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JP6280825B2 - container - Google Patents
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JP6280825B2 - container - Google Patents

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JP6280825B2
JP6280825B2 JP2014131716A JP2014131716A JP6280825B2 JP 6280825 B2 JP6280825 B2 JP 6280825B2 JP 2014131716 A JP2014131716 A JP 2014131716A JP 2014131716 A JP2014131716 A JP 2014131716A JP 6280825 B2 JP6280825 B2 JP 6280825B2
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container
surrounding
receiving
depth direction
volatilization
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JP2015192838A (en
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壮史 村山
壮史 村山
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Kobayashi Pharmaceutical Co Ltd
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Kobayashi Pharmaceutical Co Ltd
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Description

本発明は、芳香剤、消臭剤、忌避剤、除菌剤等の揮散剤を含む棒状の揮散体を支持する容器に関する。   The present invention relates to a container that supports a rod-shaped volatilized body containing a volatilizing agent such as a fragrance, a deodorant, a repellent, and a disinfectant.

従来、芳香剤等の揮散剤を含む揮散体が知られている。例えば、特許文献1には、嗅覚活性組成物と、この嗅覚活性組成物を保持可能な棒状の構造構成要素と、を有する揮散体が開示されている。この揮散体に含まれる嗅覚活性組成物は、構造構成要素の表面全体から揮散する。   Conventionally, volatilization bodies containing volatilizing agents such as fragrances are known. For example, Patent Document 1 discloses a volatilized body having an olfactory active composition and a rod-like structural component capable of holding the olfactory active composition. The olfactory active composition contained in this volatilizer volatilizes from the entire surface of the structural component.

特表2013−526906号公報Special table 2013-526906 gazette

上記特許文献1に記載されるような棒状の揮散体は、意匠性の観点から、複数本が容器に立て掛けられた状態、より具体的には、当該揮散体の上部が容器から上方に突出するように当該容器に支持された状態で使用されることが求められている。このようなニーズに応える容器として、例えば、上方に開口する有底筒状のものが考えられる。   From the viewpoint of design, the rod-like volatilized body as described in Patent Document 1 is in a state where a plurality of the volatilized bodies are leaned against the container, more specifically, the upper part of the volatilized body protrudes upward from the container. Thus, it is required to be used while being supported by the container. As a container that meets such needs, for example, a bottomed cylindrical container that opens upward is conceivable.

この容器に棒状の揮散体を立て掛けた状態で使用し続けた場合、構造構成要素の中に含浸している嗅覚活性組成物が重力の影響により構造構成要素の下部に移動するため、使用後期においては、主に構造構成要素の下部から嗅覚活性組成物が揮散する。この使用後期においても嗅覚活性組成物の良好な揮散性を維持するには、容器の筒状の側壁部の高さ方向の寸法をできるだけ小さくする必要がある。しかしながら、前記側壁部の高さ方向の寸法を小さくすると、棒状の長い揮散体を安定的に支持することができない。   If you continue to use this container with a stick-shaped volatilized material leaned on it, the olfactory active composition impregnated in the structural component moves to the lower part of the structural component due to the effect of gravity. The olfactory active composition is volatilized mainly from the lower part of the structural component. In order to maintain good volatility of the olfactory active composition even in this later stage of use, it is necessary to make the dimension in the height direction of the cylindrical side wall of the container as small as possible. However, if the dimension of the side wall portion in the height direction is reduced, it is not possible to stably support a long rod-like volatilized body.

本発明は、それぞれが棒状に形成された複数の揮散体を安定的に立て掛けた状態に支持可能で、かつ揮散体の使用後期における良好な揮散性の確保が可能な容器を提供することである。   It is an object of the present invention to provide a container that can support a plurality of volatilized bodies that are each formed in a rod shape in a stable standing state and that can ensure good volatility in the later stage of use of the volatilized body. .

前記課題を解決するための手段として、本発明は、それぞれが棒状に形成された複数の揮散体を支持するための容器であって、前記複数の揮散体のそれぞれの下端部を受ける受け部と、前記複数の揮散体の前記下端部よりも上側の中間部位をその周囲からまとめて包囲する包囲部と、前記受け部と前記包囲部とを接続する側壁部と、を有し、前記側壁部は、前記受け部と前記包囲部とを結ぶ高さ方向と直交する奥行方向に開口するとともに前記包囲部の内側に形成される包囲空間とつながる揮散用空間を前記高さ方向及び前記奥行方向の双方と直交する幅方向の両側から取り囲む形状を有し、前記包囲部の前記奥行方向の寸法及び前記側壁部の前記奥行方向の寸法が、前記受け部のそれよりも小さく、かつ前記包囲部と前記受け部との距離が前記受け部の前記奥行方向の寸法よりも大きい容器を提供する。   As means for solving the above-mentioned problems, the present invention is a container for supporting a plurality of volatilization bodies each formed in a rod shape, and a receiving part for receiving the respective lower ends of the plurality of volatilization bodies; A side wall part that surrounds and surrounds the intermediate part above the lower end part of the plurality of volatilized bodies from its periphery, and a side wall part that connects the receiving part and the surrounding part, and the side wall part Is a volatilization space that opens in the depth direction perpendicular to the height direction connecting the receiving portion and the surrounding portion and that is connected to the surrounding space formed inside the surrounding portion in the height direction and the depth direction. A shape that surrounds from both sides in the width direction orthogonal to both, the dimension in the depth direction of the surrounding part and the dimension in the depth direction of the side wall part are smaller than that of the receiving part, and the surrounding part The distance from the receiving part is Providing greater vessel than the depth dimension of the serial receiver.

本容器では、受け部が各揮散体の下端部を支持し、包囲部の内周面が揮散体の中間部位をまとめて支持するので、包囲部と受け部との距離を大きくすることによって棒状の各揮散体の上部が包囲部から上方に突出する姿勢でこれら揮散体を安定的に支持することができ、しかも、側壁部が奥行方向に開口する揮散用空間を取り囲む形状を有しているので、包囲部と受け部との距離を大きくしたとしても揮散体の使用後期における揮散性が良好に確保される。すなわち、本容器では、包囲部と受け部との距離を大きくすることによる長い揮散体の安定的な支持と、当該揮散体の使用後期の良好な揮散性の確保とを両立することができる。   In this container, the receiving part supports the lower end part of each volatilizing body, and the inner peripheral surface of the surrounding part collectively supports the intermediate part of the volatilizing body, so that the rod shape can be increased by increasing the distance between the surrounding part and the receiving part. These volatilized bodies can be stably supported in a posture in which the upper part of each volatilized body protrudes upward from the surrounding portion, and the side wall portion has a shape surrounding the volatilization space opened in the depth direction. Therefore, even if the distance between the surrounding portion and the receiving portion is increased, the volatility in the later stage of use of the volatilization body is ensured satisfactorily. That is, in this container, the stable support of the long volatilization body by enlarging the distance of an envelopment part and a receiving part, and ensuring of the favorable volatility of the late use of the said volatilization body can be made compatible.

