JP2691833B2 - Aerosol ejection valve assembly / coupling device equipped with fluid component supply device and aerosol ejection valve assembly / coupling method using the device - Google Patents
Aerosol ejection valve assembly / coupling device equipped with fluid component supply device and aerosol ejection valve assembly / coupling method using the deviceInfo
- Publication number
- JP2691833B2 JP2691833B2 JP4272210A JP27221092A JP2691833B2 JP 2691833 B2 JP2691833 B2 JP 2691833B2 JP 4272210 A JP4272210 A JP 4272210A JP 27221092 A JP27221092 A JP 27221092A JP 2691833 B2 JP2691833 B2 JP 2691833B2
- Authority
- JP
- Japan
- Prior art keywords
- component
- valve
- pressurized air
- valve stem
- valve housing
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Landscapes
- Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は、流体による部品供給装
置を備えたエアゾール噴出弁組立結合装置とその装置に
よるエアゾール噴出弁組立結合方法に関し、特に、本発
明は、空気力などの流体の力による部品供給装置を備え
たエアゾール噴出弁組立結合装置とその装置によるエア
ゾール噴出弁組立結合方法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an aerosol injection valve assembly / coupling device provided with a fluid component supply device and an aerosol injection valve assembly / coupling method using the device, and more particularly, the present invention relates to a force of a fluid such as an aerodynamic force. And a method for assembling and assembling an aerosol injection valve using the device.
【0002】[0002]
【従来の技術】従来のエアゾール噴出弁組立機では、そ
のエアゾール噴出弁のそれぞれの部品が互いに組立結合
するために、エアゾール噴出弁組立機に部品を機械的挿
入法による場合ばかりでなく、種々の組立結合が研究さ
れてきた。特に、エアゾール噴出弁の組立に当たり、バ
ルブステムとバルブハウジングとはエアゾール噴出弁の
基本部品であり、バルブステムがバルブハウジングに組
み込まれ、そのバルブステムとバルブハウジングとの組
立構造体をマウンテンキャップの中央の窪んだ部分に嵌
め込むことが行われてきた。しかし、それらの部品を手
により組立てて組立構造体を作ることが行われてきた。
ところが、手作業では均一な組立構造体を作ることが出
来ない欠点があった。そこで、自動組立作業により組立
作業を空気力を生かして能率的に組立作業を行うことが
求められた。2. Description of the Related Art In a conventional aerosol injection valve assembling machine, since the respective parts of the aerosol injection valve are assembled and connected to each other, not only when the parts are mechanically inserted into the aerosol injection valve assembling machine, Assembly bonding has been studied. In particular, when assembling the aerosol injection valve, the valve stem and the valve housing are the basic parts of the aerosol injection valve, the valve stem is incorporated in the valve housing, and the assembly structure of the valve stem and the valve housing is installed in the center of the mountain cap. It has been done to fit in the recessed part of the. However, it has been practiced to assemble these parts by hand to create an assembly structure.
However, there is a drawback that a uniform assembly structure cannot be manufactured by hand. Therefore, it is assembled by automatic assembly work.
It was required that the work be carried out efficiently by utilizing the aerodynamic force .
【0003】[0003]
【発明が解決しようとする課題】そこで、手の指による
組立作業でなく、その組立作業を空気力を生かしたり、
または、機械的組立により組立てることにより能率的に
組立作業を行うことを本発明の第1の課題とする。ま
た、本発明は、部品供給口と部品送出口を設けた部品給
送装置本体の内部に部品給送装置を組み込み得るように
し、その部品給送装置の部品挿入部分を介して部品送出
口に送出し得るようにしてなる流体による部品給送装置
を備えたものであって、空気力などの流体の力による部
品供給装置を備えたエアゾール噴出弁組立結合装置であ
ることを本発明の第2の課題とする。また、機械的挿入
法に係る複雑な機構は、故障を生じる原因にもなり得
る。それ故にきわめて高い生産性を求めねばならないエ
アゾール噴出弁組立作業に際して、故障を生じないこと
が重要なことであるが改良できないところまできた機械
的挿入法に係る複雑な機構では、故障を生じさせない技
術は事実上その余地がなく、そこで、本発明は上記のこ
とを改善することを本発明の第3の課題とする。The present invention To solve the above problems, by the fingers of the hand
Rather than assembly work, Ri the assembly work was taking advantage of the air force,
Alternatively, it is a first object of the present invention to efficiently perform an assembling work by assembling by mechanical assembling. Further, the present invention enables a component feeding device to be incorporated inside a component feeding device main body provided with a component feeding port and a component feeding port, and the component feeding port can be connected to the component feeding port via the component insertion part of the component feeding device. A second aspect of the present invention is an aerosol injection valve assembling / coupling device that includes a component feeding device that uses a fluid that can be delivered and that includes a component feeding device that uses a fluid force such as an aerodynamic force. And the subject. In addition, the complicated mechanism related to the mechanical insertion method may cause a failure. Therefore, it is important not to cause a failure in the assembly work of the aerosol injection valve, which requires extremely high productivity, but it has been impossible to improve it. A technique that does not cause a failure in a complicated mechanism related to the mechanical insertion method. There is practically no room for it, and therefore, the present invention provides a third object of the present invention to improve the above.
