according to the purpose. Also, from the viewpoint of the usability of the purchaser and the commercial value, it is preferable to prepare the set as a set.
Here, the liquid medium is as described above, and naturally includes a medium in which a pigment, an aromatic, a deodorant, and the like are blended. When long-term use is considered, it is preferable to appropriately add a preservative or the like.
FIG. 1 is a diagram showing an artificial plant according to a more specific embodiment of the present invention, and FIG. 2 is a cross-sectional view (that is, a cross-sectional view of a stem) taken along line II-II in FIG. The artificial plant 10 shown in FIGS. 1 and 2 has a stem portion 11, a flower portion 12 made of a liquid-absorbing substance such as the above-described water-absorbing substance, and a leaf portion made of the liquid-absorbing substance described in detail above. 13 is provided. The stem portion 11 is composed of a tube outer shell portion 111 made of a tube made of a liquid impermeable material such as plastic, and a core made of a liquid-absorbing material such as the above-described water-absorbing material filled therein. It comprises a unit 112. The stem outer skin portion 111 communicates with the outer skin portion 111 and has a hollow branch portion 111a reaching each leaf portion 13. The hollow branch portion 111a is filled with a liquid-absorbing substance that communicates with the liquid-absorbing substance of the stem core portion 112. This constitutes the branch core 112a. The upper end of the stem 11 constitutes a flower tray 122, and the liquid-absorbing substance 112 is filled from the lower end 112 b of the stem 11 to the tip of the flower tray 122. The lower end 112b of the stem 11 is open so that the liquid-absorbing substance of the stem core 112 is exposed.
The flower portion 12 is shown as having a petal 121 provided on the upper end of the stem portion 11 and made of a liquid-absorbing substance.
In use, the artificial plant 10 is immersed in a liquid medium 22 contained in a container 21. The liquid medium 22 moves from the exposed core portion at the lower end of the stem portion 11 to the leaf portion 13 and the flower portion 12 through the stem core portion 112, and achieves the various actions described in detail above.
Needless to say, when the liquid medium 22 contains a dye, a fragrance, a deodorant, a dye fixing agent, and the like (these are collectively referred to as a functional additive), The stated effect is achieved.
FIG. 3 is a schematic cross-sectional view showing an example of an artificial plant similar to the artificial plant shown in FIGS. 1 and 2 except that the functional additive FA is contained in the liquid-absorbing substance 112 constituting the stem core. . The functional additive FA comes into contact with the liquid medium 22 sucked up through the stem core 112, and achieves the various functions described above.
FIG. 4 is a schematic sectional view showing an artificial plant according to another embodiment of the present invention having a flower portion which moves in a certain direction due to swelling.
The artificial plant 30 shown in FIG. 4 contains a swelling agent such as a moisture-absorbing swelling agent described in detail above in a container 33 made of, for example, plastic or the like to form a flower base 31. The petals 32 are fixed. The lower end of the flower rest 31 is connected to the core 112 of the stem 11. Since the periphery of the swelling agent constituting the petals 31 is constrained by the container 33, the swelling agent swells only upward due to absorption of the liquid medium, and as a result, the petals 32 also move upward. In this case, as shown in FIG. 4A, when the petals are held by the inner wall of the container 33 so that the petals 32 do not open in the non-swelling state of the petals 31, as shown in FIG. So that the petals 32 open.
FIG. 5 is a diagram schematically illustrating an example of a leaf 51 having a color transfer prevention member including a large number of short fibers PL provided on a peripheral portion. The short fibers can be provided by electrostatic flocking.
FIGS. 6 and 7 schematically show another example of a leaf 51 having a color transfer prevention member composed of two upper and lower ribbon sheets 52a and 52b provided so as to sandwich the peripheral part on both sides of the peripheral part. It is. The ribbon sheets 52a and 52b are non-liquid absorbing or liquid impermeable materials such as plastic sheets, and are preferably transparent.