さらに、包囲部の奥行方向の寸法及び側壁部の奥行方向の寸法が、受け部のそれよりも小さく、かつ包囲部と受け部との距離が受け部の奥行方向の寸法よりも大きいので、容器の奥行方向の占有面積を小さくしながら当該容器の転倒を抑制することができる。具体的に、包囲部と受け部との距離が受け部の奥行方向の寸法よりも大きい場合、容器の奥行方向の占有面積を小さくしながら比較的長い形状の揮散体を安定的に支持可能な一方で、特に包囲部に対して奥行方向の外力が作用したときに当該容器が転倒しやすくなる。これに対し、本容器では、包囲部の奥行方向の寸法及び側壁部の奥行方向の寸法が受け部のそれよりも小さいので、包囲部の奥行方向の寸法及び側壁部の奥行方向の寸法が受け部のそれと同じかあるいはそれよりも大きい場合に比べ、当該容器の重心がより下方(受け部寄り)に位置する。よって、容器に対して奥行方向の外力が作用したときの当該容器の転倒が抑制される。   Further, since the dimension in the depth direction of the surrounding part and the dimension in the depth direction of the side wall part are smaller than that of the receiving part, and the distance between the surrounding part and the receiving part is larger than the dimension of the receiving part in the depth direction, the container The container can be prevented from falling over while reducing the occupied area in the depth direction. Specifically, when the distance between the surrounding part and the receiving part is larger than the dimension in the depth direction of the receiving part, it is possible to stably support a relatively long-shaped volatilizer while reducing the occupied area in the depth direction of the container. On the other hand, when the external force of the depth direction acts especially on the surrounding part, the container easily falls. On the other hand, in this container, the dimension in the depth direction of the enclosure part and the dimension in the depth direction of the side wall part are smaller than that of the receiving part, so that the dimension in the depth direction of the enclosure part and the dimension in the depth direction of the side wall part are received. The center of gravity of the container is located below (closer to the receiving part) than when it is the same as or larger than that of the part. Therefore, the fall of the said container when the external force of a depth direction acts with respect to a container is suppressed.

この場合において、前記包囲部から上方に向かって延びて前記揮散体の前記包囲部内への挿入を案内する案内部をさらに有し、この案内部は、前記包囲部の前記奥行方向の内側に収まるとともに前記包囲部から上方に向かうにしたがって前記幅方向の外側に向かって広がる形状を有することが好ましい。   In this case, it further has a guide part that extends upward from the surrounding part and guides the insertion of the volatilizing body into the surrounding part, and the guide part is accommodated inside the surrounding part in the depth direction. And it is preferable to have a shape which spreads toward the outer side of the said width direction as it goes upwards from the said enclosure part.

このようにすれば、容器に対して奥行方向の外力が作用したときの容器の転倒のしにくさを維持しつつ、揮散体の包囲部内への挿入容易性を向上させることができる。具体的に、案内部は、包囲部から上方に向かって延びるものの、包囲部の前記奥行方向の内側に収まる形状を有するので、当該案内部を設けることによる容器の重心の位置の上昇が抑制される。そして、案内部は、包囲部から上方に向かうにしたがって前記幅方向の外側に向かって広がる形状を有するので、この案内部の内面に揮散体を沿わせながら当該揮散体を前記包囲空間内に挿入することにより、容易に揮散体を容器に立て掛けることができる。   In this way, it is possible to improve the ease of insertion of the volatilization body into the enclosure portion while maintaining the difficulty of the container toppling when an external force in the depth direction acts on the container. Specifically, the guide portion extends upward from the surrounding portion, but has a shape that fits inside the surrounding portion in the depth direction, so that an increase in the position of the center of gravity of the container due to the provision of the guide portion is suppressed. The And since a guide part has the shape which spreads toward the outer side of the said width direction as it goes upwards from an enclosure part, the said volatilization body is inserted in the said enclosed space, keeping a volatilization body along the inner surface of this guide part. By doing so, the volatilization body can be easily stood on the container.

また、本発明において、前記包囲部は、前記奥行方向に互いに対向する一対の対向部を有し、各対向部の前記高さ方向の寸法は、各対向部の前記奥行方向の寸法よりも大きく形成されていることが好ましい。   Moreover, in this invention, the said surrounding part has a pair of opposing part which mutually opposes in the said depth direction, and the dimension of the said height direction of each opposing part is larger than the dimension of the said depth direction of each opposing part. Preferably it is formed.

このようにすれば、包囲部における一対の対向部の強度を確保しつつ揮散体をより傾斜した姿勢に支持することによって揮散性を向上させることができる。具体的に、包囲部の奥行方向の寸法を小さくするほど当該容器は転倒しにくくなるものの、その分包囲部の内側に形成される包囲空間が小さくなるので、棒状の揮散体が傾斜した姿勢に支持されにくくなる。一方、包囲空間を大きくすることにより揮散体をより傾斜した姿勢に支持することが可能となるが、その分各対向部の奥行方向の寸法(厚み)が小さくなるので、当該対向部の強度が低下する。本発明では、各対向部の高さ方向の寸法が各対向部の奥行方向の寸法よりも大きく形成されているので、前記高さ方向の寸法が確保されることによって各対向部の強度が確保され、しかも、対向部間の距離(包囲空間の奥行方向の寸法)が大きくなる分、揮散体をより傾斜した姿勢に支持することが可能となる。   If it does in this way, volatility can be improved by supporting the volatilization body in the attitude | position which inclined more, ensuring the intensity | strength of a pair of opposing part in an enclosure part. Specifically, the smaller the dimension of the surrounding portion in the depth direction, the more difficult the container falls, but the surrounding space formed inside the surrounding portion becomes smaller, so the rod-shaped volatilized body has an inclined posture. It becomes difficult to be supported. On the other hand, it becomes possible to support the volatilized body in a more inclined posture by enlarging the surrounding space, but the dimension (thickness) in the depth direction of each facing portion is reduced accordingly, so the strength of the facing portion is reduced. descend. In the present invention, since the dimension in the height direction of each opposing part is formed larger than the dimension in the depth direction of each opposing part, the strength of each opposing part is ensured by ensuring the dimension in the height direction. In addition, the volatilization body can be supported in a more inclined posture as the distance between the facing portions (the dimension in the depth direction of the enclosed space) increases.

また、本発明において、前記受け部は、前記揮散体の下端部を下方から受ける受け面と、前記受け面の外縁から起立するとともに前記揮散体の下端部を前記受け面上に位置させるように当該下端部に対して外側から当接する当接面と、を有し、前記受け面は、前記揮散体の下端部を前記当接面に向かって案内するようにその中央側が外周側に対して上方に隆起する隆起面を有することが好ましい。   Moreover, in this invention, the said receiving part stands from the outer surface of the receiving surface which receives the lower end part of the said volatilization body from the lower part, and the said lower surface part of the said volatilization body is located on the said receiving surface. An abutting surface that abuts against the lower end portion from the outside, and the receiving surface has a central side with respect to the outer peripheral side so as to guide the lower end portion of the volatilizing body toward the abutting surface. It is preferable to have a raised surface that protrudes upward.

このようにすれば、包囲部内に複数の揮散体が挿入された際、各揮散体の下端部は、隆起面に沿いながら当接面に向かうような案内を受けるので、各揮散体は、その下端部が側方から当接面に支持され、かつその中間部位が包囲部の内周面に支持されるように傾斜した姿勢、すなわち各揮散体の上端部が外向きに広がる傾斜姿勢で支持されやすくなる。   In this way, when a plurality of volatilization bodies are inserted into the enclosure, the lower end of each volatilization body is guided along the raised surface toward the contact surface, so each volatilization body has its The lower end is supported by the abutment surface from the side and the middle part is supported by the inner peripheral surface of the surrounding part, that is, the upper end of each volatilizing body is supported by the inclined posture spreading outward. It becomes easy to be done.