【0004】[0004]
【課題を解決するための手段】本発明は、ローター駆動
用歯車17とローターの突出円筒状部分13と回転式部
品給送装置本体の回転部分とを一体的に結合し、部品給
送装置本体2とローターの突出円筒状部分13とは力の
伝達がなく、ローターの突出円筒状部分13と回転式部
品給送装置本体の回転部分のみを回転し得るようにし、
ローターの突出円筒状部分13の先端部分にローターの
回転維持部材21を介在させて部品給送装置本体2の部
分を回転させないようにし、前記ローターの突出円筒状
部分13の内部には加圧空気導入筒26をOリング20
を介して装着し、その加圧空気導入筒26の後端部分1
4に可撓性加圧空気導入部材15の先端部分を接続し、
ローター駆動用歯車17の回転力はローターの突出円筒
状部分13を回転させることができ、また、その回転力
はローターの回転維持部材21を介在して部品給送装置
本体2には力の伝達がなされないようにし、二つの可撓
性部品供給用案内部材11を部品給送装置本体2に取り
付け、二つの可撓性部品供給用案内部材11には部品の
バルブステム7とバルブハウジング8をそれぞれ個別的
に供給し、加圧空気導入通路23に放出されるように
し、その加圧空気導入通路23は部品給送装置本体の部
品供給口5から部品給送装置本体の部品送出口6にまた
がらせ、可撓性部品送出用案内部材10を部品給送装置
本体2に設けた加圧空気導入通路23と連通させ、可撓
性部品供給用案内部材11と可撓性部品送出用案内部材
10と加圧空気導入通路23と放射方向の加圧空気導入
通路4と中心軸方向の加圧空気導入通路24と加圧空気
導入口14と可撓性加圧空気導入部材15を加圧空気導
入通路として連通しており、可撓性加圧空気導入部材1
5から加圧空気を導入させて前記可撓性加圧空気導入部
材15から加圧空気導入通路23を介して可撓性部品送
出用案内部材10につなぎ、加圧空気を導入させて、バ
ルブステム7とバルブハウジング8に加圧空気導入圧を
かけることにより、バルブステム7とバルブハウジング
8を可撓性部品送出用案内部材10に向けて加圧空気導
入通路23に供給し、バルブステム7とバルブハウジン
グ8とはバルブステム7の後半軸状部分をバルブハウジ
ング8の前半筒状部分に嵌め込み、バルブステム7とバ
ルブハウジング8との一体結合体にして可撓性部品送出
用案内部材10に向けて送り得るようにし、その可撓性
部品送出用案内部材10の先端部にカップリング12を
設け、部品であるマウンテンキャップ9の上方窪部に部
品であるバルブステム7とバルブハウジング8との結合
体を嵌め込んで、マウンテンキャップ9とバルブステム
7とバルブハウジング8の三部品の結合体を形成し得る
ことを特徴にした流体による部品供給装置を備えたエア
ゾール噴出弁組立結合装置であり、本発明は、バルブス
テム7とバルブハウジング8との部品供給口5をそれぞ
れ別々に設けた可撓性部品供給用案内部材11によりバ
ルブステム7とバルブハウジング8をそれぞれ個別的に
供給し得る工程にし、前記部品供給口5を加圧空気吹き
込みをなし得る部品供給装置本体2内のバルブステム7
の後半軸状部分をバルブハウジング8の前半筒状部分に
嵌め込み、バルブステム7とバルブハウジング8の結合
体にし得る工程にし、それらの部品の結合体であるバル
ブステム7とバルブハウジング8の結合体の送出口6に
接続した部品送出用案内部材10の先端部に設けた部品
送出用開口部からバルブステム7とバルブハウジング8
の結合体を送り出し得る工程にし、その部品送出用開口
部の対向位置にバルブステム7とバルブハウジング8と
は別の部品のマウンテンキャップ9を供給し得る工程に
し、そのマウンテンキャップ9の上方窪部にバルブステ
ム7とバルブハウジング8の結合体を載せて嵌め込み、
その結合体にマウンテンキャップ9の上方窪部を組み立
て得る工程にすることを特徴とした流体による部品供給
装置を備えたエアゾール噴出弁組立結合装置によるエア
ゾール噴出弁組立結合方法である。SUMMARY OF THE INVENTION The present invention is a rotor drive.
Gear 17 and protruding cylindrical part 13 of rotor and rotary part
The rotating portion of the article feeding device main body is integrally connected, and no force is transmitted between the component feeding device body 2 and the projecting cylindrical portion 13 of the rotor, and the projecting cylindrical portion 13 of the rotor and the rotary component feeding part are not transmitted. Only the rotating part of the feeder body can be rotated,
The rotation maintaining member 21 of the rotor is interposed at the tip of the protruding cylindrical portion 13 of the rotor so that the part of the component feeding device main body 2 is not rotated, and the inside of the protruding cylindrical portion 13 of the rotor is pressurized air. Introducing tube 26 into O-ring 20
And the rear end portion 1 of the pressurized air introduction tube 26
4, the tip portion of the flexible pressurized air introducing member 15 is connected,
The rotating force of the rotor driving gear 17 can rotate the protruding cylindrical portion 13 of the rotor, and the rotating force is transmitted to the component feeding device main body 2 through the rotation maintaining member 21 of the rotor. The two flexible component supply guide members 11 are attached to the component feeding device main body 2, and the two flexible component supply guide members 11 are provided with the valve stem 7 and the valve housing 8 of the components. Each of them is individually supplied so as to be discharged to the pressurized air introducing passage 23, and the pressurized air introducing passage 23 is supplied from the component supply port 5 of the component feeding device main body to the component feeding outlet 6 of the component feeding device main body. The flexible member delivery guide member 10 is communicated with the pressurized air introduction passage 23 provided in the component feeding apparatus main body 2 by straddling the flexible component delivery guide member 11 and the flexible component delivery guide member 11. Member 10 and introduction of pressurized air The passage 23, the compressed air introduction passage 4 in the radial direction, the compressed air introduction passage 24 in the central axis direction, the compressed air introduction port 14, and the flexible compressed air introduction member 15 are connected as a compressed air introduction passage. And flexible pressurized air introduction member 1
5 to introduce pressurized air from the flexible pressurized air introduction member 15 to the flexible component delivery guide member 10 via the pressurized air introduction passage 23 to introduce pressurized air to introduce a valve. By applying the pressurized air introduction pressure to the stem 7 and the valve housing 8, the valve stem 7 and the valve housing 8 are supplied to the pressurized air introduction passage 23 toward the flexible component delivery guide member 10, and the valve stem 7 The valve housing 8 and the valve housing 8 connect the latter half of the stem of the valve stem 7 to the valve housing.