FIG. 8 is a cross-sectional view schematically illustrating an example of a stem having a storage portion for a liquid medium. Here, the stem core portion 81 is inserted through a cylindrical body composed of two upper and lower tubes 82a and 82b. The lower end of the upper tube 82a bulges, for example, into a sphere, and forms a hollow liquid storage portion 82c. The lower tube 82b extends into the liquid storage part 82c, but most of the stem core 81 is exposed inside the liquid storage part 82c. In the storage part 82c, a liquid-absorbing substance 83 such as cotton is provided around the stem core 81 so as to be in contact with the exposed stem core 81. The liquid medium that has moved up the stem core 81 is also absorbed by the liquid-absorbing substance 83 at the exposed part of the stem core 81 that is in contact with the liquid-absorbing substance 83, and the liquid pool 84 is formed at the bottom of the storage part 82c. Form. The liquid medium from the liquid reservoir 84 through the liquid-absorbing substance 83 can raise the stem core 81 more effectively. It is preferable that the tubes 82a and 82b are inserted into a tube 85 forming a stem hull.
FIG. 9 is a cross-sectional view schematically showing another example of a stem having a liquid medium storage section. Here, the tube 92 that passes through the stem core 91 extends upward, but is bent and lowered to form a first curved portion 94, and then extends upward again to form a second curved portion 95. Is formed. The second curved portion that is curved so as to protrude downward forms a storage portion for the liquid medium. It is preferable that the tube 92 is inserted into a tube 96 that constitutes a stem outer skin.
FIG. 10 is a cross-sectional view schematically showing another example of a stem having a liquid medium storage section. Here, a tube 102 forming a stem outer skin through which a stem core 101 is inserted is relatively thick, and a plurality of annular grooves 103 are formed on an inner wall thereof. Each annular groove 103 is filled with a liquid-absorbing substance 104 such as cotton, surrounding the stem core 101. The liquid medium that has risen in the stem core is also absorbed by the liquid-absorbing substance 104 and forms a liquid pool in the annular groove 103.
FIG. 11 is a cross-sectional view schematically showing still another example of a stem having a liquid medium storage section. Here, the stem core portion 111 is inserted through the inside of the stem outer skin composed of the upper and lower two tubes 112a and 112b. The lower end of the upper tube 112a bulges in a ring shape, and forms a hollow liquid storage portion 112c. The lower tube 112b extends into the liquid storage 112c, but most of the stem core 111 is exposed inside the liquid storage 112c. In the storage part 112c, a liquid-absorbing substance 113 such as cotton is provided around the stem core 111 so as to contact the exposed stem core 111. The liquid medium that has risen up the stem core 81 is also absorbed by the liquid-absorbing substance 113 at the exposed portion of the stem core 111 that is in contact with the liquid-absorbing substance 113, and forms a liquid pool at the bottom of the storage part 112c. I do. The reservoir 112c can act as a stem node.
FIG. 12 is a cross-sectional view schematically showing still another example of a stem having a liquid medium storage section. Here, a plurality of absorbent materials 122 such as cotton are provided around the stem 121 at predetermined intervals. The liquid-absorbing substance 122 absorbs the liquid medium that has risen up the stem core 121, forms a liquid pool, and thus acts as a reservoir for the liquid medium. In addition, the stem core 121 provided with the liquid-absorbing substance 122 is inserted into a tube 123 constituting a stem skin.
FIG. 13 is a schematic cross-sectional view showing an example of a flower part having a flower base provided with a storage part for a liquid medium. Here, the flower supporting portion 133 formed by being connected to a tube (stem skin) 132 through which the stem core portion 131 is inserted is formed in a bowl shape whose bottom protrudes below a connection point with the stem skin 132. I have. The flower supporting portion 133 is filled with a liquid absorbing material 134 such as cotton. On the liquid absorbing material 134, a Brahma 135 is mounted. The stem core protrudes above the outer skin 132 and is exposed at that portion. The liquid absorbing material 134 is filled so as to surround the exposed stem core. The liquid medium that has risen up the stem core 132 is absorbed by the liquid-absorbing substance 134 to form a liquid pool. Here, a liquid medium is supplied from the liquid pool to the petals 136 provided through the interior of the liquid-absorbing substance 134, so that the color and the like can be changed. Note that the petals 137 provided in the flower supporting portion 133 without contacting the liquid absorbing substance 134 are not supplied with a liquid medium, so that the color or the like does not change.
