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JP2008055025A - Bar-shaped cosmetic feeding container - Google Patents

Bar-shaped cosmetic feeding container Download PDF

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Publication number
JP2008055025A
JP2008055025A JP2006237397A JP2006237397A JP2008055025A JP 2008055025 A JP2008055025 A JP 2008055025A JP 2006237397 A JP2006237397 A JP 2006237397A JP 2006237397 A JP2006237397 A JP 2006237397A JP 2008055025 A JP2008055025 A JP 2008055025A
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Prior art keywords
holder
stick
decorative material
shaped decorative
shaped
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JP2006237397A
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JP4991215B2 (en
JP2008055025A5 (en
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Atsushi Oba
淳 大庭
Tomoya Minamino
朋哉 南野
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Suzuno Kasei Co Ltd
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Suzuno Kasei Co Ltd
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Publication of JP2008055025A5 publication Critical patent/JP2008055025A5/ja
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a bar-shaped cosmetic feeding container which properly holds a clearance of a bar-shaped cosmetic and a front tube without forming a level difference in the bar-shaped cosmetic. <P>SOLUTION: In the feeding container 1 for the bar-shaped cosmetic which moves a holder 48 holding the base end of the bar-shaped cosmetic A under a plurality of steps of a feed mechanism, the holder 48 is formed in an approximately cylindrical configuration with a thin film. The holder 48 has an opening capable of elastically deforming, which receives the bar-shaped cosmetic, and is formed so that the transverse section of the opening in an independence state is unsimilar to that of the bar-shaped cosmetic. The front tube 10 is included, which accommodates the holder 48 and corrects the section of the opening of the holder 49 to a configuration so that the bar-shaped cosmetic A can be inserted in the holder 48. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

この発明は口紅や固形頬紅などの棒状化粧材の繰り出し容器に関する。   The present invention relates to a feeding container for stick-shaped cosmetic materials such as lipstick and solid blusher.

口紅など軸方向に長い棒状化粧材の繰り出し容器に関して、特許文献1−特許文献3は、複数段の繰り出し機構を提案している。   Patent Documents 1 to 3 propose a multiple-stage payout mechanism for a stick-shaped cosmetic material payout container that is long in the axial direction, such as lipstick.

特許文献1を例に取ると、棒状化粧材の基部を保持する略円筒形状のホルダは、棒状化粧材とともに先筒の内側に収装され、先筒との異径嵌合により先筒内を軸方向にのみ変位可能に構成される。ホルダには先筒から下向きに突出する棒軸が固着されている。芯チャックは複数の外向きの突起を備える。棒軸はこれらの突起を案内する螺旋溝を備えた第1の筒部材に収装され、ホルダは第1の筒部材と先筒との相対回転に応じて軸方向に変位する。第1の筒部材はさらに第2の筒部材の内周に螺合する。   Taking Patent Document 1 as an example, a substantially cylindrical holder that holds the base portion of the bar-shaped decorative material is housed inside the front tube together with the bar-shaped decorative material, and the inside of the front tube is fitted by different diameter fitting with the front tube. It is configured to be displaceable only in the axial direction. A rod shaft protruding downward from the front tube is fixed to the holder. The core chuck includes a plurality of outward projections. The rod shaft is accommodated in a first cylindrical member having a spiral groove that guides these protrusions, and the holder is displaced in the axial direction in accordance with relative rotation between the first cylindrical member and the front tube. The first cylinder member is further screwed onto the inner periphery of the second cylinder member.

先筒と第2の筒部材を相対回転させると、第1の筒部材と第2の筒部材とが相対回転し、第1の筒部材が第2の筒部材から突出する方向へ送り出される。第1の筒部材とともにホルダも先筒内を先端方向へ移動する。第1の筒部材の送り出しが限界に達すると、第1の筒部材の基端に形成したストッパが、第1の筒部材と第2の筒部材のそれ以上の相対変位を規制する。   When the leading cylinder and the second cylinder member are rotated relative to each other, the first cylinder member and the second cylinder member are rotated relative to each other, and the first cylinder member is sent out in a direction protruding from the second cylinder member. The holder also moves in the tip tube in the distal direction along with the first tube member. When the delivery of the first tubular member reaches the limit, a stopper formed at the proximal end of the first tubular member restricts further relative displacement between the first tubular member and the second tubular member.

この状態から、先筒と第2の筒部材をさらに相対回転させると、芯チャックが第1の筒部材との相対回転によりねじ送りされ、ホルダは先筒内においてさらに先端方向に変位する。芯チャックのねじ送りが限界に達すると、芯チャックの基端に形成したストッパが、芯チャックと第1の筒部材とのそれ以上の相対変位を規制する。   From this state, when the leading tube and the second tube member are further rotated relative to each other, the core chuck is screw-fed by the relative rotation with the first tube member, and the holder is further displaced in the tip direction within the leading tube. When the screw feed of the core chuck reaches the limit, a stopper formed at the base end of the core chuck restricts further relative displacement between the core chuck and the first cylindrical member.

ホルダが先筒内を先端方向へ移動することで、ホルダに保持された棒状化粧材は先筒の先端から外側へ送り出される。   When the holder moves in the tip direction in the tip tube, the stick-shaped decorative material held by the holder is sent out from the tip of the tip tube to the outside.

このように、複数段の繰り出し機構を備えることで、棒状化粧材のストローク距離を増大させることができる。したがって、棒状化粧材の長さに対して容器の全長を短く抑えることができる。   Thus, the stroke distance of a stick-shaped decorative material can be increased by providing a multi-stage feeding mechanism. Therefore, the full length of the container can be kept short with respect to the length of the stick-shaped decorative material.

特許文献2及び特許文献3に記載の繰り出し容器も基本構造は同じである。
特許第2736039号公報 実開平4−33069号公報 特許第3725205号公報
The basic structure of the feeding containers described in Patent Document 2 and Patent Document 3 is the same.
Japanese Patent No. 2736039 Japanese Utility Model Publication No. 4-33069 Japanese Patent No. 3725205

上記の各従来技術において、ホルダは自立状態で変形しない程度に高い剛性を有する。また、ホルダを先筒の内側で軸方向に変位させる際に、ホルダの外周が先筒の内周面に接触しないように、あらかじめホルダの外径寸法が設定される。高剛性のホルダが先筒の内周面に接触すると、棒状化粧材の繰り出しや繰り戻しに対する抵抗が増大して、化粧材のスムーズな進退が難しくなるからである。また、ホルダと先筒とが接触すると、化粧材が傾いたり、先筒の内周面と接触して損傷する可能性もある。   In each of the prior arts described above, the holder has a high rigidity so as not to be deformed in a self-supporting state. Further, when the holder is displaced in the axial direction inside the front tube, the outer diameter of the holder is set in advance so that the outer periphery of the holder does not contact the inner peripheral surface of the front tube. This is because when the high-rigidity holder comes into contact with the inner peripheral surface of the front tube, the resistance of the stick-shaped decorative material to payout and retraction increases, and it becomes difficult to smoothly advance and retract the decorative material. Further, when the holder and the tip tube come into contact with each other, there is a possibility that the decorative material may be tilted or contacted with the inner peripheral surface of the tip tube and damaged.