The flexible stem delivery guide member is fitted into the front half cylindrical portion of the ring 8 to form an integrated body of the valve stem 7 and the valve housing 8 so that the flexible stem delivery guide member 10 can be fed. The coupling 12 is provided at the tip of the mountain cap 10, and is provided in the upper recess of the mountain cap 9, which is a component.
Connection of valve stem 7 and valve housing 8
Fit the body, mountain cap 9 and valve stem
7 and a valve housing 8 are capable of forming a combined body of three parts. An aerosol injection valve assembly / coupling device provided with a component supplying device by fluid, the present invention comprising a valve stem 7 and a valve. The valve stem 7 and the valve housing 8 can be individually supplied by the flexible component supply guide members 11 in which the component supply port 5 and the housing 8 are separately provided , and the component supply port 5 is pressurized. A valve stem 7 in the body 2 of the component supply device capable of blowing air
The latter half of the shaft-shaped part of the
Fitted, the process may make the conjugate of the valve stem 7 and the valve housing 8, the valve stem 7 and parts delivery guide member 10 connected to the outlet 6 of the conjugate of the valve housing 8 is a conjugate of those parts The valve stem 7 and the valve housing 8 are provided through the component delivery opening provided at the tip.
The steps that may send out the conjugate, the process is a valve stem 7 and the valve housing 8 capable of supplying Mountain cap 9 of another component to the opposing position of the component delivery opening
Then, the combined body of the valve stem 7 and the valve housing 8 is placed and fitted into the upper recess of the mountain cap 9,
This is a method for assembling and assembling an aerosol injection valve by a device for assembling and assembling an aerosol injection valve, which is equipped with a fluid component supply device, characterized in that the step of assembling the upper recess of the mountain cap 9 is assembled to the combined body.
【0005】[0005]
【作用】本発明の流体による部品供給装置を備えたエア
ゾール噴出弁組立結合装置とその装置によるエアゾール
噴出弁組立結合方法に関する作用であるが、まず、最初
に、複数の可撓性部品供給用案内部材11と可撓性部品
送出用案内部材10と部品給送装置本体2とにより、バ
ルブステム7とバルブハウジング8をそれぞれ可撓性部
品供給用案内部材11により送り込み、次に、部品給送
装置本体2の内側に位置したローターの突出円筒状部分
13をローター駆動用歯車17の回転力により回転させ
て、可撓性部品送出用案内部材10を部品給送装置本体
2に設けた加圧空気導入通路23と連通させ、可撓性部
品供給用案内部材11と可撓性部品送出用案内部材10
と加圧空気導入通路23と放射方向の加圧空気導入通路
25と中心軸方向の加圧空気導入通路24と加圧空気導
入口14と可撓性加圧空気導入部材15を連通してお
り、可撓性加圧空気導入部材15からの加圧空気の導入
によりバルブステム7とバルブハウジング8に加圧空気
導入圧をかけることにより、バルブステム7とバルブハ
ウジング8を可撓性部品送出用案内部材10に向けて供
給し得るようにしたのである。そこで、バルブステム7
とバルブハウジング8が加圧空気導入通路23に位置さ
せられ、加圧空気導入口14からの加圧空気を受けて可
撓性部品送出用案内部材10に向けて加圧空気による移
動をし、バルブステム7とバルブハウジング8の吹き込
みをなし得る部品供給装置本体2内に、そのバルブステ
ム7の後半軸状部分にバルブハウジング8の前半筒状部
分を嵌め込み、バルブステム7とバルブハウジング8の
結合体の状態で移動させられて、その部品の結合体であ
るバルブステム7とバルブハウジング8の結合体の送出
口6に接続した部品送出用案内部材10の先端部に設け
た部品送出用開口部からバルブステム7とバルブハウジ
ング8の結合体を送り出し、その部品送出用開口部の対
向位置にバルブステム7とバルブハウジング8とは別の
部品のマウンテンキャップ9を供給し得るようにし、そ
のマウンテンキャップ9の上にバルブステム7とバルブ
ハウジング8の結合体を載せてバルブステム7とバルブ
ハウジング8の結合体にマウンテンキャップ9を組立結
合し得るのである。The operation of the present invention relates to an aerosol injection valve assembly / coupling device equipped with a fluid component supply device and an aerosol injection valve assembly / coupling method using the device. First, a plurality of flexible component supply guides are provided. The valve stem 7 and the valve housing 8 are respectively fed by the member 11, the flexible component feeding guide member 10 and the component feeding device main body 2 by the flexible component feeding guide member 11, and then the component feeding device. The protruding cylindrical portion 13 of the rotor located inside the main body 2 is rotated by the rotational force of the rotor driving gear 17 so that the flexible component feeding guide member 10 is provided in the component feeding device main body 2 under pressurized air. The flexible component supply guide member 11 and the flexible component delivery guide member 10 are connected to the introduction passage 23.
The compressed air introduction passage 23, the compressed air introduction passage 25 in the radial direction, the compressed air introduction passage 24 in the central axis direction, the compressed air introduction port 14, and the flexible compressed air introduction member 15 are communicated with each other. By introducing pressurized air from the flexible pressurized air introducing member 15 to apply pressurized air introduction pressure to the valve stem 7 and the valve housing 8, the valve stem 7 and the valve housing 8 are used for delivering flexible parts. The guide member 10 can be supplied. Therefore, the valve stem 7
The valve housing 8 is positioned in the pressurized air introduction passage 23, receives the pressurized air from the pressurized air introduction port 14 and moves toward the flexible component delivery guide member 10 by the pressurized air, The valve stem 7 and the valve housing 8 can be blown into the main body 2 of the component supply device, where
The first half cylindrical portion of the valve housing 8 on the second half axial portion of the valve housing 7.