具体的に、前記隆起面は、中央面と、この中央面から前記当接面に向かって下方に傾斜する傾斜面と、を有し、前記中央面は、外向きに凸となるとともに前記傾斜面に滑らかにつながるように湾曲する湾曲面を有することが好ましい。   Specifically, the raised surface has a central surface and an inclined surface inclined downward from the central surface toward the contact surface, and the central surface is convex outward and is inclined. It is preferable to have a curved surface that is curved so as to be smoothly connected to the surface.

このようにすれば、包囲部内に複数の揮散体が挿入された際、各揮散体の下端部は、湾曲面により滑らかに傾斜面に向かうように案内された後、当該傾斜面に沿いながら当接面に向かうような誘導を受ける。よって、前記下端部がよりスムーズに当接面に向かって案内される。   In this way, when a plurality of volatilization bodies are inserted into the enclosure part, the lower end of each volatilization body is guided by the curved surface so as to be smoothly directed to the inclined surface, and is then applied along the inclined surface. Get guided to the surface. Therefore, the lower end portion is guided more smoothly toward the contact surface.

この場合において、前記受け面は、前記隆起面と前記当接面との間に介在して前記揮散体の下端部を下方から支持する環状の支持面を有することが好ましい。   In this case, it is preferable that the receiving surface has an annular support surface that is interposed between the raised surface and the contact surface and supports the lower end portion of the volatilization body from below.

このようにすれば、揮散体の下端部が下方から支持面に支持されるとともに側方から当接面に支持され、かつ揮散体の中間部位が包囲部の内周面に支持されるので、揮散体の傾斜姿勢が安定する。   In this way, the lower end of the volatilization body is supported on the support surface from below and supported on the contact surface from the side, and the intermediate part of the volatilization body is supported on the inner peripheral surface of the enclosure part. The inclined posture of the volatilizer is stabilized.

さらにこの場合において、前記支持面の外側の縁部及び前記支持面の内側の縁部のうち互いに対向する部位同士の間の寸法は、前記揮散体の下端部の外径よりも大きく設定されていることが好ましい。   Furthermore, in this case, the dimension between the portions facing each other among the outer edge portion of the support surface and the inner edge portion of the support surface is set larger than the outer diameter of the lower end portion of the volatilization body. Preferably it is.

このようにすれば、揮散体の下端部が支持面による下方からの支持を受けやすくなるので、揮散体の傾斜姿勢がより安定する。   If it does in this way, since the lower end part of a volatilization body will receive the support from the downward direction by a support surface, the inclination attitude | position of a volatilization body will become more stable.

また、本発明において、前記傾斜面は、前記揮散体の下端部が下方から前記支持面に支持されるとともに側方から前記当接面に支持され、かつ前記揮散体の中間部位が前記包囲部の内周面に支持されるように傾斜した姿勢の前記揮散体から離間する形状を有することが好ましい。   Further, in the present invention, the inclined surface is supported by the support surface from below and supported by the contact surface from the side, and the intermediate portion of the volatilizer is the surrounding portion. It is preferable to have a shape that is separated from the volatilizing body in an inclined posture so as to be supported by the inner peripheral surface.

このようにすれば、各揮散体の上端部の外側への広がりを制限することなく、各揮散体が支持面、当接面及び包囲部の内周面の3点により安定的に支持される。   If it does in this way, each volatilization body will be stably supported by three points, a support surface, a contact surface, and the inner peripheral surface of an envelopment part, without restricting the spread to the outside of the upper end part of each volatilization body. .

以上のように、本発明によれば、それぞれが棒状に形成された複数の揮散体を立て掛けた状態に支持可能で、かつ揮散体の使用後期における良好な揮散性の確保が可能な容器を提供することができる。   As described above, according to the present invention, it is possible to provide a container that can support a plurality of volatilized bodies, each of which is formed in a rod shape, in a standing state, and can ensure good volatility in the later stage of use of the volatilized body. can do.

本発明の第一実施形態の容器の斜視図である。It is a perspective view of the container of a first embodiment of the present invention. 図1に示す容器の平面図である。It is a top view of the container shown in FIG. 図2に示すIII−III線での断面図である。It is sectional drawing in the III-III line | wire shown in FIG. 図2に示すIV−IV線での断面図である。It is sectional drawing in the IV-IV line shown in FIG. 本発明の第二実施形態の容器の斜視図である。It is a perspective view of the container of 2nd embodiment of this invention. 図5に示す容器の平面図である。It is a top view of the container shown in FIG. 図6に示すVII−VII線での断面図である。It is sectional drawing in the VII-VII line shown in FIG.

(第一実施形態)
本発明の第一実施形態の容器20について、図1〜図4を参照しながら説明する。なお、以下の説明における高さ方向は、図1、図3及び図4の上下方向を指し、幅方向は、図3の左右方向を指し、奥行方向は、図4の左右方向を指す。
(First embodiment)
The container 20 of 1st embodiment of this invention is demonstrated referring FIGS. 1-4. In the following description, the height direction refers to the vertical direction in FIGS. 1, 3, and 4, the width direction refers to the horizontal direction in FIG. 3, and the depth direction refers to the horizontal direction in FIG.

本実施形態の容器20は、図1に示されるように、複数の棒状の揮散体10を立て掛けた状態で支持するものである。この容器20は、樹脂とこの樹脂よりも大きな比重を有する鉱物質粉末との混合材料により形成されている。前記樹脂としては、ポリエチレン、ポリプロピレン、ABS、ポリエチレンテレフタレート等が挙げられる。この樹脂の比重は、0.8〜1.5程度であるのが望ましい。前記鉱物質粉末としては、前記樹脂よりも大きな比重を有するものであればよく、例えば陶器粉、金属粉、ガラス繊維が挙げられる。この鉱物質粉末の比重は、2.0〜12.0程度であるのが望ましく、特に、陶器粉の比重は、2.0〜5.0程度が望ましい。本実施形態では、容器20の比重が1.5よりも大きくなるように前記樹脂と前記鉱物質粉末の混合比が設定されている。   As shown in FIG. 1, the container 20 of the present embodiment supports a plurality of rod-shaped volatilizers 10 in a state where they are leaned against each other. The container 20 is formed of a mixed material of resin and mineral powder having a specific gravity greater than that of the resin. Examples of the resin include polyethylene, polypropylene, ABS, and polyethylene terephthalate. The specific gravity of this resin is desirably about 0.8 to 1.5. The mineral powder may be any powder having a specific gravity greater than that of the resin, and examples thereof include ceramic powder, metal powder, and glass fiber. The specific gravity of the mineral powder is desirably about 2.0 to 12.0, and in particular, the specific gravity of the ceramic powder is desirably about 2.0 to 5.0. In the present embodiment, the mixing ratio of the resin and the mineral powder is set so that the specific gravity of the container 20 is greater than 1.5.

各揮散体10は、一方向に長い円柱状に形成されている。具体的に、揮散体10は、揮散剤と、この揮散剤を保持する円柱状の芯材12とを有する。前記揮散剤として、芳香剤、消臭剤、忌避剤、除菌剤等が挙げられる。芯材12は、紙が多層状となるように巻回され、当該紙の縁部が水溶性の接着剤で接着されることにより形成されている。この芯材12に揮散剤が含浸することにより揮散体10が形成される。揮散剤は、芯材12の表面全体から揮散する。   Each volatilization body 10 is formed in a column shape long in one direction. Specifically, the volatilization body 10 has a volatilizing agent and a columnar core 12 that holds the volatilizing agent. Examples of the volatilizer include fragrances, deodorants, repellents, and disinfectants. The core material 12 is formed by winding paper so as to have a multilayer shape, and bonding the edges of the paper with a water-soluble adhesive. The volatile body 10 is formed by impregnating the core material 12 with the volatile agent. The volatilizing agent is volatilized from the entire surface of the core material 12.