The artificial plant of the present invention can be suitably used for ordinary appreciation, for humidification, for toys, and for fragrance and deodorization of a room as a preferable one having a function and a beautiful feeling.
In order to improve appreciation, for example, a static or dynamic decoration can be applied. For example, static decorations include Christmas decorations, message cards such as strips used in Tanabata, and packaging, and dynamic decorations include illuminations, optical fibers, electric bulletin boards, and rules and irregularities. There are dolls that move dynamically.
In addition, it is preferable that the petals and the like are made of a material that can be washed, because the material can be repeatedly used by washing after coloring.
As the purpose of use, for example, it can be used for ornamental use, for gifts such as Christmas and Mother's Day, and for deodorizing and aroma in rooms, entrances, kitchens, toilets, and the like.
As a place of use, for example, it can be used in a room at home, an entrance, a kitchen, a toilet, an office, a store, a hospital, and the like.
As the distribution route, not only the route of artificial flowers and the like, but also the route of fresh flowers, the route of toiletries, and the like are preferable. For example, a home center, a drugstore, an antenna shop, a general store, a flower shop, and other mail-order sales including the Internet can be used. Moreover, since it does not wither in a few days like a fresh flower, it can be stored in a warehouse or the like, and is easy to handle, and it is preferable because labor such as purchasing is unnecessary.
Preferred business forms are the business forms described above. In addition, if it is considered as a substitute for fresh flowers, it can be used for leasing to offices, stores, etc., and for use at parties such as weddings. In this case, it is important to design an artificial plant or a liquid medium according to the purpose of use.For example, in the case of use in an office, a change in color and the like over a relatively long period, persistence of a scent is required, and conversely In a wedding or the like, a large change in color or shape is required in a short time, and it is important that a design corresponding to the change is made.
Example 1
Rose-like artificial plants were prepared for the following uses.
Stem
Outer shell material: vinyl resin tube
Length: 20cm
Diameter: 4mm
Core material: Japanese paper
Hanabe
Number of petals: 18
Petal material: polyester fabric (white)
Flower part diameter: about 8cm
Brahma: Polyester, diameter 3cm
The liquid medium shown in Table 1 below was prepared, and the cut portion, which was the stem of the artificial plant and was exposed so that the core could come into contact, was immersed in the liquid medium and held. The container used a sample tube for 100 mL, a hole was made in the lid, and a stem was passed through the hole.
The color change, aromaticity and the like of this artificial plant were observed. Also, the quantitative change of the liquid medium, that is, the speed of sucking up, and the like were observed. The quantitative change of the liquid medium was determined based on the change in the total mass of the container containing the artificial plant and the liquid medium in which the artificial plant was placed.

As a result, as for the color, the color began to change from the center of the flower, and the color spread throughout, and thereafter, the color of the outer edge of the petal became darker and was bordered. A fragrance also developed, and the room was full of fragrance, which persisted for a long time. In addition, a deodorizing effect that an unpleasant odor is removed at the same time was obtained.
FIG. 14 shows a graph of the change in mass of the liquid medium over time, which is related to the color change, the speed of the fragrance effect, and the duration thereof. The present embodiment is designed so that the color changes for a relatively long time, and an aroma effect is obtained.
Example 2
This shows a case where a pigment is previously contained in the core of the stem of an artificial plant, and a fragrance and a deodorant are contained in the liquid medium.