The component delivery guide connected to the delivery port 6 of the valve stem 7 and the valve housing 8 which is a combination of the valve stem 7 and the valve housing 8. The combined body of the valve stem 7 and the valve housing 8 is sent out from the component delivery opening provided at the tip end of the member 10, and the valve stem 7 and the valve housing 8 are provided at positions opposite to the component delivery opening. Since the mountain cap 9 can be supplied, the combination of the valve stem 7 and the valve housing 8 can be placed on the mountain cap 9, and the mountain cap 9 can be assembled and connected to the combination of the valve stem 7 and the valve housing 8. is there.
【0006】[0006]
【実施例1】本発明は、バルブステム7などのステム部
品を風送して、次に、バルブハウジング8を風送出来る
ことは勿論であり、以上の二つの部品を、一度に、マウ
ンテンキャップ9のところに送り込み得るようにしたの
であって、ローターの部品受け溝の数によって組み付け
数を増加させることが出来るのであって、図1に示した
機構において可撓性部品供給用案内部材11で連結して
いるのでバルブ組立機の周辺で上下左右の適当なところ
で操作出来るとともに空気圧が低くても送り速度の早く
て、また、ローター駆動用歯車17とローターの突出円
筒状部分13とを一体的に結合し、ローターの突出円筒
状部分13と部品給送装置本体2は力の伝達がなく、ロ
ーターの突出円筒状部分13のみを回転し得るように
し、ローターの突出円筒状部分13の先端部分にロータ
ーの回転維持部材21を介在させて部品給送装置本体2
の部分を回転させないようにし、前記ローターの突出円
筒状部分13の内部には加圧空気導入筒をOリング20
を介して装着し、その加圧空気導入筒の後端部分に可撓
性加圧空気導入部材15を接続し、ローター駆動用歯車
17からの回転力はローターの突出円筒状部分13を回
転させることができ、また、その回転力はローターの回
転維持部材21を介在させているので部品給送装置本体
2には力の伝達がなされないようにし、二つの可撓性部
品供給用案内部材11を部品給送装置本体2に組み付
け、二つの可撓性部品供給用案内部材11は、部品のバ
ルブステム7とバルブハウジング8をそれぞれ個別的に
供給し得るようにし、そのバルブステム7の後半軸状部
分をバルブハウジング8の前半筒状部分に嵌め込み、バ
ルブステム7とバルブハウジング8の結合体の状態で移
動させ得るようにし、可撓性部品送出用案内部材10を
部品給送装置本体2に設けた加圧空気導入通路23と連
通させ、可撓性部品供給用案内部材11と可撓性部品送
出用案内部材10と加圧空気導入通路23と放射方向の
加圧空気導入通路25と中心軸方向の加圧空気導入通路
24と加圧空気導入口14と可撓性加圧空気導入部材1
5を連通しており、可撓性加圧空気導入部材15からの
加圧空気の導入によりバルブステム7とバルブハウジン
グ8に加圧空気導入圧をかけることにより、バルブステ
ム7とバルブハウジング8を可撓性部品送出用案内部材
10に向けて供給し得るようにし、その可撓性部品送出
用案内部材10の先端部にカップリング12を設け、部
品であるマウンテンキャップ9の上方に部品であるバル
ブステム7とバルブハウジング8との結合体が嵌め込ま
れてマウンテンキャップ9とバルブステム7とバルブハ
ウジング8との結合体を形成し得るようにした流体によ
る部品供給装置を備えたエアゾール噴出弁組立結合装置
である。Embodiment 1 In the present invention, it goes without saying that the stem parts such as the valve stem 7 can be blown, and then the valve housing 8 can be blown. Since it can be sent to the position of 9, the number of assembling can be increased by the number of the component receiving grooves of the rotor. In the mechanism shown in FIG. Since they are connected, they can be operated at appropriate positions in the up, down, left and right around the valve assembly machine, and the feed speed is fast even if the air pressure is low, and the rotor drive gear 17 and the protruding cylindrical portion 13 of the rotor are integrated. , The projecting cylindrical portion 13 of the rotor and the component feeding device main body 2 do not transmit force, and only the projecting cylindrical portion 13 of the rotor can rotate. The tip portion of the cylindrical portion 13 with intervening rotation retaining member 21 of the rotor component feeding apparatus main body 2
Of the O-ring 20 inside the projecting cylindrical portion 13 of the rotor so as not to rotate.
The flexible pressurized air introducing member 15 is connected to the rear end portion of the pressurized air introducing cylinder, and the rotational force from the rotor driving gear 17 rotates the protruding cylindrical portion 13 of the rotor. Further, since the rotational force of the rotor is maintained by the rotation maintaining member 21 of the rotor, the force is not transmitted to the component feeding device main body 2, and the two flexible component feeding guide members 11 are provided. assembled the parts feeding apparatus main body 2, two flexible component feed guide member 11, the valve stem 7 and the valve housing 8 of the component so each can be supplied individually, the second half axis of the valve stem 7 Section
A flexible component delivery guide member 10 is provided on the component feeding device main body 2 so that the component can be moved in a state in which the valve stem 7 and the valve housing 8 are combined with each other by being fitted into the front half cylindrical portion of the valve housing 8. The compressed air introduction passage 23 is communicated with the flexible component supply guide member 11, the flexible component delivery guide member 10, the compressed air introduction passage 23, the radial compressed air introduction passage 25, and the central axis. Direction compressed air introducing passage 24, compressed air introducing port 14, and flexible compressed air introducing member 1
5 is communicated with each other, and pressurized air introduction pressure is applied to the valve stem 7 and the valve housing 8 by introduction of pressurized air from the flexible pressurized air introduction member 15, so that the valve stem 7 and the valve housing 8 are connected to each other. The flexible component delivery guide member 10 can be supplied, and a coupling 12 is provided at the tip of the flexible component delivery guide member 10, which is a component above the mountain cap 9 which is a component. Aerosol injection valve assembly connection with a fluid component supply device such that the combination of valve stem 7 and valve housing 8 can be fitted to form the combination of mountain cap 9 and valve stem 7 and valve housing 8. It is a device.