ホルダを高剛性とするためには、ホルダの壁厚を厚くせざるを得ない。そのため、棒状化粧材と先筒とのクリアランスを適正に保つには、必然的に棒状化粧材に段差を形成しなければならない。   In order to make the holder highly rigid, the wall thickness of the holder must be increased. Therefore, in order to properly maintain the clearance between the stick-shaped decorative material and the tip tube, it is necessary to form a step in the stick-shaped decorative material.

段差を設けた棒状化粧材は、段差の部分で折れやすいという問題がある。前記従来技術の複数段の繰り出し機構を必要とするような長い棒状化粧材や径の小さな棒状化粧材において、この点は大きな問題となる。   A bar-shaped decorative material provided with a step has a problem that it is easily broken at the step. This is a serious problem in the long stick-shaped decorative material and the small-sized stick-shaped decorative material that require the multi-stage feeding mechanism of the prior art.

この発明の目的は、したがって、複数段の繰り出し構造を備えた棒状化粧材の容器において、棒状化粧材に段差を形成せずに、棒状化粧材と先筒とのクリアランスを適正に設定できるようにすることである。   SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to make it possible to appropriately set the clearance between the stick-shaped decorative material and the tip tube without forming a step in the stick-shaped decorative material in the container of the stick-shaped decorative material having a multi-stage feeding structure. It is to be.

以上の目的を達成するために、この発明は棒状化粧材の基端を保持するホルダを円筒形状の先筒の内側で、複数段の繰り出し機構のもとで進退させる、棒状化粧材の繰り出し容器において、棒状化粧材を受け入れる弾性変形可能な開口部を有し、かつ自立状態における開口部の横断面が棒状化粧材の横断面と非相似形をなすようにホルダを薄膜による略円筒形状に形成するとともに、棒状化粧材をホルダに挿入可能な形状へとホルダの開口部の断面を矯正する形状に先筒の内周の断面を形成している。   In order to achieve the above object, the present invention relates to a bar-shaped cosmetic material feeding container in which a holder for holding the base end of a bar-shaped cosmetic material is advanced and retracted inside a cylindrical tip tube under a multi-stage feeding mechanism. The holder is formed in a substantially cylindrical shape with a thin film so that it has an elastically deformable opening for receiving the bar-shaped decorative material, and the cross section of the opening in a self-supporting state is not similar to the cross-section of the bar-shaped decorative material In addition, the cross section of the inner periphery of the front tube is formed in a shape that corrects the cross section of the opening of the holder so that the stick-shaped decorative material can be inserted into the holder.

棒状化粧材の基端を薄膜によるホルダで保持することにより、棒状化粧材に段差を形成することなく、棒状化粧材と先筒の内周面とのクリアランスを適正に保持することができる。先筒がホルダの開口部の断面を矯正するので、ホルダは先筒の内周面と当接状態を保ち、棒状化粧材の送り出しや引き込みに際して、棒状化粧材の揺れを防止しつつ、好ましい操作感を得ることができる。したがって、長い棒状化粧材や径の小さな棒状化粧材の保持と進退操作に関して特に好ましい効果が得られる。   By holding the base end of the stick-shaped decorative material with the holder made of a thin film, the clearance between the stick-shaped decorative material and the inner peripheral surface of the tip tube can be properly maintained without forming a step in the stick-shaped decorative material. Since the front tube corrects the cross section of the opening of the holder, the holder is kept in contact with the inner peripheral surface of the front tube, and a preferable operation is performed while the stick-shaped decorative material is not shaken when the stick-shaped decorative material is fed or retracted. A feeling can be obtained. Therefore, a particularly favorable effect can be obtained with respect to holding and advancing / retracting operation of the long stick-shaped decorative material or the small stick-shaped decorative material.

図1を参照すると、この発明による棒状化粧材繰り出し容器1は、先筒10と本体2を備える。先筒10は本体2との相対回転操作に応じて棒状化粧材Aを先端から突出させ、あるいは棒状化粧材Aを先筒10内に後退させる。   Referring to FIG. 1, a stick-shaped cosmetic material feeding container 1 according to the present invention includes a front tube 10 and a main body 2. The front tube 10 causes the stick-shaped decorative material A to protrude from the tip in accordance with a relative rotation operation with the main body 2, or retracts the stick-shaped decorative material A into the front tube 10.

図2(A)に示すキャップ3は、棒状化粧材繰り出し容器1の本体2に取り外し可能に装着して、先筒10を覆う。キャップ3の下端の内周には環状溝3aが形成される。   A cap 3 shown in FIG. 2 (A) is detachably attached to the main body 2 of the stick-shaped decorative material feeding container 1 and covers the front tube 10. An annular groove 3 a is formed on the inner periphery of the lower end of the cap 3.

再び図1を参照すると、本体2は内筒20、外筒30、芯チャック40、中継螺旋筒50を備える。   Referring again to FIG. 1, the main body 2 includes an inner cylinder 20, an outer cylinder 30, a core chuck 40, and a relay spiral cylinder 50.

図2(B)と(C)を参照すると、先筒10の外周部分は、筒状のつまみ部17とその下端に一体に形成された結合部16からなる。つまみ部17は棒状化粧材繰り出し容器1を操作する際に、指先で持って、外筒30と相対回転させる部分である。   Referring to FIGS. 2B and 2C, the outer peripheral portion of the front tube 10 includes a cylindrical knob portion 17 and a coupling portion 16 integrally formed at the lower end thereof. The knob portion 17 is a portion that is held with a fingertip and rotated relative to the outer cylinder 30 when operating the stick-shaped decorative material feeding container 1.

つまみ部17の外周面は先端方向に向かってテーパ状に径を縮小する。   The diameter of the outer peripheral surface of the knob portion 17 is tapered toward the tip.

結合部16の外周面はつまみ部17の基端の外周面より小径に形成される。そのため、結合部16の外周面はつまみ部17の外周面に対して一定の段差をもって結合する。この段差の少し下方において結合部16の外周に突起部10aが突設される。   The outer peripheral surface of the coupling portion 16 is formed with a smaller diameter than the outer peripheral surface of the proximal end of the knob portion 17. Therefore, the outer peripheral surface of the coupling portion 16 is coupled to the outer peripheral surface of the knob portion 17 with a certain level difference. A projection 10 a is provided on the outer periphery of the coupling portion 16 slightly below the step.

突起部10aの下方の結合部16の外周面にはOリング溝15が形成される。Oリング溝15にはOリングが収装される。結合部16の下端の外周面には環状の突起部10bが形成される。   An O-ring groove 15 is formed on the outer peripheral surface of the coupling portion 16 below the protruding portion 10a. An O-ring is accommodated in the O-ring groove 15. An annular protrusion 10 b is formed on the outer peripheral surface at the lower end of the coupling portion 16.