容器20は、受け部30と、受け部30の上方に設けられた包囲部42と、包囲部42の上部に接続された案内部46と、受け部30と包囲部42とを接続する側壁部50と、を有している。   The container 20 includes a receiving portion 30, a surrounding portion 42 provided above the receiving portion 30, a guide portion 46 connected to the upper portion of the surrounding portion 42, and a side wall portion that connects the receiving portion 30 and the surrounding portion 42. 50.

受け部30は、容器20の底部を構成し、各揮散体10の下端部10aを受け入れる凹部32を有する。凹部32は、各揮散体10の下端部10aを下方から受ける円形の受け面33と、受け面33の外縁から上方に向かって延びる起立部34と、を有する。図3及び図4に示されるように、起立部34の内周面は、揮散体10の下端部10aを受け面33上に位置させるように当該下端部10aに対して外側から当接する当接面34aを構成する。この当接面34aは、複数の揮散体10の下端部10aをまとめて取り囲むことが可能な大きさに設定されている。起立部34の外周面34bは、受け面33から径方向に離間するにしたがって下方に傾斜する形状を有する。   The receiving part 30 comprises the bottom part of the container 20, and has the recessed part 32 which receives the lower end part 10a of each volatilization body 10. As shown in FIG. The recessed part 32 has the circular receiving surface 33 which receives the lower end part 10a of each volatilization body 10 from the downward direction, and the standing part 34 extended upwards from the outer edge of the receiving surface 33. As shown in FIG. As shown in FIGS. 3 and 4, the inner peripheral surface of the upright portion 34 is in contact with the lower end portion 10 a from the outside so as to be positioned on the receiving surface 33 of the lower end portion 10 a of the volatilization body 10. A surface 34a is formed. The contact surface 34 a is set to a size that can collectively surround the lower end portions 10 a of the plurality of volatilization bodies 10. The outer peripheral surface 34 b of the standing portion 34 has a shape that inclines downward as it is separated from the receiving surface 33 in the radial direction.

包囲部42は、複数の揮散体10の各下端部10aよりも上側の中間部位10bをその周囲からまとめて包囲する。本実施形態では、包囲部42は、円筒状に形成されている。図2に示されるように、包囲部42の内周面42aの直径は、起立部34の当接面34aの直径よりも大きく設定されている。包囲部42は、当該包囲部42の中心軸と起立部34の中心軸とが一致するように受け部30の上方に配置されている。図4に示されるように、包囲部42と受け部30との距離は、受け部30の奥行方向の寸法よりも大きく形成されている。なお、包囲部42の内周面42aは、下方に向かうにしたがってわずかに内側に向かうように傾斜している。   The surrounding part 42 surrounds the intermediate | middle site | part 10b above the lower end part 10a of the some volatilization body 10 collectively from the circumference | surroundings. In the present embodiment, the surrounding portion 42 is formed in a cylindrical shape. As shown in FIG. 2, the diameter of the inner peripheral surface 42 a of the surrounding portion 42 is set to be larger than the diameter of the contact surface 34 a of the standing portion 34. The surrounding part 42 is disposed above the receiving part 30 so that the central axis of the surrounding part 42 and the central axis of the upright part 34 coincide. As shown in FIG. 4, the distance between the surrounding part 42 and the receiving part 30 is formed larger than the dimension of the receiving part 30 in the depth direction. In addition, the inner peripheral surface 42a of the surrounding part 42 is inclined so as to be slightly inward as it goes downward.

包囲部42は、奥行方向に互いに対向する一対の対向部44を有する。図2及び図4に示されるように、各対向部44間の寸法(包囲部42の奥行方向の寸法)は、受け部30の奥行方向の寸法よりも小さく形成されている。図4に示されるように、各対向部44の高さ方向の寸法は、当該対向部44の奥行方向の寸法(厚み)よりも大きく設定されている。   The surrounding part 42 has a pair of opposing parts 44 which oppose each other in the depth direction. As shown in FIGS. 2 and 4, the dimension between the opposing parts 44 (the dimension in the depth direction of the surrounding part 42) is smaller than the dimension in the depth direction of the receiving part 30. As shown in FIG. 4, the height dimension of each facing portion 44 is set to be larger than the dimension (thickness) of the facing portion 44 in the depth direction.

案内部46は、包囲部42の上端から上方に向かって延びるともに幅方向の外向きに向かって広がる形状を有する。図4に示されるように、案内部46の奥行寸法は、包囲部42のそれよりも小さく形成されている。案内部46の内面46aは、包囲部42の内周面42aと滑らかにつながっている。   The guide part 46 has a shape that extends upward from the upper end of the surrounding part 42 and widens outward in the width direction. As shown in FIG. 4, the depth dimension of the guide portion 46 is smaller than that of the surrounding portion 42. The inner surface 46 a of the guide portion 46 is smoothly connected to the inner peripheral surface 42 a of the surrounding portion 42.

側壁部50は、受け部30と包囲部42とを接続する形状を有する。この側壁部50は、奥行方向に開口するとともに包囲部42の内側に形成される包囲空間43につながる揮散用空間51を幅方向の両側から取り囲む形状を有する。側壁部50は、幅方向の外向きに凸となるように湾曲する形状を有する。側壁部50の内側面は、受け部30の上面と滑らかにつながっている。図2及び図4に示されるように、側壁部50の奥行方向の寸法は、受け部30のそれよりも小さく形成されている。   The side wall part 50 has a shape that connects the receiving part 30 and the surrounding part 42. The side wall portion 50 has a shape that opens in the depth direction and surrounds the volatilization space 51 connected to the surrounding space 43 formed inside the surrounding portion 42 from both sides in the width direction. The side wall part 50 has a shape curved so as to be convex outward in the width direction. The inner surface of the side wall portion 50 is smoothly connected to the upper surface of the receiving portion 30. As shown in FIGS. 2 and 4, the dimension of the side wall 50 in the depth direction is smaller than that of the receiving part 30.

本実施形態の容器20に揮散体10を立て掛けるときは、揮散体10の下端部10aを案内部46の内面46aに沿わせつつ当該下端部10aが包囲空間43内に至るように挿入する。そして、そのまま揮散体10を挿入し続けることにより、揮散体10の下端部10aが凹部32内に収まり、揮散体10の中間部位10bが包囲部42の内周面42aに支持されるので、この揮散体10は、容器20に対して傾斜するとともにその上部が容器20から上方に突出する状態で当該容器20に支持される。   When the volatilization body 10 is leaned against the container 20 of this embodiment, the lower end part 10 a of the volatilization body 10 is inserted along the inner surface 46 a of the guide part 46 so that the lower end part 10 a reaches the enclosed space 43. Then, by continuing to insert the volatilizing body 10 as it is, the lower end portion 10a of the volatilizing body 10 is accommodated in the recess 32, and the intermediate portion 10b of the volatilizing body 10 is supported by the inner peripheral surface 42a of the surrounding portion 42. The volatilization body 10 is supported by the container 20 in a state in which the volatilization body 10 is inclined with respect to the container 20 and an upper portion thereof protrudes upward from the container 20.