A solution prepared by dissolving Red No. 102 in ethanol was dropped with a dropper so that the amount of pigment became 0.01 g. The composition of the liquid medium is shown in Table 2 below.

The color of the flower turned red despite the liquid medium being transparent. The color gradually changed from the center to the outer edge over time. A fragrance also developed, and the room was full of fragrance, which persisted for a long time. In addition, a deodorizing effect that an unpleasant odor is removed at the same time was obtained.
Example 3
An artificial plant having petals sprayed with Unidyne, a water / oil repellent (manufactured by Daikin Industries, Ltd.), was brought into contact with a liquid medium in the same manner as in Example 1.
The same liquid medium as in Example 1 was used, but a mottled pattern was formed by the water / oil repellent. A fragrance also developed, and the room was full of fragrance, which persisted for a long time. In addition, a deodorizing effect that an unpleasant odor is removed at the same time was obtained.
Example 4
A cationic surfactant shown in Table 3 below was dissolved in water at a concentration shown in Table 3 to prepare a color transfer preventing solution. Each solution was applied to a rose petal made of polyester fabric (white) using a spray gun, and then sufficiently dried. Thereafter, a pigment (Red No. 102 (C.I. 16255)) was dropped on each petal and immersed in the liquid medium shown in Table 2 above to allow the pigment to penetrate. Thereafter, the degree of dye penetration (color transfer) was visually observed and evaluated according to the following four grades.
×: No color transfer prevention effect
△: Color transfer does not occur to some extent
○: almost no color transfer
◎… No color transfer
The results are also shown in Table 3.

From the results shown in Table 3, it can be seen that all of the cationic surfactants used here exhibited a good effect of preventing color transfer.
As described above, according to the present invention, an artificial plant having a humidifying effect of a natural plant is provided without requiring care such as a natural plant. The artificial plant of the present invention changes its color and shape, and can be an artificial plant that is excellent in aesthetics and appreciation. In addition, it has an effect of generating a scent, and has an effect of further relaxing a person's mind. The artificial plant of the present invention can be suitably used as an artificial plant having both beauty and function in various living spaces such as offices, rooms, kitchens, toilets, and toilets, depending on the purpose.
[Brief description of the drawings]
FIG. 1 is a schematic cross-sectional view illustrating an artificial plant according to one embodiment of the present invention.
FIG. 2 is a sectional view taken along line II-II in FIG.
FIG. 3 is a schematic sectional view showing an artificial plant according to another embodiment of the present invention.
4A and 4B are schematic cross-sectional views showing an artificial plant according to another embodiment of the present invention having a flower portion which moves in a certain direction due to swelling.
FIG. 5 is a diagram schematically illustrating an example of a leaf having a color transfer preventing member around the leaf.
FIG. 6 is a view schematically showing another example of a leaf having a color transfer prevention member around the leaf.
FIG. 7 is a sectional view taken along line VII-VII in FIG.
8 to 12 are cross-sectional views schematically showing different examples of a stem having a liquid medium storage section.
FIG. 13 is a schematic cross-sectional view showing an example of a flower part having a flower base provided with a storage part for a liquid medium.
FIG. 14 is a graph showing a change in mass of the liquid medium over time.