【0007】[0007]
【実施例2】本発明は、バルブステム7とバルブハウジ
ング8との部品供給口をそれぞれ別々に設けた可撓性部
品供給用案内部材11によりバルブステム7とバルブハ
ウジング8をそれぞれ個別的に供給し得る工程にし、前
記部品供給口を加圧空気吹き込み装置を備えた部品供給
装置本体2内のバルブステム7とバルブハウジング8を
バルブステム7とバルブハウジング8の結合体にし得る
工程にし、部品のバルブステム7とバルブハウジング8
をそれぞれ個別的に供給し得る工程にし、そのバルブス
テム7の後半軸状部分をバルブハウジング8の前半筒状
部分に嵌め込み、バルブステム7とバルブハウジング8
の結合体の状態で移動させ得る工程にして、その部品の
結合体であるバルブステム7とバルブハウジング8の結
合体の送出口6に接続した部品送出用案内部材10の先
端部に設けた部品送出用開口部からバルブステム7とバ
ルブハウジング8の結合体を送り出す工程にし、その部
品送出用開口部の対向位置にバルブステム7とバルブハ
ウジング8とは別の部品のマウンテンキャップ9を供給
し得る工程にし、そのマウンテンキャップ9の上方窪部
の上にバルブステム7とバルブハウジング8の結合体を
載せてバルブステム7とバルブハウジング8の結合体を
マウンテンキャップ9の上方窪部に組立結合することを
可能にし得ることを特徴にした流体による部品供給装置
を備えたエアゾール噴出弁組立結合装置によるエアゾー
ル噴出弁組立結合方法である。[Embodiment 2] According to the present invention, the valve stem 7 and the valve housing 8 are individually supplied by the flexible component supply guide member 11 in which the component supply ports of the valve stem 7 and the valve housing 8 are provided separately. to be process, may the valve stem 7 and the valve housing 8 of the component feed port pressurized air blown in the component supplying device body 2 provided with a device to conjugates of the valve stem 7 and the valve housing 8
In the process, the parts of valve stem 7 and valve housing 8
Can be supplied individually, and the valve
The latter half of the shaft of the system 7 is cylindrical in the front half of the valve housing 8.
Fitted in parts , valve stem 7 and valve housing 8
The component provided at the tip end of the component delivery guide member 10 connected to the delivery port 6 of the combination of the valve stem 7 and the valve housing 8 which is the combination of the components in the step of moving the combination of the components. In the step of sending out the combined body of the valve stem 7 and the valve housing 8 from the delivery opening, the mountain cap 9 which is a component different from the valve stem 7 and the valve housing 8 can be supplied to the position opposite to the component delivery opening. In the process, the combined body of the valve stem 7 and the valve housing 8 is placed on the upper recess of the mountain cap 9, and the combined body of the valve stem 7 and the valve housing 8 is attached.
A method for assembling and assembling an aerosol injection valve by a device for assembling and assembling an aerosol injection valve, which is equipped with a fluid component supply device, characterized in that it can be assembled and connected to the upper recess of the mountain cap 9 .
【0008】[0008]
【効果】本発明は、バルブステム7とバルブハウジング
8との部品供給口をそれぞれ別々に設けた可撓性部品供
給用案内部材11によりバルブステム7とバルブハウジ
ング8をそれぞれ個別的に供給し得るようにし、そのバ
ルブステム7の後半軸状部分をバルブハウジング8の前
半筒状部分に嵌め込み、バルブステム7とバルブハウジ
ング8の結合体の状態で移動させ得るようにし、部品給
送装置本体2に設けた加圧空気導入通路23に送り得る
ようにし、バルブステム7とバルブハウジング8の結合
体にし得る効果がある。また、前記部品供給口を加圧空
気吹き込み装置を備えた部品供給装置本体2内のバルブ
ステム7とバルブハウジング8をバルブステム7とバル
ブハウジング8の結合体にし、その部品の結合体である
バルブステム7とバルブハウジング8の結合体の送出口
6に接続した部品送出用案内部材10の先端部に設けた
部品送出用開口部からバルブステム7とバルブハウジン
グ8の結合体を送り出し得る効果がある。そして、その
部品送出用開口部の対向位置にバルブステム7とバルブ
ハウジング8とは別の部品のマウンテンキャップ9を供
給し得るようにした効果がある。そのマウンテンキャッ
プ9の上の窪部にバルブステム7とバルブハウジング8
の結合体を載せてバルブステム7とバルブハウジング8
の結合体にマウンテンキャップ9を容易に組立結合し得
る効果がある。また、空気を吹き込んで部品の供給をす
ることになるので、部品に付着していた埃が吹き飛ばさ
れることとなり、部品の組立により出来上がる製品は埃
がないきれいな製品にし得る効果がある。また、複数の
部品同士が機械的結合よりも、空気を吹き込むことによ
り無理のない結合を可能とし得る効果がある。また、従
来のエアゾール噴出弁組立機では、ひとつの部品ごとに
機械的挿入法がなされることが主体であったが、本発明
の流体による部品供給装置を備えたエアゾール噴出弁組
立結合装置により、ひとつの部品ごとでなく複数の部品
を組立てていくことを可能にし得る効果がある。[Effect] According to the present invention, the valve stem 7 and the valve housing 8 can be individually supplied by the flexible component supply guide member 11 in which the component supply ports of the valve stem 7 and the valve housing 8 are separately provided. So that ba
The shaft portion of the rear half of the valve stem 7 is in front of the valve housing 8.