先筒10は軸方向の貫通孔13を備える。先筒10は上端に貫通孔13に連通する傾斜した開口部11を備える。貫通孔13のもう一端は先筒10の下端において下向きに開口する。貫通孔13の横断面は図2(C)に示すように、基本形状は円形であるが、等しい角度間隔で形成された複数の摺動溝12を備える。摺動溝12は図2(B)に示すように、先筒10のほぼ全長に渡って形成される。   The front tube 10 includes an axial through hole 13. The front tube 10 includes an inclined opening 11 communicating with the through hole 13 at the upper end. The other end of the through hole 13 opens downward at the lower end of the front tube 10. As shown in FIG. 2C, the cross-section of the through-hole 13 has a circular basic shape, but includes a plurality of sliding grooves 12 formed at equal angular intervals. As shown in FIG. 2B, the sliding groove 12 is formed over almost the entire length of the front tube 10.

図3(C)を参照すると、内筒20の上部には上向きに開口する一様な円形断面の上端腔部27が形成される。先筒10の結合部16はこの上端腔部27に挿入される。上端腔部27の内周には環状の嵌合溝21が形成され、結合部16の基端の環状の突起部10bが嵌合溝21に係合することで、先筒10は内筒20に相対回転可能な状態で結合される。   Referring to FIG. 3C, an upper end cavity portion 27 having a uniform circular cross section that opens upward is formed in the upper portion of the inner cylinder 20. The coupling portion 16 of the front tube 10 is inserted into the upper end cavity portion 27. An annular fitting groove 21 is formed on the inner periphery of the upper end cavity portion 27, and the annular protrusion 10 b at the base end of the coupling portion 16 is engaged with the fitting groove 21, so that the leading tube 10 is connected to the inner tube 20. Are coupled in a relatively rotatable state.

内筒20は上端腔部27の下方に雌ねじ部26を備える。雌ねじ部26は上端腔部27より小径に形成され、その内周には螺旋状の溝が刻まれる。また、上端腔部27と雌ねじ部26とは内向きの環状突起である内突段部23を介して連通する。内突段部23には下向き段部23aが形成される。雌ねじ部26の下端は下向きに開口する。   The inner cylinder 20 includes an internal thread portion 26 below the upper end cavity portion 27. The female thread portion 26 is formed to have a smaller diameter than the upper end cavity portion 27, and a spiral groove is formed on the inner periphery thereof. Further, the upper end cavity portion 27 and the female screw portion 26 communicate with each other via an inner protrusion step portion 23 that is an inwardly-shaped annular protrusion. A downward stepped portion 23 a is formed on the inner protruding stepped portion 23. The lower end of the female screw part 26 opens downward.

内筒20の上部の外周にはフランジ22が形成される。フランジ22の上方にはキャップ3の嵌合溝3aに嵌合する突起部24aが、フランジ22の下方には環状の突起部24bがそれぞれ形成される。内筒20の下部の雌ねじ部26に対応する外周面には軸方向に延びる等しい角度間隔で形成された複数の縦リブ25が形成される。   A flange 22 is formed on the outer periphery of the upper portion of the inner cylinder 20. A protrusion 24 a that fits into the fitting groove 3 a of the cap 3 is formed above the flange 22, and an annular protrusion 24 b is formed below the flange 22. A plurality of vertical ribs 25 formed at equal angular intervals extending in the axial direction are formed on the outer peripheral surface corresponding to the internal thread portion 26 at the lower portion of the inner cylinder 20.

図3(D)を参照すると、外筒30は下端に底面33を有する筒状部材であり、上端の内周面には環状の嵌合溝31が形成される。また、外筒30の下部の内周面にはローレット32が等しい角度間隔で軸方向に形成される。   Referring to FIG. 3D, the outer cylinder 30 is a cylindrical member having a bottom surface 33 at the lower end, and an annular fitting groove 31 is formed on the inner peripheral surface of the upper end. Further, knurls 32 are formed in the axial direction at equal angular intervals on the inner peripheral surface of the lower portion of the outer cylinder 30.

内筒20は外筒30の内側に上端の開口部から挿入される。この時、縦リブ25がローレット32と嵌合し、突起部24bが嵌合溝31に嵌合する。結果として、組み立て状態の棒状化粧材繰り出し容器1においては、内筒20は軸方向及び回転方向に関して外筒30と一体に変位する。   The inner cylinder 20 is inserted into the outer cylinder 30 from the opening at the upper end. At this time, the vertical rib 25 is fitted to the knurled 32 and the protrusion 24 b is fitted to the fitting groove 31. As a result, in the rod-shaped decorative material feeding container 1 in the assembled state, the inner cylinder 20 is displaced integrally with the outer cylinder 30 in the axial direction and the rotation direction.

図3(A)を参照すると、芯チャック40は中空の棒軸44と棒軸44の上端に固着したホルダ48からなる。芯チャック40はホルダ48と棒軸44を含めて熱可塑性プラスチック材料の射出成型により一体に形成される。   Referring to FIG. 3A, the core chuck 40 includes a hollow rod shaft 44 and a holder 48 fixed to the upper end of the rod shaft 44. The core chuck 40 including the holder 48 and the rod shaft 44 is integrally formed by injection molding of a thermoplastic material.

棒軸44の外周には数多くの突起45が形成される。突起45は螺旋状の経路に沿って等しい間隔で形成される。棒軸44の下端には外向きに突出する一対の凸片47が形成される。凸片47は水平面からなる上端面47aを備える。凸片47は上端面47aから下方に向かって突出高さを徐々に減じるような斜面を備える。凸片47はこの斜面に加わる内向きの力に応じて、棒軸44の内部に弾性的に埋没する。   Many protrusions 45 are formed on the outer periphery of the rod shaft 44. The protrusions 45 are formed at equal intervals along the spiral path. A pair of convex pieces 47 projecting outward is formed at the lower end of the rod shaft 44. The convex piece 47 includes an upper end surface 47a made of a horizontal plane. The convex piece 47 is provided with a slope that gradually reduces the protruding height downward from the upper end surface 47a. The convex piece 47 is elastically buried in the rod shaft 44 according to the inward force applied to the inclined surface.

こうした動作を可能にするための凸片47の構造は、凸片47の周囲の棒軸44の壁面に凸片47が埋没可能な、図1と図4に示すようなスリット46を形成しておくことで実現する。凸片47は下端においてのみ棒軸44と結合し、凸片47の上端面47aと両側面はスリット46によって棒軸44の壁面から切り離しておく。   The structure of the convex piece 47 for enabling such an operation is that a slit 46 as shown in FIGS. 1 and 4 is formed in which the convex piece 47 can be embedded in the wall surface of the rod shaft 44 around the convex piece 47. It will be realized. The convex piece 47 is coupled to the rod shaft 44 only at the lower end, and the upper end surface 47 a and both side surfaces of the convex piece 47 are separated from the wall surface of the rod shaft 44 by the slit 46.

ホルダ48は上端を開口した円筒形状の部材であり、内側の腔部41に図1に示す棒状化粧材Aの基端を収装する。ここでは、棒状化粧材Aの横断面の形状は円形とする。   The holder 48 is a cylindrical member having an upper end opened, and the base end of the rod-shaped decorative material A shown in FIG. Here, the shape of the cross section of the rod-shaped decorative material A is circular.