以上説明したように、本実施形態の容器20では、受け部30が各揮散体10の下端部10aを支持し、包囲部42の内周面42aが揮散体10の中間部位10bをまとめて支持するので、包囲部42と受け部30との距離(高さ方向の寸法)を大きくすることによって棒状の各揮散体10の上部が包囲部42から上方に突出する姿勢でこれら揮散体10を安定的に支持することができる。   As described above, in the container 20 of the present embodiment, the receiving portion 30 supports the lower end portion 10a of each volatilizing body 10, and the inner peripheral surface 42a of the surrounding portion 42 collectively supports the intermediate portion 10b of the volatilizing body 10. Therefore, by increasing the distance (the dimension in the height direction) between the surrounding portion 42 and the receiving portion 30, the volatilizing bodies 10 are stabilized in a posture in which the upper portion of each rod-like volatilizing body 10 protrudes upward from the surrounding portion 42. Can be supported.

この状態で複数の揮散体10が使用され続けると、芯材12の中に含浸している揮散剤が重力の影響により芯材12の下部に移動する。このため、揮散体10の使用後期においては、主に芯材12の下部から揮散剤が揮散する。本容器20の側壁部50は、奥行方向に開口する揮散用空間51を幅方向の両側から取り囲む形状を有しているので、包囲部42と受け部30との距離を大きくしたとしても揮散体10の使用後期における揮散性が良好に確保される。すなわち、本容器20では、包囲部42と受け部30との距離を大きくすることによる長い形状の揮散体10の安定的な支持と、当該揮散体10の使用後期の良好な揮散性の確保とを両立することができる。   When the plurality of volatilization bodies 10 are continuously used in this state, the volatilizing agent impregnated in the core material 12 moves to the lower part of the core material 12 due to the influence of gravity. For this reason, in the latter period of use of the volatilization body 10, the volatilizer is volatilized mainly from the lower part of the core material 12. Since the side wall part 50 of this container 20 has the shape which surrounds the space 51 for volatilization opened in the depth direction from the both sides of the width direction, even if it increases the distance of the surrounding part 42 and the receiving part 30, it is a volatilization body. The volatility in the late use of 10 is ensured satisfactorily. That is, in this container 20, stable support of the long-shaped volatilization body 10 by enlarging the distance between the surrounding part 42 and the receiving part 30, and ensuring good volatility in the later stage of use of the volatilization body 10 Can be compatible.

さらに、包囲部42の奥行方向の寸法及び側壁部50の奥行方向の寸法が、受け部30のそれよりも小さく、かつ包囲部42と受け部30との距離が受け部30の奥行方向の寸法よりも大きいので、容器20の奥行方向の占有面積を小さくしながら当該容器20の転倒を抑制することができる。具体的に、包囲部42と受け部30との距離が受け部30の奥行方向の寸法よりも大きい場合、容器20の奥行方向の占有面積を小さくしながら比較的長い棒状の揮散体10を安定的に支持可能な一方で、特に包囲部42に対して奥行方向の外力が作用したときに当該容器20が転倒しやすくなる。これに対し、本容器20では、包囲部42の奥行方向の寸法及び側壁部50の奥行方向の寸法が受け部のそれよりも小さので、包囲部42の奥行方向の寸法及び側壁部50の奥行方向の寸法が受け部30のそれと同じかあるいはそれよりも大きい場合に比べ、当該容器20の重心がより下方(受け部30寄り)に位置する。よって、本容器20では、奥行方向について小さな占有面積で比較的長い棒状の揮散体10を安定的に支持することと、容器20に対して奥行方向の外力が作用したときの当該容器20の転倒の抑制との双方を同時に達成することができる。   Furthermore, the dimension in the depth direction of the surrounding part 42 and the dimension in the depth direction of the side wall part 50 are smaller than that of the receiving part 30, and the distance between the surrounding part 42 and the receiving part 30 is the dimension in the depth direction of the receiving part 30. Therefore, the container 20 can be prevented from overturning while reducing the occupied area in the depth direction of the container 20. Specifically, when the distance between the surrounding part 42 and the receiving part 30 is larger than the dimension of the receiving part 30 in the depth direction, the relatively long rod-shaped volatilizer 10 is stabilized while reducing the occupied area of the container 20 in the depth direction. While it is possible to support the container 20, the container 20 easily falls down when an external force in the depth direction is applied to the surrounding portion 42. On the other hand, in this container 20, the dimension in the depth direction of the surrounding part 42 and the dimension in the depth direction of the side wall part 50 are smaller than that of the receiving part, so the dimension in the depth direction of the surrounding part 42 and the depth of the side wall part 50. The center of gravity of the container 20 is located lower (closer to the receiving part 30) than when the dimension in the direction is the same as or larger than that of the receiving part 30. Therefore, in this container 20, the relatively long rod-shaped volatilizer 10 is stably supported with a small occupied area in the depth direction, and the container 20 falls when an external force in the depth direction acts on the container 20. It is possible to achieve both of the above-mentioned suppression at the same time.

加えて、本実施形態では、容器20が樹脂とこの樹脂よりも大きな比重を有する鉱物質粉末との混合材料により形成されているので、容器20が樹脂のみによって形成される場合に比べて当該容器20が重くなる。このため、容器20に対して外力が作用したときの当該容器20の転倒がさらに抑制される。   In addition, in this embodiment, since the container 20 is formed of a mixed material of a resin and a mineral powder having a specific gravity larger than that of the resin, the container 20 is compared with a case where the container 20 is formed of only the resin. 20 gets heavier. For this reason, the fall of the said container 20 when an external force acts with respect to the container 20 is further suppressed.

また、本実施形態では、案内部46は、包囲部42の奥行方向の内側に収まるとともに包囲部42から上方に向かうにしたがって幅方向の外側に向かって広がる形状を有するので、容器20に対して奥行方向の外力が作用したときの容器20の転倒のしにくさを維持しつつ、揮散体10の包囲部42内への挿入容易性を向上させることができる。具体的に、案内部46は、包囲部42から上方に向かって延びるものの、包囲部42の奥行方向の内側に収まる形状を有するので、当該案内部46を設けることによる容器20の重心の位置の上昇が抑制される。そして、案内部46は、包囲部42から上方に向かうにしたがって幅方向の外側に向かって広がる形状を有するので、この案内部46の内面46aに揮散体10を沿わせながら当該揮散体10を包囲空間43に挿入することにより、容易に揮散体10を容器20に立て掛けることができる。   In the present embodiment, the guide portion 46 has a shape that fits inside the enclosure portion 42 in the depth direction and expands outward in the width direction as it goes upward from the enclosure portion 42. The ease of insertion of the volatilization body 10 into the enclosure part 42 can be improved while maintaining the difficulty of falling of the container 20 when an external force in the depth direction is applied. Specifically, although the guide portion 46 extends upward from the surrounding portion 42, the guide portion 46 has a shape that fits inside the surrounding portion 42 in the depth direction, so that the position of the center of gravity of the container 20 by providing the guide portion 46 can be reduced. The rise is suppressed. And since the guide part 46 has a shape which spreads toward the outer side of the width direction as it goes upwards from the enclosure part 42, it surrounds the said volatilization body 10 along with the volatilization body 10 along the inner surface 46a of this guide part 46. By inserting it into the space 43, the volatilization body 10 can be easily leaned against the container 20.