The valve stem 7 is fitted in the semi-cylindrical portion so that the valve stem 7 and the valve housing 8 can be moved in a combined state, and can be sent to the pressurized air introduction passage 23 provided in the component feeding device main body 2. There is an effect that it can be used as a combination of the valve housing 8 and the valve housing 8. Further, the valve stem 7 and the valve housing 8 in the component supply device main body 2 having a pressurized air blowing device at the component supply port are combined with the valve stem 7 and the valve housing 8 to form a valve which is a combination of the components. There is an effect that the combined body of the valve stem 7 and the valve housing 8 can be sent out from the part delivery opening provided at the tip of the part delivery guide member 10 connected to the delivery port 6 of the combined body of the stem 7 and the valve housing 8. . Then, there is an effect that the mountain cap 9 which is a component different from the valve stem 7 and the valve housing 8 can be supplied to the position facing the component delivery opening. That mountain cap
Valve stem 7 and valve housing 8 in the recess above the valve 9.
Mount the combined body of the valve stem 7 and the valve housing 8
There is an effect that the mountain cap 9 can be easily assembled and connected to the combined body. Further, since air is blown to supply the components, the dust adhering to the components is blown away, and the product produced by assembling the components can be a clean product free from dust. Further, rather than mechanically coupling the plurality of components, there is an effect that it is possible to achieve a reasonable coupling by blowing air. Further, in the conventional aerosol injection valve assembly machine, the mechanical insertion method was mainly performed for each one part, but by the aerosol injection valve assembly coupling device equipped with the fluid component supply device of the present invention, There is an effect that it is possible to assemble a plurality of parts instead of one part.
【図1】本発明を施した流体による部品供給装置を備え
たエアゾール噴出弁組立結合装置の部品供給装置の断面
図である。FIG. 1 is a cross-sectional view of a component supply device of an aerosol injection valve assembly / coupling device equipped with a fluid component supply device according to the present invention.
【図2】本発明を施した流体による部品供給装置を備え
たエアゾール噴出弁組立結合装置をその複数の可撓性部
品送出用案内部材の配置側から見た側面図である。FIG. 2 is a side view of an aerosol injection valve assembly / coupling device equipped with a fluid component supply device according to the present invention, as seen from the side where a plurality of flexible component delivery guide members are arranged.
【図3】図1の本発明を施した部品供給装置のA−A線
の部分の断面図であって、部品の供給状態を示した部品
の供給状態図である。FIG. 3 is a cross-sectional view taken along the line AA of the component supply device to which the present invention is applied in FIG. 1, and is a component supply state diagram showing a component supply state.
【図4】図1の本発明を施した部品供給装置のA−A線
の部分の断面図であって、空気の供給流路を介して空気
を供給して部品が移動した状態を示した部品の移動状態
図である。FIG. 4 is a cross-sectional view taken along the line AA of the component supply device according to the present invention in FIG. 1, showing a state in which components are moved by supplying air through an air supply passage. It is a movement state figure of a part.
【図5】図1の本発明を施した部品供給装置のA−A線
の部分の断面図であって、回転式部品供給装置の回転部
分を回転させて次の部品の供給流路に部品を供給した状
態を示した次の部品の供給状態図である。5 is a cross-sectional view taken along the line AA of the component supply device to which the present invention is applied in FIG. 1, in which the rotary part of the rotary component supply device is rotated to supply the component to the supply passage of the next component. FIG. 6 is a supply state diagram of the next component showing a state in which the component is supplied.
【図6】本発明を施した流体による部品供給装置を備え
たエアゾール噴出弁組立結合装置の部品供給装置の部品
送出用案内部材の先端部分のカップリングによりマウン
テンキャップを上方から押さえた状態にした図であっ
て、その図に加圧空気の逃し溝を有する点を明示してい
る。FIG. 6 is a state in which a mountain cap is held from above by a coupling of a tip end portion of a component delivery guide member of a component supply device of an aerosol injection valve assembly / coupling device equipped with a fluid component supply device according to the present invention. In the drawing, the point having a relief groove for pressurized air is clearly shown in the drawing.
【図7】本発明を施した流体による部品供給装置を備え
たエアゾール噴出弁組立結合装置の部品供給装置の部品
送出用案内部材の先端部分のカップリングの部分を断面
図で示し、マウンテンキャップの上にバルブステムとバ
ルブハウジングの結合体を嵌め込んだ状態を示した図で
ある。FIG. 7 is a sectional view showing a coupling portion of a tip end portion of a component delivery guide member of a component supply device of an aerosol injection valve assembly / coupling device equipped with a fluid component supply device according to the present invention; It is the figure which showed the state which fitted the coupling body of a valve stem and a valve housing on the upper part.
【図8】本発明を施した流体による部品供給装置を備え
たエアゾール噴出弁組立結合装置の部品供給装置の部品
送出用案内部材の先端部分のカップリングの部分を断面
図で示し、カップリングの部分を上昇させて、マウンテ
ンキャップの上にバルブステムとバルブハウジングの結
合体が残されていて、マウンテンキャップの部分からカ
ップリングの部分を離脱させた状態を示した図である。FIG. 8 is a sectional view showing a coupling portion of a tip portion of a component delivery guide member of a component supply device of an aerosol injection valve assembly / coupling device equipped with a fluid component supply device according to the present invention. It is the figure which showed the state which lifted the part and the coupling body of the valve stem and the valve housing was left on the mountain cap, and the part of the coupling was separated from the part of the mountain cap.
【図9】本発明を施した流体による部品供給装置を備え
たエアゾール噴出弁組立結合装置の部品供給装置の部品
送出用案内部材の先端部分のカップリングの部分をマウ
ンテンキャップの部分から離脱させた状態を示した図で
ある。FIG. 9: The coupling portion of the tip portion of the component delivery guide member of the component supply device of the aerosol injection valve assembly / coupling device equipped with the fluid component supply device according to the present invention is separated from the mountain cap part. It is the figure which showed the state.
