JP3616438B2 - Aerosol liquid ejection container - Google Patents

Description

【０００１】
【発明の属する技術分野】
本発明は、エアゾール式の液体噴出容器に関する。
【０００２】
【従来の技術】
ヘッド押下げにより缶内液体が噴出するエアゾール式の液体噴出容器は、広く知られ又使用されているが、該容器は缶胴部上端に巻締め突条を有し、かつ頂壁中央部にステムを貫通させて上方付勢状態に起立させ、該ステム上部にノズル付き押下げヘッドを嵌合させて、該ヘッドを介してステムを押下げると、ステムの下端開口を閉塞する吐出弁が開いて、缶内液体がノズルから噴出するよう設けられている。
【０００３】
【発明が解決しようとする課題】
上記容器は、他物との接触等で不用意にヘッドが押下げられても液体噴出するため、通常上記押下げヘッドを覆って缶上部へキャップを着脱自在に嵌合させていた。
【０００４】
しかし上記キャップの着脱は面倒であるため、キャップを外したままとすることが多かった。
【０００５】
本発明は押下げヘッドを螺昇降可能として、その螺降状態ではそのヘッド押し下げによる液体噴出が不能として、簡単な操作を行うだけで液体噴出防止の安全装置を行えるよう設けたものである。
【０００６】
【課題を解決するための手段】
第１の手段として胴部２上端に巻締め突条４を有し、かつ頂壁３中央部を貫通して上方付勢状態にステム５を起立し、該ステム下端の開口をステム下降により開弁する吐出弁で閉塞するエアゾール缶１と、上記巻締め突条４に下端部を嵌合固着させて起立する外筒部１１の下部内面から突設した変形可能な複数の帯状バネ１３先端を、上記ステム５の上部外面へ嵌合させて筒部上端の内向きフランジ１５をステム５上端面へ係合させた内筒部１４の下部外面へ連結し、該内筒部１４の上端外周から上面開口の雄ねじ１６付き円筒１７を起立する基部材１０と、上記円筒１７外面へ、頂壁２２外周から垂設した雌ねじ筒２１を螺合させて該雌ねじ筒の上部外面に付設した外向きフランジ２３を外筒部１１の上端面へ係合させると共に、頂壁２２中央部から垂下した連通筒部２５を円筒１７内へ水密にかつ摺動可能に嵌合させ、更に上記連通筒部２５と連通させてノズル２７を外方へ突出する押下げヘッド２０とからなり、上記外筒部１１の上端部内面と雌ねじ筒２１の外向きフランジ２３下方外面とに連通筒部２５抜出し防止用係合手段を設けて該係合手段が係合するまで押下げヘッド２０を螺上昇させた状態から、押下げヘッド２０および内筒部１４を介して、ステム５を吐出弁開放位置まで押下げ可能に形成した。
【０００７】
第２の手段として、上記第１の手段を有すると共に複数の帯状バネ１３を渦巻き状に形成した。
【０００８】
第３の手段として、上記第１又は第２の手段を有すると共に連通筒部２５下端を、大径のシール筒２６とした。
【０００９】
【実施の形態】
１は公知のエアゾール缶で、公知であるため簡単に説明すると、胴部２上端に、該胴部の上端部と胴部上面を閉塞する頂壁３外周とを共に巻締めした巻締め突条４を有し、又頂壁３中央部にステム５を貫通させている。該ステムは上方へ付勢させてあり、かつ下端開口を、ステム下降により開弁する吐出弁で閉塞しており、吐出弁開弁により缶内液体がステムを通って噴出するよう設けたものである。
【００１０】
上記缶上部には基部材１０を嵌合させる。該基部材は外筒部と内筒部とを帯状バネで一体に連結して形成したもので、外筒部１１は、上記巻締め突条４に下端を嵌合固着させて起立し、その上端部内面に第１係合突条１２を周設している。その外筒部１１の下部内面から図４が示すように渦巻き状に複数の帯状バネ１３を等間隔に突設し、その先端をステム５の上部外面へ嵌合させた内筒部１４の下部外面へ等間隔に連結している。該内筒部は、肉厚の筒部上端の内向きフランジ１５をステムの上端面へ係合させ、又筒部の上端外周から外面に雄ねじ１６を付設した円筒１７を起立する。上記外筒部１１と内筒部１４とを連結する帯状バネ１３…は、外筒部に対して内筒部１４が上下動可能に、しかし乍ら回動は不能に形成する。従って必しも渦巻き状でなくとも、例えば帯状バネ中間部に正逆いずれかの形状のＵ字状弾性変形部を形成してもよく、又内筒部側が高く、外筒側が低い傾斜板状に形成してもよい。
【００１１】