図3(B)を参照すると、ホルダ48は略円形断面の薄膜部48aと、その外周に形成された複数の軸方向に延びる帯状突起48bとを備える。帯状突起48bは図2(B)と(C)に示す先筒10の内側の摺動溝12に嵌合する形状と寸法に形成される。   Referring to FIG. 3B, the holder 48 includes a thin film portion 48a having a substantially circular cross section and a plurality of axial protrusions 48b formed on the outer periphery thereof. The band-like protrusion 48b is formed in a shape and size that fits into the sliding groove 12 inside the front tube 10 shown in FIGS. 2 (B) and 2 (C).

芯チャック40は中継螺旋筒50の内側に収装される。   The core chuck 40 is accommodated inside the relay spiral cylinder 50.

再び図3(A)を参照すると、中継螺旋筒50は略円筒形状の部材であり、上端の内周に雌ねじ部51を備える。雌ねじ部51の下方には雌ねじ部51より大きな内径の中間部52が連続し、さらに中間部52の下方に大径部53が形成される。   Referring to FIG. 3A again, the relay spiral cylinder 50 is a substantially cylindrical member, and includes an internal thread portion 51 on the inner periphery of the upper end. An intermediate portion 52 having an inner diameter larger than that of the female screw portion 51 continues below the female screw portion 51, and a large diameter portion 53 is formed below the intermediate portion 52.

雌ねじ部51は上向きの開口部を有する。雌ねじ部51は芯チャック40の棒軸44の突起45と係合し、突起45を螺旋状の移動経路に沿って案内する役割を持つ。   The female screw part 51 has an upward opening. The female thread portion 51 engages with the protrusion 45 of the rod shaft 44 of the core chuck 40 and has a role of guiding the protrusion 45 along a spiral movement path.

雌ねじ部53と中間部52の内周面は下向き段部51aを介して接続される。   The inner peripheral surfaces of the female screw portion 53 and the intermediate portion 52 are connected via a downward stepped portion 51a.

大径部53は環状の平面である上端面53aを介して中間部52に結合する。大径部53の外周には螺旋状に雄ねじ54が突設される。大径部53は下端53bには下向きの開口部を有する。   The large-diameter portion 53 is coupled to the intermediate portion 52 through an upper end surface 53a that is an annular flat surface. A male screw 54 projects in a spiral manner on the outer periphery of the large-diameter portion 53. The large-diameter portion 53 has a downward opening at the lower end 53b.

以上のように構成された棒状化粧材繰り出し容器1は、以下の手順で組み立てられる。   The stick-shaped decorative material feeding container 1 configured as described above is assembled by the following procedure.

まず、芯チャック40の棒軸44を雌ねじ部51の開口から中継螺旋筒50に挿入する。この時、凸片47の斜面が雌ねじ部51に当接することで凸片47が弾性変形して棒軸44に埋没し、棒軸44の中継螺旋筒50への侵入を可能にする。雌ねじ部51を通過した凸片47は再び外向きに突出して当初の状態に戻る。以後は、凸片47の上端面47aと中継螺旋筒50の下向き段部51aとの干渉により、棒軸44の中継螺旋筒50からの引き抜きは阻止される。   First, the rod shaft 44 of the core chuck 40 is inserted into the relay spiral cylinder 50 through the opening of the female screw portion 51. At this time, the inclined surface of the convex piece 47 abuts on the female screw portion 51, whereby the convex piece 47 is elastically deformed and buried in the rod shaft 44, and the rod shaft 44 can enter the relay spiral cylinder 50. The convex piece 47 that has passed through the female screw portion 51 protrudes outward again and returns to the initial state. Thereafter, due to the interference between the upper end surface 47 a of the convex piece 47 and the downward stepped portion 51 a of the relay spiral cylinder 50, the rod shaft 44 is prevented from being pulled out from the relay spiral cylinder 50.

一方、先筒10の結合部16を内筒20の上端腔部27の開口から内筒20に挿入する。結合部16を上端腔部27に強く押し込むことで、結合部16の外周の突起部10aが上端腔部27の環状の嵌合溝21に嵌合し、先筒10は内筒20と一体化される。   On the other hand, the coupling portion 16 of the front tube 10 is inserted into the inner tube 20 through the opening of the upper end cavity portion 27 of the inner tube 20. By strongly pushing the coupling part 16 into the upper end cavity part 27, the protrusion 10 a on the outer periphery of the coupling part 16 is fitted into the annular fitting groove 21 of the upper end cavity part 27, and the leading cylinder 10 is integrated with the inner cylinder 20. Is done.

次に、ホルダ48を上向きにして芯チャック40と中継螺旋筒50を、内筒20の下端の開口から内筒20とに侵入させる。先筒10の内側に達したホルダ48の帯状突起48bが、先筒10の内側の摺動溝12に嵌合するよう、操作の中で棒軸44と中継螺旋筒50の回転角度を調整する。帯状突起48bが摺動溝12に嵌合した後、中継螺旋筒50をさらに内筒20に侵入させ、最後に中継螺旋筒50の大径部53の外周の雄ねじ54を内筒20の雌ねじ部26に螺合させる。   Next, the core chuck 40 and the relay spiral cylinder 50 are caused to enter the inner cylinder 20 from the lower end opening of the inner cylinder 20 with the holder 48 facing upward. During operation, the rotation angle of the rod shaft 44 and the relay spiral cylinder 50 is adjusted so that the band-like protrusion 48b of the holder 48 reaching the inner side of the front cylinder 10 fits into the sliding groove 12 inside the front cylinder 10. . After the belt-like protrusion 48 b is fitted in the sliding groove 12, the relay spiral cylinder 50 is further inserted into the inner cylinder 20, and finally the male screw 54 on the outer periphery of the large diameter portion 53 of the relay spiral cylinder 50 is connected to the female thread portion of the inner cylinder 20. 26 to be screwed.

このようにして先筒10と、芯チャック40と、中継螺旋筒50と、内筒20とを組み立てた後、内筒20の下端を外筒30の上端開口部から外筒30の内側に侵入させる。内筒20の下部の外周に形成した縦リブ25が、外筒30の下部の内周面のローレット32と係合するよう、内筒20と外筒30を相対回転角度を調整しながら、内筒20を外筒30に押し込む。縦リブ25がローレット32と係合し、フランジ22の下に位置する環状の突起部24bが外筒30の上端の内周面に形成された環状の嵌合溝31に嵌合することで、内筒20は外筒30と一体化される。   After assembling the front cylinder 10, the core chuck 40, the relay spiral cylinder 50, and the inner cylinder 20 in this way, the lower end of the inner cylinder 20 enters the inner side of the outer cylinder 30 from the upper end opening of the outer cylinder 30. Let While adjusting the relative rotation angle of the inner cylinder 20 and the outer cylinder 30 so that the vertical ribs 25 formed on the outer periphery of the lower part of the inner cylinder 20 engage with the knurls 32 on the inner peripheral surface of the lower part of the outer cylinder 30, The cylinder 20 is pushed into the outer cylinder 30. The vertical rib 25 is engaged with the knurl 32, and the annular protrusion 24b located below the flange 22 is fitted into an annular fitting groove 31 formed on the inner peripheral surface of the upper end of the outer cylinder 30. The inner cylinder 20 is integrated with the outer cylinder 30.