1 回転式部品供給装置の回転部分 2 部品供給
装置本体 3 部品挿入溝 4 放射方向
の加圧空気導入通路 5 部品供給装置本体の部品供給口 6 部品供給
装置本体の部品送出口 7 部品であるバルブステム 8 部品であ
るバルブハウジング 9 部品であるマウンテンキャップ 10 可撓性部
品送出用案内部材 11 可撓性部品供給用案内部材 12 案内部材
の先端部のカップリング 13 ローターの突出円筒状部分 14 加圧空気
導入口の後端部分 15 可撓性加圧空気導入部材 16 固定アー
ム 17 ローター駆動用歯車 18 カップリ
ング用ばね 19 歯車用緩み止めナット 20 Oリング 21 ローターの回転維持部材 22 部品挿入
溝の部品案内用傾斜部 23 加圧空気導入通路 24 中心軸方
向の加圧空気導入通路 25 加圧空気の逃し溝 26 加圧空気
導入筒1 Rotating part of rotary component supply device 2 Component supply device body 3 Component insertion groove 4 Radial pressurized air introduction passage 5 Component supply port of component supply device body 6 Component delivery port of component supply device body 7 Valve which is a component Stem 8 Valve housing which is a component 9 Mountain cap which is a component 10 Flexible component delivery guide member 11 Flexible component supply guide member 12 Coupling at the tip of the guide member 13 Projecting cylindrical portion of rotor 14 Pressurization Rear end of air inlet port 15 Flexible pressurized air inlet member 16 Fixed arm 17 Rotor drive gear 18 Coupling spring 19 Gear lock nut 20 O-ring 21 Rotor rotation maintaining member 22 Component insertion groove component Guide inclined portion 23 Pressurized air introduction passage 24 Pressurized air introduction passage in the central axis direction 25 Pressurized air escape groove 26 Addition Air introduction tube
───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 平3−200622(JP,A) 特開 昭50−113757(JP,A) 実公 平3−33696(JP,Y2) 実公 平1−30419(JP,Y2) 実公 平4−15706(JP,Y2) ─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP-A-3-200622 (JP, A) JP-A-50-113757 (JP, A) Jikken 3-33696 (JP, Y2) Jikken 1- 30419 (JP, Y2) Actual Kohei Hei 4-15706 (JP, Y2)
Claims (2)
円筒状部分13と回転式部品給送装置本体の回転部分と
を一体的に結合し、部品給送装置本体2とローターの突
出円筒状部分13とは力の伝達がなく、ローターの突出
円筒状部分13と回転式部品給送装置本体の回転部分の
みを回転し得るようにし、ローターの突出円筒状部分1
3の先端部分にローターの回転維持部材21を介在させ
て部品給送装置本体2の部分を回転させないようにし、
前記ローターの突出円筒状部分13の内部には加圧空気
導入筒26をOリング20を介して装着し、その加圧空
気導入筒26の後端部分14に可撓性加圧空気導入部材
15の先端部分を接続し、ローター駆動用歯車17の回
転力はローターの突出円筒状部分13を回転させること
ができ、また、その回転力はローターの回転維持部材2
1を介在して部品給送装置本体2には力の伝達がなされ
ないようにし、二つの可撓性部品供給用案内部材11を
部品給送装置本体2に取り付け、二つの可撓性部品供給
用案内部材11には部品のバルブステム7とバルブハウ
ジング8をそれぞれ個別的に供給し、加圧空気導入通路
23に放出されるようにし、その加圧空気導入通路23
は部品給送装置本体の部品供給口5から部品給送装置本
体の部品送出口6にまたがらせ、可撓性部品送出用案内
部材10を部品給送装置本体2に設けた加圧空気導入通
路23と連通させ、可撓性部品供給用案内部材11と可
撓性部品送出用案内部材10と加圧空気導入通路23と
放射方向の加圧空気導入通路4と中心軸方向の加圧空気
導入通路24と加圧空気導入口14と可撓性加圧空気導
入部材15を加圧空気導入通路として連通しており、可
撓性加圧空気導入部材15から加圧空気を導入させて前
記可撓性加圧空気導入部材15から加圧空気導入通路2
3を介して可撓性部品送出用案内部材10につなぎ、加
圧空気を導入させて、バルブステム7とバルブハウジン
グ8に加圧空気導入圧をかけることにより、バルブステ
ム7とバルブハウジング8を可撓性部品送出用案内部材
10に向けて加圧空気導入通路23に供給し、バルブス
テム7とバルブハウジング8とはバルブステム7の後半
軸状部分をバルブハウジング8の前半筒状部分に嵌め込
み、バルブステム7とバルブハウジング8との一体結合
体にして可撓性部品送出用案内部材10に向けて送り得
るようにし、その可撓性部品送出用案内部材10の先端
部にカップリング12を設け、部品であるマウンテンキ
ャップ9の上方窪部に部品であるバルブステム7とバル
ブハウジング8との結合体を嵌め込んで、マウンテンキ
ャップ9とバルブステム7とバルブハウジング8の三部
品の結合体を形成し得ることを特徴にした流体による部
品供給装置を備えたエアゾール噴出弁組立結合装置。1. A rotor driving gear 17 and a protrusion of the rotor.
The cylindrical part 13 and the rotating part of the rotary component feeder main body
, The component feeding device main body 2 and the projecting cylindrical portion 13 of the rotor do not transmit force, and only the projecting cylindrical portion 13 of the rotor and the rotating part of the rotary component feeding device body rotate. The protruding cylindrical part 1 of the rotor
The rotation maintaining member 21 of the rotor is interposed at the tip portion of 3 to prevent the component feeding device body 2 from rotating.
A pressurized air introducing tube 26 is mounted inside the protruding cylindrical portion 13 of the rotor via an O-ring 20, and a flexible pressurized air introducing member 15 is attached to a rear end portion 14 of the pressurized air introducing tube 26. Of the rotor driving gear 17 can rotate the protruding cylindrical portion 13 of the rotor, and the rotation force of the rotor driving gear 17 can also be rotated.
The force is not transmitted to the component feeding device main body 2 through the interposition 1, and the two flexible component feeding guide members 11 are attached to the component feeding device main body 2 to supply the two flexible component feeding devices. The valve stem 7 and the valve housing 8 which are parts are individually supplied to the guide member 11 so as to be discharged into the pressurized air introduction passage 23.
