JPH0334289Y2 - - Google Patents

Description

【考案の詳細な説明】 （産業上の利用分野） 本考案は、主として、人体の頭髪や肌に使用す
るシヤンプー、その他の液状せつけん類を気泡化
して使用するための噴出容器の改良に関する。[Detailed Description of the Invention] (Industrial Application Field) The present invention mainly relates to an improvement in a squirt container for use in foaming shampoos and other liquid soaps used for human hair and skin.

（従来の技術） 可撓性合成樹脂材で作られた容器本体にせつけ
ん類などの液剤が収容され、該本体を手で把持し
て加圧することにより該本体の頭部に設けられた
噴出口から前記液剤を泡状化して噴出するように
構成された容器が知られている。このような従来
容器において、液剤が泡状化されるのは、容器内
に配置した多孔質部材を液剤が空気と伴に通過す
るようになされていることによつて生じるもので
あるが、この種公知の容器の構成によれば、噴出
する気泡状剤の状態に斑があり、これを均一化さ
せることが非常に困難であつた。(Prior art) A liquid such as soap is contained in a container body made of a flexible synthetic resin material, and by gripping the body with your hand and applying pressure, a spout is formed at the head of the body. A container is known that is configured to foam the liquid agent and eject it from the liquid agent. In such conventional containers, the liquid agent becomes foamy because the liquid agent passes along with air through a porous member placed inside the container. According to the known structure of the container, the ejected foamed agent is uneven, and it is very difficult to make it uniform.

（考案が解決しようとする問題点） かかる従来品における気泡状剤の不均一の原因
は、本考案者らの種々の実験によれば、液剤と空
気とが良く混合されないこと及び混合気の導入が
不安定であることに負うところが大きいと推察さ
れる。(Problems to be Solved by the Invention) According to various experiments conducted by the present inventors, the cause of the non-uniformity of the foamed agent in such conventional products is that the liquid agent and air are not mixed well and that the introduction of a mixture It is inferred that this is largely due to the instability of

そして、本考案の出願人は、先り液剤と空気と
の混合の状態を良くするための装置構成として、
泡起構造部としての多孔質部材に導く液剤と空気
とを、該部材への導入直前で各導管の交差状配置
によつて、撹拌する装置構成を提案したが、本考
案では、前記混合気の導入を安定化することを目
的とした装置構成を提案する。 The applicant of the present invention has developed an apparatus configuration for improving the mixing state of the liquid agent and air.
We have proposed an apparatus configuration in which the liquid agent and air introduced into the porous member serving as the foaming structure are stirred by the intersecting arrangement of the conduits immediately before introduction into the member. We propose a device configuration aimed at stabilizing the introduction of

（問題を解決するための手段） そこで本考案では、その目的を達成するため
に、可撓性容器本体の上面開口部に嵌着するノズ
ルキヤツプの中央に、多孔質材を配置した泡起ノ
ズル部を設けると共に、該ノズル部の周辺域に前
記本体内への空気導入を計る逆止空気弁体の吸気
口を配設する一方、該ノズルキヤツプ装着の前記
本体に対して上下にスライド可能に取付けた外装
部材の内側に、前記泡起ノズル部と摺嵌して該外
装部材の気泡状剤の噴出口との間の連通路を構成
する内円筒体を設けて、該泡起ノズル部からの気
泡状剤噴出路と前記逆止空気弁体の吸気口との間
を前記外装部材内において隔離してなるものであ
る。 (Means for solving the problem) Therefore, in order to achieve the purpose, the present invention uses a foaming nozzle in which a porous material is placed in the center of a nozzle cap that fits into the upper opening of the flexible container body. In addition to providing an intake port of a check air valve element for introducing air into the main body in the peripheral area of the nozzle part, the nozzle cap is slidable up and down with respect to the main body to which the nozzle cap is attached. An inner cylindrical body is provided inside the attached exterior member to form a communication path between the foaming nozzle portion and the foaming agent spouting port of the exterior member, and the foaming nozzle portion is slidably fitted to the foaming nozzle portion. The foam agent ejection path and the intake port of the check air valve body are separated from each other within the exterior member.