以上で、先筒10と本体2の組み立ては完了する。   Thus, the assembly of the front tube 10 and the main body 2 is completed.

棒状化粧材Aは、この状態において、先筒10の先端開口部から先筒10の内側の貫通孔13に挿入される。さらに棒状化粧材Aの基端をホルダ48の腔部41に挿入することで、棒状化粧材Aの棒状化粧材繰り出し容器1への組み込みが完了する。棒状化粧材Aの組み込み完了後に、先筒10と内筒20の上端部とにキャップ3を装着する。内筒20の上端部の外周の突起24aを、キャップ3の下端の内周に形成された環状溝3aに嵌合させることで、キャップ3は装着状態に保持される。   In this state, the rod-shaped decorative material A is inserted into the through hole 13 on the inner side of the front tube 10 from the tip opening of the front tube 10. Further, by inserting the base end of the bar-shaped decorative material A into the cavity 41 of the holder 48, the incorporation of the bar-shaped decorative material A into the bar-shaped decorative material feeding container 1 is completed. After the assembly of the rod-shaped decorative material A is completed, the cap 3 is attached to the top tube 10 and the upper end portion of the inner tube 20. By fitting the protrusion 24 a on the outer periphery of the upper end portion of the inner cylinder 20 into the annular groove 3 a formed on the inner periphery of the lower end of the cap 3, the cap 3 is held in the mounted state.

図1は棒状化粧材Aの棒状化粧材繰り出し容器1への組み込みが完了した時点の状態を示す。ここでは、芯チャック40が中継螺旋筒50の最も奥深くまで侵入し、中間螺旋筒50は内筒20の最も奥深くまで侵入している。   FIG. 1 shows a state when the incorporation of the stick-shaped decorative material A into the stick-shaped decorative material feeding container 1 is completed. Here, the core chuck 40 penetrates deeply into the relay spiral cylinder 50, and the intermediate spiral cylinder 50 penetrates deeply into the inner cylinder 20.

この状態から外筒30と先筒10とを相対回転させると、まず中継螺旋筒50の大径部53の外周の雄ねじ54が内筒20の内周の雌ねじ部26に案内されて螺旋状に内筒20と中継螺旋筒50とを相対変位させ、中継螺旋筒50を内筒20の上方へと送り出す。中継螺旋筒50は棒軸44を介してホルダ48を上方へと駆動し、ホルダ48に支持された棒状化粧材Aは先筒10の開口部11から上方へと送り出される。大径部53の上端面53aが下向き段部23aに当接すると、以後の中継螺旋筒50と内筒20との相対回転は阻止される。   When the outer cylinder 30 and the front cylinder 10 are rotated relative to each other from this state, first, the male screw 54 on the outer periphery of the large-diameter portion 53 of the relay spiral cylinder 50 is guided to the female screw portion 26 on the inner periphery of the inner cylinder 20 and spirally formed. The inner cylinder 20 and the relay spiral cylinder 50 are relatively displaced, and the relay spiral cylinder 50 is sent out above the inner cylinder 20. The relay spiral cylinder 50 drives the holder 48 upward via the rod shaft 44, and the rod-shaped decorative material A supported by the holder 48 is sent upward from the opening 11 of the tip cylinder 10. When the upper end surface 53a of the large-diameter portion 53 comes into contact with the downward stepped portion 23a, the relative rotation of the relay spiral cylinder 50 and the inner cylinder 20 thereafter is prevented.

この状態からさらに、外筒30と先筒10とを相対回転させると、今度は芯チャック40が中継螺旋筒50との相対回転により、中継螺旋筒50から軸方向に送り出され、芯チャック40の上端のホルダ48に装着された棒状化粧材Aは先筒10からさらに上方へと送り出される。芯チャック40の凸片47が中継螺旋筒50の下向き段部51aと干渉するまで、芯チャック40が中継螺旋筒50から突出すると、以後芯チャック40と中継螺旋筒50の相対回転は阻止される。   When the outer cylinder 30 and the front cylinder 10 are further rotated relative to each other from this state, the core chuck 40 is now sent in the axial direction from the relay spiral cylinder 50 by the relative rotation with the relay spiral cylinder 50, and the core chuck 40 The rod-shaped decorative material A attached to the upper-end holder 48 is fed further upward from the front tube 10. When the core chuck 40 protrudes from the relay spiral cylinder 50 until the convex piece 47 of the core chuck 40 interferes with the downward stepped portion 51a of the relay spiral cylinder 50, the relative rotation of the core chuck 40 and the relay spiral cylinder 50 is prevented thereafter. .

図4はこのようにして、芯チャック40が中継螺旋筒50から最も突出し、さらに中継螺旋筒50が内筒20から最も突出した状態を示す。図1と図4におけるホルダ48の支持位置の差がホルダ48のストローク距離に相当する。以上の説明では、中継螺旋筒50の送り出しに引き続いて芯チャック40の送り出しが行われているが、芯チャック40と中継螺旋筒50の相対回転の抵抗の大きさと、中継螺旋筒50と内筒20との相対回転の抵抗との大きさの具合により、この順番が逆になることもある。   FIG. 4 shows a state in which the core chuck 40 protrudes most from the relay spiral cylinder 50 and further the relay spiral cylinder 50 protrudes most from the inner cylinder 20 in this way. The difference in the support position of the holder 48 in FIGS. 1 and 4 corresponds to the stroke distance of the holder 48. In the above description, the lead chuck 40 is fed following the feed of the relay spiral cylinder 50. However, the relative rotation resistance between the core chuck 40 and the relay spiral cylinder 50, the relay spiral cylinder 50, and the inner cylinder are determined. This order may be reversed depending on the magnitude of the relative rotation resistance with 20.

このようにして、棒状化粧材繰り出し容器1は中継螺旋筒50と内筒20とが構成するねじ送り機構と芯チャック40と中継螺旋筒50とが構成するねじ送り機構と、による2段式の繰り出し構造のもとで、全長を短く抑えつつ、ホルダ48の長いストローク距離を実現する。   In this way, the stick-shaped cosmetic material feeding container 1 is a two-stage type that includes the screw feeding mechanism constituted by the relay spiral cylinder 50 and the inner cylinder 20 and the screw feeding mechanism constituted by the core chuck 40 and the relay spiral cylinder 50. A long stroke distance of the holder 48 is realized while keeping the overall length short under the feeding structure.

ここで、図5を参照して、ホルダ48の構造と棒状化粧材Aの保持についてさらに詳しく説明する。   Here, with reference to FIG. 5, the structure of the holder 48 and the holding of the stick-shaped decorative material A will be described in more detail.

ホルダ48の内周面は円形断面となるように設計される。しかしながら、複数の軸方向の帯状突起48bを薄膜部48aを介して連結した構造のホルダ48を、プラスチック材料の射出成型で形成すると、ホルダ48の上端の開口部は以下の理由により、図5(A)に示すように短軸D−αと長軸D+αで表される略楕円形断面となる。   The inner peripheral surface of the holder 48 is designed to have a circular cross section. However, when a holder 48 having a structure in which a plurality of axial projections 48b are connected through a thin film portion 48a is formed by injection molding of a plastic material, the opening at the upper end of the holder 48 is formed as shown in FIG. As shown to A), it becomes a substantially elliptical cross section represented by the short axis D-α and the long axis D + α.