さらに、本実施形態では、各対向部44の高さ方向の寸法は、各対向部44の奥行方向の寸法よりも大きく形成されているので、各対向部44の強度を確保しつつ揮散体10をより傾斜した姿勢に支持することによって揮散性を向上させることができる。具体的に、包囲部42の奥行方向の寸法を小さくするほど当該容器20は転倒しにくくなるものの、その分包囲部42の内側に形成される包囲空間43が小さくなるので、棒状の揮散体10が傾斜した姿勢に支持されにくくなる。一方、包囲空間43を大きくすることにより揮散体10をより傾斜した姿勢に支持することが可能となるが、その分各対向部44の奥行方向の寸法(厚み)が小さくなるので、当該対向部44の強度が低下する。本実施形態では、各対向部44の高さ方向の寸法が各対向部44の奥行方向の寸法よりも大きく形成されているので、高さ方向の寸法が確保されることによって各対向部44の強度が確保され、しかも、対向部44間の距離(包囲空間43の奥行方向の寸法)が大きくなる分揮散体10をより傾斜した姿勢に支持することが可能となる。   Furthermore, in this embodiment, since the dimension of the height direction of each opposing part 44 is formed larger than the dimension of the depth direction of each opposing part 44, the volatilization body 10 ensuring the intensity | strength of each opposing part 44. The volatility can be improved by supporting the in a more inclined posture. Specifically, the smaller the dimension of the surrounding portion 42 in the depth direction, the more difficult the container 20 falls, but the surrounding space 43 formed inside the surrounding portion 42 becomes smaller, so the rod-shaped volatilizer 10. Becomes difficult to be supported in an inclined posture. On the other hand, it is possible to support the volatilization body 10 in a more inclined posture by enlarging the surrounding space 43, but the dimension (thickness) in the depth direction of each facing portion 44 is reduced accordingly, so that the facing portion The strength of 44 decreases. In the present embodiment, since the dimension in the height direction of each facing portion 44 is formed to be larger than the dimension in the depth direction of each facing portion 44, the dimension in the height direction is ensured to ensure the height of each facing portion 44. The strength is ensured, and it is possible to support the volatilization body 10 in which the distance between the facing portions 44 (the dimension in the depth direction of the surrounding space 43) is increased in a more inclined posture.

(第二実施形態)
本発明の第二実施形態の容器20について、図5〜図7を参照しながら説明する。なお、第二実施形態では、第一実施形態と異なる部分についてのみ説明を行い、第一実施形態と同じ構造、作用及び効果の説明は省略する。
(Second embodiment)
The container 20 of 2nd embodiment of this invention is demonstrated referring FIGS. 5-7. In the second embodiment, only the parts different from the first embodiment will be described, and the description of the same structure, operation, and effect as in the first embodiment will be omitted.

容器20に支持される揮散体10は、その下端部10aが当接面34aに当接し、かつ当該下端部10aの当接部34aへの当接方向と反対方向にその中間部位10bが包囲部42の内周面42aに当接するように傾斜する最大傾斜姿勢のときに、その上端部が最も外側に広がる。揮散性の観点から、複数の揮散体10がそれぞれ前記最大傾斜姿勢で支持されること、すなわち各揮散体10の上端部が放射状に広がる姿勢で支持されることが好ましい。   The volatilization body 10 supported by the container 20 has a lower end portion 10a abutting on the abutting surface 34a, and an intermediate portion 10b in the direction opposite to the abutting direction of the lower end portion 10a on the abutting portion 34a. The upper end portion of the upper end portion spreads outward most when the maximum inclination posture inclines so as to come into contact with the inner peripheral surface 42a of 42. From the viewpoint of volatility, it is preferable that the plurality of volatilization bodies 10 are each supported in the maximum inclined posture, that is, the upper end portion of each volatilization body 10 is supported in a radially extending manner.

ここで、第一実施形態の容器20では、前記下端部10aと受け面33との間に生じる摩擦の影響により、前記下端部10aが当接面34aに接触しない姿勢、すなわち、前記下端部10aが当接面34aよりも内側で受け面33に接触し、かつ揮散体10の中間部位10bが包囲部42の内周面42aに接触した傾斜姿勢で支持される場合がある。この場合、揮散体10が前記最大傾斜姿勢で支持される場合に比べて当該揮散体10の上端部の外側への広がりが小さくなる。本実施形態の容器20は、前記下端部10aをより確実に当接面34aに当接させることにより高い揮散性を確保するものである。   Here, in the container 20 of the first embodiment, the lower end portion 10a does not contact the contact surface 34a due to the influence of friction generated between the lower end portion 10a and the receiving surface 33, that is, the lower end portion 10a. Is in contact with the receiving surface 33 on the inner side of the contact surface 34a, and the intermediate portion 10b of the volatilizer 10 may be supported in an inclined posture in contact with the inner peripheral surface 42a of the surrounding portion 42. In this case, the outward spreading of the upper end portion of the volatilization body 10 is smaller than when the volatilization body 10 is supported in the maximum inclined posture. The container 20 of this embodiment ensures high volatility by making the said lower end part 10a contact | abut to the contact surface 34a more reliably.

本実施形態では、受け面33の形状が第一実施形態のそれと異なる。具体的に、受け面33は、隆起面33aと、隆起面33aと当接面34aとの間に介在する支持面33dと、を有する。   In the present embodiment, the shape of the receiving surface 33 is different from that of the first embodiment. Specifically, the receiving surface 33 has a raised surface 33a and a support surface 33d interposed between the raised surface 33a and the contact surface 34a.

隆起面33aは、揮散体10の下端部10aを当接面34a向かって案内するようにその中央側が外周側に対して上方に隆起する形状を有する。具体的に、隆起面33aは、中央面33bと、この中央面33bから当接面34aに向かって下方に傾斜する円すい台状の傾斜面33cと、を有する。   The raised surface 33a has a shape in which the center side is raised upward with respect to the outer peripheral side so as to guide the lower end portion 10a of the volatilization body 10 toward the contact surface 34a. Specifically, the raised surface 33a includes a central surface 33b and a truncated cone-shaped inclined surface 33c inclined downward from the central surface 33b toward the contact surface 34a.

中央面33bは、平坦な円形の頂面33eと、この頂面33eから傾斜面33cに滑らかにつながるように湾曲する湾曲面33fと、を有する。頂面33eの支持面33dからの高さは、当接面34aの上端のそれよりも小さく設定されている。湾曲面33fは、頂面33eの外縁につながっており、外向きに凸となるように湾曲する形状を有している。   The central surface 33b has a flat circular top surface 33e and a curved surface 33f that curves so as to be smoothly connected to the inclined surface 33c from the top surface 33e. The height of the top surface 33e from the support surface 33d is set smaller than that of the upper end of the contact surface 34a. The curved surface 33f is connected to the outer edge of the top surface 33e, and has a shape that curves so as to protrude outward.