（作用） 本考案容器によれば、容器本体中に上部に幾分
かの空間を残して収容された液剤が、容器本体を
強く把ぎり締めることによつて、上部空間の空気
と伴に多孔質部材の設置部分に至る。次いで、該
部分で空気との混合下に通過する液剤が発泡し
て、泡起ノズルから内円筒体を通り噴出口から気
泡状剤として噴出する。このとき、前記ノズルの
周辺域に設けた逆止空気弁体はその逆止作用によ
つて閉弁状態にあるので、先の泡起作用が有効に
行われる。(Function) According to the container of the present invention, the liquid agent stored in the container body with some space left at the top is tightly gripped and tightened, and the porous material is removed together with the air in the upper space. This leads to the installation part of the quality parts. Next, the liquid agent passing through the portion is foamed while being mixed with air, and is ejected from the foaming nozzle through the inner cylindrical body as a foamy agent from the spout. At this time, the non-return air valve provided in the peripheral area of the nozzle is in a closed state due to its non-return action, so that the bubbling action described above is effectively performed.

容器本体に対する圧迫を解くと、可撓性容器素
材の復元力によつて、容器本体が張むに連れて開
弁した逆止空気弁体からは外装部材の摺嵌取付け
部分の隙間から該部材内に流入する空気が容器本
体に満される。 When the pressure on the container body is released, due to the restoring force of the flexible container material, the check air valve body, which opens as the container body expands, releases the member from the gap in the sliding fitting part of the exterior member. The air flowing in fills the container body.

即ち、泡起ノズル部からの気泡状剤の通路と逆
止空気弁の吸気口とを外装部材内で隔離した構成
を採用することによつて、容器本体内に満される
空気は常に安定的に導入される。その結果、先の
泡起作用時に、液剤と空気との一定状態の混合が
行われて、均一した気泡化剤が生じる。 In other words, by adopting a configuration in which the passage of the foaming agent from the foaming nozzle portion and the intake port of the check air valve are isolated within the exterior member, the air filled in the container body is always stable. will be introduced in As a result, during the previous foaming operation, constant mixing of the liquid agent and air occurs, resulting in a uniform foaming agent.

（実施例） この本考案容器の好ましい実施態様を図示して
説明する。(Example) A preferred embodiment of the container of the present invention will be illustrated and described.

図において、容器本体１は、頚部２で形成され
る上面開口を有する瓶形状の可撓性合成樹脂材か
らなる成形品で、これを把持した手で把ぎり締め
て内部容積を小さくすることにより、内部に収容
したせつけん類の液剤Ｌを前記開口方向へ押し出
すことができ、又、該本体１に対する把持加圧を
解くと、素材弾性でもつて原形状に復元する機能
を有している。この本体１の頚部２の外周には、
周回する係合段部５が設けてある。 In the figure, a container body 1 is a bottle-shaped molded product made of a flexible synthetic resin material with an upper opening formed by a neck 2, which can be gripped with a hand and tightened to reduce the internal volume. The soap type liquid L stored inside can be pushed out in the direction of the opening, and when the gripping pressure on the main body 1 is released, the elasticity of the material allows it to return to its original shape. On the outer periphery of the neck 2 of the main body 1,
A rotating engagement step 5 is provided.