すなわち、溶解したプラスチック材料は射出成型時に、金型内部で厚みのある帯状突起48aの部分から薄膜部48bの部分に向かって流れる。この時、帯状突起48aと薄膜48bとで内部応力の差が生じること、射出成型時のプラスチックの圧力と速度によってコアピンが微かに動き、薄膜48aに微妙な偏肉を起こすこと、を原因として開口部が変形する。変形の程度は一定とは限らない。ホルダ48aの側面に開口窓を設けるようにすれば、ホルダ48の中空部を形成する金型のコアピンの射出成型圧力や射出成型速度による動きを小さくすることが可能である。この措置は薄膜部48aが薄いほど効果がある。   That is, at the time of injection molding, the melted plastic material flows from the thick band-shaped protrusion 48a portion toward the thin film portion 48b portion inside the mold. At this time, a difference in internal stress occurs between the belt-like protrusion 48a and the thin film 48b, and the core pin slightly moves depending on the pressure and speed of the plastic at the time of injection molding, causing a slight uneven thickness in the thin film 48a. The part is deformed. The degree of deformation is not always constant. If an opening window is provided on the side surface of the holder 48a, the movement of the core pin of the mold that forms the hollow portion of the holder 48 due to the injection molding pressure and the injection molding speed can be reduced. This measure is more effective as the thin film portion 48a is thinner.

薄膜部48aは開口部を損傷せずに棒状化粧材Aを保持できる限りは薄い方が良い。好ましくは0.05mmを最小値、0.3mmを最大値とする。薄膜部48aが薄いほど開口部の変形度合いが大きくなる。発明者らの研究によれば、薄膜部48aの厚さをホルダ48の上端部で0.1mm、底部で0.2mmと設定した場合に、射出成型時のコアピンの僅かな動きによって薄膜部48aの厚さが変動し、上端部のある部位では0.08mm、底部のある部位では0.18mmと、設定厚より薄くなる。上端部の別のある部位では0.12mm、底部の別のある部位では0.22mmと、設定厚より厚くなる。薄膜部48aのこの厚さのばらつきが開口部を、図5(A)に示すような略楕円形に変形させる。   The thin film portion 48a is preferably thin as long as it can hold the rod-shaped decorative material A without damaging the opening. Preferably, 0.05 mm is the minimum value and 0.3 mm is the maximum value. The thinner the thin film portion 48a, the greater the degree of deformation of the opening. According to the inventors' research, when the thickness of the thin film portion 48a is set to 0.1 mm at the upper end portion of the holder 48 and 0.2 mm at the bottom portion, the thin film portion 48a is caused by slight movement of the core pin during injection molding. The thickness is 0.08 mm at the portion with the upper end and 0.18 mm at the portion with the bottom, which is thinner than the set thickness. It is 0.12 mm at another part of the upper end and 0.22 mm at another part of the bottom, which is thicker than the set thickness. This variation in thickness of the thin film portion 48a causes the opening to be deformed into a substantially elliptical shape as shown in FIG.

ホルダ48のこのような弾性構造は棒状化粧材繰り出し容器1に次のような好ましい特性をもたらす。   Such an elastic structure of the holder 48 brings the following preferable characteristics to the stick-shaped decorative material feeding container 1.

すなわち、開口部が図5(A)に示すような略楕円形に変形したホルダ48は、図1に示すように先筒10の内側に収装された状態では、図5(B)に示すように帯状突起48bが摺動溝12の壁面と接触し、あるいは薄膜部48aが先筒10の内周面に接触する。その結果、開口部の略楕円形断面は図5(C)に示すように円形断面へと矯正される。   That is, the holder 48 whose opening is deformed into a substantially oval shape as shown in FIG. 5 (A) is shown in FIG. 5 (B) in a state where the holder 48 is housed inside the front tube 10 as shown in FIG. As described above, the belt-like protrusion 48 b comes into contact with the wall surface of the sliding groove 12, or the thin film portion 48 a comes into contact with the inner peripheral surface of the front tube 10. As a result, the substantially elliptical cross section of the opening is corrected to a circular cross section as shown in FIG.

棒状化粧材Aは棒状化粧材繰り出し容器1の組み立て後に、先筒10の先端の開口部11から貫通孔13内に挿入し、基端をホルダ48に押し込むことでホルダ48に装着される。   After assembling the stick-shaped decorative material feeding container 1, the stick-shaped decorative material A is inserted into the through-hole 13 from the opening 11 at the distal end of the front tube 10, and the base end is pushed into the holder 48 to be attached to the holder 48.

この時、ホルダ48の開口部が円形断面へと矯正されているので、円形断面の棒状化粧材Aを、ホルダ48に支障なく挿入することができる。   At this time, since the opening of the holder 48 is corrected to have a circular cross section, the rod-shaped decorative material A having a circular cross section can be inserted into the holder 48 without hindrance.

こうして、いったんホルダ48に挿入された棒状化粧材Aは、ホルダ48を内側から支え、ホルダ48の形状を内側から設計通りの円形断面形状へと矯正する。この矯正の結果、帯状突起48bは摺動溝12の壁面にもたれ掛からなくなり、棒状化粧材Aを装着したホルダ48は先筒10内を軸方向にスムーズに変位可能となる。また棒状化粧材Aに支持されることでホルダ48の剛性も増す。   Thus, the rod-shaped decorative material A once inserted into the holder 48 supports the holder 48 from the inside, and corrects the shape of the holder 48 from the inside to the circular cross-sectional shape as designed. As a result of this correction, the belt-like protrusion 48b does not lean against the wall surface of the sliding groove 12, and the holder 48 fitted with the stick-shaped decorative material A can be smoothly displaced in the axial direction in the front tube 10. Moreover, the rigidity of the holder 48 is increased by being supported by the rod-shaped decorative material A.

一方、ホルダ48のこの構造のもとでは、棒状化粧材Aと先筒10の内周面との間に介在するのは薄膜48aのみである、したがって、ホルダ48の上方の棒状化粧材Aの外周と先筒10の内周面とのクリアランスは、棒状化粧材Aに段差を形成しなくても、非常に小さな好ましい範囲に保たれる。   On the other hand, under this structure of the holder 48, only the thin film 48 a is interposed between the rod-shaped decorative material A and the inner peripheral surface of the front tube 10. The clearance between the outer periphery and the inner peripheral surface of the front tube 10 can be kept in a very small preferable range without forming a step in the stick-shaped decorative material A.