支持面33dは、揮散体10の下端部10aを下方から支持する環状に形成されている。本実施形態では、支持面33dは、平坦な円環状に形成されている。支持面33dの外側の縁部は、当接面34aの下端につながっており、支持面33dの内側の縁部は、傾斜面33cの下端につながっている。本実施形態では、支持面33dと傾斜面33cとの境界は、内向きに凸となるように湾曲している。図7に示されるように、支持面33dの外側の縁部及び支持面33dの内側の縁部のうち互いに対向する部位同士の間の寸法Lは、揮散体10の下端部10aの外径よりも大きく設定されている。   33 d of support surfaces are formed in the cyclic | annular form which supports the lower end part 10a of the volatilization body 10 from the downward direction. In the present embodiment, the support surface 33d is formed in a flat annular shape. The outer edge of the support surface 33d is connected to the lower end of the contact surface 34a, and the inner edge of the support surface 33d is connected to the lower end of the inclined surface 33c. In the present embodiment, the boundary between the support surface 33d and the inclined surface 33c is curved so as to be convex inward. As shown in FIG. 7, the dimension L between the opposing portions of the outer edge of the support surface 33 d and the inner edge of the support surface 33 d is larger than the outer diameter of the lower end portion 10 a of the volatilization body 10. Is also set larger.

図7に示されるように、傾斜面33cは、揮散体10の下端部10aが下方から支持面33dに支持されるとともに側方から当接面34aに支持され、かつ揮散体10の中間部位10bが包囲部42の内周面42aに支持されるように傾斜した姿勢の揮散体10から離間する形状を有する。具体的に、傾斜面33cの支持面33dに対する傾きは、支持面33d、当接面34a及び包囲部42の内周面42aの3点で支持された姿勢の揮散体10の支持面33dに対する傾きよりも小さく設定されている。   As shown in FIG. 7, the inclined surface 33 c is configured such that the lower end portion 10 a of the volatile body 10 is supported by the support surface 33 d from below and is supported by the contact surface 34 a from the side, and the intermediate portion 10 b of the volatile body 10. Has a shape separated from the volatilizing body 10 in an inclined posture so as to be supported by the inner peripheral surface 42 a of the surrounding portion 42. Specifically, the inclination of the inclined surface 33c relative to the support surface 33d is the inclination relative to the support surface 33d of the volatilizing body 10 in a posture supported by three points of the support surface 33d, the contact surface 34a, and the inner peripheral surface 42a of the surrounding portion 42. Is set smaller than.

本実施形態の容器20では、包囲部42内に複数の揮散体10が挿入された際、各揮散体10の下端部10aは、隆起面33aに沿いながら当接面34aに向かうような案内を受けるので、各揮散体10は、その下端部10aが側方から当接面34aに支持され、かつその中間部位10bが包囲部42の内周面42aに支持されるように傾斜した姿勢、すなわち各揮散体10の上端部が外向きに広がる傾斜姿勢で支持されやすくなる。   In the container 20 of the present embodiment, when the plurality of volatilization bodies 10 are inserted into the surrounding portion 42, the lower end portion 10a of each volatilization body 10 guides toward the contact surface 34a along the raised surface 33a. Each volatilization body 10 is inclined such that its lower end portion 10a is supported by the contact surface 34a from the side and its intermediate portion 10b is supported by the inner peripheral surface 42a of the surrounding portion 42, that is, It becomes easy to be supported by the inclination posture which the upper end part of each volatilization body 10 spreads outward.

また、上記実施形態では、中央面33bは、外向きに凸となるとともに傾斜面33cに滑らかにつながるように湾曲する湾曲面33fを有するので、揮散体10の下端部10aは、湾曲面33fにより滑らかに傾斜面33cに向かうように案内された後、当該傾斜面33cに沿いながら当接面34aに向かうような誘導を受ける。よって、前記下端部10aがよりスムーズに当接面34aに向かって案内される。   Moreover, in the said embodiment, since the center surface 33b has the curved surface 33f curved so that it may protrude outward and it may be smoothly connected to the inclined surface 33c, the lower end part 10a of the volatilization body 10 is the curved surface 33f. After being guided smoothly toward the inclined surface 33c, the guide is directed toward the contact surface 34a along the inclined surface 33c. Therefore, the lower end portion 10a is guided more smoothly toward the contact surface 34a.

また、上記実施形態では、受け面33は、前記下端部10aを下方から支持する環状の支持面33dを有するので、前記下端部10aは、下方から支持面33dに支持されるとともに側方から当接面34aに支持され、かつ揮散体10の中間部位10bは、包囲部42の内周面42aに支持される。すなわち、揮散体10が支持面33d、当接面34a及び包囲部42の内周面42aの3点で支持されるので、揮散体10の傾斜姿勢が安定する。   Further, in the above embodiment, the receiving surface 33 has an annular support surface 33d that supports the lower end portion 10a from below, so that the lower end portion 10a is supported by the support surface 33d from below and applied from the side. The intermediate portion 10b of the volatilization body 10 supported by the contact surface 34a is supported by the inner peripheral surface 42a of the surrounding portion 42. That is, since the volatilization body 10 is supported at the three points of the support surface 33d, the contact surface 34a, and the inner peripheral surface 42a of the surrounding portion 42, the inclined posture of the volatilization body 10 is stabilized.

また、上記実施形態では、支持面33dの前記寸法Lが揮散体10の下端部10aの外径よりも大きく設定されているので、前記端部10aが支持面33dに接触しやすく(支持面33dによる下方からの支持を受けやすく)なる。よって、揮散体10の傾斜姿勢がより安定する。   Moreover, in the said embodiment, since the said dimension L of the support surface 33d is set larger than the outer diameter of the lower end part 10a of the volatilization body 10, the said edge part 10a is easy to contact the support surface 33d (support surface 33d). Easily received support from below). Therefore, the inclination posture of the volatilization body 10 becomes more stable.

また、上記実施形態では、傾斜面33cは、前記3点で支持された姿勢の揮散体10から離間する形状を有するので、各揮散体10の上端部の外側への広がりを制限することなく、各揮散体10が前記3点により安定的に支持される。   Moreover, in the said embodiment, since the inclined surface 33c has a shape separated from the volatilization body 10 of the attitude | position supported by the said 3 points, without restrict | limiting the expansion to the outer side of the upper end part of each volatilization body 10, Each volatilization body 10 is stably supported by the three points.

なお、今回開示された上記実施形態は、すべての点で例示であって制限的なものではないと考えられるべきである。本発明の範囲は、上記した実施形態の説明ではなく特許請求の範囲によって示され、さらに特許請求の範囲と均等の意味および範囲内でのすべての変更が含まれる。   In addition, it should be thought that the said embodiment disclosed this time is an illustration and restrictive at no points. The scope of the present invention is shown not by the above description of the embodiments but by the scope of claims for patent, and further includes all modifications within the meaning and scope equivalent to the scope of claims for patent.

例えば、上記各実施形態では、包囲部42の中心軸と起立部34の中心軸とが一致するように包囲部42が受け部30の上方に配置された例が示されたが、奥行方向について包囲部42が受け部30の内側に収まるのであれば、包囲部42は、その中心軸が起立部34の中心軸から奥行方向及び幅方向の少なくとも一方に偏倚した位置に配置されてもよい。   For example, in each of the above embodiments, the example in which the surrounding portion 42 is disposed above the receiving portion 30 so that the central axis of the surrounding portion 42 and the central axis of the standing portion 34 coincide with each other has been shown. As long as the surrounding part 42 is accommodated inside the receiving part 30, the surrounding part 42 may be arranged at a position where the central axis is deviated from the central axis of the standing part 34 in at least one of the depth direction and the width direction.

また、上記各実施形態では、側壁部50が幅方向の外側に凸となるように湾曲する形状を有する例が示されたが、側壁部50は、幅方向の内側に凸となるように湾曲する形状であってもよい。   Moreover, in each said embodiment, although the example which has a shape which curves so that the side wall part 50 may become convex on the outer side of the width direction was shown, the side wall part 50 curves so that it may become convex on the inner side of the width direction. The shape to do may be sufficient.