２０は押下げヘッドで、上記円筒１７外面へ螺合させた雌ねじ筒２１を頂壁２２外周から垂下し、その雌ねじ筒上部外面に外向きフランジ２３を有して、該外向きフランジを既述外筒部１１の上端面へ係合させて雌ねじ筒２１の下限としている。又該外向きフランジ２３下方には既述外筒部上端内面の第１係合突条１２と係合させる第２係合突条２４を周設して、雌ねじ筒螺上昇時、それ等両係合突条が係合して上限を定めるよう設けている。
【００１２】
又頂壁２２の中央部からは連通筒部２５を垂下し、該連通筒部２５下部を円筒１７内へ水密かつ摺動可能に嵌合させている。該連通筒部下端は図示のように下外方へスカート状に拡開して大径のシール筒２６に形成するとよい。連通筒部２５は頂壁２２に設けたノズル２７を連通させる。図示例ではノズル２７を頂壁２２前方へ突出させたが、頂壁２２上方へ起立させることも可能である。
【００１３】
上記構成において、図１が示すように基部材１０に対して押下げヘッド２０を螺降させて外向きフランジ２３を外筒部１１上端面へ係合させた状態では押下げヘッド２０は押下げ不能となり、よってステム５も押下げられることがなく、ステム下端の吐出弁は閉弁状態を保持する。該状態から図２が示すように押下げヘッド２０を第１、第２係合突条１２，２４が係合するまで螺上昇させると、上記外向きフランジ２３と外筒部１１の上端面との間には間隙が形成される。よって該状態から押下げヘッド２０を図３のように押下げすると、内筒部の円筒１７と押下げヘッドの雌ねじ筒２１とは螺合されているため、帯状バネ１３の弾性に抗して内筒部１４が、従ってステム５も押下げられ、このときステム下端の吐出弁が開くことで、缶内液体がステム５を通り、更に円筒１７、連通筒部２５、ノズル２７を通って外方へ噴出される。液体噴出後に押下げヘッド２０を離せば、ステム５および帯状バネ１３により内筒部１４は押上げられて図２の状態に復帰するから、押下げヘッド２０を螺降させることで、図１のように再び液体噴出不能な安全装置を施した状態に戻すことが出来る。
上記基部材１０と押下げヘッド２０とは、それぞれ合成樹脂材で一体成形した。
【００１４】
【発明の効果】
本発明は既述構成とするもので、請求項１の場合は基部材10を、エアゾール缶の巻締め突条４へ下端部を嵌合固着させて起立する外筒部11とステム５に嵌合させた内筒部14とで、これ等両筒部を変形可能な複数の帯状バネ13で連結して形成したから、上記外筒部11に対して内筒部14だけを下降させることが可能となり、よって上記内筒部から起立する雄ねじ付き円筒17に押下げヘッド20から垂下する雌ねじ筒21を深く螺合させて該雌ねじ筒上部の外向きフランジ23を上記外筒部11上端面へ係合させれば押下げヘッドの押下げが不能に、又該押下げヘッドを螺上昇させれば該ヘッドと共に内筒部14を介してステム５を押下げて液体噴出させることが可能となり、このようにして、上記ヘッドの押下げを不能に、つまり安全装置を施すことが容易であると共に、その取外しも極めて容易とすることが出来る。更に上記外筒部11の内面と雌ねじ筒21の外向きフランジ23下方外面とに連通筒部25抜出し防止用係合手段としての第１、第２係合突条12,24 を設けたから、押下げヘッド20が基部材10から螺脱することがない。
【００１５】
請求項２の場合は、上記請求項１の場合の効果を有するほか、複数の帯状バネ１３を渦巻き状に形成したから、押下げヘッド２０押下げ時における外筒部１１に対する内筒部１４の下降と、押下げヘッド２０螺動時において内筒部１４が共に回動しようとする動きの阻止とを、共に無理なく行わせることが出来る。
【００１６】
請求項３の場合は、上記請求項１又は請求項２の効果を有するほか、連通筒部２５下端を大径のシール筒２６としたから、円筒１７に対する連通筒部２５の嵌合および螺昇降を水密に行うことが容易となる。
【図面の簡単な説明】
【図１】安全装置を施した状態で示す、本発明容器の断面図である。
【図２】安全装置を外した状態で示す、断面図である。
【図３】押下げヘッド下降状態で示す、断面図である。
【図４】図１ＩＶ―ＩＶ線を矢示方向にみた横断面図である。
【符号の説明】
１０…基部材 １１…外筒部
１４…内筒部 １７…円筒
２０…押下げヘッド ２１…雌ねじ筒
２５…連通筒部 ２７…ノズル[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an aerosol-type liquid ejection container.