また、棒状化粧材繰り出し容器1の組み立てにおいて、先筒10内に芯チャック40を挿入した時に、ホルダ48の薄膜部48aや帯状突起48bが先筒10の内周面や摺動溝12に接触状態となるので、芯チャック40が先筒10から自然落下するのを防止することができる。芯チャック40の自然落下の防止は、棒状化粧材繰り出し容器1の組み立てを容易にする作用をもたらす。   Further, when the core chuck 40 is inserted into the front tube 10 in assembling the stick-shaped cosmetic material feeding container 1, the thin film portion 48 a and the belt-like protrusion 48 b of the holder 48 come into contact with the inner peripheral surface of the front tube 10 and the sliding groove 12. Thus, the core chuck 40 can be prevented from naturally falling from the front tube 10. The prevention of the natural fall of the core chuck 40 has an effect of facilitating the assembly of the stick-shaped decorative material feeding container 1.

さらに、ホルダ48が先筒10の内周に接触することで、棒状化粧材Aの送り出し操作や引き込み操作において、棒状化粧材Aの水平方向の揺れを防止する効果も得られる。   Furthermore, when the holder 48 is in contact with the inner periphery of the front tube 10, the effect of preventing the horizontal deformation of the stick-shaped decorative material A in the feeding operation and the pulling-in operation of the stick-shaped decorative material A is also obtained.

さらに、ホルダ48と先筒10との適度の摩擦抵抗により、棒状化粧材Aの送り出し操作や引き込み操作において、好ましい操作感が得られる。   Furthermore, a favorable operational feeling can be obtained in the feeding operation and the pulling-in operation of the bar-shaped decorative material A due to an appropriate frictional resistance between the holder 48 and the front tube 10.

棒状化粧材繰り出し容器1は前述のように2段式の繰り出し構造によって、ホルダ48の長いストローク距離を確保しているが、ホルダ48のストローク距離が長いことは、すなわち棒状化粧材Aが長いことを意味する。棒状化粧材Aは長いほど折れやすく、また先筒10内を変位する際に先筒10の内周面と接触したり、水平方向に揺れやすい。ホルダ48の構造がもたらす上記作用は、したがって、ストローク距離の長い繰り出し容器において特に好ましい効果をもたらす。   As described above, the stick-shaped decorative material feeding container 1 has a long stroke distance of the holder 48 by the two-stage feed structure. However, the long stroke distance of the holder 48 means that the stick-shaped decorative material A is long. Means. The longer the stick-shaped decorative material A is, the easier it is to bend, and it is more likely to come into contact with the inner peripheral surface of the front tube 10 when it is displaced in the front tube 10 or to shake horizontally. Therefore, the above-described operation provided by the structure of the holder 48 has a particularly favorable effect in a feeding container having a long stroke distance.

以上の実施形態において、中継螺旋筒50が第1の筒部材に相当し、内筒20が第2の筒部材に相当する。   In the above embodiment, the relay spiral cylinder 50 corresponds to a first cylinder member, and the inner cylinder 20 corresponds to a second cylinder member.

以上の実施形態は、ホルダ48の内周面を円形断面に設計する一方、ホルダ48の射出成型の結果として、内周面が略楕円形断面となるケースについて説明している。しかしながら、先筒10の内側に収装された状態でホルダ48の断面が、棒状化粧材Aを受け入れ可能な断面に矯正されるのであれば、必ずしもホルダ48の内周面の横断形状を円形に設計する必要はない。   The above embodiment describes a case where the inner peripheral surface of the holder 48 is designed to have a circular cross section, while the inner peripheral surface has a substantially elliptical cross section as a result of the injection molding of the holder 48. However, if the cross section of the holder 48 is corrected to a cross section that can receive the rod-shaped decorative material A in the state of being housed inside the front tube 10, the transverse shape of the inner peripheral surface of the holder 48 is not necessarily circular. There is no need to design.

以上の実施形態では、ホルダ48に帯状突起48aを設け、先筒10に帯状突起48aを案内する摺動溝12を形成しているが、これらは必須の要件ではなく、ホルダ48を円筒形状の薄膜部48aと底面のみで構成し、摺動溝12を省略することも可能である。   In the above embodiment, the holder 48 is provided with the belt-like protrusion 48a, and the sliding groove 12 for guiding the belt-like protrusion 48a is formed in the front tube 10. However, these are not essential requirements, and the holder 48 is formed in a cylindrical shape. It is possible to configure only the thin film portion 48a and the bottom surface and to omit the sliding groove 12.

また、以上の実施形態では円形の横断面を備えた棒状化粧材に適用する繰り出し容器にこの発明を適用しているが、棒状化粧材の横断面は円形に限らず、例えば楕円形断面の棒状化粧材の繰り出し容器にも、この発明は適用可能である。   Further, in the above embodiment, the present invention is applied to a feeding container applied to a rod-shaped decorative material having a circular cross section, but the cross-section of the rod-shaped decorative material is not limited to a circle, for example, a rod shape having an elliptical cross section. The present invention can also be applied to a cosmetic material feeding container.

以上の実施形態は2段式の繰り出し機構を備えた繰り出し容器にこの発明を適用しているが、この発明は2段に限らず複数段の繰り出し機構を備えた棒状化粧材の繰り出し容器全般に適用可能である。   In the above embodiment, the present invention is applied to a feeding container provided with a two-stage feeding mechanism. However, the present invention is not limited to two stages, and is applied to all stick-shaped decorative material feeding containers provided with a multi-stage feeding mechanism. Applicable.

この発明による棒状化粧材繰り出し容器は、口紅やコンシーラなどの棒状化粧品の容器に利用できる。   The stick-shaped cosmetic material feeding container according to the present invention can be used for stick-shaped cosmetic containers such as lipsticks and concealers.

この発明による棒状化粧材繰り出し容器の収縮状態における縦断面の斜視図である。It is a perspective view of the longitudinal section in the contracted state of the stick-shaped cosmetic material delivery container by this invention. 棒状化粧材繰り出し容器の上部を分解した状態での縦断面の斜視図並びに要部断面図である。It is the perspective view and principal part sectional drawing of the longitudinal cross-section in the state which decomposed | disassembled the upper part of the stick-shaped cosmetic material delivery container. 棒状化粧材繰り出し容器の下部を分解した状態での縦断面の斜視図並びに要部断面図である。It is the perspective view and longitudinal cross-sectional view of the longitudinal section in the state which decomposed | disassembled the lower part of the stick-shaped cosmetic material delivery container. 図1に類似するが、棒状化粧材繰り出し容器の伸長状態を示す。Although it is similar to FIG. 1, the expansion | extension state of a stick-shaped cosmetic material delivery container is shown. 図5は棒状化粧材繰り出し容器が備えるホルダの開口部の横断面図である。FIG. 5 is a cross-sectional view of the opening of the holder provided in the stick-shaped cosmetic material feeding container.