一方、３は合成樹脂材からなるノズルキヤツプ
で、その周縁の下円筒部４の内側には、前記係合
段部５と密に係合する爪片６を周回状に設けて、
前記頚部２に上方からの圧入によつて密封状に取
付けてある。このノズルキヤツプ３の中央には筒
状のノズル部７を設けてあり、その上端をノズル
口８となし、筒内中間部にドーム状の多孔質部材
９を収設し、さらに下部にはハツト状の連結部材
１０が嵌挿されている。そして、前記多孔質部材
９は、ポリプロピレン粒子の焼結成形物などから
なり、25乃至70μ、好ましくは40乃至60μの孔径
を有す。又、連結部材１０は合成樹脂成形品から
なり、その上壁隅角部には透孔１１を穿ち、か
つ、外周壁には条溝１２を設けて、溝下端が容器
本体１の空間域に達し上端が前記透孔１１の開口
部と交差して臨むように構成してあり、該部材１
０の内筒下端には本体１の底部にまで達する導管
１３を嵌着してある。 On the other hand, reference numeral 3 designates a nozzle cap made of a synthetic resin material, and on the inside of the lower cylindrical portion 4 at the periphery thereof, a claw piece 6 that tightly engages with the engagement step portion 5 is provided in a circumferential manner.
It is attached to the neck portion 2 in a sealed manner by being press-fitted from above. A cylindrical nozzle part 7 is provided in the center of the nozzle cap 3, with the upper end serving as a nozzle opening 8, a dome-shaped porous member 9 housed in the middle part of the cylinder, and a hat in the lower part. A connecting member 10 having a shape is inserted. The porous member 9 is made of a sintered product of polypropylene particles, and has a pore diameter of 25 to 70μ, preferably 40 to 60μ. The connecting member 10 is made of a synthetic resin molded product, and has a through hole 11 in the corner of the upper wall, and a groove 12 in the outer peripheral wall, so that the lower end of the groove is in the space of the container body 1. The upper end of the member 1 is configured so as to intersect with and face the opening of the through hole 11.
A conduit 13 that reaches the bottom of the main body 1 is fitted into the lower end of the inner cylinder of the main body 1.

更に、ノズルキヤツプ３には前記ノズル部７の
周辺域にキヤツプ壁を上下に通す通気孔を有す弁
室１４を設けてあり、該弁室１４中に球状の逆止
弁部材１５を入れてある。この逆止弁部材１５
は、弁室１４の上内面に圧接したとき、本体１の
内部と外部との連通が遮断され、上内面から離れ
たときに本体１の内部と外部との連通下に空気の
流通を許すように働く。 Further, the nozzle cap 3 is provided with a valve chamber 14 having a ventilation hole that passes vertically through the cap wall in the area surrounding the nozzle portion 7, and a spherical check valve member 15 is inserted into the valve chamber 14. be. This check valve member 15
When pressed against the upper inner surface of the valve chamber 14, communication between the inside and the outside of the main body 1 is cut off, and when separated from the upper inner surface, air is allowed to flow between the inside and the outside of the main body 1. to work.

そして、１６は合成樹脂材からなる外装部材
で、第３図の外観図に示す如く、全体がドーム状
の殻体で構成され、その一部に噴出口１７を嘴状
に構成してあり、下部を前記ノズルキヤツプ３に
嵌合せしめてある。この嵌合装着は、第２図及び
第３図に示す如く、外装部材１６の円形状の下端
をノズルキヤツプ３の外周に上下摺動可能に、か
つ、該部材１６の内縁と該キヤツプ３の肩部とに
設けられた鍔部１８，１９が互に当接することに
より抜脱阻止下に装着してある。 16 is an exterior member made of a synthetic resin material, and as shown in the external view of FIG. 3, the entire body is a dome-shaped shell, and a part thereof has a beak-shaped spout 17. The lower part is fitted into the nozzle cap 3. As shown in FIGS. 2 and 3, this fitting attachment is performed by making the lower end of the circular shape of the exterior member 16 vertically slidable on the outer periphery of the nozzle cap 3, and between the inner edge of the member 16 and the cap 3. The collar portions 18 and 19 provided on the shoulder portions are in contact with each other to prevent the device from coming off.