[0002]
[Prior art]
An aerosol-type liquid ejection container in which the liquid in the can is ejected by pushing down the head is widely known and used. However, the container has a winding ridge at the upper end of the can body, and at the center of the top wall. The discharge valve that closes the lower end opening of the stem opens when the stem is penetrated to stand upright, the push-down head with nozzle is fitted to the top of the stem, and the stem is pushed down through the head. The can liquid is ejected from the nozzle.
[0003]
[Problems to be solved by the invention]
Since the container ejects liquid even if the head is inadvertently pressed down due to contact with another object or the like, normally, the cap is detachably fitted to the upper portion of the can so as to cover the pressing head.
[0004]
However, since it is troublesome to attach and detach the cap, the cap is often left unattached.
[0005]
According to the present invention, the push-down head can be screwed up and down, and in the screwed-down state, the liquid cannot be ejected by depressing the head, so that a safety device for preventing liquid jet can be provided by performing a simple operation.
[0006]
[Means for Solving the Problems]
As a first means, there is a winding ridge 4 at the upper end of the body 2, and the stem 5 is erected in an upward biased state through the central portion of the top wall 3, and the opening at the lower end of the stem is opened by lowering the stem. The distal end of a plurality of deformable belt-like springs 13 projecting from the lower inner surface of the outer cylindrical portion 11 standing up by fitting and fixing the lower end portion to the winding ridge 4 and closing the aerosol can 1 closed by a discharge valve The inner flange 15 at the upper end of the cylinder part is connected to the lower outer surface of the inner cylinder part 14 fitted to the upper outer surface of the stem 5 and engaged with the upper end surface of the stem 5, and from the outer periphery of the upper end of the inner cylinder part 14. A base member 10 that erects a cylinder 17 with an external thread 16 having an opening on the upper surface, and an outward flange that is attached to the upper outer surface of the internal thread cylinder by screwing an internal thread cylinder 21 suspended from the outer periphery of the top wall 22 into the external surface of the cylinder 17. 23 is engaged with the upper end surface of the outer cylinder portion 11 and the top wall 22 is engaged. The communicating cylinder part 25 suspended from the central part is fitted into the cylinder 17 in a watertight and slidable manner, and further comprises a push-down head 20 that communicates with the communicating cylinder part 25 and projects the nozzle 27 outward. In addition, the communicating cylinder part 25 is provided with an engaging means for preventing the extraction of the communicating cylinder part 25 on the inner surface of the upper end part of the outer cylinder part 11 and the outer surface of the outward flange 23 of the female screw cylinder 21, and the pressing head 20 is moved until the engaging means is engaged. The stem 5 was formed so as to be able to be pushed down to the discharge valve opening position via the push-down head 20 and the inner cylinder portion 14 from the state where the screw was raised.
[0007]
As a second means, the first means was provided and a plurality of belt-like springs 13 were formed in a spiral shape.
[0008]
As a third means, the first or second means is provided, and the lower end of the communication cylinder portion 25 is a large-diameter seal cylinder 26.
[0009]
Embodiment
1 is a known aerosol can. Since it is publicly known, a winding ridge in which the upper end portion of the body portion and the outer periphery of the top wall 3 closing the upper surface of the body portion are both tightened are wound together. 4 and a stem 5 is passed through the central portion of the top wall 3. The stem is biased upward, and the lower end opening is closed by a discharge valve that opens when the stem descends, and the discharge valve opens so that liquid in the can is ejected through the stem. is there.
[0010]
The base member 10 is fitted to the upper portion of the can. The base member is formed by integrally connecting the outer tube portion and the inner tube portion with a belt-like spring, and the outer tube portion 11 is stood by fitting and fixing the lower end thereof to the winding ridge 4. A first engagement protrusion 12 is provided around the inner surface of the upper end portion. As shown in FIG. 4, a plurality of belt-like springs 13 are projected at equal intervals from the lower inner surface of the outer cylindrical portion 11, and the tips thereof are fitted to the upper outer surface of the stem 5. It is connected to the outer surface at equal intervals. The inner cylinder part has an inward flange 15 at the upper end of the thick cylinder part engaged with the upper end surface of the stem, and a cylinder 17 with an external thread 16 attached to the outer surface from the outer periphery of the upper end of the cylinder part. The belt-like springs 13 that connect the outer cylinder part 11 and the inner cylinder part 14 are formed so that the inner cylinder part 14 can move up and down with respect to the outer cylinder part, but cannot rotate. Therefore, even if it is not necessarily spiral, for example, a U-shaped elastically deforming part of either the forward or reverse shape may be formed in the middle part of the belt-like spring, and the inclined plate shape is high on the inner cylinder side and low on the outer cylinder side. You may form in.