符号の説明Explanation of symbols

1 棒状化粧材繰り出し容器
2 本体
3 キャップ
3a 嵌合溝
10 先筒
10a 突起部
10b 突起部
11 開口部
10 先筒
12 摺動溝
13 貫通孔
16 結合部
17 つまみ部
20 内筒
21 嵌合溝
22 フランジ
23 内突段部
23a 下向き段部
24a 突起部
24b 突起部
25 縦リブ
26 雌ねじ部
27 上端腔部
30 外筒
31 嵌合溝
32 ローレット
33 底面
40 芯チャック
41 腔部
44 棒軸
45 突起
46 スリット
47 凸片
47a 上端面
48 ホルダ
48a 薄膜部
48b 帯状突起
50 中継螺旋筒
51 雌ねじ部
51a 下向き段部
52 中間部
53 大径部
53a 上端部
53b 下向き段部
A 棒状化粧材
DESCRIPTION OF SYMBOLS 1 Bar-shaped cosmetic material delivery container 2 Main body 3 Cap 3a Fitting groove 10 Lead tube 10a Protruding part 10b Protruding part 11 Opening part 10 Leading cylinder 12 Sliding groove 13 Through hole 16 Coupling part 17 Knob part 20 Inner cylinder 21 Fitting groove 22 Flange 23 Inner projecting step portion 23a Downward stepped portion 24a Protruding portion 24b Protruding portion 25 Vertical rib 26 Female thread portion 27 Upper end cavity portion 30 Outer cylinder 31 Fitting groove 32 Knurl 33 Bottom surface 40 Core chuck 41 Cavity portion 44 Rod shaft 45 Protrusion 46 Slit 47 convex piece 47a upper end face 48 holder 48a thin film part 48b strip-like protrusion 50 relay spiral cylinder 51 female thread part 51a downward step part 52 intermediate part 53 large diameter part 53a upper end part 53b downward step part A stick-shaped decorative material

Claims (7)

棒状化粧材の基端を保持するホルダを円筒形状の先筒の内側で、複数段の繰り出し機構のもとで進退させる、棒状化粧材の繰り出し容器において、
棒状化粧材を受け入れる弾性変形可能な開口部を有し、かつ自立状態における開口部の横断面が棒状化粧材の横断面と非相似形をなすようにホルダを薄膜による略円筒形状に形成するとともに、
棒状化粧材をホルダに挿入可能な形状へとホルダの開口部の断面を矯正する形状に先筒の内周の断面を形成したことを特徴とする棒状化粧材の繰り出し容器。
In the stick-shaped cosmetic material feeding container in which the holder for holding the base end of the stick-shaped decorative material is advanced and retracted under the multistage feeding mechanism inside the cylindrical tip tube,
The holder has an elastically deformable opening for receiving the bar-shaped decorative material, and the holder is formed in a substantially cylindrical shape by a thin film so that the cross-section of the opening in a self-standing state is not similar to the cross-section of the bar-shaped decorative material ,
A feeding container for a stick-shaped decorative material, characterized in that a cross-section of the inner periphery of the front tube is formed in a shape for correcting the cross-section of the opening of the holder so that the stick-shaped decorative material can be inserted into the holder.
前記複数段の繰り出し機構は、ホルダを先筒の内側で軸方向に変位させるよう構成されるとともに、棒状化粧材は先筒の先端に形成された開口部を介してホルダに挿入される、請求項1に記載の棒状化粧材の繰り出し容器。   The multi-stage feeding mechanism is configured to displace the holder in the axial direction inside the front tube, and the rod-shaped decorative material is inserted into the holder through an opening formed at the tip of the front tube. Item 10. A stick-shaped cosmetic material feeding container according to Item 1. 前記ホルダは薄膜による円筒から外向きに突出する突起を備え、前記先筒は前記突起を軸方向にのみ案内する溝を内周面に形成した、請求項1または請求項2に記載の棒状化粧材の繰り出し容器。   3. The stick-shaped makeup according to claim 1, wherein the holder includes a protrusion that protrudes outward from a cylinder made of a thin film, and the leading tube has a groove formed on an inner peripheral surface for guiding the protrusion only in the axial direction. Material feeding container. 前記突起は等しい角度間隔で前記円筒の外周に形成された、複数の軸方向に長い帯状突起で構成される、請求項3に記載の棒状化粧材の繰り出し容器。   The stick-shaped cosmetic material feeding container according to claim 3, wherein the protrusions are formed of a plurality of axially long band-shaped protrusions formed on the outer periphery of the cylinder at equal angular intervals. 前記薄膜の厚さを0.05ミリメートルから0.3ミリメートルの範囲に設定した請求項1から請求項4のいずれかに記載の棒状化粧材の繰り出し容器。   The feeding container for the bar-shaped decorative material according to any one of claims 1 to 4, wherein a thickness of the thin film is set in a range of 0.05 millimeters to 0.3 millimeters. 前記複数段の繰り出し機構は、ホルダに結合した棒軸と、芯軸の外周に螺合する第1の筒部材と、前記先筒に相対回転可能に結合し、中継螺旋筒の外周に螺合する第2の筒部材とを備える、請求項1から請求項5のいずれかに記載の棒状化粧材の繰り出し容器。   The multi-stage feeding mechanism is coupled to the rod shaft coupled to the holder, the first cylindrical member threadedly engaged with the outer periphery of the core shaft, and the tip tube so as to be rotatable relative to the outer periphery of the relay spiral tube. The feeding container of the stick-shaped decorative material according to any one of claims 1 to 5, further comprising a second cylindrical member that performs the above operation. 前記ホルダと芯軸とをプラスチック材料の射出成型により一体に形成した請求項6に記載の棒状化粧材の繰り出し容器。   The stick-shaped cosmetic material feeding container according to claim 6, wherein the holder and the core shaft are integrally formed by injection molding of a plastic material.
JP2006237397A 2006-09-01 2006-09-01 Stick-shaped cosmetic material feeding container Active JP4991215B2 (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019131821A1 (en) * 2017-12-27 2019-07-04 株式会社吉野工業所 Lipstick container
WO2022138363A1 (en) * 2020-12-22 2022-06-30 株式会社資生堂 Rod-shaped material feeding container

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2002065354A (en) * 2000-08-31 2002-03-05 Kanebo Ltd Casing for keeping cosmetics
JP2006311948A (en) * 2005-05-09 2006-11-16 Suzuno Kasei Kk Stick-form cosmetic material feeding container

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2002065354A (en) * 2000-08-31 2002-03-05 Kanebo Ltd Casing for keeping cosmetics
JP2006311948A (en) * 2005-05-09 2006-11-16 Suzuno Kasei Kk Stick-form cosmetic material feeding container

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019131821A1 (en) * 2017-12-27 2019-07-04 株式会社吉野工業所 Lipstick container
CN111526755A (en) * 2017-12-27 2020-08-11 株式会社吉野工业所 Lipstick container
KR20200101916A (en) * 2017-12-27 2020-08-28 가부시키가이샤 요시노 고교쇼 Lipstick container
JPWO2019131821A1 (en) * 2017-12-27 2020-09-24 株式会社吉野工業所 Lipstick container
EP3733018A4 (en) * 2017-12-27 2021-09-15 Yoshino Kogyosho Co., Ltd. Lipstick container
US11304496B2 (en) 2017-12-27 2022-04-19 Yoshino Kogyosho Co., Ltd. Lipstick container
KR102542457B1 (en) 2017-12-27 2023-06-12 가부시키가이샤 요시노 고교쇼 lipstick container
WO2022138363A1 (en) * 2020-12-22 2022-06-30 株式会社資生堂 Rod-shaped material feeding container

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