この外装部材１６のドーム状の殻体内に内筒部
材２０を設け、これを前記ノズル部７の外周に被
せて、このノズル部７のノズル口８から噴き出す
気泡状剤を前記噴出口１７に導く噴出路を構成し
てある。更に、この外装部材１６の内側には、前
記内筒部材２０の中心位置に栓体２２を垂下せし
めて、前記ノズル口８に臨ませてあり、また、前
記弁室１４の上部吸気孔に対する位置には今一つ
の栓体２３を垂下せしめてある。その他、２１は
容器本体１の外壁に設けた指掛り突起である。 An inner cylindrical member 20 is provided within the dome-shaped shell of the exterior member 16 and is placed over the outer periphery of the nozzle portion 7 to guide the foamy agent spouted from the nozzle port 8 of the nozzle portion 7 to the spout port 17. A spout path is formed. Furthermore, inside this exterior member 16, a stopper 22 is suspended at the center of the inner cylinder member 20 and faces the nozzle port 8, and the valve chamber 14 is located at a position relative to the upper intake hole. There is another stopper 23 hanging down. Additionally, reference numeral 21 designates a finger hook protrusion provided on the outer wall of the container body 1.

このような構成下において、外装部材１６を下
方に押し下げた施栓状態では、第２図示の如く、
栓体２２がノズル口８に嵌合し、今一つの栓体２
３が弁室１４の吸気口に嵌合して、これ等を夫夫
に塞いで、もし容器本体１が転倒したような場合
でも、これ等の部分からの液剤の流出を防ぐ一
方、内筒部材２０がノズル部７に更に深く嵌合し
た状態にある。 Under such a configuration, in the plugged state where the exterior member 16 is pushed down, as shown in the second figure,
The plug body 22 fits into the nozzle port 8, and the other plug body 2
3 fits into the intake port of the valve chamber 14 and closes these so that even if the container body 1 falls, it prevents the liquid from flowing out from these parts. The member 20 is in a state where it is more deeply fitted into the nozzle part 7.

この施栓状態から、外装部材１６を上方に引き
上げた第１図示の使用状態で、先の両栓体２２及
び２３が前記施栓位置から夫々退いて、前記ノズ
ル口８及び吸気口を夫々開口すると共に、内筒部
材２０は上方に移動しながらも、ノズル部７との
嵌合を保つた状態にある。 From this plugged state, in the usage state shown in the first drawing in which the exterior member 16 is pulled upward, both the previous plug bodies 22 and 23 retreat from the plugged position to open the nozzle port 8 and the intake port, respectively. Although the inner cylinder member 20 moves upward, it remains fitted with the nozzle portion 7.

そこで、容器本体１を把持して、第１図上矢標
方向に圧迫すると、弁室１４の逆止弁部材１５が
空気圧によつて押し上げられて吸気孔を閉じた逆
止作用下に、収容液剤Ｌが導管１３を伝つて上方
の連結部材１０に向けて押し上げられると共に、
容器本体１の上方空間の空気も、狭い条溝１２に
より容器内の圧力を保つ程度の制限を受けながら
連結部材１０の上方に導かれる。この連結部材１
０の上方では、液剤Ｌの通る透孔１１と条溝１２
とが交差状に設けてあるので、これ等を夫々通つ
た液剤Ｌ及び空気が、この部分で混合撹拌され
て、多孔質部材９のドーム状内に入り、引き続く
容器内加圧によつて、この撹拌液が該部材９を通
過する。このとき、この液剤Ｌは泡状化されてノ
ズル口８から噴出する。 Therefore, when the container main body 1 is grasped and compressed in the direction of the arrow in FIG. The liquid agent L is pushed up toward the upper connecting member 10 through the conduit 13, and
Air in the space above the container body 1 is also guided above the connecting member 10 while being limited by the narrow grooves 12 to maintain the pressure inside the container. This connecting member 1
0, there are through holes 11 and grooves 12 through which the liquid agent L passes.
are arranged in an intersecting manner, so the liquid agent L and air that pass through these are mixed and stirred in these parts and enter the dome shape of the porous member 9, and by the subsequent pressurization inside the container, This stirred liquid passes through the member 9. At this time, the liquid L is foamed and ejected from the nozzle port 8.