Is introduced from the component supply port 5 of the component feeding device body to the component delivery port 6 of the component feeding device body, and the flexible component delivery guide member 10 is provided in the component feeding device body 2. The guide member 11 for supplying the flexible component, the guide member 10 for delivering the flexible component, the pressurized air introduction passage 23, the pressurized air introduction passage 4 in the radial direction, and the pressurized air in the central axis direction are communicated with the passage 23. The introduction passage 24, the pressurized air introduction port 14, and the flexible pressurized air introduction member 15 communicate with each other as a pressurized air introduction passage. From the flexible pressurized air introduction member 15 to the pressurized air introduction passage 2
3 is connected to the flexible component delivery guide member 10 to introduce pressurized air and apply pressurized air introduction pressure to the valve stem 7 and the valve housing 8 to connect the valve stem 7 and the valve housing 8. The pressurized air introduction passage 23 is supplied toward the flexible member delivery guide member 10, and the valve stem 7 and the valve housing 8 are the latter half of the valve stem 7.
Fit the shaft-shaped part into the front half-cylindrical part of the valve housing 8.
Only, the valve stem 7 and the valve housing 8 are integrally combined so that the valve stem 7 and the valve housing 8 can be fed toward the guide member 10 for delivering the flexible component, and the coupling 12 is provided at the tip of the guide member 10 for delivering the flexible component. Is a part of the mountain key
The valve stem 7 and the valve, which are parts, are placed in the upper recess of the cap 9.
Insert the combined body with the housing 8 and
3 parts of cap 9, valve stem 7 and valve housing 8
An aerosol injection valve assembly / coupling device having a fluid component supply device, characterized in that it can form a combined product .
部品供給口5をそれぞれ別々に設けた可撓性部品供給用
案内部材11によりバルブステム7とバルブハウジング
8をそれぞれ個別的に供給し得る工程にし、前記部品供
給口5を加圧空気吹き込みをなし得る部品供給装置本体
2内のバルブステム7の後半軸状部分をバルブハウジン
グ8の前半筒状部分に嵌め込み、バルブステム7とバル
ブハウジング8の結合体にし得る工程にし、それらの部
品の結合体であるバルブステム7とバルブハウジング8
の結合体の送出口6に接続した部品送出用案内部材10
の先端部に設けた部品送出用開口部からバルブステム7
とバルブハウジング8の結合体を送り出し得る工程に
し、その部品送出用開口部の対向位置にバルブステム7
とバルブハウジング8とは別の部品のマウンテンキャッ
プ9を供給し得る工程にし、そのマウンテンキャップ9
の上方窪部にバルブステム7とバルブハウジング8の結
合体を載せて嵌め込み、その結合体にマウンテンキャッ
プ9を組み立て得る工程にすることを特徴とした流体に
よる部品供給装置を備えたエアゾール噴出弁組立結合装
置によるエアゾール噴出弁組立結合方法。2. A step in which the valve stem 7 and the valve housing 8 can be individually supplied by a flexible component supply guide member 11 in which the component supply ports 5 of the valve stem 7 and the valve housing 8 are provided separately. Then, the latter half shaft-like portion of the valve stem 7 in the component supply device main body 2 capable of blowing pressurized air into the component supply port 5 is connected to the valve housing.
Fitting the first half cylindrical portion of the grayed 8, the process may make the conjugate of the valve stem 7 and the valve housing 8, the valve stem 7 and the valve housing 8 is a conjugate of those parts
Component guide member 10 connected to the outlet 6 of the combined body of
From the component delivery opening provided at the tip of the valve stem 7
In the process of sending out the combined body of the valve housing 8 and
The valve stem 7 at the position opposite the opening for delivering the component.
And the process capable of supplying Mountain cap 9 of another component to the valve housing 8, the Mountain cap 9
Upper recess fit to put a conjugate of the valve stem 7 and the valve housing 8 in part, the aerosol ejection valve assembly having a component feeding device by the fluid was characterized by the steps that may be assembled mountain cap 9 on the coupling body Method for assembling and assembling an aerosol jet valve by a coupling device.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP4272210A JP2691833B2 (en) | 1992-08-31 | 1992-08-31 | Aerosol ejection valve assembly / coupling device equipped with fluid component supply device and aerosol ejection valve assembly / coupling method using the device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP4272210A JP2691833B2 (en) | 1992-08-31 | 1992-08-31 | Aerosol ejection valve assembly / coupling device equipped with fluid component supply device and aerosol ejection valve assembly / coupling method using the device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH0680175A JPH0680175A (en) | 1994-03-22 |
| JP2691833B2 true JP2691833B2 (en) | 1997-12-17 |
Family
ID=17510647
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP4272210A Expired - Lifetime JP2691833B2 (en) | 1992-08-31 | 1992-08-31 | Aerosol ejection valve assembly / coupling device equipped with fluid component supply device and aerosol ejection valve assembly / coupling method using the device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2691833B2 (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| KR102286968B1 (en) * | 2020-02-04 | 2021-08-06 | 김승현 | Shooting apparatus for parts |
Family Cites Families (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS50113757A (en) * | 1974-02-20 | 1975-09-06 | ||
| JPS6430419U (en) * | 1987-08-14 | 1989-02-23 | ||
| JPH0639754Y2 (en) * | 1989-08-08 | 1994-10-19 | 株式会社トミー | Siren sound blowing mechanism for running toys |
| JPH0790898B2 (en) * | 1989-12-28 | 1995-10-04 | 矢島技研株式会社 | Parts separation and supply device |
| JPH087451Y2 (en) * | 1990-05-23 | 1996-03-04 | 横河電機株式会社 | Indexer |
-
1992
- 1992-08-31 JP JP4272210A patent/JP2691833B2/en not_active Expired - Lifetime
Also Published As
| Publication number | Publication date |
|---|---|
| JPH0680175A (en) | 1994-03-22 |
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