Claims (37)

It has a flower part and / or a leaf part made of a liquid-absorbing substance and a stem part and / or a branch part having a core part made of a liquid-absorbing substance, and the core part has an exposed part that can come into contact with a liquid medium. An artificial plant, wherein the flower part and / or the leaf part and the stem part and / or the branch part are in liquid communication with the liquid absorbing medium when the core part comes into contact with the liquid medium. 2. The flower part according to claim 1, wherein the flower part has a flower supporting part made of a swelling material whose shape change due to swelling by the liquid medium is restricted in a certain direction, and a petal part installed in the changing direction. Artificial plant. The artificial plant according to claim 1, wherein the stem and / or the core of the branch contains a pigment. The artificial plant according to claim 3, wherein the pigment comprises a combination of two or more pigments. The artificial plant according to claim 3, wherein the pigment is a pigment having low light resistance. The artificial plant according to claim 3, wherein the pigment is a combination of a pigment having low light resistance and a pigment having high light resistance. The artificial plant according to claim 1, wherein the stem and / or the core of the branch contain a fragrance and / or a deodorant. The artificial plant according to claim 1, wherein the flower part and / or the leaf part contains a substance whose color changes with a change in pH. The artificial plant according to claim 8, wherein the stem and / or the core of the branch contains an acidic and / or alkaline substance. The artificial plant according to claim 1, wherein the flower part and / or the leaf part contains fluorescent particles. In one or more of the flower and / or leaf and / or the branch and / or stem core, all or part thereof is one or more of a swelling agent, a solidifying agent, and a gelling agent. The artificial plant according to claim 1, wherein the artificial plant is configured. The artificial plant according to claim 1, wherein a part of the flower part and / or the leaf part contains a water / oil repellent substance. The artificial plant according to claim 1, wherein the stem and / or the core of the branch contains a color transfer inhibitor. The artificial plant according to claim 1, further comprising a color transfer prevention member around the flower part and / or the leaf part. The artificial plant according to claim 1, wherein a film-forming color transfer inhibitor is applied around the flower part and / or the leaf part. 2. The flower-forming and / or leaf-coating agent is coated with a film-forming color transfer inhibitor so as to produce a pre-designed pattern, figure, symbol, character or a combination thereof. Artificial plant. The artificial plant according to claim 1, wherein the stem has a storage part capable of storing a liquid medium. The artificial plant according to claim 1, wherein the flower part includes a flower rest having a storage part. The artificial plant according to claim 1, wherein the flower part includes a petal that can be in liquid communication with the liquid-absorbing substance and a petal that is not in liquid communication with the liquid-absorbing substance. The artificial plant according to claim 1, wherein the stem and / or the branch have a multilayer structure. An artificial plant comprising the following (A) and (B).
(A) one or more of the artificial plants of claim 1 and (B) one or more of the other artificial plants. The method for using an artificial plant according to claim 1, wherein the exposed portion of the stem core is brought into contact with a liquid medium to bring the flower portion and / or the leaf portion into fluid communication with the stem portion and / or the branch portion. . 23. The method according to claim 22, wherein the liquid medium contains a pigment, and the pigment is used to color flowers and / or leaves. The method according to claim 23, wherein the pigment comprises a combination of two or more pigments of different colors, and the flower part and / or the leaf part are colored to two or more different colors. The method according to claim 23, wherein the dye is a dye having low light fastness. 26. The method according to claim 25, comprising irradiating the pigmented flower portion and / or leaf portion with low lightfastness with light to fade the color. 24. The method of claim 23, wherein the dye comprises a combination of a low lightfast dye and a high lightfast dye. 28. The method according to claim 27, comprising irradiating a flower portion and / or a leaf portion colored by a combination of pigments with light to fade the color of the pigment with low light resistance. The method according to claim 22, wherein the liquid medium is adjusted to be acidic and / or alkaline. 23. The method according to claim 22, wherein the liquid medium contains a fragrance and / or a deodorant. The method according to claim 22, wherein the liquid medium contains a color transfer inhibitor. A flower-forming and / or leaf is coated with a film-forming color transfer inhibitor so as to produce a pre-designed pattern, figure, symbol, character or a combination thereof, and the pattern, figure, The method according to claim 23, wherein the method produces a symbol, a character, or a combination thereof. 23. The method of claim 22, wherein the liquid medium contains water. 23. The method according to claim 22, wherein the color of the flowers and / or leaves is changed. 35. The method of claim 34, wherein one or more of the color change, the rate of change, the changing period, and the changing pattern are adjusted. The method of using an artificial plant according to claim 22, wherein the flower part is deformed. A set comprising the artificial plant according to claim 1 and a liquid medium.

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