ノズル口８から出た気泡状剤は、ノズル部７に
嵌合した内筒部材２０内を通つて噴出口１７に導
かれて、これより噴出して使用に供される。そし
て、この気泡状剤は前記内筒部材２０とノズル部
７との嵌合による連通路の構成がなされているの
で、外装部材１６内の他の部分特に弁室１４の吸
気口位置などへの流出がない。 The foamy agent discharged from the nozzle port 8 passes through the inner cylindrical member 20 fitted into the nozzle portion 7, is guided to the spout 17, and is spouted from there for use. Since a communication path is formed by the fitting between the inner cylinder member 20 and the nozzle portion 7, this foam agent can be transferred to other parts of the exterior member 16, particularly to the intake port position of the valve chamber 14. There is no leakage.

一回の気泡状剤の取り出しを終えて、容器本体
１への圧迫を解くと、該容器本体１の復元作用に
よる容器内減圧で、弁室１４の逆止弁部材１５が
降下してその吸気口から外装部材１６とノズルキ
ヤツプ３との摺嵌隙間を通つて該部材１６内に流
入する空気を容器本体１内に注入する。このと
き、噴出口１７と多孔質部材９との間の連通路に
は気泡状剤が残つているので、これが抵抗となつ
て、この連通路からの空気の逆流は積極的に行わ
れず、前記弁室１４を通つての容器内空気流入が
なされる。 When the pressure on the container body 1 is released after one time of taking out the foam agent, the pressure inside the container is reduced due to the restoring action of the container body 1, and the check valve member 15 of the valve chamber 14 descends to take in the air. Air flowing into the member 16 from the opening through the sliding gap between the exterior member 16 and the nozzle cap 3 is injected into the container body 1. At this time, since the foam agent remains in the communication path between the jet nozzle 17 and the porous member 9, this acts as a resistance, and the backflow of air from this communication path is not actively carried out. Air enters the container through the valve chamber 14.

これによつて、容器本体１の復元と内部空気の
充填が気泡状剤が充満しない外装部材１６内の吸
気口から円滑に行われると共に、容器本体１の上
部には泡立ちの少ない空気室が得られる。 As a result, the restoration of the container body 1 and the filling of internal air can be smoothly performed from the air intake port in the exterior member 16 that is not filled with foamy agent, and an air chamber with less foaming can be created in the upper part of the container body 1. It will be done.

このことは、次回の泡起使用時に、条溝１２か
ら導く空気の状態及び量を安定に保つことができ
て、前述の動作時と同様に泡起状態の良い気泡化
剤を得ることができる。 This means that the state and amount of air introduced from the grooves 12 can be kept stable the next time the foaming is used, and the foaming agent can be obtained in a good foaming state as in the above-mentioned operation. .

（考案の効果） このように、本考案容器によれば、多孔質部材
を配置した泡起ノズル部とその周辺域に容器内へ
の空気流入を計る逆止空気弁体の吸気孔を設け、
気泡状剤の取出し口と前記泡起ノズル部との間の
連通路を構成する内円筒体を設けることによつ
て、前記ノズル部と吸気孔とを外装部材内におい
て隔離することができ、これによつて、吸気口か
らは気泡状剤によつて吸気状態を何等阻害される
ことなく、しかも、容器内には泡立ちのない空気
層を常に得ることができるので、再使用に際し
て、泡起のためのノズル部への空気の状態及び量
を安定に保つことができて、その結果、気泡状剤
を常に斑のない良質な状態で得ることができる
等、その効果は実用に供して極めて有効である。(Effects of the invention) As described above, according to the container of the present invention, the suction hole of the check air valve body for controlling the inflow of air into the container is provided in the foaming nozzle part where the porous member is arranged and the surrounding area thereof,
By providing an inner cylindrical body that constitutes a communication path between the foaming agent outlet and the foaming nozzle portion, the nozzle portion and the intake hole can be isolated within the exterior member. As a result, the suction condition is not obstructed by the foaming agent from the intake port, and an air layer without foaming can always be obtained in the container, so when reusing it, there is no foaming. It is possible to keep the condition and amount of air to the nozzle part stable, and as a result, it is possible to always obtain a foamy agent in a good quality state without any spots.The effect is extremely effective in practical use. It is.