[0011]
Reference numeral 20 denotes a push-down head. A female screw cylinder 21 screwed to the outer surface of the cylinder 17 is suspended from the outer periphery of the top wall 22 and has an outward flange 23 on the outer surface of the upper part of the female screw cylinder. The lower end of the female screw cylinder 21 is set to be engaged with the upper end surface of the outer cylinder portion 11. Further, a second engagement protrusion 24 is provided below the outward flange 23 to be engaged with the first engagement protrusion 12 on the inner surface of the upper end of the outer cylinder portion described above. The engaging ridges are provided so as to engage and define an upper limit.
[0012]
In addition, a communication tube portion 25 is suspended from the central portion of the top wall 22, and a lower portion of the communication tube portion 25 is fitted into the cylinder 17 so as to be watertight and slidable. The lower end of the communication tube portion may be formed into a large-diameter seal tube 26 by expanding downward and outward in a skirt shape as shown in the figure. The communication cylinder part 25 makes the nozzle 27 provided in the top wall 22 communicate. In the illustrated example, the nozzle 27 protrudes forward of the top wall 22, but it is also possible to stand up above the top wall 22.
[0013]
In the above configuration, as shown in FIG. 1, when the pressing head 20 is screwed down with respect to the base member 10 and the outward flange 23 is engaged with the upper end surface of the outer cylinder portion 11, the pressing head 20 is pressed down. Therefore, the stem 5 is not pushed down, and the discharge valve at the lower end of the stem is kept closed. When the push-down head 20 is screwed up from the state until the first and second engaging protrusions 12 and 24 are engaged, as shown in FIG. 2, the outward flange 23 and the upper end surface of the outer cylinder portion 11 A gap is formed between the two. Therefore, when the push-down head 20 is pushed down from this state as shown in FIG. 3, the cylinder 17 of the inner cylinder portion and the female screw cylinder 21 of the push-down head are screwed together. The inner cylinder portion 14, and therefore the stem 5 is also pushed down. At this time, the discharge valve at the lower end of the stem is opened, so that the liquid in the can passes through the stem 5 and further passes through the cylinder 17, the communication cylinder portion 25, and the nozzle 27. Erupted towards. If the push-down head 20 is released after the liquid is ejected, the inner cylinder portion 14 is pushed up by the stem 5 and the belt-like spring 13 to return to the state shown in FIG. 2, so that the push-down head 20 is screwed down, so that FIG. Thus, it can return to the state which gave the safety device which cannot eject liquid again.
The base member 10 and the push-down head 20 were integrally formed with a synthetic resin material, respectively.
[0014]
【The invention's effect】
The present invention has the above-described configuration. In the case of claim 1, the base member 10 is fitted to the outer cylinder portion 11 and the stem 5 which stand up by fitting and fixing the lower end portion to the winding projection 4 of the aerosol can. Since these two cylindrical portions are connected by a plurality of deformable strip springs 13 with the combined inner cylindrical portion 14, only the inner cylindrical portion 14 can be lowered with respect to the outer cylindrical portion 11. Therefore, the internal thread cylinder 21 suspended from the push-down head 20 is deeply screwed into the external thread cylinder 17 rising from the internal cylinder section, and the outward flange 23 on the upper section of the internal thread cylinder is connected to the upper end surface of the external cylinder section 11. When engaged, it becomes impossible to push down the push-down head, and if the push-down head is screwed up, the stem 5 can be pushed down together with the head via the inner cylinder portion 14 to eject liquid, In this way, it is easy to press down the head, that is, to apply a safety device. In, it is possible that the removal is also very easy. Further, the first and second engaging protrusions 12 and 24 are provided on the inner surface of the outer tube portion 11 and the outer surface below the outward flange 23 of the female screw tube 21 as an engagement means for preventing the communication tube portion 25 from being pulled out. The lowering head 20 is not screwed off from the base member 10.
[0015]
In the case of claim 2, in addition to the effect of the above-mentioned claim 1, since the plurality of belt-like springs 13 are formed in a spiral shape, the inner cylinder part 14 is not in contact with the outer cylinder part 11 when the pressing head 20 is pressed down. Both the lowering and the prevention of the movement of the inner cylinder portion 14 that both rotate when the pressing head 20 is screwed can be performed without difficulty.