また、上記第二実施形態では、湾曲面33fから傾斜面33cの下端部に向かって周方向に間欠的に並ぶ複数の螺旋状の溝が形成されてもよい。各溝は、揮散体10の下端部10aを受け入れ可能な形状に形成される。このようにすれば、各揮散体10の下端部10aが各溝に沿いながら当接面34aに当接するような誘導を受けるので、複数の揮散体10の上端部がより確実に放射状に広がる姿勢で支持される。   In the second embodiment, a plurality of spiral grooves that are intermittently arranged in the circumferential direction from the curved surface 33f toward the lower end portion of the inclined surface 33c may be formed. Each groove | channel is formed in the shape which can accept the lower end part 10a of the volatilization body 10. FIG. If it does in this way, since the lower end part 10a of each volatilization body 10 receives the guidance which contacts the contact surface 34a along each groove | channel, the attitude | position which the upper end part of the some volatilization body 10 spreads more reliably radially. Supported by

10 揮散体
20 容器
30 受け部
32 凹部
33 受け面
33a 隆起面
33b 中央面
33c 傾斜面
33d 支持面
33e 頂面
33f 湾曲面
34 起立部
34a 当接面
42 包囲部
43 包囲空間
44 対向部
46 案内部
50 側壁部
51 揮散用空間
DESCRIPTION OF SYMBOLS 10 Volatilizer 20 Container 30 Receiving part 32 Recessed part 33 Receiving surface 33a Raised surface 33b Central surface 33c Inclined surface 33d Support surface 33e Top surface 33f Curved surface 34 Standing part 34a Contact surface 42 Enclosing part 43 Enclosing space 44 Opposing part 46 Guide part 50 Side wall part 51 Volatilization space

Claims (8)

それぞれが棒状に形成された複数の揮散体を支持するための容器であって、
前記複数の揮散体のそれぞれの下端部を受ける受け部と、
前記複数の揮散体の前記下端部よりも上側の中間部位をその周囲からまとめて包囲する包囲部と、
前記受け部と前記包囲部とを接続する側壁部と、を有し、
前記側壁部は、前記受け部と前記包囲部とを結ぶ高さ方向と直交する奥行方向に開口するとともに前記包囲部の内側に形成される包囲空間とつながる揮散用空間を前記高さ方向及び前記奥行方向の双方と直交する幅方向の両側から取り囲む形状を有し、
前記包囲部の前記奥行方向の寸法及び前記側壁部の前記奥行方向の寸法が、前記受け部のそれよりも小さく、かつ前記包囲部と前記受け部との距離が前記受け部の前記奥行方向の寸法よりも大きい容器。
Each of which is a container for supporting a plurality of volatilized bodies formed in a rod shape,
A receiving portion for receiving a lower end portion of each of the plurality of volatilization bodies;
An encircling part that collectively encloses the intermediate part above the lower end part of the plurality of volatilization bodies from the periphery thereof;
A side wall portion connecting the receiving portion and the surrounding portion,
The side wall portion opens in the depth direction perpendicular to the height direction connecting the receiving portion and the surrounding portion, and defines the volatilization space connected to the surrounding space formed inside the surrounding portion with the height direction and the It has a shape that surrounds both sides in the width direction perpendicular to both the depth direction,
The dimension in the depth direction of the surrounding part and the dimension in the depth direction of the side wall part are smaller than that of the receiving part, and the distance between the surrounding part and the receiving part is in the depth direction of the receiving part. A container that is larger than its dimensions.
請求項1に記載の容器において、
前記包囲部から上方に向かって延びて前記揮散体の前記包囲部内への挿入を案内する案内部をさらに有し、この案内部は、前記包囲部の前記奥行方向の内側に収まるとともに前記包囲部から上方に向かうにしたがって前記幅方向の外側に向かって広がる形状を有する容器。
The container according to claim 1,
The guide portion further includes a guide portion that extends upward from the surrounding portion and guides insertion of the volatilization body into the surrounding portion, and the guide portion is located inside the surrounding portion in the depth direction and the surrounding portion. The container which has a shape which spreads toward the outer side of the said width direction as it goes upwards from.
請求項1又は2に記載の容器において、
前記包囲部は、前記奥行方向に互いに対向する一対の対向部を有し、
各対向部の前記高さ方向の寸法は、各対向部の前記奥行方向の寸法よりも大きく形成されている容器。
The container according to claim 1 or 2,
The surrounding portion has a pair of facing portions facing each other in the depth direction,
The container in which the dimension in the height direction of each facing part is formed larger than the dimension in the depth direction of each facing part.
請求項1ないし3のいずれかに記載の容器において、
前記受け部は、前記揮散体の下端部を下方から受ける受け面と、前記受け面の外縁から起立するとともに前記揮散体の下端部を前記受け面上に位置させるように当該下端部に対して外側から当接する当接面と、を有し、
前記受け面は、前記揮散体の下端部を前記当接面に向かって案内するようにその中央側が外周側に対して上方に隆起する隆起面を有する容器。
The container according to any one of claims 1 to 3,
The receiving part stands with respect to the lower end part so that the lower end part of the volatilization body is received from below and the lower end part of the volatilization body is positioned on the receiving surface while standing from the outer edge of the receiving surface. A contact surface that contacts from the outside,
The said receiving surface is a container which has the raised surface where the center side protrudes upwards with respect to an outer peripheral side so that the lower end part of the said volatilization body may be guided toward the said contact surface.
請求項4に記載の容器において、
前記隆起面は、中央面と、この中央面から前記当接面に向かって下方に傾斜する傾斜面と、を有し、
前記中央面は、外向きに凸となるとともに前記傾斜面に滑らかにつながるように湾曲する湾曲面を有する容器。
The container according to claim 4,
The raised surface has a central surface, and an inclined surface inclined downward from the central surface toward the contact surface,
The container having a curved surface that is curved outwardly so as to be smoothly connected to the inclined surface.
請求項5に記載の容器において、
前記受け面は、前記隆起面と前記当接面との間に介在して前記揮散体の下端部を下方から支持する環状の支持面を有する容器。
The container according to claim 5,
The said receiving surface is a container which has the cyclic | annular support surface which interposes between the said protruding surface and the said contact surface, and supports the lower end part of the said volatilization body from the downward direction.
請求項6に記載の容器において、
前記支持面の外側の縁部及び前記支持面の内側の縁部のうち互いに対向する部位同士の間の寸法は、前記揮散体の下端部の外径よりも大きく設定されている容器。
The container according to claim 6,
The container between the outer edge part of the said support surface and the mutually opposing site | parts among the edge parts inside the said support surface is set larger than the outer diameter of the lower end part of the said volatilization body.
請求項6又は7に記載の容器において、
前記傾斜面は、前記揮散体の下端部が下方から前記支持面に支持されるとともに側方から前記当接面に支持され、かつ前記揮散体の中間部位が前記包囲部の内周面に支持されるように傾斜した姿勢の前記揮散体から離間する形状を有する容器。
The container according to claim 6 or 7,
The inclined surface is supported by the support surface from below and supported by the contact surface from the side, and the intermediate portion of the volatilized material is supported by the inner peripheral surface of the surrounding portion. A container having a shape that is separated from the volatilizing body in an inclined posture.
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