【図面の簡単な説明】[Brief explanation of the drawing]

第１図は本考案容器の一実施例を縦断して示す
使用状態図、第２図は同じく施栓状態図、第３図
はその外観図である。 １……容器本体、２……頚部、３……ノズルキ
ヤツプ、４……下円筒部、５……係合段部、６…
…爪部、７……ノズル部、８……ノズル口、９…
…多孔質部材、１０……連結部材、１１……透
孔、１２……条溝、１３……導管、１４……弁
室、１５……逆止弁部材、１６……外装部材、１
７……噴出口、１８，１９……鍔部、２０……内
筒部材、２２，２３……栓体。 FIG. 1 is a longitudinal sectional view of one embodiment of the container of the present invention in use, FIG. 2 is a view of the same in a plugged state, and FIG. 3 is an external view thereof. DESCRIPTION OF SYMBOLS 1... Container body, 2... Neck, 3... Nozzle cap, 4... Lower cylindrical part, 5... Engagement step part, 6...
...Claw part, 7... Nozzle part, 8... Nozzle opening, 9...
... Porous member, 10 ... Connection member, 11 ... Through hole, 12 ... Groove, 13 ... Conduit, 14 ... Valve chamber, 15 ... Check valve member, 16 ... Exterior member, 1
7... Spout, 18, 19... Flange, 20... Inner cylinder member, 22, 23... Plug body.

Claims (1)

【実用新案登録請求の範囲】 可撓性容器本体と、多孔質材を配置した泡起ノ
ズル部と、前記本体への空気導入を図る逆止空気
弁体とを含む液剤の泡起噴出容器であつて、 前記可撓性容器本体の上面開口部に嵌着するノ
ズルキヤツプの中央に、前記泡起ノズル部を設け
ると共に、該ノズル部の周辺域に前記逆止空気弁
体の吸気口を配設する一方、 前記ノズルキヤツプ装着の前記本体に対して上
下スライド可能に取付けた外装部材の内側に、前
記泡起ノズル部と摺嵌して該外装部材の気泡状剤
の噴出口との間を連通する噴出路を構成する内円
筒体を設けて、前記泡起ノズル部から前記噴出口
に至る気泡状剤噴出路と前記逆止空気弁体の吸気
口との間を前記外装部材内において隔離すると共
に、 前記外装部材の内側に、前記泡起ノズル部のノ
ズル口と逆止空気弁体の吸気口とに夫々臨み、該
部材の容器本体に対する上方への前記スライド移
動時に、これ等の作用域から退避する各栓体を垂
下状に設けてあり、 前記泡起ノズル部には、下端を容器本体の底部
に達する程度に伸ばした液剤導管と、該容器本体
の上部空間に下端を開口した空気導溝との各上端
口を交差させて臨ませてある、 ことを特徴とする前記液剤の泡起噴出容器。[Claims for Utility Model Registration] A foaming and jetting container for a liquid agent, which includes a flexible container body, a foaming nozzle portion in which a porous material is arranged, and a check air valve body for introducing air into the body. The foaming nozzle portion is provided in the center of a nozzle cap that fits into the upper opening of the flexible container body, and the inlet port of the check air valve body is arranged in a peripheral area of the nozzle portion. The foaming nozzle part and the foaming nozzle portion are slidably fitted inside an exterior member attached to the main body to which the nozzle cap is attached so as to be slidable up and down, and a gap is formed between the foam nozzle and the foam agent spouting port of the exterior member. An inner cylindrical body constituting a communicating jetting passage is provided to isolate the foaming agent jetting passage from the foaming nozzle portion to the spouting port and the intake port of the check air valve body within the exterior member. At the same time, the inner side of the exterior member faces the nozzle port of the foaming nozzle portion and the intake port of the check air valve body, respectively, so that when the member slides upward with respect to the container body, these actions occur. Each stopper for retreating from the container body is provided in a hanging shape, and the foaming nozzle part has a liquid agent conduit whose lower end extends to the extent that it reaches the bottom of the container body, and a liquid agent conduit whose lower end is opened into the upper space of the container body. The above-mentioned foaming and spouting container for a liquid agent, characterized in that each upper end opening faces the air guide groove so as to intersect with the air guide groove.