[0016]
In the case of claim 3, in addition to the effects of claim 1 or 2, the lower end of the communication cylinder part 25 is a large-diameter seal cylinder 26, so that the communication cylinder part 25 is fitted to the cylinder 17 and screwed up and down. It becomes easy to perform watertight.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a container of the present invention, shown with a safety device.
FIG. 2 is a cross-sectional view showing a state in which a safety device is removed.
FIG. 3 is a cross-sectional view showing the pushed-down head in a lowered state.
4 is a cross-sectional view taken along line IV-IV in FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Base member 11 ... Outer cylinder part 14 ... Inner cylinder part 17 ... Cylinder 20 ... Push-down head 21 ... Female thread cylinder 25 ... Communication cylinder part 27 ... Nozzle

Claims (3)

胴部２上端に巻締め突条４を有し、かつ頂壁３中央部を貫通して上方付勢状態にステム５を起立し、該ステム下端の開口をステム下降により開弁する吐出弁で閉塞するエアゾール缶１と、上記巻締め突条４に下端部を嵌合固着させて起立する外筒部１１の下部内面から突設した変形可能な複数の帯状バネ１３先端を、上記ステム５の上部外面へ嵌合させて筒部上端の内向きフランジ１５をステム５上端面へ係合させた内筒部１４の下部外面へ連結し、該内筒部１４の上端外周から上面開口の雄ねじ１６付き円筒１７を起立する基部材１０と、上記円筒１７外面へ、頂壁２２外周から垂設した雌ねじ筒２１を螺合させて該雌ねじ筒の上部外面に付設した外向きフランジ２３を外筒部１１の上端面へ係合させると共に、頂壁２２中央部から垂下した連通筒部２５を円筒１７内へ水密にかつ摺動可能に嵌合させ、更に上記連通筒部２５と連通させてノズル２７を外方へ突出する押下げヘッド２０とからなり、上記外筒部１１の上端部内面と雌ねじ筒２１の外向きフランジ２３下方外面とに連通筒部２５抜出し防止用係合手段を設けて該係合手段が係合するまで押下げヘッド２０を螺上昇させた状態から、押下げヘッド２０および内筒部１４を介して、ステム５を吐出弁開放位置まで押下げ可能に形成したことを特徴とする、エアゾール式液体噴出容器。A discharge valve that has a winding ridge 4 at the upper end of the body portion 2, passes through the central portion of the top wall 3, stands up in an upward biased state, and opens the lower end of the stem by lowering the stem. The distal end of a plurality of deformable belt-like springs 13 projecting from the lower inner surface of the outer cylindrical portion 11 standing up by fitting and fixing the lower end portion of the aerosol can 1 to be closed and the winding ridge 4 is fixed to the stem 5. The inner flange 15 at the upper end of the cylindrical portion is connected to the lower outer surface of the inner cylindrical portion 14 that is fitted to the upper outer surface and engaged with the upper end surface of the stem 5. An outer flange 23 provided on the upper outer surface of the female screw cylinder by screwing a female screw cylinder 21 suspended from the outer periphery of the top wall 22 into the outer surface of the cylinder 17 and the base member 10 that erects the attached cylinder 17. 11 and is suspended from the center of the top wall 22 The outer cylinder part includes a push-down head 20 that fits the communication cylinder part 25 into the cylinder 17 in a watertight and slidable manner, and further communicates with the communication cylinder part 25 to project the nozzle 27 outward. 11 is provided with engaging means for preventing the extraction of the communicating cylinder part 25 on the inner surface of the upper end part 11 and the outer surface of the outward flange 23 of the female screw cylinder 21, and the push-down head 20 is screwed up until the engaging means is engaged. From the above, an aerosol-type liquid ejection container characterized in that the stem 5 can be pushed down to the discharge valve open position via the push-down head 20 and the inner cylinder portion 14. 複数の帯状バネ１３を渦巻き状に形成したことを特徴とする請求項１記載のエアゾール式液体噴出容器。The aerosol-type liquid ejection container according to claim 1, wherein the plurality of belt-like springs 13 are formed in a spiral shape. 連通筒部２５下端を、大径のシール筒２６としたことを特徴とする、請求項１又は請求項２記載のエアゾール式液体噴出容器。The aerosol-type liquid ejection container according to claim 1 or 2, wherein the lower end of the communication cylinder part (25) is a large-diameter seal cylinder (26).

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